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authorDaniele Di Proietto <ddiproietto@google.com>2024-04-10 09:26:48 +0000
committerDaniele Di Proietto <ddiproietto@google.com>2024-04-10 09:26:48 +0000
commiteb5ef24c58d13cec289d733d03f0f3f0ed321b12 (patch)
tree4f696d7fc2f65fb1d63b4449666477447c3d3398
parent94bdc3da58ad5343e7db3c40fba76309103e342a (diff)
downloadperfetto-releases/v44.x.tar.gz
Amalgamated source for v44.0v44.0releases/v44.x
Change-Id: If7d4dbfe4dc64672f81f78318d97b94b5c36b84b
Diffstat
-rw-r--r--sdk/perfetto.cc64804
-rw-r--r--sdk/perfetto.h164605
2 files changed, 229409 insertions, 0 deletions
diff --git a/sdk/perfetto.cc b/sdk/perfetto.cc
new file mode 100644
index 000000000..7d0c4e86c
--- /dev/null
+++ b/sdk/perfetto.cc
@@ -0,0 +1,64804 @@
+// Copyright (C) 2019 The Android Open Source Project
+//
+// Licensed under the Apache License, Version 2.0 (the "License");
+// you may not use this file except in compliance with the License.
+// You may obtain a copy of the License at
+//
+// http://www.apache.org/licenses/LICENSE-2.0
+//
+// Unless required by applicable law or agreed to in writing, software
+// distributed under the License is distributed on an "AS IS" BASIS,
+// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+// See the License for the specific language governing permissions and
+// limitations under the License.
+//
+// This file is automatically generated by gen_amalgamated. Do not edit.
+
+// gen_amalgamated: predefined macros
+#if !defined(PERFETTO_IMPLEMENTATION)
+#define PERFETTO_IMPLEMENTATION
+#endif
+#include "perfetto.h"
+// gen_amalgamated begin source: src/base/default_platform.cc
+// gen_amalgamated begin header: include/perfetto/ext/base/platform.h
+/*
+ * Copyright (C) 2023 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_BASE_PLATFORM_H_
+#define INCLUDE_PERFETTO_EXT_BASE_PLATFORM_H_
+
+namespace perfetto {
+namespace base {
+namespace platform {
+
+// Executed before entering a syscall (e.g. poll, read, write etc) which might
+// block.
+// This is overridden in Google internal builds for dealing with userspace
+// scheduling.
+void BeforeMaybeBlockingSyscall();
+
+// Executed after entering a syscall (e.g. poll, read, write etc) which might
+// block.
+// This is overridden in Google internal builds for dealing with userspace
+// scheduling.
+void AfterMaybeBlockingSyscall();
+
+} // namespace platform
+} // namespace base
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_BASE_PLATFORM_H_
+/*
+ * Copyright (C) 2023 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/platform.h"
+
+namespace perfetto {
+namespace base {
+namespace platform {
+
+// This is a no-op outside of Google3 where we have some custom logic to deal
+// with the userspace scheduler.
+void BeforeMaybeBlockingSyscall() {}
+
+// This is a no-op outside of Google3 where we have some custom logic to deal
+// with the userspace scheduler.
+void AfterMaybeBlockingSyscall() {}
+
+} // namespace platform
+} // namespace base
+} // namespace perfetto
+// gen_amalgamated begin source: src/base/android_utils.cc
+// gen_amalgamated begin header: include/perfetto/ext/base/android_utils.h
+/*
+ * Copyright (C) 2021 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_BASE_ANDROID_UTILS_H_
+#define INCLUDE_PERFETTO_EXT_BASE_ANDROID_UTILS_H_
+
+#include <string>
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+
+namespace perfetto {
+namespace base {
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID)
+
+// Returns the value of the Android system property named `name`. If the
+// property does not exist, returns an empty string (a non-existing property is
+// the same as a property with an empty value for this API).
+std::string GetAndroidProp(const char* name);
+
+#endif // PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID)
+
+} // namespace base
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_BASE_ANDROID_UTILS_H_
+/*
+ * Copyright (C) 2021 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/android_utils.h"
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+
+#include <string>
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID)
+#include <sys/system_properties.h>
+#endif
+
+// gen_amalgamated expanded: #include "perfetto/base/compiler.h"
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+
+namespace perfetto {
+namespace base {
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID)
+
+std::string GetAndroidProp(const char* name) {
+ std::string ret;
+#if __ANDROID_API__ >= 26
+ const prop_info* pi = __system_property_find(name);
+ if (!pi) {
+ return ret;
+ }
+ __system_property_read_callback(
+ pi,
+ [](void* dst_void, const char*, const char* value, uint32_t) {
+ std::string& dst = *static_cast<std::string*>(dst_void);
+ dst = value;
+ },
+ &ret);
+#else // __ANDROID_API__ < 26
+ char value_buf[PROP_VALUE_MAX];
+ int len = __system_property_get(name, value_buf);
+ if (len > 0 && static_cast<size_t>(len) < sizeof(value_buf)) {
+ ret = std::string(value_buf, static_cast<size_t>(len));
+ }
+#endif
+ return ret;
+}
+
+#endif // PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID)
+
+} // namespace base
+} // namespace perfetto
+// gen_amalgamated begin source: src/base/base64.cc
+// gen_amalgamated begin header: include/perfetto/ext/base/base64.h
+// gen_amalgamated begin header: include/perfetto/ext/base/string_view.h
+// gen_amalgamated begin header: include/perfetto/ext/base/hash.h
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_BASE_HASH_H_
+#define INCLUDE_PERFETTO_EXT_BASE_HASH_H_
+
+#include <stddef.h>
+#include <stdint.h>
+#include <string>
+#include <type_traits>
+#include <utility>
+
+namespace perfetto {
+namespace base {
+
+// A helper class which computes a 64-bit hash of the input data.
+// The algorithm used is FNV-1a as it is fast and easy to implement and has
+// relatively few collisions.
+// WARNING: This hash function should not be used for any cryptographic purpose.
+class Hasher {
+ public:
+ // Creates an empty hash object
+ Hasher() {}
+
+ // Hashes a numeric value.
+ template <
+ typename T,
+ typename std::enable_if<std::is_arithmetic<T>::value, bool>::type = true>
+ void Update(T data) {
+ Update(reinterpret_cast<const char*>(&data), sizeof(data));
+ }
+
+ // Using the loop instead of "Update(str, strlen(str))" to avoid looping twice
+ void Update(const char* str) {
+ for (const auto* p = str; *p; ++p)
+ Update(*p);
+ }
+
+ // Hashes a byte array.
+ void Update(const char* data, size_t size) {
+ for (size_t i = 0; i < size; i++) {
+ result_ ^= static_cast<uint8_t>(data[i]);
+ // Note: Arithmetic overflow of unsigned integers is well defined in C++
+ // standard unlike signed integers.
+ // https://stackoverflow.com/a/41280273
+ result_ *= kFnv1a64Prime;
+ }
+ }
+
+ // Allow hashing anything that has a |data| field, a |size| field,
+ // and has the kHashable trait (e.g., base::StringView).
+ template <typename T, typename = std::enable_if<T::kHashable>>
+ void Update(const T& t) {
+ Update(t.data(), t.size());
+ }
+
+ void Update(const std::string& s) { Update(s.data(), s.size()); }
+
+ uint64_t digest() const { return result_; }
+
+ // Usage:
+ // uint64_t hashed_value = Hash::Combine(33, false, "ABC", 458L, 3u, 'x');
+ template <typename... Ts>
+ static uint64_t Combine(Ts&&... args) {
+ Hasher hasher;
+ hasher.UpdateAll(std::forward<Ts>(args)...);
+ return hasher.digest();
+ }
+
+ // `hasher.UpdateAll(33, false, "ABC")` is shorthand for:
+ // `hasher.Update(33); hasher.Update(false); hasher.Update("ABC");`
+ void UpdateAll() {}
+
+ template <typename T, typename... Ts>
+ void UpdateAll(T&& arg, Ts&&... args) {
+ Update(arg);
+ UpdateAll(std::forward<Ts>(args)...);
+ }
+
+ private:
+ static constexpr uint64_t kFnv1a64OffsetBasis = 0xcbf29ce484222325;
+ static constexpr uint64_t kFnv1a64Prime = 0x100000001b3;
+
+ uint64_t result_ = kFnv1a64OffsetBasis;
+};
+
+// This is for using already-hashed key into std::unordered_map and avoid the
+// cost of re-hashing. Example:
+// unordered_map<uint64_t, Value, AlreadyHashed> my_map.
+template <typename T>
+struct AlreadyHashed {
+ size_t operator()(const T& x) const { return static_cast<size_t>(x); }
+};
+
+// base::Hash uses base::Hasher for integer values and falls base to std::hash
+// for other types. This is needed as std::hash for integers is just the
+// identity function and Perfetto uses open-addressing hash table, which are
+// very sensitive to hash quality and are known to degrade in performance
+// when using std::hash.
+template <typename T>
+struct Hash {
+ // Version for ints, using base::Hasher.
+ template <typename U = T>
+ auto operator()(const U& x) ->
+ typename std::enable_if<std::is_arithmetic<U>::value, size_t>::type
+ const {
+ Hasher hash;
+ hash.Update(x);
+ return static_cast<size_t>(hash.digest());
+ }
+
+ // Version for non-ints, falling back to std::hash.
+ template <typename U = T>
+ auto operator()(const U& x) ->
+ typename std::enable_if<!std::is_arithmetic<U>::value, size_t>::type
+ const {
+ return std::hash<U>()(x);
+ }
+};
+
+} // namespace base
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_BASE_HASH_H_
+/*
+ * Copyright (C) 2018 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_BASE_STRING_VIEW_H_
+#define INCLUDE_PERFETTO_EXT_BASE_STRING_VIEW_H_
+
+#include <string.h>
+
+#include <algorithm>
+#include <string>
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/hash.h"
+
+namespace perfetto {
+namespace base {
+
+// A string-like object that refers to a non-owned piece of memory.
+// Strings are internally NOT null terminated.
+class StringView {
+ public:
+ // Allow hashing with base::Hash.
+ static constexpr bool kHashable = true;
+ static constexpr size_t npos = static_cast<size_t>(-1);
+
+ StringView() : data_(nullptr), size_(0) {}
+ StringView(const StringView&) = default;
+ StringView& operator=(const StringView&) = default;
+ StringView(const char* data, size_t size) : data_(data), size_(size) {
+ PERFETTO_DCHECK(size == 0 || data != nullptr);
+ }
+
+ // Allow implicit conversion from any class that has a |data| and |size| field
+ // and has the kConvertibleToStringView trait (e.g., protozero::ConstChars).
+ template <typename T, typename = std::enable_if<T::kConvertibleToStringView>>
+ StringView(const T& x) : StringView(x.data, x.size) {
+ PERFETTO_DCHECK(x.size == 0 || x.data != nullptr);
+ }
+
+ // Creates a StringView from a null-terminated C string.
+ // Deliberately not "explicit".
+ StringView(const char* cstr) : data_(cstr), size_(strlen(cstr)) {
+ PERFETTO_DCHECK(cstr != nullptr);
+ }
+
+ // This instead has to be explicit, as creating a StringView out of a
+ // std::string can be subtle.
+ explicit StringView(const std::string& str)
+ : data_(str.data()), size_(str.size()) {}
+
+ bool empty() const { return size_ == 0; }
+ size_t size() const { return size_; }
+ const char* data() const { return data_; }
+ const char* begin() const { return data_; }
+ const char* end() const { return data_ + size_; }
+
+ char at(size_t pos) const {
+ PERFETTO_DCHECK(pos < size_);
+ return data_[pos];
+ }
+
+ size_t find(char c, size_t start_pos = 0) const {
+ for (size_t i = start_pos; i < size_; ++i) {
+ if (data_[i] == c)
+ return i;
+ }
+ return npos;
+ }
+
+ size_t find(const StringView& str, size_t start_pos = 0) const {
+ if (start_pos > size())
+ return npos;
+ auto it = std::search(begin() + start_pos, end(), str.begin(), str.end());
+ size_t pos = static_cast<size_t>(it - begin());
+ return pos + str.size() <= size() ? pos : npos;
+ }
+
+ size_t find(const char* str, size_t start_pos = 0) const {
+ return find(StringView(str), start_pos);
+ }
+
+ size_t rfind(char c) const {
+ for (size_t i = size_; i > 0; --i) {
+ if (data_[i - 1] == c)
+ return i - 1;
+ }
+ return npos;
+ }
+
+ StringView substr(size_t pos, size_t count = npos) const {
+ if (pos >= size_)
+ return StringView("", 0);
+ size_t rcount = std::min(count, size_ - pos);
+ return StringView(data_ + pos, rcount);
+ }
+
+ bool CaseInsensitiveEq(const StringView& other) const {
+ if (size() != other.size())
+ return false;
+ if (size() == 0)
+ return true;
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ return _strnicmp(data(), other.data(), size()) == 0;
+#else
+ return strncasecmp(data(), other.data(), size()) == 0;
+#endif
+ }
+
+ bool StartsWith(const StringView& other) const {
+ if (other.size() == 0)
+ return true;
+ if (size() == 0)
+ return false;
+ if (other.size() > size())
+ return false;
+ return memcmp(data(), other.data(), other.size()) == 0;
+ }
+
+ bool EndsWith(const StringView& other) const {
+ if (other.size() == 0)
+ return true;
+ if (size() == 0)
+ return false;
+ if (other.size() > size())
+ return false;
+ size_t off = size() - other.size();
+ return memcmp(data() + off, other.data(), other.size()) == 0;
+ }
+
+ std::string ToStdString() const {
+ return size_ == 0 ? "" : std::string(data_, size_);
+ }
+
+ uint64_t Hash() const {
+ base::Hasher hasher;
+ hasher.Update(data_, size_);
+ return hasher.digest();
+ }
+
+ private:
+ const char* data_ = nullptr;
+ size_t size_ = 0;
+};
+
+inline bool operator==(const StringView& x, const StringView& y) {
+ if (x.size() != y.size())
+ return false;
+ if (x.size() == 0)
+ return true;
+ return memcmp(x.data(), y.data(), x.size()) == 0;
+}
+
+inline bool operator!=(const StringView& x, const StringView& y) {
+ return !(x == y);
+}
+
+inline bool operator<(const StringView& x, const StringView& y) {
+ auto size = std::min(x.size(), y.size());
+ if (size == 0)
+ return x.size() < y.size();
+ int result = memcmp(x.data(), y.data(), size);
+ return result < 0 || (result == 0 && x.size() < y.size());
+}
+
+inline bool operator>=(const StringView& x, const StringView& y) {
+ return !(x < y);
+}
+
+inline bool operator>(const StringView& x, const StringView& y) {
+ return y < x;
+}
+
+inline bool operator<=(const StringView& x, const StringView& y) {
+ return !(y < x);
+}
+
+} // namespace base
+} // namespace perfetto
+
+template <>
+struct std::hash<::perfetto::base::StringView> {
+ size_t operator()(const ::perfetto::base::StringView& sv) const {
+ return static_cast<size_t>(sv.Hash());
+ }
+};
+
+#endif // INCLUDE_PERFETTO_EXT_BASE_STRING_VIEW_H_
+// gen_amalgamated begin header: include/perfetto/ext/base/utils.h
+// gen_amalgamated begin header: include/perfetto/ext/base/sys_types.h
+/*
+ * Copyright (C) 2022 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_BASE_SYS_TYPES_H_
+#define INCLUDE_PERFETTO_EXT_BASE_SYS_TYPES_H_
+
+// This headers deals with sys types commonly used in the codebase that are
+// missing on Windows.
+
+#include <sys/types.h>
+#include <cstdint>
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+
+#if !PERFETTO_BUILDFLAG(PERFETTO_COMPILER_GCC)
+// MinGW has these. clang-cl and MSVC, which use just the Windows SDK, don't.
+using uid_t = int;
+using pid_t = int;
+#endif // !GCC
+
+#if defined(_WIN64)
+using ssize_t = int64_t;
+#else
+using ssize_t = long;
+#endif // _WIN64
+
+#endif // OS_WIN
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID) && !defined(AID_SHELL)
+// From libcutils' android_filesystem_config.h .
+#define AID_SHELL 2000
+#endif
+
+namespace perfetto {
+namespace base {
+
+// The machine ID used in the tracing core.
+using MachineID = uint32_t;
+// The default value reserved for the host trace.
+constexpr MachineID kDefaultMachineID = 0;
+
+constexpr uid_t kInvalidUid = static_cast<uid_t>(-1);
+constexpr pid_t kInvalidPid = static_cast<pid_t>(-1);
+
+} // namespace base
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_BASE_SYS_TYPES_H_
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_BASE_UTILS_H_
+#define INCLUDE_PERFETTO_EXT_BASE_UTILS_H_
+
+#include <errno.h>
+#include <stddef.h>
+#include <stdint.h>
+#include <stdlib.h>
+
+#include <atomic>
+#include <functional>
+#include <memory>
+#include <string>
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+// gen_amalgamated expanded: #include "perfetto/base/compiler.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/sys_types.h"
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+// Even if Windows has errno.h, the all syscall-restart behavior does not apply.
+// Trying to handle EINTR can cause more harm than good if errno is left stale.
+// Chromium does the same.
+#define PERFETTO_EINTR(x) (x)
+#else
+#define PERFETTO_EINTR(x) \
+ ([&] { \
+ decltype(x) eintr_wrapper_result; \
+ do { \
+ eintr_wrapper_result = (x); \
+ } while (eintr_wrapper_result == -1 && errno == EINTR); \
+ return eintr_wrapper_result; \
+ }())
+#endif
+
+namespace perfetto {
+namespace base {
+
+namespace internal {
+extern std::atomic<uint32_t> g_cached_page_size;
+uint32_t GetSysPageSizeSlowpath();
+} // namespace internal
+
+// Returns the system's page size. Use this when dealing with mmap, madvise and
+// similar mm-related syscalls.
+// This function might be called in hot paths. Avoid calling getpagesize() all
+// the times, in many implementations getpagesize() calls sysconf() which is
+// not cheap.
+inline uint32_t GetSysPageSize() {
+ const uint32_t page_size =
+ internal::g_cached_page_size.load(std::memory_order_relaxed);
+ return page_size != 0 ? page_size : internal::GetSysPageSizeSlowpath();
+}
+
+template <typename T, size_t TSize>
+constexpr size_t ArraySize(const T (&)[TSize]) {
+ return TSize;
+}
+
+// Function object which invokes 'free' on its parameter, which must be
+// a pointer. Can be used to store malloc-allocated pointers in std::unique_ptr:
+//
+// std::unique_ptr<int, base::FreeDeleter> foo_ptr(
+// static_cast<int*>(malloc(sizeof(int))));
+struct FreeDeleter {
+ inline void operator()(void* ptr) const { free(ptr); }
+};
+
+template <typename T>
+constexpr T AssumeLittleEndian(T value) {
+#if !PERFETTO_IS_LITTLE_ENDIAN()
+ static_assert(false, "Unimplemented on big-endian archs");
+#endif
+ return value;
+}
+
+// Round up |size| to a multiple of |alignment| (must be a power of two).
+inline constexpr size_t AlignUp(size_t size, size_t alignment) {
+ return (size + alignment - 1) & ~(alignment - 1);
+}
+
+// TODO(primiano): clean this up and move all existing usages to the constexpr
+// version above.
+template <size_t alignment>
+constexpr size_t AlignUp(size_t size) {
+ static_assert((alignment & (alignment - 1)) == 0, "alignment must be a pow2");
+ return AlignUp(size, alignment);
+}
+
+inline bool IsAgain(int err) {
+ return err == EAGAIN || err == EWOULDBLOCK;
+}
+
+// setenv(2)-equivalent. Deals with Windows vs Posix discrepancies.
+void SetEnv(const std::string& key, const std::string& value);
+
+// unsetenv(2)-equivalent. Deals with Windows vs Posix discrepancies.
+void UnsetEnv(const std::string& key);
+
+// Calls mallopt(M_PURGE, 0) on Android. Does nothing on other platforms.
+// This forces the allocator to release freed memory. This is used to work
+// around various Scudo inefficiencies. See b/170217718.
+void MaybeReleaseAllocatorMemToOS();
+
+// geteuid() on POSIX OSes, returns 0 on Windows (See comment in utils.cc).
+uid_t GetCurrentUserId();
+
+// Forks the process.
+// Parent: prints the PID of the child, calls |parent_cb| and exits from the
+// process with its return value.
+// Child: redirects stdio onto /dev/null, chdirs into / and returns.
+void Daemonize(std::function<int()> parent_cb);
+
+// Returns the path of the current executable, e.g. /foo/bar/exe.
+std::string GetCurExecutablePath();
+
+// Returns the directory where the current executable lives in, e.g. /foo/bar.
+// This is independent of cwd().
+std::string GetCurExecutableDir();
+
+// Memory returned by AlignedAlloc() must be freed via AlignedFree() not just
+// free. It makes a difference on Windows where _aligned_malloc() and
+// _aligned_free() must be paired.
+// Prefer using the AlignedAllocTyped() below which takes care of the pairing.
+void* AlignedAlloc(size_t alignment, size_t size);
+void AlignedFree(void*);
+
+// A RAII version of the above, which takes care of pairing Aligned{Alloc,Free}.
+template <typename T>
+struct AlignedDeleter {
+ inline void operator()(T* ptr) const { AlignedFree(ptr); }
+};
+
+// The remove_extent<T> here and below is to allow defining unique_ptr<T[]>.
+// As per https://en.cppreference.com/w/cpp/memory/unique_ptr the Deleter takes
+// always a T*, not a T[]*.
+template <typename T>
+using AlignedUniquePtr =
+ std::unique_ptr<T, AlignedDeleter<typename std::remove_extent<T>::type>>;
+
+template <typename T>
+AlignedUniquePtr<T> AlignedAllocTyped(size_t n_membs) {
+ using TU = typename std::remove_extent<T>::type;
+ return AlignedUniquePtr<T>(
+ static_cast<TU*>(AlignedAlloc(alignof(TU), sizeof(TU) * n_membs)));
+}
+
+// A RAII wrapper to invoke a function when leaving a function/scope.
+template <typename Func>
+class OnScopeExitWrapper {
+ public:
+ explicit OnScopeExitWrapper(Func f) : f_(std::move(f)), active_(true) {}
+ OnScopeExitWrapper(OnScopeExitWrapper&& other) noexcept
+ : f_(std::move(other.f_)), active_(other.active_) {
+ other.active_ = false;
+ }
+ ~OnScopeExitWrapper() {
+ if (active_)
+ f_();
+ }
+
+ private:
+ Func f_;
+ bool active_;
+};
+
+template <typename Func>
+PERFETTO_WARN_UNUSED_RESULT OnScopeExitWrapper<Func> OnScopeExit(Func f) {
+ return OnScopeExitWrapper<Func>(std::move(f));
+}
+
+// Returns a xxd-style hex dump (hex + ascii chars) of the input data.
+std::string HexDump(const void* data, size_t len, size_t bytes_per_line = 16);
+inline std::string HexDump(const std::string& data,
+ size_t bytes_per_line = 16) {
+ return HexDump(data.data(), data.size(), bytes_per_line);
+}
+
+} // namespace base
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_BASE_UTILS_H_
+/*
+ * Copyright (C) 2021 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_BASE_BASE64_H_
+#define INCLUDE_PERFETTO_EXT_BASE_BASE64_H_
+
+#include <optional>
+#include <string>
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/string_view.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/utils.h" // For ssize_t.
+
+namespace perfetto {
+namespace base {
+
+// Returns the length of the destination string (included '=' padding).
+// Does NOT include the size of the string null terminator.
+inline size_t Base64EncSize(size_t src_size) {
+ return (src_size + 2) / 3 * 4;
+}
+
+// Returns the upper bound on the length of the destination buffer.
+// The actual decoded length might be <= the number returned here.
+inline size_t Base64DecSize(size_t src_size) {
+ return (src_size + 3) / 4 * 3;
+}
+
+// Does NOT null-terminate |dst|.
+ssize_t Base64Encode(const void* src,
+ size_t src_size,
+ char* dst,
+ size_t dst_size);
+
+std::string Base64Encode(const void* src, size_t src_size);
+
+inline std::string Base64Encode(StringView sv) {
+ return Base64Encode(sv.data(), sv.size());
+}
+
+// Returns -1 in case of failure.
+ssize_t Base64Decode(const char* src,
+ size_t src_size,
+ uint8_t* dst,
+ size_t dst_size);
+
+std::optional<std::string> Base64Decode(const char* src, size_t src_size);
+
+inline std::optional<std::string> Base64Decode(StringView sv) {
+ return Base64Decode(sv.data(), sv.size());
+}
+
+} // namespace base
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_BASE_BASE64_H_
+/*
+ * Copyright (C) 2021 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/base64.h"
+
+namespace perfetto {
+namespace base {
+
+namespace {
+
+constexpr char kPadding = '=';
+
+constexpr char kEncTable[] =
+ "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/";
+static_assert(sizeof(kEncTable) == (1u << 6) + sizeof('\0'), "Bad table size");
+
+// Maps an ASCII character to its 6-bit value. It only contains translations
+// from '+' to 'z'. Supports the standard (+/) and URL-safe (-_) alphabets.
+constexpr uint8_t kX = 0xff; // Value used for invalid characters
+constexpr uint8_t kDecTable[] = {
+ 62, kX, 62, kX, 63, 52, 53, 54, 55, 56, // 00 - 09
+ 57, 58, 59, 60, 61, kX, kX, kX, 0, kX, // 10 - 19
+ kX, kX, 0, 1, 2, 3, 4, 5, 6, 7, // 20 - 29
+ 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, // 30 - 39
+ 18, 19, 20, 21, 22, 23, 24, 25, kX, kX, // 40 - 49
+ kX, kX, 63, kX, 26, 27, 28, 29, 30, 31, // 50 - 59
+ 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, // 60 - 69
+ 42, 43, 44, 45, 46, 47, 48, 49, 50, 51, // 70 - 79
+};
+constexpr char kMinDecChar = '+';
+constexpr char kMaxDecChar = 'z';
+static_assert(kMaxDecChar - kMinDecChar <= sizeof(kDecTable), "Bad table size");
+
+inline uint8_t DecodeChar(char c) {
+ if (c < kMinDecChar || c > kMaxDecChar)
+ return kX;
+ return kDecTable[c - kMinDecChar];
+}
+
+} // namespace
+
+ssize_t Base64Encode(const void* src,
+ size_t src_size,
+ char* dst,
+ size_t dst_size) {
+ const size_t padded_dst_size = Base64EncSize(src_size);
+ if (dst_size < padded_dst_size)
+ return -1; // Not enough space in output.
+
+ const uint8_t* rd = static_cast<const uint8_t*>(src);
+ const uint8_t* const end = rd + src_size;
+ size_t wr_size = 0;
+ while (rd < end) {
+ uint8_t s[3]{};
+ s[0] = *(rd++);
+ dst[wr_size++] = kEncTable[s[0] >> 2];
+
+ uint8_t carry0 = static_cast<uint8_t>((s[0] & 0x03) << 4);
+ if (PERFETTO_LIKELY(rd < end)) {
+ s[1] = *(rd++);
+ dst[wr_size++] = kEncTable[carry0 | (s[1] >> 4)];
+ } else {
+ dst[wr_size++] = kEncTable[carry0];
+ dst[wr_size++] = kPadding;
+ dst[wr_size++] = kPadding;
+ break;
+ }
+
+ uint8_t carry1 = static_cast<uint8_t>((s[1] & 0x0f) << 2);
+ if (PERFETTO_LIKELY(rd < end)) {
+ s[2] = *(rd++);
+ dst[wr_size++] = kEncTable[carry1 | (s[2] >> 6)];
+ } else {
+ dst[wr_size++] = kEncTable[carry1];
+ dst[wr_size++] = kPadding;
+ break;
+ }
+
+ dst[wr_size++] = kEncTable[s[2] & 0x3f];
+ }
+ PERFETTO_DCHECK(wr_size == padded_dst_size);
+ return static_cast<ssize_t>(padded_dst_size);
+}
+
+std::string Base64Encode(const void* src, size_t src_size) {
+ std::string dst;
+ dst.resize(Base64EncSize(src_size));
+ auto res = Base64Encode(src, src_size, &dst[0], dst.size());
+ PERFETTO_CHECK(res == static_cast<ssize_t>(dst.size()));
+ return dst;
+}
+
+ssize_t Base64Decode(const char* src,
+ size_t src_size,
+ uint8_t* dst,
+ size_t dst_size) {
+ const size_t min_dst_size = Base64DecSize(src_size);
+ if (dst_size < min_dst_size)
+ return -1;
+
+ const char* rd = src;
+ const char* const end = src + src_size;
+ size_t wr_size = 0;
+
+ char s[4]{};
+ while (rd < end) {
+ uint8_t d[4];
+ for (uint32_t j = 0; j < 4; j++) {
+ // Padding is only feasible for the last 2 chars of each group of 4.
+ s[j] = rd < end ? *(rd++) : (j < 2 ? '\0' : kPadding);
+ d[j] = DecodeChar(s[j]);
+ if (d[j] == kX)
+ return -1; // Invalid input char.
+ }
+ dst[wr_size] = static_cast<uint8_t>((d[0] << 2) | (d[1] >> 4));
+ dst[wr_size + 1] = static_cast<uint8_t>((d[1] << 4) | (d[2] >> 2));
+ dst[wr_size + 2] = static_cast<uint8_t>((d[2] << 6) | (d[3]));
+ wr_size += 3;
+ }
+
+ PERFETTO_CHECK(wr_size <= dst_size);
+ wr_size -= (s[3] == kPadding ? 1 : 0) + (s[2] == kPadding ? 1 : 0);
+ return static_cast<ssize_t>(wr_size);
+}
+
+std::optional<std::string> Base64Decode(const char* src, size_t src_size) {
+ std::string dst;
+ dst.resize(Base64DecSize(src_size));
+ auto res = Base64Decode(src, src_size, reinterpret_cast<uint8_t*>(&dst[0]),
+ dst.size());
+ if (res < 0)
+ return std::nullopt; // Decoding error.
+
+ PERFETTO_CHECK(res <= static_cast<ssize_t>(dst.size()));
+ dst.resize(static_cast<size_t>(res));
+ return std::make_optional(dst);
+}
+
+} // namespace base
+} // namespace perfetto
+// gen_amalgamated begin source: src/base/crash_keys.cc
+// gen_amalgamated begin header: include/perfetto/ext/base/crash_keys.h
+/*
+ * Copyright (C) 2021 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_BASE_CRASH_KEYS_H_
+#define INCLUDE_PERFETTO_EXT_BASE_CRASH_KEYS_H_
+
+#include <algorithm>
+#include <atomic>
+
+#include <stdint.h>
+#include <string.h>
+
+// gen_amalgamated expanded: #include "perfetto/base/compiler.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/string_view.h"
+
+// Crash keys are very simple global variables with static-storage that
+// are reported on crash time for managed crashes (CHECK/FATAL/Watchdog).
+// - Translation units can define a CrashKey and register it at some point
+// during initialization.
+// - CrashKey instances must be long-lived. They should really be just global
+// static variable in the anonymous namespace.
+// Example:
+// subsystem_1.cc
+// CrashKey g_client_id("ipc_client_id");
+// ...
+// OnIpcReceived(client_id) {
+// g_client_id.Set(client_id);
+// ... // Process the IPC
+// g_client_id.Clear();
+// }
+// Or equivalently:
+// OnIpcReceived(client_id) {
+// auto scoped_key = g_client_id.SetScoped(client_id);
+// ... // Process the IPC
+// }
+//
+// If a crash happens while processing the IPC, the crash report will
+// have a line "ipc_client_id: 42".
+//
+// Thread safety considerations:
+// CrashKeys can be registered and set/cleared from any thread.
+// There is no compelling use-case to have full acquire/release consistency when
+// setting a key. This means that if a thread crashes immediately after a
+// crash key has been set on another thread, the value printed on the crash
+// report could be incomplete. The code guarantees defined behavior and does
+// not rely on null-terminated string (in the worst case 32 bytes of random
+// garbage will be printed out).
+
+// The tests live in logging_unittest.cc.
+
+namespace perfetto {
+namespace base {
+
+constexpr size_t kCrashKeyMaxStrSize = 32;
+
+// CrashKey instances must be long lived
+class CrashKey {
+ public:
+ class ScopedClear {
+ public:
+ explicit ScopedClear(CrashKey* k) : key_(k) {}
+ ~ScopedClear() {
+ if (key_)
+ key_->Clear();
+ }
+ ScopedClear(const ScopedClear&) = delete;
+ ScopedClear& operator=(const ScopedClear&) = delete;
+ ScopedClear& operator=(ScopedClear&&) = delete;
+ ScopedClear(ScopedClear&& other) noexcept : key_(other.key_) {
+ other.key_ = nullptr;
+ }
+
+ private:
+ CrashKey* key_;
+ };
+
+ // constexpr so it can be used in the anon namespace without requiring a
+ // global constructor.
+ // |name| must be a long-lived string.
+ constexpr explicit CrashKey(const char* name)
+ : registered_{}, type_(Type::kUnset), name_(name), str_value_{} {}
+ CrashKey(const CrashKey&) = delete;
+ CrashKey& operator=(const CrashKey&) = delete;
+ CrashKey(CrashKey&&) = delete;
+ CrashKey& operator=(CrashKey&&) = delete;
+
+ enum class Type : uint8_t { kUnset = 0, kInt, kStr };
+
+ void Clear() {
+ int_value_.store(0, std::memory_order_relaxed);
+ type_.store(Type::kUnset, std::memory_order_relaxed);
+ }
+
+ void Set(int64_t value) {
+ int_value_.store(value, std::memory_order_relaxed);
+ type_.store(Type::kInt, std::memory_order_relaxed);
+ if (PERFETTO_UNLIKELY(!registered_.load(std::memory_order_relaxed)))
+ Register();
+ }
+
+ void Set(StringView sv) {
+ size_t len = std::min(sv.size(), sizeof(str_value_) - 1);
+ for (size_t i = 0; i < len; ++i)
+ str_value_[i].store(sv.data()[i], std::memory_order_relaxed);
+ str_value_[len].store('\0', std::memory_order_relaxed);
+ type_.store(Type::kStr, std::memory_order_relaxed);
+ if (PERFETTO_UNLIKELY(!registered_.load(std::memory_order_relaxed)))
+ Register();
+ }
+
+ ScopedClear SetScoped(int64_t value) PERFETTO_WARN_UNUSED_RESULT {
+ Set(value);
+ return ScopedClear(this);
+ }
+
+ ScopedClear SetScoped(StringView sv) PERFETTO_WARN_UNUSED_RESULT {
+ Set(sv);
+ return ScopedClear(this);
+ }
+
+ void Register();
+
+ int64_t int_value() const {
+ return int_value_.load(std::memory_order_relaxed);
+ }
+ size_t ToString(char* dst, size_t len);
+
+ private:
+ std::atomic<bool> registered_;
+ std::atomic<Type> type_;
+ const char* const name_;
+ union {
+ std::atomic<char> str_value_[kCrashKeyMaxStrSize];
+ std::atomic<int64_t> int_value_;
+ };
+};
+
+// Fills |dst| with a string containing one line for each crash key
+// (excluding the unset ones).
+// Returns number of chars written, without counting the NUL terminator.
+// This is used in logging.cc when emitting the crash report abort message.
+size_t SerializeCrashKeys(char* dst, size_t len);
+
+void UnregisterAllCrashKeysForTesting();
+
+} // namespace base
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_BASE_CRASH_KEYS_H_
+// gen_amalgamated begin header: include/perfetto/ext/base/string_utils.h
+/*
+ * Copyright (C) 2018 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_BASE_STRING_UTILS_H_
+#define INCLUDE_PERFETTO_EXT_BASE_STRING_UTILS_H_
+
+#include <stdarg.h>
+#include <stdlib.h>
+#include <string.h>
+
+#include <cinttypes>
+#include <optional>
+#include <string>
+#include <vector>
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/string_view.h"
+
+namespace perfetto {
+namespace base {
+
+inline char Lowercase(char c) {
+ return ('A' <= c && c <= 'Z') ? static_cast<char>(c - ('A' - 'a')) : c;
+}
+
+inline char Uppercase(char c) {
+ return ('a' <= c && c <= 'z') ? static_cast<char>(c + ('A' - 'a')) : c;
+}
+
+inline std::optional<uint32_t> CStringToUInt32(const char* s, int base = 10) {
+ char* endptr = nullptr;
+ auto value = static_cast<uint32_t>(strtoul(s, &endptr, base));
+ return (*s && !*endptr) ? std::make_optional(value) : std::nullopt;
+}
+
+inline std::optional<int32_t> CStringToInt32(const char* s, int base = 10) {
+ char* endptr = nullptr;
+ auto value = static_cast<int32_t>(strtol(s, &endptr, base));
+ return (*s && !*endptr) ? std::make_optional(value) : std::nullopt;
+}
+
+// Note: it saturates to 7fffffffffffffff if parsing a hex number >= 0x8000...
+inline std::optional<int64_t> CStringToInt64(const char* s, int base = 10) {
+ char* endptr = nullptr;
+ auto value = static_cast<int64_t>(strtoll(s, &endptr, base));
+ return (*s && !*endptr) ? std::make_optional(value) : std::nullopt;
+}
+
+inline std::optional<uint64_t> CStringToUInt64(const char* s, int base = 10) {
+ char* endptr = nullptr;
+ auto value = static_cast<uint64_t>(strtoull(s, &endptr, base));
+ return (*s && !*endptr) ? std::make_optional(value) : std::nullopt;
+}
+
+double StrToD(const char* nptr, char** endptr);
+
+inline std::optional<double> CStringToDouble(const char* s) {
+ char* endptr = nullptr;
+ double value = StrToD(s, &endptr);
+ std::optional<double> result(std::nullopt);
+ if (*s != '\0' && *endptr == '\0')
+ result = value;
+ return result;
+}
+
+inline std::optional<uint32_t> StringToUInt32(const std::string& s,
+ int base = 10) {
+ return CStringToUInt32(s.c_str(), base);
+}
+
+inline std::optional<int32_t> StringToInt32(const std::string& s,
+ int base = 10) {
+ return CStringToInt32(s.c_str(), base);
+}
+
+inline std::optional<uint64_t> StringToUInt64(const std::string& s,
+ int base = 10) {
+ return CStringToUInt64(s.c_str(), base);
+}
+
+inline std::optional<int64_t> StringToInt64(const std::string& s,
+ int base = 10) {
+ return CStringToInt64(s.c_str(), base);
+}
+
+inline std::optional<double> StringToDouble(const std::string& s) {
+ return CStringToDouble(s.c_str());
+}
+
+bool StartsWith(const std::string& str, const std::string& prefix);
+bool EndsWith(const std::string& str, const std::string& suffix);
+bool StartsWithAny(const std::string& str,
+ const std::vector<std::string>& prefixes);
+bool Contains(const std::string& haystack, const std::string& needle);
+bool Contains(const std::string& haystack, char needle);
+size_t Find(const StringView& needle, const StringView& haystack);
+bool CaseInsensitiveEqual(const std::string& first, const std::string& second);
+std::string Join(const std::vector<std::string>& parts,
+ const std::string& delim);
+std::vector<std::string> SplitString(const std::string& text,
+ const std::string& delimiter);
+std::string StripPrefix(const std::string& str, const std::string& prefix);
+std::string StripSuffix(const std::string& str, const std::string& suffix);
+std::string TrimWhitespace(const std::string& str);
+std::string ToLower(const std::string& str);
+std::string ToUpper(const std::string& str);
+std::string StripChars(const std::string& str,
+ const std::string& chars,
+ char replacement);
+std::string ToHex(const char* data, size_t size);
+inline std::string ToHex(const std::string& s) {
+ return ToHex(s.c_str(), s.size());
+}
+std::string IntToHexString(uint32_t number);
+std::string Uint64ToHexString(uint64_t number);
+std::string Uint64ToHexStringNoPrefix(uint64_t number);
+std::string ReplaceAll(std::string str,
+ const std::string& to_replace,
+ const std::string& replacement);
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+bool WideToUTF8(const std::wstring& source, std::string& output);
+bool UTF8ToWide(const std::string& source, std::wstring& output);
+#endif // PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+
+// A BSD-style strlcpy without the return value.
+// Copies at most |dst_size|-1 characters. Unlike strncpy, it always \0
+// terminates |dst|, as long as |dst_size| is not 0.
+// Unlike strncpy and like strlcpy it does not zero-pad the rest of |dst|.
+// Returns nothing. The BSD strlcpy returns the size of |src|, which might
+// be > |dst_size|. Anecdotal experience suggests people assume the return value
+// is the number of bytes written in |dst|. That assumption can lead to
+// dangerous bugs.
+// In order to avoid being subtly uncompliant with strlcpy AND avoid misuse,
+// the choice here is to return nothing.
+inline void StringCopy(char* dst, const char* src, size_t dst_size) {
+ for (size_t i = 0; i < dst_size; ++i) {
+ if ((dst[i] = src[i]) == '\0') {
+ return; // We hit and copied the null terminator.
+ }
+ }
+
+ // We were left off at dst_size. We over copied 1 byte. Null terminate.
+ if (PERFETTO_LIKELY(dst_size > 0))
+ dst[dst_size - 1] = 0;
+}
+
+// Like snprintf() but returns the number of chars *actually* written (without
+// counting the null terminator) NOT "the number of chars which would have been
+// written to the final string if enough space had been available".
+// This should be used in almost all cases when the caller uses the return value
+// of snprintf(). If the return value is not used, there is no benefit in using
+// this wrapper, as this just calls snprintf() and mangles the return value.
+// It always null-terminates |dst| (even in case of errors), unless
+// |dst_size| == 0.
+// Examples:
+// SprintfTrunc(x, 4, "123whatever"): returns 3 and writes "123\0".
+// SprintfTrunc(x, 4, "123"): returns 3 and writes "123\0".
+// SprintfTrunc(x, 3, "123"): returns 2 and writes "12\0".
+// SprintfTrunc(x, 2, "123"): returns 1 and writes "1\0".
+// SprintfTrunc(x, 1, "123"): returns 0 and writes "\0".
+// SprintfTrunc(x, 0, "123"): returns 0 and writes nothing.
+// NOTE: This means that the caller has no way to tell when truncation happens
+// vs the edge case of *just* fitting in the buffer.
+size_t SprintfTrunc(char* dst, size_t dst_size, const char* fmt, ...)
+ PERFETTO_PRINTF_FORMAT(3, 4);
+
+// Line number starts from 1
+struct LineWithOffset {
+ base::StringView line;
+ uint32_t line_offset;
+ uint32_t line_num;
+};
+
+// For given string and offset Pfinds a line with character for
+// which offset points, what number is this line (starts from 1), and the offset
+// inside this line. returns std::nullopt if the offset points to
+// line break character or exceeds string length.
+std::optional<LineWithOffset> FindLineWithOffset(base::StringView str,
+ uint32_t offset);
+
+// A helper class to facilitate construction and usage of write-once stack
+// strings.
+// Example usage:
+// StackString<32> x("format %d %s", 42, string_arg);
+// TakeString(x.c_str() | x.string_view() | x.ToStdString());
+// Rather than char x[32] + sprintf.
+// Advantages:
+// - Avoids useless zero-fills caused by people doing `char buf[32] {}` (mainly
+// by fearing unknown snprintf failure modes).
+// - Makes the code more robust in case of snprintf truncations (len() and
+// string_view() will return the truncated length, unlike snprintf).
+template <size_t N>
+class StackString {
+ public:
+ explicit PERFETTO_PRINTF_FORMAT(/* 1=this */ 2, 3)
+ StackString(const char* fmt, ...) {
+ buf_[0] = '\0';
+ va_list args;
+ va_start(args, fmt);
+ int res = vsnprintf(buf_, sizeof(buf_), fmt, args);
+ va_end(args);
+ buf_[sizeof(buf_) - 1] = '\0';
+ len_ = res < 0 ? 0 : std::min(static_cast<size_t>(res), sizeof(buf_) - 1);
+ }
+
+ StringView string_view() const { return StringView(buf_, len_); }
+ std::string ToStdString() const { return std::string(buf_, len_); }
+ const char* c_str() const { return buf_; }
+ size_t len() const { return len_; }
+ char* mutable_data() { return buf_; }
+
+ private:
+ char buf_[N];
+ size_t len_ = 0; // Does not include the \0.
+};
+
+} // namespace base
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_BASE_STRING_UTILS_H_
+/*
+ * Copyright (C) 2021 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/crash_keys.h"
+
+#include <string.h>
+
+#include <atomic>
+#include <cinttypes>
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/string_utils.h"
+
+namespace perfetto {
+namespace base {
+
+namespace {
+
+constexpr size_t kMaxKeys = 32;
+
+std::atomic<CrashKey*> g_keys[kMaxKeys]{};
+std::atomic<uint32_t> g_num_keys{};
+} // namespace
+
+void CrashKey::Register() {
+ // If doesn't matter if we fail below. If there are no slots left, don't
+ // keep trying re-registering on every Set(), the outcome won't change.
+
+ // If two threads raced on the Register(), avoid registering the key twice.
+ if (registered_.exchange(true))
+ return;
+
+ uint32_t slot = g_num_keys.fetch_add(1);
+ if (slot >= kMaxKeys) {
+ PERFETTO_LOG("Too many crash keys registered");
+ return;
+ }
+ g_keys[slot].store(this);
+}
+
+// Returns the number of chars written, without counting the \0.
+size_t CrashKey::ToString(char* dst, size_t len) {
+ if (len > 0)
+ *dst = '\0';
+ switch (type_.load(std::memory_order_relaxed)) {
+ case Type::kUnset:
+ break;
+ case Type::kInt:
+ return SprintfTrunc(dst, len, "%s: %" PRId64 "\n", name_,
+ int_value_.load(std::memory_order_relaxed));
+ case Type::kStr:
+ char buf[sizeof(str_value_)];
+ for (size_t i = 0; i < sizeof(str_value_); i++)
+ buf[i] = str_value_[i].load(std::memory_order_relaxed);
+
+ // Don't assume |str_value_| is properly null-terminated.
+ return SprintfTrunc(dst, len, "%s: %.*s\n", name_, int(sizeof(buf)), buf);
+ }
+ return 0;
+}
+
+void UnregisterAllCrashKeysForTesting() {
+ g_num_keys.store(0);
+ for (auto& key : g_keys)
+ key.store(nullptr);
+}
+
+size_t SerializeCrashKeys(char* dst, size_t len) {
+ size_t written = 0;
+ uint32_t num_keys = g_num_keys.load();
+ if (len > 0)
+ *dst = '\0';
+ for (uint32_t i = 0; i < num_keys && written < len; i++) {
+ CrashKey* key = g_keys[i].load();
+ if (!key)
+ continue; // Can happen if we hit this between the add and the store.
+ written += key->ToString(dst + written, len - written);
+ }
+ PERFETTO_DCHECK(written <= len);
+ PERFETTO_DCHECK(len == 0 || dst[written] == '\0');
+ return written;
+}
+
+} // namespace base
+} // namespace perfetto
+// gen_amalgamated begin source: src/base/ctrl_c_handler.cc
+// gen_amalgamated begin header: include/perfetto/ext/base/ctrl_c_handler.h
+/*
+ * Copyright (C) 2021 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_BASE_CTRL_C_HANDLER_H_
+#define INCLUDE_PERFETTO_EXT_BASE_CTRL_C_HANDLER_H_
+
+namespace perfetto {
+namespace base {
+
+// On Linux/Android/Mac: installs SIGINT + SIGTERM signal handlers.
+// On Windows: installs a SetConsoleCtrlHandler() handler.
+// The passed handler must be async safe.
+using CtrlCHandlerFunction = void (*)();
+void InstallCtrlCHandler(CtrlCHandlerFunction);
+
+} // namespace base
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_BASE_CTRL_C_HANDLER_H_
+/*
+ * Copyright (C) 2021 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/ctrl_c_handler.h"
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+// gen_amalgamated expanded: #include "perfetto/base/compiler.h"
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+#include <Windows.h>
+#include <io.h>
+#else
+#include <signal.h>
+#include <unistd.h>
+#endif
+
+namespace perfetto {
+namespace base {
+
+namespace {
+CtrlCHandlerFunction g_handler = nullptr;
+}
+
+void InstallCtrlCHandler(CtrlCHandlerFunction handler) {
+ PERFETTO_CHECK(g_handler == nullptr);
+ g_handler = handler;
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ auto trampoline = [](DWORD type) -> int {
+ if (type == CTRL_C_EVENT) {
+ g_handler();
+ return true;
+ }
+ return false;
+ };
+ ::SetConsoleCtrlHandler(trampoline, true);
+#elif PERFETTO_BUILDFLAG(PERFETTO_OS_LINUX) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_APPLE)
+ // Setup signal handler.
+ struct sigaction sa {};
+
+// Glibc headers for sa_sigaction trigger this.
+#pragma GCC diagnostic push
+#if defined(__clang__)
+#pragma GCC diagnostic ignored "-Wdisabled-macro-expansion"
+#endif
+ sa.sa_handler = [](int) { g_handler(); };
+ sa.sa_flags = static_cast<decltype(sa.sa_flags)>(SA_RESETHAND | SA_RESTART);
+#pragma GCC diagnostic pop
+ sigaction(SIGINT, &sa, nullptr);
+ sigaction(SIGTERM, &sa, nullptr);
+#else
+ // Do nothing on NaCL and Fuchsia.
+ ignore_result(handler);
+#endif
+}
+
+} // namespace base
+} // namespace perfetto
+// gen_amalgamated begin source: src/base/event_fd.cc
+// gen_amalgamated begin header: include/perfetto/ext/base/event_fd.h
+// gen_amalgamated begin header: include/perfetto/ext/base/scoped_file.h
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_BASE_SCOPED_FILE_H_
+#define INCLUDE_PERFETTO_EXT_BASE_SCOPED_FILE_H_
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+
+#include <stdio.h>
+
+#if !PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+#include <dirent.h> // For DIR* / opendir().
+#endif
+
+#include <string>
+
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/base/platform_handle.h"
+
+namespace perfetto {
+namespace base {
+
+namespace internal {
+// Used for the most common cases of ScopedResource where there is only one
+// invalid value.
+template <typename T, T InvalidValue>
+struct DefaultValidityChecker {
+ static bool IsValid(T t) { return t != InvalidValue; }
+};
+} // namespace internal
+
+// RAII classes for auto-releasing fds and dirs.
+// if T is a pointer type, InvalidValue must be nullptr. Doing otherwise
+// causes weird unexpected behaviors (See https://godbolt.org/z/5nGMW4).
+template <typename T,
+ int (*CloseFunction)(T),
+ T InvalidValue,
+ bool CheckClose = true,
+ class Checker = internal::DefaultValidityChecker<T, InvalidValue>>
+class ScopedResource {
+ public:
+ using ValidityChecker = Checker;
+ static constexpr T kInvalid = InvalidValue;
+
+ explicit ScopedResource(T t = InvalidValue) : t_(t) {}
+ ScopedResource(ScopedResource&& other) noexcept {
+ t_ = other.t_;
+ other.t_ = InvalidValue;
+ }
+ ScopedResource& operator=(ScopedResource&& other) {
+ reset(other.t_);
+ other.t_ = InvalidValue;
+ return *this;
+ }
+ T get() const { return t_; }
+ T operator*() const { return t_; }
+ explicit operator bool() const { return Checker::IsValid(t_); }
+ void reset(T r = InvalidValue) {
+ if (Checker::IsValid(t_)) {
+ int res = CloseFunction(t_);
+ if (CheckClose)
+ PERFETTO_CHECK(res == 0);
+ }
+ t_ = r;
+ }
+ T release() {
+ T t = t_;
+ t_ = InvalidValue;
+ return t;
+ }
+ ~ScopedResource() { reset(InvalidValue); }
+
+ private:
+ ScopedResource(const ScopedResource&) = delete;
+ ScopedResource& operator=(const ScopedResource&) = delete;
+ T t_;
+};
+
+// Declared in file_utils.h. Forward declared to avoid #include cycles.
+int PERFETTO_EXPORT_COMPONENT CloseFile(int fd);
+
+// Use this for file resources obtained via open() and similar APIs.
+using ScopedFile = ScopedResource<int, CloseFile, -1>;
+using ScopedFstream = ScopedResource<FILE*, fclose, nullptr>;
+
+// Use this for resources that are HANDLE on Windows. See comments in
+// platform_handle.h
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+using ScopedPlatformHandle = ScopedResource<PlatformHandle,
+ ClosePlatformHandle,
+ /*InvalidValue=*/nullptr,
+ /*CheckClose=*/true,
+ PlatformHandleChecker>;
+#else
+// On non-windows systems we alias ScopedPlatformHandle to ScopedFile because
+// they are really the same. This is to allow assignments between the two in
+// Linux-specific code paths that predate ScopedPlatformHandle.
+static_assert(std::is_same<int, PlatformHandle>::value, "");
+using ScopedPlatformHandle = ScopedFile;
+
+// DIR* does not exist on Windows.
+using ScopedDir = ScopedResource<DIR*, closedir, nullptr>;
+#endif
+
+} // namespace base
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_BASE_SCOPED_FILE_H_
+/*
+ * Copyright (C) 2018 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_BASE_EVENT_FD_H_
+#define INCLUDE_PERFETTO_EXT_BASE_EVENT_FD_H_
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+// gen_amalgamated expanded: #include "perfetto/base/platform_handle.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/scoped_file.h"
+
+namespace perfetto {
+namespace base {
+
+// A waitable event that can be used with poll/select.
+// This is really a wrapper around eventfd_create with a pipe-based fallback
+// for other platforms where eventfd is not supported.
+class EventFd {
+ public:
+ EventFd();
+ ~EventFd();
+ EventFd(EventFd&&) noexcept = default;
+ EventFd& operator=(EventFd&&) = default;
+
+ // The non-blocking file descriptor that can be polled to wait for the event.
+ PlatformHandle fd() const { return event_handle_.get(); }
+
+ // Can be called from any thread.
+ void Notify();
+
+ // Can be called from any thread. If more Notify() are queued a Clear() call
+ // can clear all of them (up to 16 per call).
+ void Clear();
+
+ private:
+ // The eventfd, when eventfd is supported, otherwise this is the read end of
+ // the pipe for fallback mode.
+ ScopedPlatformHandle event_handle_;
+
+#if !PERFETTO_BUILDFLAG(PERFETTO_OS_LINUX) && \
+ !PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID) && \
+ !PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ // On Mac and other non-Linux UNIX platforms a pipe-based fallback is used.
+ // The write end of the wakeup pipe.
+ ScopedFile write_fd_;
+#endif
+};
+
+} // namespace base
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_BASE_EVENT_FD_H_
+// gen_amalgamated begin header: include/perfetto/ext/base/pipe.h
+/*
+ * Copyright (C) 2018 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_BASE_PIPE_H_
+#define INCLUDE_PERFETTO_EXT_BASE_PIPE_H_
+
+// gen_amalgamated expanded: #include "perfetto/base/platform_handle.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/scoped_file.h"
+
+namespace perfetto {
+namespace base {
+
+class Pipe {
+ public:
+ enum Flags {
+ kBothBlock = 0,
+#if !PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ kBothNonBlock,
+ kRdNonBlock,
+ kWrNonBlock,
+#endif
+ };
+
+ static Pipe Create(Flags = kBothBlock);
+
+ Pipe();
+ Pipe(Pipe&&) noexcept;
+ Pipe& operator=(Pipe&&);
+
+ ScopedPlatformHandle rd;
+ ScopedPlatformHandle wr;
+};
+
+} // namespace base
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_BASE_PIPE_H_
+/*
+ * Copyright (C) 2018 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+
+#include <errno.h>
+#include <stdint.h>
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+#include <Windows.h>
+#include <synchapi.h>
+#elif PERFETTO_BUILDFLAG(PERFETTO_OS_LINUX) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID)
+#include <sys/eventfd.h>
+#include <unistd.h>
+#else // Mac, Fuchsia and other non-Linux UNIXes
+#include <unistd.h>
+#endif
+
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/event_fd.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/pipe.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/utils.h"
+
+namespace perfetto {
+namespace base {
+
+EventFd::~EventFd() = default;
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+EventFd::EventFd() {
+ event_handle_.reset(
+ CreateEventA(/*lpEventAttributes=*/nullptr, /*bManualReset=*/true,
+ /*bInitialState=*/false, /*bInitialState=*/nullptr));
+}
+
+void EventFd::Notify() {
+ if (!SetEvent(event_handle_.get())) // 0: fail, !0: success, unlike UNIX.
+ PERFETTO_DFATAL("EventFd::Notify()");
+}
+
+void EventFd::Clear() {
+ if (!ResetEvent(event_handle_.get())) // 0: fail, !0: success, unlike UNIX.
+ PERFETTO_DFATAL("EventFd::Clear()");
+}
+
+#elif PERFETTO_BUILDFLAG(PERFETTO_OS_LINUX) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID)
+
+EventFd::EventFd() {
+ event_handle_.reset(eventfd(/*initval=*/0, EFD_CLOEXEC | EFD_NONBLOCK));
+ PERFETTO_CHECK(event_handle_);
+}
+
+void EventFd::Notify() {
+ const uint64_t value = 1;
+ ssize_t ret = write(event_handle_.get(), &value, sizeof(value));
+ if (ret <= 0 && errno != EAGAIN)
+ PERFETTO_DFATAL("EventFd::Notify()");
+}
+
+void EventFd::Clear() {
+ uint64_t value;
+ ssize_t ret =
+ PERFETTO_EINTR(read(event_handle_.get(), &value, sizeof(value)));
+ if (ret <= 0 && errno != EAGAIN)
+ PERFETTO_DFATAL("EventFd::Clear()");
+}
+
+#else
+
+EventFd::EventFd() {
+ // Make the pipe non-blocking so that we never block the waking thread (either
+ // the main thread or another one) when scheduling a wake-up.
+ Pipe pipe = Pipe::Create(Pipe::kBothNonBlock);
+ event_handle_ = ScopedPlatformHandle(std::move(pipe.rd).release());
+ write_fd_ = std::move(pipe.wr);
+}
+
+void EventFd::Notify() {
+ const uint64_t value = 1;
+ ssize_t ret = write(write_fd_.get(), &value, sizeof(uint8_t));
+ if (ret <= 0 && errno != EAGAIN)
+ PERFETTO_DFATAL("EventFd::Notify()");
+}
+
+void EventFd::Clear() {
+ // Drain the byte(s) written to the wake-up pipe. We can potentially read
+ // more than one byte if several wake-ups have been scheduled.
+ char buffer[16];
+ ssize_t ret =
+ PERFETTO_EINTR(read(event_handle_.get(), &buffer[0], sizeof(buffer)));
+ if (ret <= 0 && errno != EAGAIN)
+ PERFETTO_DFATAL("EventFd::Clear()");
+}
+#endif
+
+} // namespace base
+} // namespace perfetto
+// gen_amalgamated begin source: src/base/file_utils.cc
+// gen_amalgamated begin header: include/perfetto/ext/base/file_utils.h
+// gen_amalgamated begin header: include/perfetto/base/status.h
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_BASE_STATUS_H_
+#define INCLUDE_PERFETTO_BASE_STATUS_H_
+
+#include <optional>
+#include <string>
+#include <string_view>
+#include <vector>
+
+// gen_amalgamated expanded: #include "perfetto/base/compiler.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+
+namespace perfetto {
+namespace base {
+
+// Represents either the success or the failure message of a function.
+// This can used as the return type of functions which would usually return an
+// bool for success or int for errno but also wants to add some string context
+// (ususally for logging).
+//
+// Similar to absl::Status, an optional "payload" can also be included with more
+// context about the error. This allows passing additional metadata about the
+// error (e.g. location of errors, potential mitigations etc).
+class PERFETTO_EXPORT_COMPONENT Status {
+ public:
+ Status() : ok_(true) {}
+ explicit Status(std::string msg) : ok_(false), message_(std::move(msg)) {
+ PERFETTO_CHECK(!message_.empty());
+ }
+
+ // Copy operations.
+ Status(const Status&) = default;
+ Status& operator=(const Status&) = default;
+
+ // Move operations. The moved-from state is valid but unspecified.
+ Status(Status&&) noexcept = default;
+ Status& operator=(Status&&) = default;
+
+ bool ok() const { return ok_; }
+
+ // When ok() is false this returns the error message. Returns the empty string
+ // otherwise.
+ const std::string& message() const { return message_; }
+ const char* c_message() const { return message_.c_str(); }
+
+ //////////////////////////////////////////////////////////////////////////////
+ // Payload Management APIs
+ //////////////////////////////////////////////////////////////////////////////
+
+ // Payloads can be attached to error statuses to provide additional context.
+ //
+ // Payloads are (key, value) pairs, where the key is a string acting as a
+ // unique "type URL" and the value is an opaque string. The "type URL" should
+ // be unique, follow the format of a URL and, ideally, documentation on how to
+ // interpret its associated data should be available.
+ //
+ // To attach a payload to a status object, call `Status::SetPayload()`.
+ // Similarly, to extract the payload from a status, call
+ // `Status::GetPayload()`.
+ //
+ // Note: the payload APIs are only meaningful to call when the status is an
+ // error. Otherwise, all methods are noops.
+
+ // Gets the payload for the given |type_url| if one exists.
+ //
+ // Will always return std::nullopt if |ok()|.
+ std::optional<std::string_view> GetPayload(std::string_view type_url) const;
+
+ // Sets the payload for the given key. The key should
+ //
+ // Will always do nothing if |ok()|.
+ void SetPayload(std::string_view type_url, std::string value);
+
+ // Erases the payload for the given string and returns true if the payload
+ // existed and was erased.
+ //
+ // Will always do nothing if |ok()|.
+ bool ErasePayload(std::string_view type_url);
+
+ private:
+ struct Payload {
+ std::string type_url;
+ std::string payload;
+ };
+
+ bool ok_ = false;
+ std::string message_;
+ std::vector<Payload> payloads_;
+};
+
+// Returns a status object which represents the Ok status.
+inline Status OkStatus() {
+ return Status();
+}
+
+PERFETTO_PRINTF_FORMAT(1, 2) Status ErrStatus(const char* format, ...);
+
+} // namespace base
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_BASE_STATUS_H_
+/*
+ * Copyright (C) 2018 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_BASE_FILE_UTILS_H_
+#define INCLUDE_PERFETTO_EXT_BASE_FILE_UTILS_H_
+
+#include <fcntl.h> // For mode_t & O_RDONLY/RDWR. Exists also on Windows.
+#include <stddef.h>
+
+#include <optional>
+#include <string>
+#include <vector>
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+// gen_amalgamated expanded: #include "perfetto/base/status.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/scoped_file.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/utils.h"
+
+namespace perfetto {
+namespace base {
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+using FileOpenMode = int;
+inline constexpr char kDevNull[] = "NUL";
+#else
+using FileOpenMode = mode_t;
+inline constexpr char kDevNull[] = "/dev/null";
+#endif
+
+constexpr FileOpenMode kFileModeInvalid = static_cast<FileOpenMode>(-1);
+
+bool ReadPlatformHandle(PlatformHandle, std::string* out);
+bool ReadFileDescriptor(int fd, std::string* out);
+bool ReadFileStream(FILE* f, std::string* out);
+bool ReadFile(const std::string& path, std::string* out);
+
+// A wrapper around read(2). It deals with Linux vs Windows includes. It also
+// deals with handling EINTR. Has the same semantics of UNIX's read(2).
+ssize_t Read(int fd, void* dst, size_t dst_size);
+
+// Call write until all data is written or an error is detected.
+//
+// man 2 write:
+// If a write() is interrupted by a signal handler before any bytes are
+// written, then the call fails with the error EINTR; if it is
+// interrupted after at least one byte has been written, the call
+// succeeds, and returns the number of bytes written.
+ssize_t WriteAll(int fd, const void* buf, size_t count);
+
+ssize_t WriteAllHandle(PlatformHandle, const void* buf, size_t count);
+
+ScopedFile OpenFile(const std::string& path,
+ int flags,
+ FileOpenMode = kFileModeInvalid);
+ScopedFstream OpenFstream(const char* path, const char* mode);
+
+// This is an alias for close(). It's to avoid leaking Windows.h in headers.
+// Exported because ScopedFile is used in the /include/ext API by Chromium
+// component builds.
+int PERFETTO_EXPORT_COMPONENT CloseFile(int fd);
+
+bool FlushFile(int fd);
+
+// Returns true if mkdir succeeds, false if it fails (see errno in that case).
+bool Mkdir(const std::string& path);
+
+// Calls rmdir() on UNIX, _rmdir() on Windows.
+bool Rmdir(const std::string& path);
+
+// Wrapper around access(path, F_OK).
+bool FileExists(const std::string& path);
+
+// Gets the extension for a filename. If the file has two extensions, returns
+// only the last one (foo.pb.gz => .gz). Returns empty string if there is no
+// extension.
+std::string GetFileExtension(const std::string& filename);
+
+// Puts the path to all files under |dir_path| in |output|, recursively walking
+// subdirectories. File paths are relative to |dir_path|. Only files are
+// included, not directories. Path separator is always '/', even on windows (not
+// '\').
+base::Status ListFilesRecursive(const std::string& dir_path,
+ std::vector<std::string>& output);
+
+// Sets |path|'s owner group to |group_name| and permission mode bits to
+// |mode_bits|.
+base::Status SetFilePermissions(const std::string& path,
+ const std::string& group_name,
+ const std::string& mode_bits);
+
+// Returns the size of the file located at |path|, or nullopt in case of error.
+std::optional<uint64_t> GetFileSize(const std::string& path);
+
+// Returns the size of the open file |fd|, or nullopt in case of error.
+std::optional<uint64_t> GetFileSize(PlatformHandle fd);
+
+} // namespace base
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_BASE_FILE_UTILS_H_
+/*
+ * Copyright (C) 2018 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/file_utils.h"
+
+#include <sys/stat.h>
+#include <sys/types.h>
+
+#include <algorithm>
+#include <deque>
+#include <optional>
+#include <string>
+#include <vector>
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+// gen_amalgamated expanded: #include "perfetto/base/compiler.h"
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/base/platform_handle.h"
+// gen_amalgamated expanded: #include "perfetto/base/status.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/platform.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/scoped_file.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/string_utils.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/utils.h"
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+#include <Windows.h>
+#include <direct.h>
+#include <io.h>
+#include <stringapiset.h>
+#else
+#include <dirent.h>
+#include <unistd.h>
+#endif
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_LINUX) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_APPLE)
+#define PERFETTO_SET_FILE_PERMISSIONS
+#include <fcntl.h>
+#include <grp.h>
+#include <sys/stat.h>
+#include <sys/types.h>
+#include <unistd.h>
+#endif
+
+namespace perfetto {
+namespace base {
+namespace {
+constexpr size_t kBufSize = 2048;
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+// Wrap FindClose to: (1) make the return unix-style; (2) deal with stdcall.
+int CloseFindHandle(HANDLE h) {
+ return FindClose(h) ? 0 : -1;
+}
+
+std::optional<std::wstring> ToUtf16(const std::string str) {
+ int len = MultiByteToWideChar(CP_UTF8, 0, str.data(),
+ static_cast<int>(str.size()), nullptr, 0);
+ if (len < 0) {
+ return std::nullopt;
+ }
+ std::vector<wchar_t> tmp;
+ tmp.resize(static_cast<std::vector<wchar_t>::size_type>(len));
+ len =
+ MultiByteToWideChar(CP_UTF8, 0, str.data(), static_cast<int>(str.size()),
+ tmp.data(), static_cast<int>(tmp.size()));
+ if (len < 0) {
+ return std::nullopt;
+ }
+ PERFETTO_CHECK(static_cast<std::vector<wchar_t>::size_type>(len) ==
+ tmp.size());
+ return std::wstring(tmp.data(), tmp.size());
+}
+
+#endif
+
+} // namespace
+
+ssize_t Read(int fd, void* dst, size_t dst_size) {
+ ssize_t ret;
+ platform::BeforeMaybeBlockingSyscall();
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ ret = _read(fd, dst, static_cast<unsigned>(dst_size));
+#else
+ ret = PERFETTO_EINTR(read(fd, dst, dst_size));
+#endif
+ platform::AfterMaybeBlockingSyscall();
+ return ret;
+}
+
+bool ReadFileDescriptor(int fd, std::string* out) {
+ // Do not override existing data in string.
+ size_t i = out->size();
+
+ struct stat buf {};
+ if (fstat(fd, &buf) != -1) {
+ if (buf.st_size > 0)
+ out->resize(i + static_cast<size_t>(buf.st_size));
+ }
+
+ ssize_t bytes_read;
+ for (;;) {
+ if (out->size() < i + kBufSize)
+ out->resize(out->size() + kBufSize);
+
+ bytes_read = Read(fd, &((*out)[i]), kBufSize);
+ if (bytes_read > 0) {
+ i += static_cast<size_t>(bytes_read);
+ } else {
+ out->resize(i);
+ return bytes_read == 0;
+ }
+ }
+}
+
+bool ReadPlatformHandle(PlatformHandle h, std::string* out) {
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ // Do not override existing data in string.
+ size_t i = out->size();
+
+ for (;;) {
+ if (out->size() < i + kBufSize)
+ out->resize(out->size() + kBufSize);
+ DWORD bytes_read = 0;
+ auto res = ::ReadFile(h, &((*out)[i]), kBufSize, &bytes_read, nullptr);
+ if (res && bytes_read > 0) {
+ i += static_cast<size_t>(bytes_read);
+ } else {
+ out->resize(i);
+ const bool is_eof = res && bytes_read == 0;
+ auto err = res ? 0 : GetLastError();
+ // The "Broken pipe" error on Windows is slighly different than Unix:
+ // On Unix: a "broken pipe" error can happen only on the writer side. On
+ // the reader there is no broken pipe, just a EOF.
+ // On windows: the reader also sees a broken pipe error.
+ // Here we normalize on the Unix behavior, treating broken pipe as EOF.
+ return is_eof || err == ERROR_BROKEN_PIPE;
+ }
+ }
+#else
+ return ReadFileDescriptor(h, out);
+#endif
+}
+
+bool ReadFileStream(FILE* f, std::string* out) {
+ return ReadFileDescriptor(fileno(f), out);
+}
+
+bool ReadFile(const std::string& path, std::string* out) {
+ base::ScopedFile fd = base::OpenFile(path, O_RDONLY);
+ if (!fd)
+ return false;
+
+ return ReadFileDescriptor(*fd, out);
+}
+
+ssize_t WriteAll(int fd, const void* buf, size_t count) {
+ size_t written = 0;
+ while (written < count) {
+ // write() on windows takes an unsigned int size.
+ uint32_t bytes_left = static_cast<uint32_t>(
+ std::min(count - written, static_cast<size_t>(UINT32_MAX)));
+ platform::BeforeMaybeBlockingSyscall();
+ ssize_t wr = PERFETTO_EINTR(
+ write(fd, static_cast<const char*>(buf) + written, bytes_left));
+ platform::AfterMaybeBlockingSyscall();
+ if (wr == 0)
+ break;
+ if (wr < 0)
+ return wr;
+ written += static_cast<size_t>(wr);
+ }
+ return static_cast<ssize_t>(written);
+}
+
+ssize_t WriteAllHandle(PlatformHandle h, const void* buf, size_t count) {
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ DWORD wsize = 0;
+ if (::WriteFile(h, buf, static_cast<DWORD>(count), &wsize, nullptr)) {
+ return wsize;
+ } else {
+ return -1;
+ }
+#else
+ return WriteAll(h, buf, count);
+#endif
+}
+
+bool FlushFile(int fd) {
+ PERFETTO_DCHECK(fd != 0);
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_LINUX) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID)
+ return !PERFETTO_EINTR(fdatasync(fd));
+#elif PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ return !PERFETTO_EINTR(_commit(fd));
+#else
+ return !PERFETTO_EINTR(fsync(fd));
+#endif
+}
+
+bool Mkdir(const std::string& path) {
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ return _mkdir(path.c_str()) == 0;
+#else
+ return mkdir(path.c_str(), 0755) == 0;
+#endif
+}
+
+bool Rmdir(const std::string& path) {
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ return _rmdir(path.c_str()) == 0;
+#else
+ return rmdir(path.c_str()) == 0;
+#endif
+}
+
+int CloseFile(int fd) {
+ return close(fd);
+}
+
+ScopedFile OpenFile(const std::string& path, int flags, FileOpenMode mode) {
+ // If a new file might be created, ensure that the permissions for the new
+ // file are explicitly specified.
+ PERFETTO_CHECK((flags & O_CREAT) == 0 || mode != kFileModeInvalid);
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ // Always use O_BINARY on Windows, to avoid silly EOL translations.
+ ScopedFile fd(_open(path.c_str(), flags | O_BINARY, mode));
+#else
+ // Always open a ScopedFile with O_CLOEXEC so we can safely fork and exec.
+ ScopedFile fd(open(path.c_str(), flags | O_CLOEXEC, mode));
+#endif
+ return fd;
+}
+
+ScopedFstream OpenFstream(const char* path, const char* mode) {
+ ScopedFstream file;
+// On Windows fopen interprets filename using the ANSI or OEM codepage but
+// sqlite3_value_text returns a UTF-8 string. To make sure we interpret the
+// filename correctly we use _wfopen and a UTF-16 string on windows.
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ auto w_path = ToUtf16(path);
+ auto w_mode = ToUtf16(mode);
+ if (w_path && w_mode) {
+ file.reset(_wfopen(w_path->c_str(), w_mode->c_str()));
+ }
+#else
+ file.reset(fopen(path, mode));
+#endif
+ return file;
+}
+
+bool FileExists(const std::string& path) {
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ return _access(path.c_str(), 0) == 0;
+#else
+ return access(path.c_str(), F_OK) == 0;
+#endif
+}
+
+// Declared in base/platform_handle.h.
+int ClosePlatformHandle(PlatformHandle handle) {
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ // Make the return value UNIX-style.
+ return CloseHandle(handle) ? 0 : -1;
+#else
+ return close(handle);
+#endif
+}
+
+base::Status ListFilesRecursive(const std::string& dir_path,
+ std::vector<std::string>& output) {
+ std::string root_dir_path = dir_path;
+ if (root_dir_path.back() == '\\') {
+ root_dir_path.back() = '/';
+ } else if (root_dir_path.back() != '/') {
+ root_dir_path.push_back('/');
+ }
+
+ // dir_queue contains full paths to the directories. The paths include the
+ // root_dir_path at the beginning and the trailing slash at the end.
+ std::deque<std::string> dir_queue;
+ dir_queue.push_back(root_dir_path);
+
+ while (!dir_queue.empty()) {
+ const std::string cur_dir = std::move(dir_queue.front());
+ dir_queue.pop_front();
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_NACL)
+ return base::ErrStatus("ListFilesRecursive not supported yet");
+#elif PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ std::string glob_path = cur_dir + "*";
+ // + 1 because we also have to count the NULL terminator.
+ if (glob_path.length() + 1 > MAX_PATH)
+ return base::ErrStatus("Directory path %s is too long", dir_path.c_str());
+ WIN32_FIND_DATAA ffd;
+
+ base::ScopedResource<HANDLE, CloseFindHandle, nullptr, false,
+ base::PlatformHandleChecker>
+ hFind(FindFirstFileA(glob_path.c_str(), &ffd));
+ if (!hFind) {
+ // For empty directories, there should be at least one entry '.'.
+ // If FindFirstFileA returns INVALID_HANDLE_VALUE, this means directory
+ // couldn't be accessed.
+ return base::ErrStatus("Failed to open directory %s", cur_dir.c_str());
+ }
+ do {
+ if (strcmp(ffd.cFileName, ".") == 0 || strcmp(ffd.cFileName, "..") == 0)
+ continue;
+ if (ffd.dwFileAttributes & FILE_ATTRIBUTE_DIRECTORY) {
+ std::string subdir_path = cur_dir + ffd.cFileName + '/';
+ dir_queue.push_back(subdir_path);
+ } else {
+ const std::string full_path = cur_dir + ffd.cFileName;
+ PERFETTO_CHECK(full_path.length() > root_dir_path.length());
+ output.push_back(full_path.substr(root_dir_path.length()));
+ }
+ } while (FindNextFileA(*hFind, &ffd));
+#else
+ ScopedDir dir = ScopedDir(opendir(cur_dir.c_str()));
+ if (!dir) {
+ return base::ErrStatus("Failed to open directory %s", cur_dir.c_str());
+ }
+ for (auto* dirent = readdir(dir.get()); dirent != nullptr;
+ dirent = readdir(dir.get())) {
+ if (strcmp(dirent->d_name, ".") == 0 ||
+ strcmp(dirent->d_name, "..") == 0) {
+ continue;
+ }
+ if (dirent->d_type == DT_DIR) {
+ dir_queue.push_back(cur_dir + dirent->d_name + '/');
+ } else if (dirent->d_type == DT_REG) {
+ const std::string full_path = cur_dir + dirent->d_name;
+ PERFETTO_CHECK(full_path.length() > root_dir_path.length());
+ output.push_back(full_path.substr(root_dir_path.length()));
+ }
+ }
+#endif
+ }
+ return base::OkStatus();
+}
+
+std::string GetFileExtension(const std::string& filename) {
+ auto ext_idx = filename.rfind('.');
+ if (ext_idx == std::string::npos)
+ return std::string();
+ return filename.substr(ext_idx);
+}
+
+base::Status SetFilePermissions(const std::string& file_path,
+ const std::string& group_name_or_id,
+ const std::string& mode_bits) {
+#ifdef PERFETTO_SET_FILE_PERMISSIONS
+ PERFETTO_CHECK(!file_path.empty());
+ PERFETTO_CHECK(!group_name_or_id.empty());
+
+ // Default |group_id| to -1 for not changing the group ownership.
+ gid_t group_id = static_cast<gid_t>(-1);
+ auto maybe_group_id = base::StringToUInt32(group_name_or_id);
+ if (maybe_group_id) { // A numerical group ID.
+ group_id = *maybe_group_id;
+ } else { // A group name.
+ struct group* file_group = nullptr;
+ // Query the group ID of |group|.
+ do {
+ file_group = getgrnam(group_name_or_id.c_str());
+ } while (file_group == nullptr && errno == EINTR);
+ if (file_group == nullptr) {
+ return base::ErrStatus("Failed to get group information of %s ",
+ group_name_or_id.c_str());
+ }
+ group_id = file_group->gr_gid;
+ }
+
+ if (PERFETTO_EINTR(chown(file_path.c_str(), geteuid(), group_id))) {
+ return base::ErrStatus("Failed to chown %s ", file_path.c_str());
+ }
+
+ // |mode| accepts values like "0660" as "rw-rw----" mode bits.
+ auto mode_value = base::StringToInt32(mode_bits, 8);
+ if (!(mode_bits.size() == 4 && mode_value.has_value())) {
+ return base::ErrStatus(
+ "The chmod mode bits must be a 4-digit octal number, e.g. 0660");
+ }
+ if (PERFETTO_EINTR(
+ chmod(file_path.c_str(), static_cast<mode_t>(mode_value.value())))) {
+ return base::ErrStatus("Failed to chmod %s", file_path.c_str());
+ }
+ return base::OkStatus();
+#else
+ base::ignore_result(file_path);
+ base::ignore_result(group_name_or_id);
+ base::ignore_result(mode_bits);
+ return base::ErrStatus(
+ "Setting file permissions is not supported on this platform");
+#endif
+}
+
+std::optional<uint64_t> GetFileSize(const std::string& file_path) {
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ // This does not use base::OpenFile to avoid getting an exclusive lock.
+ base::ScopedPlatformHandle fd(
+ CreateFileA(file_path.c_str(), GENERIC_READ, FILE_SHARE_READ, nullptr,
+ OPEN_EXISTING, FILE_ATTRIBUTE_NORMAL, nullptr));
+#else
+ base::ScopedFile fd(base::OpenFile(file_path, O_RDONLY | O_CLOEXEC));
+#endif
+ if (!fd) {
+ return std::nullopt;
+ }
+ return GetFileSize(*fd);
+}
+
+std::optional<uint64_t> GetFileSize(PlatformHandle fd) {
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ LARGE_INTEGER file_size;
+ file_size.QuadPart = 0;
+ if (!GetFileSizeEx(fd, &file_size)) {
+ return std::nullopt;
+ }
+ static_assert(sizeof(decltype(file_size.QuadPart)) <= sizeof(uint64_t));
+ return static_cast<uint64_t>(file_size.QuadPart);
+#else
+ struct stat buf {};
+ if (fstat(fd, &buf) == -1) {
+ return std::nullopt;
+ }
+ static_assert(sizeof(decltype(buf.st_size)) <= sizeof(uint64_t));
+ return static_cast<uint64_t>(buf.st_size);
+#endif
+}
+
+} // namespace base
+} // namespace perfetto
+// gen_amalgamated begin source: src/base/getopt_compat.cc
+// gen_amalgamated begin header: include/perfetto/ext/base/getopt_compat.h
+/*
+ * Copyright (C) 2021 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_BASE_GETOPT_COMPAT_H_
+#define INCLUDE_PERFETTO_EXT_BASE_GETOPT_COMPAT_H_
+
+#include <cstddef> // For std::nullptr_t
+
+// No translation units other than base/getopt.h and getopt_compat_unittest.cc
+// should directly include this file. Use base/getopt.h instead.
+
+namespace perfetto {
+namespace base {
+namespace getopt_compat {
+
+// A tiny getopt() replacement for Windows, which doesn't have <getopt.h>.
+// This implementation is based on the subset of features that we use in the
+// Perfetto codebase. It doesn't even try to deal with the full surface of GNU's
+// getopt().
+// Limitations:
+// - getopt_long_only() is not supported.
+// - optional_argument is not supported. That is extremely subtle and caused us
+// problems in the past with GNU's getopt.
+// - It does not reorder non-option arguments. It behaves like MacOS getopt, or
+// GNU's when POSIXLY_CORRECT=1.
+// - Doesn't expose optopt or opterr.
+// - option.flag and longindex are not supported and must be nullptr.
+
+enum {
+ no_argument = 0,
+ required_argument = 1,
+};
+
+struct option {
+ const char* name;
+ int has_arg;
+ std::nullptr_t flag; // Only nullptr is supported.
+ int val;
+};
+
+extern char* optarg;
+extern int optind;
+extern int optopt;
+extern int opterr;
+
+int getopt_long(int argc,
+ char** argv,
+ const char* shortopts,
+ const option* longopts,
+ std::nullptr_t /*longindex is not supported*/);
+
+int getopt(int argc, char** argv, const char* shortopts);
+
+} // namespace getopt_compat
+} // namespace base
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_BASE_GETOPT_COMPAT_H_
+/*
+ * Copyright (C) 2021 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/getopt_compat.h"
+
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+
+#include <vector>
+
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+
+namespace perfetto {
+namespace base {
+namespace getopt_compat {
+
+char* optarg = nullptr;
+int optind = 0;
+int optopt = 0;
+int opterr = 1;
+
+namespace {
+
+char* nextchar = nullptr;
+
+const option* LookupLongOpt(const std::vector<option>& opts,
+ const char* name,
+ size_t len) {
+ for (const option& opt : opts) {
+ if (strncmp(opt.name, name, len) == 0 && strlen(opt.name) == len)
+ return &opt;
+ }
+ return nullptr;
+}
+
+const option* LookupShortOpt(const std::vector<option>& opts, char c) {
+ for (const option& opt : opts) {
+ if (!*opt.name && opt.val == c)
+ return &opt;
+ }
+ return nullptr;
+}
+
+bool ParseOpts(const char* shortopts,
+ const option* longopts,
+ std::vector<option>* res) {
+ // Parse long options first.
+ for (const option* lopt = longopts; lopt && lopt->name; lopt++) {
+ PERFETTO_CHECK(lopt->flag == nullptr);
+ PERFETTO_CHECK(lopt->has_arg == no_argument ||
+ lopt->has_arg == required_argument);
+ res->emplace_back(*lopt);
+ }
+
+ // Merge short options.
+ for (const char* sopt = shortopts; sopt && *sopt;) {
+ const size_t idx = static_cast<size_t>(sopt - shortopts);
+ char c = *sopt++;
+ bool valid = (c >= 'a' && c <= 'z') || (c >= 'A' && c <= 'Z') ||
+ (c >= '0' && c <= '9');
+ if (!valid) {
+ fprintf(stderr,
+ "Error parsing shortopts. Unexpected char '%c' at offset %zu\n",
+ c, idx);
+ return false;
+ }
+ res->emplace_back();
+ option& opt = res->back();
+ opt.name = "";
+ opt.val = c;
+ opt.has_arg = no_argument;
+ if (*sopt == ':') {
+ opt.has_arg = required_argument;
+ ++sopt;
+ }
+ }
+ return true;
+}
+
+} // namespace
+
+int getopt_long(int argc,
+ char** argv,
+ const char* shortopts,
+ const option* longopts,
+ std::nullptr_t /*longind*/) {
+ std::vector<option> opts;
+ optarg = nullptr;
+
+ if (optind == 0)
+ optind = 1;
+
+ if (optind >= argc)
+ return -1;
+
+ if (!ParseOpts(shortopts, longopts, &opts))
+ return '?';
+
+ char* arg = argv[optind];
+ optopt = 0;
+
+ if (!nextchar) {
+ // If |nextchar| is null we are NOT in the middle of a short option and we
+ // should parse the next argv.
+ if (strncmp(arg, "--", 2) == 0 && strlen(arg) > 2) {
+ // A --long option.
+ arg += 2;
+ char* sep = strchr(arg, '=');
+ optind++;
+
+ size_t len = sep ? static_cast<size_t>(sep - arg) : strlen(arg);
+ const option* opt = LookupLongOpt(opts, arg, len);
+
+ if (!opt) {
+ if (opterr)
+ fprintf(stderr, "unrecognized option '--%s'\n", arg);
+ return '?';
+ }
+
+ optopt = opt->val;
+ if (opt->has_arg == no_argument) {
+ if (sep) {
+ fprintf(stderr, "option '--%s' doesn't allow an argument\n", arg);
+ return '?';
+ } else {
+ return opt->val;
+ }
+ } else if (opt->has_arg == required_argument) {
+ if (sep) {
+ optarg = sep + 1;
+ return opt->val;
+ } else if (optind >= argc) {
+ if (opterr)
+ fprintf(stderr, "option '--%s' requires an argument\n", arg);
+ return '?';
+ } else {
+ optarg = argv[optind++];
+ return opt->val;
+ }
+ }
+ // has_arg must be either |no_argument| or |required_argument|. We
+ // shoulnd't get here unless the check in ParseOpts() has a bug.
+ PERFETTO_CHECK(false);
+ } // if (arg ~= "--*").
+
+ if (strlen(arg) > 1 && arg[0] == '-' && arg[1] != '-') {
+ // A sequence of short options. Parsing logic continues below.
+ nextchar = &arg[1];
+ }
+ } // if(!nextchar)
+
+ if (nextchar) {
+ // At this point either:
+ // 1. This is the first char of a sequence of short options, and we fell
+ // through here from the lines above.
+ // 2. This is the N (>1) char of a sequence of short options, and we got
+ // here from a new getopt() call to getopt().
+ const char cur_char = *nextchar;
+ PERFETTO_CHECK(cur_char != '\0');
+
+ // Advance the option char in any case, before we start reasoning on them.
+ // if we got to the end of the "-abc" sequence, increment optind so the next
+ // getopt() call resumes from the next argv argument.
+ if (*(++nextchar) == '\0') {
+ nextchar = nullptr;
+ ++optind;
+ }
+
+ const option* opt = LookupShortOpt(opts, cur_char);
+ optopt = cur_char;
+ if (!opt) {
+ if (opterr)
+ fprintf(stderr, "invalid option -- '%c'\n", cur_char);
+ return '?';
+ }
+ if (opt->has_arg == no_argument) {
+ return cur_char;
+ } else if (opt->has_arg == required_argument) {
+ // This is a subtle getopt behavior. Say you call `tar -fx`, there are
+ // two cases:
+ // 1. If 'f' is no_argument then 'x' (and anything else after) is
+ // interpreted as an independent argument (like `tar -f -x`).
+ // 2. If 'f' is required_argument, than everything else after the 'f'
+ // is interpreted as the option argument (like `tar -f x`)
+ if (!nextchar) {
+ // Case 1.
+ if (optind >= argc) {
+ if (opterr)
+ fprintf(stderr, "option requires an argument -- '%c'\n", cur_char);
+ return '?';
+ } else {
+ optarg = argv[optind++];
+ return cur_char;
+ }
+ } else {
+ // Case 2.
+ optarg = nextchar;
+ nextchar = nullptr;
+ optind++;
+ return cur_char;
+ }
+ }
+ PERFETTO_CHECK(false);
+ } // if (nextchar)
+
+ // If we get here, we found the first non-option argument. Stop here.
+
+ if (strcmp(arg, "--") == 0)
+ optind++;
+
+ return -1;
+}
+
+int getopt(int argc, char** argv, const char* shortopts) {
+ return getopt_long(argc, argv, shortopts, nullptr, nullptr);
+}
+
+} // namespace getopt_compat
+} // namespace base
+} // namespace perfetto
+// gen_amalgamated begin source: src/base/logging.cc
+// gen_amalgamated begin header: src/base/log_ring_buffer.h
+// gen_amalgamated begin header: include/perfetto/ext/base/thread_annotations.h
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_BASE_THREAD_ANNOTATIONS_H_
+#define INCLUDE_PERFETTO_EXT_BASE_THREAD_ANNOTATIONS_H_
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+
+// Windows TSAN doesn't currently support these annotations.
+#if defined(THREAD_SANITIZER) && !PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+extern "C" {
+void AnnotateBenignRaceSized(const char* file,
+ int line,
+ const volatile void* address,
+ size_t size,
+ const char* description);
+}
+
+#define PERFETTO_ANNOTATE_BENIGN_RACE_SIZED(pointer, size, description) \
+ AnnotateBenignRaceSized(__FILE__, __LINE__, pointer, size, description);
+#else // defined(ADDRESS_SANITIZER)
+#define PERFETTO_ANNOTATE_BENIGN_RACE_SIZED(pointer, size, description)
+#endif // defined(ADDRESS_SANITIZER)
+
+#endif // INCLUDE_PERFETTO_EXT_BASE_THREAD_ANNOTATIONS_H_
+/*
+ * Copyright (C) 2021 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef SRC_BASE_LOG_RING_BUFFER_H_
+#define SRC_BASE_LOG_RING_BUFFER_H_
+
+#include <stddef.h>
+#include <stdio.h>
+
+#include <array>
+#include <atomic>
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/string_view.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/thread_annotations.h"
+
+namespace perfetto {
+namespace base {
+
+// Defined out of line because a static constexpr requires static storage if
+// ODR-used, not worth adding a .cc file just for tests.
+constexpr size_t kLogRingBufEntries = 8;
+constexpr size_t kLogRingBufMsgLen = 256;
+
+// A static non-allocating ring-buffer to hold the most recent log events.
+// This class is really an implementation detail of logging.cc. The only reason
+// why is fully defined in a dedicated header is for allowing unittesting,
+// without leaking extra headers into logging.h (which is a high-fanout header).
+// This is used to report the last logs in a crash report when a CHECK/FATAL
+// is encountered.
+// This class has just an Append() method to insert events into the buffer and
+// a Read() to read the events in FIFO order. Read() is non-destructive.
+//
+// Thread safety considerations:
+// - The Append() method can be called concurrently by several threads, unless
+// there are > kLogRingBufEntries concurrent threads. Even if that happens,
+// case some events will contain a mix of strings but the behavior of
+// futher Append() and Read() is still defined.
+// - The Read() method is not thread safe but it's fine in practice. Even if
+// it's called concurrently with other Append(), it only causes some partial
+// events to be emitted in output.
+// In both cases, we never rely purely on \0, all operations are size-bound.
+//
+// See logging_unittest.cc for tests.
+class LogRingBuffer {
+ public:
+ LogRingBuffer() = default;
+ LogRingBuffer(const LogRingBuffer&) = delete;
+ LogRingBuffer& operator=(const LogRingBuffer&) = delete;
+ LogRingBuffer(LogRingBuffer&&) = delete;
+ LogRingBuffer& operator=(LogRingBuffer&&) = delete;
+
+ // This takes three arguments because it fits its only caller (logging.cc).
+ // The args are just concatenated together (plus one space before the msg).
+ void Append(StringView tstamp, StringView source, StringView log_msg) {
+ // Reserve atomically a slot in the ring buffer, so any concurrent Append()
+ // won't overlap (unless too many concurrent Append() happen together).
+ // There is no strict synchronization here, |event_slot_| is atomic only for
+ // the sake of avoiding colliding on the same slot but does NOT guarantee
+ // full consistency and integrity of the log messages written in each slot.
+ // A release-store (or acq+rel) won't be enough for full consistency. Two
+ // threads that race on Append() and take the N+1 and N+2 slots could finish
+ // the write in reverse order. So Read() would need to synchronize with
+ // something else (either a per-slot atomic flag or with a second atomic
+ // counter which is incremented after the snprintf). Both options increase
+ // the cost of Append() with no huge benefits (90% of the perfetto services
+ // where we use it is single thread, and the log ring buffer is disabled
+ // on non-standalone builds like the SDK).
+ uint32_t slot = event_slot_.fetch_add(1, std::memory_order_relaxed);
+ slot = slot % kLogRingBufEntries;
+
+ char* const msg = events_[slot];
+ PERFETTO_ANNOTATE_BENIGN_RACE_SIZED(msg, kLogRingBufMsgLen,
+ "see comments in log_ring_buffer.h")
+ snprintf(msg, kLogRingBufMsgLen, "%.*s%.*s %.*s",
+ static_cast<int>(tstamp.size()), tstamp.data(),
+ static_cast<int>(source.size()), source.data(),
+ static_cast<int>(log_msg.size()), log_msg.data());
+ }
+
+ // Reads back the buffer in FIFO order, up to |len - 1| characters at most
+ // (the -1 is because a NUL terminator is always appended, unless |len| == 0).
+ // The string written in |dst| is guaranteed to be NUL-terminated, even if
+ // |len| < buffer contents length.
+ // Returns the number of bytes written in output, excluding the \0 terminator.
+ size_t Read(char* dst, size_t len) {
+ if (len == 0)
+ return 0;
+ // This is a relaxed-load because we don't need to fully synchronize on the
+ // writing path for the reasons described in the fetch_add() above.
+ const uint32_t event_slot = event_slot_.load(std::memory_order_relaxed);
+ size_t dst_written = 0;
+ for (uint32_t pos = 0; pos < kLogRingBufEntries; ++pos) {
+ const uint32_t slot = (event_slot + pos) % kLogRingBufEntries;
+ const char* src = events_[slot];
+ if (*src == '\0')
+ continue; // Empty slot. Skip.
+ char* const wptr = dst + dst_written;
+ // |src| might not be null terminated. This can happen if some
+ // thread-race happened. Limit the copy length.
+ const size_t limit = std::min(len - dst_written, kLogRingBufMsgLen);
+ for (size_t i = 0; i < limit; ++i) {
+ const char c = src[i];
+ ++dst_written;
+ if (c == '\0' || i == limit - 1) {
+ wptr[i] = '\n';
+ break;
+ }
+ // Skip non-printable ASCII characters to avoid confusing crash reports.
+ // Note that this deliberately mangles \n. Log messages should not have
+ // a \n in the middle and are NOT \n terminated. The trailing \n between
+ // each line is appended by the if () branch above.
+ const bool is_printable = c >= ' ' && c <= '~';
+ wptr[i] = is_printable ? c : '?';
+ }
+ }
+ // Ensure that the output string is null-terminated.
+ PERFETTO_DCHECK(dst_written <= len);
+ if (dst_written == len) {
+ // In case of truncation we replace the last char with \0. But the return
+ // value is the number of chars without \0, hence the --.
+ dst[--dst_written] = '\0';
+ } else {
+ dst[dst_written] = '\0';
+ }
+ return dst_written;
+ }
+
+ private:
+ using EventBuf = char[kLogRingBufMsgLen];
+ EventBuf events_[kLogRingBufEntries]{};
+
+ static_assert((kLogRingBufEntries & (kLogRingBufEntries - 1)) == 0,
+ "kLogRingBufEntries must be a power of two");
+
+ // A monotonically increasing counter incremented on each event written.
+ // It determines which of the kLogRingBufEntries indexes in |events_| should
+ // be used next.
+ // It grows >> kLogRingBufEntries, it's supposed to be always used
+ // mod(kLogRingBufEntries). A static_assert in the .cc file ensures that
+ // kLogRingBufEntries is a power of two so wraps are aligned.
+ std::atomic<uint32_t> event_slot_{};
+};
+
+} // namespace base
+} // namespace perfetto
+
+#endif // SRC_BASE_LOG_RING_BUFFER_H_
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+
+#include <stdarg.h>
+#include <stdio.h>
+
+#if !PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+#include <unistd.h> // For isatty()
+#endif
+
+#include <atomic>
+#include <memory>
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+// gen_amalgamated expanded: #include "perfetto/base/time.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/crash_keys.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/string_utils.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/string_view.h"
+// gen_amalgamated expanded: #include "src/base/log_ring_buffer.h"
+
+#if PERFETTO_ENABLE_LOG_RING_BUFFER() && PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID)
+#include <android/set_abort_message.h>
+#endif
+
+namespace perfetto {
+namespace base {
+
+namespace {
+const char kReset[] = "\x1b[0m";
+const char kDefault[] = "\x1b[39m";
+const char kDim[] = "\x1b[2m";
+const char kRed[] = "\x1b[31m";
+const char kBoldGreen[] = "\x1b[1m\x1b[32m";
+const char kLightGray[] = "\x1b[90m";
+
+std::atomic<LogMessageCallback> g_log_callback{};
+
+#if PERFETTO_BUILDFLAG(PERFETTO_STDERR_CRASH_DUMP)
+// __attribute__((constructor)) causes a static initializer that automagically
+// early runs this function before the main().
+void PERFETTO_EXPORT_COMPONENT __attribute__((constructor))
+InitDebugCrashReporter() {
+ // This function is defined in debug_crash_stack_trace.cc.
+ // The dynamic initializer is in logging.cc because logging.cc is included
+ // in virtually any target that depends on base. Having it in
+ // debug_crash_stack_trace.cc would require figuring out -Wl,whole-archive
+ // which is not worth it.
+ EnableStacktraceOnCrashForDebug();
+}
+#endif
+
+#if PERFETTO_ENABLE_LOG_RING_BUFFER()
+LogRingBuffer g_log_ring_buffer{};
+
+// This is global to avoid allocating memory or growing too much the stack
+// in MaybeSerializeLastLogsForCrashReporting(), which is called from
+// arbitrary code paths hitting PERFETTO_CHECK()/FATAL().
+char g_crash_buf[kLogRingBufEntries * kLogRingBufMsgLen];
+#endif
+
+} // namespace
+
+void SetLogMessageCallback(LogMessageCallback callback) {
+ g_log_callback.store(callback, std::memory_order_relaxed);
+}
+
+void LogMessage(LogLev level,
+ const char* fname,
+ int line,
+ const char* fmt,
+ ...) {
+ char stack_buf[512];
+ std::unique_ptr<char[]> large_buf;
+ char* log_msg = &stack_buf[0];
+ size_t log_msg_len = 0;
+
+ // By default use a stack allocated buffer because most log messages are quite
+ // short. In rare cases they can be larger (e.g. --help). In those cases we
+ // pay the cost of allocating the buffer on the heap.
+ for (size_t max_len = sizeof(stack_buf);;) {
+ va_list args;
+ va_start(args, fmt);
+ int res = vsnprintf(log_msg, max_len, fmt, args);
+ va_end(args);
+
+ // If for any reason the print fails, overwrite the message but still print
+ // it. The code below will attach the filename and line, which is still
+ // useful.
+ if (res < 0) {
+ snprintf(log_msg, max_len, "%s", "[printf format error]");
+ break;
+ }
+
+ // if res == max_len, vsnprintf saturated the input buffer. Retry with a
+ // larger buffer in that case (within reasonable limits).
+ if (res < static_cast<int>(max_len) || max_len >= 128 * 1024) {
+ // In case of truncation vsnprintf returns the len that "would have been
+ // written if the string was longer", not the actual chars written.
+ log_msg_len = std::min(static_cast<size_t>(res), max_len - 1);
+ break;
+ }
+ max_len *= 4;
+ large_buf.reset(new char[max_len]);
+ log_msg = &large_buf[0];
+ }
+
+ LogMessageCallback cb = g_log_callback.load(std::memory_order_relaxed);
+ if (cb) {
+ cb({level, line, fname, log_msg});
+ return;
+ }
+
+ const char* color = kDefault;
+ switch (level) {
+ case kLogDebug:
+ color = kDim;
+ break;
+ case kLogInfo:
+ color = kDefault;
+ break;
+ case kLogImportant:
+ color = kBoldGreen;
+ break;
+ case kLogError:
+ color = kRed;
+ break;
+ }
+
+#if !PERFETTO_BUILDFLAG(PERFETTO_OS_WIN) && \
+ !PERFETTO_BUILDFLAG(PERFETTO_OS_WASM) && \
+ !PERFETTO_BUILDFLAG(PERFETTO_CHROMIUM_BUILD)
+ static const bool use_colors = isatty(STDERR_FILENO);
+#else
+ static const bool use_colors = false;
+#endif
+
+ // Formats file.cc:line as a space-padded fixed width string. If the file name
+ // |fname| is too long, truncate it on the left-hand side.
+ StackString<10> line_str("%d", line);
+
+ // 24 will be the width of the file.cc:line column in the log event.
+ static constexpr size_t kMaxNameAndLine = 24;
+ size_t fname_len = strlen(fname);
+ size_t fname_max = kMaxNameAndLine - line_str.len() - 2; // 2 = ':' + '\0'.
+ size_t fname_offset = fname_len <= fname_max ? 0 : fname_len - fname_max;
+ StackString<kMaxNameAndLine> file_and_line(
+ "%*s:%s", static_cast<int>(fname_max), &fname[fname_offset],
+ line_str.c_str());
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID)
+ // Logcat has already timestamping, don't re-emit it.
+ __android_log_print(int{ANDROID_LOG_DEBUG} + level, "perfetto", "%s %s",
+ file_and_line.c_str(), log_msg);
+#endif
+
+ // When printing on stderr, print also the timestamp. We don't really care
+ // about the actual time. We just need some reference clock that can be used
+ // to correlated events across differrent processses (e.g. traced and
+ // traced_probes). The wall time % 1000 is good enough.
+ uint32_t t_ms = static_cast<uint32_t>(GetWallTimeMs().count());
+ uint32_t t_sec = t_ms / 1000;
+ t_ms -= t_sec * 1000;
+ t_sec = t_sec % 1000;
+ StackString<32> timestamp("[%03u.%03u] ", t_sec, t_ms);
+
+ if (use_colors) {
+ fprintf(stderr, "%s%s%s%s %s%s%s\n", kLightGray, timestamp.c_str(),
+ file_and_line.c_str(), kReset, color, log_msg, kReset);
+ } else {
+ fprintf(stderr, "%s%s %s\n", timestamp.c_str(), file_and_line.c_str(),
+ log_msg);
+ }
+
+#if PERFETTO_ENABLE_LOG_RING_BUFFER()
+ // Append the message to the ring buffer for crash reporting postmortems.
+ StringView timestamp_sv = timestamp.string_view();
+ StringView file_and_line_sv = file_and_line.string_view();
+ StringView log_msg_sv(log_msg, static_cast<size_t>(log_msg_len));
+ g_log_ring_buffer.Append(timestamp_sv, file_and_line_sv, log_msg_sv);
+#else
+ ignore_result(log_msg_len);
+#endif
+}
+
+#if PERFETTO_ENABLE_LOG_RING_BUFFER()
+void MaybeSerializeLastLogsForCrashReporting() {
+ // Keep this function minimal. This is called from the watchdog thread, often
+ // when the system is thrashing.
+
+ // This is racy because two threads could hit a CHECK/FATAL at the same time.
+ // But if that happens we have bigger problems, not worth designing around it.
+ // The behaviour is still defined in the race case (the string attached to
+ // the crash report will contain a mixture of log strings).
+ size_t wr = 0;
+ wr += SerializeCrashKeys(&g_crash_buf[wr], sizeof(g_crash_buf) - wr);
+ wr += g_log_ring_buffer.Read(&g_crash_buf[wr], sizeof(g_crash_buf) - wr);
+
+ // Read() null-terminates the string properly. This is just to avoid UB when
+ // two threads race on each other (T1 writes a shorter string, T2
+ // overwrites the \0 writing a longer string. T1 continues here before T2
+ // finishes writing the longer string with the \0 -> boom.
+ g_crash_buf[sizeof(g_crash_buf) - 1] = '\0';
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID)
+ // android_set_abort_message() will cause debuggerd to report the message
+ // in the tombstone and in the crash log in logcat.
+ // NOTE: android_set_abort_message() can be called only once. This should
+ // be called only when we are sure we are about to crash.
+ android_set_abort_message(g_crash_buf);
+#else
+ // Print out the message on stderr on Linux/Mac/Win.
+ fputs("\n-----BEGIN PERFETTO PRE-CRASH LOG-----\n", stderr);
+ fputs(g_crash_buf, stderr);
+ fputs("\n-----END PERFETTO PRE-CRASH LOG-----\n", stderr);
+#endif
+}
+#endif // PERFETTO_ENABLE_LOG_RING_BUFFER
+
+} // namespace base
+} // namespace perfetto
+// gen_amalgamated begin source: src/base/metatrace.cc
+// gen_amalgamated begin header: include/perfetto/ext/base/metatrace.h
+// gen_amalgamated begin header: include/perfetto/ext/base/metatrace_events.h
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_BASE_METATRACE_EVENTS_H_
+#define INCLUDE_PERFETTO_EXT_BASE_METATRACE_EVENTS_H_
+
+#include <stdint.h>
+
+namespace perfetto {
+namespace metatrace {
+
+enum Tags : uint32_t {
+ TAG_NONE = 0,
+ TAG_ANY = uint32_t(-1),
+ TAG_FTRACE = 1 << 0,
+ TAG_PROC_POLLERS = 1 << 1,
+ TAG_TRACE_WRITER = 1 << 2,
+ TAG_TRACE_SERVICE = 1 << 3,
+ TAG_PRODUCER = 1 << 4,
+};
+
+// The macros below generate matching enums and arrays of string literals.
+// This is to avoid maintaining string maps manually.
+
+// clang-format off
+
+// DO NOT remove or reshuffle items in this list, only append. The ID of these
+// events are an ABI, the trace processor relies on these to open old traces.
+#define PERFETTO_METATRACE_EVENTS(F) \
+ F(EVENT_ZERO_UNUSED), \
+ F(FTRACE_CPU_READER_READ), /*unused*/ \
+ F(FTRACE_DRAIN_CPUS), /*unused*/ \
+ F(FTRACE_UNBLOCK_READERS), /*unused*/ \
+ F(FTRACE_CPU_READ_NONBLOCK), /*unused*/ \
+ F(FTRACE_CPU_READ_BLOCK), /*unused*/ \
+ F(FTRACE_CPU_SPLICE_NONBLOCK), /*unused*/ \
+ F(FTRACE_CPU_SPLICE_BLOCK), /*unused*/ \
+ F(FTRACE_CPU_WAIT_CMD), /*unused*/ \
+ F(FTRACE_CPU_RUN_CYCLE), /*unused*/ \
+ F(FTRACE_CPU_FLUSH), \
+ F(FTRACE_CPU_BUFFER_WATERMARK), \
+ F(READ_SYS_STATS), \
+ F(PS_WRITE_ALL_PROCESSES), \
+ F(PS_ON_PIDS), \
+ F(PS_ON_RENAME_PIDS), \
+ F(PS_WRITE_ALL_PROCESS_STATS), \
+ F(TRACE_WRITER_COMMIT_STARTUP_WRITER_BATCH), \
+ F(FTRACE_READ_TICK), \
+ F(FTRACE_CPU_READ_CYCLE), \
+ F(FTRACE_CPU_READ_BATCH), \
+ F(KALLSYMS_PARSE), \
+ F(PROFILER_READ_TICK), \
+ F(PROFILER_READ_CPU), \
+ F(PROFILER_UNWIND_TICK), \
+ F(PROFILER_UNWIND_SAMPLE), \
+ F(PROFILER_UNWIND_INITIAL_ATTEMPT), \
+ F(PROFILER_UNWIND_ATTEMPT), \
+ F(PROFILER_MAPS_PARSE), \
+ F(PROFILER_MAPS_REPARSE), \
+ F(PROFILER_UNWIND_CACHE_CLEAR)
+
+// Append only, see above.
+//
+// Values that aren't used as counters:
+// * FTRACE_SERVICE_COMMIT_DATA is a bit-packed representation of an event, see
+// tracing_service_impl.cc for the format.
+// * PROFILER_UNWIND_CURRENT_PID represents the PID that is being unwound.
+//
+#define PERFETTO_METATRACE_COUNTERS(F) \
+ F(COUNTER_ZERO_UNUSED),\
+ F(FTRACE_PAGES_DRAINED), \
+ F(PS_PIDS_SCANNED), \
+ F(TRACE_SERVICE_COMMIT_DATA), \
+ F(PROFILER_UNWIND_QUEUE_SZ), \
+ F(PROFILER_UNWIND_CURRENT_PID)
+
+// clang-format on
+
+#define PERFETTO_METATRACE_IDENTITY(name) name
+#define PERFETTO_METATRACE_TOSTRING(name) #name
+
+enum Events : uint16_t {
+ PERFETTO_METATRACE_EVENTS(PERFETTO_METATRACE_IDENTITY),
+ EVENTS_MAX
+};
+constexpr char const* kEventNames[] = {
+ PERFETTO_METATRACE_EVENTS(PERFETTO_METATRACE_TOSTRING)};
+
+enum Counters : uint16_t {
+ PERFETTO_METATRACE_COUNTERS(PERFETTO_METATRACE_IDENTITY),
+ COUNTERS_MAX
+};
+constexpr char const* kCounterNames[] = {
+ PERFETTO_METATRACE_COUNTERS(PERFETTO_METATRACE_TOSTRING)};
+
+inline void SuppressUnusedVarsInAmalgamatedBuild() {
+ (void)kCounterNames;
+ (void)kEventNames;
+}
+
+} // namespace metatrace
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_BASE_METATRACE_EVENTS_H_
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_BASE_METATRACE_H_
+#define INCLUDE_PERFETTO_EXT_BASE_METATRACE_H_
+
+#include <array>
+#include <atomic>
+#include <functional>
+#include <string>
+
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/base/thread_utils.h"
+// gen_amalgamated expanded: #include "perfetto/base/time.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/metatrace_events.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/utils.h"
+
+// A facility to trace execution of the perfetto codebase itself.
+// The meta-tracing framework is organized into three layers:
+//
+// 1. A static ring-buffer in base/ (this file) that supports concurrent writes
+// and a single reader.
+// The responsibility of this layer is to store events and counters as
+// efficiently as possible without re-entering any tracing code.
+// This is really a static-storage-based ring-buffer based on a POD array.
+// This layer does NOT deal with serializing the meta-trace buffer.
+// It posts a task when it's half full and expects something outside of
+// base/ to drain the ring-buffer and serialize it, eventually writing it
+// into the trace itself, before it gets 100% full.
+//
+// 2. A class in tracing/core which takes care of serializing the meta-trace
+// buffer into the trace using a TraceWriter. See metatrace_writer.h .
+//
+// 3. A data source in traced_probes that, when be enabled via the trace config,
+// injects metatrace events into the trace. See metatrace_data_source.h .
+//
+// The available events and tags are defined in metatrace_events.h .
+
+namespace perfetto {
+
+namespace base {
+class TaskRunner;
+} // namespace base
+
+namespace metatrace {
+
+// Meta-tracing is organized in "tags" that can be selectively enabled. This is
+// to enable meta-tracing only of one sub-system. This word has one "enabled"
+// bit for each tag. 0 -> meta-tracing off.
+extern std::atomic<uint32_t> g_enabled_tags;
+
+// Time of the Enable() call. Used as a reference for keeping delta timestmaps
+// in Record.
+extern std::atomic<uint64_t> g_enabled_timestamp;
+
+// Enables meta-tracing for one or more tags. Once enabled it will discard any
+// further Enable() calls and return false until disabled,
+// |read_task| is a closure that will be called enqueued |task_runner| when the
+// meta-tracing ring buffer is half full. The task is expected to read the ring
+// buffer using RingBuffer::GetReadIterator() and serialize the contents onto a
+// file or into the trace itself.
+// Must be called on the |task_runner| passed.
+// |task_runner| must have static lifetime.
+bool Enable(std::function<void()> read_task, base::TaskRunner*, uint32_t tags);
+
+// Disables meta-tracing.
+// Must be called on the same |task_runner| as Enable().
+void Disable();
+
+inline uint64_t TraceTimeNowNs() {
+ return static_cast<uint64_t>(base::GetBootTimeNs().count());
+}
+
+// Returns a relaxed view of whether metatracing is enabled for the given tag.
+// Useful for skipping unnecessary argument computation if metatracing is off.
+inline bool IsEnabled(uint32_t tag) {
+ auto enabled_tags = g_enabled_tags.load(std::memory_order_relaxed);
+ return PERFETTO_UNLIKELY((enabled_tags & tag) != 0);
+}
+
+// Holds the data for a metatrace event or counter.
+struct Record {
+ static constexpr uint16_t kTypeMask = 0x8000;
+ static constexpr uint16_t kTypeCounter = 0x8000;
+ static constexpr uint16_t kTypeEvent = 0;
+
+ uint64_t timestamp_ns() const {
+ auto base_ns = g_enabled_timestamp.load(std::memory_order_relaxed);
+ PERFETTO_DCHECK(base_ns);
+ return base_ns + ((static_cast<uint64_t>(timestamp_ns_high) << 32) |
+ timestamp_ns_low);
+ }
+
+ void set_timestamp(uint64_t ts) {
+ auto t_start = g_enabled_timestamp.load(std::memory_order_relaxed);
+ uint64_t diff = ts - t_start;
+ PERFETTO_DCHECK(diff < (1ull << 48));
+ timestamp_ns_low = static_cast<uint32_t>(diff);
+ timestamp_ns_high = static_cast<uint16_t>(diff >> 32);
+ }
+
+ // We can't just memset() this class because on MSVC std::atomic<> is not
+ // trivially constructible anymore. Also std::atomic<> has a deleted copy
+ // constructor so we cant just do "*this = Record()" either.
+ // See http://bit.ly/339Jlzd .
+ void clear() {
+ this->~Record();
+ new (this) Record();
+ }
+
+ // This field holds the type (counter vs event) in the MSB and event ID (as
+ // defined in metatrace_events.h) in the lowest 15 bits. It is also used also
+ // as a linearization point: this is always written after all the other
+ // fields with a release-store. This is so the reader can determine whether it
+ // can safely process the other event fields after a load-acquire.
+ std::atomic<uint16_t> type_and_id{};
+
+ // Timestamp is stored as a 48-bits value diffed against g_enabled_timestamp.
+ // This gives us 78 hours from Enabled().
+ uint16_t timestamp_ns_high = 0;
+ uint32_t timestamp_ns_low = 0;
+
+ uint32_t thread_id = 0;
+
+ union {
+ // Only one of the two elements can be zero initialized, clang complains
+ // about "initializing multiple members of union" otherwise.
+ uint32_t duration_ns = 0; // If type == event.
+ int32_t counter_value; // If type == counter.
+ };
+};
+
+// Hold the meta-tracing data into a statically allocated array.
+// This class uses static storage (as opposite to being a singleton) to:
+// - Have the guarantee of always valid storage, so that meta-tracing can be
+// safely used in any part of the codebase, including base/ itself.
+// - Avoid barriers that thread-safe static locals would require.
+class RingBuffer {
+ public:
+ static constexpr size_t kCapacity = 4096; // 4096 * 16 bytes = 64K.
+
+ // This iterator is not idempotent and will bump the read index in the buffer
+ // at the end of the reads. There can be only one reader at any time.
+ // Usage: for (auto it = RingBuffer::GetReadIterator(); it; ++it) { it->... }
+ class ReadIterator {
+ public:
+ ReadIterator(ReadIterator&& other) {
+ PERFETTO_DCHECK(other.valid_);
+ cur_ = other.cur_;
+ end_ = other.end_;
+ valid_ = other.valid_;
+ other.valid_ = false;
+ }
+
+ ~ReadIterator() {
+ if (!valid_)
+ return;
+ PERFETTO_DCHECK(cur_ >= RingBuffer::rd_index_);
+ PERFETTO_DCHECK(cur_ <= RingBuffer::wr_index_);
+ RingBuffer::rd_index_.store(cur_, std::memory_order_release);
+ }
+
+ explicit operator bool() const { return cur_ < end_; }
+ const Record* operator->() const { return RingBuffer::At(cur_); }
+ const Record& operator*() const { return *operator->(); }
+
+ // This is for ++it. it++ is deliberately not supported.
+ ReadIterator& operator++() {
+ PERFETTO_DCHECK(cur_ < end_);
+ // Once a record has been read, mark it as free clearing its type_and_id,
+ // so if we encounter it in another read iteration while being written
+ // we know it's not fully written yet.
+ // The memory_order_relaxed below is enough because:
+ // - The reader is single-threaded and doesn't re-read the same records.
+ // - Before starting a read batch, the reader has an acquire barrier on
+ // |rd_index_|.
+ // - After terminating a read batch, the ~ReadIterator dtor updates the
+ // |rd_index_| with a release-store.
+ // - Reader and writer are typically kCapacity/2 apart. So unless an
+ // overrun happens a writer won't reuse a newly released record any time
+ // soon. If an overrun happens, everything is busted regardless.
+ At(cur_)->type_and_id.store(0, std::memory_order_relaxed);
+ ++cur_;
+ return *this;
+ }
+
+ private:
+ friend class RingBuffer;
+ ReadIterator(uint64_t begin, uint64_t end)
+ : cur_(begin), end_(end), valid_(true) {}
+ ReadIterator& operator=(const ReadIterator&) = delete;
+ ReadIterator(const ReadIterator&) = delete;
+
+ uint64_t cur_;
+ uint64_t end_;
+ bool valid_;
+ };
+
+ static Record* At(uint64_t index) {
+ // Doesn't really have to be pow2, but if not the compiler will emit
+ // arithmetic operations to compute the modulo instead of a bitwise AND.
+ static_assert(!(kCapacity & (kCapacity - 1)), "kCapacity must be pow2");
+ PERFETTO_DCHECK(index >= rd_index_);
+ PERFETTO_DCHECK(index <= wr_index_);
+ return &records_[index % kCapacity];
+ }
+
+ // Must be called on the same task runner passed to Enable()
+ static ReadIterator GetReadIterator() {
+ PERFETTO_DCHECK(RingBuffer::IsOnValidTaskRunner());
+ return ReadIterator(rd_index_.load(std::memory_order_acquire),
+ wr_index_.load(std::memory_order_acquire));
+ }
+
+ static Record* AppendNewRecord();
+ static void Reset();
+
+ static bool has_overruns() {
+ return has_overruns_.load(std::memory_order_acquire);
+ }
+
+ // Can temporarily return a value >= kCapacity but is eventually consistent.
+ // This would happen in case of overruns until threads hit the --wr_index_
+ // in AppendNewRecord().
+ static uint64_t GetSizeForTesting() {
+ auto wr_index = wr_index_.load(std::memory_order_relaxed);
+ auto rd_index = rd_index_.load(std::memory_order_relaxed);
+ PERFETTO_DCHECK(wr_index >= rd_index);
+ return wr_index - rd_index;
+ }
+
+ private:
+ friend class ReadIterator;
+
+ // Returns true if the caller is on the task runner passed to Enable().
+ // Used only for DCHECKs.
+ static bool IsOnValidTaskRunner();
+
+ static std::array<Record, kCapacity> records_;
+ static std::atomic<bool> read_task_queued_;
+ static std::atomic<uint64_t> wr_index_;
+ static std::atomic<uint64_t> rd_index_;
+ static std::atomic<bool> has_overruns_;
+ static Record bankruptcy_record_; // Used in case of overruns.
+};
+
+inline void TraceCounter(uint32_t tag, uint16_t id, int32_t value) {
+ // memory_order_relaxed is okay because the storage has static lifetime.
+ // It is safe to accidentally log an event soon after disabling.
+ auto enabled_tags = g_enabled_tags.load(std::memory_order_relaxed);
+ if (PERFETTO_LIKELY((enabled_tags & tag) == 0))
+ return;
+ Record* record = RingBuffer::AppendNewRecord();
+ record->thread_id = static_cast<uint32_t>(base::GetThreadId());
+ record->set_timestamp(TraceTimeNowNs());
+ record->counter_value = value;
+ record->type_and_id.store(Record::kTypeCounter | id,
+ std::memory_order_release);
+}
+
+class ScopedEvent {
+ public:
+ ScopedEvent(uint32_t tag, uint16_t event_id) {
+ auto enabled_tags = g_enabled_tags.load(std::memory_order_relaxed);
+ if (PERFETTO_LIKELY((enabled_tags & tag) == 0))
+ return;
+ event_id_ = event_id;
+ record_ = RingBuffer::AppendNewRecord();
+ record_->thread_id = static_cast<uint32_t>(base::GetThreadId());
+ record_->set_timestamp(TraceTimeNowNs());
+ }
+
+ ~ScopedEvent() {
+ if (PERFETTO_LIKELY(!record_))
+ return;
+ auto now = TraceTimeNowNs();
+ record_->duration_ns = static_cast<uint32_t>(now - record_->timestamp_ns());
+ record_->type_and_id.store(Record::kTypeEvent | event_id_,
+ std::memory_order_release);
+ }
+
+ private:
+ Record* record_ = nullptr;
+ uint16_t event_id_ = 0;
+ ScopedEvent(const ScopedEvent&) = delete;
+ ScopedEvent& operator=(const ScopedEvent&) = delete;
+};
+
+// Boilerplate to derive a unique variable name for the event.
+#define PERFETTO_METATRACE_UID2(a, b) a##b
+#define PERFETTO_METATRACE_UID(x) PERFETTO_METATRACE_UID2(metatrace_, x)
+
+#define PERFETTO_METATRACE_SCOPED(TAG, ID) \
+ ::perfetto::metatrace::ScopedEvent PERFETTO_METATRACE_UID(__COUNTER__)( \
+ ::perfetto::metatrace::TAG, ::perfetto::metatrace::ID)
+
+#define PERFETTO_METATRACE_COUNTER(TAG, ID, VALUE) \
+ ::perfetto::metatrace::TraceCounter(::perfetto::metatrace::TAG, \
+ ::perfetto::metatrace::ID, \
+ static_cast<int32_t>(VALUE))
+
+} // namespace metatrace
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_BASE_METATRACE_H_
+// gen_amalgamated begin header: include/perfetto/base/task_runner.h
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_BASE_TASK_RUNNER_H_
+#define INCLUDE_PERFETTO_BASE_TASK_RUNNER_H_
+
+#include <stdint.h>
+
+#include <functional>
+
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+// gen_amalgamated expanded: #include "perfetto/base/platform_handle.h"
+
+namespace perfetto {
+namespace base {
+
+// A generic interface to allow the library clients to interleave the execution
+// of the tracing internals in their runtime environment.
+// The expectation is that all tasks, which are queued either via PostTask() or
+// AddFileDescriptorWatch(), are executed on the same sequence (either on the
+// same thread, or on a thread pool that gives sequencing guarantees).
+//
+// Tasks are never executed synchronously inside PostTask and there is a full
+// memory barrier between tasks.
+//
+// All methods of this interface can be called from any thread.
+class PERFETTO_EXPORT_COMPONENT TaskRunner {
+ public:
+ virtual ~TaskRunner();
+
+ // Schedule a task for immediate execution. Immediate tasks are always
+ // executed in the order they are posted. Can be called from any thread.
+ virtual void PostTask(std::function<void()>) = 0;
+
+ // Schedule a task for execution after |delay_ms|. Note that there is no
+ // strict ordering guarantee between immediate and delayed tasks. Can be
+ // called from any thread.
+ virtual void PostDelayedTask(std::function<void()>, uint32_t delay_ms) = 0;
+
+ // Schedule a task to run when the handle becomes readable. The same handle
+ // can only be monitored by one function. Note that this function only needs
+ // to be implemented on platforms where the built-in ipc framework is used.
+ // Can be called from any thread.
+ // TODO(skyostil): Refactor this out of the shared interface.
+ virtual void AddFileDescriptorWatch(PlatformHandle,
+ std::function<void()>) = 0;
+
+ // Remove a previously scheduled watch for the handle. If this is run on the
+ // target thread of this TaskRunner, guarantees that the task registered to
+ // this handle will not be executed after this function call.
+ // Can be called from any thread.
+ virtual void RemoveFileDescriptorWatch(PlatformHandle) = 0;
+
+ // Checks if the current thread is the same thread where the TaskRunner's task
+ // run. This allows single threaded task runners (like the ones used in
+ // perfetto) to inform the caller that anything posted will run on the same
+ // thread/sequence. This can allow some callers to skip PostTask and instead
+ // directly execute the code. Can be called from any thread.
+ virtual bool RunsTasksOnCurrentThread() const = 0;
+};
+
+} // namespace base
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_BASE_TASK_RUNNER_H_
+/*
+ * Copyright (C) 2018 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/metatrace.h"
+
+// gen_amalgamated expanded: #include "perfetto/base/compiler.h"
+// gen_amalgamated expanded: #include "perfetto/base/task_runner.h"
+// gen_amalgamated expanded: #include "perfetto/base/time.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/file_utils.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/thread_annotations.h"
+
+namespace perfetto {
+namespace metatrace {
+
+std::atomic<uint32_t> g_enabled_tags{0};
+std::atomic<uint64_t> g_enabled_timestamp{0};
+
+// static members
+std::array<Record, RingBuffer::kCapacity> RingBuffer::records_;
+std::atomic<bool> RingBuffer::read_task_queued_;
+std::atomic<uint64_t> RingBuffer::wr_index_;
+std::atomic<uint64_t> RingBuffer::rd_index_;
+std::atomic<bool> RingBuffer::has_overruns_;
+Record RingBuffer::bankruptcy_record_;
+
+namespace {
+
+// std::function<> is not trivially de/constructible. This struct wraps it in a
+// heap-allocated struct to avoid static initializers.
+struct Delegate {
+ static Delegate* GetInstance() {
+ static Delegate* instance = new Delegate();
+ return instance;
+ }
+
+ base::TaskRunner* task_runner = nullptr;
+ std::function<void()> read_task;
+};
+
+} // namespace
+
+bool Enable(std::function<void()> read_task,
+ base::TaskRunner* task_runner,
+ uint32_t tags) {
+ PERFETTO_DCHECK(read_task);
+ PERFETTO_DCHECK(task_runner->RunsTasksOnCurrentThread());
+ if (g_enabled_tags.load(std::memory_order_acquire))
+ return false;
+
+ Delegate* dg = Delegate::GetInstance();
+ dg->task_runner = task_runner;
+ dg->read_task = std::move(read_task);
+ RingBuffer::Reset();
+ g_enabled_timestamp.store(TraceTimeNowNs(), std::memory_order_relaxed);
+ g_enabled_tags.store(tags, std::memory_order_release);
+ return true;
+}
+
+void Disable() {
+ g_enabled_tags.store(0, std::memory_order_release);
+ Delegate* dg = Delegate::GetInstance();
+ PERFETTO_DCHECK(!dg->task_runner ||
+ dg->task_runner->RunsTasksOnCurrentThread());
+ dg->task_runner = nullptr;
+ dg->read_task = nullptr;
+}
+
+// static
+void RingBuffer::Reset() {
+ bankruptcy_record_.clear();
+ for (Record& record : records_)
+ record.clear();
+ wr_index_ = 0;
+ rd_index_ = 0;
+ has_overruns_ = false;
+ read_task_queued_ = false;
+}
+
+// static
+Record* RingBuffer::AppendNewRecord() {
+ auto wr_index = wr_index_.fetch_add(1, std::memory_order_acq_rel);
+
+ // rd_index can only monotonically increase, we don't care if we read an
+ // older value, we'll just hit the slow-path a bit earlier if it happens.
+ auto rd_index = rd_index_.load(std::memory_order_relaxed);
+
+ PERFETTO_DCHECK(wr_index >= rd_index);
+ auto size = wr_index - rd_index;
+ if (PERFETTO_LIKELY(size < kCapacity / 2))
+ return At(wr_index);
+
+ // Slow-path: Enqueue the read task and handle overruns.
+ bool expected = false;
+ if (RingBuffer::read_task_queued_.compare_exchange_strong(expected, true)) {
+ Delegate* dg = Delegate::GetInstance();
+ if (dg->task_runner) {
+ dg->task_runner->PostTask([] {
+ // Meta-tracing might have been disabled in the meantime.
+ auto read_task = Delegate::GetInstance()->read_task;
+ if (read_task)
+ read_task();
+ RingBuffer::read_task_queued_ = false;
+ });
+ }
+ }
+
+ if (PERFETTO_LIKELY(size < kCapacity))
+ return At(wr_index);
+
+ has_overruns_.store(true, std::memory_order_release);
+ wr_index_.fetch_sub(1, std::memory_order_acq_rel);
+
+ // In the case of overflows, threads will race writing on the same memory
+ // location and TSan will rightly complain. This is fine though because nobody
+ // will read the bankruptcy record and it's designed to contain garbage.
+ PERFETTO_ANNOTATE_BENIGN_RACE_SIZED(&bankruptcy_record_, sizeof(Record),
+ "nothing reads bankruptcy_record_")
+ return &bankruptcy_record_;
+}
+
+// static
+bool RingBuffer::IsOnValidTaskRunner() {
+ auto* task_runner = Delegate::GetInstance()->task_runner;
+ return task_runner && task_runner->RunsTasksOnCurrentThread();
+}
+
+} // namespace metatrace
+} // namespace perfetto
+// gen_amalgamated begin source: src/base/paged_memory.cc
+// gen_amalgamated begin header: include/perfetto/ext/base/paged_memory.h
+// gen_amalgamated begin header: include/perfetto/ext/base/container_annotations.h
+/*
+ * Copyright (C) 2018 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_BASE_CONTAINER_ANNOTATIONS_H_
+#define INCLUDE_PERFETTO_EXT_BASE_CONTAINER_ANNOTATIONS_H_
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+
+// Windows ASAN doesn't currently support these annotations.
+#if defined(ADDRESS_SANITIZER) && !PERFETTO_BUILDFLAG(PERFETTO_OS_WIN) && \
+ !defined(ADDRESS_SANITIZER_WITHOUT_INSTRUMENTATION)
+
+#include <sanitizer/common_interface_defs.h>
+
+#define ANNOTATE_NEW_BUFFER(buffer, capacity, new_size) \
+ if (buffer) { \
+ __sanitizer_annotate_contiguous_container(buffer, (buffer) + (capacity), \
+ (buffer) + (capacity), \
+ (buffer) + (new_size)); \
+ }
+#define ANNOTATE_DELETE_BUFFER(buffer, capacity, old_size) \
+ if (buffer) { \
+ __sanitizer_annotate_contiguous_container(buffer, (buffer) + (capacity), \
+ (buffer) + (old_size), \
+ (buffer) + (capacity)); \
+ }
+#define ANNOTATE_CHANGE_SIZE(buffer, capacity, old_size, new_size) \
+ if (buffer) { \
+ __sanitizer_annotate_contiguous_container(buffer, (buffer) + (capacity), \
+ (buffer) + (old_size), \
+ (buffer) + (new_size)); \
+ }
+#define ANNOTATE_CHANGE_CAPACITY(buffer, old_capacity, buffer_size, \
+ new_capacity) \
+ ANNOTATE_DELETE_BUFFER(buffer, old_capacity, buffer_size); \
+ ANNOTATE_NEW_BUFFER(buffer, new_capacity, buffer_size);
+// Annotations require buffers to begin on an 8-byte boundary.
+#else // defined(ADDRESS_SANITIZER)
+#define ANNOTATE_NEW_BUFFER(buffer, capacity, new_size)
+#define ANNOTATE_DELETE_BUFFER(buffer, capacity, old_size)
+#define ANNOTATE_CHANGE_SIZE(buffer, capacity, old_size, new_size)
+#define ANNOTATE_CHANGE_CAPACITY(buffer, old_capacity, buffer_size, \
+ new_capacity)
+#endif // defined(ADDRESS_SANITIZER)
+
+#endif // INCLUDE_PERFETTO_EXT_BASE_CONTAINER_ANNOTATIONS_H_
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_BASE_PAGED_MEMORY_H_
+#define INCLUDE_PERFETTO_EXT_BASE_PAGED_MEMORY_H_
+
+#include <cstddef>
+#include <memory>
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/container_annotations.h"
+
+// We need to track the committed size on windows and when ASAN is enabled.
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN) || defined(ADDRESS_SANITIZER)
+#define TRACK_COMMITTED_SIZE() 1
+#else
+#define TRACK_COMMITTED_SIZE() 0
+#endif
+
+namespace perfetto {
+namespace base {
+
+class PagedMemory {
+ public:
+ // Initializes an invalid PagedMemory pointing to nullptr.
+ PagedMemory();
+
+ ~PagedMemory();
+
+ PagedMemory(PagedMemory&& other) noexcept;
+ PagedMemory& operator=(PagedMemory&& other);
+
+ enum AllocationFlags {
+ // By default, Allocate() crashes if the underlying mmap fails (e.g., if out
+ // of virtual address space). When this flag is provided, an invalid
+ // PagedMemory pointing to nullptr is returned in this case instead.
+ kMayFail = 1 << 0,
+
+ // By default, Allocate() commits the allocated memory immediately. When
+ // this flag is provided, the memory virtual address space may only be
+ // reserved and the user should call EnsureCommitted() before writing to
+ // memory addresses.
+ kDontCommit = 1 << 1,
+ };
+
+ // Allocates |size| bytes using mmap(MAP_ANONYMOUS). The returned memory is
+ // guaranteed to be page-aligned and guaranteed to be zeroed.
+ // For |flags|, see the AllocationFlags enum above.
+ static PagedMemory Allocate(size_t size, int flags = 0);
+
+ // Hint to the OS that the memory range is not needed and can be discarded.
+ // The memory remains accessible and its contents may be retained, or they
+ // may be zeroed. This function may be a NOP on some platforms. Returns true
+ // if implemented.
+ bool AdviseDontNeed(void* p, size_t size);
+
+ // Ensures that at least the first |committed_size| bytes of the allocated
+ // memory region are committed. The implementation may commit memory in larger
+ // chunks above |committed_size|. Crashes if the memory couldn't be committed.
+#if TRACK_COMMITTED_SIZE()
+ void EnsureCommitted(size_t committed_size);
+#else // TRACK_COMMITTED_SIZE()
+ void EnsureCommitted(size_t /*committed_size*/) {}
+#endif // TRACK_COMMITTED_SIZE()
+
+ inline void* Get() const noexcept { return p_; }
+ inline bool IsValid() const noexcept { return !!p_; }
+ inline size_t size() const noexcept { return size_; }
+
+ private:
+ PagedMemory(char* p, size_t size);
+
+ PagedMemory(const PagedMemory&) = delete;
+ // Defaulted for implementation of move constructor + assignment.
+ PagedMemory& operator=(const PagedMemory&) = default;
+
+ char* p_ = nullptr;
+
+ // The size originally passed to Allocate(). The actual virtual memory
+ // reservation will be larger due to: (i) guard pages; (ii) rounding up to
+ // the system page size.
+ size_t size_ = 0;
+
+#if TRACK_COMMITTED_SIZE()
+ size_t committed_size_ = 0u;
+#endif // TRACK_COMMITTED_SIZE()
+};
+
+} // namespace base
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_BASE_PAGED_MEMORY_H_
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/paged_memory.h"
+
+#include <algorithm>
+#include <cmath>
+#include <cstddef>
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+#include <Windows.h>
+#else // PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+#include <sys/mman.h>
+#endif // PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/container_annotations.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/utils.h"
+
+namespace perfetto {
+namespace base {
+
+namespace {
+
+#if TRACK_COMMITTED_SIZE()
+constexpr size_t kCommitChunkSize = 4 * 1024 * 1024; // 4MB
+#endif
+
+size_t RoundUpToSysPageSize(size_t req_size) {
+ const size_t page_size = GetSysPageSize();
+ return (req_size + page_size - 1) & ~(page_size - 1);
+}
+
+size_t GuardSize() {
+ return GetSysPageSize();
+}
+
+} // namespace
+
+// static
+PagedMemory PagedMemory::Allocate(size_t req_size, int flags) {
+ size_t rounded_up_size = RoundUpToSysPageSize(req_size);
+ PERFETTO_CHECK(rounded_up_size >= req_size);
+ size_t outer_size = rounded_up_size + GuardSize() * 2;
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ void* ptr = VirtualAlloc(nullptr, outer_size, MEM_RESERVE, PAGE_NOACCESS);
+ if (!ptr && (flags & kMayFail))
+ return PagedMemory();
+ PERFETTO_CHECK(ptr);
+ char* usable_region = reinterpret_cast<char*>(ptr) + GuardSize();
+#else // PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ void* ptr = mmap(nullptr, outer_size, PROT_READ | PROT_WRITE,
+ MAP_PRIVATE | MAP_ANONYMOUS, -1, 0);
+ if (ptr == MAP_FAILED && (flags & kMayFail))
+ return PagedMemory();
+ PERFETTO_CHECK(ptr && ptr != MAP_FAILED);
+ char* usable_region = reinterpret_cast<char*>(ptr) + GuardSize();
+ int res = mprotect(ptr, GuardSize(), PROT_NONE);
+ res |= mprotect(usable_region + rounded_up_size, GuardSize(), PROT_NONE);
+ PERFETTO_CHECK(res == 0);
+#endif // PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+
+ auto memory = PagedMemory(usable_region, req_size);
+#if TRACK_COMMITTED_SIZE()
+ size_t initial_commit = req_size;
+ if (flags & kDontCommit)
+ initial_commit = std::min(initial_commit, kCommitChunkSize);
+ memory.EnsureCommitted(initial_commit);
+#endif // TRACK_COMMITTED_SIZE()
+ return memory;
+}
+
+PagedMemory::PagedMemory() {}
+
+// clang-format off
+PagedMemory::PagedMemory(char* p, size_t size) : p_(p), size_(size) {
+ ANNOTATE_NEW_BUFFER(p_, size_, committed_size_)
+}
+
+PagedMemory::PagedMemory(PagedMemory&& other) noexcept {
+ *this = other;
+ other.p_ = nullptr;
+}
+// clang-format on
+
+PagedMemory& PagedMemory::operator=(PagedMemory&& other) {
+ this->~PagedMemory();
+ new (this) PagedMemory(std::move(other));
+ return *this;
+}
+
+PagedMemory::~PagedMemory() {
+ if (!p_)
+ return;
+ PERFETTO_CHECK(size_);
+ char* start = p_ - GuardSize();
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ BOOL res = VirtualFree(start, 0, MEM_RELEASE);
+ PERFETTO_CHECK(res != 0);
+#else // PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ const size_t outer_size = RoundUpToSysPageSize(size_) + GuardSize() * 2;
+ int res = munmap(start, outer_size);
+ PERFETTO_CHECK(res == 0);
+#endif // PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ ANNOTATE_DELETE_BUFFER(p_, size_, committed_size_)
+}
+
+bool PagedMemory::AdviseDontNeed(void* p, size_t size) {
+ PERFETTO_DCHECK(p_);
+ PERFETTO_DCHECK(p >= p_);
+ PERFETTO_DCHECK(static_cast<char*>(p) + size <= p_ + size_);
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN) || PERFETTO_BUILDFLAG(PERFETTO_OS_NACL)
+ // Discarding pages on Windows has more CPU cost than is justified for the
+ // possible memory savings.
+ return false;
+#else // PERFETTO_BUILDFLAG(PERFETTO_OS_WIN) ||
+ // PERFETTO_BUILDFLAG(PERFETTO_OS_NACL)
+ // http://man7.org/linux/man-pages/man2/madvise.2.html
+ int res = madvise(p, size, MADV_DONTNEED);
+ PERFETTO_DCHECK(res == 0);
+ return true;
+#endif // PERFETTO_BUILDFLAG(PERFETTO_OS_WIN) ||
+ // PERFETTO_BUILDFLAG(PERFETTO_OS_NACL)
+}
+
+#if TRACK_COMMITTED_SIZE()
+void PagedMemory::EnsureCommitted(size_t committed_size) {
+ PERFETTO_DCHECK(committed_size <= size_);
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ if (committed_size_ >= committed_size)
+ return;
+ // Rounding up.
+ size_t delta = committed_size - committed_size_;
+ size_t num_additional_chunks =
+ (delta + kCommitChunkSize - 1) / kCommitChunkSize;
+ PERFETTO_DCHECK(num_additional_chunks * kCommitChunkSize >= delta);
+ // Don't commit more than the total size.
+ size_t commit_size = std::min(num_additional_chunks * kCommitChunkSize,
+ size_ - committed_size_);
+ void* res = VirtualAlloc(p_ + committed_size_, commit_size, MEM_COMMIT,
+ PAGE_READWRITE);
+ PERFETTO_CHECK(res);
+ ANNOTATE_CHANGE_SIZE(p_, size_, committed_size_,
+ committed_size_ + commit_size)
+ committed_size_ += commit_size;
+#else // PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ // mmap commits automatically as needed, so we only track here for ASAN.
+ committed_size = std::max(committed_size_, committed_size);
+ ANNOTATE_CHANGE_SIZE(p_, size_, committed_size_, committed_size)
+ committed_size_ = committed_size;
+#endif // PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+}
+#endif // TRACK_COMMITTED_SIZE()
+
+} // namespace base
+} // namespace perfetto
+// gen_amalgamated begin source: src/base/periodic_task.cc
+// gen_amalgamated begin header: include/perfetto/ext/base/periodic_task.h
+// gen_amalgamated begin header: include/perfetto/ext/base/thread_checker.h
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_BASE_THREAD_CHECKER_H_
+#define INCLUDE_PERFETTO_EXT_BASE_THREAD_CHECKER_H_
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+
+#if !PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+#include <pthread.h>
+#endif
+#include <atomic>
+
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/utils.h"
+
+namespace perfetto {
+namespace base {
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+using ThreadID = unsigned long;
+#else
+using ThreadID = pthread_t;
+#endif
+
+class PERFETTO_EXPORT_COMPONENT ThreadChecker {
+ public:
+ ThreadChecker();
+ ~ThreadChecker();
+ ThreadChecker(const ThreadChecker&);
+ ThreadChecker& operator=(const ThreadChecker&);
+ bool CalledOnValidThread() const PERFETTO_WARN_UNUSED_RESULT;
+ void DetachFromThread();
+
+ private:
+ mutable std::atomic<ThreadID> thread_id_;
+};
+
+#if PERFETTO_DCHECK_IS_ON() && !PERFETTO_BUILDFLAG(PERFETTO_CHROMIUM_BUILD)
+// TODO(primiano) Use Chromium's thread checker in Chromium.
+#define PERFETTO_THREAD_CHECKER(name) base::ThreadChecker name;
+#define PERFETTO_DCHECK_THREAD(name) \
+ PERFETTO_DCHECK((name).CalledOnValidThread())
+#define PERFETTO_DETACH_FROM_THREAD(name) (name).DetachFromThread()
+#else
+#define PERFETTO_THREAD_CHECKER(name)
+#define PERFETTO_DCHECK_THREAD(name)
+#define PERFETTO_DETACH_FROM_THREAD(name)
+#endif // PERFETTO_DCHECK_IS_ON()
+
+} // namespace base
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_BASE_THREAD_CHECKER_H_
+// gen_amalgamated begin header: include/perfetto/ext/base/weak_ptr.h
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_BASE_WEAK_PTR_H_
+#define INCLUDE_PERFETTO_EXT_BASE_WEAK_PTR_H_
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/thread_checker.h"
+
+#include <memory>
+
+namespace perfetto {
+namespace base {
+
+// A simple WeakPtr for single-threaded cases.
+// Generally keep the WeakPtrFactory as last fields in classes: it makes the
+// WeakPtr(s) invalidate as first thing in the class dtor.
+// Usage:
+// class MyClass {
+// MyClass() : weak_factory_(this) {}
+// WeakPtr<MyClass> GetWeakPtr() { return weak_factory_.GetWeakPtr(); }
+//
+// private:
+// WeakPtrFactory<MyClass> weak_factory_;
+// }
+//
+// int main() {
+// std::unique_ptr<MyClass> foo(new MyClass);
+// auto wptr = foo.GetWeakPtr();
+// ASSERT_TRUE(wptr);
+// ASSERT_EQ(foo.get(), wptr->get());
+// foo.reset();
+// ASSERT_FALSE(wptr);
+// ASSERT_EQ(nullptr, wptr->get());
+// }
+
+template <typename T>
+class WeakPtrFactory; // Forward declaration, defined below.
+
+template <typename T>
+class WeakPtr {
+ public:
+ WeakPtr() {}
+ WeakPtr(const WeakPtr&) = default;
+ WeakPtr& operator=(const WeakPtr&) = default;
+ WeakPtr(WeakPtr&&) = default;
+ WeakPtr& operator=(WeakPtr&&) = default;
+
+ T* get() const {
+ PERFETTO_DCHECK_THREAD(thread_checker);
+ return handle_ ? *handle_.get() : nullptr;
+ }
+ T* operator->() const { return get(); }
+ T& operator*() const { return *get(); }
+
+ explicit operator bool() const { return !!get(); }
+
+ private:
+ friend class WeakPtrFactory<T>;
+ explicit WeakPtr(const std::shared_ptr<T*>& handle) : handle_(handle) {}
+
+ std::shared_ptr<T*> handle_;
+ PERFETTO_THREAD_CHECKER(thread_checker)
+};
+
+template <typename T>
+class WeakPtrFactory {
+ public:
+ explicit WeakPtrFactory(T* owner) : weak_ptr_(std::make_shared<T*>(owner)) {
+ PERFETTO_DCHECK_THREAD(thread_checker);
+ }
+
+ ~WeakPtrFactory() {
+ PERFETTO_DCHECK_THREAD(thread_checker);
+ *(weak_ptr_.handle_.get()) = nullptr;
+ }
+
+ // Can be safely called on any thread, since it simply copies |weak_ptr_|.
+ // Note that any accesses to the returned pointer need to be made on the
+ // thread that created/reset the factory.
+ WeakPtr<T> GetWeakPtr() const { return weak_ptr_; }
+
+ // Reset the factory to a new owner & thread. May only be called before any
+ // weak pointers were passed out. Future weak pointers will be valid on the
+ // calling thread.
+ void Reset(T* owner) {
+ // Reset thread checker to current thread.
+ PERFETTO_DETACH_FROM_THREAD(thread_checker);
+ PERFETTO_DCHECK_THREAD(thread_checker);
+
+ // We should not have passed out any weak pointers yet at this point.
+ PERFETTO_DCHECK(weak_ptr_.handle_.use_count() == 1);
+
+ weak_ptr_ = WeakPtr<T>(std::make_shared<T*>(owner));
+ }
+
+ private:
+ WeakPtrFactory(const WeakPtrFactory&) = delete;
+ WeakPtrFactory& operator=(const WeakPtrFactory&) = delete;
+
+ WeakPtr<T> weak_ptr_;
+ PERFETTO_THREAD_CHECKER(thread_checker)
+};
+
+} // namespace base
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_BASE_WEAK_PTR_H_
+/*
+ * Copyright (C) 2021 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_BASE_PERIODIC_TASK_H_
+#define INCLUDE_PERFETTO_EXT_BASE_PERIODIC_TASK_H_
+
+#include <functional>
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/scoped_file.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/thread_checker.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/weak_ptr.h"
+
+namespace perfetto {
+namespace base {
+
+class TaskRunner;
+
+// A periodic task utility class. It wraps the logic necessary to do periodic
+// tasks using a TaskRunner, taking care of subtleties like ensuring that
+// outstanding tasks are cancelled after reset/dtor.
+// Tasks are aligned on wall time (unless they are |one_shot|). This is to
+// ensure that when using multiple periodic tasks, they happen at the same time,
+// minimizing context switches.
+// On Linux/Android it also supports suspend-aware mode (via timerfd). On other
+// operating systems it falls back to PostDelayedTask, which is not
+// suspend-aware.
+// TODO(primiano): this should probably become a periodic timer scheduler, so we
+// can use one FD for everything rather than one FD per task. For now we take
+// the hit of a FD-per-task to keep this low-risk.
+// TODO(primiano): consider renaming this class to TimerTask. When |one_shot|
+// is set, the "Periodic" part of the class name becomes a lie.
+class PeriodicTask {
+ public:
+ explicit PeriodicTask(base::TaskRunner*);
+ ~PeriodicTask(); // Calls Reset().
+
+ struct Args {
+ uint32_t period_ms = 0;
+ std::function<void()> task = nullptr;
+ bool start_first_task_immediately = false;
+ bool use_suspend_aware_timer = false;
+ bool one_shot = false;
+ };
+
+ void Start(Args);
+
+ // Safe to be called multiple times, even without calling Start():
+ void Reset();
+
+ // No copy or move. WeakPtr-wrapped pointers to |this| are posted on the
+ // task runner, this class is not easily movable.
+ PeriodicTask(const PeriodicTask&) = delete;
+ PeriodicTask& operator=(const PeriodicTask&) = delete;
+ PeriodicTask(PeriodicTask&&) = delete;
+ PeriodicTask& operator=(PeriodicTask&&) = delete;
+
+ base::PlatformHandle timer_fd_for_testing() { return *timer_fd_; }
+
+ private:
+ static void RunTaskAndPostNext(base::WeakPtr<PeriodicTask>,
+ uint32_t generation);
+ void PostNextTask();
+ void ResetTimerFd();
+
+ base::TaskRunner* const task_runner_;
+ Args args_;
+ uint32_t generation_ = 0;
+ base::ScopedPlatformHandle timer_fd_;
+
+ PERFETTO_THREAD_CHECKER(thread_checker_)
+ base::WeakPtrFactory<PeriodicTask> weak_ptr_factory_; // Keep last.
+};
+
+} // namespace base
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_BASE_PERIODIC_TASK_H_
+/*
+ * Copyright (C) 2021 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/periodic_task.h"
+
+#include <limits>
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/base/task_runner.h"
+// gen_amalgamated expanded: #include "perfetto/base/time.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/file_utils.h"
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_LINUX) || \
+ (PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID) && __ANDROID_API__ >= 19)
+#include <sys/timerfd.h>
+#endif
+
+namespace perfetto {
+namespace base {
+
+namespace {
+
+uint32_t GetNextDelayMs(const TimeMillis& now_ms,
+ const PeriodicTask::Args& args) {
+ if (args.one_shot)
+ return args.period_ms;
+
+ return args.period_ms -
+ static_cast<uint32_t>(now_ms.count() % args.period_ms);
+}
+
+ScopedPlatformHandle CreateTimerFd(const PeriodicTask::Args& args) {
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_LINUX) || \
+ (PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID) && __ANDROID_API__ >= 19)
+ ScopedPlatformHandle tfd(
+ timerfd_create(CLOCK_BOOTTIME, TFD_CLOEXEC | TFD_NONBLOCK));
+ uint32_t phase_ms = GetNextDelayMs(GetBootTimeMs(), args);
+
+ struct itimerspec its {};
+ // The "1 +" is to make sure that we never pass a zero it_value in the
+ // unlikely case of phase_ms being 0. That would cause the timer to be
+ // considered disarmed by timerfd_settime.
+ its.it_value.tv_sec = static_cast<time_t>(phase_ms / 1000u);
+ its.it_value.tv_nsec = 1 + static_cast<long>((phase_ms % 1000u) * 1000000u);
+ if (args.one_shot) {
+ its.it_interval.tv_sec = 0;
+ its.it_interval.tv_nsec = 0;
+ } else {
+ const uint32_t period_ms = args.period_ms;
+ its.it_interval.tv_sec = static_cast<time_t>(period_ms / 1000u);
+ its.it_interval.tv_nsec = static_cast<long>((period_ms % 1000u) * 1000000u);
+ }
+ if (timerfd_settime(*tfd, 0, &its, nullptr) < 0)
+ return ScopedPlatformHandle();
+ return tfd;
+#else
+ ignore_result(args);
+ return ScopedPlatformHandle();
+#endif
+}
+
+} // namespace
+
+PeriodicTask::PeriodicTask(TaskRunner* task_runner)
+ : task_runner_(task_runner), weak_ptr_factory_(this) {}
+
+PeriodicTask::~PeriodicTask() {
+ Reset();
+}
+
+void PeriodicTask::Start(Args args) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ Reset();
+ if (args.period_ms == 0 || !args.task) {
+ PERFETTO_DCHECK(args.period_ms > 0);
+ PERFETTO_DCHECK(args.task);
+ return;
+ }
+ args_ = std::move(args);
+ if (args_.use_suspend_aware_timer) {
+ timer_fd_ = CreateTimerFd(args_);
+ if (timer_fd_) {
+ auto weak_this = weak_ptr_factory_.GetWeakPtr();
+ task_runner_->AddFileDescriptorWatch(
+ *timer_fd_,
+ std::bind(PeriodicTask::RunTaskAndPostNext, weak_this, generation_));
+ } else {
+ PERFETTO_DPLOG("timerfd not supported, falling back on PostDelayedTask");
+ }
+ } // if (use_suspend_aware_timer).
+
+ if (!timer_fd_)
+ PostNextTask();
+
+ if (args_.start_first_task_immediately)
+ args_.task();
+}
+
+void PeriodicTask::PostNextTask() {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ PERFETTO_DCHECK(args_.period_ms > 0);
+ PERFETTO_DCHECK(!timer_fd_);
+ uint32_t delay_ms = GetNextDelayMs(GetWallTimeMs(), args_);
+ auto weak_this = weak_ptr_factory_.GetWeakPtr();
+ task_runner_->PostDelayedTask(
+ std::bind(PeriodicTask::RunTaskAndPostNext, weak_this, generation_),
+ delay_ms);
+}
+
+// static
+// This function can be called in two ways (both from the TaskRunner):
+// 1. When using a timerfd, this task is registered as a FD watch.
+// 2. When using PostDelayedTask, this is the task posted on the TaskRunner.
+void PeriodicTask::RunTaskAndPostNext(WeakPtr<PeriodicTask> thiz,
+ uint32_t generation) {
+ if (!thiz || !thiz->args_.task || generation != thiz->generation_)
+ return; // Destroyed or Reset() in the meanwhile.
+ PERFETTO_DCHECK_THREAD(thiz->thread_checker_);
+ if (thiz->timer_fd_) {
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ PERFETTO_FATAL("timerfd for periodic tasks unsupported on Windows");
+#else
+ // If we are using a timerfd there is no need to repeatedly call
+ // PostDelayedTask(). The kernel will wakeup the timer fd periodically. We
+ // just need to read() it.
+ uint64_t ignored = 0;
+ errno = 0;
+ auto rsize = Read(*thiz->timer_fd_, &ignored, sizeof(&ignored));
+ if (rsize != sizeof(uint64_t)) {
+ if (errno == EAGAIN)
+ return; // A spurious wakeup. Rare, but can happen, just ignore.
+ PERFETTO_PLOG("read(timerfd) failed, falling back on PostDelayedTask");
+ thiz->ResetTimerFd();
+ }
+#endif
+ }
+
+ // Create a copy of the task to deal with either:
+ // 1. one_shot causing a Reset().
+ // 2. task() invoking internally Reset().
+ // That would cause a reset of the args_.task itself, which would invalidate
+ // the task bind state while we are invoking it.
+ auto task = thiz->args_.task;
+
+ // The repetition of the if() is to deal with the ResetTimerFd() case above.
+ if (thiz->args_.one_shot) {
+ thiz->Reset();
+ } else if (!thiz->timer_fd_) {
+ thiz->PostNextTask();
+ }
+
+ task();
+}
+
+void PeriodicTask::Reset() {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ ++generation_;
+ args_ = Args();
+ PERFETTO_DCHECK(!args_.task);
+ ResetTimerFd();
+}
+
+void PeriodicTask::ResetTimerFd() {
+ if (!timer_fd_)
+ return;
+ task_runner_->RemoveFileDescriptorWatch(*timer_fd_);
+ timer_fd_.reset();
+}
+
+} // namespace base
+} // namespace perfetto
+// gen_amalgamated begin source: src/base/pipe.cc
+/*
+ * Copyright (C) 2018 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/pipe.h"
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+
+#include <fcntl.h> // For O_BINARY (Windows) and F_SETxx (UNIX)
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+#include <Windows.h>
+#include <namedpipeapi.h>
+#else
+#include <sys/types.h>
+#include <unistd.h>
+#endif
+
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+
+namespace perfetto {
+namespace base {
+
+Pipe::Pipe() = default;
+Pipe::Pipe(Pipe&&) noexcept = default;
+Pipe& Pipe::operator=(Pipe&&) = default;
+
+Pipe Pipe::Create(Flags flags) {
+ PlatformHandle fds[2];
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ PERFETTO_CHECK(::CreatePipe(&fds[0], &fds[1], /*lpPipeAttributes=*/nullptr,
+ 0 /*default size*/));
+#else
+ PERFETTO_CHECK(pipe(fds) == 0);
+ PERFETTO_CHECK(fcntl(fds[0], F_SETFD, FD_CLOEXEC) == 0);
+ PERFETTO_CHECK(fcntl(fds[1], F_SETFD, FD_CLOEXEC) == 0);
+#endif
+ Pipe p;
+ p.rd.reset(fds[0]);
+ p.wr.reset(fds[1]);
+
+#if !PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ if (flags == kBothNonBlock || flags == kRdNonBlock) {
+ int cur_flags = fcntl(*p.rd, F_GETFL, 0);
+ PERFETTO_CHECK(cur_flags >= 0);
+ PERFETTO_CHECK(fcntl(*p.rd, F_SETFL, cur_flags | O_NONBLOCK) == 0);
+ }
+
+ if (flags == kBothNonBlock || flags == kWrNonBlock) {
+ int cur_flags = fcntl(*p.wr, F_GETFL, 0);
+ PERFETTO_CHECK(cur_flags >= 0);
+ PERFETTO_CHECK(fcntl(*p.wr, F_SETFL, cur_flags | O_NONBLOCK) == 0);
+ }
+#else
+ PERFETTO_CHECK(flags == kBothBlock);
+#endif
+ return p;
+}
+
+} // namespace base
+} // namespace perfetto
+// gen_amalgamated begin source: src/base/scoped_mmap.cc
+// gen_amalgamated begin header: include/perfetto/ext/base/scoped_mmap.h
+/*
+ * Copyright (C) 2024 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_BASE_SCOPED_MMAP_H_
+#define INCLUDE_PERFETTO_EXT_BASE_SCOPED_MMAP_H_
+
+#include <cstddef>
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/scoped_file.h"
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_LINUX) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_APPLE) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+#define PERFETTO_HAS_MMAP() 1
+#else
+#define PERFETTO_HAS_MMAP() 0
+#endif
+
+namespace perfetto::base {
+
+// RAII wrapper that holds ownership of an mmap()d area and of a file. Calls
+// unmap() and close() on destruction.
+class ScopedMmap {
+ public:
+ // Creates a memory mapping for the first `length` bytes of `file`.
+ static ScopedMmap FromHandle(base::ScopedPlatformHandle file, size_t length);
+
+ ScopedMmap() {}
+ ~ScopedMmap();
+ ScopedMmap(ScopedMmap&& other) noexcept;
+
+ ScopedMmap& operator=(ScopedMmap&& other) noexcept;
+
+ // Returns a pointer to the mapped memory area. Only valid if `IsValid()` is
+ // true.
+ void* data() const { return ptr_; }
+
+ // Returns true if this object contains a successfully mapped area.
+ bool IsValid() const { return ptr_ != nullptr; }
+
+ // Returns the length of the mapped area.
+ size_t length() const { return length_; }
+
+ // Unmaps the area and closes the file. Returns false if this held a mmap()d
+ // area and unmapping failed. In any case, after this method, `IsValid()` will
+ // return false.
+ bool reset() noexcept;
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_LINUX) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_APPLE)
+ // Takes ownership of an mmap()d area that starts at `data`, `size` bytes
+ // long. `data` should not be MAP_FAILED.
+ static ScopedMmap InheritMmappedRange(void* data, size_t size);
+#endif
+
+ private:
+ ScopedMmap(const ScopedMmap&) = delete;
+ ScopedMmap& operator=(const ScopedMmap&) = delete;
+
+ size_t length_ = 0;
+ void* ptr_ = nullptr;
+ ScopedPlatformHandle file_;
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ ScopedPlatformHandle map_;
+#endif
+};
+
+// Tries to open `fname` and maps its first `length` bytes in memory.
+ScopedMmap ReadMmapFilePart(const char* fname, size_t length);
+
+// Tries to open `fname` and maps the whole file into memory.
+ScopedMmap ReadMmapWholeFile(const char* fname);
+
+} // namespace perfetto::base
+
+#endif // INCLUDE_PERFETTO_EXT_BASE_SCOPED_MMAP_H_
+/*
+ * Copyright (C) 2024 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/scoped_mmap.h"
+
+#include <utility>
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/file_utils.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/scoped_file.h"
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_LINUX) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_APPLE)
+#include <sys/mman.h>
+#include <unistd.h>
+#elif PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+#include <Windows.h>
+#endif
+
+namespace perfetto::base {
+namespace {
+
+ScopedPlatformHandle OpenFileForMmap(const char* fname) {
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_LINUX) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_APPLE)
+ return OpenFile(fname, O_RDONLY);
+#elif PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ // This does not use base::OpenFile to avoid getting an exclusive lock.
+ return ScopedPlatformHandle(CreateFileA(fname, GENERIC_READ, FILE_SHARE_READ,
+ nullptr, OPEN_EXISTING,
+ FILE_ATTRIBUTE_NORMAL, nullptr));
+#else
+ // mmap is not supported. Do not even open the file.
+ base::ignore_result(fname);
+ return ScopedPlatformHandle();
+#endif
+}
+
+} // namespace
+
+ScopedMmap::ScopedMmap(ScopedMmap&& other) noexcept {
+ *this = std::move(other);
+}
+
+ScopedMmap& ScopedMmap::operator=(ScopedMmap&& other) noexcept {
+ if (this == &other) {
+ return *this;
+ }
+ reset();
+ std::swap(ptr_, other.ptr_);
+ std::swap(length_, other.length_);
+ std::swap(file_, other.file_);
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ std::swap(map_, other.map_);
+#endif
+ return *this;
+}
+
+ScopedMmap::~ScopedMmap() {
+ reset();
+}
+
+// static
+ScopedMmap ScopedMmap::FromHandle(base::ScopedPlatformHandle file,
+ size_t length) {
+ ScopedMmap ret;
+ if (!file) {
+ return ret;
+ }
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_LINUX) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_APPLE)
+ void* ptr = mmap(nullptr, length, PROT_READ, MAP_PRIVATE, *file, 0);
+ if (ptr != MAP_FAILED) {
+ ret.ptr_ = ptr;
+ ret.length_ = length;
+ ret.file_ = std::move(file);
+ }
+#elif PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ ScopedPlatformHandle map(
+ CreateFileMapping(*file, nullptr, PAGE_READONLY, 0, 0, nullptr));
+ if (!map) {
+ return ret;
+ }
+ void* ptr = MapViewOfFile(*map, FILE_MAP_READ, 0, 0, length);
+ if (ptr != nullptr) {
+ ret.ptr_ = ptr;
+ ret.length_ = length;
+ ret.file_ = std::move(file);
+ ret.map_ = std::move(map);
+ }
+#else
+ base::ignore_result(length);
+#endif
+ return ret;
+}
+
+bool ScopedMmap::reset() noexcept {
+ bool ret = true;
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_LINUX) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_APPLE)
+ if (ptr_ != nullptr) {
+ ret = munmap(ptr_, length_) == 0;
+ }
+#elif PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ if (ptr_ != nullptr) {
+ ret = UnmapViewOfFile(ptr_);
+ }
+ map_.reset();
+#endif
+ ptr_ = nullptr;
+ length_ = 0;
+ file_.reset();
+ return ret;
+}
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_LINUX) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_APPLE)
+// static
+ScopedMmap ScopedMmap::InheritMmappedRange(void* data, size_t size) {
+ ScopedMmap ret;
+ ret.ptr_ = data;
+ ret.length_ = size;
+ return ret;
+}
+#endif
+
+ScopedMmap ReadMmapFilePart(const char* fname, size_t length) {
+ return ScopedMmap::FromHandle(OpenFileForMmap(fname), length);
+}
+
+ScopedMmap ReadMmapWholeFile(const char* fname) {
+ ScopedPlatformHandle file = OpenFileForMmap(fname);
+ if (!file) {
+ return ScopedMmap();
+ }
+ std::optional<uint64_t> file_size = GetFileSize(file.get());
+ if (!file_size.has_value()) {
+ return ScopedMmap();
+ }
+ size_t size = static_cast<size_t>(*file_size);
+ if (static_cast<uint64_t>(size) != *file_size) {
+ return ScopedMmap();
+ }
+ return ScopedMmap::FromHandle(std::move(file), size);
+}
+
+} // namespace perfetto::base
+// gen_amalgamated begin source: src/base/status.cc
+/*
+ * Copyright (C) 2020 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/base/status.h"
+
+#include <stdarg.h>
+#include <algorithm>
+
+namespace perfetto {
+namespace base {
+
+Status ErrStatus(const char* format, ...) {
+ char buffer[1024];
+ va_list ap;
+ va_start(ap, format);
+ vsnprintf(buffer, sizeof(buffer), format, ap);
+ va_end(ap);
+ Status status(buffer);
+ return status;
+}
+
+std::optional<std::string_view> Status::GetPayload(
+ std::string_view type_url) const {
+ if (ok()) {
+ return std::nullopt;
+ }
+ for (const auto& kv : payloads_) {
+ if (kv.type_url == type_url) {
+ return kv.payload;
+ }
+ }
+ return std::nullopt;
+}
+
+void Status::SetPayload(std::string_view type_url, std::string value) {
+ if (ok()) {
+ return;
+ }
+ for (auto& kv : payloads_) {
+ if (kv.type_url == type_url) {
+ kv.payload = value;
+ return;
+ }
+ }
+ payloads_.push_back(Payload{std::string(type_url), std::move(value)});
+}
+
+bool Status::ErasePayload(std::string_view type_url) {
+ if (ok()) {
+ return false;
+ }
+ auto it = std::remove_if(
+ payloads_.begin(), payloads_.end(),
+ [type_url](const Payload& p) { return p.type_url == type_url; });
+ bool erased = it != payloads_.end();
+ payloads_.erase(it, payloads_.end());
+ return erased;
+}
+
+} // namespace base
+} // namespace perfetto
+// gen_amalgamated begin source: src/base/string_splitter.cc
+// gen_amalgamated begin header: include/perfetto/ext/base/string_splitter.h
+/*
+ * Copyright (C) 2018 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_BASE_STRING_SPLITTER_H_
+#define INCLUDE_PERFETTO_EXT_BASE_STRING_SPLITTER_H_
+
+#include <string>
+
+namespace perfetto {
+namespace base {
+
+// C++ version of strtok(). Splits a string without making copies or any heap
+// allocations. Destructs the original string passed in input.
+// Supports the special case of using \0 as a delimiter.
+// The token returned in output are valid as long as the input string is valid.
+class StringSplitter {
+ public:
+ // Whether an empty string (two delimiters side-to-side) is a valid token.
+ enum class EmptyTokenMode {
+ DISALLOW_EMPTY_TOKENS,
+ ALLOW_EMPTY_TOKENS,
+
+ DEFAULT = DISALLOW_EMPTY_TOKENS,
+ };
+
+ // Can take ownership of the string if passed via std::move(), e.g.:
+ // StringSplitter(std::move(str), '\n');
+ StringSplitter(std::string,
+ char delimiter,
+ EmptyTokenMode empty_token_mode = EmptyTokenMode::DEFAULT);
+
+ // Splits a C-string. The input string will be forcefully null-terminated (so
+ // str[size - 1] should be == '\0' or the last char will be truncated).
+ StringSplitter(char* str,
+ size_t size,
+ char delimiter,
+ EmptyTokenMode empty_token_mode = EmptyTokenMode::DEFAULT);
+
+ // Splits the current token from an outer StringSplitter instance. This is to
+ // chain splitters as follows:
+ // for (base::StringSplitter lines(x, '\n'); ss.Next();)
+ // for (base::StringSplitter words(&lines, ' '); words.Next();)
+ StringSplitter(StringSplitter*,
+ char delimiter,
+ EmptyTokenMode empty_token_mode = EmptyTokenMode::DEFAULT);
+
+ // Returns true if a token is found (in which case it will be stored in
+ // cur_token()), false if no more tokens are found.
+ bool Next();
+
+ // Returns the current token iff last call to Next() returned true. In this
+ // case it guarantees that the returned string is always null terminated.
+ // In all other cases (before the 1st call to Next() and after Next() returns
+ // false) returns nullptr.
+ char* cur_token() { return cur_; }
+
+ // Returns the length of the current token (excluding the null terminator).
+ size_t cur_token_size() const { return cur_size_; }
+
+ private:
+ StringSplitter(const StringSplitter&) = delete;
+ StringSplitter& operator=(const StringSplitter&) = delete;
+ void Initialize(char* str, size_t size);
+
+ std::string str_;
+ char* cur_;
+ size_t cur_size_;
+ char* next_;
+ char* end_; // STL-style, points one past the last char.
+ const char delimiter_;
+ const EmptyTokenMode empty_token_mode_;
+};
+
+} // namespace base
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_BASE_STRING_SPLITTER_H_
+/*
+ * Copyright (C) 2018 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/string_splitter.h"
+
+#include <utility>
+
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+
+namespace perfetto {
+namespace base {
+
+StringSplitter::StringSplitter(std::string str,
+ char delimiter,
+ EmptyTokenMode empty_token_mode)
+ : str_(std::move(str)),
+ delimiter_(delimiter),
+ empty_token_mode_(empty_token_mode) {
+ // It's legal to access str[str.size()] in C++11 (it always returns \0),
+ // hence the +1 (which becomes just size() after the -1 in Initialize()).
+ Initialize(&str_[0], str_.size() + 1);
+}
+
+StringSplitter::StringSplitter(char* str,
+ size_t size,
+ char delimiter,
+ EmptyTokenMode empty_token_mode)
+ : delimiter_(delimiter), empty_token_mode_(empty_token_mode) {
+ Initialize(str, size);
+}
+
+StringSplitter::StringSplitter(StringSplitter* outer,
+ char delimiter,
+ EmptyTokenMode empty_token_mode)
+ : delimiter_(delimiter), empty_token_mode_(empty_token_mode) {
+ Initialize(outer->cur_token(), outer->cur_token_size() + 1);
+}
+
+void StringSplitter::Initialize(char* str, size_t size) {
+ PERFETTO_DCHECK(!size || str);
+ next_ = str;
+ end_ = str + size;
+ cur_ = nullptr;
+ cur_size_ = 0;
+ if (size)
+ next_[size - 1] = '\0';
+}
+
+bool StringSplitter::Next() {
+ for (; next_ < end_; next_++) {
+ if (*next_ == delimiter_ &&
+ empty_token_mode_ == EmptyTokenMode::DISALLOW_EMPTY_TOKENS) {
+ // If empty tokens are disallowed, find fist non-delimiter character.
+ continue;
+ }
+ cur_ = next_;
+ for (;; next_++) {
+ if (*next_ == delimiter_) {
+ cur_size_ = static_cast<size_t>(next_ - cur_);
+ *(next_++) = '\0';
+ break;
+ }
+ if (*next_ == '\0') {
+ cur_size_ = static_cast<size_t>(next_ - cur_);
+ next_ = end_;
+ break;
+ }
+ }
+ if (*cur_ || empty_token_mode_ == EmptyTokenMode::ALLOW_EMPTY_TOKENS)
+ return true;
+ break;
+ }
+ cur_ = nullptr;
+ cur_size_ = 0;
+ return false;
+}
+
+} // namespace base
+} // namespace perfetto
+// gen_amalgamated begin source: src/base/string_utils.cc
+/*
+ * Copyright (C) 2018 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/string_utils.h"
+
+#include <locale.h>
+#include <stdarg.h>
+#include <string.h>
+
+#include <algorithm>
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_APPLE)
+#include <xlocale.h>
+#elif PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+#include <Windows.h>
+#endif
+
+#include <cinttypes>
+
+// gen_amalgamated expanded: #include "perfetto/base/compiler.h"
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+
+namespace perfetto {
+namespace base {
+
+// Locale-independant as possible version of strtod.
+double StrToD(const char* nptr, char** endptr) {
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_LINUX) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_APPLE)
+ static auto c_locale = newlocale(LC_ALL, "C", nullptr);
+ return strtod_l(nptr, endptr, c_locale);
+#else
+ return strtod(nptr, endptr);
+#endif
+}
+
+bool StartsWith(const std::string& str, const std::string& prefix) {
+ return str.compare(0, prefix.length(), prefix) == 0;
+}
+
+bool StartsWithAny(const std::string& str,
+ const std::vector<std::string>& prefixes) {
+ return std::any_of(
+ prefixes.begin(), prefixes.end(),
+ [&str](const std::string& prefix) { return StartsWith(str, prefix); });
+}
+
+bool EndsWith(const std::string& str, const std::string& suffix) {
+ if (suffix.size() > str.size())
+ return false;
+ return str.compare(str.size() - suffix.size(), suffix.size(), suffix) == 0;
+}
+
+bool Contains(const std::string& haystack, const std::string& needle) {
+ return haystack.find(needle) != std::string::npos;
+}
+
+bool Contains(const std::string& haystack, const char needle) {
+ return haystack.find(needle) != std::string::npos;
+}
+
+size_t Find(const StringView& needle, const StringView& haystack) {
+ if (needle.empty())
+ return 0;
+ if (needle.size() > haystack.size())
+ return std::string::npos;
+ for (size_t i = 0; i < haystack.size() - (needle.size() - 1); ++i) {
+ if (strncmp(haystack.data() + i, needle.data(), needle.size()) == 0)
+ return i;
+ }
+ return std::string::npos;
+}
+
+bool CaseInsensitiveEqual(const std::string& first, const std::string& second) {
+ return first.size() == second.size() &&
+ std::equal(
+ first.begin(), first.end(), second.begin(),
+ [](char a, char b) { return Lowercase(a) == Lowercase(b); });
+}
+
+std::string Join(const std::vector<std::string>& parts,
+ const std::string& delim) {
+ std::string acc;
+ for (size_t i = 0; i < parts.size(); ++i) {
+ acc += parts[i];
+ if (i + 1 != parts.size()) {
+ acc += delim;
+ }
+ }
+ return acc;
+}
+
+std::vector<std::string> SplitString(const std::string& text,
+ const std::string& delimiter) {
+ PERFETTO_CHECK(!delimiter.empty());
+
+ std::vector<std::string> output;
+ size_t start = 0;
+ size_t next;
+ for (;;) {
+ next = std::min(text.find(delimiter, start), text.size());
+ if (next > start)
+ output.emplace_back(&text[start], next - start);
+ start = next + delimiter.size();
+ if (start >= text.size())
+ break;
+ }
+ return output;
+}
+
+std::string TrimWhitespace(const std::string& str) {
+ std::string whitespaces = "\t\n ";
+
+ size_t front_idx = str.find_first_not_of(whitespaces);
+ std::string front_trimmed =
+ front_idx == std::string::npos ? "" : str.substr(front_idx);
+
+ size_t end_idx = front_trimmed.find_last_not_of(whitespaces);
+ return end_idx == std::string::npos ? ""
+ : front_trimmed.substr(0, end_idx + 1);
+}
+
+std::string StripPrefix(const std::string& str, const std::string& prefix) {
+ return StartsWith(str, prefix) ? str.substr(prefix.size()) : str;
+}
+
+std::string StripSuffix(const std::string& str, const std::string& suffix) {
+ return EndsWith(str, suffix) ? str.substr(0, str.size() - suffix.size())
+ : str;
+}
+
+std::string ToUpper(const std::string& str) {
+ // Don't use toupper(), it depends on the locale.
+ std::string res(str);
+ auto end = res.end();
+ for (auto c = res.begin(); c != end; ++c)
+ *c = Uppercase(*c);
+ return res;
+}
+
+std::string ToLower(const std::string& str) {
+ // Don't use tolower(), it depends on the locale.
+ std::string res(str);
+ auto end = res.end();
+ for (auto c = res.begin(); c != end; ++c)
+ *c = Lowercase(*c);
+ return res;
+}
+
+std::string ToHex(const char* data, size_t size) {
+ std::string hex(2 * size + 1, 'x');
+ for (size_t i = 0; i < size; ++i) {
+ // snprintf prints 3 characters, the two hex digits and a null byte. As we
+ // write left to right, we keep overwriting the nullbytes, except for the
+ // last call to snprintf.
+ snprintf(&(hex[2 * i]), 3, "%02hhx", data[i]);
+ }
+ // Remove the trailing nullbyte produced by the last snprintf.
+ hex.resize(2 * size);
+ return hex;
+}
+
+std::string IntToHexString(uint32_t number) {
+ size_t max_size = 11; // Max uint32 is 0xFFFFFFFF + 1 for null byte.
+ std::string buf;
+ buf.resize(max_size);
+ size_t final_len = SprintfTrunc(&buf[0], max_size, "0x%02x", number);
+ buf.resize(static_cast<size_t>(final_len)); // Cuts off the final null byte.
+ return buf;
+}
+
+std::string Uint64ToHexString(uint64_t number) {
+ return "0x" + Uint64ToHexStringNoPrefix(number);
+}
+
+std::string Uint64ToHexStringNoPrefix(uint64_t number) {
+ size_t max_size = 17; // Max uint64 is FFFFFFFFFFFFFFFF + 1 for null byte.
+ std::string buf;
+ buf.resize(max_size);
+ size_t final_len = SprintfTrunc(&buf[0], max_size, "%" PRIx64 "", number);
+ buf.resize(static_cast<size_t>(final_len)); // Cuts off the final null byte.
+ return buf;
+}
+
+std::string StripChars(const std::string& str,
+ const std::string& chars,
+ char replacement) {
+ std::string res(str);
+ const char* start = res.c_str();
+ const char* remove = chars.c_str();
+ for (const char* c = strpbrk(start, remove); c; c = strpbrk(c + 1, remove))
+ res[static_cast<uintptr_t>(c - start)] = replacement;
+ return res;
+}
+
+std::string ReplaceAll(std::string str,
+ const std::string& to_replace,
+ const std::string& replacement) {
+ PERFETTO_CHECK(!to_replace.empty());
+ size_t pos = 0;
+ while ((pos = str.find(to_replace, pos)) != std::string::npos) {
+ str.replace(pos, to_replace.length(), replacement);
+ pos += replacement.length();
+ }
+ return str;
+}
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+bool WideToUTF8(const std::wstring& source, std::string& output) {
+ if (source.empty() ||
+ source.size() > static_cast<size_t>(std::numeric_limits<int>::max())) {
+ return false;
+ }
+ int size = ::WideCharToMultiByte(CP_UTF8, 0, &source[0],
+ static_cast<int>(source.size()), nullptr, 0,
+ nullptr, nullptr);
+ output.assign(static_cast<size_t>(size), '\0');
+ if (::WideCharToMultiByte(CP_UTF8, 0, &source[0],
+ static_cast<int>(source.size()), &output[0], size,
+ nullptr, nullptr) != size) {
+ return false;
+ }
+ return true;
+}
+#endif // PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+bool UTF8ToWide(const std::string& source, std::wstring& output) {
+ if (source.empty() ||
+ source.size() > static_cast<size_t>(std::numeric_limits<int>::max())) {
+ return false;
+ }
+ int size = ::MultiByteToWideChar(CP_UTF8, 0, &source[0],
+ static_cast<int>(source.size()), nullptr, 0);
+ output.assign(static_cast<size_t>(size), L'\0');
+ if (::MultiByteToWideChar(CP_UTF8, 0, &source[0],
+ static_cast<int>(source.size()), &output[0],
+ size) != size) {
+ return false;
+ }
+ return true;
+}
+#endif // PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+
+size_t SprintfTrunc(char* dst, size_t dst_size, const char* fmt, ...) {
+ if (PERFETTO_UNLIKELY(dst_size) == 0)
+ return 0;
+
+ va_list args;
+ va_start(args, fmt);
+ int src_size = vsnprintf(dst, dst_size, fmt, args);
+ va_end(args);
+
+ if (PERFETTO_UNLIKELY(src_size) <= 0) {
+ dst[0] = '\0';
+ return 0;
+ }
+
+ size_t res;
+ if (PERFETTO_LIKELY(src_size < static_cast<int>(dst_size))) {
+ // Most common case.
+ res = static_cast<size_t>(src_size);
+ } else {
+ // Truncation case.
+ res = dst_size - 1;
+ }
+
+ PERFETTO_DCHECK(res < dst_size);
+ PERFETTO_DCHECK(dst[res] == '\0');
+ return res;
+}
+
+std::optional<LineWithOffset> FindLineWithOffset(base::StringView str,
+ uint32_t offset) {
+ static constexpr char kNewLine = '\n';
+ uint32_t line_offset = 0;
+ uint32_t line_count = 1;
+ for (uint32_t i = 0; i < str.size(); ++i) {
+ if (str.at(i) == kNewLine) {
+ line_offset = i + 1;
+ line_count++;
+ continue;
+ }
+ if (i == offset) {
+ size_t end_offset = str.find(kNewLine, i);
+ if (end_offset == std::string::npos) {
+ end_offset = str.size();
+ }
+ base::StringView line = str.substr(line_offset, end_offset - line_offset);
+ return LineWithOffset{line, offset - line_offset, line_count};
+ }
+ }
+ return std::nullopt;
+}
+
+} // namespace base
+} // namespace perfetto
+// gen_amalgamated begin source: src/base/string_view.cc
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/string_view.h"
+
+namespace perfetto {
+namespace base {
+
+// Without ignoring this warning we get the message:
+// error: out-of-line definition of constexpr static data member is redundant
+// in C++17 and is deprecated
+// when using clang-cl in Windows.
+#if defined(__GNUC__) // GCC & clang
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wdeprecated"
+#endif // __GNUC__
+
+// static
+constexpr size_t StringView::npos;
+
+#if defined(__GNUC__)
+#pragma GCC diagnostic pop
+#endif
+
+} // namespace base
+} // namespace perfetto
+// gen_amalgamated begin source: src/base/temp_file.cc
+// gen_amalgamated begin header: include/perfetto/ext/base/temp_file.h
+/*
+ * Copyright (C) 2018 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_BASE_TEMP_FILE_H_
+#define INCLUDE_PERFETTO_EXT_BASE_TEMP_FILE_H_
+
+#include <string>
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/scoped_file.h"
+
+namespace perfetto {
+namespace base {
+
+std::string GetSysTempDir();
+
+class TempFile {
+ public:
+ static TempFile CreateUnlinked();
+ static TempFile Create();
+
+ TempFile(TempFile&&) noexcept;
+ TempFile& operator=(TempFile&&);
+ ~TempFile();
+
+ const std::string& path() const { return path_; }
+ int fd() const { return *fd_; }
+ int operator*() const { return *fd_; }
+
+ // Unlinks the file from the filesystem but keeps the fd() open.
+ // It is safe to call this multiple times.
+ void Unlink();
+
+ // Releases the underlying file descriptor. Will unlink the file from the
+ // filesystem if it was created via CreateUnlinked().
+ ScopedFile ReleaseFD();
+
+ private:
+ TempFile();
+ TempFile(const TempFile&) = delete;
+ TempFile& operator=(const TempFile&) = delete;
+
+ ScopedFile fd_;
+ std::string path_;
+};
+
+class TempDir {
+ public:
+ static TempDir Create();
+
+ TempDir(TempDir&&) noexcept;
+ TempDir& operator=(TempDir&&);
+ ~TempDir();
+
+ const std::string& path() const { return path_; }
+
+ private:
+ TempDir();
+ TempDir(const TempDir&) = delete;
+ TempDir& operator=(const TempDir&) = delete;
+
+ std::string path_;
+};
+
+} // namespace base
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_BASE_TEMP_FILE_H_
+/*
+ * Copyright (C) 2018 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/temp_file.h"
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+#include <Windows.h>
+#include <direct.h>
+#include <fileapi.h>
+#include <io.h>
+#else
+#include <unistd.h>
+#endif
+
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/file_utils.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/string_utils.h"
+
+namespace perfetto {
+namespace base {
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+namespace {
+std::string GetTempFilePathWin() {
+ std::string tmplt = GetSysTempDir() + "\\perfetto-XXXXXX";
+ StackString<255> name("%s\\perfetto-XXXXXX", GetSysTempDir().c_str());
+ PERFETTO_CHECK(_mktemp_s(name.mutable_data(), name.len() + 1) == 0);
+ return name.ToStdString();
+}
+} // namespace
+#endif
+
+std::string GetSysTempDir() {
+ const char* tmpdir = nullptr;
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ if ((tmpdir = getenv("TMP")))
+ return tmpdir;
+ if ((tmpdir = getenv("TEMP")))
+ return tmpdir;
+ return "C:\\TEMP";
+#else
+ if ((tmpdir = getenv("TMPDIR")))
+ return base::StripSuffix(tmpdir, "/");
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID)
+ return "/data/local/tmp";
+#else
+ return "/tmp";
+#endif // !OS_ANDROID
+#endif // !OS_WIN
+}
+
+// static
+TempFile TempFile::Create() {
+ TempFile temp_file;
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ temp_file.path_ = GetTempFilePathWin();
+ // Several tests want to read-back the temp file while still open. On Windows,
+ // that requires FILE_SHARE_READ. FILE_SHARE_READ is NOT settable when using
+ // the POSIX-compat equivalent function _open(). Hence the CreateFileA +
+ // _open_osfhandle dance here.
+ HANDLE h =
+ ::CreateFileA(temp_file.path_.c_str(), GENERIC_READ | GENERIC_WRITE,
+ FILE_SHARE_DELETE | FILE_SHARE_READ, nullptr, CREATE_ALWAYS,
+ FILE_ATTRIBUTE_TEMPORARY, nullptr);
+ PERFETTO_CHECK(PlatformHandleChecker::IsValid(h));
+ // According to MSDN, when using _open_osfhandle the caller must not call
+ // CloseHandle(). Ownership is moved to the file descriptor, which then needs
+ // to be closed with just with _close().
+ temp_file.fd_.reset(_open_osfhandle(reinterpret_cast<intptr_t>(h), 0));
+#else
+ temp_file.path_ = GetSysTempDir() + "/perfetto-XXXXXXXX";
+ temp_file.fd_.reset(mkstemp(&temp_file.path_[0]));
+#endif
+ if (PERFETTO_UNLIKELY(!temp_file.fd_)) {
+ PERFETTO_FATAL("Could not create temp file %s", temp_file.path_.c_str());
+ }
+ return temp_file;
+}
+
+// static
+TempFile TempFile::CreateUnlinked() {
+ TempFile temp_file = TempFile::Create();
+ temp_file.Unlink();
+ return temp_file;
+}
+
+TempFile::TempFile() = default;
+
+TempFile::~TempFile() {
+ Unlink();
+}
+
+ScopedFile TempFile::ReleaseFD() {
+ Unlink();
+ return std::move(fd_);
+}
+
+void TempFile::Unlink() {
+ if (path_.empty())
+ return;
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ // If the FD is still open DeleteFile will mark the file as pending deletion
+ // and delete it only when the process exists.
+ PERFETTO_CHECK(DeleteFileA(path_.c_str()));
+#else
+ PERFETTO_CHECK(unlink(path_.c_str()) == 0);
+#endif
+ path_.clear();
+}
+
+TempFile::TempFile(TempFile&&) noexcept = default;
+TempFile& TempFile::operator=(TempFile&&) = default;
+
+// static
+TempDir TempDir::Create() {
+ TempDir temp_dir;
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ temp_dir.path_ = GetTempFilePathWin();
+ PERFETTO_CHECK(_mkdir(temp_dir.path_.c_str()) == 0);
+#else
+ temp_dir.path_ = GetSysTempDir() + "/perfetto-XXXXXXXX";
+ PERFETTO_CHECK(mkdtemp(&temp_dir.path_[0]));
+#endif
+ return temp_dir;
+}
+
+TempDir::TempDir() = default;
+TempDir::TempDir(TempDir&&) noexcept = default;
+TempDir& TempDir::operator=(TempDir&&) = default;
+
+TempDir::~TempDir() {
+ if (path_.empty())
+ return; // For objects that get std::move()d.
+ PERFETTO_CHECK(Rmdir(path_));
+}
+
+} // namespace base
+} // namespace perfetto
+// gen_amalgamated begin source: src/base/thread_checker.cc
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/thread_checker.h"
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+#include <Windows.h>
+#endif
+
+namespace perfetto {
+namespace base {
+
+namespace {
+constexpr ThreadID kDetached{};
+
+ThreadID CurrentThreadId() {
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ return ::GetCurrentThreadId();
+#else
+ return pthread_self();
+#endif
+}
+} // namespace
+
+ThreadChecker::ThreadChecker() {
+ thread_id_.store(CurrentThreadId());
+}
+
+ThreadChecker::~ThreadChecker() = default;
+
+ThreadChecker::ThreadChecker(const ThreadChecker& other) {
+ thread_id_ = other.thread_id_.load();
+}
+
+ThreadChecker& ThreadChecker::operator=(const ThreadChecker& other) {
+ thread_id_ = other.thread_id_.load();
+ return *this;
+}
+
+bool ThreadChecker::CalledOnValidThread() const {
+ auto self = CurrentThreadId();
+
+ // Will re-attach if previously detached using DetachFromThread().
+ auto prev_value = kDetached;
+ if (thread_id_.compare_exchange_strong(prev_value, self))
+ return true;
+ return prev_value == self;
+}
+
+void ThreadChecker::DetachFromThread() {
+ thread_id_.store(kDetached);
+}
+
+} // namespace base
+} // namespace perfetto
+// gen_amalgamated begin source: src/base/thread_utils.cc
+// gen_amalgamated begin header: include/perfetto/ext/base/thread_utils.h
+/*
+ * Copyright (C) 2020 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_BASE_THREAD_UTILS_H_
+#define INCLUDE_PERFETTO_EXT_BASE_THREAD_UTILS_H_
+
+#include <string>
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/string_utils.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_LINUX) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_APPLE)
+#include <pthread.h>
+#include <string.h>
+#include <algorithm>
+#endif
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID)
+#include <sys/prctl.h>
+#endif
+
+// Internal implementation utils that aren't as widely useful/supported as
+// base/thread_utils.h.
+
+namespace perfetto {
+namespace base {
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_LINUX) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_APPLE)
+// Sets the "comm" of the calling thread to the first 15 chars of the given
+// string.
+inline bool MaybeSetThreadName(const std::string& name) {
+ char buf[16] = {};
+ StringCopy(buf, name.c_str(), sizeof(buf));
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_APPLE)
+ return pthread_setname_np(buf) == 0;
+#else
+ return pthread_setname_np(pthread_self(), buf) == 0;
+#endif
+}
+
+inline bool GetThreadName(std::string& out_result) {
+ char buf[16] = {};
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID)
+ if (prctl(PR_GET_NAME, buf) != 0)
+ return false;
+#else
+ if (pthread_getname_np(pthread_self(), buf, sizeof(buf)) != 0)
+ return false;
+#endif
+ out_result = std::string(buf);
+ return true;
+}
+
+#elif PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+
+PERFETTO_EXPORT_COMPONENT bool MaybeSetThreadName(const std::string& name);
+PERFETTO_EXPORT_COMPONENT bool GetThreadName(std::string& out_result);
+
+#else
+inline bool MaybeSetThreadName(const std::string&) {
+ return false;
+}
+inline bool GetThreadName(std::string&) {
+ return false;
+}
+#endif
+
+} // namespace base
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_BASE_THREAD_UTILS_H_
+/*
+ * Copyright (C) 2022 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/base/thread_utils.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/thread_utils.h"
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_FUCHSIA)
+#include <zircon/process.h>
+#include <zircon/syscalls.h>
+#include <zircon/types.h>
+#elif PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+#include <Windows.h>
+#endif
+
+namespace perfetto {
+namespace base {
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_FUCHSIA)
+static PlatformThreadId ResolveThreadId() {
+ zx_info_handle_basic_t basic;
+ return (zx_object_get_info(zx_thread_self(), ZX_INFO_HANDLE_BASIC, &basic,
+ sizeof(basic), nullptr, nullptr) == ZX_OK)
+ ? basic.koid
+ : ZX_KOID_INVALID;
+}
+PlatformThreadId GetThreadId() {
+ thread_local static PlatformThreadId thread_id = ResolveThreadId();
+ return thread_id;
+}
+
+#elif PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+
+// The SetThreadDescription API was brought in version 1607 of Windows 10.
+typedef HRESULT(WINAPI* SetThreadDescription)(HANDLE hThread,
+ PCWSTR lpThreadDescription);
+
+// The SetThreadDescription API was brought in version 1607 of Windows 10.
+typedef HRESULT(WINAPI* GetThreadDescription)(HANDLE hThread,
+ PWSTR* ppszThreadDescription);
+
+bool MaybeSetThreadName(const std::string& name) {
+ // The SetThreadDescription API works even if no debugger is attached.
+ static auto set_thread_description_func =
+ reinterpret_cast<SetThreadDescription>(
+ reinterpret_cast<void*>(::GetProcAddress(
+ ::GetModuleHandleA("Kernel32.dll"), "SetThreadDescription")));
+ if (!set_thread_description_func) {
+ return false;
+ }
+ std::wstring wide_thread_name;
+ if (!UTF8ToWide(name, wide_thread_name)) {
+ return false;
+ }
+ HRESULT result = set_thread_description_func(::GetCurrentThread(),
+ wide_thread_name.c_str());
+ return !FAILED(result);
+}
+
+bool GetThreadName(std::string& out_result) {
+ static auto get_thread_description_func =
+ reinterpret_cast<GetThreadDescription>(
+ reinterpret_cast<void*>(::GetProcAddress(
+ ::GetModuleHandleA("Kernel32.dll"), "GetThreadDescription")));
+ if (!get_thread_description_func) {
+ return false;
+ }
+ wchar_t* wide_thread_name;
+ HRESULT result =
+ get_thread_description_func(::GetCurrentThread(), &wide_thread_name);
+ if (SUCCEEDED(result)) {
+ bool success = WideToUTF8(std::wstring(wide_thread_name), out_result);
+ LocalFree(wide_thread_name);
+ return success;
+ }
+ return false;
+}
+
+#endif // PERFETTO_BUILDFLAG(PERFETTO_OS_FUCHSIA)
+
+} // namespace base
+} // namespace perfetto
+// gen_amalgamated begin source: src/base/time.cc
+/*
+ * Copyright (C) 2018 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#include <atomic>
+
+// gen_amalgamated expanded: #include "perfetto/base/time.h"
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/string_utils.h"
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+#include <Windows.h>
+#else
+#include <unistd.h>
+#endif
+
+namespace perfetto {
+namespace base {
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+#if !PERFETTO_BUILDFLAG(PERFETTO_ARCH_CPU_ARM64)
+namespace {
+
+// Returns the current value of the performance counter.
+int64_t QPCNowRaw() {
+ LARGE_INTEGER perf_counter_now = {};
+ // According to the MSDN documentation for QueryPerformanceCounter(), this
+ // will never fail on systems that run XP or later.
+ // https://msdn.microsoft.com/library/windows/desktop/ms644904.aspx
+ ::QueryPerformanceCounter(&perf_counter_now);
+ return perf_counter_now.QuadPart;
+}
+
+double TSCTicksPerSecond() {
+ // The value returned by QueryPerformanceFrequency() cannot be used as the TSC
+ // frequency, because there is no guarantee that the TSC frequency is equal to
+ // the performance counter frequency.
+ // The TSC frequency is cached in a static variable because it takes some time
+ // to compute it.
+ static std::atomic<double> tsc_ticks_per_second = 0;
+ double value = tsc_ticks_per_second.load(std::memory_order_relaxed);
+ if (value != 0)
+ return value;
+
+ // Increase the thread priority to reduces the chances of having a context
+ // switch during a reading of the TSC and the performance counter.
+ const int previous_priority = ::GetThreadPriority(::GetCurrentThread());
+ ::SetThreadPriority(::GetCurrentThread(), THREAD_PRIORITY_HIGHEST);
+
+ // The first time that this function is called, make an initial reading of the
+ // TSC and the performance counter. Initialization of static variable is
+ // thread-safe. Threads can race initializing tsc_initial vs
+ // perf_counter_initial, although they should be storing very similar values.
+
+ static const uint64_t tsc_initial = __rdtsc();
+ static const int64_t perf_counter_initial = QPCNowRaw();
+
+ // Make a another reading of the TSC and the performance counter every time
+ // that this function is called.
+ const uint64_t tsc_now = __rdtsc();
+ const int64_t perf_counter_now = QPCNowRaw();
+
+ // Reset the thread priority.
+ ::SetThreadPriority(::GetCurrentThread(), previous_priority);
+
+ // Make sure that at least 50 ms elapsed between the 2 readings. The first
+ // time that this function is called, we don't expect this to be the case.
+ // Note: The longer the elapsed time between the 2 readings is, the more
+ // accurate the computed TSC frequency will be. The 50 ms value was
+ // chosen because local benchmarks show that it allows us to get a
+ // stddev of less than 1 tick/us between multiple runs.
+ // Note: According to the MSDN documentation for QueryPerformanceFrequency(),
+ // this will never fail on systems that run XP or later.
+ // https://msdn.microsoft.com/library/windows/desktop/ms644905.aspx
+ LARGE_INTEGER perf_counter_frequency = {};
+ ::QueryPerformanceFrequency(&perf_counter_frequency);
+ PERFETTO_CHECK(perf_counter_now >= perf_counter_initial);
+ const int64_t perf_counter_ticks = perf_counter_now - perf_counter_initial;
+ const double elapsed_time_seconds =
+ static_cast<double>(perf_counter_ticks) /
+ static_cast<double>(perf_counter_frequency.QuadPart);
+
+ constexpr double kMinimumEvaluationPeriodSeconds = 0.05;
+ if (elapsed_time_seconds < kMinimumEvaluationPeriodSeconds)
+ return 0;
+
+ // Compute the frequency of the TSC.
+ PERFETTO_CHECK(tsc_now >= tsc_initial);
+ const uint64_t tsc_ticks = tsc_now - tsc_initial;
+ // Racing with another thread to write |tsc_ticks_per_second| is benign
+ // because both threads will write a valid result.
+ tsc_ticks_per_second.store(
+ static_cast<double>(tsc_ticks) / elapsed_time_seconds,
+ std::memory_order_relaxed);
+
+ return tsc_ticks_per_second.load(std::memory_order_relaxed);
+}
+
+} // namespace
+#endif // !PERFETTO_BUILDFLAG(PERFETTO_ARCH_CPU_ARM64)
+
+TimeNanos GetWallTimeNs() {
+ LARGE_INTEGER freq;
+ ::QueryPerformanceFrequency(&freq);
+ LARGE_INTEGER counter;
+ ::QueryPerformanceCounter(&counter);
+ double elapsed_nanoseconds = (1e9 * static_cast<double>(counter.QuadPart)) /
+ static_cast<double>(freq.QuadPart);
+ return TimeNanos(static_cast<uint64_t>(elapsed_nanoseconds));
+}
+
+TimeNanos GetThreadCPUTimeNs() {
+#if PERFETTO_BUILDFLAG(PERFETTO_ARCH_CPU_ARM64)
+ // QueryThreadCycleTime versus TSCTicksPerSecond doesn't have much relation to
+ // actual elapsed time on Windows on Arm, because QueryThreadCycleTime is
+ // backed by the actual number of CPU cycles executed, rather than a
+ // constant-rate timer like Intel. To work around this, use GetThreadTimes
+ // (which isn't as accurate but is meaningful as a measure of elapsed
+ // per-thread time).
+ FILETIME dummy, kernel_ftime, user_ftime;
+ ::GetThreadTimes(GetCurrentThread(), &dummy, &dummy, &kernel_ftime,
+ &user_ftime);
+ uint64_t kernel_time =
+ kernel_ftime.dwHighDateTime * 0x100000000 + kernel_ftime.dwLowDateTime;
+ uint64_t user_time =
+ user_ftime.dwHighDateTime * 0x100000000 + user_ftime.dwLowDateTime;
+
+ return TimeNanos((kernel_time + user_time) * 100);
+#else // !PERFETTO_BUILDFLAG(PERFETTO_ARCH_CPU_ARM64)
+ // Get the number of TSC ticks used by the current thread.
+ ULONG64 thread_cycle_time = 0;
+ ::QueryThreadCycleTime(GetCurrentThread(), &thread_cycle_time);
+
+ // Get the frequency of the TSC.
+ const double tsc_ticks_per_second = TSCTicksPerSecond();
+ if (tsc_ticks_per_second == 0)
+ return TimeNanos();
+
+ // Return the CPU time of the current thread.
+ const double thread_time_seconds =
+ static_cast<double>(thread_cycle_time) / tsc_ticks_per_second;
+ constexpr int64_t kNanosecondsPerSecond = 1000 * 1000 * 1000;
+ return TimeNanos(
+ static_cast<int64_t>(thread_time_seconds * kNanosecondsPerSecond));
+#endif // !PERFETTO_BUILDFLAG(PERFETTO_ARCH_CPU_ARM64)
+}
+
+void SleepMicroseconds(unsigned interval_us) {
+ // The Windows Sleep function takes a millisecond count. Round up so that
+ // short sleeps don't turn into a busy wait. Note that the sleep granularity
+ // on Windows can dynamically vary from 1 ms to ~16 ms, so don't count on this
+ // being a short sleep.
+ ::Sleep(static_cast<DWORD>((interval_us + 999) / 1000));
+}
+
+void InitializeTime() {
+#if !PERFETTO_BUILDFLAG(PERFETTO_ARCH_CPU_ARM64)
+ // Make an early first call to TSCTicksPerSecond() to start 50 ms elapsed time
+ // (see comment in TSCTicksPerSecond()).
+ TSCTicksPerSecond();
+#endif // !PERFETTO_BUILDFLAG(PERFETTO_ARCH_CPU_ARM64)
+}
+
+#else // PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+
+void SleepMicroseconds(unsigned interval_us) {
+ ::usleep(static_cast<useconds_t>(interval_us));
+}
+
+void InitializeTime() {}
+
+#endif // PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+
+std::string GetTimeFmt(const std::string& fmt) {
+ time_t raw_time;
+ time(&raw_time);
+ struct tm* local_tm;
+ local_tm = localtime(&raw_time);
+ char buf[128];
+ PERFETTO_CHECK(strftime(buf, 80, fmt.c_str(), local_tm) > 0);
+ return buf;
+}
+
+std::optional<int32_t> GetTimezoneOffsetMins() {
+ std::string tz = GetTimeFmt("%z");
+ if (tz.size() != 5 || (tz[0] != '+' && tz[0] != '-'))
+ return std::nullopt;
+ char sign = '\0';
+ int32_t hh = 0;
+ int32_t mm = 0;
+ if (sscanf(tz.c_str(), "%c%2d%2d", &sign, &hh, &mm) != 3)
+ return std::nullopt;
+ return (hh * 60 + mm) * (sign == '-' ? -1 : 1);
+}
+
+} // namespace base
+} // namespace perfetto
+// gen_amalgamated begin source: src/base/utils.cc
+/*
+ * Copyright (C) 2020 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/utils.h"
+
+#include <string>
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/file_utils.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/pipe.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/string_utils.h"
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_LINUX) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_APPLE) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_FUCHSIA)
+#include <limits.h>
+#include <stdlib.h> // For _exit()
+#include <unistd.h> // For getpagesize() and geteuid() & fork()
+#endif
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_APPLE)
+#include <mach-o/dyld.h>
+#include <mach/vm_page_size.h>
+#endif
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+#include <Windows.h>
+#include <io.h>
+#include <malloc.h> // For _aligned_malloc().
+#endif
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID)
+#include <dlfcn.h>
+#include <malloc.h>
+
+#ifdef M_PURGE
+#define PERFETTO_M_PURGE M_PURGE
+#else
+// Only available in in-tree builds and on newer SDKs.
+#define PERFETTO_M_PURGE -101
+#endif // M_PURGE
+
+#ifdef M_PURGE_ALL
+#define PERFETTO_M_PURGE_ALL M_PURGE_ALL
+#else
+// Only available in in-tree builds and on newer SDKs.
+#define PERFETTO_M_PURGE_ALL -104
+#endif // M_PURGE
+
+namespace {
+extern "C" {
+using MalloptType = int (*)(int, int);
+}
+} // namespace
+#endif // OS_ANDROID
+
+namespace {
+
+#if PERFETTO_BUILDFLAG(PERFETTO_X64_CPU_OPT)
+
+// Preserve the %rbx register via %rdi to work around a clang bug
+// https://bugs.llvm.org/show_bug.cgi?id=17907 (%rbx in an output constraint
+// is not considered a clobbered register).
+#define PERFETTO_GETCPUID(a, b, c, d, a_inp, c_inp) \
+ asm("mov %%rbx, %%rdi\n" \
+ "cpuid\n" \
+ "xchg %%rdi, %%rbx\n" \
+ : "=a"(a), "=D"(b), "=c"(c), "=d"(d) \
+ : "a"(a_inp), "2"(c_inp))
+
+uint32_t GetXCR0EAX() {
+ uint32_t eax = 0, edx = 0;
+ asm("xgetbv" : "=a"(eax), "=d"(edx) : "c"(0));
+ return eax;
+}
+
+// If we are building with -msse4 check that the CPU actually supports it.
+// This file must be kept in sync with gn/standalone/BUILD.gn.
+void PERFETTO_EXPORT_COMPONENT __attribute__((constructor))
+CheckCpuOptimizations() {
+ uint32_t eax = 0, ebx = 0, ecx = 0, edx = 0;
+ PERFETTO_GETCPUID(eax, ebx, ecx, edx, 1, 0);
+
+ static constexpr uint64_t xcr0_xmm_mask = 0x2;
+ static constexpr uint64_t xcr0_ymm_mask = 0x4;
+ static constexpr uint64_t xcr0_avx_mask = xcr0_xmm_mask | xcr0_ymm_mask;
+
+ const bool have_popcnt = ecx & (1u << 23);
+ const bool have_sse4_2 = ecx & (1u << 20);
+ const bool have_avx =
+ // Does the OS save/restore XMM and YMM state?
+ (ecx & (1u << 27)) && // OS support XGETBV.
+ (ecx & (1u << 28)) && // AVX supported in hardware
+ ((GetXCR0EAX() & xcr0_avx_mask) == xcr0_avx_mask);
+
+ // Get level 7 features (eax = 7 and ecx= 0), to check for AVX2 support.
+ // (See Intel 64 and IA-32 Architectures Software Developer's Manual
+ // Volume 2A: Instruction Set Reference, A-M CPUID).
+ PERFETTO_GETCPUID(eax, ebx, ecx, edx, 7, 0);
+ const bool have_avx2 = have_avx && ((ebx >> 5) & 0x1);
+ const bool have_bmi = (ebx >> 3) & 0x1;
+ const bool have_bmi2 = (ebx >> 8) & 0x1;
+
+ if (!have_sse4_2 || !have_popcnt || !have_avx2 || !have_bmi || !have_bmi2) {
+ fprintf(
+ stderr,
+ "This executable requires a x86_64 cpu that supports SSE4.2, BMI2 and "
+ "AVX2.\n"
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_APPLE)
+ "On MacOS, this might be caused by running x86_64 binaries on arm64.\n"
+ "See https://github.com/google/perfetto/issues/294 for more.\n"
+#endif
+ "Rebuild with enable_perfetto_x64_cpu_opt=false.\n");
+ _exit(126);
+ }
+}
+#endif
+
+} // namespace
+
+namespace perfetto {
+namespace base {
+
+namespace internal {
+
+std::atomic<uint32_t> g_cached_page_size{0};
+
+uint32_t GetSysPageSizeSlowpath() {
+ uint32_t page_size = 0;
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_LINUX) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID)
+ const int page_size_int = getpagesize();
+ // If sysconf() fails for obscure reasons (e.g. SELinux denial) assume the
+ // page size is 4KB. This is to avoid regressing subtle SDK usages, as old
+ // versions of this code had a static constant baked in.
+ page_size = static_cast<uint32_t>(page_size_int > 0 ? page_size_int : 4096);
+#elif PERFETTO_BUILDFLAG(PERFETTO_OS_APPLE)
+ page_size = static_cast<uint32_t>(vm_page_size);
+#else
+ page_size = 4096;
+#endif
+
+ PERFETTO_CHECK(page_size > 0 && page_size % 4096 == 0);
+
+ // Races here are fine because any thread will write the same value.
+ g_cached_page_size.store(page_size, std::memory_order_relaxed);
+ return page_size;
+}
+
+} // namespace internal
+
+void MaybeReleaseAllocatorMemToOS() {
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID)
+ // mallopt() on Android requires SDK level 26. Many targets and embedders
+ // still depend on a lower SDK level. Given mallopt() is a quite simple API,
+ // use reflection to do this rather than bumping the SDK level for all
+ // embedders. This keeps the behavior of standalone builds aligned with
+ // in-tree builds.
+ static MalloptType mallopt_fn =
+ reinterpret_cast<MalloptType>(dlsym(RTLD_DEFAULT, "mallopt"));
+ if (!mallopt_fn)
+ return;
+ if (mallopt_fn(PERFETTO_M_PURGE_ALL, 0) == 0) {
+ mallopt_fn(PERFETTO_M_PURGE, 0);
+ }
+#endif
+}
+
+uid_t GetCurrentUserId() {
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_LINUX) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_APPLE)
+ return geteuid();
+#else
+ // TODO(primiano): On Windows we could hash the current user SID and derive a
+ // numeric user id [1]. It is not clear whether we need that. Right now that
+ // would not bring any benefit. Returning 0 unil we can prove we need it.
+ // [1]:https://android-review.googlesource.com/c/platform/external/perfetto/+/1513879/25/src/base/utils.cc
+ return 0;
+#endif
+}
+
+void SetEnv(const std::string& key, const std::string& value) {
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ PERFETTO_CHECK(::_putenv_s(key.c_str(), value.c_str()) == 0);
+#else
+ PERFETTO_CHECK(::setenv(key.c_str(), value.c_str(), /*overwrite=*/true) == 0);
+#endif
+}
+
+void UnsetEnv(const std::string& key) {
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ PERFETTO_CHECK(::_putenv_s(key.c_str(), "") == 0);
+#else
+ PERFETTO_CHECK(::unsetenv(key.c_str()) == 0);
+#endif
+}
+
+void Daemonize(std::function<int()> parent_cb) {
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_LINUX) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_APPLE)
+ Pipe pipe = Pipe::Create(Pipe::kBothBlock);
+ pid_t pid;
+ switch (pid = fork()) {
+ case -1:
+ PERFETTO_FATAL("fork");
+ case 0: {
+ PERFETTO_CHECK(setsid() != -1);
+ base::ignore_result(chdir("/"));
+ base::ScopedFile null = base::OpenFile("/dev/null", O_RDONLY);
+ PERFETTO_CHECK(null);
+ PERFETTO_CHECK(dup2(*null, STDIN_FILENO) != -1);
+ PERFETTO_CHECK(dup2(*null, STDOUT_FILENO) != -1);
+ PERFETTO_CHECK(dup2(*null, STDERR_FILENO) != -1);
+ // Do not accidentally close stdin/stdout/stderr.
+ if (*null <= 2)
+ null.release();
+ WriteAll(*pipe.wr, "1", 1);
+ break;
+ }
+ default: {
+ // Wait for the child process to have reached the setsid() call. This is
+ // to avoid that 'adb shell perfetto -D' destroys the terminal (hence
+ // sending a SIGHUP to the child) before the child has detached from the
+ // terminal (see b/238644870).
+
+ // This is to unblock the read() below (with EOF, which will fail the
+ // CHECK) in the unlikely case of the child crashing before WriteAll("1").
+ pipe.wr.reset();
+ char one = '\0';
+ PERFETTO_CHECK(Read(*pipe.rd, &one, sizeof(one)) == 1 && one == '1');
+ printf("%d\n", pid);
+ int err = parent_cb();
+ exit(err);
+ }
+ }
+#else
+ // Avoid -Wunreachable warnings.
+ if (reinterpret_cast<intptr_t>(&Daemonize) != 16)
+ PERFETTO_FATAL("--background is only supported on Linux/Android/Mac");
+ ignore_result(parent_cb);
+#endif // OS_WIN
+}
+
+std::string GetCurExecutablePath() {
+ std::string self_path;
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_LINUX) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_FUCHSIA)
+ char buf[PATH_MAX];
+ ssize_t size = readlink("/proc/self/exe", buf, sizeof(buf));
+ PERFETTO_CHECK(size != -1);
+ // readlink does not null terminate.
+ self_path = std::string(buf, static_cast<size_t>(size));
+#elif PERFETTO_BUILDFLAG(PERFETTO_OS_APPLE)
+ uint32_t size = 0;
+ PERFETTO_CHECK(_NSGetExecutablePath(nullptr, &size));
+ self_path.resize(size);
+ PERFETTO_CHECK(_NSGetExecutablePath(&self_path[0], &size) == 0);
+#elif PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ char buf[MAX_PATH];
+ auto len = ::GetModuleFileNameA(nullptr /*current*/, buf, sizeof(buf));
+ self_path = std::string(buf, len);
+#else
+ PERFETTO_FATAL(
+ "GetCurExecutableDir() not implemented on the current platform");
+#endif
+ return self_path;
+}
+
+std::string GetCurExecutableDir() {
+ auto path = GetCurExecutablePath();
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ // Paths in Windows can have both kinds of slashes (mingw vs msvc).
+ path = path.substr(0, path.find_last_of('\\'));
+#endif
+ path = path.substr(0, path.find_last_of('/'));
+ return path;
+}
+
+void* AlignedAlloc(size_t alignment, size_t size) {
+ void* res = nullptr;
+ alignment = AlignUp<sizeof(void*)>(alignment); // At least pointer size.
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ // Window's _aligned_malloc() has a nearly identically signature to Unix's
+ // aligned_alloc() but its arguments are obviously swapped.
+ res = _aligned_malloc(size, alignment);
+#else
+ // aligned_alloc() has been introduced in Android only in API 28.
+ // Also NaCl and Fuchsia seems to have only posix_memalign().
+ ignore_result(posix_memalign(&res, alignment, size));
+#endif
+ PERFETTO_CHECK(res);
+ return res;
+}
+
+void AlignedFree(void* ptr) {
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ _aligned_free(ptr); // MSDN says it is fine to pass nullptr.
+#else
+ free(ptr);
+#endif
+}
+
+std::string HexDump(const void* data_void, size_t len, size_t bytes_per_line) {
+ const char* data = reinterpret_cast<const char*>(data_void);
+ std::string res;
+ static const size_t kPadding = bytes_per_line * 3 + 12;
+ std::unique_ptr<char[]> line(new char[bytes_per_line * 4 + 128]);
+ for (size_t i = 0; i < len; i += bytes_per_line) {
+ char* wptr = line.get();
+ wptr += base::SprintfTrunc(wptr, 19, "%08zX: ", i);
+ for (size_t j = i; j < i + bytes_per_line && j < len; j++) {
+ wptr += base::SprintfTrunc(wptr, 4, "%02X ",
+ static_cast<unsigned>(data[j]) & 0xFF);
+ }
+ for (size_t j = static_cast<size_t>(wptr - line.get()); j < kPadding; ++j)
+ *(wptr++) = ' ';
+ for (size_t j = i; j < i + bytes_per_line && j < len; j++) {
+ char c = data[j];
+ *(wptr++) = (c >= 32 && c < 127) ? c : '.';
+ }
+ *(wptr++) = '\n';
+ *(wptr++) = '\0';
+ res.append(line.get());
+ }
+ return res;
+}
+
+} // namespace base
+} // namespace perfetto
+// gen_amalgamated begin source: src/base/uuid.cc
+// gen_amalgamated begin header: include/perfetto/ext/base/uuid.h
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_BASE_UUID_H_
+#define INCLUDE_PERFETTO_EXT_BASE_UUID_H_
+
+#include <string.h>
+#include <array>
+#include <cstdint>
+#include <optional>
+#include <string>
+
+namespace perfetto {
+namespace base {
+
+class Uuid {
+ public:
+ explicit Uuid(const std::string& s);
+ explicit Uuid(int64_t lsb, int64_t msb);
+ Uuid();
+
+ std::array<uint8_t, 16>* data() { return &data_; }
+ const std::array<uint8_t, 16>* data() const { return &data_; }
+
+ bool operator==(const Uuid& other) const { return data_ == other.data_; }
+
+ bool operator!=(const Uuid& other) const { return !(*this == other); }
+
+ explicit operator bool() const { return *this != Uuid(); }
+
+ int64_t msb() const {
+ int64_t result;
+ memcpy(&result, data_.data() + 8, 8);
+ return result;
+ }
+
+ int64_t lsb() const {
+ int64_t result;
+ memcpy(&result, data_.data(), 8);
+ return result;
+ }
+
+ void set_lsb_msb(int64_t lsb, int64_t msb) {
+ set_lsb(lsb);
+ set_msb(msb);
+ }
+ void set_msb(int64_t msb) { memcpy(data_.data() + 8, &msb, 8); }
+ void set_lsb(int64_t lsb) { memcpy(data_.data(), &lsb, 8); }
+
+ std::string ToString() const;
+ std::string ToPrettyString() const;
+
+ private:
+ std::array<uint8_t, 16> data_{};
+};
+
+Uuid Uuidv4();
+
+} // namespace base
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_BASE_UUID_H_
+// gen_amalgamated begin header: include/perfetto/ext/base/no_destructor.h
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_BASE_NO_DESTRUCTOR_H_
+#define INCLUDE_PERFETTO_EXT_BASE_NO_DESTRUCTOR_H_
+
+#include <new>
+#include <utility>
+
+namespace perfetto {
+namespace base {
+
+// Wrapper that can hold an object of type T, without invoking the contained
+// object's destructor when being destroyed. Useful for creating statics while
+// avoiding static destructors.
+//
+// Stores the object inline, and therefore doesn't incur memory allocation and
+// pointer indirection overheads.
+//
+// Example of use:
+//
+// const std::string& GetStr() {
+// static base::NoDestructor<std::string> s("hello");
+// return s.ref();
+// }
+//
+template <typename T>
+class NoDestructor {
+ public:
+ // Forward arguments to T's constructor. Note that this doesn't cover
+ // construction from initializer lists.
+ template <typename... Args>
+ explicit NoDestructor(Args&&... args) {
+ new (storage_) T(std::forward<Args>(args)...);
+ }
+
+ NoDestructor(const NoDestructor&) = delete;
+ NoDestructor& operator=(const NoDestructor&) = delete;
+ NoDestructor(NoDestructor&&) = delete;
+ NoDestructor& operator=(NoDestructor&&) = delete;
+
+ ~NoDestructor() = default;
+
+ /* To avoid type-punned pointer strict aliasing warnings on GCC6 and below
+ * these need to be split over two lines. If they are collapsed onto one line.
+ * return reinterpret_cast<const T*>(storage_);
+ * The error fires.
+ */
+ const T& ref() const {
+ auto* const cast = reinterpret_cast<const T*>(storage_);
+ return *cast;
+ }
+ T& ref() {
+ auto* const cast = reinterpret_cast<T*>(storage_);
+ return *cast;
+ }
+
+ private:
+ alignas(T) char storage_[sizeof(T)];
+};
+
+} // namespace base
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_BASE_NO_DESTRUCTOR_H_
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/uuid.h"
+
+#include <mutex>
+#include <random>
+
+// gen_amalgamated expanded: #include "perfetto/base/time.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/no_destructor.h"
+
+namespace perfetto {
+namespace base {
+namespace {
+
+constexpr char kHexmap[] = {'0', '1', '2', '3', '4', '5', '6', '7',
+ '8', '9', 'a', 'b', 'c', 'd', 'e', 'f'};
+} // namespace
+
+// A globally unique 128-bit number.
+// In the early days of perfetto we were (sorta) respecting rfc4122. Later we
+// started replacing the LSB of the UUID with the statsd subscription ID in
+// other parts of the codebase (see perfetto_cmd.cc) for the convenience of
+// trace lookups, so rfc4122 made no sense as it just reduced entropy.
+Uuid Uuidv4() {
+ // Mix different sources of entropy to reduce the chances of collisions.
+ // Only using boot time is not enough. Under the assumption that most traces
+ // are started around the same time at boot, within a 1s window, the birthday
+ // paradox gives a chance of 90% collisions with 70k traces over a 1e9 space
+ // (Number of ns in a 1s window).
+ // &kHexmap >> 14 is used to feed use indirectly ASLR as a source of entropy.
+ // We deliberately don't use /dev/urandom as that might block for
+ // unpredictable time if the system is idle.
+ // The UUID does NOT need to be cryptographically secure, but random enough
+ // to avoid collisions across a large number of devices.
+ static std::minstd_rand rng(
+ static_cast<uint32_t>(static_cast<uint64_t>(GetBootTimeNs().count()) ^
+ static_cast<uint64_t>(GetWallTimeNs().count()) ^
+ (reinterpret_cast<uintptr_t>(&kHexmap) >> 14)));
+ Uuid uuid;
+ auto& data = *uuid.data();
+
+ // std::random is not thread safe and users of this class might mistakenly
+ // assume Uuidv4() is thread_safe because from the outside looks like a
+ // local object.
+ static base::NoDestructor<std::mutex> rand_mutex;
+ std::unique_lock<std::mutex> rand_lock(rand_mutex.ref());
+
+ for (size_t i = 0; i < sizeof(data);) {
+ // Note: the 32-th bit of rng() is always 0 as minstd_rand operates modulo
+ // 2**31. Fill in blocks of 16b rather than 32b to not lose 1b of entropy.
+ const auto rnd_data = static_cast<uint16_t>(rng());
+ memcpy(&data[i], &rnd_data, sizeof(rnd_data));
+ i += sizeof(rnd_data);
+ }
+
+ return uuid;
+}
+
+Uuid::Uuid() {}
+
+Uuid::Uuid(const std::string& s) {
+ PERFETTO_CHECK(s.size() == data_.size());
+ memcpy(data_.data(), s.data(), s.size());
+}
+
+Uuid::Uuid(int64_t lsb, int64_t msb) {
+ set_lsb_msb(lsb, msb);
+}
+
+std::string Uuid::ToString() const {
+ return std::string(reinterpret_cast<const char*>(data_.data()), data_.size());
+}
+
+std::string Uuid::ToPrettyString() const {
+ std::string s(data_.size() * 2 + 4, '-');
+ // Format is 123e4567-e89b-12d3-a456-426655443322.
+ size_t j = 0;
+ for (size_t i = 0; i < data_.size(); ++i) {
+ if (i == 4 || i == 6 || i == 8 || i == 10)
+ j++;
+ s[2 * i + j] = kHexmap[(data_[data_.size() - i - 1] & 0xf0) >> 4];
+ s[2 * i + 1 + j] = kHexmap[(data_[data_.size() - i - 1] & 0x0f)];
+ }
+ return s;
+}
+
+} // namespace base
+} // namespace perfetto
+// gen_amalgamated begin source: src/base/virtual_destructors.cc
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/base/task_runner.h"
+
+// This translation unit contains the definitions for the destructor of pure
+// virtual interfaces for the current build target. The alternative would be
+// introducing a one-liner .cc file for each pure virtual interface, which is
+// overkill. This is for compliance with -Wweak-vtables.
+
+namespace perfetto {
+namespace base {
+
+TaskRunner::~TaskRunner() = default;
+
+} // namespace base
+} // namespace perfetto
+// gen_amalgamated begin source: src/base/waitable_event.cc
+// gen_amalgamated begin header: include/perfetto/ext/base/waitable_event.h
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_BASE_WAITABLE_EVENT_H_
+#define INCLUDE_PERFETTO_EXT_BASE_WAITABLE_EVENT_H_
+
+#include <condition_variable>
+#include <mutex>
+
+namespace perfetto {
+namespace base {
+
+// A waitable event for cross-thread synchronization.
+// All methods on this class can be called from any thread.
+class WaitableEvent {
+ public:
+ WaitableEvent();
+ ~WaitableEvent();
+ WaitableEvent(const WaitableEvent&) = delete;
+ WaitableEvent operator=(const WaitableEvent&) = delete;
+
+ // Synchronously block until the event is notified `notification` times.
+ void Wait(uint64_t notifications = 1);
+
+ // Signal the event, waking up blocked waiters.
+ void Notify();
+
+ private:
+ std::mutex mutex_;
+ std::condition_variable event_;
+ uint64_t notifications_ = 0;
+};
+
+} // namespace base
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_BASE_WAITABLE_EVENT_H_
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/waitable_event.h"
+
+namespace perfetto {
+namespace base {
+
+WaitableEvent::WaitableEvent() = default;
+WaitableEvent::~WaitableEvent() = default;
+
+void WaitableEvent::Wait(uint64_t notifications) {
+ std::unique_lock<std::mutex> lock(mutex_);
+ return event_.wait(lock, [&] { return notifications_ >= notifications; });
+}
+
+void WaitableEvent::Notify() {
+ std::unique_lock<std::mutex> lock(mutex_);
+ notifications_++;
+ event_.notify_all();
+}
+
+} // namespace base
+} // namespace perfetto
+// gen_amalgamated begin source: src/base/watchdog_posix.cc
+// gen_amalgamated begin header: include/perfetto/ext/base/watchdog.h
+// gen_amalgamated begin header: include/perfetto/ext/base/watchdog_noop.h
+/*
+ * Copyright (C) 2018 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_BASE_WATCHDOG_NOOP_H_
+#define INCLUDE_PERFETTO_EXT_BASE_WATCHDOG_NOOP_H_
+
+#include <stdint.h>
+
+namespace perfetto {
+namespace base {
+
+enum class WatchdogCrashReason; // Defined in watchdog.h.
+
+class Watchdog {
+ public:
+ class Timer {
+ public:
+ // Define an empty dtor to avoid "unused variable" errors on the call site.
+ Timer() {}
+ Timer(const Timer&) {}
+ ~Timer() {}
+ };
+ static Watchdog* GetInstance() {
+ static Watchdog* watchdog = new Watchdog();
+ return watchdog;
+ }
+ Timer CreateFatalTimer(uint32_t /*ms*/, WatchdogCrashReason) {
+ return Timer();
+ }
+ void Start() {}
+ void SetMemoryLimit(uint64_t /*bytes*/, uint32_t /*window_ms*/) {}
+ void SetCpuLimit(uint32_t /*percentage*/, uint32_t /*window_ms*/) {}
+};
+
+} // namespace base
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_BASE_WATCHDOG_NOOP_H_
+/*
+ * Copyright (C) 2018 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_BASE_WATCHDOG_H_
+#define INCLUDE_PERFETTO_EXT_BASE_WATCHDOG_H_
+
+#include <functional>
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+
+// The POSIX watchdog is only supported on Linux and Android in non-embedder
+// builds.
+#if PERFETTO_BUILDFLAG(PERFETTO_WATCHDOG)
+// gen_amalgamated expanded: #include "perfetto/ext/base/watchdog_posix.h"
+#else
+// gen_amalgamated expanded: #include "perfetto/ext/base/watchdog_noop.h"
+#endif
+
+namespace perfetto {
+namespace base {
+
+// Used only to add more details to crash reporting.
+enum class WatchdogCrashReason {
+ kUnspecified = 0,
+ kCpuGuardrail = 1,
+ kMemGuardrail = 2,
+ kTaskRunnerHung = 3,
+ kTraceDidntStop = 4,
+};
+
+// Make the limits more relaxed on desktop, where multi-GB traces are likely.
+// Multi-GB traces can take bursts of cpu time to write into disk at the end of
+// the trace.
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID)
+constexpr uint32_t kWatchdogDefaultCpuLimit = 75;
+constexpr uint32_t kWatchdogDefaultCpuWindow = 5 * 60 * 1000; // 5 minutes.
+#else
+constexpr uint32_t kWatchdogDefaultCpuLimit = 90;
+constexpr uint32_t kWatchdogDefaultCpuWindow = 10 * 60 * 1000; // 10 minutes.
+#endif
+
+// The default memory margin we give to our processes. This is used as as a
+// constant to put on top of the trace buffers.
+constexpr uint64_t kWatchdogDefaultMemorySlack = 32 * 1024 * 1024; // 32 MiB.
+constexpr uint32_t kWatchdogDefaultMemoryWindow = 30 * 1000; // 30 seconds.
+
+inline void RunTaskWithWatchdogGuard(const std::function<void()>& task) {
+ // Maximum time a single task can take in a TaskRunner before the
+ // program suicides.
+ constexpr int64_t kWatchdogMillis = 30000; // 30s
+
+ Watchdog::Timer handle = base::Watchdog::GetInstance()->CreateFatalTimer(
+ kWatchdogMillis, WatchdogCrashReason::kTaskRunnerHung);
+ task();
+
+ // Suppress unused variable warnings in the client library amalgamated build.
+ (void)kWatchdogDefaultCpuLimit;
+ (void)kWatchdogDefaultCpuWindow;
+ (void)kWatchdogDefaultMemorySlack;
+ (void)kWatchdogDefaultMemoryWindow;
+}
+
+} // namespace base
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_BASE_WATCHDOG_H_
+/*
+ * Copyright (C) 2018 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/platform.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/watchdog.h"
+
+#if PERFETTO_BUILDFLAG(PERFETTO_WATCHDOG)
+
+#include <fcntl.h>
+#include <poll.h>
+#include <signal.h>
+#include <stdint.h>
+#include <stdlib.h>
+#include <sys/syscall.h>
+#include <sys/timerfd.h>
+#include <unistd.h>
+
+#include <algorithm>
+#include <cinttypes>
+#include <fstream>
+#include <thread>
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/base/thread_utils.h"
+// gen_amalgamated expanded: #include "perfetto/base/time.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/crash_keys.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/file_utils.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/scoped_file.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/utils.h"
+
+namespace perfetto {
+namespace base {
+
+namespace {
+
+constexpr uint32_t kDefaultPollingInterval = 30 * 1000;
+
+base::CrashKey g_crash_key_reason("wdog_reason");
+
+bool IsMultipleOf(uint32_t number, uint32_t divisor) {
+ return number >= divisor && number % divisor == 0;
+}
+
+double MeanForArray(const uint64_t array[], size_t size) {
+ uint64_t total = 0;
+ for (size_t i = 0; i < size; i++) {
+ total += array[i];
+ }
+ return static_cast<double>(total / size);
+}
+
+} // namespace
+
+bool ReadProcStat(int fd, ProcStat* out) {
+ char c[512];
+ size_t c_pos = 0;
+ while (c_pos < sizeof(c) - 1) {
+ ssize_t rd = PERFETTO_EINTR(read(fd, c + c_pos, sizeof(c) - c_pos));
+ if (rd < 0) {
+ PERFETTO_ELOG("Failed to read stat file to enforce resource limits.");
+ return false;
+ }
+ if (rd == 0)
+ break;
+ c_pos += static_cast<size_t>(rd);
+ }
+ PERFETTO_CHECK(c_pos < sizeof(c));
+ c[c_pos] = '\0';
+
+ if (sscanf(c,
+ "%*d %*s %*c %*d %*d %*d %*d %*d %*u %*u %*u %*u %*u %lu "
+ "%lu %*d %*d %*d %*d %*d %*d %*u %*u %ld",
+ &out->utime, &out->stime, &out->rss_pages) != 3) {
+ PERFETTO_ELOG("Invalid stat format: %s", c);
+ return false;
+ }
+ return true;
+}
+
+Watchdog::Watchdog(uint32_t polling_interval_ms)
+ : polling_interval_ms_(polling_interval_ms) {}
+
+Watchdog::~Watchdog() {
+ if (!thread_.joinable()) {
+ PERFETTO_DCHECK(!enabled_);
+ return;
+ }
+ PERFETTO_DCHECK(enabled_);
+ enabled_ = false;
+
+ // Rearm the timer to 1ns from now. This will cause the watchdog thread to
+ // wakeup from the poll() and see |enabled_| == false.
+ // This code path is used only in tests. In production code the watchdog is
+ // a singleton and is never destroyed.
+ struct itimerspec ts {};
+ ts.it_value.tv_sec = 0;
+ ts.it_value.tv_nsec = 1;
+ timerfd_settime(*timer_fd_, /*flags=*/0, &ts, nullptr);
+
+ thread_.join();
+}
+
+Watchdog* Watchdog::GetInstance() {
+ static Watchdog* watchdog = new Watchdog(kDefaultPollingInterval);
+ return watchdog;
+}
+
+// Can be called from any thread.
+Watchdog::Timer Watchdog::CreateFatalTimer(uint32_t ms,
+ WatchdogCrashReason crash_reason) {
+ if (!enabled_.load(std::memory_order_relaxed))
+ return Watchdog::Timer(this, 0, crash_reason);
+
+ return Watchdog::Timer(this, ms, crash_reason);
+}
+
+// Can be called from any thread.
+void Watchdog::AddFatalTimer(TimerData timer) {
+ std::lock_guard<std::mutex> guard(mutex_);
+ timers_.emplace_back(std::move(timer));
+ RearmTimerFd_Locked();
+}
+
+// Can be called from any thread.
+void Watchdog::RemoveFatalTimer(TimerData timer) {
+ std::lock_guard<std::mutex> guard(mutex_);
+ for (auto it = timers_.begin(); it != timers_.end(); it++) {
+ if (*it == timer) {
+ timers_.erase(it);
+ break; // Remove only one. Doesn't matter which one.
+ }
+ }
+ RearmTimerFd_Locked();
+}
+
+void Watchdog::RearmTimerFd_Locked() {
+ if (!enabled_)
+ return;
+ auto it = std::min_element(timers_.begin(), timers_.end());
+
+ // We use one timerfd to handle all the oustanding |timers_|. Keep it armed
+ // to the task expiring soonest.
+ struct itimerspec ts {};
+ if (it != timers_.end()) {
+ ts.it_value = ToPosixTimespec(it->deadline);
+ }
+ // If |timers_| is empty (it == end()) |ts.it_value| will remain
+ // zero-initialized and that will disarm the timer in the call below.
+ int res = timerfd_settime(*timer_fd_, TFD_TIMER_ABSTIME, &ts, nullptr);
+ PERFETTO_DCHECK(res == 0);
+}
+
+void Watchdog::Start() {
+ std::lock_guard<std::mutex> guard(mutex_);
+ if (thread_.joinable()) {
+ PERFETTO_DCHECK(enabled_);
+ } else {
+ PERFETTO_DCHECK(!enabled_);
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_LINUX) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID)
+ // Kick the thread to start running but only on Android or Linux.
+ timer_fd_.reset(
+ timerfd_create(CLOCK_MONOTONIC, TFD_CLOEXEC | TFD_NONBLOCK));
+ if (!timer_fd_) {
+ PERFETTO_PLOG(
+ "timerfd_create failed, the Perfetto watchdog is not available");
+ return;
+ }
+ enabled_ = true;
+ RearmTimerFd_Locked(); // Deal with timers created before Start().
+ thread_ = std::thread(&Watchdog::ThreadMain, this);
+#endif
+ }
+}
+
+void Watchdog::SetMemoryLimit(uint64_t bytes, uint32_t window_ms) {
+ // Update the fields under the lock.
+ std::lock_guard<std::mutex> guard(mutex_);
+
+ PERFETTO_CHECK(IsMultipleOf(window_ms, polling_interval_ms_) || bytes == 0);
+
+ size_t size = bytes == 0 ? 0 : window_ms / polling_interval_ms_ + 1;
+ memory_window_bytes_.Reset(size);
+ memory_limit_bytes_ = bytes;
+}
+
+void Watchdog::SetCpuLimit(uint32_t percentage, uint32_t window_ms) {
+ std::lock_guard<std::mutex> guard(mutex_);
+
+ PERFETTO_CHECK(percentage <= 100);
+ PERFETTO_CHECK(IsMultipleOf(window_ms, polling_interval_ms_) ||
+ percentage == 0);
+
+ size_t size = percentage == 0 ? 0 : window_ms / polling_interval_ms_ + 1;
+ cpu_window_time_ticks_.Reset(size);
+ cpu_limit_percentage_ = percentage;
+}
+
+void Watchdog::ThreadMain() {
+ // Register crash keys explicitly to avoid running out of slots at crash time.
+ g_crash_key_reason.Register();
+
+ base::ScopedFile stat_fd(base::OpenFile("/proc/self/stat", O_RDONLY));
+ if (!stat_fd) {
+ PERFETTO_ELOG("Failed to open stat file to enforce resource limits.");
+ return;
+ }
+
+ PERFETTO_DCHECK(timer_fd_);
+
+ constexpr uint8_t kFdCount = 1;
+ struct pollfd fds[kFdCount]{};
+ fds[0].fd = *timer_fd_;
+ fds[0].events = POLLIN;
+
+ for (;;) {
+ // We use the poll() timeout to drive the periodic ticks for the cpu/memory
+ // checks. The only other case when the poll() unblocks is when we crash
+ // (or have to quit via enabled_ == false, but that happens only in tests).
+ platform::BeforeMaybeBlockingSyscall();
+ auto ret = poll(fds, kFdCount, static_cast<int>(polling_interval_ms_));
+ platform::AfterMaybeBlockingSyscall();
+ if (!enabled_)
+ return;
+ if (ret < 0) {
+ if (errno == ENOMEM || errno == EINTR) {
+ // Should happen extremely rarely.
+ std::this_thread::sleep_for(std::chrono::milliseconds(100));
+ continue;
+ }
+ PERFETTO_FATAL("watchdog poll() failed");
+ }
+
+ // If we get here either:
+ // 1. poll() timed out, in which case we should process cpu/mem guardrails.
+ // 2. A timer expired, in which case we shall crash.
+
+ uint64_t expired = 0; // Must be exactly 8 bytes.
+ auto res = PERFETTO_EINTR(read(*timer_fd_, &expired, sizeof(expired)));
+ PERFETTO_DCHECK((res < 0 && (errno == EAGAIN)) ||
+ (res == sizeof(expired) && expired > 0));
+ const auto now = GetWallTimeMs();
+
+ // Check if any of the timers expired.
+ int tid_to_kill = 0;
+ WatchdogCrashReason crash_reason{};
+ std::unique_lock<std::mutex> guard(mutex_);
+ for (const auto& timer : timers_) {
+ if (now >= timer.deadline) {
+ tid_to_kill = timer.thread_id;
+ crash_reason = timer.crash_reason;
+ break;
+ }
+ }
+ guard.unlock();
+
+ if (tid_to_kill)
+ SerializeLogsAndKillThread(tid_to_kill, crash_reason);
+
+ // Check CPU and memory guardrails (if enabled).
+ lseek(stat_fd.get(), 0, SEEK_SET);
+ ProcStat stat;
+ if (!ReadProcStat(stat_fd.get(), &stat))
+ continue;
+ uint64_t cpu_time = stat.utime + stat.stime;
+ uint64_t rss_bytes =
+ static_cast<uint64_t>(stat.rss_pages) * base::GetSysPageSize();
+
+ bool threshold_exceeded = false;
+ guard.lock();
+ if (CheckMemory_Locked(rss_bytes)) {
+ threshold_exceeded = true;
+ crash_reason = WatchdogCrashReason::kMemGuardrail;
+ } else if (CheckCpu_Locked(cpu_time)) {
+ threshold_exceeded = true;
+ crash_reason = WatchdogCrashReason::kCpuGuardrail;
+ }
+ guard.unlock();
+
+ if (threshold_exceeded)
+ SerializeLogsAndKillThread(getpid(), crash_reason);
+ }
+}
+
+void Watchdog::SerializeLogsAndKillThread(int tid,
+ WatchdogCrashReason crash_reason) {
+ g_crash_key_reason.Set(static_cast<int>(crash_reason));
+
+ // We are about to die. Serialize the logs into the crash buffer so the
+ // debuggerd crash handler picks them up and attaches to the bugreport.
+ // In the case of a PERFETTO_CHECK/PERFETTO_FATAL this is done in logging.h.
+ // But in the watchdog case, we don't hit that codepath and must do ourselves.
+ MaybeSerializeLastLogsForCrashReporting();
+
+ // Send a SIGABRT to the thread that armed the timer. This is to see the
+ // callstack of the thread that is stuck in a long task rather than the
+ // watchdog thread.
+ if (syscall(__NR_tgkill, getpid(), tid, SIGABRT) < 0) {
+ // At this point the process must die. If for any reason the tgkill doesn't
+ // work (e.g. the thread has disappeared), force a crash from here.
+ abort();
+ }
+
+ if (disable_kill_failsafe_for_testing_)
+ return;
+
+ // The tgkill() above will take some milliseconds to cause a crash, as it
+ // involves the kernel to queue the SIGABRT on the target thread (often the
+ // main thread, which is != watchdog thread) and do a scheduling round.
+ // If something goes wrong though (the target thread has signals masked or
+ // is stuck in an uninterruptible+wakekill syscall) force quit from this
+ // thread.
+ std::this_thread::sleep_for(std::chrono::seconds(10));
+ abort();
+}
+
+bool Watchdog::CheckMemory_Locked(uint64_t rss_bytes) {
+ if (memory_limit_bytes_ == 0)
+ return false;
+
+ // Add the current stat value to the ring buffer and check that the mean
+ // remains under our threshold.
+ if (memory_window_bytes_.Push(rss_bytes)) {
+ if (memory_window_bytes_.Mean() >
+ static_cast<double>(memory_limit_bytes_)) {
+ PERFETTO_ELOG(
+ "Memory watchdog trigger. Memory window of %f bytes is above the "
+ "%" PRIu64 " bytes limit.",
+ memory_window_bytes_.Mean(), memory_limit_bytes_);
+ return true;
+ }
+ }
+ return false;
+}
+
+bool Watchdog::CheckCpu_Locked(uint64_t cpu_time) {
+ if (cpu_limit_percentage_ == 0)
+ return false;
+
+ // Add the cpu time to the ring buffer.
+ if (cpu_window_time_ticks_.Push(cpu_time)) {
+ // Compute the percentage over the whole window and check that it remains
+ // under the threshold.
+ uint64_t difference_ticks = cpu_window_time_ticks_.NewestWhenFull() -
+ cpu_window_time_ticks_.OldestWhenFull();
+ double window_interval_ticks =
+ (static_cast<double>(WindowTimeForRingBuffer(cpu_window_time_ticks_)) /
+ 1000.0) *
+ static_cast<double>(sysconf(_SC_CLK_TCK));
+ double percentage = static_cast<double>(difference_ticks) /
+ static_cast<double>(window_interval_ticks) * 100;
+ if (percentage > cpu_limit_percentage_) {
+ PERFETTO_ELOG("CPU watchdog trigger. %f%% CPU use is above the %" PRIu32
+ "%% CPU limit.",
+ percentage, cpu_limit_percentage_);
+ return true;
+ }
+ }
+ return false;
+}
+
+uint32_t Watchdog::WindowTimeForRingBuffer(const WindowedInterval& window) {
+ return static_cast<uint32_t>(window.size() - 1) * polling_interval_ms_;
+}
+
+bool Watchdog::WindowedInterval::Push(uint64_t sample) {
+ // Add the sample to the current position in the ring buffer.
+ buffer_[position_] = sample;
+
+ // Update the position with next one circularily.
+ position_ = (position_ + 1) % size_;
+
+ // Set the filled flag the first time we wrap.
+ filled_ = filled_ || position_ == 0;
+ return filled_;
+}
+
+double Watchdog::WindowedInterval::Mean() const {
+ return MeanForArray(buffer_.get(), size_);
+}
+
+void Watchdog::WindowedInterval::Clear() {
+ position_ = 0;
+ buffer_.reset(new uint64_t[size_]());
+}
+
+void Watchdog::WindowedInterval::Reset(size_t new_size) {
+ position_ = 0;
+ size_ = new_size;
+ buffer_.reset(new_size == 0 ? nullptr : new uint64_t[new_size]());
+}
+
+Watchdog::Timer::Timer(Watchdog* watchdog,
+ uint32_t ms,
+ WatchdogCrashReason crash_reason)
+ : watchdog_(watchdog) {
+ if (!ms)
+ return; // No-op timer created when the watchdog is disabled.
+ timer_data_.deadline = GetWallTimeMs() + std::chrono::milliseconds(ms);
+ timer_data_.thread_id = GetThreadId();
+ timer_data_.crash_reason = crash_reason;
+ PERFETTO_DCHECK(watchdog_);
+ watchdog_->AddFatalTimer(timer_data_);
+}
+
+Watchdog::Timer::~Timer() {
+ if (timer_data_.deadline.count())
+ watchdog_->RemoveFatalTimer(timer_data_);
+}
+
+Watchdog::Timer::Timer(Timer&& other) noexcept {
+ watchdog_ = std::move(other.watchdog_);
+ other.watchdog_ = nullptr;
+ timer_data_ = std::move(other.timer_data_);
+ other.timer_data_ = TimerData();
+}
+
+} // namespace base
+} // namespace perfetto
+
+#endif // PERFETTO_BUILDFLAG(PERFETTO_WATCHDOG)
+// gen_amalgamated begin source: src/base/thread_task_runner.cc
+// gen_amalgamated begin header: include/perfetto/ext/base/thread_task_runner.h
+// gen_amalgamated begin header: include/perfetto/ext/base/unix_task_runner.h
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_BASE_UNIX_TASK_RUNNER_H_
+#define INCLUDE_PERFETTO_EXT_BASE_UNIX_TASK_RUNNER_H_
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+// gen_amalgamated expanded: #include "perfetto/base/task_runner.h"
+// gen_amalgamated expanded: #include "perfetto/base/thread_utils.h"
+// gen_amalgamated expanded: #include "perfetto/base/time.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/event_fd.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/scoped_file.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/thread_checker.h"
+
+#include <chrono>
+#include <deque>
+#include <map>
+#include <mutex>
+#include <vector>
+
+#if !PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+#include <poll.h>
+#endif
+
+namespace perfetto {
+namespace base {
+
+// Runs a task runner on the current thread.
+//
+// Implementation note: we currently assume (and enforce in debug builds) that
+// Run() is called from the thread that constructed the UnixTaskRunner. This is
+// not strictly necessary, and we could instead track the thread that invokes
+// Run(). However, a related property that *might* be important to enforce is
+// that the destructor runs on the task-running thread. Otherwise, if there are
+// still-pending tasks at the time of destruction, we would destroy those
+// outside of the task thread (which might be unexpected to the caller). On the
+// other hand, the std::function task interface discourages use of any
+// resource-owning tasks (as the callable needs to be copyable), so this might
+// not be important in practice.
+//
+// TODO(rsavitski): consider adding a thread-check in the destructor, after
+// auditing existing usages.
+// TODO(primiano): rename this to TaskRunnerImpl. The "Unix" part is misleading
+// now as it supports also Windows.
+class UnixTaskRunner : public TaskRunner {
+ public:
+ UnixTaskRunner();
+ ~UnixTaskRunner() override;
+
+ // Start executing tasks. Doesn't return until Quit() is called. Run() may be
+ // called multiple times on the same task runner.
+ void Run();
+ void Quit();
+
+ // Checks whether there are any pending immediate tasks to run. Note that
+ // delayed tasks don't count even if they are due to run.
+ bool IsIdleForTesting();
+
+ // TaskRunner implementation:
+ void PostTask(std::function<void()>) override;
+ void PostDelayedTask(std::function<void()>, uint32_t delay_ms) override;
+ void AddFileDescriptorWatch(PlatformHandle, std::function<void()>) override;
+ void RemoveFileDescriptorWatch(PlatformHandle) override;
+ bool RunsTasksOnCurrentThread() const override;
+
+ // Returns true if the task runner is quitting, or has quit and hasn't been
+ // restarted since. Exposed primarily for ThreadTaskRunner, not necessary for
+ // normal use of this class.
+ bool QuitCalled();
+
+ private:
+ void WakeUp();
+ void UpdateWatchTasksLocked();
+ int GetDelayMsToNextTaskLocked() const;
+ void RunImmediateAndDelayedTask();
+ void PostFileDescriptorWatches(uint64_t windows_wait_result);
+ void RunFileDescriptorWatch(PlatformHandle);
+
+ ThreadChecker thread_checker_;
+ PlatformThreadId created_thread_id_ = GetThreadId();
+
+ EventFd event_;
+
+// The array of fds/handles passed to poll(2) / WaitForMultipleObjects().
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ std::vector<PlatformHandle> poll_fds_;
+#else
+ std::vector<struct pollfd> poll_fds_;
+#endif
+
+ // --- Begin lock-protected members ---
+
+ std::mutex lock_;
+
+ std::deque<std::function<void()>> immediate_tasks_;
+ std::multimap<TimeMillis, std::function<void()>> delayed_tasks_;
+ bool quit_ = false;
+
+ struct WatchTask {
+ std::function<void()> callback;
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ // On UNIX systems we make the FD number negative in |poll_fds_| to avoid
+ // polling it again until the queued task runs. On Windows we can't do that.
+ // Instead we keep track of its state here.
+ bool pending = false;
+#else
+ size_t poll_fd_index; // Index into |poll_fds_|.
+#endif
+ };
+
+ std::map<PlatformHandle, WatchTask> watch_tasks_;
+ bool watch_tasks_changed_ = false;
+
+ // --- End lock-protected members ---
+};
+
+} // namespace base
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_BASE_UNIX_TASK_RUNNER_H_
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_BASE_THREAD_TASK_RUNNER_H_
+#define INCLUDE_PERFETTO_EXT_BASE_THREAD_TASK_RUNNER_H_
+
+#include <functional>
+#include <thread>
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/unix_task_runner.h"
+
+namespace perfetto {
+namespace base {
+
+// A UnixTaskRunner backed by a dedicated task thread. Shuts down the runner and
+// joins the thread upon destruction. Can be moved to transfer ownership.
+//
+// Guarantees that:
+// * the UnixTaskRunner will be constructed and destructed on the task thread.
+// * the task thread will live for the lifetime of the UnixTaskRunner.
+//
+class PERFETTO_EXPORT_COMPONENT ThreadTaskRunner : public TaskRunner {
+ public:
+ static ThreadTaskRunner CreateAndStart(const std::string& name = "") {
+ return ThreadTaskRunner(name);
+ }
+
+ ThreadTaskRunner(const ThreadTaskRunner&) = delete;
+ ThreadTaskRunner& operator=(const ThreadTaskRunner&) = delete;
+
+ ThreadTaskRunner(ThreadTaskRunner&&) noexcept;
+ ThreadTaskRunner& operator=(ThreadTaskRunner&&);
+ ~ThreadTaskRunner() override;
+
+ // Executes the given function on the task runner thread and blocks the caller
+ // thread until the function has run.
+ void PostTaskAndWaitForTesting(std::function<void()>);
+
+ // Can be called from another thread to get the CPU time of the thread the
+ // task-runner is executing on.
+ uint64_t GetThreadCPUTimeNsForTesting();
+
+ // Returns a pointer to the UnixTaskRunner, which is valid for the lifetime of
+ // this ThreadTaskRunner object (unless this object is moved-from, in which
+ // case the pointer remains valid for the lifetime of the new owning
+ // ThreadTaskRunner).
+ //
+ // Warning: do not call Quit() on the returned runner pointer, the termination
+ // should be handled exclusively by this class' destructor.
+ UnixTaskRunner* get() const { return task_runner_; }
+
+ // TaskRunner implementation.
+ // These methods just proxy to the underlying task_runner_.
+ void PostTask(std::function<void()>) override;
+ void PostDelayedTask(std::function<void()>, uint32_t delay_ms) override;
+ void AddFileDescriptorWatch(PlatformHandle, std::function<void()>) override;
+ void RemoveFileDescriptorWatch(PlatformHandle) override;
+ bool RunsTasksOnCurrentThread() const override;
+
+ private:
+ explicit ThreadTaskRunner(const std::string& name);
+ void RunTaskThread(std::function<void(UnixTaskRunner*)> initializer);
+
+ std::thread thread_;
+ std::string name_;
+ UnixTaskRunner* task_runner_ = nullptr;
+};
+
+} // namespace base
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_BASE_THREAD_TASK_RUNNER_H_
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/thread_task_runner.h"
+
+#include <condition_variable>
+#include <functional>
+#include <mutex>
+#include <thread>
+
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/thread_utils.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/unix_task_runner.h"
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_LINUX) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID)
+#include <sys/prctl.h>
+#endif
+
+namespace perfetto {
+namespace base {
+
+ThreadTaskRunner::ThreadTaskRunner(ThreadTaskRunner&& other) noexcept
+ : thread_(std::move(other.thread_)), task_runner_(other.task_runner_) {
+ other.task_runner_ = nullptr;
+}
+
+ThreadTaskRunner& ThreadTaskRunner::operator=(ThreadTaskRunner&& other) {
+ this->~ThreadTaskRunner();
+ new (this) ThreadTaskRunner(std::move(other));
+ return *this;
+}
+
+ThreadTaskRunner::~ThreadTaskRunner() {
+ if (task_runner_) {
+ PERFETTO_CHECK(!task_runner_->QuitCalled());
+ task_runner_->Quit();
+
+ PERFETTO_DCHECK(thread_.joinable());
+ }
+ if (thread_.joinable())
+ thread_.join();
+}
+
+ThreadTaskRunner::ThreadTaskRunner(const std::string& name) : name_(name) {
+ std::mutex init_lock;
+ std::condition_variable init_cv;
+
+ std::function<void(UnixTaskRunner*)> initializer =
+ [this, &init_lock, &init_cv](UnixTaskRunner* task_runner) {
+ std::lock_guard<std::mutex> lock(init_lock);
+ task_runner_ = task_runner;
+ // Notify while still holding the lock, as init_cv ceases to exist as
+ // soon as the main thread observes a non-null task_runner_, and it can
+ // wake up spuriously (i.e. before the notify if we had unlocked before
+ // notifying).
+ init_cv.notify_one();
+ };
+
+ thread_ = std::thread(&ThreadTaskRunner::RunTaskThread, this,
+ std::move(initializer));
+
+ std::unique_lock<std::mutex> lock(init_lock);
+ init_cv.wait(lock, [this] { return !!task_runner_; });
+}
+
+void ThreadTaskRunner::RunTaskThread(
+ std::function<void(UnixTaskRunner*)> initializer) {
+ if (!name_.empty()) {
+ base::MaybeSetThreadName(name_);
+ }
+
+ UnixTaskRunner task_runner;
+ task_runner.PostTask(std::bind(std::move(initializer), &task_runner));
+ task_runner.Run();
+}
+
+void ThreadTaskRunner::PostTaskAndWaitForTesting(std::function<void()> fn) {
+ std::mutex mutex;
+ std::condition_variable cv;
+
+ std::unique_lock<std::mutex> lock(mutex);
+ bool done = false;
+ task_runner_->PostTask([&mutex, &cv, &done, &fn] {
+ fn();
+
+ std::lock_guard<std::mutex> inner_lock(mutex);
+ done = true;
+ cv.notify_one();
+ });
+ cv.wait(lock, [&done] { return done; });
+}
+
+uint64_t ThreadTaskRunner::GetThreadCPUTimeNsForTesting() {
+ uint64_t thread_time_ns = 0;
+ PostTaskAndWaitForTesting([&thread_time_ns] {
+ thread_time_ns = static_cast<uint64_t>(base::GetThreadCPUTimeNs().count());
+ });
+ return thread_time_ns;
+}
+
+void ThreadTaskRunner::PostTask(std::function<void()> task) {
+ task_runner_->PostTask(std::move(task));
+}
+
+void ThreadTaskRunner::PostDelayedTask(std::function<void()> task,
+ uint32_t delay_ms) {
+ task_runner_->PostDelayedTask(std::move(task), delay_ms);
+}
+
+void ThreadTaskRunner::AddFileDescriptorWatch(
+ PlatformHandle handle,
+ std::function<void()> watch_task) {
+ task_runner_->AddFileDescriptorWatch(handle, std::move(watch_task));
+}
+
+void ThreadTaskRunner::RemoveFileDescriptorWatch(PlatformHandle handle) {
+ task_runner_->RemoveFileDescriptorWatch(handle);
+}
+
+bool ThreadTaskRunner::RunsTasksOnCurrentThread() const {
+ return task_runner_->RunsTasksOnCurrentThread();
+}
+
+} // namespace base
+} // namespace perfetto
+// gen_amalgamated begin source: src/base/unix_task_runner.cc
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/platform.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/unix_task_runner.h"
+
+#include <errno.h>
+#include <stdlib.h>
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+#include <Windows.h>
+#include <synchapi.h>
+#else
+#include <unistd.h>
+#endif
+
+#include <algorithm>
+#include <limits>
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/watchdog.h"
+
+namespace perfetto {
+namespace base {
+
+UnixTaskRunner::UnixTaskRunner() {
+ AddFileDescriptorWatch(event_.fd(), [] {
+ // Not reached -- see PostFileDescriptorWatches().
+ PERFETTO_DFATAL("Should be unreachable.");
+ });
+}
+
+UnixTaskRunner::~UnixTaskRunner() = default;
+
+void UnixTaskRunner::WakeUp() {
+ event_.Notify();
+}
+
+void UnixTaskRunner::Run() {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ created_thread_id_ = GetThreadId();
+ quit_ = false;
+ for (;;) {
+ int poll_timeout_ms;
+ {
+ std::lock_guard<std::mutex> lock(lock_);
+ if (quit_)
+ return;
+ poll_timeout_ms = GetDelayMsToNextTaskLocked();
+ UpdateWatchTasksLocked();
+ }
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ DWORD timeout =
+ poll_timeout_ms >= 0 ? static_cast<DWORD>(poll_timeout_ms) : INFINITE;
+ DWORD ret =
+ WaitForMultipleObjects(static_cast<DWORD>(poll_fds_.size()),
+ &poll_fds_[0], /*bWaitAll=*/false, timeout);
+ // Unlike poll(2), WaitForMultipleObjects() returns only *one* handle in the
+ // set, even when >1 is signalled. In order to avoid starvation,
+ // PostFileDescriptorWatches() will WaitForSingleObject() each other handle
+ // to ensure fairness. |ret| here is passed just to avoid an extra
+ // WaitForSingleObject() for the one handle that WaitForMultipleObject()
+ // returned.
+ PostFileDescriptorWatches(ret);
+#else
+ platform::BeforeMaybeBlockingSyscall();
+ int ret = PERFETTO_EINTR(poll(
+ &poll_fds_[0], static_cast<nfds_t>(poll_fds_.size()), poll_timeout_ms));
+ platform::AfterMaybeBlockingSyscall();
+ PERFETTO_CHECK(ret >= 0);
+ PostFileDescriptorWatches(0 /*ignored*/);
+#endif
+
+ // To avoid starvation we always interleave all types of tasks -- immediate,
+ // delayed and file descriptor watches.
+ RunImmediateAndDelayedTask();
+ }
+}
+
+void UnixTaskRunner::Quit() {
+ std::lock_guard<std::mutex> lock(lock_);
+ quit_ = true;
+ WakeUp();
+}
+
+bool UnixTaskRunner::QuitCalled() {
+ std::lock_guard<std::mutex> lock(lock_);
+ return quit_;
+}
+
+bool UnixTaskRunner::IsIdleForTesting() {
+ std::lock_guard<std::mutex> lock(lock_);
+ return immediate_tasks_.empty();
+}
+
+void UnixTaskRunner::UpdateWatchTasksLocked() {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+#if !PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ if (!watch_tasks_changed_)
+ return;
+ watch_tasks_changed_ = false;
+#endif
+ poll_fds_.clear();
+ for (auto& it : watch_tasks_) {
+ PlatformHandle handle = it.first;
+ WatchTask& watch_task = it.second;
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ if (!watch_task.pending)
+ poll_fds_.push_back(handle);
+#else
+ watch_task.poll_fd_index = poll_fds_.size();
+ poll_fds_.push_back({handle, POLLIN | POLLHUP, 0});
+#endif
+ }
+}
+
+void UnixTaskRunner::RunImmediateAndDelayedTask() {
+ // If locking overhead becomes an issue, add a separate work queue.
+ std::function<void()> immediate_task;
+ std::function<void()> delayed_task;
+ TimeMillis now = GetWallTimeMs();
+ {
+ std::lock_guard<std::mutex> lock(lock_);
+ if (!immediate_tasks_.empty()) {
+ immediate_task = std::move(immediate_tasks_.front());
+ immediate_tasks_.pop_front();
+ }
+ if (!delayed_tasks_.empty()) {
+ auto it = delayed_tasks_.begin();
+ if (now >= it->first) {
+ delayed_task = std::move(it->second);
+ delayed_tasks_.erase(it);
+ }
+ }
+ }
+
+ errno = 0;
+ if (immediate_task)
+ RunTaskWithWatchdogGuard(immediate_task);
+ errno = 0;
+ if (delayed_task)
+ RunTaskWithWatchdogGuard(delayed_task);
+}
+
+void UnixTaskRunner::PostFileDescriptorWatches(uint64_t windows_wait_result) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ for (size_t i = 0; i < poll_fds_.size(); i++) {
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ const PlatformHandle handle = poll_fds_[i];
+ // |windows_wait_result| is the result of WaitForMultipleObjects() call. If
+ // one of the objects was signalled, it will have a value between
+ // [0, poll_fds_.size()].
+ if (i != windows_wait_result &&
+ WaitForSingleObject(handle, 0) != WAIT_OBJECT_0) {
+ continue;
+ }
+#else
+ base::ignore_result(windows_wait_result);
+ const PlatformHandle handle = poll_fds_[i].fd;
+ if (!(poll_fds_[i].revents & (POLLIN | POLLHUP)))
+ continue;
+ poll_fds_[i].revents = 0;
+#endif
+
+ // The wake-up event is handled inline to avoid an infinite recursion of
+ // posted tasks.
+ if (handle == event_.fd()) {
+ event_.Clear();
+ continue;
+ }
+
+ // Binding to |this| is safe since we are the only object executing the
+ // task.
+ PostTask(std::bind(&UnixTaskRunner::RunFileDescriptorWatch, this, handle));
+
+ // Flag the task as pending.
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ // On Windows this is done by marking the WatchTask entry as pending. This
+ // is more expensive than Linux as requires rebuilding the |poll_fds_|
+ // vector on each call. There doesn't seem to be a good alternative though.
+ auto it = watch_tasks_.find(handle);
+ PERFETTO_CHECK(it != watch_tasks_.end());
+ PERFETTO_DCHECK(!it->second.pending);
+ it->second.pending = true;
+#else
+ // On UNIX systems instead, we just make the fd negative while its task is
+ // pending. This makes poll(2) ignore the fd.
+ PERFETTO_DCHECK(poll_fds_[i].fd >= 0);
+ poll_fds_[i].fd = -poll_fds_[i].fd;
+#endif
+ }
+}
+
+void UnixTaskRunner::RunFileDescriptorWatch(PlatformHandle fd) {
+ std::function<void()> task;
+ {
+ std::lock_guard<std::mutex> lock(lock_);
+ auto it = watch_tasks_.find(fd);
+ if (it == watch_tasks_.end())
+ return;
+ WatchTask& watch_task = it->second;
+
+ // Make poll(2) pay attention to the fd again. Since another thread may have
+ // updated this watch we need to refresh the set first.
+ UpdateWatchTasksLocked();
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ // On Windows we manually track the presence of outstanding tasks for the
+ // watch. The UpdateWatchTasksLocked() in the Run() loop will re-add the
+ // task to the |poll_fds_| vector.
+ PERFETTO_DCHECK(watch_task.pending);
+ watch_task.pending = false;
+#else
+ size_t fd_index = watch_task.poll_fd_index;
+ PERFETTO_DCHECK(fd_index < poll_fds_.size());
+ PERFETTO_DCHECK(::abs(poll_fds_[fd_index].fd) == fd);
+ poll_fds_[fd_index].fd = fd;
+#endif
+ task = watch_task.callback;
+ }
+ errno = 0;
+ RunTaskWithWatchdogGuard(task);
+}
+
+int UnixTaskRunner::GetDelayMsToNextTaskLocked() const {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ if (!immediate_tasks_.empty())
+ return 0;
+ if (!delayed_tasks_.empty()) {
+ TimeMillis diff = delayed_tasks_.begin()->first - GetWallTimeMs();
+ return std::max(0, static_cast<int>(diff.count()));
+ }
+ return -1;
+}
+
+void UnixTaskRunner::PostTask(std::function<void()> task) {
+ bool was_empty;
+ {
+ std::lock_guard<std::mutex> lock(lock_);
+ was_empty = immediate_tasks_.empty();
+ immediate_tasks_.push_back(std::move(task));
+ }
+ if (was_empty)
+ WakeUp();
+}
+
+void UnixTaskRunner::PostDelayedTask(std::function<void()> task,
+ uint32_t delay_ms) {
+ TimeMillis runtime = GetWallTimeMs() + TimeMillis(delay_ms);
+ {
+ std::lock_guard<std::mutex> lock(lock_);
+ delayed_tasks_.insert(std::make_pair(runtime, std::move(task)));
+ }
+ WakeUp();
+}
+
+void UnixTaskRunner::AddFileDescriptorWatch(PlatformHandle fd,
+ std::function<void()> task) {
+ PERFETTO_DCHECK(PlatformHandleChecker::IsValid(fd));
+ {
+ std::lock_guard<std::mutex> lock(lock_);
+ PERFETTO_DCHECK(!watch_tasks_.count(fd));
+ WatchTask& watch_task = watch_tasks_[fd];
+ watch_task.callback = std::move(task);
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ watch_task.pending = false;
+#else
+ watch_task.poll_fd_index = SIZE_MAX;
+#endif
+ watch_tasks_changed_ = true;
+ }
+ WakeUp();
+}
+
+void UnixTaskRunner::RemoveFileDescriptorWatch(PlatformHandle fd) {
+ PERFETTO_DCHECK(PlatformHandleChecker::IsValid(fd));
+ {
+ std::lock_guard<std::mutex> lock(lock_);
+ PERFETTO_DCHECK(watch_tasks_.count(fd));
+ watch_tasks_.erase(fd);
+ watch_tasks_changed_ = true;
+ }
+ // No need to schedule a wake-up for this.
+}
+
+bool UnixTaskRunner::RunsTasksOnCurrentThread() const {
+ return GetThreadId() == created_thread_id_;
+}
+
+} // namespace base
+} // namespace perfetto
+// gen_amalgamated begin source: src/base/subprocess.cc
+// gen_amalgamated begin header: include/perfetto/ext/base/subprocess.h
+/*
+ * Copyright (C) 2020 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_BASE_SUBPROCESS_H_
+#define INCLUDE_PERFETTO_EXT_BASE_SUBPROCESS_H_
+
+#include <condition_variable>
+#include <functional>
+#include <initializer_list>
+#include <mutex>
+#include <optional>
+#include <string>
+#include <thread>
+#include <vector>
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/base/platform_handle.h"
+// gen_amalgamated expanded: #include "perfetto/base/proc_utils.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/event_fd.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/pipe.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/scoped_file.h"
+
+namespace perfetto {
+namespace base {
+
+// Handles creation and lifecycle management of subprocesses, taking care of
+// all subtleties involved in handling processes on UNIX.
+// This class allows to deal with macro two use-cases:
+// 1) fork() + exec() equivalent: for spawning a brand new process image.
+// This happens when |args.exec_cmd| is not empty.
+// This is safe to use even in a multi-threaded environment.
+// 2) fork(): for spawning a process and running a function.
+// This happens when |args.posix_entrypoint_for_testing| is not empty.
+// This is intended only for tests as it is extremely subtle.
+// This mode must be used with extreme care. Before the entrypoint is
+// invoked all file descriptors other than stdin/out/err and the ones
+// specified in |args.preserve_fds| will be closed, to avoid each process
+// retaining a dupe of other subprocesses pipes. This however means that
+// any non trivial calls (including logging) must be avoided as they might
+// refer to FDs that are now closed. The entrypoint should really be used
+// just to signal a pipe or similar for synchronizing sequencing in tests.
+
+//
+// This class allows to control stdin/out/err pipe redirection and takes care
+// of keeping all the pipes pumped (stdin) / drained (stdout/err), in a similar
+// fashion of python's subprocess.Communicate()
+// stdin: is always piped and closed once the |args.input| buffer is written.
+// stdout/err can be either:
+// - dup()ed onto the parent process stdout/err.
+// - redirected onto /dev/null.
+// - piped onto a buffer (see output() method). There is only one output
+// buffer in total. If both stdout and stderr are set to kBuffer mode, they
+// will be merged onto the same. There doesn't seem any use case where they
+// are needed distinctly.
+//
+// Some caveats worth mentioning:
+// - It always waitpid()s, to avoid leaving zombies around. If the process is
+// not terminated by the time the destructor is reached, the dtor will
+// send a SIGKILL and wait for the termination.
+// - After fork()-ing it will close all file descriptors, preserving only
+// stdin/out/err and the fds listed in |args.preserve_fds|.
+// - On Linux/Android, the child process will be SIGKILL-ed if the calling
+// thread exists, even if the Subprocess is std::move()-d onto another thread.
+// This happens by virtue PR_SET_PDEATHSIG, which is used to avoid that
+// child processes are leaked in the case of a crash of the parent (frequent
+// in tests). However, the child process might still be leaked if execing
+// a setuid/setgid binary (see man 2 prctl).
+//
+// Usage:
+// base::Subprocess p({"/bin/cat", "-"});
+// (or equivalently:
+// base::Subprocess p;
+// p.args.exec_cmd.push_back("/bin/cat");
+// p.args.exec_cmd.push_back("-");
+// )
+// p.args.stdout_mode = base::Subprocess::kBuffer;
+// p.args.stderr_mode = base::Subprocess::kInherit;
+// p.args.input = "stdin contents";
+// p.Call();
+// (or equivalently:
+// p.Start();
+// p.Wait();
+// )
+// EXPECT_EQ(p.status(), base::Subprocess::kTerminated);
+// EXPECT_EQ(p.returncode(), 0);
+class Subprocess {
+ public:
+ enum Status {
+ kNotStarted = 0, // Before calling Start() or Call().
+ kRunning, // After calling Start(), before Wait().
+ kTerminated, // The subprocess terminated, either successfully or not.
+ // This includes crashes or other signals on UNIX.
+ };
+
+ enum class OutputMode {
+ kInherit = 0, // Inherit's the caller process stdout/stderr.
+ kDevNull, // dup() onto /dev/null.
+ kBuffer, // dup() onto a pipe and move it into the output() buffer.
+ kFd, // dup() onto the passed args.fd.
+ };
+
+ enum class InputMode {
+ kBuffer = 0, // dup() onto a pipe and write args.input on it.
+ kDevNull, // dup() onto /dev/null.
+ };
+
+ // Input arguments for configuring the subprocess behavior.
+ struct Args {
+ Args(std::initializer_list<std::string> _cmd = {}) : exec_cmd(_cmd) {}
+ Args(Args&&) noexcept;
+ Args& operator=(Args&&);
+ // If non-empty this will cause an exec() when Start()/Call() are called.
+ std::vector<std::string> exec_cmd;
+
+#if !PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ // If non-empty, it changes the argv[0] argument passed to exec. If
+ // unset, argv[0] == exec_cmd[0]. This is to handle cases like:
+ // exec_cmd = {"/proc/self/exec"}, argv0: "my_custom_test_override".
+ std::string posix_argv0_override_for_testing;
+
+ // If non-empty this will be invoked on the fork()-ed child process, after
+ // stdin/out/err has been redirected and all other file descriptor are
+ // closed. It is valid to specify both |exec_cmd| AND
+ // |posix_entrypoint_for_testing|. In this case the latter will be invoked
+ // just before the exec() call, but after having closed all fds % stdin/o/e.
+ // This is for synchronization barriers in tests.
+ std::function<void()> posix_entrypoint_for_testing;
+
+ // When set, will will move the process to the given process group. If set
+ // and zero, it will create a new process group. Effectively this calls
+ // setpgid(0 /*self_pid*/, posix_proc_group_id).
+ // This can be used to avoid that subprocesses receive CTRL-C from the
+ // terminal, while still living in the same session.
+ std::optional<pid_t> posix_proc_group_id{};
+#endif
+
+ // If non-empty, replaces the environment passed to exec().
+ std::vector<std::string> env;
+
+ // The file descriptors in this list will not be closed.
+ std::vector<int> preserve_fds;
+
+ // The data to push in the child process stdin, if input_mode ==
+ // InputMode::kBuffer.
+ std::string input;
+
+ InputMode stdin_mode = InputMode::kBuffer;
+ OutputMode stdout_mode = OutputMode::kInherit;
+ OutputMode stderr_mode = OutputMode::kInherit;
+
+ base::ScopedPlatformHandle out_fd;
+
+ // Returns " ".join(exec_cmd), quoting arguments.
+ std::string GetCmdString() const;
+ };
+
+ struct ResourceUsage {
+ uint32_t cpu_utime_ms = 0;
+ uint32_t cpu_stime_ms = 0;
+ uint32_t max_rss_kb = 0;
+ uint32_t min_page_faults = 0;
+ uint32_t maj_page_faults = 0;
+ uint32_t vol_ctx_switch = 0;
+ uint32_t invol_ctx_switch = 0;
+
+ uint32_t cpu_time_ms() const { return cpu_utime_ms + cpu_stime_ms; }
+ };
+
+ explicit Subprocess(std::initializer_list<std::string> exec_cmd = {});
+ Subprocess(Subprocess&&) noexcept;
+ Subprocess& operator=(Subprocess&&);
+ ~Subprocess(); // It will KillAndWaitForTermination() if still alive.
+
+ // Starts the subprocess but doesn't wait for its termination. The caller
+ // is expected to either call Wait() or Poll() after this call.
+ void Start();
+
+ // Wait for process termination. Can be called more than once.
+ // Args:
+ // |timeout_ms| = 0: wait indefinitely.
+ // |timeout_ms| > 0: wait for at most |timeout_ms|.
+ // Returns:
+ // True: The process terminated. See status() and returncode().
+ // False: Timeout reached, the process is still running. In this case the
+ // process will be left in the kRunning state.
+ bool Wait(int timeout_ms = 0);
+
+ // Equivalent of Start() + Wait();
+ // Returns true if the process exited cleanly with return code 0. False in
+ // any othe case.
+ bool Call(int timeout_ms = 0);
+
+ Status Poll();
+
+ // Sends a signal (SIGKILL if not specified) and wait for process termination.
+ void KillAndWaitForTermination(int sig_num = 0);
+
+ PlatformProcessId pid() const { return s_->pid; }
+
+ // The accessors below are updated only after a call to Poll(), Wait() or
+ // KillAndWaitForTermination().
+ // In most cases you want to call Poll() rather than these accessors.
+
+ Status status() const { return s_->status; }
+ int returncode() const { return s_->returncode; }
+ bool timed_out() const { return s_->timed_out; }
+
+ // This contains both stdout and stderr (if the corresponding _mode ==
+ // OutputMode::kBuffer). It's non-const so the caller can std::move() it.
+ std::string& output() { return s_->output; }
+ const std::string& output() const { return s_->output; }
+
+ const ResourceUsage& posix_rusage() const { return *s_->rusage; }
+
+ Args args;
+
+ private:
+ // The signal/exit code used when killing the process in case of a timeout.
+ static const int kTimeoutSignal;
+
+ Subprocess(const Subprocess&) = delete;
+ Subprocess& operator=(const Subprocess&) = delete;
+
+ // This is to deal robustly with the move operators, without having to
+ // manually maintain member-wise move instructions.
+ struct MovableState {
+ base::Pipe stdin_pipe;
+ base::Pipe stdouterr_pipe;
+ PlatformProcessId pid;
+ Status status = kNotStarted;
+ int returncode = -1;
+ std::string output; // Stdin+stderr. Only when OutputMode::kBuffer.
+ std::unique_ptr<ResourceUsage> rusage{new ResourceUsage()};
+ bool timed_out = false;
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ std::thread stdouterr_thread;
+ std::thread stdin_thread;
+ ScopedPlatformHandle win_proc_handle;
+ ScopedPlatformHandle win_thread_handle;
+
+ base::EventFd stdouterr_done_event;
+ std::mutex mutex; // Protects locked_outerr_buf and the two pipes.
+ std::string locked_outerr_buf;
+#else
+ base::Pipe exit_status_pipe;
+ size_t input_written = 0;
+ std::thread waitpid_thread;
+#endif
+ };
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ static void StdinThread(MovableState*, std::string input);
+ static void StdoutErrThread(MovableState*);
+#else
+ void TryPushStdin();
+ void TryReadStdoutAndErr();
+ void TryReadExitStatus();
+ bool PollInternal(int poll_timeout_ms);
+#endif
+
+ std::unique_ptr<MovableState> s_;
+};
+
+} // namespace base
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_BASE_SUBPROCESS_H_
+/*
+ * Copyright (C) 2020 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/subprocess.h"
+
+#include <tuple>
+
+// This file contains only the common bits (ctors / dtors / move operators).
+// The rest lives in subprocess_posix.cc and subprocess_windows.cc.
+
+namespace perfetto {
+namespace base {
+
+Subprocess::Args::Args(Args&&) noexcept = default;
+Subprocess::Args& Subprocess::Args::operator=(Args&&) = default;
+
+Subprocess::Subprocess(std::initializer_list<std::string> a)
+ : args(a), s_(new MovableState()) {}
+
+Subprocess::Subprocess(Subprocess&& other) noexcept {
+ static_assert(sizeof(Subprocess) ==
+ sizeof(std::tuple<std::unique_ptr<MovableState>, Args>),
+ "base::Subprocess' move ctor needs updating");
+ s_ = std::move(other.s_);
+ args = std::move(other.args);
+
+ // Reset the state of the moved-from object.
+ other.s_.reset(new MovableState());
+ other.~Subprocess();
+ new (&other) Subprocess();
+}
+
+Subprocess& Subprocess::operator=(Subprocess&& other) {
+ this->~Subprocess();
+ new (this) Subprocess(std::move(other));
+ return *this;
+}
+
+Subprocess::~Subprocess() {
+ if (s_->status == kRunning)
+ KillAndWaitForTermination();
+}
+
+bool Subprocess::Call(int timeout_ms) {
+ PERFETTO_CHECK(s_->status == kNotStarted);
+ Start();
+
+ if (!Wait(timeout_ms)) {
+ s_->timed_out = true;
+ KillAndWaitForTermination(kTimeoutSignal);
+ }
+ PERFETTO_DCHECK(s_->status != kRunning);
+ return s_->status == kTerminated && s_->returncode == 0;
+}
+
+std::string Subprocess::Args::GetCmdString() const {
+ std::string str;
+ for (size_t i = 0; i < exec_cmd.size(); i++) {
+ str += i > 0 ? " \"" : "";
+ str += exec_cmd[i];
+ str += i > 0 ? "\"" : "";
+ }
+ return str;
+}
+
+} // namespace base
+} // namespace perfetto
+// gen_amalgamated begin source: src/base/subprocess_posix.cc
+/*
+ * Copyright (C) 2020 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/subprocess.h"
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_LINUX) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_APPLE)
+
+#include <fcntl.h>
+#include <poll.h>
+#include <signal.h>
+#include <stdio.h>
+#include <sys/resource.h>
+#include <sys/types.h>
+#include <sys/wait.h>
+#include <unistd.h>
+
+#include <algorithm>
+#include <thread>
+#include <tuple>
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_LINUX) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID)
+#include <sys/prctl.h>
+#endif
+
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/base/time.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/utils.h"
+
+// In MacOS this is not defined in any header.
+extern "C" char** environ;
+
+namespace perfetto {
+namespace base {
+
+namespace {
+
+struct ChildProcessArgs {
+ Subprocess::Args* create_args;
+ const char* exec_cmd = nullptr;
+ std::vector<char*> argv;
+ std::vector<char*> env;
+ int stdin_pipe_rd = -1;
+ int stdouterr_pipe_wr = -1;
+};
+
+// Don't add any dynamic allocation in this function. This will be invoked
+// under a fork(), potentially in a state where the allocator lock is held.
+void __attribute__((noreturn)) ChildProcess(ChildProcessArgs* args) {
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_LINUX) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID)
+ // In no case we want a child process to outlive its parent process. This is
+ // relevant for tests, so that a test failure/crash doesn't leave child
+ // processes around that get reparented to init.
+ prctl(PR_SET_PDEATHSIG, SIGKILL);
+#endif
+
+ auto die = [args](const char* err) __attribute__((noreturn)) {
+ base::ignore_result(write(args->stdouterr_pipe_wr, err, strlen(err)));
+ base::ignore_result(write(args->stdouterr_pipe_wr, "\n", 1));
+ // From https://www.gnu.org/software/libc/manual/html_node/Exit-Status.html
+ // "In particular, the value 128 is used to indicate failure to execute
+ // another program in a subprocess. This convention is not universally
+ // obeyed, but it is a good idea to follow it in your programs."
+ _exit(128);
+ };
+
+ if (args->create_args->posix_proc_group_id.has_value()) {
+ if (setpgid(0 /*self*/, args->create_args->posix_proc_group_id.value())) {
+ die("setpgid() failed");
+ }
+ }
+
+ auto set_fd_close_on_exec = [&die](int fd, bool close_on_exec) {
+ int flags = fcntl(fd, F_GETFD, 0);
+ if (flags < 0)
+ die("fcntl(F_GETFD) failed");
+ flags = close_on_exec ? (flags | FD_CLOEXEC) : (flags & ~FD_CLOEXEC);
+ if (fcntl(fd, F_SETFD, flags) < 0)
+ die("fcntl(F_SETFD) failed");
+ };
+
+ if (getppid() == 1)
+ die("terminating because parent process died");
+
+ switch (args->create_args->stdin_mode) {
+ case Subprocess::InputMode::kBuffer:
+ if (dup2(args->stdin_pipe_rd, STDIN_FILENO) == -1)
+ die("Failed to dup2(STDIN)");
+ close(args->stdin_pipe_rd);
+ break;
+ case Subprocess::InputMode::kDevNull:
+ if (dup2(open("/dev/null", O_RDONLY), STDIN_FILENO) == -1)
+ die("Failed to dup2(STDOUT)");
+ break;
+ }
+
+ switch (args->create_args->stdout_mode) {
+ case Subprocess::OutputMode::kInherit:
+ break;
+ case Subprocess::OutputMode::kDevNull: {
+ if (dup2(open("/dev/null", O_RDWR), STDOUT_FILENO) == -1)
+ die("Failed to dup2(STDOUT)");
+ break;
+ }
+ case Subprocess::OutputMode::kBuffer:
+ if (dup2(args->stdouterr_pipe_wr, STDOUT_FILENO) == -1)
+ die("Failed to dup2(STDOUT)");
+ break;
+ case Subprocess::OutputMode::kFd:
+ if (dup2(*args->create_args->out_fd, STDOUT_FILENO) == -1)
+ die("Failed to dup2(STDOUT)");
+ break;
+ }
+
+ switch (args->create_args->stderr_mode) {
+ case Subprocess::OutputMode::kInherit:
+ break;
+ case Subprocess::OutputMode::kDevNull: {
+ if (dup2(open("/dev/null", O_RDWR), STDERR_FILENO) == -1)
+ die("Failed to dup2(STDERR)");
+ break;
+ }
+ case Subprocess::OutputMode::kBuffer:
+ if (dup2(args->stdouterr_pipe_wr, STDERR_FILENO) == -1)
+ die("Failed to dup2(STDERR)");
+ break;
+ case Subprocess::OutputMode::kFd:
+ if (dup2(*args->create_args->out_fd, STDERR_FILENO) == -1)
+ die("Failed to dup2(STDERR)");
+ break;
+ }
+
+ // Close all FDs % stdin/out/err and the ones that the client explicitly
+ // asked to retain. The reason for this is twofold:
+ // 1. For exec-only (i.e. entrypoint == empty) cases: it avoids leaking FDs
+ // that didn't get marked as O_CLOEXEC by accident.
+ // 2. In fork() mode (entrypoint not empty) avoids retaining a dup of eventfds
+ // that would prevent the parent process to receive EOFs (tests usually use
+ // pipes as a synchronization mechanism between subprocesses).
+ const auto& preserve_fds = args->create_args->preserve_fds;
+ for (int i = 0; i < 512; i++) {
+ if (i != STDIN_FILENO && i != STDERR_FILENO && i != STDOUT_FILENO &&
+ i != args->stdouterr_pipe_wr &&
+ !std::count(preserve_fds.begin(), preserve_fds.end(), i)) {
+ close(i);
+ }
+ }
+
+ // Clears O_CLOEXEC from stdin/out/err and the |preserve_fds| list. These are
+ // the only FDs that we want to be preserved after the exec().
+ set_fd_close_on_exec(STDIN_FILENO, false);
+ set_fd_close_on_exec(STDOUT_FILENO, false);
+ set_fd_close_on_exec(STDERR_FILENO, false);
+
+ for (auto fd : preserve_fds)
+ set_fd_close_on_exec(fd, false);
+
+ // If the caller specified a std::function entrypoint, run that first.
+ if (args->create_args->posix_entrypoint_for_testing)
+ args->create_args->posix_entrypoint_for_testing();
+
+ // If the caller specified only an entrypoint, without any args, exit now.
+ // Otherwise proceed with the exec() below.
+ if (!args->exec_cmd)
+ _exit(0);
+
+ // If |args[0]| is a path use execv() (which takes a path), othewise use
+ // exevp(), which uses the shell and follows PATH.
+ if (strchr(args->exec_cmd, '/')) {
+ char** env = args->env.empty() ? environ : args->env.data();
+ execve(args->exec_cmd, args->argv.data(), env);
+ } else {
+ // There is no execvpe() on Mac.
+ if (!args->env.empty())
+ die("A full path is required for |exec_cmd| when setting |env|");
+ execvp(args->exec_cmd, args->argv.data());
+ }
+
+ // Reached only if execv fails.
+ die("execve() failed");
+}
+
+} // namespace
+
+// static
+const int Subprocess::kTimeoutSignal = SIGKILL;
+
+void Subprocess::Start() {
+ ChildProcessArgs proc_args;
+ proc_args.create_args = &args;
+
+ // Setup argv.
+ if (!args.exec_cmd.empty()) {
+ proc_args.exec_cmd = args.exec_cmd[0].c_str();
+ for (const std::string& arg : args.exec_cmd)
+ proc_args.argv.push_back(const_cast<char*>(arg.c_str()));
+ proc_args.argv.push_back(nullptr);
+
+ if (!args.posix_argv0_override_for_testing.empty()) {
+ proc_args.argv[0] =
+ const_cast<char*>(args.posix_argv0_override_for_testing.c_str());
+ }
+ }
+
+ // Setup env.
+ if (!args.env.empty()) {
+ for (const std::string& str : args.env)
+ proc_args.env.push_back(const_cast<char*>(str.c_str()));
+ proc_args.env.push_back(nullptr);
+ }
+
+ // Setup the pipes for stdin/err redirection.
+ if (args.stdin_mode == InputMode::kBuffer) {
+ s_->stdin_pipe = base::Pipe::Create(base::Pipe::kWrNonBlock);
+ proc_args.stdin_pipe_rd = *s_->stdin_pipe.rd;
+ }
+ s_->stdouterr_pipe = base::Pipe::Create(base::Pipe::kRdNonBlock);
+ proc_args.stdouterr_pipe_wr = *s_->stdouterr_pipe.wr;
+
+ // Spawn the child process that will exec().
+ s_->pid = fork();
+ PERFETTO_CHECK(s_->pid >= 0);
+ if (s_->pid == 0) {
+ // Close the parent-ends of the pipes.
+ s_->stdin_pipe.wr.reset();
+ s_->stdouterr_pipe.rd.reset();
+ ChildProcess(&proc_args);
+ // ChildProcess() doesn't return, not even in case of failures.
+ PERFETTO_FATAL("not reached");
+ }
+
+ s_->status = kRunning;
+
+ // Close the child-end of the pipes.
+ // Deliberately NOT closing the s_->stdin_pipe.rd. This is to avoid crashing
+ // with a SIGPIPE if the process exits without consuming its stdin, while
+ // the parent tries to write() on the other end of the stdin pipe.
+ s_->stdouterr_pipe.wr.reset();
+ proc_args.create_args->out_fd.reset();
+
+ // Spawn a thread that is blocked on waitpid() and writes the termination
+ // status onto a pipe. The problem here is that waipid() doesn't have a
+ // timeout option and can't be passed to poll(). The alternative would be
+ // using a SIGCHLD handler, but anecdotally signal handlers introduce more
+ // problems than what they solve.
+ s_->exit_status_pipe = base::Pipe::Create(base::Pipe::kRdNonBlock);
+
+ // Both ends of the pipe are closed after the thread.join().
+ int pid = s_->pid;
+ int exit_status_pipe_wr = s_->exit_status_pipe.wr.release();
+ auto* rusage = s_->rusage.get();
+ s_->waitpid_thread = std::thread([pid, exit_status_pipe_wr, rusage] {
+ int pid_stat = -1;
+ struct rusage usg {};
+ int wait_res = PERFETTO_EINTR(wait4(pid, &pid_stat, 0, &usg));
+ PERFETTO_CHECK(wait_res == pid);
+
+ auto tv_to_ms = [](const struct timeval& tv) {
+ return static_cast<uint32_t>(tv.tv_sec * 1000 + tv.tv_usec / 1000);
+ };
+ rusage->cpu_utime_ms = tv_to_ms(usg.ru_utime);
+ rusage->cpu_stime_ms = tv_to_ms(usg.ru_stime);
+ rusage->max_rss_kb = static_cast<uint32_t>(usg.ru_maxrss) / 1000;
+ rusage->min_page_faults = static_cast<uint32_t>(usg.ru_minflt);
+ rusage->maj_page_faults = static_cast<uint32_t>(usg.ru_majflt);
+ rusage->vol_ctx_switch = static_cast<uint32_t>(usg.ru_nvcsw);
+ rusage->invol_ctx_switch = static_cast<uint32_t>(usg.ru_nivcsw);
+
+ base::ignore_result(PERFETTO_EINTR(
+ write(exit_status_pipe_wr, &pid_stat, sizeof(pid_stat))));
+ PERFETTO_CHECK(close(exit_status_pipe_wr) == 0 || errno == EINTR);
+ });
+}
+
+Subprocess::Status Subprocess::Poll() {
+ if (s_->status != kRunning)
+ return s_->status; // Nothing to poll.
+ while (PollInternal(0 /* don't block*/)) {
+ }
+ return s_->status;
+}
+
+// |timeout_ms| semantic:
+// -1: Block indefinitely.
+// 0: Don't block, return immediately.
+// >0: Block for at most X ms.
+// Returns:
+// True: Read at least one fd (so there might be more queued).
+// False: if all fds reached quiescent (no data to read/write).
+bool Subprocess::PollInternal(int poll_timeout_ms) {
+ struct pollfd fds[3]{};
+ size_t num_fds = 0;
+ if (s_->exit_status_pipe.rd) {
+ fds[num_fds].fd = *s_->exit_status_pipe.rd;
+ fds[num_fds].events = POLLIN;
+ num_fds++;
+ }
+ if (s_->stdouterr_pipe.rd) {
+ fds[num_fds].fd = *s_->stdouterr_pipe.rd;
+ fds[num_fds].events = POLLIN;
+ num_fds++;
+ }
+ if (s_->stdin_pipe.wr) {
+ fds[num_fds].fd = *s_->stdin_pipe.wr;
+ fds[num_fds].events = POLLOUT;
+ num_fds++;
+ }
+
+ if (num_fds == 0)
+ return false;
+
+ auto nfds = static_cast<nfds_t>(num_fds);
+ int poll_res = PERFETTO_EINTR(poll(fds, nfds, poll_timeout_ms));
+ PERFETTO_CHECK(poll_res >= 0);
+
+ TryReadStdoutAndErr();
+ TryPushStdin();
+ TryReadExitStatus();
+
+ return poll_res > 0;
+}
+
+bool Subprocess::Wait(int timeout_ms) {
+ PERFETTO_CHECK(s_->status != kNotStarted);
+
+ // Break out of the loop only after both conditions are satisfied:
+ // - All stdout/stderr data has been read (if kBuffer).
+ // - The process exited.
+ // Note that the two events can happen arbitrary order. After the process
+ // exits, there might be still data in the pipe buffer, which we want to
+ // read fully.
+ //
+ // Instead, don't wait on the stdin to be fully written. The child process
+ // might exit prematurely (or crash). If that happens, we can end up in a
+ // state where the write(stdin_pipe_.wr) will never unblock.
+
+ const int64_t t_start = base::GetWallTimeMs().count();
+ while (s_->exit_status_pipe.rd || s_->stdouterr_pipe.rd) {
+ int poll_timeout_ms = -1; // Block until a FD is ready.
+ if (timeout_ms > 0) {
+ const int64_t now = GetWallTimeMs().count();
+ poll_timeout_ms = timeout_ms - static_cast<int>(now - t_start);
+ if (poll_timeout_ms <= 0)
+ return false;
+ }
+ PollInternal(poll_timeout_ms);
+ } // while(...)
+ return true;
+}
+
+void Subprocess::TryReadExitStatus() {
+ if (!s_->exit_status_pipe.rd)
+ return;
+
+ int pid_stat = -1;
+ int64_t rsize = PERFETTO_EINTR(
+ read(*s_->exit_status_pipe.rd, &pid_stat, sizeof(pid_stat)));
+ if (rsize < 0 && errno == EAGAIN)
+ return;
+
+ if (rsize > 0) {
+ PERFETTO_CHECK(rsize == sizeof(pid_stat));
+ } else if (rsize < 0) {
+ PERFETTO_PLOG("Subprocess read(s_->exit_status_pipe) failed");
+ }
+ s_->waitpid_thread.join();
+ s_->exit_status_pipe.rd.reset();
+
+ s_->status = kTerminated;
+ if (WIFEXITED(pid_stat)) {
+ s_->returncode = WEXITSTATUS(pid_stat);
+ } else if (WIFSIGNALED(pid_stat)) {
+ s_->returncode = 128 + WTERMSIG(pid_stat); // Follow bash convention.
+ } else {
+ PERFETTO_FATAL("waitpid() returned an unexpected value (0x%x)", pid_stat);
+ }
+}
+
+// If the stidn pipe is still open, push input data and close it at the end.
+void Subprocess::TryPushStdin() {
+ if (!s_->stdin_pipe.wr)
+ return;
+
+ PERFETTO_DCHECK(args.input.empty() || s_->input_written < args.input.size());
+ if (!args.input.empty()) {
+ int64_t wsize =
+ PERFETTO_EINTR(write(*s_->stdin_pipe.wr, &args.input[s_->input_written],
+ args.input.size() - s_->input_written));
+ if (wsize < 0 && errno == EAGAIN)
+ return;
+
+ if (wsize >= 0) {
+ // Whether write() can return 0 is one of the greatest mysteries of UNIX.
+ // Just ignore it.
+ s_->input_written += static_cast<size_t>(wsize);
+ } else {
+ PERFETTO_PLOG("Subprocess write(stdin) failed");
+ s_->stdin_pipe.wr.reset();
+ }
+ }
+ PERFETTO_DCHECK(s_->input_written <= args.input.size());
+ if (s_->input_written == args.input.size())
+ s_->stdin_pipe.wr.reset(); // Close stdin.
+}
+
+void Subprocess::TryReadStdoutAndErr() {
+ if (!s_->stdouterr_pipe.rd)
+ return;
+ char buf[4096];
+ int64_t rsize =
+ PERFETTO_EINTR(read(*s_->stdouterr_pipe.rd, buf, sizeof(buf)));
+ if (rsize < 0 && errno == EAGAIN)
+ return;
+
+ if (rsize > 0) {
+ s_->output.append(buf, static_cast<size_t>(rsize));
+ } else if (rsize == 0 /* EOF */) {
+ s_->stdouterr_pipe.rd.reset();
+ } else {
+ PERFETTO_PLOG("Subprocess read(stdout/err) failed");
+ s_->stdouterr_pipe.rd.reset();
+ }
+}
+
+void Subprocess::KillAndWaitForTermination(int sig_num) {
+ kill(s_->pid, sig_num ? sig_num : SIGKILL);
+ Wait();
+ // TryReadExitStatus must have joined the thread.
+ PERFETTO_DCHECK(!s_->waitpid_thread.joinable());
+}
+
+} // namespace base
+} // namespace perfetto
+
+#endif // PERFETTO_OS_LINUX || PERFETTO_OS_ANDROID || PERFETTO_OS_APPLE
+// gen_amalgamated begin source: src/base/subprocess_windows.cc
+/*
+ * Copyright (C) 2020 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/subprocess.h"
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+
+#include <stdio.h>
+
+#include <algorithm>
+#include <mutex>
+#include <tuple>
+
+#include <Windows.h>
+
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/base/time.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/pipe.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/utils.h"
+
+namespace perfetto {
+namespace base {
+
+// static
+const int Subprocess::kTimeoutSignal = static_cast<int>(STATUS_TIMEOUT);
+
+void Subprocess::Start() {
+ if (args.exec_cmd.empty()) {
+ PERFETTO_ELOG("Subprocess.exec_cmd cannot be empty on Windows");
+ return;
+ }
+
+ // Quote arguments but only when ambiguous. When quoting, CreateProcess()
+ // assumes that the command is an absolute path and does not search in the
+ // %PATH%. If non quoted, instead, CreateProcess() tries both. This is to
+ // allow Subprocess("cmd.exe", "/c", "shell command").
+ std::string cmd;
+ for (const auto& part : args.exec_cmd) {
+ if (part.find(" ") != std::string::npos) {
+ cmd += "\"" + part + "\" ";
+ } else {
+ cmd += part + " ";
+ }
+ }
+ // Remove trailing space.
+ if (!cmd.empty())
+ cmd.resize(cmd.size() - 1);
+
+ if (args.stdin_mode == InputMode::kBuffer) {
+ s_->stdin_pipe = Pipe::Create();
+ // Allow the child process to inherit the other end of the pipe.
+ PERFETTO_CHECK(
+ ::SetHandleInformation(*s_->stdin_pipe.rd, HANDLE_FLAG_INHERIT, 1));
+ }
+
+ if (args.stderr_mode == OutputMode::kBuffer ||
+ args.stdout_mode == OutputMode::kBuffer) {
+ s_->stdouterr_pipe = Pipe::Create();
+ PERFETTO_CHECK(
+ ::SetHandleInformation(*s_->stdouterr_pipe.wr, HANDLE_FLAG_INHERIT, 1));
+ }
+
+ ScopedPlatformHandle nul_handle;
+ if (args.stderr_mode == OutputMode::kDevNull ||
+ args.stdout_mode == OutputMode::kDevNull) {
+ nul_handle.reset(::CreateFileA(
+ "NUL", GENERIC_READ | GENERIC_WRITE, FILE_SHARE_READ | FILE_SHARE_WRITE,
+ nullptr, OPEN_EXISTING, FILE_ATTRIBUTE_NORMAL, nullptr));
+ PERFETTO_CHECK(::SetHandleInformation(*nul_handle, HANDLE_FLAG_INHERIT, 1));
+ }
+
+ PROCESS_INFORMATION proc_info{};
+ STARTUPINFOA start_info{};
+ start_info.cb = sizeof(STARTUPINFOA);
+
+ if (args.stderr_mode == OutputMode::kInherit) {
+ start_info.hStdError = ::GetStdHandle(STD_ERROR_HANDLE);
+ } else if (args.stderr_mode == OutputMode::kBuffer) {
+ start_info.hStdError = *s_->stdouterr_pipe.wr;
+ } else if (args.stderr_mode == OutputMode::kDevNull) {
+ start_info.hStdError = *nul_handle;
+ } else if (args.stderr_mode == OutputMode::kFd) {
+ PERFETTO_CHECK(
+ ::SetHandleInformation(*args.out_fd, HANDLE_FLAG_INHERIT, 1));
+ start_info.hStdError = *args.out_fd;
+ } else {
+ PERFETTO_CHECK(false);
+ }
+
+ if (args.stdout_mode == OutputMode::kInherit) {
+ start_info.hStdOutput = ::GetStdHandle(STD_OUTPUT_HANDLE);
+ } else if (args.stdout_mode == OutputMode::kBuffer) {
+ start_info.hStdOutput = *s_->stdouterr_pipe.wr;
+ } else if (args.stdout_mode == OutputMode::kDevNull) {
+ start_info.hStdOutput = *nul_handle;
+ } else if (args.stdout_mode == OutputMode::kFd) {
+ PERFETTO_CHECK(
+ ::SetHandleInformation(*args.out_fd, HANDLE_FLAG_INHERIT, 1));
+ start_info.hStdOutput = *args.out_fd;
+ } else {
+ PERFETTO_CHECK(false);
+ }
+
+ if (args.stdin_mode == InputMode::kBuffer) {
+ start_info.hStdInput = *s_->stdin_pipe.rd;
+ } else if (args.stdin_mode == InputMode::kDevNull) {
+ start_info.hStdInput = *nul_handle;
+ }
+
+ start_info.dwFlags |= STARTF_USESTDHANDLES;
+
+ // Create the child process.
+ bool success =
+ ::CreateProcessA(nullptr, // App name. Needs to be null to use PATH.
+ &cmd[0], // Command line.
+ nullptr, // Process security attributes.
+ nullptr, // Primary thread security attributes.
+ true, // Handles are inherited.
+ 0, // Flags.
+ nullptr, // Use parent's environment.
+ nullptr, // Use parent's current directory.
+ &start_info, // STARTUPINFO pointer.
+ &proc_info); // Receives PROCESS_INFORMATION.
+
+ // Close on our side the pipe ends that we passed to the child process.
+ s_->stdin_pipe.rd.reset();
+ s_->stdouterr_pipe.wr.reset();
+ args.out_fd.reset();
+
+ if (!success) {
+ s_->returncode = ERROR_FILE_NOT_FOUND;
+ s_->status = kTerminated;
+ s_->stdin_pipe.wr.reset();
+ s_->stdouterr_pipe.rd.reset();
+ PERFETTO_ELOG("CreateProcess failed: %lx, cmd: %s", GetLastError(),
+ &cmd[0]);
+ return;
+ }
+
+ s_->pid = proc_info.dwProcessId;
+ s_->win_proc_handle = ScopedPlatformHandle(proc_info.hProcess);
+ s_->win_thread_handle = ScopedPlatformHandle(proc_info.hThread);
+ s_->status = kRunning;
+
+ MovableState* s = s_.get();
+ if (args.stdin_mode == InputMode::kBuffer) {
+ s_->stdin_thread = std::thread(&Subprocess::StdinThread, s, args.input);
+ }
+
+ if (args.stderr_mode == OutputMode::kBuffer ||
+ args.stdout_mode == OutputMode::kBuffer) {
+ PERFETTO_DCHECK(s_->stdouterr_pipe.rd);
+ s_->stdouterr_thread = std::thread(&Subprocess::StdoutErrThread, s);
+ }
+}
+
+// static
+void Subprocess::StdinThread(MovableState* s, std::string input) {
+ size_t input_written = 0;
+ while (input_written < input.size()) {
+ DWORD wsize = 0;
+ if (::WriteFile(*s->stdin_pipe.wr, input.data() + input_written,
+ static_cast<DWORD>(input.size() - input_written), &wsize,
+ nullptr)) {
+ input_written += wsize;
+ } else {
+ // ERROR_BROKEN_PIPE is WAI when the child just closes stdin and stops
+ // accepting input.
+ auto err = ::GetLastError();
+ if (err != ERROR_BROKEN_PIPE)
+ PERFETTO_PLOG("Subprocess WriteFile(stdin) failed %lx", err);
+ break;
+ }
+ } // while(...)
+ std::unique_lock<std::mutex> lock(s->mutex);
+ s->stdin_pipe.wr.reset();
+}
+
+// static
+void Subprocess::StdoutErrThread(MovableState* s) {
+ char buf[4096];
+ for (;;) {
+ DWORD rsize = 0;
+ bool res =
+ ::ReadFile(*s->stdouterr_pipe.rd, buf, sizeof(buf), &rsize, nullptr);
+ if (!res) {
+ auto err = GetLastError();
+ if (err != ERROR_BROKEN_PIPE)
+ PERFETTO_PLOG("Subprocess ReadFile(stdouterr) failed %ld", err);
+ }
+
+ if (rsize > 0) {
+ std::unique_lock<std::mutex> lock(s->mutex);
+ s->locked_outerr_buf.append(buf, static_cast<size_t>(rsize));
+ } else { // EOF or some error.
+ break;
+ }
+ } // For(..)
+
+ // Close the stdouterr_pipe. The main loop looks at the pipe closure to
+ // determine whether the stdout/err thread has completed.
+ {
+ std::unique_lock<std::mutex> lock(s->mutex);
+ s->stdouterr_pipe.rd.reset();
+ }
+ s->stdouterr_done_event.Notify();
+}
+
+Subprocess::Status Subprocess::Poll() {
+ if (s_->status != kRunning)
+ return s_->status; // Nothing to poll.
+ Wait(1 /*ms*/);
+ return s_->status;
+}
+
+bool Subprocess::Wait(int timeout_ms) {
+ PERFETTO_CHECK(s_->status != kNotStarted);
+ const bool wait_forever = timeout_ms == 0;
+ const int64_t wait_start_ms = base::GetWallTimeMs().count();
+
+ // Break out of the loop only after both conditions are satisfied:
+ // - All stdout/stderr data has been read (if OutputMode::kBuffer).
+ // - The process exited.
+ // Note that the two events can happen arbitrary order. After the process
+ // exits, there might be still data in the pipe buffer, which we want to
+ // read fully.
+ // Note also that stdout/err might be "complete" before starting, if neither
+ // is operating in OutputMode::kBuffer mode. In that case we just want to wait
+ // for the process termination.
+ //
+ // Instead, don't wait on the stdin to be fully written. The child process
+ // might exit prematurely (or crash). If that happens, we can end up in a
+ // state where the write(stdin_pipe_.wr) will never unblock.
+ bool stdouterr_complete = false;
+ for (;;) {
+ HANDLE wait_handles[2]{};
+ DWORD num_handles = 0;
+
+ // Check if the process exited.
+ bool process_exited = !s_->win_proc_handle;
+ if (!process_exited) {
+ DWORD exit_code = STILL_ACTIVE;
+ PERFETTO_CHECK(::GetExitCodeProcess(*s_->win_proc_handle, &exit_code));
+ if (exit_code != STILL_ACTIVE) {
+ s_->returncode = static_cast<int>(exit_code);
+ s_->status = kTerminated;
+ s_->win_proc_handle.reset();
+ s_->win_thread_handle.reset();
+ process_exited = true;
+ }
+ } else {
+ PERFETTO_DCHECK(s_->status != kRunning);
+ }
+ if (!process_exited) {
+ wait_handles[num_handles++] = *s_->win_proc_handle;
+ }
+
+ // Check if there is more output and if the stdout/err pipe has been closed.
+ {
+ std::unique_lock<std::mutex> lock(s_->mutex);
+ // Move the output from the internal buffer shared with the
+ // stdouterr_thread to the final buffer exposed to the client.
+ if (!s_->locked_outerr_buf.empty()) {
+ s_->output.append(std::move(s_->locked_outerr_buf));
+ s_->locked_outerr_buf.clear();
+ }
+ stdouterr_complete = !s_->stdouterr_pipe.rd;
+ if (!stdouterr_complete) {
+ wait_handles[num_handles++] = s_->stdouterr_done_event.fd();
+ }
+ } // lock(s_->mutex)
+
+ if (num_handles == 0) {
+ PERFETTO_DCHECK(process_exited && stdouterr_complete);
+ break;
+ }
+
+ DWORD wait_ms; // Note: DWORD is unsigned.
+ if (wait_forever) {
+ wait_ms = INFINITE;
+ } else {
+ const int64_t now = GetWallTimeMs().count();
+ const int64_t wait_left_ms = timeout_ms - (now - wait_start_ms);
+ if (wait_left_ms <= 0)
+ return false; // Timed out
+ wait_ms = static_cast<DWORD>(wait_left_ms);
+ }
+
+ auto wait_res =
+ ::WaitForMultipleObjects(num_handles, wait_handles, false, wait_ms);
+ PERFETTO_CHECK(wait_res != WAIT_FAILED);
+ }
+
+ PERFETTO_DCHECK(!s_->win_proc_handle);
+ PERFETTO_DCHECK(!s_->win_thread_handle);
+
+ if (s_->stdin_thread.joinable()) // Might not exist if CreateProcess failed.
+ s_->stdin_thread.join();
+ if (s_->stdouterr_thread.joinable())
+ s_->stdouterr_thread.join();
+
+ // The stdin pipe is closed by the dedicated stdin thread. However if that is
+ // not started (e.g. because of no redirection) force close it now. Needs to
+ // happen after the join() to be thread safe.
+ s_->stdin_pipe.wr.reset();
+ s_->stdouterr_pipe.rd.reset();
+
+ return true;
+}
+
+void Subprocess::KillAndWaitForTermination(int exit_code) {
+ auto code = exit_code ? static_cast<DWORD>(exit_code) : STATUS_CONTROL_C_EXIT;
+ ::TerminateProcess(*s_->win_proc_handle, code);
+ Wait();
+ // TryReadExitStatus must have joined the threads.
+ PERFETTO_DCHECK(!s_->stdin_thread.joinable());
+ PERFETTO_DCHECK(!s_->stdouterr_thread.joinable());
+}
+
+} // namespace base
+} // namespace perfetto
+
+#endif // PERFETTO_OS_WIN
+// gen_amalgamated begin source: src/protozero/field.cc
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field.h"
+
+// gen_amalgamated expanded: #include "perfetto/base/compiler.h"
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+
+#if !PERFETTO_IS_LITTLE_ENDIAN()
+// The memcpy() for fixed32/64 below needs to be adjusted if we want to
+// support big endian CPUs. There doesn't seem to be a compelling need today.
+#error Unimplemented for big endian archs.
+#endif
+
+namespace protozero {
+
+template <typename Container>
+void Field::SerializeAndAppendToInternal(Container* dst) const {
+ namespace pu = proto_utils;
+ size_t initial_size = dst->size();
+ dst->resize(initial_size + pu::kMaxSimpleFieldEncodedSize + size_);
+ uint8_t* start = reinterpret_cast<uint8_t*>(&(*dst)[initial_size]);
+ uint8_t* wptr = start;
+ switch (type_) {
+ case static_cast<int>(pu::ProtoWireType::kVarInt): {
+ wptr = pu::WriteVarInt(pu::MakeTagVarInt(id_), wptr);
+ wptr = pu::WriteVarInt(int_value_, wptr);
+ break;
+ }
+ case static_cast<int>(pu::ProtoWireType::kFixed32): {
+ wptr = pu::WriteVarInt(pu::MakeTagFixed<uint32_t>(id_), wptr);
+ uint32_t value32 = static_cast<uint32_t>(int_value_);
+ memcpy(wptr, &value32, sizeof(value32));
+ wptr += sizeof(uint32_t);
+ break;
+ }
+ case static_cast<int>(pu::ProtoWireType::kFixed64): {
+ wptr = pu::WriteVarInt(pu::MakeTagFixed<uint64_t>(id_), wptr);
+ memcpy(wptr, &int_value_, sizeof(int_value_));
+ wptr += sizeof(uint64_t);
+ break;
+ }
+ case static_cast<int>(pu::ProtoWireType::kLengthDelimited): {
+ ConstBytes payload = as_bytes();
+ wptr = pu::WriteVarInt(pu::MakeTagLengthDelimited(id_), wptr);
+ wptr = pu::WriteVarInt(payload.size, wptr);
+ memcpy(wptr, payload.data, payload.size);
+ wptr += payload.size;
+ break;
+ }
+ default:
+ PERFETTO_FATAL("Unknown field type %u", type_);
+ }
+ size_t written_size = static_cast<size_t>(wptr - start);
+ PERFETTO_DCHECK(written_size > 0 && written_size < pu::kMaxMessageLength);
+ PERFETTO_DCHECK(initial_size + written_size <= dst->size());
+ dst->resize(initial_size + written_size);
+}
+
+void Field::SerializeAndAppendTo(std::string* dst) const {
+ SerializeAndAppendToInternal(dst);
+}
+
+void Field::SerializeAndAppendTo(std::vector<uint8_t>* dst) const {
+ SerializeAndAppendToInternal(dst);
+}
+
+} // namespace protozero
+// gen_amalgamated begin source: src/protozero/gen_field_helpers.cc
+/*
+ * Copyright (C) 2023 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+
+namespace protozero {
+namespace internal {
+namespace gen_helpers {
+
+void DeserializeString(const protozero::Field& field, std::string* dst) {
+ field.get(dst);
+}
+
+template bool DeserializePackedRepeated<proto_utils::ProtoWireType::kVarInt,
+ uint64_t>(const protozero::Field& field,
+ std::vector<uint64_t>* dst);
+
+template bool DeserializePackedRepeated<proto_utils::ProtoWireType::kVarInt,
+ int64_t>(const protozero::Field& field,
+ std::vector<int64_t>* dst);
+
+template bool DeserializePackedRepeated<proto_utils::ProtoWireType::kVarInt,
+ uint32_t>(const protozero::Field& field,
+ std::vector<uint32_t>* dst);
+
+template bool DeserializePackedRepeated<proto_utils::ProtoWireType::kVarInt,
+ int32_t>(const protozero::Field& field,
+ std::vector<int32_t>* dst);
+
+void SerializeTinyVarInt(uint32_t field_id, bool value, Message* msg) {
+ msg->AppendTinyVarInt(field_id, value);
+}
+
+template void SerializeExtendedVarInt<uint64_t>(uint32_t field_id,
+ uint64_t value,
+ Message* msg);
+
+template void SerializeExtendedVarInt<uint32_t>(uint32_t field_id,
+ uint32_t value,
+ Message* msg);
+
+template void SerializeFixed<double>(uint32_t field_id,
+ double value,
+ Message* msg);
+
+template void SerializeFixed<float>(uint32_t field_id,
+ float value,
+ Message* msg);
+
+template void SerializeFixed<uint64_t>(uint32_t field_id,
+ uint64_t value,
+ Message* msg);
+
+template void SerializeFixed<int64_t>(uint32_t field_id,
+ int64_t value,
+ Message* msg);
+
+template void SerializeFixed<uint32_t>(uint32_t field_id,
+ uint32_t value,
+ Message* msg);
+
+template void SerializeFixed<int32_t>(uint32_t field_id,
+ int32_t value,
+ Message* msg);
+
+void SerializeString(uint32_t field_id,
+ const std::string& value,
+ Message* msg) {
+ msg->AppendString(field_id, value);
+}
+
+void SerializeUnknownFields(const std::string& unknown_fields, Message* msg) {
+ msg->AppendRawProtoBytes(unknown_fields.data(), unknown_fields.size());
+}
+
+MessageSerializer::MessageSerializer() = default;
+
+MessageSerializer::~MessageSerializer() = default;
+
+std::vector<uint8_t> MessageSerializer::SerializeAsArray() {
+ return msg_.SerializeAsArray();
+}
+
+std::string MessageSerializer::SerializeAsString() {
+ return msg_.SerializeAsString();
+}
+
+template bool EqualsField<std::string>(const std::string&, const std::string&);
+
+} // namespace gen_helpers
+} // namespace internal
+} // namespace protozero
+// gen_amalgamated begin source: src/protozero/message.cc
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+
+#include <atomic>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/base/compiler.h"
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message_arena.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message_handle.h"
+
+#if !PERFETTO_IS_LITTLE_ENDIAN()
+// The memcpy() for float and double below needs to be adjusted if we want to
+// support big endian CPUs. There doesn't seem to be a compelling need today.
+#error Unimplemented for big endian archs.
+#endif
+
+namespace protozero {
+
+namespace {
+
+constexpr int kBytesToCompact = proto_utils::kMessageLengthFieldSize - 1u;
+
+#if PERFETTO_DCHECK_IS_ON()
+std::atomic<uint32_t> g_generation;
+#endif
+
+} // namespace
+
+// Do NOT put any code in the constructor or use default initialization.
+// Use the Reset() method below instead.
+
+// This method is called to initialize both root and nested messages.
+void Message::Reset(ScatteredStreamWriter* stream_writer, MessageArena* arena) {
+// Older versions of libstdcxx don't have is_trivially_constructible.
+#if !defined(__GLIBCXX__) || __GLIBCXX__ >= 20170516
+ static_assert(std::is_trivially_constructible<Message>::value,
+ "Message must be trivially constructible");
+#endif
+
+ static_assert(std::is_trivially_destructible<Message>::value,
+ "Message must be trivially destructible");
+ stream_writer_ = stream_writer;
+ arena_ = arena;
+ size_ = 0;
+ size_field_ = nullptr;
+ nested_message_ = nullptr;
+ message_state_ = MessageState::kNotFinalized;
+#if PERFETTO_DCHECK_IS_ON()
+ handle_ = nullptr;
+ generation_ = g_generation.fetch_add(1, std::memory_order_relaxed);
+#endif
+}
+
+void Message::AppendString(uint32_t field_id, const char* str) {
+ AppendBytes(field_id, str, strlen(str));
+}
+
+void Message::AppendBytes(uint32_t field_id, const void* src, size_t size) {
+ PERFETTO_DCHECK(field_id);
+ if (nested_message_)
+ EndNestedMessage();
+
+ PERFETTO_DCHECK(size < proto_utils::kMaxMessageLength);
+ // Write the proto preamble (field id, type and length of the field).
+ uint8_t buffer[proto_utils::kMaxSimpleFieldEncodedSize];
+ uint8_t* pos = buffer;
+ pos = proto_utils::WriteVarInt(proto_utils::MakeTagLengthDelimited(field_id),
+ pos);
+ pos = proto_utils::WriteVarInt(static_cast<uint32_t>(size), pos);
+ WriteToStream(buffer, pos);
+
+ const uint8_t* src_u8 = reinterpret_cast<const uint8_t*>(src);
+ WriteToStream(src_u8, src_u8 + size);
+}
+
+size_t Message::AppendScatteredBytes(uint32_t field_id,
+ ContiguousMemoryRange* ranges,
+ size_t num_ranges) {
+ PERFETTO_DCHECK(field_id);
+ if (nested_message_)
+ EndNestedMessage();
+
+ size_t size = 0;
+ for (size_t i = 0; i < num_ranges; ++i) {
+ size += ranges[i].size();
+ }
+
+ PERFETTO_DCHECK(size < proto_utils::kMaxMessageLength);
+
+ uint8_t buffer[proto_utils::kMaxSimpleFieldEncodedSize];
+ uint8_t* pos = buffer;
+ pos = proto_utils::WriteVarInt(proto_utils::MakeTagLengthDelimited(field_id),
+ pos);
+ pos = proto_utils::WriteVarInt(static_cast<uint32_t>(size), pos);
+ WriteToStream(buffer, pos);
+
+ for (size_t i = 0; i < num_ranges; ++i) {
+ auto& range = ranges[i];
+ WriteToStream(range.begin, range.end);
+ }
+
+ return size;
+}
+
+uint32_t Message::Finalize() {
+ if (is_finalized())
+ return size_;
+
+ if (nested_message_)
+ EndNestedMessage();
+
+ // Write the length of the nested message a posteriori, using a leading-zero
+ // redundant varint encoding. This can be nullptr for the root message, among
+ // many reasons, because the TraceWriterImpl delegate is keeping track of the
+ // root fragment size independently.
+ if (size_field_) {
+ PERFETTO_DCHECK(!is_finalized());
+ PERFETTO_DCHECK(size_ < proto_utils::kMaxMessageLength);
+ //
+ // Normally the size of a protozero message is written with 4 bytes just
+ // before the contents of the message itself:
+ //
+ // size message data
+ // [aa bb cc dd] [01 23 45 67 ...]
+ //
+ // We always reserve 4 bytes for the size, because the real size of the
+ // message isn't known until the call to Finalize(). This is possible
+ // because we can use leading zero redundant varint coding to expand any
+ // size smaller than 256 MiB to 4 bytes.
+ //
+ // However this is wasteful for short, frequently written messages, so the
+ // code below uses a 1 byte size field when possible. This is done by
+ // shifting the already-written data (which should still be in the cache)
+ // back by 3 bytes, resulting in this layout:
+ //
+ // size message data
+ // [aa] [01 23 45 67 ...]
+ //
+ // We can only do this optimization if the message is contained in a single
+ // chunk (since we can't modify previously committed chunks). We can check
+ // this by verifying that the size field is immediately before the message
+ // in memory and is fully contained by the current chunk.
+ //
+ if (PERFETTO_LIKELY(size_ <= proto_utils::kMaxOneByteMessageLength &&
+ size_field_ ==
+ stream_writer_->write_ptr() - size_ -
+ proto_utils::kMessageLengthFieldSize &&
+ size_field_ >= stream_writer_->cur_range().begin)) {
+ stream_writer_->Rewind(size_, kBytesToCompact);
+ PERFETTO_DCHECK(size_field_ == stream_writer_->write_ptr() - size_ - 1u);
+ *size_field_ = static_cast<uint8_t>(size_);
+ message_state_ = MessageState::kFinalizedWithCompaction;
+ } else {
+ proto_utils::WriteRedundantVarInt(size_, size_field_);
+ message_state_ = MessageState::kFinalized;
+ }
+ size_field_ = nullptr;
+ } else {
+ message_state_ = MessageState::kFinalized;
+ }
+
+#if PERFETTO_DCHECK_IS_ON()
+ if (handle_)
+ handle_->reset_message();
+#endif
+
+ return size_;
+}
+
+Message* Message::BeginNestedMessageInternal(uint32_t field_id) {
+ PERFETTO_DCHECK(field_id);
+ if (nested_message_)
+ EndNestedMessage();
+
+ // Write the proto preamble for the nested message.
+ uint8_t data[proto_utils::kMaxTagEncodedSize];
+ uint8_t* data_end = proto_utils::WriteVarInt(
+ proto_utils::MakeTagLengthDelimited(field_id), data);
+ WriteToStream(data, data_end);
+
+ Message* message = arena_->NewMessage();
+ message->Reset(stream_writer_, arena_);
+
+ // The length of the nested message cannot be known upfront. So right now
+ // just reserve the bytes to encode the size after the nested message is done.
+ message->set_size_field(
+ stream_writer_->ReserveBytes(proto_utils::kMessageLengthFieldSize));
+ size_ += proto_utils::kMessageLengthFieldSize;
+
+ nested_message_ = message;
+ return message;
+}
+
+void Message::EndNestedMessage() {
+ size_ += nested_message_->Finalize();
+ if (nested_message_->message_state_ ==
+ MessageState::kFinalizedWithCompaction) {
+ size_ -= kBytesToCompact;
+ }
+ arena_->DeleteLastMessage(nested_message_);
+ nested_message_ = nullptr;
+}
+
+} // namespace protozero
+// gen_amalgamated begin source: src/protozero/message_arena.cc
+/*
+ * Copyright (C) 2020 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/protozero/message_arena.h"
+
+#include <atomic>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message_handle.h"
+
+namespace protozero {
+
+MessageArena::MessageArena() {
+ // The code below assumes that there is always at least one block.
+ blocks_.emplace_front();
+ static_assert(
+ std::alignment_of<decltype(blocks_.front().storage[0])>::value >=
+ alignof(Message),
+ "MessageArea's storage is not properly aligned");
+}
+
+MessageArena::~MessageArena() = default;
+
+Message* MessageArena::NewMessage() {
+ PERFETTO_DCHECK(!blocks_.empty()); // Should never become empty.
+
+ Block* block = &blocks_.front();
+ if (PERFETTO_UNLIKELY(block->entries >= Block::kCapacity)) {
+ blocks_.emplace_front();
+ block = &blocks_.front();
+ }
+ const auto idx = block->entries++;
+ void* storage = &block->storage[idx];
+ PERFETTO_ASAN_UNPOISON(storage, sizeof(Message));
+ return new (storage) Message();
+}
+
+void MessageArena::DeleteLastMessageInternal() {
+ PERFETTO_DCHECK(!blocks_.empty()); // Should never be empty, see below.
+ Block* block = &blocks_.front();
+ PERFETTO_DCHECK(block->entries > 0);
+
+ // This is the reason why there is no ~Message() call here.
+ // MessageArea::Reset() (see header) also relies on dtor being trivial.
+ static_assert(std::is_trivially_destructible<Message>::value,
+ "Message must be trivially destructible");
+
+ --block->entries;
+ PERFETTO_ASAN_POISON(&block->storage[block->entries], sizeof(Message));
+
+ // Don't remove the first block to avoid malloc/free calls when the root
+ // message is reset. Hitting the allocator all the times is a waste of time.
+ if (block->entries == 0 && std::next(blocks_.cbegin()) != blocks_.cend()) {
+ blocks_.pop_front();
+ }
+}
+
+} // namespace protozero
+// gen_amalgamated begin source: src/protozero/packed_repeated_fields.cc
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/utils.h"
+
+namespace protozero {
+
+void PackedBufferBase::GrowSlowpath() {
+ size_t write_off = static_cast<size_t>(write_ptr_ - storage_begin_);
+ size_t old_size = static_cast<size_t>(storage_end_ - storage_begin_);
+ size_t new_size = old_size < 65536 ? (old_size * 2) : (old_size * 3 / 2);
+ new_size = perfetto::base::AlignUp<4096>(new_size);
+ std::unique_ptr<uint8_t[]> new_buf(new uint8_t[new_size]);
+ memcpy(new_buf.get(), storage_begin_, old_size);
+ heap_buf_ = std::move(new_buf);
+ storage_begin_ = heap_buf_.get();
+ storage_end_ = storage_begin_ + new_size;
+ write_ptr_ = storage_begin_ + write_off;
+}
+
+void PackedBufferBase::Reset() {
+ heap_buf_.reset();
+ storage_begin_ = reinterpret_cast<uint8_t*>(&stack_buf_[0]);
+ storage_end_ = reinterpret_cast<uint8_t*>(&stack_buf_[kOnStackStorageSize]);
+ write_ptr_ = storage_begin_;
+}
+
+} // namespace protozero
+// gen_amalgamated begin source: src/protozero/proto_decoder.cc
+/*
+ * Copyright (C) 2018 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+
+#include <string.h>
+
+#include <cinttypes>
+#include <limits>
+#include <memory>
+
+// gen_amalgamated expanded: #include "perfetto/base/compiler.h"
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/utils.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace protozero {
+
+using namespace proto_utils;
+
+#if !PERFETTO_IS_LITTLE_ENDIAN()
+#error Unimplemented for big endian archs.
+#endif
+
+namespace {
+
+struct ParseFieldResult {
+ enum ParseResult { kAbort, kSkip, kOk };
+ ParseResult parse_res;
+ const uint8_t* next;
+ Field field;
+};
+
+// Parses one field and returns the field itself and a pointer to the next
+// field to parse. If parsing fails, the returned |next| == |buffer|.
+ParseFieldResult ParseOneField(const uint8_t* const buffer,
+ const uint8_t* const end) {
+ ParseFieldResult res{ParseFieldResult::kAbort, buffer, Field{}};
+
+ // The first byte of a proto field is structured as follows:
+ // The least 3 significant bits determine the field type.
+ // The most 5 significant bits determine the field id. If MSB == 1, the
+ // field id continues on the next bytes following the VarInt encoding.
+ const uint8_t kFieldTypeNumBits = 3;
+ const uint64_t kFieldTypeMask = (1 << kFieldTypeNumBits) - 1; // 0000 0111;
+ const uint8_t* pos = buffer;
+
+ // If we've already hit the end, just return an invalid field.
+ if (PERFETTO_UNLIKELY(pos >= end))
+ return res;
+
+ uint64_t preamble = 0;
+ if (PERFETTO_LIKELY(*pos < 0x80)) { // Fastpath for fields with ID < 16.
+ preamble = *(pos++);
+ } else {
+ const uint8_t* next = ParseVarInt(pos, end, &preamble);
+ if (PERFETTO_UNLIKELY(pos == next))
+ return res;
+ pos = next;
+ }
+
+ uint32_t field_id = static_cast<uint32_t>(preamble >> kFieldTypeNumBits);
+ if (field_id == 0 || pos >= end)
+ return res;
+
+ auto field_type = static_cast<uint8_t>(preamble & kFieldTypeMask);
+ const uint8_t* new_pos = pos;
+ uint64_t int_value = 0;
+ uint64_t size = 0;
+
+ switch (field_type) {
+ case static_cast<uint8_t>(ProtoWireType::kVarInt): {
+ new_pos = ParseVarInt(pos, end, &int_value);
+
+ // new_pos not being greater than pos means ParseVarInt could not fully
+ // parse the number. This is because we are out of space in the buffer.
+ // Set the id to zero and return but don't update the offset so a future
+ // read can read this field.
+ if (PERFETTO_UNLIKELY(new_pos == pos))
+ return res;
+
+ break;
+ }
+
+ case static_cast<uint8_t>(ProtoWireType::kLengthDelimited): {
+ uint64_t payload_length;
+ new_pos = ParseVarInt(pos, end, &payload_length);
+ if (PERFETTO_UNLIKELY(new_pos == pos))
+ return res;
+
+ // ParseVarInt guarantees that |new_pos| <= |end| when it succeeds;
+ if (payload_length > static_cast<uint64_t>(end - new_pos))
+ return res;
+
+ const uintptr_t payload_start = reinterpret_cast<uintptr_t>(new_pos);
+ int_value = payload_start;
+ size = payload_length;
+ new_pos += payload_length;
+ break;
+ }
+
+ case static_cast<uint8_t>(ProtoWireType::kFixed64): {
+ new_pos = pos + sizeof(uint64_t);
+ if (PERFETTO_UNLIKELY(new_pos > end))
+ return res;
+ memcpy(&int_value, pos, sizeof(uint64_t));
+ break;
+ }
+
+ case static_cast<uint8_t>(ProtoWireType::kFixed32): {
+ new_pos = pos + sizeof(uint32_t);
+ if (PERFETTO_UNLIKELY(new_pos > end))
+ return res;
+ memcpy(&int_value, pos, sizeof(uint32_t));
+ break;
+ }
+
+ default:
+ PERFETTO_DLOG("Invalid proto field type: %u", field_type);
+ return res;
+ }
+
+ res.next = new_pos;
+
+ if (PERFETTO_UNLIKELY(field_id > Field::kMaxId)) {
+ PERFETTO_DLOG("Skipping field %" PRIu32 " because its id > %" PRIu32,
+ field_id, Field::kMaxId);
+ res.parse_res = ParseFieldResult::kSkip;
+ return res;
+ }
+
+ if (PERFETTO_UNLIKELY(size > proto_utils::kMaxMessageLength)) {
+ PERFETTO_DLOG("Skipping field %" PRIu32 " because it's too big (%" PRIu64
+ " KB)",
+ field_id, size / 1024);
+ res.parse_res = ParseFieldResult::kSkip;
+ return res;
+ }
+
+ res.parse_res = ParseFieldResult::kOk;
+ res.field.initialize(field_id, field_type, int_value,
+ static_cast<uint32_t>(size));
+ return res;
+}
+
+} // namespace
+
+Field ProtoDecoder::FindField(uint32_t field_id) {
+ Field res{};
+ auto old_position = read_ptr_;
+ read_ptr_ = begin_;
+ for (auto f = ReadField(); f.valid(); f = ReadField()) {
+ if (f.id() == field_id) {
+ res = f;
+ break;
+ }
+ }
+ read_ptr_ = old_position;
+ return res;
+}
+
+Field ProtoDecoder::ReadField() {
+ ParseFieldResult res;
+ do {
+ res = ParseOneField(read_ptr_, end_);
+ read_ptr_ = res.next;
+ } while (PERFETTO_UNLIKELY(res.parse_res == ParseFieldResult::kSkip));
+ return res.field;
+}
+
+void TypedProtoDecoderBase::ParseAllFields() {
+ const uint8_t* cur = begin_;
+ ParseFieldResult res;
+ for (;;) {
+ res = ParseOneField(cur, end_);
+ PERFETTO_DCHECK(res.parse_res != ParseFieldResult::kOk || res.next != cur);
+ cur = res.next;
+ if (PERFETTO_UNLIKELY(res.parse_res == ParseFieldResult::kSkip))
+ continue;
+ if (PERFETTO_UNLIKELY(res.parse_res == ParseFieldResult::kAbort))
+ break;
+
+ PERFETTO_DCHECK(res.parse_res == ParseFieldResult::kOk);
+ PERFETTO_DCHECK(res.field.valid());
+ auto field_id = res.field.id();
+ if (PERFETTO_UNLIKELY(field_id >= num_fields_))
+ continue;
+
+ // There are two reasons why we might want to expand the heap capacity:
+ // 1. We are writing a non-repeated field, which has an id >
+ // INITIAL_STACK_CAPACITY. In this case ExpandHeapStorage() ensures to
+ // allocate at least (num_fields_ + 1) slots.
+ // 2. We are writing a repeated field but ran out of capacity.
+ if (PERFETTO_UNLIKELY(field_id >= size_ || size_ >= capacity_))
+ ExpandHeapStorage();
+
+ PERFETTO_DCHECK(field_id < size_);
+ Field* fld = &fields_[field_id];
+ if (PERFETTO_LIKELY(!fld->valid())) {
+ // This is the first time we see this field.
+ *fld = std::move(res.field);
+ } else {
+ // Repeated field case.
+ // In this case we need to:
+ // 1. Append the last value of the field to end of the repeated field
+ // storage.
+ // 2. Replace the default instance at offset |field_id| with the current
+ // value. This is because in case of repeated field a call to Get(X) is
+ // supposed to return the last value of X, not the first one.
+ // This is so that the RepeatedFieldIterator will iterate in the right
+ // order, see comments on RepeatedFieldIterator.
+ if (num_fields_ > size_) {
+ ExpandHeapStorage();
+ fld = &fields_[field_id];
+ }
+
+ PERFETTO_DCHECK(size_ < capacity_);
+ fields_[size_++] = *fld;
+ *fld = std::move(res.field);
+ }
+ }
+ read_ptr_ = res.next;
+}
+
+void TypedProtoDecoderBase::ExpandHeapStorage() {
+ // When we expand the heap we must ensure that we have at very last capacity
+ // to deal with all known fields plus at least one repeated field. We go +2048
+ // here based on observations on a large 4GB android trace. This is to avoid
+ // trivial re-allocations when dealing with repeated fields of a message that
+ // has > INITIAL_STACK_CAPACITY fields.
+ const uint32_t min_capacity = num_fields_ + 2048; // Any num >= +1 will do.
+ const uint32_t new_capacity = std::max(capacity_ * 2, min_capacity);
+ PERFETTO_CHECK(new_capacity > size_ && new_capacity > num_fields_);
+ std::unique_ptr<Field[]> new_storage(new Field[new_capacity]);
+
+ static_assert(std::is_trivially_constructible<Field>::value,
+ "Field must be trivially constructible");
+ static_assert(std::is_trivially_copyable<Field>::value,
+ "Field must be trivially copyable");
+
+ // Zero-initialize the slots for known field IDs slots, as they can be
+ // randomly accessed. Instead, there is no need to initialize the repeated
+ // slots, because they are written linearly with no gaps and are always
+ // initialized before incrementing |size_|.
+ const uint32_t new_size = std::max(size_, num_fields_);
+ memset(&new_storage[size_], 0, sizeof(Field) * (new_size - size_));
+
+ memcpy(&new_storage[0], fields_, sizeof(Field) * size_);
+
+ heap_storage_ = std::move(new_storage);
+ fields_ = &heap_storage_[0];
+ capacity_ = new_capacity;
+ size_ = new_size;
+}
+
+} // namespace protozero
+// gen_amalgamated begin source: src/protozero/scattered_heap_buffer.cc
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+
+#include <algorithm>
+
+namespace protozero {
+
+ScatteredHeapBuffer::Slice::Slice()
+ : buffer_(nullptr), size_(0u), unused_bytes_(0u) {}
+
+ScatteredHeapBuffer::Slice::Slice(size_t size)
+ : buffer_(std::unique_ptr<uint8_t[]>(new uint8_t[size])),
+ size_(size),
+ unused_bytes_(size) {
+ PERFETTO_DCHECK(size);
+ Clear();
+}
+
+ScatteredHeapBuffer::Slice::Slice(Slice&& slice) noexcept = default;
+
+ScatteredHeapBuffer::Slice::~Slice() = default;
+
+ScatteredHeapBuffer::Slice& ScatteredHeapBuffer::Slice::operator=(Slice&&) =
+ default;
+
+void ScatteredHeapBuffer::Slice::Clear() {
+ unused_bytes_ = size_;
+#if PERFETTO_DCHECK_IS_ON()
+ memset(start(), 0xff, size_);
+#endif // PERFETTO_DCHECK_IS_ON()
+}
+
+ScatteredHeapBuffer::ScatteredHeapBuffer(size_t initial_slice_size_bytes,
+ size_t maximum_slice_size_bytes)
+ : next_slice_size_(initial_slice_size_bytes),
+ maximum_slice_size_(maximum_slice_size_bytes) {
+ PERFETTO_DCHECK(next_slice_size_ && maximum_slice_size_);
+ PERFETTO_DCHECK(maximum_slice_size_ >= initial_slice_size_bytes);
+}
+
+ScatteredHeapBuffer::~ScatteredHeapBuffer() = default;
+
+protozero::ContiguousMemoryRange ScatteredHeapBuffer::GetNewBuffer() {
+ PERFETTO_CHECK(writer_);
+ AdjustUsedSizeOfCurrentSlice();
+
+ if (cached_slice_.start()) {
+ slices_.push_back(std::move(cached_slice_));
+ PERFETTO_DCHECK(!cached_slice_.start());
+ } else {
+ slices_.emplace_back(next_slice_size_);
+ }
+ next_slice_size_ = std::min(maximum_slice_size_, next_slice_size_ * 2);
+ return slices_.back().GetTotalRange();
+}
+
+const std::vector<ScatteredHeapBuffer::Slice>&
+ScatteredHeapBuffer::GetSlices() {
+ AdjustUsedSizeOfCurrentSlice();
+ return slices_;
+}
+
+std::vector<uint8_t> ScatteredHeapBuffer::StitchSlices() {
+ size_t stitched_size = 0u;
+ const auto& slices = GetSlices();
+ for (const auto& slice : slices)
+ stitched_size += slice.size() - slice.unused_bytes();
+
+ std::vector<uint8_t> buffer;
+ buffer.reserve(stitched_size);
+ for (const auto& slice : slices) {
+ auto used_range = slice.GetUsedRange();
+ buffer.insert(buffer.end(), used_range.begin, used_range.end);
+ }
+ return buffer;
+}
+
+std::vector<protozero::ContiguousMemoryRange> ScatteredHeapBuffer::GetRanges() {
+ std::vector<protozero::ContiguousMemoryRange> ranges;
+ for (const auto& slice : GetSlices())
+ ranges.push_back(slice.GetUsedRange());
+ return ranges;
+}
+
+void ScatteredHeapBuffer::AdjustUsedSizeOfCurrentSlice() {
+ if (!slices_.empty())
+ slices_.back().set_unused_bytes(writer_->bytes_available());
+}
+
+size_t ScatteredHeapBuffer::GetTotalSize() {
+ size_t total_size = 0;
+ for (auto& slice : slices_) {
+ total_size += slice.size();
+ }
+ return total_size;
+}
+
+void ScatteredHeapBuffer::Reset() {
+ if (slices_.empty())
+ return;
+ cached_slice_ = std::move(slices_.front());
+ cached_slice_.Clear();
+ slices_.clear();
+}
+
+} // namespace protozero
+// gen_amalgamated begin source: src/protozero/scattered_stream_null_delegate.cc
+/*
+ * Copyright (C) 2018 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_stream_null_delegate.h"
+
+namespace protozero {
+
+// An implementation of ScatteredStreamWriter::Delegate which always returns
+// the same piece of memory.
+// This is used when we need to no-op the writers (e.g. during teardown or in
+// case of resource exhaustion), avoiding that the clients have to deal with
+// nullptr checks.
+ScatteredStreamWriterNullDelegate::ScatteredStreamWriterNullDelegate(
+ size_t chunk_size)
+ : chunk_size_(chunk_size),
+ chunk_(std::unique_ptr<uint8_t[]>(new uint8_t[chunk_size_])) {}
+
+ScatteredStreamWriterNullDelegate::~ScatteredStreamWriterNullDelegate() {}
+
+ContiguousMemoryRange ScatteredStreamWriterNullDelegate::GetNewBuffer() {
+ return {chunk_.get(), chunk_.get() + chunk_size_};
+}
+
+} // namespace protozero
+// gen_amalgamated begin source: src/protozero/scattered_stream_writer.cc
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_stream_writer.h"
+
+#include <algorithm>
+
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+
+namespace protozero {
+
+ScatteredStreamWriter::Delegate::~Delegate() {}
+
+uint8_t* ScatteredStreamWriter::Delegate::AnnotatePatch(uint8_t* patch_addr) {
+ // In most cases, a patch is transparent. The caller can write directly into
+ // `to_patch`, because its memory is not going away. TraceWriterImpl, however,
+ // requires a more complicated logic, because the chunks might be copied
+ // earlier.
+ return patch_addr;
+}
+
+ScatteredStreamWriter::ScatteredStreamWriter(Delegate* delegate)
+ : delegate_(delegate),
+ cur_range_({nullptr, nullptr}),
+ write_ptr_(nullptr) {}
+
+ScatteredStreamWriter::~ScatteredStreamWriter() {}
+
+void ScatteredStreamWriter::Reset(ContiguousMemoryRange range) {
+ written_previously_ += static_cast<uint64_t>(write_ptr_ - cur_range_.begin);
+ cur_range_ = range;
+ write_ptr_ = range.begin;
+ PERFETTO_DCHECK(!write_ptr_ || write_ptr_ < cur_range_.end);
+}
+
+void ScatteredStreamWriter::Extend() {
+ Reset(delegate_->GetNewBuffer());
+}
+
+void ScatteredStreamWriter::WriteBytesSlowPath(const uint8_t* src,
+ size_t size) {
+ size_t bytes_left = size;
+ while (bytes_left > 0) {
+ if (write_ptr_ >= cur_range_.end)
+ Extend();
+ const size_t burst_size = std::min(bytes_available(), bytes_left);
+ WriteBytesUnsafe(src, burst_size);
+ bytes_left -= burst_size;
+ src += burst_size;
+ }
+}
+
+// TODO(primiano): perf optimization: I suspect that at the end this will always
+// be called with |size| == 4, in which case we might just hardcode it.
+uint8_t* ScatteredStreamWriter::ReserveBytes(size_t size) {
+ if (write_ptr_ + size > cur_range_.end) {
+ // Assume the reservations are always < Delegate::GetNewBuffer().size(),
+ // so that one single call to Extend() will definitely give enough headroom.
+ Extend();
+ PERFETTO_DCHECK(write_ptr_ + size <= cur_range_.end);
+ }
+ uint8_t* begin = write_ptr_;
+ write_ptr_ += size;
+#if PERFETTO_DCHECK_IS_ON()
+ // In the past, the service had a matching DCHECK in
+ // TraceBuffer::TryPatchChunkContents, which was assuming that service and all
+ // producers are built with matching DCHECK levels. This turned out to be a
+ // source of problems and was removed in b/197340286. This memset is useless
+ // these days and is here only to maintain ABI compatibility between producers
+ // that use a v20+ SDK and older versions of the service that were built in
+ // debug mode. At some point around 2023 it should be safe to remove it.
+ // (running a debug version of traced in production seems a bad idea
+ // regardless).
+ memset(begin, 0, size);
+#endif
+ return begin;
+}
+
+} // namespace protozero
+// gen_amalgamated begin source: src/protozero/static_buffer.cc
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/protozero/static_buffer.h"
+
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+
+namespace protozero {
+
+StaticBufferDelegate::~StaticBufferDelegate() = default;
+
+ContiguousMemoryRange StaticBufferDelegate::GetNewBuffer() {
+ if (get_new_buffer_called_once_) {
+ // This is the 2nd time GetNewBuffer is called. The estimate is wrong. We
+ // shouldn't try to grow the buffer after the initial call.
+ PERFETTO_FATAL("Static buffer too small");
+ }
+ get_new_buffer_called_once_ = true;
+ return range_;
+}
+
+} // namespace protozero
+// gen_amalgamated begin source: src/protozero/virtual_destructors.cc
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message_handle.h"
+
+namespace protozero {
+
+CppMessageObj::~CppMessageObj() = default;
+MessageFinalizationListener::~MessageFinalizationListener() = default;
+
+} // namespace protozero
+// gen_amalgamated begin source: gen/protos/perfetto/common/android_energy_consumer_descriptor.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/common/android_energy_consumer_descriptor.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+AndroidEnergyConsumerDescriptor::AndroidEnergyConsumerDescriptor() = default;
+AndroidEnergyConsumerDescriptor::~AndroidEnergyConsumerDescriptor() = default;
+AndroidEnergyConsumerDescriptor::AndroidEnergyConsumerDescriptor(const AndroidEnergyConsumerDescriptor&) = default;
+AndroidEnergyConsumerDescriptor& AndroidEnergyConsumerDescriptor::operator=(const AndroidEnergyConsumerDescriptor&) = default;
+AndroidEnergyConsumerDescriptor::AndroidEnergyConsumerDescriptor(AndroidEnergyConsumerDescriptor&&) noexcept = default;
+AndroidEnergyConsumerDescriptor& AndroidEnergyConsumerDescriptor::operator=(AndroidEnergyConsumerDescriptor&&) = default;
+
+bool AndroidEnergyConsumerDescriptor::operator==(const AndroidEnergyConsumerDescriptor& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(energy_consumers_, other.energy_consumers_);
+}
+
+int AndroidEnergyConsumerDescriptor::energy_consumers_size() const { return static_cast<int>(energy_consumers_.size()); }
+void AndroidEnergyConsumerDescriptor::clear_energy_consumers() { energy_consumers_.clear(); }
+AndroidEnergyConsumer* AndroidEnergyConsumerDescriptor::add_energy_consumers() { energy_consumers_.emplace_back(); return &energy_consumers_.back(); }
+bool AndroidEnergyConsumerDescriptor::ParseFromArray(const void* raw, size_t size) {
+ energy_consumers_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* energy_consumers */:
+ energy_consumers_.emplace_back();
+ energy_consumers_.back().ParseFromArray(field.data(), field.size());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string AndroidEnergyConsumerDescriptor::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> AndroidEnergyConsumerDescriptor::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void AndroidEnergyConsumerDescriptor::Serialize(::protozero::Message* msg) const {
+ // Field 1: energy_consumers
+ for (auto& it : energy_consumers_) {
+ it.Serialize(msg->BeginNestedMessage<::protozero::Message>(1));
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+AndroidEnergyConsumer::AndroidEnergyConsumer() = default;
+AndroidEnergyConsumer::~AndroidEnergyConsumer() = default;
+AndroidEnergyConsumer::AndroidEnergyConsumer(const AndroidEnergyConsumer&) = default;
+AndroidEnergyConsumer& AndroidEnergyConsumer::operator=(const AndroidEnergyConsumer&) = default;
+AndroidEnergyConsumer::AndroidEnergyConsumer(AndroidEnergyConsumer&&) noexcept = default;
+AndroidEnergyConsumer& AndroidEnergyConsumer::operator=(AndroidEnergyConsumer&&) = default;
+
+bool AndroidEnergyConsumer::operator==(const AndroidEnergyConsumer& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(energy_consumer_id_, other.energy_consumer_id_)
+ && ::protozero::internal::gen_helpers::EqualsField(ordinal_, other.ordinal_)
+ && ::protozero::internal::gen_helpers::EqualsField(type_, other.type_)
+ && ::protozero::internal::gen_helpers::EqualsField(name_, other.name_);
+}
+
+bool AndroidEnergyConsumer::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* energy_consumer_id */:
+ field.get(&energy_consumer_id_);
+ break;
+ case 2 /* ordinal */:
+ field.get(&ordinal_);
+ break;
+ case 3 /* type */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &type_);
+ break;
+ case 4 /* name */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &name_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string AndroidEnergyConsumer::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> AndroidEnergyConsumer::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void AndroidEnergyConsumer::Serialize(::protozero::Message* msg) const {
+ // Field 1: energy_consumer_id
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, energy_consumer_id_, msg);
+ }
+
+ // Field 2: ordinal
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, ordinal_, msg);
+ }
+
+ // Field 3: type
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeString(3, type_, msg);
+ }
+
+ // Field 4: name
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeString(4, name_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/common/android_log_constants.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/common/android_log_constants.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/common/builtin_clock.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/common/builtin_clock.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/common/commit_data_request.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/common/commit_data_request.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+CommitDataRequest::CommitDataRequest() = default;
+CommitDataRequest::~CommitDataRequest() = default;
+CommitDataRequest::CommitDataRequest(const CommitDataRequest&) = default;
+CommitDataRequest& CommitDataRequest::operator=(const CommitDataRequest&) = default;
+CommitDataRequest::CommitDataRequest(CommitDataRequest&&) noexcept = default;
+CommitDataRequest& CommitDataRequest::operator=(CommitDataRequest&&) = default;
+
+bool CommitDataRequest::operator==(const CommitDataRequest& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(chunks_to_move_, other.chunks_to_move_)
+ && ::protozero::internal::gen_helpers::EqualsField(chunks_to_patch_, other.chunks_to_patch_)
+ && ::protozero::internal::gen_helpers::EqualsField(flush_request_id_, other.flush_request_id_);
+}
+
+int CommitDataRequest::chunks_to_move_size() const { return static_cast<int>(chunks_to_move_.size()); }
+void CommitDataRequest::clear_chunks_to_move() { chunks_to_move_.clear(); }
+CommitDataRequest_ChunksToMove* CommitDataRequest::add_chunks_to_move() { chunks_to_move_.emplace_back(); return &chunks_to_move_.back(); }
+int CommitDataRequest::chunks_to_patch_size() const { return static_cast<int>(chunks_to_patch_.size()); }
+void CommitDataRequest::clear_chunks_to_patch() { chunks_to_patch_.clear(); }
+CommitDataRequest_ChunkToPatch* CommitDataRequest::add_chunks_to_patch() { chunks_to_patch_.emplace_back(); return &chunks_to_patch_.back(); }
+bool CommitDataRequest::ParseFromArray(const void* raw, size_t size) {
+ chunks_to_move_.clear();
+ chunks_to_patch_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* chunks_to_move */:
+ chunks_to_move_.emplace_back();
+ chunks_to_move_.back().ParseFromArray(field.data(), field.size());
+ break;
+ case 2 /* chunks_to_patch */:
+ chunks_to_patch_.emplace_back();
+ chunks_to_patch_.back().ParseFromArray(field.data(), field.size());
+ break;
+ case 3 /* flush_request_id */:
+ field.get(&flush_request_id_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string CommitDataRequest::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> CommitDataRequest::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void CommitDataRequest::Serialize(::protozero::Message* msg) const {
+ // Field 1: chunks_to_move
+ for (auto& it : chunks_to_move_) {
+ it.Serialize(msg->BeginNestedMessage<::protozero::Message>(1));
+ }
+
+ // Field 2: chunks_to_patch
+ for (auto& it : chunks_to_patch_) {
+ it.Serialize(msg->BeginNestedMessage<::protozero::Message>(2));
+ }
+
+ // Field 3: flush_request_id
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(3, flush_request_id_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+CommitDataRequest_ChunkToPatch::CommitDataRequest_ChunkToPatch() = default;
+CommitDataRequest_ChunkToPatch::~CommitDataRequest_ChunkToPatch() = default;
+CommitDataRequest_ChunkToPatch::CommitDataRequest_ChunkToPatch(const CommitDataRequest_ChunkToPatch&) = default;
+CommitDataRequest_ChunkToPatch& CommitDataRequest_ChunkToPatch::operator=(const CommitDataRequest_ChunkToPatch&) = default;
+CommitDataRequest_ChunkToPatch::CommitDataRequest_ChunkToPatch(CommitDataRequest_ChunkToPatch&&) noexcept = default;
+CommitDataRequest_ChunkToPatch& CommitDataRequest_ChunkToPatch::operator=(CommitDataRequest_ChunkToPatch&&) = default;
+
+bool CommitDataRequest_ChunkToPatch::operator==(const CommitDataRequest_ChunkToPatch& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(target_buffer_, other.target_buffer_)
+ && ::protozero::internal::gen_helpers::EqualsField(writer_id_, other.writer_id_)
+ && ::protozero::internal::gen_helpers::EqualsField(chunk_id_, other.chunk_id_)
+ && ::protozero::internal::gen_helpers::EqualsField(patches_, other.patches_)
+ && ::protozero::internal::gen_helpers::EqualsField(has_more_patches_, other.has_more_patches_);
+}
+
+int CommitDataRequest_ChunkToPatch::patches_size() const { return static_cast<int>(patches_.size()); }
+void CommitDataRequest_ChunkToPatch::clear_patches() { patches_.clear(); }
+CommitDataRequest_ChunkToPatch_Patch* CommitDataRequest_ChunkToPatch::add_patches() { patches_.emplace_back(); return &patches_.back(); }
+bool CommitDataRequest_ChunkToPatch::ParseFromArray(const void* raw, size_t size) {
+ patches_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* target_buffer */:
+ field.get(&target_buffer_);
+ break;
+ case 2 /* writer_id */:
+ field.get(&writer_id_);
+ break;
+ case 3 /* chunk_id */:
+ field.get(&chunk_id_);
+ break;
+ case 4 /* patches */:
+ patches_.emplace_back();
+ patches_.back().ParseFromArray(field.data(), field.size());
+ break;
+ case 5 /* has_more_patches */:
+ field.get(&has_more_patches_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string CommitDataRequest_ChunkToPatch::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> CommitDataRequest_ChunkToPatch::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void CommitDataRequest_ChunkToPatch::Serialize(::protozero::Message* msg) const {
+ // Field 1: target_buffer
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, target_buffer_, msg);
+ }
+
+ // Field 2: writer_id
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, writer_id_, msg);
+ }
+
+ // Field 3: chunk_id
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(3, chunk_id_, msg);
+ }
+
+ // Field 4: patches
+ for (auto& it : patches_) {
+ it.Serialize(msg->BeginNestedMessage<::protozero::Message>(4));
+ }
+
+ // Field 5: has_more_patches
+ if (_has_field_[5]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(5, has_more_patches_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+CommitDataRequest_ChunkToPatch_Patch::CommitDataRequest_ChunkToPatch_Patch() = default;
+CommitDataRequest_ChunkToPatch_Patch::~CommitDataRequest_ChunkToPatch_Patch() = default;
+CommitDataRequest_ChunkToPatch_Patch::CommitDataRequest_ChunkToPatch_Patch(const CommitDataRequest_ChunkToPatch_Patch&) = default;
+CommitDataRequest_ChunkToPatch_Patch& CommitDataRequest_ChunkToPatch_Patch::operator=(const CommitDataRequest_ChunkToPatch_Patch&) = default;
+CommitDataRequest_ChunkToPatch_Patch::CommitDataRequest_ChunkToPatch_Patch(CommitDataRequest_ChunkToPatch_Patch&&) noexcept = default;
+CommitDataRequest_ChunkToPatch_Patch& CommitDataRequest_ChunkToPatch_Patch::operator=(CommitDataRequest_ChunkToPatch_Patch&&) = default;
+
+bool CommitDataRequest_ChunkToPatch_Patch::operator==(const CommitDataRequest_ChunkToPatch_Patch& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(offset_, other.offset_)
+ && ::protozero::internal::gen_helpers::EqualsField(data_, other.data_);
+}
+
+bool CommitDataRequest_ChunkToPatch_Patch::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* offset */:
+ field.get(&offset_);
+ break;
+ case 2 /* data */:
+ field.get(&data_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string CommitDataRequest_ChunkToPatch_Patch::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> CommitDataRequest_ChunkToPatch_Patch::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void CommitDataRequest_ChunkToPatch_Patch::Serialize(::protozero::Message* msg) const {
+ // Field 1: offset
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, offset_, msg);
+ }
+
+ // Field 2: data
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeString(2, data_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+CommitDataRequest_ChunksToMove::CommitDataRequest_ChunksToMove() = default;
+CommitDataRequest_ChunksToMove::~CommitDataRequest_ChunksToMove() = default;
+CommitDataRequest_ChunksToMove::CommitDataRequest_ChunksToMove(const CommitDataRequest_ChunksToMove&) = default;
+CommitDataRequest_ChunksToMove& CommitDataRequest_ChunksToMove::operator=(const CommitDataRequest_ChunksToMove&) = default;
+CommitDataRequest_ChunksToMove::CommitDataRequest_ChunksToMove(CommitDataRequest_ChunksToMove&&) noexcept = default;
+CommitDataRequest_ChunksToMove& CommitDataRequest_ChunksToMove::operator=(CommitDataRequest_ChunksToMove&&) = default;
+
+bool CommitDataRequest_ChunksToMove::operator==(const CommitDataRequest_ChunksToMove& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(page_, other.page_)
+ && ::protozero::internal::gen_helpers::EqualsField(chunk_, other.chunk_)
+ && ::protozero::internal::gen_helpers::EqualsField(target_buffer_, other.target_buffer_)
+ && ::protozero::internal::gen_helpers::EqualsField(data_, other.data_);
+}
+
+bool CommitDataRequest_ChunksToMove::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* page */:
+ field.get(&page_);
+ break;
+ case 2 /* chunk */:
+ field.get(&chunk_);
+ break;
+ case 3 /* target_buffer */:
+ field.get(&target_buffer_);
+ break;
+ case 4 /* data */:
+ field.get(&data_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string CommitDataRequest_ChunksToMove::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> CommitDataRequest_ChunksToMove::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void CommitDataRequest_ChunksToMove::Serialize(::protozero::Message* msg) const {
+ // Field 1: page
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, page_, msg);
+ }
+
+ // Field 2: chunk
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, chunk_, msg);
+ }
+
+ // Field 3: target_buffer
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(3, target_buffer_, msg);
+ }
+
+ // Field 4: data
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeString(4, data_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/common/data_source_descriptor.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/common/data_source_descriptor.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+DataSourceDescriptor::DataSourceDescriptor() = default;
+DataSourceDescriptor::~DataSourceDescriptor() = default;
+DataSourceDescriptor::DataSourceDescriptor(const DataSourceDescriptor&) = default;
+DataSourceDescriptor& DataSourceDescriptor::operator=(const DataSourceDescriptor&) = default;
+DataSourceDescriptor::DataSourceDescriptor(DataSourceDescriptor&&) noexcept = default;
+DataSourceDescriptor& DataSourceDescriptor::operator=(DataSourceDescriptor&&) = default;
+
+bool DataSourceDescriptor::operator==(const DataSourceDescriptor& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(name_, other.name_)
+ && ::protozero::internal::gen_helpers::EqualsField(id_, other.id_)
+ && ::protozero::internal::gen_helpers::EqualsField(will_notify_on_stop_, other.will_notify_on_stop_)
+ && ::protozero::internal::gen_helpers::EqualsField(will_notify_on_start_, other.will_notify_on_start_)
+ && ::protozero::internal::gen_helpers::EqualsField(handles_incremental_state_clear_, other.handles_incremental_state_clear_)
+ && ::protozero::internal::gen_helpers::EqualsField(no_flush_, other.no_flush_)
+ && ::protozero::internal::gen_helpers::EqualsField(gpu_counter_descriptor_, other.gpu_counter_descriptor_)
+ && ::protozero::internal::gen_helpers::EqualsField(track_event_descriptor_, other.track_event_descriptor_)
+ && ::protozero::internal::gen_helpers::EqualsField(ftrace_descriptor_, other.ftrace_descriptor_);
+}
+
+bool DataSourceDescriptor::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* name */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &name_);
+ break;
+ case 7 /* id */:
+ field.get(&id_);
+ break;
+ case 2 /* will_notify_on_stop */:
+ field.get(&will_notify_on_stop_);
+ break;
+ case 3 /* will_notify_on_start */:
+ field.get(&will_notify_on_start_);
+ break;
+ case 4 /* handles_incremental_state_clear */:
+ field.get(&handles_incremental_state_clear_);
+ break;
+ case 9 /* no_flush */:
+ field.get(&no_flush_);
+ break;
+ case 5 /* gpu_counter_descriptor */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &gpu_counter_descriptor_);
+ break;
+ case 6 /* track_event_descriptor */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &track_event_descriptor_);
+ break;
+ case 8 /* ftrace_descriptor */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &ftrace_descriptor_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string DataSourceDescriptor::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> DataSourceDescriptor::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void DataSourceDescriptor::Serialize(::protozero::Message* msg) const {
+ // Field 1: name
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeString(1, name_, msg);
+ }
+
+ // Field 7: id
+ if (_has_field_[7]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(7, id_, msg);
+ }
+
+ // Field 2: will_notify_on_stop
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(2, will_notify_on_stop_, msg);
+ }
+
+ // Field 3: will_notify_on_start
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(3, will_notify_on_start_, msg);
+ }
+
+ // Field 4: handles_incremental_state_clear
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(4, handles_incremental_state_clear_, msg);
+ }
+
+ // Field 9: no_flush
+ if (_has_field_[9]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(9, no_flush_, msg);
+ }
+
+ // Field 5: gpu_counter_descriptor
+ if (_has_field_[5]) {
+ msg->AppendString(5, gpu_counter_descriptor_);
+ }
+
+ // Field 6: track_event_descriptor
+ if (_has_field_[6]) {
+ msg->AppendString(6, track_event_descriptor_);
+ }
+
+ // Field 8: ftrace_descriptor
+ if (_has_field_[8]) {
+ msg->AppendString(8, ftrace_descriptor_);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/common/descriptor.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/common/descriptor.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+OneofOptions::OneofOptions() = default;
+OneofOptions::~OneofOptions() = default;
+OneofOptions::OneofOptions(const OneofOptions&) = default;
+OneofOptions& OneofOptions::operator=(const OneofOptions&) = default;
+OneofOptions::OneofOptions(OneofOptions&&) noexcept = default;
+OneofOptions& OneofOptions::operator=(OneofOptions&&) = default;
+
+bool OneofOptions::operator==(const OneofOptions& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_);
+}
+
+bool OneofOptions::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string OneofOptions::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> OneofOptions::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void OneofOptions::Serialize(::protozero::Message* msg) const {
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+EnumValueDescriptorProto::EnumValueDescriptorProto() = default;
+EnumValueDescriptorProto::~EnumValueDescriptorProto() = default;
+EnumValueDescriptorProto::EnumValueDescriptorProto(const EnumValueDescriptorProto&) = default;
+EnumValueDescriptorProto& EnumValueDescriptorProto::operator=(const EnumValueDescriptorProto&) = default;
+EnumValueDescriptorProto::EnumValueDescriptorProto(EnumValueDescriptorProto&&) noexcept = default;
+EnumValueDescriptorProto& EnumValueDescriptorProto::operator=(EnumValueDescriptorProto&&) = default;
+
+bool EnumValueDescriptorProto::operator==(const EnumValueDescriptorProto& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(name_, other.name_)
+ && ::protozero::internal::gen_helpers::EqualsField(number_, other.number_);
+}
+
+bool EnumValueDescriptorProto::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* name */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &name_);
+ break;
+ case 2 /* number */:
+ field.get(&number_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string EnumValueDescriptorProto::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> EnumValueDescriptorProto::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void EnumValueDescriptorProto::Serialize(::protozero::Message* msg) const {
+ // Field 1: name
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeString(1, name_, msg);
+ }
+
+ // Field 2: number
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, number_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+EnumDescriptorProto::EnumDescriptorProto() = default;
+EnumDescriptorProto::~EnumDescriptorProto() = default;
+EnumDescriptorProto::EnumDescriptorProto(const EnumDescriptorProto&) = default;
+EnumDescriptorProto& EnumDescriptorProto::operator=(const EnumDescriptorProto&) = default;
+EnumDescriptorProto::EnumDescriptorProto(EnumDescriptorProto&&) noexcept = default;
+EnumDescriptorProto& EnumDescriptorProto::operator=(EnumDescriptorProto&&) = default;
+
+bool EnumDescriptorProto::operator==(const EnumDescriptorProto& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(name_, other.name_)
+ && ::protozero::internal::gen_helpers::EqualsField(value_, other.value_)
+ && ::protozero::internal::gen_helpers::EqualsField(reserved_name_, other.reserved_name_);
+}
+
+int EnumDescriptorProto::value_size() const { return static_cast<int>(value_.size()); }
+void EnumDescriptorProto::clear_value() { value_.clear(); }
+EnumValueDescriptorProto* EnumDescriptorProto::add_value() { value_.emplace_back(); return &value_.back(); }
+bool EnumDescriptorProto::ParseFromArray(const void* raw, size_t size) {
+ value_.clear();
+ reserved_name_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* name */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &name_);
+ break;
+ case 2 /* value */:
+ value_.emplace_back();
+ value_.back().ParseFromArray(field.data(), field.size());
+ break;
+ case 5 /* reserved_name */:
+ reserved_name_.emplace_back();
+ ::protozero::internal::gen_helpers::DeserializeString(field, &reserved_name_.back());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string EnumDescriptorProto::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> EnumDescriptorProto::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void EnumDescriptorProto::Serialize(::protozero::Message* msg) const {
+ // Field 1: name
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeString(1, name_, msg);
+ }
+
+ // Field 2: value
+ for (auto& it : value_) {
+ it.Serialize(msg->BeginNestedMessage<::protozero::Message>(2));
+ }
+
+ // Field 5: reserved_name
+ for (auto& it : reserved_name_) {
+ ::protozero::internal::gen_helpers::SerializeString(5, it, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+OneofDescriptorProto::OneofDescriptorProto() = default;
+OneofDescriptorProto::~OneofDescriptorProto() = default;
+OneofDescriptorProto::OneofDescriptorProto(const OneofDescriptorProto&) = default;
+OneofDescriptorProto& OneofDescriptorProto::operator=(const OneofDescriptorProto&) = default;
+OneofDescriptorProto::OneofDescriptorProto(OneofDescriptorProto&&) noexcept = default;
+OneofDescriptorProto& OneofDescriptorProto::operator=(OneofDescriptorProto&&) = default;
+
+bool OneofDescriptorProto::operator==(const OneofDescriptorProto& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(name_, other.name_)
+ && ::protozero::internal::gen_helpers::EqualsField(options_, other.options_);
+}
+
+bool OneofDescriptorProto::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* name */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &name_);
+ break;
+ case 2 /* options */:
+ (*options_).ParseFromArray(field.data(), field.size());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string OneofDescriptorProto::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> OneofDescriptorProto::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void OneofDescriptorProto::Serialize(::protozero::Message* msg) const {
+ // Field 1: name
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeString(1, name_, msg);
+ }
+
+ // Field 2: options
+ if (_has_field_[2]) {
+ (*options_).Serialize(msg->BeginNestedMessage<::protozero::Message>(2));
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+FieldDescriptorProto::FieldDescriptorProto() = default;
+FieldDescriptorProto::~FieldDescriptorProto() = default;
+FieldDescriptorProto::FieldDescriptorProto(const FieldDescriptorProto&) = default;
+FieldDescriptorProto& FieldDescriptorProto::operator=(const FieldDescriptorProto&) = default;
+FieldDescriptorProto::FieldDescriptorProto(FieldDescriptorProto&&) noexcept = default;
+FieldDescriptorProto& FieldDescriptorProto::operator=(FieldDescriptorProto&&) = default;
+
+bool FieldDescriptorProto::operator==(const FieldDescriptorProto& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(name_, other.name_)
+ && ::protozero::internal::gen_helpers::EqualsField(number_, other.number_)
+ && ::protozero::internal::gen_helpers::EqualsField(label_, other.label_)
+ && ::protozero::internal::gen_helpers::EqualsField(type_, other.type_)
+ && ::protozero::internal::gen_helpers::EqualsField(type_name_, other.type_name_)
+ && ::protozero::internal::gen_helpers::EqualsField(extendee_, other.extendee_)
+ && ::protozero::internal::gen_helpers::EqualsField(default_value_, other.default_value_)
+ && ::protozero::internal::gen_helpers::EqualsField(options_, other.options_)
+ && ::protozero::internal::gen_helpers::EqualsField(oneof_index_, other.oneof_index_);
+}
+
+bool FieldDescriptorProto::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* name */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &name_);
+ break;
+ case 3 /* number */:
+ field.get(&number_);
+ break;
+ case 4 /* label */:
+ field.get(&label_);
+ break;
+ case 5 /* type */:
+ field.get(&type_);
+ break;
+ case 6 /* type_name */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &type_name_);
+ break;
+ case 2 /* extendee */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &extendee_);
+ break;
+ case 7 /* default_value */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &default_value_);
+ break;
+ case 8 /* options */:
+ (*options_).ParseFromArray(field.data(), field.size());
+ break;
+ case 9 /* oneof_index */:
+ field.get(&oneof_index_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string FieldDescriptorProto::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> FieldDescriptorProto::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void FieldDescriptorProto::Serialize(::protozero::Message* msg) const {
+ // Field 1: name
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeString(1, name_, msg);
+ }
+
+ // Field 3: number
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(3, number_, msg);
+ }
+
+ // Field 4: label
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(4, label_, msg);
+ }
+
+ // Field 5: type
+ if (_has_field_[5]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(5, type_, msg);
+ }
+
+ // Field 6: type_name
+ if (_has_field_[6]) {
+ ::protozero::internal::gen_helpers::SerializeString(6, type_name_, msg);
+ }
+
+ // Field 2: extendee
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeString(2, extendee_, msg);
+ }
+
+ // Field 7: default_value
+ if (_has_field_[7]) {
+ ::protozero::internal::gen_helpers::SerializeString(7, default_value_, msg);
+ }
+
+ // Field 8: options
+ if (_has_field_[8]) {
+ (*options_).Serialize(msg->BeginNestedMessage<::protozero::Message>(8));
+ }
+
+ // Field 9: oneof_index
+ if (_has_field_[9]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(9, oneof_index_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+FieldOptions::FieldOptions() = default;
+FieldOptions::~FieldOptions() = default;
+FieldOptions::FieldOptions(const FieldOptions&) = default;
+FieldOptions& FieldOptions::operator=(const FieldOptions&) = default;
+FieldOptions::FieldOptions(FieldOptions&&) noexcept = default;
+FieldOptions& FieldOptions::operator=(FieldOptions&&) = default;
+
+bool FieldOptions::operator==(const FieldOptions& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(packed_, other.packed_)
+ && ::protozero::internal::gen_helpers::EqualsField(uninterpreted_option_, other.uninterpreted_option_);
+}
+
+int FieldOptions::uninterpreted_option_size() const { return static_cast<int>(uninterpreted_option_.size()); }
+void FieldOptions::clear_uninterpreted_option() { uninterpreted_option_.clear(); }
+UninterpretedOption* FieldOptions::add_uninterpreted_option() { uninterpreted_option_.emplace_back(); return &uninterpreted_option_.back(); }
+bool FieldOptions::ParseFromArray(const void* raw, size_t size) {
+ uninterpreted_option_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 2 /* packed */:
+ field.get(&packed_);
+ break;
+ case 999 /* uninterpreted_option */:
+ uninterpreted_option_.emplace_back();
+ uninterpreted_option_.back().ParseFromArray(field.data(), field.size());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string FieldOptions::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> FieldOptions::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void FieldOptions::Serialize(::protozero::Message* msg) const {
+ // Field 2: packed
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(2, packed_, msg);
+ }
+
+ // Field 999: uninterpreted_option
+ for (auto& it : uninterpreted_option_) {
+ it.Serialize(msg->BeginNestedMessage<::protozero::Message>(999));
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+UninterpretedOption::UninterpretedOption() = default;
+UninterpretedOption::~UninterpretedOption() = default;
+UninterpretedOption::UninterpretedOption(const UninterpretedOption&) = default;
+UninterpretedOption& UninterpretedOption::operator=(const UninterpretedOption&) = default;
+UninterpretedOption::UninterpretedOption(UninterpretedOption&&) noexcept = default;
+UninterpretedOption& UninterpretedOption::operator=(UninterpretedOption&&) = default;
+
+bool UninterpretedOption::operator==(const UninterpretedOption& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(name_, other.name_)
+ && ::protozero::internal::gen_helpers::EqualsField(identifier_value_, other.identifier_value_)
+ && ::protozero::internal::gen_helpers::EqualsField(positive_int_value_, other.positive_int_value_)
+ && ::protozero::internal::gen_helpers::EqualsField(negative_int_value_, other.negative_int_value_)
+ && ::protozero::internal::gen_helpers::EqualsField(double_value_, other.double_value_)
+ && ::protozero::internal::gen_helpers::EqualsField(string_value_, other.string_value_)
+ && ::protozero::internal::gen_helpers::EqualsField(aggregate_value_, other.aggregate_value_);
+}
+
+int UninterpretedOption::name_size() const { return static_cast<int>(name_.size()); }
+void UninterpretedOption::clear_name() { name_.clear(); }
+UninterpretedOption_NamePart* UninterpretedOption::add_name() { name_.emplace_back(); return &name_.back(); }
+bool UninterpretedOption::ParseFromArray(const void* raw, size_t size) {
+ name_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 2 /* name */:
+ name_.emplace_back();
+ name_.back().ParseFromArray(field.data(), field.size());
+ break;
+ case 3 /* identifier_value */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &identifier_value_);
+ break;
+ case 4 /* positive_int_value */:
+ field.get(&positive_int_value_);
+ break;
+ case 5 /* negative_int_value */:
+ field.get(&negative_int_value_);
+ break;
+ case 6 /* double_value */:
+ field.get(&double_value_);
+ break;
+ case 7 /* string_value */:
+ field.get(&string_value_);
+ break;
+ case 8 /* aggregate_value */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &aggregate_value_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string UninterpretedOption::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> UninterpretedOption::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void UninterpretedOption::Serialize(::protozero::Message* msg) const {
+ // Field 2: name
+ for (auto& it : name_) {
+ it.Serialize(msg->BeginNestedMessage<::protozero::Message>(2));
+ }
+
+ // Field 3: identifier_value
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeString(3, identifier_value_, msg);
+ }
+
+ // Field 4: positive_int_value
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(4, positive_int_value_, msg);
+ }
+
+ // Field 5: negative_int_value
+ if (_has_field_[5]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(5, negative_int_value_, msg);
+ }
+
+ // Field 6: double_value
+ if (_has_field_[6]) {
+ ::protozero::internal::gen_helpers::SerializeFixed(6, double_value_, msg);
+ }
+
+ // Field 7: string_value
+ if (_has_field_[7]) {
+ ::protozero::internal::gen_helpers::SerializeString(7, string_value_, msg);
+ }
+
+ // Field 8: aggregate_value
+ if (_has_field_[8]) {
+ ::protozero::internal::gen_helpers::SerializeString(8, aggregate_value_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+UninterpretedOption_NamePart::UninterpretedOption_NamePart() = default;
+UninterpretedOption_NamePart::~UninterpretedOption_NamePart() = default;
+UninterpretedOption_NamePart::UninterpretedOption_NamePart(const UninterpretedOption_NamePart&) = default;
+UninterpretedOption_NamePart& UninterpretedOption_NamePart::operator=(const UninterpretedOption_NamePart&) = default;
+UninterpretedOption_NamePart::UninterpretedOption_NamePart(UninterpretedOption_NamePart&&) noexcept = default;
+UninterpretedOption_NamePart& UninterpretedOption_NamePart::operator=(UninterpretedOption_NamePart&&) = default;
+
+bool UninterpretedOption_NamePart::operator==(const UninterpretedOption_NamePart& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(name_part_, other.name_part_)
+ && ::protozero::internal::gen_helpers::EqualsField(is_extension_, other.is_extension_);
+}
+
+bool UninterpretedOption_NamePart::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* name_part */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &name_part_);
+ break;
+ case 2 /* is_extension */:
+ field.get(&is_extension_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string UninterpretedOption_NamePart::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> UninterpretedOption_NamePart::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void UninterpretedOption_NamePart::Serialize(::protozero::Message* msg) const {
+ // Field 1: name_part
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeString(1, name_part_, msg);
+ }
+
+ // Field 2: is_extension
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(2, is_extension_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+DescriptorProto::DescriptorProto() = default;
+DescriptorProto::~DescriptorProto() = default;
+DescriptorProto::DescriptorProto(const DescriptorProto&) = default;
+DescriptorProto& DescriptorProto::operator=(const DescriptorProto&) = default;
+DescriptorProto::DescriptorProto(DescriptorProto&&) noexcept = default;
+DescriptorProto& DescriptorProto::operator=(DescriptorProto&&) = default;
+
+bool DescriptorProto::operator==(const DescriptorProto& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(name_, other.name_)
+ && ::protozero::internal::gen_helpers::EqualsField(field_, other.field_)
+ && ::protozero::internal::gen_helpers::EqualsField(extension_, other.extension_)
+ && ::protozero::internal::gen_helpers::EqualsField(nested_type_, other.nested_type_)
+ && ::protozero::internal::gen_helpers::EqualsField(enum_type_, other.enum_type_)
+ && ::protozero::internal::gen_helpers::EqualsField(oneof_decl_, other.oneof_decl_)
+ && ::protozero::internal::gen_helpers::EqualsField(reserved_range_, other.reserved_range_)
+ && ::protozero::internal::gen_helpers::EqualsField(reserved_name_, other.reserved_name_);
+}
+
+int DescriptorProto::field_size() const { return static_cast<int>(field_.size()); }
+void DescriptorProto::clear_field() { field_.clear(); }
+FieldDescriptorProto* DescriptorProto::add_field() { field_.emplace_back(); return &field_.back(); }
+int DescriptorProto::extension_size() const { return static_cast<int>(extension_.size()); }
+void DescriptorProto::clear_extension() { extension_.clear(); }
+FieldDescriptorProto* DescriptorProto::add_extension() { extension_.emplace_back(); return &extension_.back(); }
+int DescriptorProto::nested_type_size() const { return static_cast<int>(nested_type_.size()); }
+void DescriptorProto::clear_nested_type() { nested_type_.clear(); }
+DescriptorProto* DescriptorProto::add_nested_type() { nested_type_.emplace_back(); return &nested_type_.back(); }
+int DescriptorProto::enum_type_size() const { return static_cast<int>(enum_type_.size()); }
+void DescriptorProto::clear_enum_type() { enum_type_.clear(); }
+EnumDescriptorProto* DescriptorProto::add_enum_type() { enum_type_.emplace_back(); return &enum_type_.back(); }
+int DescriptorProto::oneof_decl_size() const { return static_cast<int>(oneof_decl_.size()); }
+void DescriptorProto::clear_oneof_decl() { oneof_decl_.clear(); }
+OneofDescriptorProto* DescriptorProto::add_oneof_decl() { oneof_decl_.emplace_back(); return &oneof_decl_.back(); }
+int DescriptorProto::reserved_range_size() const { return static_cast<int>(reserved_range_.size()); }
+void DescriptorProto::clear_reserved_range() { reserved_range_.clear(); }
+DescriptorProto_ReservedRange* DescriptorProto::add_reserved_range() { reserved_range_.emplace_back(); return &reserved_range_.back(); }
+bool DescriptorProto::ParseFromArray(const void* raw, size_t size) {
+ field_.clear();
+ extension_.clear();
+ nested_type_.clear();
+ enum_type_.clear();
+ oneof_decl_.clear();
+ reserved_range_.clear();
+ reserved_name_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* name */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &name_);
+ break;
+ case 2 /* field */:
+ field_.emplace_back();
+ field_.back().ParseFromArray(field.data(), field.size());
+ break;
+ case 6 /* extension */:
+ extension_.emplace_back();
+ extension_.back().ParseFromArray(field.data(), field.size());
+ break;
+ case 3 /* nested_type */:
+ nested_type_.emplace_back();
+ nested_type_.back().ParseFromArray(field.data(), field.size());
+ break;
+ case 4 /* enum_type */:
+ enum_type_.emplace_back();
+ enum_type_.back().ParseFromArray(field.data(), field.size());
+ break;
+ case 8 /* oneof_decl */:
+ oneof_decl_.emplace_back();
+ oneof_decl_.back().ParseFromArray(field.data(), field.size());
+ break;
+ case 9 /* reserved_range */:
+ reserved_range_.emplace_back();
+ reserved_range_.back().ParseFromArray(field.data(), field.size());
+ break;
+ case 10 /* reserved_name */:
+ reserved_name_.emplace_back();
+ ::protozero::internal::gen_helpers::DeserializeString(field, &reserved_name_.back());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string DescriptorProto::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> DescriptorProto::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void DescriptorProto::Serialize(::protozero::Message* msg) const {
+ // Field 1: name
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeString(1, name_, msg);
+ }
+
+ // Field 2: field
+ for (auto& it : field_) {
+ it.Serialize(msg->BeginNestedMessage<::protozero::Message>(2));
+ }
+
+ // Field 6: extension
+ for (auto& it : extension_) {
+ it.Serialize(msg->BeginNestedMessage<::protozero::Message>(6));
+ }
+
+ // Field 3: nested_type
+ for (auto& it : nested_type_) {
+ it.Serialize(msg->BeginNestedMessage<::protozero::Message>(3));
+ }
+
+ // Field 4: enum_type
+ for (auto& it : enum_type_) {
+ it.Serialize(msg->BeginNestedMessage<::protozero::Message>(4));
+ }
+
+ // Field 8: oneof_decl
+ for (auto& it : oneof_decl_) {
+ it.Serialize(msg->BeginNestedMessage<::protozero::Message>(8));
+ }
+
+ // Field 9: reserved_range
+ for (auto& it : reserved_range_) {
+ it.Serialize(msg->BeginNestedMessage<::protozero::Message>(9));
+ }
+
+ // Field 10: reserved_name
+ for (auto& it : reserved_name_) {
+ ::protozero::internal::gen_helpers::SerializeString(10, it, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+DescriptorProto_ReservedRange::DescriptorProto_ReservedRange() = default;
+DescriptorProto_ReservedRange::~DescriptorProto_ReservedRange() = default;
+DescriptorProto_ReservedRange::DescriptorProto_ReservedRange(const DescriptorProto_ReservedRange&) = default;
+DescriptorProto_ReservedRange& DescriptorProto_ReservedRange::operator=(const DescriptorProto_ReservedRange&) = default;
+DescriptorProto_ReservedRange::DescriptorProto_ReservedRange(DescriptorProto_ReservedRange&&) noexcept = default;
+DescriptorProto_ReservedRange& DescriptorProto_ReservedRange::operator=(DescriptorProto_ReservedRange&&) = default;
+
+bool DescriptorProto_ReservedRange::operator==(const DescriptorProto_ReservedRange& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(start_, other.start_)
+ && ::protozero::internal::gen_helpers::EqualsField(end_, other.end_);
+}
+
+bool DescriptorProto_ReservedRange::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* start */:
+ field.get(&start_);
+ break;
+ case 2 /* end */:
+ field.get(&end_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string DescriptorProto_ReservedRange::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> DescriptorProto_ReservedRange::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void DescriptorProto_ReservedRange::Serialize(::protozero::Message* msg) const {
+ // Field 1: start
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, start_, msg);
+ }
+
+ // Field 2: end
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, end_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+FileDescriptorProto::FileDescriptorProto() = default;
+FileDescriptorProto::~FileDescriptorProto() = default;
+FileDescriptorProto::FileDescriptorProto(const FileDescriptorProto&) = default;
+FileDescriptorProto& FileDescriptorProto::operator=(const FileDescriptorProto&) = default;
+FileDescriptorProto::FileDescriptorProto(FileDescriptorProto&&) noexcept = default;
+FileDescriptorProto& FileDescriptorProto::operator=(FileDescriptorProto&&) = default;
+
+bool FileDescriptorProto::operator==(const FileDescriptorProto& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(name_, other.name_)
+ && ::protozero::internal::gen_helpers::EqualsField(package_, other.package_)
+ && ::protozero::internal::gen_helpers::EqualsField(dependency_, other.dependency_)
+ && ::protozero::internal::gen_helpers::EqualsField(public_dependency_, other.public_dependency_)
+ && ::protozero::internal::gen_helpers::EqualsField(weak_dependency_, other.weak_dependency_)
+ && ::protozero::internal::gen_helpers::EqualsField(message_type_, other.message_type_)
+ && ::protozero::internal::gen_helpers::EqualsField(enum_type_, other.enum_type_)
+ && ::protozero::internal::gen_helpers::EqualsField(extension_, other.extension_);
+}
+
+int FileDescriptorProto::message_type_size() const { return static_cast<int>(message_type_.size()); }
+void FileDescriptorProto::clear_message_type() { message_type_.clear(); }
+DescriptorProto* FileDescriptorProto::add_message_type() { message_type_.emplace_back(); return &message_type_.back(); }
+int FileDescriptorProto::enum_type_size() const { return static_cast<int>(enum_type_.size()); }
+void FileDescriptorProto::clear_enum_type() { enum_type_.clear(); }
+EnumDescriptorProto* FileDescriptorProto::add_enum_type() { enum_type_.emplace_back(); return &enum_type_.back(); }
+int FileDescriptorProto::extension_size() const { return static_cast<int>(extension_.size()); }
+void FileDescriptorProto::clear_extension() { extension_.clear(); }
+FieldDescriptorProto* FileDescriptorProto::add_extension() { extension_.emplace_back(); return &extension_.back(); }
+bool FileDescriptorProto::ParseFromArray(const void* raw, size_t size) {
+ dependency_.clear();
+ public_dependency_.clear();
+ weak_dependency_.clear();
+ message_type_.clear();
+ enum_type_.clear();
+ extension_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* name */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &name_);
+ break;
+ case 2 /* package */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &package_);
+ break;
+ case 3 /* dependency */:
+ dependency_.emplace_back();
+ ::protozero::internal::gen_helpers::DeserializeString(field, &dependency_.back());
+ break;
+ case 10 /* public_dependency */:
+ public_dependency_.emplace_back();
+ field.get(&public_dependency_.back());
+ break;
+ case 11 /* weak_dependency */:
+ weak_dependency_.emplace_back();
+ field.get(&weak_dependency_.back());
+ break;
+ case 4 /* message_type */:
+ message_type_.emplace_back();
+ message_type_.back().ParseFromArray(field.data(), field.size());
+ break;
+ case 5 /* enum_type */:
+ enum_type_.emplace_back();
+ enum_type_.back().ParseFromArray(field.data(), field.size());
+ break;
+ case 7 /* extension */:
+ extension_.emplace_back();
+ extension_.back().ParseFromArray(field.data(), field.size());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string FileDescriptorProto::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> FileDescriptorProto::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void FileDescriptorProto::Serialize(::protozero::Message* msg) const {
+ // Field 1: name
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeString(1, name_, msg);
+ }
+
+ // Field 2: package
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeString(2, package_, msg);
+ }
+
+ // Field 3: dependency
+ for (auto& it : dependency_) {
+ ::protozero::internal::gen_helpers::SerializeString(3, it, msg);
+ }
+
+ // Field 10: public_dependency
+ for (auto& it : public_dependency_) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(10, it, msg);
+ }
+
+ // Field 11: weak_dependency
+ for (auto& it : weak_dependency_) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(11, it, msg);
+ }
+
+ // Field 4: message_type
+ for (auto& it : message_type_) {
+ it.Serialize(msg->BeginNestedMessage<::protozero::Message>(4));
+ }
+
+ // Field 5: enum_type
+ for (auto& it : enum_type_) {
+ it.Serialize(msg->BeginNestedMessage<::protozero::Message>(5));
+ }
+
+ // Field 7: extension
+ for (auto& it : extension_) {
+ it.Serialize(msg->BeginNestedMessage<::protozero::Message>(7));
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+FileDescriptorSet::FileDescriptorSet() = default;
+FileDescriptorSet::~FileDescriptorSet() = default;
+FileDescriptorSet::FileDescriptorSet(const FileDescriptorSet&) = default;
+FileDescriptorSet& FileDescriptorSet::operator=(const FileDescriptorSet&) = default;
+FileDescriptorSet::FileDescriptorSet(FileDescriptorSet&&) noexcept = default;
+FileDescriptorSet& FileDescriptorSet::operator=(FileDescriptorSet&&) = default;
+
+bool FileDescriptorSet::operator==(const FileDescriptorSet& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(file_, other.file_);
+}
+
+int FileDescriptorSet::file_size() const { return static_cast<int>(file_.size()); }
+void FileDescriptorSet::clear_file() { file_.clear(); }
+FileDescriptorProto* FileDescriptorSet::add_file() { file_.emplace_back(); return &file_.back(); }
+bool FileDescriptorSet::ParseFromArray(const void* raw, size_t size) {
+ file_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* file */:
+ file_.emplace_back();
+ file_.back().ParseFromArray(field.data(), field.size());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string FileDescriptorSet::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> FileDescriptorSet::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void FileDescriptorSet::Serialize(::protozero::Message* msg) const {
+ // Field 1: file
+ for (auto& it : file_) {
+ it.Serialize(msg->BeginNestedMessage<::protozero::Message>(1));
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/common/ftrace_descriptor.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/common/ftrace_descriptor.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+FtraceDescriptor::FtraceDescriptor() = default;
+FtraceDescriptor::~FtraceDescriptor() = default;
+FtraceDescriptor::FtraceDescriptor(const FtraceDescriptor&) = default;
+FtraceDescriptor& FtraceDescriptor::operator=(const FtraceDescriptor&) = default;
+FtraceDescriptor::FtraceDescriptor(FtraceDescriptor&&) noexcept = default;
+FtraceDescriptor& FtraceDescriptor::operator=(FtraceDescriptor&&) = default;
+
+bool FtraceDescriptor::operator==(const FtraceDescriptor& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(atrace_categories_, other.atrace_categories_);
+}
+
+int FtraceDescriptor::atrace_categories_size() const { return static_cast<int>(atrace_categories_.size()); }
+void FtraceDescriptor::clear_atrace_categories() { atrace_categories_.clear(); }
+FtraceDescriptor_AtraceCategory* FtraceDescriptor::add_atrace_categories() { atrace_categories_.emplace_back(); return &atrace_categories_.back(); }
+bool FtraceDescriptor::ParseFromArray(const void* raw, size_t size) {
+ atrace_categories_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* atrace_categories */:
+ atrace_categories_.emplace_back();
+ atrace_categories_.back().ParseFromArray(field.data(), field.size());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string FtraceDescriptor::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> FtraceDescriptor::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void FtraceDescriptor::Serialize(::protozero::Message* msg) const {
+ // Field 1: atrace_categories
+ for (auto& it : atrace_categories_) {
+ it.Serialize(msg->BeginNestedMessage<::protozero::Message>(1));
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+FtraceDescriptor_AtraceCategory::FtraceDescriptor_AtraceCategory() = default;
+FtraceDescriptor_AtraceCategory::~FtraceDescriptor_AtraceCategory() = default;
+FtraceDescriptor_AtraceCategory::FtraceDescriptor_AtraceCategory(const FtraceDescriptor_AtraceCategory&) = default;
+FtraceDescriptor_AtraceCategory& FtraceDescriptor_AtraceCategory::operator=(const FtraceDescriptor_AtraceCategory&) = default;
+FtraceDescriptor_AtraceCategory::FtraceDescriptor_AtraceCategory(FtraceDescriptor_AtraceCategory&&) noexcept = default;
+FtraceDescriptor_AtraceCategory& FtraceDescriptor_AtraceCategory::operator=(FtraceDescriptor_AtraceCategory&&) = default;
+
+bool FtraceDescriptor_AtraceCategory::operator==(const FtraceDescriptor_AtraceCategory& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(name_, other.name_)
+ && ::protozero::internal::gen_helpers::EqualsField(description_, other.description_);
+}
+
+bool FtraceDescriptor_AtraceCategory::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* name */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &name_);
+ break;
+ case 2 /* description */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &description_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string FtraceDescriptor_AtraceCategory::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> FtraceDescriptor_AtraceCategory::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void FtraceDescriptor_AtraceCategory::Serialize(::protozero::Message* msg) const {
+ // Field 1: name
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeString(1, name_, msg);
+ }
+
+ // Field 2: description
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeString(2, description_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/common/gpu_counter_descriptor.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/common/gpu_counter_descriptor.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+GpuCounterDescriptor::GpuCounterDescriptor() = default;
+GpuCounterDescriptor::~GpuCounterDescriptor() = default;
+GpuCounterDescriptor::GpuCounterDescriptor(const GpuCounterDescriptor&) = default;
+GpuCounterDescriptor& GpuCounterDescriptor::operator=(const GpuCounterDescriptor&) = default;
+GpuCounterDescriptor::GpuCounterDescriptor(GpuCounterDescriptor&&) noexcept = default;
+GpuCounterDescriptor& GpuCounterDescriptor::operator=(GpuCounterDescriptor&&) = default;
+
+bool GpuCounterDescriptor::operator==(const GpuCounterDescriptor& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(specs_, other.specs_)
+ && ::protozero::internal::gen_helpers::EqualsField(blocks_, other.blocks_)
+ && ::protozero::internal::gen_helpers::EqualsField(min_sampling_period_ns_, other.min_sampling_period_ns_)
+ && ::protozero::internal::gen_helpers::EqualsField(max_sampling_period_ns_, other.max_sampling_period_ns_)
+ && ::protozero::internal::gen_helpers::EqualsField(supports_instrumented_sampling_, other.supports_instrumented_sampling_);
+}
+
+int GpuCounterDescriptor::specs_size() const { return static_cast<int>(specs_.size()); }
+void GpuCounterDescriptor::clear_specs() { specs_.clear(); }
+GpuCounterDescriptor_GpuCounterSpec* GpuCounterDescriptor::add_specs() { specs_.emplace_back(); return &specs_.back(); }
+int GpuCounterDescriptor::blocks_size() const { return static_cast<int>(blocks_.size()); }
+void GpuCounterDescriptor::clear_blocks() { blocks_.clear(); }
+GpuCounterDescriptor_GpuCounterBlock* GpuCounterDescriptor::add_blocks() { blocks_.emplace_back(); return &blocks_.back(); }
+bool GpuCounterDescriptor::ParseFromArray(const void* raw, size_t size) {
+ specs_.clear();
+ blocks_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* specs */:
+ specs_.emplace_back();
+ specs_.back().ParseFromArray(field.data(), field.size());
+ break;
+ case 2 /* blocks */:
+ blocks_.emplace_back();
+ blocks_.back().ParseFromArray(field.data(), field.size());
+ break;
+ case 3 /* min_sampling_period_ns */:
+ field.get(&min_sampling_period_ns_);
+ break;
+ case 4 /* max_sampling_period_ns */:
+ field.get(&max_sampling_period_ns_);
+ break;
+ case 5 /* supports_instrumented_sampling */:
+ field.get(&supports_instrumented_sampling_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string GpuCounterDescriptor::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> GpuCounterDescriptor::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void GpuCounterDescriptor::Serialize(::protozero::Message* msg) const {
+ // Field 1: specs
+ for (auto& it : specs_) {
+ it.Serialize(msg->BeginNestedMessage<::protozero::Message>(1));
+ }
+
+ // Field 2: blocks
+ for (auto& it : blocks_) {
+ it.Serialize(msg->BeginNestedMessage<::protozero::Message>(2));
+ }
+
+ // Field 3: min_sampling_period_ns
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(3, min_sampling_period_ns_, msg);
+ }
+
+ // Field 4: max_sampling_period_ns
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(4, max_sampling_period_ns_, msg);
+ }
+
+ // Field 5: supports_instrumented_sampling
+ if (_has_field_[5]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(5, supports_instrumented_sampling_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+GpuCounterDescriptor_GpuCounterBlock::GpuCounterDescriptor_GpuCounterBlock() = default;
+GpuCounterDescriptor_GpuCounterBlock::~GpuCounterDescriptor_GpuCounterBlock() = default;
+GpuCounterDescriptor_GpuCounterBlock::GpuCounterDescriptor_GpuCounterBlock(const GpuCounterDescriptor_GpuCounterBlock&) = default;
+GpuCounterDescriptor_GpuCounterBlock& GpuCounterDescriptor_GpuCounterBlock::operator=(const GpuCounterDescriptor_GpuCounterBlock&) = default;
+GpuCounterDescriptor_GpuCounterBlock::GpuCounterDescriptor_GpuCounterBlock(GpuCounterDescriptor_GpuCounterBlock&&) noexcept = default;
+GpuCounterDescriptor_GpuCounterBlock& GpuCounterDescriptor_GpuCounterBlock::operator=(GpuCounterDescriptor_GpuCounterBlock&&) = default;
+
+bool GpuCounterDescriptor_GpuCounterBlock::operator==(const GpuCounterDescriptor_GpuCounterBlock& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(block_id_, other.block_id_)
+ && ::protozero::internal::gen_helpers::EqualsField(block_capacity_, other.block_capacity_)
+ && ::protozero::internal::gen_helpers::EqualsField(name_, other.name_)
+ && ::protozero::internal::gen_helpers::EqualsField(description_, other.description_)
+ && ::protozero::internal::gen_helpers::EqualsField(counter_ids_, other.counter_ids_);
+}
+
+bool GpuCounterDescriptor_GpuCounterBlock::ParseFromArray(const void* raw, size_t size) {
+ counter_ids_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* block_id */:
+ field.get(&block_id_);
+ break;
+ case 2 /* block_capacity */:
+ field.get(&block_capacity_);
+ break;
+ case 3 /* name */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &name_);
+ break;
+ case 4 /* description */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &description_);
+ break;
+ case 5 /* counter_ids */:
+ counter_ids_.emplace_back();
+ field.get(&counter_ids_.back());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string GpuCounterDescriptor_GpuCounterBlock::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> GpuCounterDescriptor_GpuCounterBlock::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void GpuCounterDescriptor_GpuCounterBlock::Serialize(::protozero::Message* msg) const {
+ // Field 1: block_id
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, block_id_, msg);
+ }
+
+ // Field 2: block_capacity
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, block_capacity_, msg);
+ }
+
+ // Field 3: name
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeString(3, name_, msg);
+ }
+
+ // Field 4: description
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeString(4, description_, msg);
+ }
+
+ // Field 5: counter_ids
+ for (auto& it : counter_ids_) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(5, it, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+GpuCounterDescriptor_GpuCounterSpec::GpuCounterDescriptor_GpuCounterSpec() = default;
+GpuCounterDescriptor_GpuCounterSpec::~GpuCounterDescriptor_GpuCounterSpec() = default;
+GpuCounterDescriptor_GpuCounterSpec::GpuCounterDescriptor_GpuCounterSpec(const GpuCounterDescriptor_GpuCounterSpec&) = default;
+GpuCounterDescriptor_GpuCounterSpec& GpuCounterDescriptor_GpuCounterSpec::operator=(const GpuCounterDescriptor_GpuCounterSpec&) = default;
+GpuCounterDescriptor_GpuCounterSpec::GpuCounterDescriptor_GpuCounterSpec(GpuCounterDescriptor_GpuCounterSpec&&) noexcept = default;
+GpuCounterDescriptor_GpuCounterSpec& GpuCounterDescriptor_GpuCounterSpec::operator=(GpuCounterDescriptor_GpuCounterSpec&&) = default;
+
+bool GpuCounterDescriptor_GpuCounterSpec::operator==(const GpuCounterDescriptor_GpuCounterSpec& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(counter_id_, other.counter_id_)
+ && ::protozero::internal::gen_helpers::EqualsField(name_, other.name_)
+ && ::protozero::internal::gen_helpers::EqualsField(description_, other.description_)
+ && ::protozero::internal::gen_helpers::EqualsField(int_peak_value_, other.int_peak_value_)
+ && ::protozero::internal::gen_helpers::EqualsField(double_peak_value_, other.double_peak_value_)
+ && ::protozero::internal::gen_helpers::EqualsField(numerator_units_, other.numerator_units_)
+ && ::protozero::internal::gen_helpers::EqualsField(denominator_units_, other.denominator_units_)
+ && ::protozero::internal::gen_helpers::EqualsField(select_by_default_, other.select_by_default_)
+ && ::protozero::internal::gen_helpers::EqualsField(groups_, other.groups_);
+}
+
+bool GpuCounterDescriptor_GpuCounterSpec::ParseFromArray(const void* raw, size_t size) {
+ numerator_units_.clear();
+ denominator_units_.clear();
+ groups_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* counter_id */:
+ field.get(&counter_id_);
+ break;
+ case 2 /* name */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &name_);
+ break;
+ case 3 /* description */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &description_);
+ break;
+ case 5 /* int_peak_value */:
+ field.get(&int_peak_value_);
+ break;
+ case 6 /* double_peak_value */:
+ field.get(&double_peak_value_);
+ break;
+ case 7 /* numerator_units */:
+ numerator_units_.emplace_back();
+ field.get(&numerator_units_.back());
+ break;
+ case 8 /* denominator_units */:
+ denominator_units_.emplace_back();
+ field.get(&denominator_units_.back());
+ break;
+ case 9 /* select_by_default */:
+ field.get(&select_by_default_);
+ break;
+ case 10 /* groups */:
+ groups_.emplace_back();
+ field.get(&groups_.back());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string GpuCounterDescriptor_GpuCounterSpec::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> GpuCounterDescriptor_GpuCounterSpec::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void GpuCounterDescriptor_GpuCounterSpec::Serialize(::protozero::Message* msg) const {
+ // Field 1: counter_id
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, counter_id_, msg);
+ }
+
+ // Field 2: name
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeString(2, name_, msg);
+ }
+
+ // Field 3: description
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeString(3, description_, msg);
+ }
+
+ // Field 5: int_peak_value
+ if (_has_field_[5]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(5, int_peak_value_, msg);
+ }
+
+ // Field 6: double_peak_value
+ if (_has_field_[6]) {
+ ::protozero::internal::gen_helpers::SerializeFixed(6, double_peak_value_, msg);
+ }
+
+ // Field 7: numerator_units
+ for (auto& it : numerator_units_) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(7, it, msg);
+ }
+
+ // Field 8: denominator_units
+ for (auto& it : denominator_units_) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(8, it, msg);
+ }
+
+ // Field 9: select_by_default
+ if (_has_field_[9]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(9, select_by_default_, msg);
+ }
+
+ // Field 10: groups
+ for (auto& it : groups_) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(10, it, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/common/interceptor_descriptor.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/common/interceptor_descriptor.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+InterceptorDescriptor::InterceptorDescriptor() = default;
+InterceptorDescriptor::~InterceptorDescriptor() = default;
+InterceptorDescriptor::InterceptorDescriptor(const InterceptorDescriptor&) = default;
+InterceptorDescriptor& InterceptorDescriptor::operator=(const InterceptorDescriptor&) = default;
+InterceptorDescriptor::InterceptorDescriptor(InterceptorDescriptor&&) noexcept = default;
+InterceptorDescriptor& InterceptorDescriptor::operator=(InterceptorDescriptor&&) = default;
+
+bool InterceptorDescriptor::operator==(const InterceptorDescriptor& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(name_, other.name_);
+}
+
+bool InterceptorDescriptor::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* name */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &name_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string InterceptorDescriptor::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> InterceptorDescriptor::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void InterceptorDescriptor::Serialize(::protozero::Message* msg) const {
+ // Field 1: name
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeString(1, name_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/common/observable_events.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/common/observable_events.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+ObservableEvents::ObservableEvents() = default;
+ObservableEvents::~ObservableEvents() = default;
+ObservableEvents::ObservableEvents(const ObservableEvents&) = default;
+ObservableEvents& ObservableEvents::operator=(const ObservableEvents&) = default;
+ObservableEvents::ObservableEvents(ObservableEvents&&) noexcept = default;
+ObservableEvents& ObservableEvents::operator=(ObservableEvents&&) = default;
+
+bool ObservableEvents::operator==(const ObservableEvents& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(instance_state_changes_, other.instance_state_changes_)
+ && ::protozero::internal::gen_helpers::EqualsField(all_data_sources_started_, other.all_data_sources_started_)
+ && ::protozero::internal::gen_helpers::EqualsField(clone_trigger_hit_, other.clone_trigger_hit_);
+}
+
+int ObservableEvents::instance_state_changes_size() const { return static_cast<int>(instance_state_changes_.size()); }
+void ObservableEvents::clear_instance_state_changes() { instance_state_changes_.clear(); }
+ObservableEvents_DataSourceInstanceStateChange* ObservableEvents::add_instance_state_changes() { instance_state_changes_.emplace_back(); return &instance_state_changes_.back(); }
+bool ObservableEvents::ParseFromArray(const void* raw, size_t size) {
+ instance_state_changes_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* instance_state_changes */:
+ instance_state_changes_.emplace_back();
+ instance_state_changes_.back().ParseFromArray(field.data(), field.size());
+ break;
+ case 2 /* all_data_sources_started */:
+ field.get(&all_data_sources_started_);
+ break;
+ case 3 /* clone_trigger_hit */:
+ (*clone_trigger_hit_).ParseFromArray(field.data(), field.size());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string ObservableEvents::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> ObservableEvents::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void ObservableEvents::Serialize(::protozero::Message* msg) const {
+ // Field 1: instance_state_changes
+ for (auto& it : instance_state_changes_) {
+ it.Serialize(msg->BeginNestedMessage<::protozero::Message>(1));
+ }
+
+ // Field 2: all_data_sources_started
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(2, all_data_sources_started_, msg);
+ }
+
+ // Field 3: clone_trigger_hit
+ if (_has_field_[3]) {
+ (*clone_trigger_hit_).Serialize(msg->BeginNestedMessage<::protozero::Message>(3));
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+ObservableEvents_CloneTriggerHit::ObservableEvents_CloneTriggerHit() = default;
+ObservableEvents_CloneTriggerHit::~ObservableEvents_CloneTriggerHit() = default;
+ObservableEvents_CloneTriggerHit::ObservableEvents_CloneTriggerHit(const ObservableEvents_CloneTriggerHit&) = default;
+ObservableEvents_CloneTriggerHit& ObservableEvents_CloneTriggerHit::operator=(const ObservableEvents_CloneTriggerHit&) = default;
+ObservableEvents_CloneTriggerHit::ObservableEvents_CloneTriggerHit(ObservableEvents_CloneTriggerHit&&) noexcept = default;
+ObservableEvents_CloneTriggerHit& ObservableEvents_CloneTriggerHit::operator=(ObservableEvents_CloneTriggerHit&&) = default;
+
+bool ObservableEvents_CloneTriggerHit::operator==(const ObservableEvents_CloneTriggerHit& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(tracing_session_id_, other.tracing_session_id_);
+}
+
+bool ObservableEvents_CloneTriggerHit::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* tracing_session_id */:
+ field.get(&tracing_session_id_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string ObservableEvents_CloneTriggerHit::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> ObservableEvents_CloneTriggerHit::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void ObservableEvents_CloneTriggerHit::Serialize(::protozero::Message* msg) const {
+ // Field 1: tracing_session_id
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, tracing_session_id_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+ObservableEvents_DataSourceInstanceStateChange::ObservableEvents_DataSourceInstanceStateChange() = default;
+ObservableEvents_DataSourceInstanceStateChange::~ObservableEvents_DataSourceInstanceStateChange() = default;
+ObservableEvents_DataSourceInstanceStateChange::ObservableEvents_DataSourceInstanceStateChange(const ObservableEvents_DataSourceInstanceStateChange&) = default;
+ObservableEvents_DataSourceInstanceStateChange& ObservableEvents_DataSourceInstanceStateChange::operator=(const ObservableEvents_DataSourceInstanceStateChange&) = default;
+ObservableEvents_DataSourceInstanceStateChange::ObservableEvents_DataSourceInstanceStateChange(ObservableEvents_DataSourceInstanceStateChange&&) noexcept = default;
+ObservableEvents_DataSourceInstanceStateChange& ObservableEvents_DataSourceInstanceStateChange::operator=(ObservableEvents_DataSourceInstanceStateChange&&) = default;
+
+bool ObservableEvents_DataSourceInstanceStateChange::operator==(const ObservableEvents_DataSourceInstanceStateChange& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(producer_name_, other.producer_name_)
+ && ::protozero::internal::gen_helpers::EqualsField(data_source_name_, other.data_source_name_)
+ && ::protozero::internal::gen_helpers::EqualsField(state_, other.state_);
+}
+
+bool ObservableEvents_DataSourceInstanceStateChange::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* producer_name */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &producer_name_);
+ break;
+ case 2 /* data_source_name */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &data_source_name_);
+ break;
+ case 3 /* state */:
+ field.get(&state_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string ObservableEvents_DataSourceInstanceStateChange::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> ObservableEvents_DataSourceInstanceStateChange::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void ObservableEvents_DataSourceInstanceStateChange::Serialize(::protozero::Message* msg) const {
+ // Field 1: producer_name
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeString(1, producer_name_, msg);
+ }
+
+ // Field 2: data_source_name
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeString(2, data_source_name_, msg);
+ }
+
+ // Field 3: state
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(3, state_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/common/perf_events.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/common/perf_events.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+PerfEvents::PerfEvents() = default;
+PerfEvents::~PerfEvents() = default;
+PerfEvents::PerfEvents(const PerfEvents&) = default;
+PerfEvents& PerfEvents::operator=(const PerfEvents&) = default;
+PerfEvents::PerfEvents(PerfEvents&&) noexcept = default;
+PerfEvents& PerfEvents::operator=(PerfEvents&&) = default;
+
+bool PerfEvents::operator==(const PerfEvents& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_);
+}
+
+bool PerfEvents::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string PerfEvents::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> PerfEvents::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void PerfEvents::Serialize(::protozero::Message* msg) const {
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+PerfEvents_RawEvent::PerfEvents_RawEvent() = default;
+PerfEvents_RawEvent::~PerfEvents_RawEvent() = default;
+PerfEvents_RawEvent::PerfEvents_RawEvent(const PerfEvents_RawEvent&) = default;
+PerfEvents_RawEvent& PerfEvents_RawEvent::operator=(const PerfEvents_RawEvent&) = default;
+PerfEvents_RawEvent::PerfEvents_RawEvent(PerfEvents_RawEvent&&) noexcept = default;
+PerfEvents_RawEvent& PerfEvents_RawEvent::operator=(PerfEvents_RawEvent&&) = default;
+
+bool PerfEvents_RawEvent::operator==(const PerfEvents_RawEvent& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(type_, other.type_)
+ && ::protozero::internal::gen_helpers::EqualsField(config_, other.config_)
+ && ::protozero::internal::gen_helpers::EqualsField(config1_, other.config1_)
+ && ::protozero::internal::gen_helpers::EqualsField(config2_, other.config2_);
+}
+
+bool PerfEvents_RawEvent::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* type */:
+ field.get(&type_);
+ break;
+ case 2 /* config */:
+ field.get(&config_);
+ break;
+ case 3 /* config1 */:
+ field.get(&config1_);
+ break;
+ case 4 /* config2 */:
+ field.get(&config2_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string PerfEvents_RawEvent::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> PerfEvents_RawEvent::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void PerfEvents_RawEvent::Serialize(::protozero::Message* msg) const {
+ // Field 1: type
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, type_, msg);
+ }
+
+ // Field 2: config
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, config_, msg);
+ }
+
+ // Field 3: config1
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(3, config1_, msg);
+ }
+
+ // Field 4: config2
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(4, config2_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+PerfEvents_Tracepoint::PerfEvents_Tracepoint() = default;
+PerfEvents_Tracepoint::~PerfEvents_Tracepoint() = default;
+PerfEvents_Tracepoint::PerfEvents_Tracepoint(const PerfEvents_Tracepoint&) = default;
+PerfEvents_Tracepoint& PerfEvents_Tracepoint::operator=(const PerfEvents_Tracepoint&) = default;
+PerfEvents_Tracepoint::PerfEvents_Tracepoint(PerfEvents_Tracepoint&&) noexcept = default;
+PerfEvents_Tracepoint& PerfEvents_Tracepoint::operator=(PerfEvents_Tracepoint&&) = default;
+
+bool PerfEvents_Tracepoint::operator==(const PerfEvents_Tracepoint& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(name_, other.name_)
+ && ::protozero::internal::gen_helpers::EqualsField(filter_, other.filter_);
+}
+
+bool PerfEvents_Tracepoint::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* name */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &name_);
+ break;
+ case 2 /* filter */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &filter_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string PerfEvents_Tracepoint::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> PerfEvents_Tracepoint::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void PerfEvents_Tracepoint::Serialize(::protozero::Message* msg) const {
+ // Field 1: name
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeString(1, name_, msg);
+ }
+
+ // Field 2: filter
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeString(2, filter_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+PerfEvents_Timebase::PerfEvents_Timebase() = default;
+PerfEvents_Timebase::~PerfEvents_Timebase() = default;
+PerfEvents_Timebase::PerfEvents_Timebase(const PerfEvents_Timebase&) = default;
+PerfEvents_Timebase& PerfEvents_Timebase::operator=(const PerfEvents_Timebase&) = default;
+PerfEvents_Timebase::PerfEvents_Timebase(PerfEvents_Timebase&&) noexcept = default;
+PerfEvents_Timebase& PerfEvents_Timebase::operator=(PerfEvents_Timebase&&) = default;
+
+bool PerfEvents_Timebase::operator==(const PerfEvents_Timebase& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(frequency_, other.frequency_)
+ && ::protozero::internal::gen_helpers::EqualsField(period_, other.period_)
+ && ::protozero::internal::gen_helpers::EqualsField(counter_, other.counter_)
+ && ::protozero::internal::gen_helpers::EqualsField(tracepoint_, other.tracepoint_)
+ && ::protozero::internal::gen_helpers::EqualsField(raw_event_, other.raw_event_)
+ && ::protozero::internal::gen_helpers::EqualsField(timestamp_clock_, other.timestamp_clock_)
+ && ::protozero::internal::gen_helpers::EqualsField(name_, other.name_);
+}
+
+bool PerfEvents_Timebase::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 2 /* frequency */:
+ field.get(&frequency_);
+ break;
+ case 1 /* period */:
+ field.get(&period_);
+ break;
+ case 4 /* counter */:
+ field.get(&counter_);
+ break;
+ case 3 /* tracepoint */:
+ (*tracepoint_).ParseFromArray(field.data(), field.size());
+ break;
+ case 5 /* raw_event */:
+ (*raw_event_).ParseFromArray(field.data(), field.size());
+ break;
+ case 11 /* timestamp_clock */:
+ field.get(&timestamp_clock_);
+ break;
+ case 10 /* name */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &name_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string PerfEvents_Timebase::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> PerfEvents_Timebase::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void PerfEvents_Timebase::Serialize(::protozero::Message* msg) const {
+ // Field 2: frequency
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, frequency_, msg);
+ }
+
+ // Field 1: period
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, period_, msg);
+ }
+
+ // Field 4: counter
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(4, counter_, msg);
+ }
+
+ // Field 3: tracepoint
+ if (_has_field_[3]) {
+ (*tracepoint_).Serialize(msg->BeginNestedMessage<::protozero::Message>(3));
+ }
+
+ // Field 5: raw_event
+ if (_has_field_[5]) {
+ (*raw_event_).Serialize(msg->BeginNestedMessage<::protozero::Message>(5));
+ }
+
+ // Field 11: timestamp_clock
+ if (_has_field_[11]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(11, timestamp_clock_, msg);
+ }
+
+ // Field 10: name
+ if (_has_field_[10]) {
+ ::protozero::internal::gen_helpers::SerializeString(10, name_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/common/protolog_common.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/common/protolog_common.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/common/sys_stats_counters.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/common/sys_stats_counters.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/common/trace_stats.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/common/trace_stats.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+TraceStats::TraceStats() = default;
+TraceStats::~TraceStats() = default;
+TraceStats::TraceStats(const TraceStats&) = default;
+TraceStats& TraceStats::operator=(const TraceStats&) = default;
+TraceStats::TraceStats(TraceStats&&) noexcept = default;
+TraceStats& TraceStats::operator=(TraceStats&&) = default;
+
+bool TraceStats::operator==(const TraceStats& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(buffer_stats_, other.buffer_stats_)
+ && ::protozero::internal::gen_helpers::EqualsField(chunk_payload_histogram_def_, other.chunk_payload_histogram_def_)
+ && ::protozero::internal::gen_helpers::EqualsField(writer_stats_, other.writer_stats_)
+ && ::protozero::internal::gen_helpers::EqualsField(producers_connected_, other.producers_connected_)
+ && ::protozero::internal::gen_helpers::EqualsField(producers_seen_, other.producers_seen_)
+ && ::protozero::internal::gen_helpers::EqualsField(data_sources_registered_, other.data_sources_registered_)
+ && ::protozero::internal::gen_helpers::EqualsField(data_sources_seen_, other.data_sources_seen_)
+ && ::protozero::internal::gen_helpers::EqualsField(tracing_sessions_, other.tracing_sessions_)
+ && ::protozero::internal::gen_helpers::EqualsField(total_buffers_, other.total_buffers_)
+ && ::protozero::internal::gen_helpers::EqualsField(chunks_discarded_, other.chunks_discarded_)
+ && ::protozero::internal::gen_helpers::EqualsField(patches_discarded_, other.patches_discarded_)
+ && ::protozero::internal::gen_helpers::EqualsField(invalid_packets_, other.invalid_packets_)
+ && ::protozero::internal::gen_helpers::EqualsField(filter_stats_, other.filter_stats_)
+ && ::protozero::internal::gen_helpers::EqualsField(flushes_requested_, other.flushes_requested_)
+ && ::protozero::internal::gen_helpers::EqualsField(flushes_succeeded_, other.flushes_succeeded_)
+ && ::protozero::internal::gen_helpers::EqualsField(flushes_failed_, other.flushes_failed_)
+ && ::protozero::internal::gen_helpers::EqualsField(final_flush_outcome_, other.final_flush_outcome_);
+}
+
+int TraceStats::buffer_stats_size() const { return static_cast<int>(buffer_stats_.size()); }
+void TraceStats::clear_buffer_stats() { buffer_stats_.clear(); }
+TraceStats_BufferStats* TraceStats::add_buffer_stats() { buffer_stats_.emplace_back(); return &buffer_stats_.back(); }
+int TraceStats::writer_stats_size() const { return static_cast<int>(writer_stats_.size()); }
+void TraceStats::clear_writer_stats() { writer_stats_.clear(); }
+TraceStats_WriterStats* TraceStats::add_writer_stats() { writer_stats_.emplace_back(); return &writer_stats_.back(); }
+bool TraceStats::ParseFromArray(const void* raw, size_t size) {
+ buffer_stats_.clear();
+ chunk_payload_histogram_def_.clear();
+ writer_stats_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* buffer_stats */:
+ buffer_stats_.emplace_back();
+ buffer_stats_.back().ParseFromArray(field.data(), field.size());
+ break;
+ case 17 /* chunk_payload_histogram_def */:
+ chunk_payload_histogram_def_.emplace_back();
+ field.get(&chunk_payload_histogram_def_.back());
+ break;
+ case 18 /* writer_stats */:
+ writer_stats_.emplace_back();
+ writer_stats_.back().ParseFromArray(field.data(), field.size());
+ break;
+ case 2 /* producers_connected */:
+ field.get(&producers_connected_);
+ break;
+ case 3 /* producers_seen */:
+ field.get(&producers_seen_);
+ break;
+ case 4 /* data_sources_registered */:
+ field.get(&data_sources_registered_);
+ break;
+ case 5 /* data_sources_seen */:
+ field.get(&data_sources_seen_);
+ break;
+ case 6 /* tracing_sessions */:
+ field.get(&tracing_sessions_);
+ break;
+ case 7 /* total_buffers */:
+ field.get(&total_buffers_);
+ break;
+ case 8 /* chunks_discarded */:
+ field.get(&chunks_discarded_);
+ break;
+ case 9 /* patches_discarded */:
+ field.get(&patches_discarded_);
+ break;
+ case 10 /* invalid_packets */:
+ field.get(&invalid_packets_);
+ break;
+ case 11 /* filter_stats */:
+ (*filter_stats_).ParseFromArray(field.data(), field.size());
+ break;
+ case 12 /* flushes_requested */:
+ field.get(&flushes_requested_);
+ break;
+ case 13 /* flushes_succeeded */:
+ field.get(&flushes_succeeded_);
+ break;
+ case 14 /* flushes_failed */:
+ field.get(&flushes_failed_);
+ break;
+ case 15 /* final_flush_outcome */:
+ field.get(&final_flush_outcome_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string TraceStats::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> TraceStats::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void TraceStats::Serialize(::protozero::Message* msg) const {
+ // Field 1: buffer_stats
+ for (auto& it : buffer_stats_) {
+ it.Serialize(msg->BeginNestedMessage<::protozero::Message>(1));
+ }
+
+ // Field 17: chunk_payload_histogram_def
+ for (auto& it : chunk_payload_histogram_def_) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(17, it, msg);
+ }
+
+ // Field 18: writer_stats
+ for (auto& it : writer_stats_) {
+ it.Serialize(msg->BeginNestedMessage<::protozero::Message>(18));
+ }
+
+ // Field 2: producers_connected
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, producers_connected_, msg);
+ }
+
+ // Field 3: producers_seen
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(3, producers_seen_, msg);
+ }
+
+ // Field 4: data_sources_registered
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(4, data_sources_registered_, msg);
+ }
+
+ // Field 5: data_sources_seen
+ if (_has_field_[5]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(5, data_sources_seen_, msg);
+ }
+
+ // Field 6: tracing_sessions
+ if (_has_field_[6]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(6, tracing_sessions_, msg);
+ }
+
+ // Field 7: total_buffers
+ if (_has_field_[7]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(7, total_buffers_, msg);
+ }
+
+ // Field 8: chunks_discarded
+ if (_has_field_[8]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(8, chunks_discarded_, msg);
+ }
+
+ // Field 9: patches_discarded
+ if (_has_field_[9]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(9, patches_discarded_, msg);
+ }
+
+ // Field 10: invalid_packets
+ if (_has_field_[10]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(10, invalid_packets_, msg);
+ }
+
+ // Field 11: filter_stats
+ if (_has_field_[11]) {
+ (*filter_stats_).Serialize(msg->BeginNestedMessage<::protozero::Message>(11));
+ }
+
+ // Field 12: flushes_requested
+ if (_has_field_[12]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(12, flushes_requested_, msg);
+ }
+
+ // Field 13: flushes_succeeded
+ if (_has_field_[13]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(13, flushes_succeeded_, msg);
+ }
+
+ // Field 14: flushes_failed
+ if (_has_field_[14]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(14, flushes_failed_, msg);
+ }
+
+ // Field 15: final_flush_outcome
+ if (_has_field_[15]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(15, final_flush_outcome_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+TraceStats_FilterStats::TraceStats_FilterStats() = default;
+TraceStats_FilterStats::~TraceStats_FilterStats() = default;
+TraceStats_FilterStats::TraceStats_FilterStats(const TraceStats_FilterStats&) = default;
+TraceStats_FilterStats& TraceStats_FilterStats::operator=(const TraceStats_FilterStats&) = default;
+TraceStats_FilterStats::TraceStats_FilterStats(TraceStats_FilterStats&&) noexcept = default;
+TraceStats_FilterStats& TraceStats_FilterStats::operator=(TraceStats_FilterStats&&) = default;
+
+bool TraceStats_FilterStats::operator==(const TraceStats_FilterStats& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(input_packets_, other.input_packets_)
+ && ::protozero::internal::gen_helpers::EqualsField(input_bytes_, other.input_bytes_)
+ && ::protozero::internal::gen_helpers::EqualsField(output_bytes_, other.output_bytes_)
+ && ::protozero::internal::gen_helpers::EqualsField(errors_, other.errors_)
+ && ::protozero::internal::gen_helpers::EqualsField(time_taken_ns_, other.time_taken_ns_)
+ && ::protozero::internal::gen_helpers::EqualsField(bytes_discarded_per_buffer_, other.bytes_discarded_per_buffer_);
+}
+
+bool TraceStats_FilterStats::ParseFromArray(const void* raw, size_t size) {
+ bytes_discarded_per_buffer_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* input_packets */:
+ field.get(&input_packets_);
+ break;
+ case 2 /* input_bytes */:
+ field.get(&input_bytes_);
+ break;
+ case 3 /* output_bytes */:
+ field.get(&output_bytes_);
+ break;
+ case 4 /* errors */:
+ field.get(&errors_);
+ break;
+ case 5 /* time_taken_ns */:
+ field.get(&time_taken_ns_);
+ break;
+ case 20 /* bytes_discarded_per_buffer */:
+ bytes_discarded_per_buffer_.emplace_back();
+ field.get(&bytes_discarded_per_buffer_.back());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string TraceStats_FilterStats::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> TraceStats_FilterStats::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void TraceStats_FilterStats::Serialize(::protozero::Message* msg) const {
+ // Field 1: input_packets
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, input_packets_, msg);
+ }
+
+ // Field 2: input_bytes
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, input_bytes_, msg);
+ }
+
+ // Field 3: output_bytes
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(3, output_bytes_, msg);
+ }
+
+ // Field 4: errors
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(4, errors_, msg);
+ }
+
+ // Field 5: time_taken_ns
+ if (_has_field_[5]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(5, time_taken_ns_, msg);
+ }
+
+ // Field 20: bytes_discarded_per_buffer
+ for (auto& it : bytes_discarded_per_buffer_) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(20, it, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+TraceStats_WriterStats::TraceStats_WriterStats() = default;
+TraceStats_WriterStats::~TraceStats_WriterStats() = default;
+TraceStats_WriterStats::TraceStats_WriterStats(const TraceStats_WriterStats&) = default;
+TraceStats_WriterStats& TraceStats_WriterStats::operator=(const TraceStats_WriterStats&) = default;
+TraceStats_WriterStats::TraceStats_WriterStats(TraceStats_WriterStats&&) noexcept = default;
+TraceStats_WriterStats& TraceStats_WriterStats::operator=(TraceStats_WriterStats&&) = default;
+
+bool TraceStats_WriterStats::operator==(const TraceStats_WriterStats& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(sequence_id_, other.sequence_id_)
+ && ::protozero::internal::gen_helpers::EqualsField(buffer_, other.buffer_)
+ && ::protozero::internal::gen_helpers::EqualsField(chunk_payload_histogram_counts_, other.chunk_payload_histogram_counts_)
+ && ::protozero::internal::gen_helpers::EqualsField(chunk_payload_histogram_sum_, other.chunk_payload_histogram_sum_);
+}
+
+bool TraceStats_WriterStats::ParseFromArray(const void* raw, size_t size) {
+ chunk_payload_histogram_counts_.clear();
+ chunk_payload_histogram_sum_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* sequence_id */:
+ field.get(&sequence_id_);
+ break;
+ case 4 /* buffer */:
+ field.get(&buffer_);
+ break;
+ case 2 /* chunk_payload_histogram_counts */:
+ if (!::protozero::internal::gen_helpers::DeserializePackedRepeated<::protozero::proto_utils::ProtoWireType::kVarInt, uint64_t>(field, &chunk_payload_histogram_counts_)) {
+ packed_error = true;}
+ break;
+ case 3 /* chunk_payload_histogram_sum */:
+ if (!::protozero::internal::gen_helpers::DeserializePackedRepeated<::protozero::proto_utils::ProtoWireType::kVarInt, int64_t>(field, &chunk_payload_histogram_sum_)) {
+ packed_error = true;}
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string TraceStats_WriterStats::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> TraceStats_WriterStats::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void TraceStats_WriterStats::Serialize(::protozero::Message* msg) const {
+ // Field 1: sequence_id
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, sequence_id_, msg);
+ }
+
+ // Field 4: buffer
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(4, buffer_, msg);
+ }
+
+ // Field 2: chunk_payload_histogram_counts
+ {
+ ::protozero::PackedVarInt pack;
+ for (auto& it : chunk_payload_histogram_counts_)
+ pack.Append(it);
+ msg->AppendBytes(2, pack.data(), pack.size());
+ }
+
+ // Field 3: chunk_payload_histogram_sum
+ {
+ ::protozero::PackedVarInt pack;
+ for (auto& it : chunk_payload_histogram_sum_)
+ pack.Append(it);
+ msg->AppendBytes(3, pack.data(), pack.size());
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+TraceStats_BufferStats::TraceStats_BufferStats() = default;
+TraceStats_BufferStats::~TraceStats_BufferStats() = default;
+TraceStats_BufferStats::TraceStats_BufferStats(const TraceStats_BufferStats&) = default;
+TraceStats_BufferStats& TraceStats_BufferStats::operator=(const TraceStats_BufferStats&) = default;
+TraceStats_BufferStats::TraceStats_BufferStats(TraceStats_BufferStats&&) noexcept = default;
+TraceStats_BufferStats& TraceStats_BufferStats::operator=(TraceStats_BufferStats&&) = default;
+
+bool TraceStats_BufferStats::operator==(const TraceStats_BufferStats& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(buffer_size_, other.buffer_size_)
+ && ::protozero::internal::gen_helpers::EqualsField(bytes_written_, other.bytes_written_)
+ && ::protozero::internal::gen_helpers::EqualsField(bytes_overwritten_, other.bytes_overwritten_)
+ && ::protozero::internal::gen_helpers::EqualsField(bytes_read_, other.bytes_read_)
+ && ::protozero::internal::gen_helpers::EqualsField(padding_bytes_written_, other.padding_bytes_written_)
+ && ::protozero::internal::gen_helpers::EqualsField(padding_bytes_cleared_, other.padding_bytes_cleared_)
+ && ::protozero::internal::gen_helpers::EqualsField(chunks_written_, other.chunks_written_)
+ && ::protozero::internal::gen_helpers::EqualsField(chunks_rewritten_, other.chunks_rewritten_)
+ && ::protozero::internal::gen_helpers::EqualsField(chunks_overwritten_, other.chunks_overwritten_)
+ && ::protozero::internal::gen_helpers::EqualsField(chunks_discarded_, other.chunks_discarded_)
+ && ::protozero::internal::gen_helpers::EqualsField(chunks_read_, other.chunks_read_)
+ && ::protozero::internal::gen_helpers::EqualsField(chunks_committed_out_of_order_, other.chunks_committed_out_of_order_)
+ && ::protozero::internal::gen_helpers::EqualsField(write_wrap_count_, other.write_wrap_count_)
+ && ::protozero::internal::gen_helpers::EqualsField(patches_succeeded_, other.patches_succeeded_)
+ && ::protozero::internal::gen_helpers::EqualsField(patches_failed_, other.patches_failed_)
+ && ::protozero::internal::gen_helpers::EqualsField(readaheads_succeeded_, other.readaheads_succeeded_)
+ && ::protozero::internal::gen_helpers::EqualsField(readaheads_failed_, other.readaheads_failed_)
+ && ::protozero::internal::gen_helpers::EqualsField(abi_violations_, other.abi_violations_)
+ && ::protozero::internal::gen_helpers::EqualsField(trace_writer_packet_loss_, other.trace_writer_packet_loss_);
+}
+
+bool TraceStats_BufferStats::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 12 /* buffer_size */:
+ field.get(&buffer_size_);
+ break;
+ case 1 /* bytes_written */:
+ field.get(&bytes_written_);
+ break;
+ case 13 /* bytes_overwritten */:
+ field.get(&bytes_overwritten_);
+ break;
+ case 14 /* bytes_read */:
+ field.get(&bytes_read_);
+ break;
+ case 15 /* padding_bytes_written */:
+ field.get(&padding_bytes_written_);
+ break;
+ case 16 /* padding_bytes_cleared */:
+ field.get(&padding_bytes_cleared_);
+ break;
+ case 2 /* chunks_written */:
+ field.get(&chunks_written_);
+ break;
+ case 10 /* chunks_rewritten */:
+ field.get(&chunks_rewritten_);
+ break;
+ case 3 /* chunks_overwritten */:
+ field.get(&chunks_overwritten_);
+ break;
+ case 18 /* chunks_discarded */:
+ field.get(&chunks_discarded_);
+ break;
+ case 17 /* chunks_read */:
+ field.get(&chunks_read_);
+ break;
+ case 11 /* chunks_committed_out_of_order */:
+ field.get(&chunks_committed_out_of_order_);
+ break;
+ case 4 /* write_wrap_count */:
+ field.get(&write_wrap_count_);
+ break;
+ case 5 /* patches_succeeded */:
+ field.get(&patches_succeeded_);
+ break;
+ case 6 /* patches_failed */:
+ field.get(&patches_failed_);
+ break;
+ case 7 /* readaheads_succeeded */:
+ field.get(&readaheads_succeeded_);
+ break;
+ case 8 /* readaheads_failed */:
+ field.get(&readaheads_failed_);
+ break;
+ case 9 /* abi_violations */:
+ field.get(&abi_violations_);
+ break;
+ case 19 /* trace_writer_packet_loss */:
+ field.get(&trace_writer_packet_loss_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string TraceStats_BufferStats::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> TraceStats_BufferStats::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void TraceStats_BufferStats::Serialize(::protozero::Message* msg) const {
+ // Field 12: buffer_size
+ if (_has_field_[12]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(12, buffer_size_, msg);
+ }
+
+ // Field 1: bytes_written
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, bytes_written_, msg);
+ }
+
+ // Field 13: bytes_overwritten
+ if (_has_field_[13]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(13, bytes_overwritten_, msg);
+ }
+
+ // Field 14: bytes_read
+ if (_has_field_[14]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(14, bytes_read_, msg);
+ }
+
+ // Field 15: padding_bytes_written
+ if (_has_field_[15]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(15, padding_bytes_written_, msg);
+ }
+
+ // Field 16: padding_bytes_cleared
+ if (_has_field_[16]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(16, padding_bytes_cleared_, msg);
+ }
+
+ // Field 2: chunks_written
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, chunks_written_, msg);
+ }
+
+ // Field 10: chunks_rewritten
+ if (_has_field_[10]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(10, chunks_rewritten_, msg);
+ }
+
+ // Field 3: chunks_overwritten
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(3, chunks_overwritten_, msg);
+ }
+
+ // Field 18: chunks_discarded
+ if (_has_field_[18]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(18, chunks_discarded_, msg);
+ }
+
+ // Field 17: chunks_read
+ if (_has_field_[17]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(17, chunks_read_, msg);
+ }
+
+ // Field 11: chunks_committed_out_of_order
+ if (_has_field_[11]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(11, chunks_committed_out_of_order_, msg);
+ }
+
+ // Field 4: write_wrap_count
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(4, write_wrap_count_, msg);
+ }
+
+ // Field 5: patches_succeeded
+ if (_has_field_[5]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(5, patches_succeeded_, msg);
+ }
+
+ // Field 6: patches_failed
+ if (_has_field_[6]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(6, patches_failed_, msg);
+ }
+
+ // Field 7: readaheads_succeeded
+ if (_has_field_[7]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(7, readaheads_succeeded_, msg);
+ }
+
+ // Field 8: readaheads_failed
+ if (_has_field_[8]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(8, readaheads_failed_, msg);
+ }
+
+ // Field 9: abi_violations
+ if (_has_field_[9]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(9, abi_violations_, msg);
+ }
+
+ // Field 19: trace_writer_packet_loss
+ if (_has_field_[19]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(19, trace_writer_packet_loss_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/common/tracing_service_capabilities.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/common/tracing_service_capabilities.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/observable_events.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+TracingServiceCapabilities::TracingServiceCapabilities() = default;
+TracingServiceCapabilities::~TracingServiceCapabilities() = default;
+TracingServiceCapabilities::TracingServiceCapabilities(const TracingServiceCapabilities&) = default;
+TracingServiceCapabilities& TracingServiceCapabilities::operator=(const TracingServiceCapabilities&) = default;
+TracingServiceCapabilities::TracingServiceCapabilities(TracingServiceCapabilities&&) noexcept = default;
+TracingServiceCapabilities& TracingServiceCapabilities::operator=(TracingServiceCapabilities&&) = default;
+
+bool TracingServiceCapabilities::operator==(const TracingServiceCapabilities& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(has_query_capabilities_, other.has_query_capabilities_)
+ && ::protozero::internal::gen_helpers::EqualsField(observable_events_, other.observable_events_)
+ && ::protozero::internal::gen_helpers::EqualsField(has_trace_config_output_path_, other.has_trace_config_output_path_)
+ && ::protozero::internal::gen_helpers::EqualsField(has_clone_session_, other.has_clone_session_);
+}
+
+bool TracingServiceCapabilities::ParseFromArray(const void* raw, size_t size) {
+ observable_events_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* has_query_capabilities */:
+ field.get(&has_query_capabilities_);
+ break;
+ case 2 /* observable_events */:
+ observable_events_.emplace_back();
+ field.get(&observable_events_.back());
+ break;
+ case 3 /* has_trace_config_output_path */:
+ field.get(&has_trace_config_output_path_);
+ break;
+ case 4 /* has_clone_session */:
+ field.get(&has_clone_session_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string TracingServiceCapabilities::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> TracingServiceCapabilities::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void TracingServiceCapabilities::Serialize(::protozero::Message* msg) const {
+ // Field 1: has_query_capabilities
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(1, has_query_capabilities_, msg);
+ }
+
+ // Field 2: observable_events
+ for (auto& it : observable_events_) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, it, msg);
+ }
+
+ // Field 3: has_trace_config_output_path
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(3, has_trace_config_output_path_, msg);
+ }
+
+ // Field 4: has_clone_session
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(4, has_clone_session_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/common/tracing_service_state.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/common/tracing_service_state.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/data_source_descriptor.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/track_event_descriptor.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/gpu_counter_descriptor.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/ftrace_descriptor.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+TracingServiceState::TracingServiceState() = default;
+TracingServiceState::~TracingServiceState() = default;
+TracingServiceState::TracingServiceState(const TracingServiceState&) = default;
+TracingServiceState& TracingServiceState::operator=(const TracingServiceState&) = default;
+TracingServiceState::TracingServiceState(TracingServiceState&&) noexcept = default;
+TracingServiceState& TracingServiceState::operator=(TracingServiceState&&) = default;
+
+bool TracingServiceState::operator==(const TracingServiceState& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(producers_, other.producers_)
+ && ::protozero::internal::gen_helpers::EqualsField(data_sources_, other.data_sources_)
+ && ::protozero::internal::gen_helpers::EqualsField(tracing_sessions_, other.tracing_sessions_)
+ && ::protozero::internal::gen_helpers::EqualsField(supports_tracing_sessions_, other.supports_tracing_sessions_)
+ && ::protozero::internal::gen_helpers::EqualsField(num_sessions_, other.num_sessions_)
+ && ::protozero::internal::gen_helpers::EqualsField(num_sessions_started_, other.num_sessions_started_)
+ && ::protozero::internal::gen_helpers::EqualsField(tracing_service_version_, other.tracing_service_version_);
+}
+
+int TracingServiceState::producers_size() const { return static_cast<int>(producers_.size()); }
+void TracingServiceState::clear_producers() { producers_.clear(); }
+TracingServiceState_Producer* TracingServiceState::add_producers() { producers_.emplace_back(); return &producers_.back(); }
+int TracingServiceState::data_sources_size() const { return static_cast<int>(data_sources_.size()); }
+void TracingServiceState::clear_data_sources() { data_sources_.clear(); }
+TracingServiceState_DataSource* TracingServiceState::add_data_sources() { data_sources_.emplace_back(); return &data_sources_.back(); }
+int TracingServiceState::tracing_sessions_size() const { return static_cast<int>(tracing_sessions_.size()); }
+void TracingServiceState::clear_tracing_sessions() { tracing_sessions_.clear(); }
+TracingServiceState_TracingSession* TracingServiceState::add_tracing_sessions() { tracing_sessions_.emplace_back(); return &tracing_sessions_.back(); }
+bool TracingServiceState::ParseFromArray(const void* raw, size_t size) {
+ producers_.clear();
+ data_sources_.clear();
+ tracing_sessions_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* producers */:
+ producers_.emplace_back();
+ producers_.back().ParseFromArray(field.data(), field.size());
+ break;
+ case 2 /* data_sources */:
+ data_sources_.emplace_back();
+ data_sources_.back().ParseFromArray(field.data(), field.size());
+ break;
+ case 6 /* tracing_sessions */:
+ tracing_sessions_.emplace_back();
+ tracing_sessions_.back().ParseFromArray(field.data(), field.size());
+ break;
+ case 7 /* supports_tracing_sessions */:
+ field.get(&supports_tracing_sessions_);
+ break;
+ case 3 /* num_sessions */:
+ field.get(&num_sessions_);
+ break;
+ case 4 /* num_sessions_started */:
+ field.get(&num_sessions_started_);
+ break;
+ case 5 /* tracing_service_version */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &tracing_service_version_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string TracingServiceState::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> TracingServiceState::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void TracingServiceState::Serialize(::protozero::Message* msg) const {
+ // Field 1: producers
+ for (auto& it : producers_) {
+ it.Serialize(msg->BeginNestedMessage<::protozero::Message>(1));
+ }
+
+ // Field 2: data_sources
+ for (auto& it : data_sources_) {
+ it.Serialize(msg->BeginNestedMessage<::protozero::Message>(2));
+ }
+
+ // Field 6: tracing_sessions
+ for (auto& it : tracing_sessions_) {
+ it.Serialize(msg->BeginNestedMessage<::protozero::Message>(6));
+ }
+
+ // Field 7: supports_tracing_sessions
+ if (_has_field_[7]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(7, supports_tracing_sessions_, msg);
+ }
+
+ // Field 3: num_sessions
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(3, num_sessions_, msg);
+ }
+
+ // Field 4: num_sessions_started
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(4, num_sessions_started_, msg);
+ }
+
+ // Field 5: tracing_service_version
+ if (_has_field_[5]) {
+ ::protozero::internal::gen_helpers::SerializeString(5, tracing_service_version_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+TracingServiceState_TracingSession::TracingServiceState_TracingSession() = default;
+TracingServiceState_TracingSession::~TracingServiceState_TracingSession() = default;
+TracingServiceState_TracingSession::TracingServiceState_TracingSession(const TracingServiceState_TracingSession&) = default;
+TracingServiceState_TracingSession& TracingServiceState_TracingSession::operator=(const TracingServiceState_TracingSession&) = default;
+TracingServiceState_TracingSession::TracingServiceState_TracingSession(TracingServiceState_TracingSession&&) noexcept = default;
+TracingServiceState_TracingSession& TracingServiceState_TracingSession::operator=(TracingServiceState_TracingSession&&) = default;
+
+bool TracingServiceState_TracingSession::operator==(const TracingServiceState_TracingSession& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(id_, other.id_)
+ && ::protozero::internal::gen_helpers::EqualsField(consumer_uid_, other.consumer_uid_)
+ && ::protozero::internal::gen_helpers::EqualsField(state_, other.state_)
+ && ::protozero::internal::gen_helpers::EqualsField(unique_session_name_, other.unique_session_name_)
+ && ::protozero::internal::gen_helpers::EqualsField(buffer_size_kb_, other.buffer_size_kb_)
+ && ::protozero::internal::gen_helpers::EqualsField(duration_ms_, other.duration_ms_)
+ && ::protozero::internal::gen_helpers::EqualsField(num_data_sources_, other.num_data_sources_)
+ && ::protozero::internal::gen_helpers::EqualsField(start_realtime_ns_, other.start_realtime_ns_)
+ && ::protozero::internal::gen_helpers::EqualsField(bugreport_score_, other.bugreport_score_)
+ && ::protozero::internal::gen_helpers::EqualsField(bugreport_filename_, other.bugreport_filename_)
+ && ::protozero::internal::gen_helpers::EqualsField(is_started_, other.is_started_);
+}
+
+bool TracingServiceState_TracingSession::ParseFromArray(const void* raw, size_t size) {
+ buffer_size_kb_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* id */:
+ field.get(&id_);
+ break;
+ case 2 /* consumer_uid */:
+ field.get(&consumer_uid_);
+ break;
+ case 3 /* state */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &state_);
+ break;
+ case 4 /* unique_session_name */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &unique_session_name_);
+ break;
+ case 5 /* buffer_size_kb */:
+ buffer_size_kb_.emplace_back();
+ field.get(&buffer_size_kb_.back());
+ break;
+ case 6 /* duration_ms */:
+ field.get(&duration_ms_);
+ break;
+ case 7 /* num_data_sources */:
+ field.get(&num_data_sources_);
+ break;
+ case 8 /* start_realtime_ns */:
+ field.get(&start_realtime_ns_);
+ break;
+ case 9 /* bugreport_score */:
+ field.get(&bugreport_score_);
+ break;
+ case 10 /* bugreport_filename */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &bugreport_filename_);
+ break;
+ case 11 /* is_started */:
+ field.get(&is_started_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string TracingServiceState_TracingSession::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> TracingServiceState_TracingSession::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void TracingServiceState_TracingSession::Serialize(::protozero::Message* msg) const {
+ // Field 1: id
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, id_, msg);
+ }
+
+ // Field 2: consumer_uid
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, consumer_uid_, msg);
+ }
+
+ // Field 3: state
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeString(3, state_, msg);
+ }
+
+ // Field 4: unique_session_name
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeString(4, unique_session_name_, msg);
+ }
+
+ // Field 5: buffer_size_kb
+ for (auto& it : buffer_size_kb_) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(5, it, msg);
+ }
+
+ // Field 6: duration_ms
+ if (_has_field_[6]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(6, duration_ms_, msg);
+ }
+
+ // Field 7: num_data_sources
+ if (_has_field_[7]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(7, num_data_sources_, msg);
+ }
+
+ // Field 8: start_realtime_ns
+ if (_has_field_[8]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(8, start_realtime_ns_, msg);
+ }
+
+ // Field 9: bugreport_score
+ if (_has_field_[9]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(9, bugreport_score_, msg);
+ }
+
+ // Field 10: bugreport_filename
+ if (_has_field_[10]) {
+ ::protozero::internal::gen_helpers::SerializeString(10, bugreport_filename_, msg);
+ }
+
+ // Field 11: is_started
+ if (_has_field_[11]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(11, is_started_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+TracingServiceState_DataSource::TracingServiceState_DataSource() = default;
+TracingServiceState_DataSource::~TracingServiceState_DataSource() = default;
+TracingServiceState_DataSource::TracingServiceState_DataSource(const TracingServiceState_DataSource&) = default;
+TracingServiceState_DataSource& TracingServiceState_DataSource::operator=(const TracingServiceState_DataSource&) = default;
+TracingServiceState_DataSource::TracingServiceState_DataSource(TracingServiceState_DataSource&&) noexcept = default;
+TracingServiceState_DataSource& TracingServiceState_DataSource::operator=(TracingServiceState_DataSource&&) = default;
+
+bool TracingServiceState_DataSource::operator==(const TracingServiceState_DataSource& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(ds_descriptor_, other.ds_descriptor_)
+ && ::protozero::internal::gen_helpers::EqualsField(producer_id_, other.producer_id_);
+}
+
+bool TracingServiceState_DataSource::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* ds_descriptor */:
+ (*ds_descriptor_).ParseFromArray(field.data(), field.size());
+ break;
+ case 2 /* producer_id */:
+ field.get(&producer_id_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string TracingServiceState_DataSource::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> TracingServiceState_DataSource::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void TracingServiceState_DataSource::Serialize(::protozero::Message* msg) const {
+ // Field 1: ds_descriptor
+ if (_has_field_[1]) {
+ (*ds_descriptor_).Serialize(msg->BeginNestedMessage<::protozero::Message>(1));
+ }
+
+ // Field 2: producer_id
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, producer_id_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+TracingServiceState_Producer::TracingServiceState_Producer() = default;
+TracingServiceState_Producer::~TracingServiceState_Producer() = default;
+TracingServiceState_Producer::TracingServiceState_Producer(const TracingServiceState_Producer&) = default;
+TracingServiceState_Producer& TracingServiceState_Producer::operator=(const TracingServiceState_Producer&) = default;
+TracingServiceState_Producer::TracingServiceState_Producer(TracingServiceState_Producer&&) noexcept = default;
+TracingServiceState_Producer& TracingServiceState_Producer::operator=(TracingServiceState_Producer&&) = default;
+
+bool TracingServiceState_Producer::operator==(const TracingServiceState_Producer& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(id_, other.id_)
+ && ::protozero::internal::gen_helpers::EqualsField(name_, other.name_)
+ && ::protozero::internal::gen_helpers::EqualsField(pid_, other.pid_)
+ && ::protozero::internal::gen_helpers::EqualsField(uid_, other.uid_)
+ && ::protozero::internal::gen_helpers::EqualsField(sdk_version_, other.sdk_version_);
+}
+
+bool TracingServiceState_Producer::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* id */:
+ field.get(&id_);
+ break;
+ case 2 /* name */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &name_);
+ break;
+ case 5 /* pid */:
+ field.get(&pid_);
+ break;
+ case 3 /* uid */:
+ field.get(&uid_);
+ break;
+ case 4 /* sdk_version */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &sdk_version_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string TracingServiceState_Producer::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> TracingServiceState_Producer::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void TracingServiceState_Producer::Serialize(::protozero::Message* msg) const {
+ // Field 1: id
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, id_, msg);
+ }
+
+ // Field 2: name
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeString(2, name_, msg);
+ }
+
+ // Field 5: pid
+ if (_has_field_[5]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(5, pid_, msg);
+ }
+
+ // Field 3: uid
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(3, uid_, msg);
+ }
+
+ // Field 4: sdk_version
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeString(4, sdk_version_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/common/track_event_descriptor.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/common/track_event_descriptor.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+TrackEventDescriptor::TrackEventDescriptor() = default;
+TrackEventDescriptor::~TrackEventDescriptor() = default;
+TrackEventDescriptor::TrackEventDescriptor(const TrackEventDescriptor&) = default;
+TrackEventDescriptor& TrackEventDescriptor::operator=(const TrackEventDescriptor&) = default;
+TrackEventDescriptor::TrackEventDescriptor(TrackEventDescriptor&&) noexcept = default;
+TrackEventDescriptor& TrackEventDescriptor::operator=(TrackEventDescriptor&&) = default;
+
+bool TrackEventDescriptor::operator==(const TrackEventDescriptor& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(available_categories_, other.available_categories_);
+}
+
+int TrackEventDescriptor::available_categories_size() const { return static_cast<int>(available_categories_.size()); }
+void TrackEventDescriptor::clear_available_categories() { available_categories_.clear(); }
+TrackEventCategory* TrackEventDescriptor::add_available_categories() { available_categories_.emplace_back(); return &available_categories_.back(); }
+bool TrackEventDescriptor::ParseFromArray(const void* raw, size_t size) {
+ available_categories_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* available_categories */:
+ available_categories_.emplace_back();
+ available_categories_.back().ParseFromArray(field.data(), field.size());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string TrackEventDescriptor::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> TrackEventDescriptor::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void TrackEventDescriptor::Serialize(::protozero::Message* msg) const {
+ // Field 1: available_categories
+ for (auto& it : available_categories_) {
+ it.Serialize(msg->BeginNestedMessage<::protozero::Message>(1));
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+TrackEventCategory::TrackEventCategory() = default;
+TrackEventCategory::~TrackEventCategory() = default;
+TrackEventCategory::TrackEventCategory(const TrackEventCategory&) = default;
+TrackEventCategory& TrackEventCategory::operator=(const TrackEventCategory&) = default;
+TrackEventCategory::TrackEventCategory(TrackEventCategory&&) noexcept = default;
+TrackEventCategory& TrackEventCategory::operator=(TrackEventCategory&&) = default;
+
+bool TrackEventCategory::operator==(const TrackEventCategory& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(name_, other.name_)
+ && ::protozero::internal::gen_helpers::EqualsField(description_, other.description_)
+ && ::protozero::internal::gen_helpers::EqualsField(tags_, other.tags_);
+}
+
+bool TrackEventCategory::ParseFromArray(const void* raw, size_t size) {
+ tags_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* name */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &name_);
+ break;
+ case 2 /* description */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &description_);
+ break;
+ case 3 /* tags */:
+ tags_.emplace_back();
+ ::protozero::internal::gen_helpers::DeserializeString(field, &tags_.back());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string TrackEventCategory::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> TrackEventCategory::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void TrackEventCategory::Serialize(::protozero::Message* msg) const {
+ // Field 1: name
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeString(1, name_, msg);
+ }
+
+ // Field 2: description
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeString(2, description_, msg);
+ }
+
+ // Field 3: tags
+ for (auto& it : tags_) {
+ ::protozero::internal::gen_helpers::SerializeString(3, it, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/config/android/android_game_intervention_list_config.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/android_game_intervention_list_config.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+AndroidGameInterventionListConfig::AndroidGameInterventionListConfig() = default;
+AndroidGameInterventionListConfig::~AndroidGameInterventionListConfig() = default;
+AndroidGameInterventionListConfig::AndroidGameInterventionListConfig(const AndroidGameInterventionListConfig&) = default;
+AndroidGameInterventionListConfig& AndroidGameInterventionListConfig::operator=(const AndroidGameInterventionListConfig&) = default;
+AndroidGameInterventionListConfig::AndroidGameInterventionListConfig(AndroidGameInterventionListConfig&&) noexcept = default;
+AndroidGameInterventionListConfig& AndroidGameInterventionListConfig::operator=(AndroidGameInterventionListConfig&&) = default;
+
+bool AndroidGameInterventionListConfig::operator==(const AndroidGameInterventionListConfig& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(package_name_filter_, other.package_name_filter_);
+}
+
+bool AndroidGameInterventionListConfig::ParseFromArray(const void* raw, size_t size) {
+ package_name_filter_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* package_name_filter */:
+ package_name_filter_.emplace_back();
+ ::protozero::internal::gen_helpers::DeserializeString(field, &package_name_filter_.back());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string AndroidGameInterventionListConfig::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> AndroidGameInterventionListConfig::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void AndroidGameInterventionListConfig::Serialize(::protozero::Message* msg) const {
+ // Field 1: package_name_filter
+ for (auto& it : package_name_filter_) {
+ ::protozero::internal::gen_helpers::SerializeString(1, it, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/config/android/android_input_event_config.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/android_input_event_config.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+AndroidInputEventConfig::AndroidInputEventConfig() = default;
+AndroidInputEventConfig::~AndroidInputEventConfig() = default;
+AndroidInputEventConfig::AndroidInputEventConfig(const AndroidInputEventConfig&) = default;
+AndroidInputEventConfig& AndroidInputEventConfig::operator=(const AndroidInputEventConfig&) = default;
+AndroidInputEventConfig::AndroidInputEventConfig(AndroidInputEventConfig&&) noexcept = default;
+AndroidInputEventConfig& AndroidInputEventConfig::operator=(AndroidInputEventConfig&&) = default;
+
+bool AndroidInputEventConfig::operator==(const AndroidInputEventConfig& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(mode_, other.mode_)
+ && ::protozero::internal::gen_helpers::EqualsField(rules_, other.rules_)
+ && ::protozero::internal::gen_helpers::EqualsField(trace_dispatcher_input_events_, other.trace_dispatcher_input_events_)
+ && ::protozero::internal::gen_helpers::EqualsField(trace_dispatcher_window_dispatch_, other.trace_dispatcher_window_dispatch_);
+}
+
+int AndroidInputEventConfig::rules_size() const { return static_cast<int>(rules_.size()); }
+void AndroidInputEventConfig::clear_rules() { rules_.clear(); }
+AndroidInputEventConfig_TraceRule* AndroidInputEventConfig::add_rules() { rules_.emplace_back(); return &rules_.back(); }
+bool AndroidInputEventConfig::ParseFromArray(const void* raw, size_t size) {
+ rules_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* mode */:
+ field.get(&mode_);
+ break;
+ case 2 /* rules */:
+ rules_.emplace_back();
+ rules_.back().ParseFromArray(field.data(), field.size());
+ break;
+ case 3 /* trace_dispatcher_input_events */:
+ field.get(&trace_dispatcher_input_events_);
+ break;
+ case 4 /* trace_dispatcher_window_dispatch */:
+ field.get(&trace_dispatcher_window_dispatch_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string AndroidInputEventConfig::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> AndroidInputEventConfig::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void AndroidInputEventConfig::Serialize(::protozero::Message* msg) const {
+ // Field 1: mode
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, mode_, msg);
+ }
+
+ // Field 2: rules
+ for (auto& it : rules_) {
+ it.Serialize(msg->BeginNestedMessage<::protozero::Message>(2));
+ }
+
+ // Field 3: trace_dispatcher_input_events
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(3, trace_dispatcher_input_events_, msg);
+ }
+
+ // Field 4: trace_dispatcher_window_dispatch
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(4, trace_dispatcher_window_dispatch_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+AndroidInputEventConfig_TraceRule::AndroidInputEventConfig_TraceRule() = default;
+AndroidInputEventConfig_TraceRule::~AndroidInputEventConfig_TraceRule() = default;
+AndroidInputEventConfig_TraceRule::AndroidInputEventConfig_TraceRule(const AndroidInputEventConfig_TraceRule&) = default;
+AndroidInputEventConfig_TraceRule& AndroidInputEventConfig_TraceRule::operator=(const AndroidInputEventConfig_TraceRule&) = default;
+AndroidInputEventConfig_TraceRule::AndroidInputEventConfig_TraceRule(AndroidInputEventConfig_TraceRule&&) noexcept = default;
+AndroidInputEventConfig_TraceRule& AndroidInputEventConfig_TraceRule::operator=(AndroidInputEventConfig_TraceRule&&) = default;
+
+bool AndroidInputEventConfig_TraceRule::operator==(const AndroidInputEventConfig_TraceRule& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(trace_level_, other.trace_level_)
+ && ::protozero::internal::gen_helpers::EqualsField(match_all_packages_, other.match_all_packages_)
+ && ::protozero::internal::gen_helpers::EqualsField(match_any_packages_, other.match_any_packages_)
+ && ::protozero::internal::gen_helpers::EqualsField(match_secure_, other.match_secure_)
+ && ::protozero::internal::gen_helpers::EqualsField(match_ime_connection_active_, other.match_ime_connection_active_);
+}
+
+bool AndroidInputEventConfig_TraceRule::ParseFromArray(const void* raw, size_t size) {
+ match_all_packages_.clear();
+ match_any_packages_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* trace_level */:
+ field.get(&trace_level_);
+ break;
+ case 2 /* match_all_packages */:
+ match_all_packages_.emplace_back();
+ ::protozero::internal::gen_helpers::DeserializeString(field, &match_all_packages_.back());
+ break;
+ case 3 /* match_any_packages */:
+ match_any_packages_.emplace_back();
+ ::protozero::internal::gen_helpers::DeserializeString(field, &match_any_packages_.back());
+ break;
+ case 4 /* match_secure */:
+ field.get(&match_secure_);
+ break;
+ case 5 /* match_ime_connection_active */:
+ field.get(&match_ime_connection_active_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string AndroidInputEventConfig_TraceRule::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> AndroidInputEventConfig_TraceRule::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void AndroidInputEventConfig_TraceRule::Serialize(::protozero::Message* msg) const {
+ // Field 1: trace_level
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, trace_level_, msg);
+ }
+
+ // Field 2: match_all_packages
+ for (auto& it : match_all_packages_) {
+ ::protozero::internal::gen_helpers::SerializeString(2, it, msg);
+ }
+
+ // Field 3: match_any_packages
+ for (auto& it : match_any_packages_) {
+ ::protozero::internal::gen_helpers::SerializeString(3, it, msg);
+ }
+
+ // Field 4: match_secure
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(4, match_secure_, msg);
+ }
+
+ // Field 5: match_ime_connection_active
+ if (_has_field_[5]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(5, match_ime_connection_active_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/config/android/android_log_config.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/android_log_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/android_log_constants.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+AndroidLogConfig::AndroidLogConfig() = default;
+AndroidLogConfig::~AndroidLogConfig() = default;
+AndroidLogConfig::AndroidLogConfig(const AndroidLogConfig&) = default;
+AndroidLogConfig& AndroidLogConfig::operator=(const AndroidLogConfig&) = default;
+AndroidLogConfig::AndroidLogConfig(AndroidLogConfig&&) noexcept = default;
+AndroidLogConfig& AndroidLogConfig::operator=(AndroidLogConfig&&) = default;
+
+bool AndroidLogConfig::operator==(const AndroidLogConfig& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(log_ids_, other.log_ids_)
+ && ::protozero::internal::gen_helpers::EqualsField(min_prio_, other.min_prio_)
+ && ::protozero::internal::gen_helpers::EqualsField(filter_tags_, other.filter_tags_);
+}
+
+bool AndroidLogConfig::ParseFromArray(const void* raw, size_t size) {
+ log_ids_.clear();
+ filter_tags_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* log_ids */:
+ log_ids_.emplace_back();
+ field.get(&log_ids_.back());
+ break;
+ case 3 /* min_prio */:
+ field.get(&min_prio_);
+ break;
+ case 4 /* filter_tags */:
+ filter_tags_.emplace_back();
+ ::protozero::internal::gen_helpers::DeserializeString(field, &filter_tags_.back());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string AndroidLogConfig::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> AndroidLogConfig::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void AndroidLogConfig::Serialize(::protozero::Message* msg) const {
+ // Field 1: log_ids
+ for (auto& it : log_ids_) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, it, msg);
+ }
+
+ // Field 3: min_prio
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(3, min_prio_, msg);
+ }
+
+ // Field 4: filter_tags
+ for (auto& it : filter_tags_) {
+ ::protozero::internal::gen_helpers::SerializeString(4, it, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/config/android/android_polled_state_config.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/android_polled_state_config.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+AndroidPolledStateConfig::AndroidPolledStateConfig() = default;
+AndroidPolledStateConfig::~AndroidPolledStateConfig() = default;
+AndroidPolledStateConfig::AndroidPolledStateConfig(const AndroidPolledStateConfig&) = default;
+AndroidPolledStateConfig& AndroidPolledStateConfig::operator=(const AndroidPolledStateConfig&) = default;
+AndroidPolledStateConfig::AndroidPolledStateConfig(AndroidPolledStateConfig&&) noexcept = default;
+AndroidPolledStateConfig& AndroidPolledStateConfig::operator=(AndroidPolledStateConfig&&) = default;
+
+bool AndroidPolledStateConfig::operator==(const AndroidPolledStateConfig& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(poll_ms_, other.poll_ms_);
+}
+
+bool AndroidPolledStateConfig::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* poll_ms */:
+ field.get(&poll_ms_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string AndroidPolledStateConfig::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> AndroidPolledStateConfig::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void AndroidPolledStateConfig::Serialize(::protozero::Message* msg) const {
+ // Field 1: poll_ms
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, poll_ms_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/config/android/android_sdk_sysprop_guard_config.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/android_sdk_sysprop_guard_config.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+AndroidSdkSyspropGuardConfig::AndroidSdkSyspropGuardConfig() = default;
+AndroidSdkSyspropGuardConfig::~AndroidSdkSyspropGuardConfig() = default;
+AndroidSdkSyspropGuardConfig::AndroidSdkSyspropGuardConfig(const AndroidSdkSyspropGuardConfig&) = default;
+AndroidSdkSyspropGuardConfig& AndroidSdkSyspropGuardConfig::operator=(const AndroidSdkSyspropGuardConfig&) = default;
+AndroidSdkSyspropGuardConfig::AndroidSdkSyspropGuardConfig(AndroidSdkSyspropGuardConfig&&) noexcept = default;
+AndroidSdkSyspropGuardConfig& AndroidSdkSyspropGuardConfig::operator=(AndroidSdkSyspropGuardConfig&&) = default;
+
+bool AndroidSdkSyspropGuardConfig::operator==(const AndroidSdkSyspropGuardConfig& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(surfaceflinger_skia_track_events_, other.surfaceflinger_skia_track_events_)
+ && ::protozero::internal::gen_helpers::EqualsField(hwui_skia_track_events_, other.hwui_skia_track_events_)
+ && ::protozero::internal::gen_helpers::EqualsField(hwui_package_name_filter_, other.hwui_package_name_filter_);
+}
+
+bool AndroidSdkSyspropGuardConfig::ParseFromArray(const void* raw, size_t size) {
+ hwui_package_name_filter_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* surfaceflinger_skia_track_events */:
+ field.get(&surfaceflinger_skia_track_events_);
+ break;
+ case 2 /* hwui_skia_track_events */:
+ field.get(&hwui_skia_track_events_);
+ break;
+ case 3 /* hwui_package_name_filter */:
+ hwui_package_name_filter_.emplace_back();
+ ::protozero::internal::gen_helpers::DeserializeString(field, &hwui_package_name_filter_.back());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string AndroidSdkSyspropGuardConfig::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> AndroidSdkSyspropGuardConfig::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void AndroidSdkSyspropGuardConfig::Serialize(::protozero::Message* msg) const {
+ // Field 1: surfaceflinger_skia_track_events
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(1, surfaceflinger_skia_track_events_, msg);
+ }
+
+ // Field 2: hwui_skia_track_events
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(2, hwui_skia_track_events_, msg);
+ }
+
+ // Field 3: hwui_package_name_filter
+ for (auto& it : hwui_package_name_filter_) {
+ ::protozero::internal::gen_helpers::SerializeString(3, it, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/config/android/android_system_property_config.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/android_system_property_config.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+AndroidSystemPropertyConfig::AndroidSystemPropertyConfig() = default;
+AndroidSystemPropertyConfig::~AndroidSystemPropertyConfig() = default;
+AndroidSystemPropertyConfig::AndroidSystemPropertyConfig(const AndroidSystemPropertyConfig&) = default;
+AndroidSystemPropertyConfig& AndroidSystemPropertyConfig::operator=(const AndroidSystemPropertyConfig&) = default;
+AndroidSystemPropertyConfig::AndroidSystemPropertyConfig(AndroidSystemPropertyConfig&&) noexcept = default;
+AndroidSystemPropertyConfig& AndroidSystemPropertyConfig::operator=(AndroidSystemPropertyConfig&&) = default;
+
+bool AndroidSystemPropertyConfig::operator==(const AndroidSystemPropertyConfig& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(poll_ms_, other.poll_ms_)
+ && ::protozero::internal::gen_helpers::EqualsField(property_name_, other.property_name_);
+}
+
+bool AndroidSystemPropertyConfig::ParseFromArray(const void* raw, size_t size) {
+ property_name_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* poll_ms */:
+ field.get(&poll_ms_);
+ break;
+ case 2 /* property_name */:
+ property_name_.emplace_back();
+ ::protozero::internal::gen_helpers::DeserializeString(field, &property_name_.back());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string AndroidSystemPropertyConfig::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> AndroidSystemPropertyConfig::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void AndroidSystemPropertyConfig::Serialize(::protozero::Message* msg) const {
+ // Field 1: poll_ms
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, poll_ms_, msg);
+ }
+
+ // Field 2: property_name
+ for (auto& it : property_name_) {
+ ::protozero::internal::gen_helpers::SerializeString(2, it, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/config/android/network_trace_config.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/network_trace_config.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+NetworkPacketTraceConfig::NetworkPacketTraceConfig() = default;
+NetworkPacketTraceConfig::~NetworkPacketTraceConfig() = default;
+NetworkPacketTraceConfig::NetworkPacketTraceConfig(const NetworkPacketTraceConfig&) = default;
+NetworkPacketTraceConfig& NetworkPacketTraceConfig::operator=(const NetworkPacketTraceConfig&) = default;
+NetworkPacketTraceConfig::NetworkPacketTraceConfig(NetworkPacketTraceConfig&&) noexcept = default;
+NetworkPacketTraceConfig& NetworkPacketTraceConfig::operator=(NetworkPacketTraceConfig&&) = default;
+
+bool NetworkPacketTraceConfig::operator==(const NetworkPacketTraceConfig& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(poll_ms_, other.poll_ms_)
+ && ::protozero::internal::gen_helpers::EqualsField(aggregation_threshold_, other.aggregation_threshold_)
+ && ::protozero::internal::gen_helpers::EqualsField(intern_limit_, other.intern_limit_)
+ && ::protozero::internal::gen_helpers::EqualsField(drop_local_port_, other.drop_local_port_)
+ && ::protozero::internal::gen_helpers::EqualsField(drop_remote_port_, other.drop_remote_port_)
+ && ::protozero::internal::gen_helpers::EqualsField(drop_tcp_flags_, other.drop_tcp_flags_);
+}
+
+bool NetworkPacketTraceConfig::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* poll_ms */:
+ field.get(&poll_ms_);
+ break;
+ case 2 /* aggregation_threshold */:
+ field.get(&aggregation_threshold_);
+ break;
+ case 3 /* intern_limit */:
+ field.get(&intern_limit_);
+ break;
+ case 4 /* drop_local_port */:
+ field.get(&drop_local_port_);
+ break;
+ case 5 /* drop_remote_port */:
+ field.get(&drop_remote_port_);
+ break;
+ case 6 /* drop_tcp_flags */:
+ field.get(&drop_tcp_flags_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string NetworkPacketTraceConfig::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> NetworkPacketTraceConfig::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void NetworkPacketTraceConfig::Serialize(::protozero::Message* msg) const {
+ // Field 1: poll_ms
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, poll_ms_, msg);
+ }
+
+ // Field 2: aggregation_threshold
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, aggregation_threshold_, msg);
+ }
+
+ // Field 3: intern_limit
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(3, intern_limit_, msg);
+ }
+
+ // Field 4: drop_local_port
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(4, drop_local_port_, msg);
+ }
+
+ // Field 5: drop_remote_port
+ if (_has_field_[5]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(5, drop_remote_port_, msg);
+ }
+
+ // Field 6: drop_tcp_flags
+ if (_has_field_[6]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(6, drop_tcp_flags_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/config/android/packages_list_config.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/packages_list_config.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+PackagesListConfig::PackagesListConfig() = default;
+PackagesListConfig::~PackagesListConfig() = default;
+PackagesListConfig::PackagesListConfig(const PackagesListConfig&) = default;
+PackagesListConfig& PackagesListConfig::operator=(const PackagesListConfig&) = default;
+PackagesListConfig::PackagesListConfig(PackagesListConfig&&) noexcept = default;
+PackagesListConfig& PackagesListConfig::operator=(PackagesListConfig&&) = default;
+
+bool PackagesListConfig::operator==(const PackagesListConfig& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(package_name_filter_, other.package_name_filter_);
+}
+
+bool PackagesListConfig::ParseFromArray(const void* raw, size_t size) {
+ package_name_filter_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* package_name_filter */:
+ package_name_filter_.emplace_back();
+ ::protozero::internal::gen_helpers::DeserializeString(field, &package_name_filter_.back());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string PackagesListConfig::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> PackagesListConfig::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void PackagesListConfig::Serialize(::protozero::Message* msg) const {
+ // Field 1: package_name_filter
+ for (auto& it : package_name_filter_) {
+ ::protozero::internal::gen_helpers::SerializeString(1, it, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/config/android/protolog_config.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/protolog_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/protolog_common.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+ProtoLogGroup::ProtoLogGroup() = default;
+ProtoLogGroup::~ProtoLogGroup() = default;
+ProtoLogGroup::ProtoLogGroup(const ProtoLogGroup&) = default;
+ProtoLogGroup& ProtoLogGroup::operator=(const ProtoLogGroup&) = default;
+ProtoLogGroup::ProtoLogGroup(ProtoLogGroup&&) noexcept = default;
+ProtoLogGroup& ProtoLogGroup::operator=(ProtoLogGroup&&) = default;
+
+bool ProtoLogGroup::operator==(const ProtoLogGroup& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(group_name_, other.group_name_)
+ && ::protozero::internal::gen_helpers::EqualsField(log_from_, other.log_from_)
+ && ::protozero::internal::gen_helpers::EqualsField(collect_stacktrace_, other.collect_stacktrace_);
+}
+
+bool ProtoLogGroup::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* group_name */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &group_name_);
+ break;
+ case 2 /* log_from */:
+ field.get(&log_from_);
+ break;
+ case 3 /* collect_stacktrace */:
+ field.get(&collect_stacktrace_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string ProtoLogGroup::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> ProtoLogGroup::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void ProtoLogGroup::Serialize(::protozero::Message* msg) const {
+ // Field 1: group_name
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeString(1, group_name_, msg);
+ }
+
+ // Field 2: log_from
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, log_from_, msg);
+ }
+
+ // Field 3: collect_stacktrace
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(3, collect_stacktrace_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+ProtoLogConfig::ProtoLogConfig() = default;
+ProtoLogConfig::~ProtoLogConfig() = default;
+ProtoLogConfig::ProtoLogConfig(const ProtoLogConfig&) = default;
+ProtoLogConfig& ProtoLogConfig::operator=(const ProtoLogConfig&) = default;
+ProtoLogConfig::ProtoLogConfig(ProtoLogConfig&&) noexcept = default;
+ProtoLogConfig& ProtoLogConfig::operator=(ProtoLogConfig&&) = default;
+
+bool ProtoLogConfig::operator==(const ProtoLogConfig& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(group_overrides_, other.group_overrides_)
+ && ::protozero::internal::gen_helpers::EqualsField(tracing_mode_, other.tracing_mode_);
+}
+
+int ProtoLogConfig::group_overrides_size() const { return static_cast<int>(group_overrides_.size()); }
+void ProtoLogConfig::clear_group_overrides() { group_overrides_.clear(); }
+ProtoLogGroup* ProtoLogConfig::add_group_overrides() { group_overrides_.emplace_back(); return &group_overrides_.back(); }
+bool ProtoLogConfig::ParseFromArray(const void* raw, size_t size) {
+ group_overrides_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* group_overrides */:
+ group_overrides_.emplace_back();
+ group_overrides_.back().ParseFromArray(field.data(), field.size());
+ break;
+ case 2 /* tracing_mode */:
+ field.get(&tracing_mode_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string ProtoLogConfig::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> ProtoLogConfig::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void ProtoLogConfig::Serialize(::protozero::Message* msg) const {
+ // Field 1: group_overrides
+ for (auto& it : group_overrides_) {
+ it.Serialize(msg->BeginNestedMessage<::protozero::Message>(1));
+ }
+
+ // Field 2: tracing_mode
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, tracing_mode_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/config/android/surfaceflinger_layers_config.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/surfaceflinger_layers_config.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+SurfaceFlingerLayersConfig::SurfaceFlingerLayersConfig() = default;
+SurfaceFlingerLayersConfig::~SurfaceFlingerLayersConfig() = default;
+SurfaceFlingerLayersConfig::SurfaceFlingerLayersConfig(const SurfaceFlingerLayersConfig&) = default;
+SurfaceFlingerLayersConfig& SurfaceFlingerLayersConfig::operator=(const SurfaceFlingerLayersConfig&) = default;
+SurfaceFlingerLayersConfig::SurfaceFlingerLayersConfig(SurfaceFlingerLayersConfig&&) noexcept = default;
+SurfaceFlingerLayersConfig& SurfaceFlingerLayersConfig::operator=(SurfaceFlingerLayersConfig&&) = default;
+
+bool SurfaceFlingerLayersConfig::operator==(const SurfaceFlingerLayersConfig& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(mode_, other.mode_)
+ && ::protozero::internal::gen_helpers::EqualsField(trace_flags_, other.trace_flags_);
+}
+
+bool SurfaceFlingerLayersConfig::ParseFromArray(const void* raw, size_t size) {
+ trace_flags_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* mode */:
+ field.get(&mode_);
+ break;
+ case 2 /* trace_flags */:
+ trace_flags_.emplace_back();
+ field.get(&trace_flags_.back());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string SurfaceFlingerLayersConfig::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> SurfaceFlingerLayersConfig::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void SurfaceFlingerLayersConfig::Serialize(::protozero::Message* msg) const {
+ // Field 1: mode
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, mode_, msg);
+ }
+
+ // Field 2: trace_flags
+ for (auto& it : trace_flags_) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, it, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/config/android/surfaceflinger_transactions_config.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/surfaceflinger_transactions_config.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+SurfaceFlingerTransactionsConfig::SurfaceFlingerTransactionsConfig() = default;
+SurfaceFlingerTransactionsConfig::~SurfaceFlingerTransactionsConfig() = default;
+SurfaceFlingerTransactionsConfig::SurfaceFlingerTransactionsConfig(const SurfaceFlingerTransactionsConfig&) = default;
+SurfaceFlingerTransactionsConfig& SurfaceFlingerTransactionsConfig::operator=(const SurfaceFlingerTransactionsConfig&) = default;
+SurfaceFlingerTransactionsConfig::SurfaceFlingerTransactionsConfig(SurfaceFlingerTransactionsConfig&&) noexcept = default;
+SurfaceFlingerTransactionsConfig& SurfaceFlingerTransactionsConfig::operator=(SurfaceFlingerTransactionsConfig&&) = default;
+
+bool SurfaceFlingerTransactionsConfig::operator==(const SurfaceFlingerTransactionsConfig& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(mode_, other.mode_);
+}
+
+bool SurfaceFlingerTransactionsConfig::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* mode */:
+ field.get(&mode_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string SurfaceFlingerTransactionsConfig::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> SurfaceFlingerTransactionsConfig::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void SurfaceFlingerTransactionsConfig::Serialize(::protozero::Message* msg) const {
+ // Field 1: mode
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, mode_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/config/ftrace/ftrace_config.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/config/ftrace/ftrace_config.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+FtraceConfig::FtraceConfig() = default;
+FtraceConfig::~FtraceConfig() = default;
+FtraceConfig::FtraceConfig(const FtraceConfig&) = default;
+FtraceConfig& FtraceConfig::operator=(const FtraceConfig&) = default;
+FtraceConfig::FtraceConfig(FtraceConfig&&) noexcept = default;
+FtraceConfig& FtraceConfig::operator=(FtraceConfig&&) = default;
+
+bool FtraceConfig::operator==(const FtraceConfig& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(ftrace_events_, other.ftrace_events_)
+ && ::protozero::internal::gen_helpers::EqualsField(atrace_categories_, other.atrace_categories_)
+ && ::protozero::internal::gen_helpers::EqualsField(atrace_apps_, other.atrace_apps_)
+ && ::protozero::internal::gen_helpers::EqualsField(buffer_size_kb_, other.buffer_size_kb_)
+ && ::protozero::internal::gen_helpers::EqualsField(drain_period_ms_, other.drain_period_ms_)
+ && ::protozero::internal::gen_helpers::EqualsField(drain_buffer_percent_, other.drain_buffer_percent_)
+ && ::protozero::internal::gen_helpers::EqualsField(compact_sched_, other.compact_sched_)
+ && ::protozero::internal::gen_helpers::EqualsField(print_filter_, other.print_filter_)
+ && ::protozero::internal::gen_helpers::EqualsField(symbolize_ksyms_, other.symbolize_ksyms_)
+ && ::protozero::internal::gen_helpers::EqualsField(ksyms_mem_policy_, other.ksyms_mem_policy_)
+ && ::protozero::internal::gen_helpers::EqualsField(initialize_ksyms_synchronously_for_testing_, other.initialize_ksyms_synchronously_for_testing_)
+ && ::protozero::internal::gen_helpers::EqualsField(throttle_rss_stat_, other.throttle_rss_stat_)
+ && ::protozero::internal::gen_helpers::EqualsField(disable_generic_events_, other.disable_generic_events_)
+ && ::protozero::internal::gen_helpers::EqualsField(syscall_events_, other.syscall_events_)
+ && ::protozero::internal::gen_helpers::EqualsField(enable_function_graph_, other.enable_function_graph_)
+ && ::protozero::internal::gen_helpers::EqualsField(function_filters_, other.function_filters_)
+ && ::protozero::internal::gen_helpers::EqualsField(function_graph_roots_, other.function_graph_roots_)
+ && ::protozero::internal::gen_helpers::EqualsField(preserve_ftrace_buffer_, other.preserve_ftrace_buffer_)
+ && ::protozero::internal::gen_helpers::EqualsField(use_monotonic_raw_clock_, other.use_monotonic_raw_clock_)
+ && ::protozero::internal::gen_helpers::EqualsField(instance_name_, other.instance_name_)
+ && ::protozero::internal::gen_helpers::EqualsField(buffer_size_lower_bound_, other.buffer_size_lower_bound_);
+}
+
+bool FtraceConfig::ParseFromArray(const void* raw, size_t size) {
+ ftrace_events_.clear();
+ atrace_categories_.clear();
+ atrace_apps_.clear();
+ syscall_events_.clear();
+ function_filters_.clear();
+ function_graph_roots_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* ftrace_events */:
+ ftrace_events_.emplace_back();
+ ::protozero::internal::gen_helpers::DeserializeString(field, &ftrace_events_.back());
+ break;
+ case 2 /* atrace_categories */:
+ atrace_categories_.emplace_back();
+ ::protozero::internal::gen_helpers::DeserializeString(field, &atrace_categories_.back());
+ break;
+ case 3 /* atrace_apps */:
+ atrace_apps_.emplace_back();
+ ::protozero::internal::gen_helpers::DeserializeString(field, &atrace_apps_.back());
+ break;
+ case 10 /* buffer_size_kb */:
+ field.get(&buffer_size_kb_);
+ break;
+ case 11 /* drain_period_ms */:
+ field.get(&drain_period_ms_);
+ break;
+ case 26 /* drain_buffer_percent */:
+ field.get(&drain_buffer_percent_);
+ break;
+ case 12 /* compact_sched */:
+ (*compact_sched_).ParseFromArray(field.data(), field.size());
+ break;
+ case 22 /* print_filter */:
+ (*print_filter_).ParseFromArray(field.data(), field.size());
+ break;
+ case 13 /* symbolize_ksyms */:
+ field.get(&symbolize_ksyms_);
+ break;
+ case 17 /* ksyms_mem_policy */:
+ field.get(&ksyms_mem_policy_);
+ break;
+ case 14 /* initialize_ksyms_synchronously_for_testing */:
+ field.get(&initialize_ksyms_synchronously_for_testing_);
+ break;
+ case 15 /* throttle_rss_stat */:
+ field.get(&throttle_rss_stat_);
+ break;
+ case 16 /* disable_generic_events */:
+ field.get(&disable_generic_events_);
+ break;
+ case 18 /* syscall_events */:
+ syscall_events_.emplace_back();
+ ::protozero::internal::gen_helpers::DeserializeString(field, &syscall_events_.back());
+ break;
+ case 19 /* enable_function_graph */:
+ field.get(&enable_function_graph_);
+ break;
+ case 20 /* function_filters */:
+ function_filters_.emplace_back();
+ ::protozero::internal::gen_helpers::DeserializeString(field, &function_filters_.back());
+ break;
+ case 21 /* function_graph_roots */:
+ function_graph_roots_.emplace_back();
+ ::protozero::internal::gen_helpers::DeserializeString(field, &function_graph_roots_.back());
+ break;
+ case 23 /* preserve_ftrace_buffer */:
+ field.get(&preserve_ftrace_buffer_);
+ break;
+ case 24 /* use_monotonic_raw_clock */:
+ field.get(&use_monotonic_raw_clock_);
+ break;
+ case 25 /* instance_name */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &instance_name_);
+ break;
+ case 27 /* buffer_size_lower_bound */:
+ field.get(&buffer_size_lower_bound_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string FtraceConfig::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> FtraceConfig::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void FtraceConfig::Serialize(::protozero::Message* msg) const {
+ // Field 1: ftrace_events
+ for (auto& it : ftrace_events_) {
+ ::protozero::internal::gen_helpers::SerializeString(1, it, msg);
+ }
+
+ // Field 2: atrace_categories
+ for (auto& it : atrace_categories_) {
+ ::protozero::internal::gen_helpers::SerializeString(2, it, msg);
+ }
+
+ // Field 3: atrace_apps
+ for (auto& it : atrace_apps_) {
+ ::protozero::internal::gen_helpers::SerializeString(3, it, msg);
+ }
+
+ // Field 10: buffer_size_kb
+ if (_has_field_[10]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(10, buffer_size_kb_, msg);
+ }
+
+ // Field 11: drain_period_ms
+ if (_has_field_[11]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(11, drain_period_ms_, msg);
+ }
+
+ // Field 26: drain_buffer_percent
+ if (_has_field_[26]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(26, drain_buffer_percent_, msg);
+ }
+
+ // Field 12: compact_sched
+ if (_has_field_[12]) {
+ (*compact_sched_).Serialize(msg->BeginNestedMessage<::protozero::Message>(12));
+ }
+
+ // Field 22: print_filter
+ if (_has_field_[22]) {
+ (*print_filter_).Serialize(msg->BeginNestedMessage<::protozero::Message>(22));
+ }
+
+ // Field 13: symbolize_ksyms
+ if (_has_field_[13]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(13, symbolize_ksyms_, msg);
+ }
+
+ // Field 17: ksyms_mem_policy
+ if (_has_field_[17]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(17, ksyms_mem_policy_, msg);
+ }
+
+ // Field 14: initialize_ksyms_synchronously_for_testing
+ if (_has_field_[14]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(14, initialize_ksyms_synchronously_for_testing_, msg);
+ }
+
+ // Field 15: throttle_rss_stat
+ if (_has_field_[15]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(15, throttle_rss_stat_, msg);
+ }
+
+ // Field 16: disable_generic_events
+ if (_has_field_[16]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(16, disable_generic_events_, msg);
+ }
+
+ // Field 18: syscall_events
+ for (auto& it : syscall_events_) {
+ ::protozero::internal::gen_helpers::SerializeString(18, it, msg);
+ }
+
+ // Field 19: enable_function_graph
+ if (_has_field_[19]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(19, enable_function_graph_, msg);
+ }
+
+ // Field 20: function_filters
+ for (auto& it : function_filters_) {
+ ::protozero::internal::gen_helpers::SerializeString(20, it, msg);
+ }
+
+ // Field 21: function_graph_roots
+ for (auto& it : function_graph_roots_) {
+ ::protozero::internal::gen_helpers::SerializeString(21, it, msg);
+ }
+
+ // Field 23: preserve_ftrace_buffer
+ if (_has_field_[23]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(23, preserve_ftrace_buffer_, msg);
+ }
+
+ // Field 24: use_monotonic_raw_clock
+ if (_has_field_[24]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(24, use_monotonic_raw_clock_, msg);
+ }
+
+ // Field 25: instance_name
+ if (_has_field_[25]) {
+ ::protozero::internal::gen_helpers::SerializeString(25, instance_name_, msg);
+ }
+
+ // Field 27: buffer_size_lower_bound
+ if (_has_field_[27]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(27, buffer_size_lower_bound_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+FtraceConfig_PrintFilter::FtraceConfig_PrintFilter() = default;
+FtraceConfig_PrintFilter::~FtraceConfig_PrintFilter() = default;
+FtraceConfig_PrintFilter::FtraceConfig_PrintFilter(const FtraceConfig_PrintFilter&) = default;
+FtraceConfig_PrintFilter& FtraceConfig_PrintFilter::operator=(const FtraceConfig_PrintFilter&) = default;
+FtraceConfig_PrintFilter::FtraceConfig_PrintFilter(FtraceConfig_PrintFilter&&) noexcept = default;
+FtraceConfig_PrintFilter& FtraceConfig_PrintFilter::operator=(FtraceConfig_PrintFilter&&) = default;
+
+bool FtraceConfig_PrintFilter::operator==(const FtraceConfig_PrintFilter& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(rules_, other.rules_);
+}
+
+int FtraceConfig_PrintFilter::rules_size() const { return static_cast<int>(rules_.size()); }
+void FtraceConfig_PrintFilter::clear_rules() { rules_.clear(); }
+FtraceConfig_PrintFilter_Rule* FtraceConfig_PrintFilter::add_rules() { rules_.emplace_back(); return &rules_.back(); }
+bool FtraceConfig_PrintFilter::ParseFromArray(const void* raw, size_t size) {
+ rules_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* rules */:
+ rules_.emplace_back();
+ rules_.back().ParseFromArray(field.data(), field.size());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string FtraceConfig_PrintFilter::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> FtraceConfig_PrintFilter::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void FtraceConfig_PrintFilter::Serialize(::protozero::Message* msg) const {
+ // Field 1: rules
+ for (auto& it : rules_) {
+ it.Serialize(msg->BeginNestedMessage<::protozero::Message>(1));
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+FtraceConfig_PrintFilter_Rule::FtraceConfig_PrintFilter_Rule() = default;
+FtraceConfig_PrintFilter_Rule::~FtraceConfig_PrintFilter_Rule() = default;
+FtraceConfig_PrintFilter_Rule::FtraceConfig_PrintFilter_Rule(const FtraceConfig_PrintFilter_Rule&) = default;
+FtraceConfig_PrintFilter_Rule& FtraceConfig_PrintFilter_Rule::operator=(const FtraceConfig_PrintFilter_Rule&) = default;
+FtraceConfig_PrintFilter_Rule::FtraceConfig_PrintFilter_Rule(FtraceConfig_PrintFilter_Rule&&) noexcept = default;
+FtraceConfig_PrintFilter_Rule& FtraceConfig_PrintFilter_Rule::operator=(FtraceConfig_PrintFilter_Rule&&) = default;
+
+bool FtraceConfig_PrintFilter_Rule::operator==(const FtraceConfig_PrintFilter_Rule& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(prefix_, other.prefix_)
+ && ::protozero::internal::gen_helpers::EqualsField(atrace_msg_, other.atrace_msg_)
+ && ::protozero::internal::gen_helpers::EqualsField(allow_, other.allow_);
+}
+
+bool FtraceConfig_PrintFilter_Rule::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* prefix */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &prefix_);
+ break;
+ case 3 /* atrace_msg */:
+ (*atrace_msg_).ParseFromArray(field.data(), field.size());
+ break;
+ case 2 /* allow */:
+ field.get(&allow_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string FtraceConfig_PrintFilter_Rule::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> FtraceConfig_PrintFilter_Rule::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void FtraceConfig_PrintFilter_Rule::Serialize(::protozero::Message* msg) const {
+ // Field 1: prefix
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeString(1, prefix_, msg);
+ }
+
+ // Field 3: atrace_msg
+ if (_has_field_[3]) {
+ (*atrace_msg_).Serialize(msg->BeginNestedMessage<::protozero::Message>(3));
+ }
+
+ // Field 2: allow
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(2, allow_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+FtraceConfig_PrintFilter_Rule_AtraceMessage::FtraceConfig_PrintFilter_Rule_AtraceMessage() = default;
+FtraceConfig_PrintFilter_Rule_AtraceMessage::~FtraceConfig_PrintFilter_Rule_AtraceMessage() = default;
+FtraceConfig_PrintFilter_Rule_AtraceMessage::FtraceConfig_PrintFilter_Rule_AtraceMessage(const FtraceConfig_PrintFilter_Rule_AtraceMessage&) = default;
+FtraceConfig_PrintFilter_Rule_AtraceMessage& FtraceConfig_PrintFilter_Rule_AtraceMessage::operator=(const FtraceConfig_PrintFilter_Rule_AtraceMessage&) = default;
+FtraceConfig_PrintFilter_Rule_AtraceMessage::FtraceConfig_PrintFilter_Rule_AtraceMessage(FtraceConfig_PrintFilter_Rule_AtraceMessage&&) noexcept = default;
+FtraceConfig_PrintFilter_Rule_AtraceMessage& FtraceConfig_PrintFilter_Rule_AtraceMessage::operator=(FtraceConfig_PrintFilter_Rule_AtraceMessage&&) = default;
+
+bool FtraceConfig_PrintFilter_Rule_AtraceMessage::operator==(const FtraceConfig_PrintFilter_Rule_AtraceMessage& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(type_, other.type_)
+ && ::protozero::internal::gen_helpers::EqualsField(prefix_, other.prefix_);
+}
+
+bool FtraceConfig_PrintFilter_Rule_AtraceMessage::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* type */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &type_);
+ break;
+ case 2 /* prefix */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &prefix_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string FtraceConfig_PrintFilter_Rule_AtraceMessage::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> FtraceConfig_PrintFilter_Rule_AtraceMessage::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void FtraceConfig_PrintFilter_Rule_AtraceMessage::Serialize(::protozero::Message* msg) const {
+ // Field 1: type
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeString(1, type_, msg);
+ }
+
+ // Field 2: prefix
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeString(2, prefix_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+FtraceConfig_CompactSchedConfig::FtraceConfig_CompactSchedConfig() = default;
+FtraceConfig_CompactSchedConfig::~FtraceConfig_CompactSchedConfig() = default;
+FtraceConfig_CompactSchedConfig::FtraceConfig_CompactSchedConfig(const FtraceConfig_CompactSchedConfig&) = default;
+FtraceConfig_CompactSchedConfig& FtraceConfig_CompactSchedConfig::operator=(const FtraceConfig_CompactSchedConfig&) = default;
+FtraceConfig_CompactSchedConfig::FtraceConfig_CompactSchedConfig(FtraceConfig_CompactSchedConfig&&) noexcept = default;
+FtraceConfig_CompactSchedConfig& FtraceConfig_CompactSchedConfig::operator=(FtraceConfig_CompactSchedConfig&&) = default;
+
+bool FtraceConfig_CompactSchedConfig::operator==(const FtraceConfig_CompactSchedConfig& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(enabled_, other.enabled_);
+}
+
+bool FtraceConfig_CompactSchedConfig::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* enabled */:
+ field.get(&enabled_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string FtraceConfig_CompactSchedConfig::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> FtraceConfig_CompactSchedConfig::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void FtraceConfig_CompactSchedConfig::Serialize(::protozero::Message* msg) const {
+ // Field 1: enabled
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(1, enabled_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/config/gpu/gpu_counter_config.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/config/gpu/gpu_counter_config.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+GpuCounterConfig::GpuCounterConfig() = default;
+GpuCounterConfig::~GpuCounterConfig() = default;
+GpuCounterConfig::GpuCounterConfig(const GpuCounterConfig&) = default;
+GpuCounterConfig& GpuCounterConfig::operator=(const GpuCounterConfig&) = default;
+GpuCounterConfig::GpuCounterConfig(GpuCounterConfig&&) noexcept = default;
+GpuCounterConfig& GpuCounterConfig::operator=(GpuCounterConfig&&) = default;
+
+bool GpuCounterConfig::operator==(const GpuCounterConfig& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(counter_period_ns_, other.counter_period_ns_)
+ && ::protozero::internal::gen_helpers::EqualsField(counter_ids_, other.counter_ids_)
+ && ::protozero::internal::gen_helpers::EqualsField(instrumented_sampling_, other.instrumented_sampling_)
+ && ::protozero::internal::gen_helpers::EqualsField(fix_gpu_clock_, other.fix_gpu_clock_);
+}
+
+bool GpuCounterConfig::ParseFromArray(const void* raw, size_t size) {
+ counter_ids_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* counter_period_ns */:
+ field.get(&counter_period_ns_);
+ break;
+ case 2 /* counter_ids */:
+ counter_ids_.emplace_back();
+ field.get(&counter_ids_.back());
+ break;
+ case 3 /* instrumented_sampling */:
+ field.get(&instrumented_sampling_);
+ break;
+ case 4 /* fix_gpu_clock */:
+ field.get(&fix_gpu_clock_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string GpuCounterConfig::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> GpuCounterConfig::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void GpuCounterConfig::Serialize(::protozero::Message* msg) const {
+ // Field 1: counter_period_ns
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, counter_period_ns_, msg);
+ }
+
+ // Field 2: counter_ids
+ for (auto& it : counter_ids_) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, it, msg);
+ }
+
+ // Field 3: instrumented_sampling
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(3, instrumented_sampling_, msg);
+ }
+
+ // Field 4: fix_gpu_clock
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(4, fix_gpu_clock_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/config/gpu/vulkan_memory_config.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/config/gpu/vulkan_memory_config.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+VulkanMemoryConfig::VulkanMemoryConfig() = default;
+VulkanMemoryConfig::~VulkanMemoryConfig() = default;
+VulkanMemoryConfig::VulkanMemoryConfig(const VulkanMemoryConfig&) = default;
+VulkanMemoryConfig& VulkanMemoryConfig::operator=(const VulkanMemoryConfig&) = default;
+VulkanMemoryConfig::VulkanMemoryConfig(VulkanMemoryConfig&&) noexcept = default;
+VulkanMemoryConfig& VulkanMemoryConfig::operator=(VulkanMemoryConfig&&) = default;
+
+bool VulkanMemoryConfig::operator==(const VulkanMemoryConfig& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(track_driver_memory_usage_, other.track_driver_memory_usage_)
+ && ::protozero::internal::gen_helpers::EqualsField(track_device_memory_usage_, other.track_device_memory_usage_);
+}
+
+bool VulkanMemoryConfig::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* track_driver_memory_usage */:
+ field.get(&track_driver_memory_usage_);
+ break;
+ case 2 /* track_device_memory_usage */:
+ field.get(&track_device_memory_usage_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string VulkanMemoryConfig::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> VulkanMemoryConfig::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void VulkanMemoryConfig::Serialize(::protozero::Message* msg) const {
+ // Field 1: track_driver_memory_usage
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(1, track_driver_memory_usage_, msg);
+ }
+
+ // Field 2: track_device_memory_usage
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(2, track_device_memory_usage_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/config/inode_file/inode_file_config.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/config/inode_file/inode_file_config.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+InodeFileConfig::InodeFileConfig() = default;
+InodeFileConfig::~InodeFileConfig() = default;
+InodeFileConfig::InodeFileConfig(const InodeFileConfig&) = default;
+InodeFileConfig& InodeFileConfig::operator=(const InodeFileConfig&) = default;
+InodeFileConfig::InodeFileConfig(InodeFileConfig&&) noexcept = default;
+InodeFileConfig& InodeFileConfig::operator=(InodeFileConfig&&) = default;
+
+bool InodeFileConfig::operator==(const InodeFileConfig& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(scan_interval_ms_, other.scan_interval_ms_)
+ && ::protozero::internal::gen_helpers::EqualsField(scan_delay_ms_, other.scan_delay_ms_)
+ && ::protozero::internal::gen_helpers::EqualsField(scan_batch_size_, other.scan_batch_size_)
+ && ::protozero::internal::gen_helpers::EqualsField(do_not_scan_, other.do_not_scan_)
+ && ::protozero::internal::gen_helpers::EqualsField(scan_mount_points_, other.scan_mount_points_)
+ && ::protozero::internal::gen_helpers::EqualsField(mount_point_mapping_, other.mount_point_mapping_);
+}
+
+int InodeFileConfig::mount_point_mapping_size() const { return static_cast<int>(mount_point_mapping_.size()); }
+void InodeFileConfig::clear_mount_point_mapping() { mount_point_mapping_.clear(); }
+InodeFileConfig_MountPointMappingEntry* InodeFileConfig::add_mount_point_mapping() { mount_point_mapping_.emplace_back(); return &mount_point_mapping_.back(); }
+bool InodeFileConfig::ParseFromArray(const void* raw, size_t size) {
+ scan_mount_points_.clear();
+ mount_point_mapping_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* scan_interval_ms */:
+ field.get(&scan_interval_ms_);
+ break;
+ case 2 /* scan_delay_ms */:
+ field.get(&scan_delay_ms_);
+ break;
+ case 3 /* scan_batch_size */:
+ field.get(&scan_batch_size_);
+ break;
+ case 4 /* do_not_scan */:
+ field.get(&do_not_scan_);
+ break;
+ case 5 /* scan_mount_points */:
+ scan_mount_points_.emplace_back();
+ ::protozero::internal::gen_helpers::DeserializeString(field, &scan_mount_points_.back());
+ break;
+ case 6 /* mount_point_mapping */:
+ mount_point_mapping_.emplace_back();
+ mount_point_mapping_.back().ParseFromArray(field.data(), field.size());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string InodeFileConfig::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> InodeFileConfig::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void InodeFileConfig::Serialize(::protozero::Message* msg) const {
+ // Field 1: scan_interval_ms
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, scan_interval_ms_, msg);
+ }
+
+ // Field 2: scan_delay_ms
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, scan_delay_ms_, msg);
+ }
+
+ // Field 3: scan_batch_size
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(3, scan_batch_size_, msg);
+ }
+
+ // Field 4: do_not_scan
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(4, do_not_scan_, msg);
+ }
+
+ // Field 5: scan_mount_points
+ for (auto& it : scan_mount_points_) {
+ ::protozero::internal::gen_helpers::SerializeString(5, it, msg);
+ }
+
+ // Field 6: mount_point_mapping
+ for (auto& it : mount_point_mapping_) {
+ it.Serialize(msg->BeginNestedMessage<::protozero::Message>(6));
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+InodeFileConfig_MountPointMappingEntry::InodeFileConfig_MountPointMappingEntry() = default;
+InodeFileConfig_MountPointMappingEntry::~InodeFileConfig_MountPointMappingEntry() = default;
+InodeFileConfig_MountPointMappingEntry::InodeFileConfig_MountPointMappingEntry(const InodeFileConfig_MountPointMappingEntry&) = default;
+InodeFileConfig_MountPointMappingEntry& InodeFileConfig_MountPointMappingEntry::operator=(const InodeFileConfig_MountPointMappingEntry&) = default;
+InodeFileConfig_MountPointMappingEntry::InodeFileConfig_MountPointMappingEntry(InodeFileConfig_MountPointMappingEntry&&) noexcept = default;
+InodeFileConfig_MountPointMappingEntry& InodeFileConfig_MountPointMappingEntry::operator=(InodeFileConfig_MountPointMappingEntry&&) = default;
+
+bool InodeFileConfig_MountPointMappingEntry::operator==(const InodeFileConfig_MountPointMappingEntry& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(mountpoint_, other.mountpoint_)
+ && ::protozero::internal::gen_helpers::EqualsField(scan_roots_, other.scan_roots_);
+}
+
+bool InodeFileConfig_MountPointMappingEntry::ParseFromArray(const void* raw, size_t size) {
+ scan_roots_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* mountpoint */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &mountpoint_);
+ break;
+ case 2 /* scan_roots */:
+ scan_roots_.emplace_back();
+ ::protozero::internal::gen_helpers::DeserializeString(field, &scan_roots_.back());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string InodeFileConfig_MountPointMappingEntry::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> InodeFileConfig_MountPointMappingEntry::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void InodeFileConfig_MountPointMappingEntry::Serialize(::protozero::Message* msg) const {
+ // Field 1: mountpoint
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeString(1, mountpoint_, msg);
+ }
+
+ // Field 2: scan_roots
+ for (auto& it : scan_roots_) {
+ ::protozero::internal::gen_helpers::SerializeString(2, it, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/config/interceptors/console_config.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/config/interceptors/console_config.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+ConsoleConfig::ConsoleConfig() = default;
+ConsoleConfig::~ConsoleConfig() = default;
+ConsoleConfig::ConsoleConfig(const ConsoleConfig&) = default;
+ConsoleConfig& ConsoleConfig::operator=(const ConsoleConfig&) = default;
+ConsoleConfig::ConsoleConfig(ConsoleConfig&&) noexcept = default;
+ConsoleConfig& ConsoleConfig::operator=(ConsoleConfig&&) = default;
+
+bool ConsoleConfig::operator==(const ConsoleConfig& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(output_, other.output_)
+ && ::protozero::internal::gen_helpers::EqualsField(enable_colors_, other.enable_colors_);
+}
+
+bool ConsoleConfig::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* output */:
+ field.get(&output_);
+ break;
+ case 2 /* enable_colors */:
+ field.get(&enable_colors_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string ConsoleConfig::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> ConsoleConfig::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void ConsoleConfig::Serialize(::protozero::Message* msg) const {
+ // Field 1: output
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, output_, msg);
+ }
+
+ // Field 2: enable_colors
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(2, enable_colors_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/config/power/android_power_config.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/config/power/android_power_config.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+AndroidPowerConfig::AndroidPowerConfig() = default;
+AndroidPowerConfig::~AndroidPowerConfig() = default;
+AndroidPowerConfig::AndroidPowerConfig(const AndroidPowerConfig&) = default;
+AndroidPowerConfig& AndroidPowerConfig::operator=(const AndroidPowerConfig&) = default;
+AndroidPowerConfig::AndroidPowerConfig(AndroidPowerConfig&&) noexcept = default;
+AndroidPowerConfig& AndroidPowerConfig::operator=(AndroidPowerConfig&&) = default;
+
+bool AndroidPowerConfig::operator==(const AndroidPowerConfig& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(battery_poll_ms_, other.battery_poll_ms_)
+ && ::protozero::internal::gen_helpers::EqualsField(battery_counters_, other.battery_counters_)
+ && ::protozero::internal::gen_helpers::EqualsField(collect_power_rails_, other.collect_power_rails_)
+ && ::protozero::internal::gen_helpers::EqualsField(collect_energy_estimation_breakdown_, other.collect_energy_estimation_breakdown_)
+ && ::protozero::internal::gen_helpers::EqualsField(collect_entity_state_residency_, other.collect_entity_state_residency_);
+}
+
+bool AndroidPowerConfig::ParseFromArray(const void* raw, size_t size) {
+ battery_counters_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* battery_poll_ms */:
+ field.get(&battery_poll_ms_);
+ break;
+ case 2 /* battery_counters */:
+ battery_counters_.emplace_back();
+ field.get(&battery_counters_.back());
+ break;
+ case 3 /* collect_power_rails */:
+ field.get(&collect_power_rails_);
+ break;
+ case 4 /* collect_energy_estimation_breakdown */:
+ field.get(&collect_energy_estimation_breakdown_);
+ break;
+ case 5 /* collect_entity_state_residency */:
+ field.get(&collect_entity_state_residency_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string AndroidPowerConfig::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> AndroidPowerConfig::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void AndroidPowerConfig::Serialize(::protozero::Message* msg) const {
+ // Field 1: battery_poll_ms
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, battery_poll_ms_, msg);
+ }
+
+ // Field 2: battery_counters
+ for (auto& it : battery_counters_) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, it, msg);
+ }
+
+ // Field 3: collect_power_rails
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(3, collect_power_rails_, msg);
+ }
+
+ // Field 4: collect_energy_estimation_breakdown
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(4, collect_energy_estimation_breakdown_, msg);
+ }
+
+ // Field 5: collect_entity_state_residency
+ if (_has_field_[5]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(5, collect_entity_state_residency_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/config/process_stats/process_stats_config.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/config/process_stats/process_stats_config.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+ProcessStatsConfig::ProcessStatsConfig() = default;
+ProcessStatsConfig::~ProcessStatsConfig() = default;
+ProcessStatsConfig::ProcessStatsConfig(const ProcessStatsConfig&) = default;
+ProcessStatsConfig& ProcessStatsConfig::operator=(const ProcessStatsConfig&) = default;
+ProcessStatsConfig::ProcessStatsConfig(ProcessStatsConfig&&) noexcept = default;
+ProcessStatsConfig& ProcessStatsConfig::operator=(ProcessStatsConfig&&) = default;
+
+bool ProcessStatsConfig::operator==(const ProcessStatsConfig& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(quirks_, other.quirks_)
+ && ::protozero::internal::gen_helpers::EqualsField(scan_all_processes_on_start_, other.scan_all_processes_on_start_)
+ && ::protozero::internal::gen_helpers::EqualsField(record_thread_names_, other.record_thread_names_)
+ && ::protozero::internal::gen_helpers::EqualsField(proc_stats_poll_ms_, other.proc_stats_poll_ms_)
+ && ::protozero::internal::gen_helpers::EqualsField(proc_stats_cache_ttl_ms_, other.proc_stats_cache_ttl_ms_)
+ && ::protozero::internal::gen_helpers::EqualsField(resolve_process_fds_, other.resolve_process_fds_)
+ && ::protozero::internal::gen_helpers::EqualsField(scan_smaps_rollup_, other.scan_smaps_rollup_)
+ && ::protozero::internal::gen_helpers::EqualsField(record_process_age_, other.record_process_age_)
+ && ::protozero::internal::gen_helpers::EqualsField(record_process_runtime_, other.record_process_runtime_);
+}
+
+bool ProcessStatsConfig::ParseFromArray(const void* raw, size_t size) {
+ quirks_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* quirks */:
+ quirks_.emplace_back();
+ field.get(&quirks_.back());
+ break;
+ case 2 /* scan_all_processes_on_start */:
+ field.get(&scan_all_processes_on_start_);
+ break;
+ case 3 /* record_thread_names */:
+ field.get(&record_thread_names_);
+ break;
+ case 4 /* proc_stats_poll_ms */:
+ field.get(&proc_stats_poll_ms_);
+ break;
+ case 6 /* proc_stats_cache_ttl_ms */:
+ field.get(&proc_stats_cache_ttl_ms_);
+ break;
+ case 9 /* resolve_process_fds */:
+ field.get(&resolve_process_fds_);
+ break;
+ case 10 /* scan_smaps_rollup */:
+ field.get(&scan_smaps_rollup_);
+ break;
+ case 11 /* record_process_age */:
+ field.get(&record_process_age_);
+ break;
+ case 12 /* record_process_runtime */:
+ field.get(&record_process_runtime_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string ProcessStatsConfig::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> ProcessStatsConfig::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void ProcessStatsConfig::Serialize(::protozero::Message* msg) const {
+ // Field 1: quirks
+ for (auto& it : quirks_) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, it, msg);
+ }
+
+ // Field 2: scan_all_processes_on_start
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(2, scan_all_processes_on_start_, msg);
+ }
+
+ // Field 3: record_thread_names
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(3, record_thread_names_, msg);
+ }
+
+ // Field 4: proc_stats_poll_ms
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(4, proc_stats_poll_ms_, msg);
+ }
+
+ // Field 6: proc_stats_cache_ttl_ms
+ if (_has_field_[6]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(6, proc_stats_cache_ttl_ms_, msg);
+ }
+
+ // Field 9: resolve_process_fds
+ if (_has_field_[9]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(9, resolve_process_fds_, msg);
+ }
+
+ // Field 10: scan_smaps_rollup
+ if (_has_field_[10]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(10, scan_smaps_rollup_, msg);
+ }
+
+ // Field 11: record_process_age
+ if (_has_field_[11]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(11, record_process_age_, msg);
+ }
+
+ // Field 12: record_process_runtime
+ if (_has_field_[12]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(12, record_process_runtime_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/config/profiling/heapprofd_config.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/config/profiling/heapprofd_config.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+HeapprofdConfig::HeapprofdConfig() = default;
+HeapprofdConfig::~HeapprofdConfig() = default;
+HeapprofdConfig::HeapprofdConfig(const HeapprofdConfig&) = default;
+HeapprofdConfig& HeapprofdConfig::operator=(const HeapprofdConfig&) = default;
+HeapprofdConfig::HeapprofdConfig(HeapprofdConfig&&) noexcept = default;
+HeapprofdConfig& HeapprofdConfig::operator=(HeapprofdConfig&&) = default;
+
+bool HeapprofdConfig::operator==(const HeapprofdConfig& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(sampling_interval_bytes_, other.sampling_interval_bytes_)
+ && ::protozero::internal::gen_helpers::EqualsField(adaptive_sampling_shmem_threshold_, other.adaptive_sampling_shmem_threshold_)
+ && ::protozero::internal::gen_helpers::EqualsField(adaptive_sampling_max_sampling_interval_bytes_, other.adaptive_sampling_max_sampling_interval_bytes_)
+ && ::protozero::internal::gen_helpers::EqualsField(process_cmdline_, other.process_cmdline_)
+ && ::protozero::internal::gen_helpers::EqualsField(pid_, other.pid_)
+ && ::protozero::internal::gen_helpers::EqualsField(target_installed_by_, other.target_installed_by_)
+ && ::protozero::internal::gen_helpers::EqualsField(heaps_, other.heaps_)
+ && ::protozero::internal::gen_helpers::EqualsField(exclude_heaps_, other.exclude_heaps_)
+ && ::protozero::internal::gen_helpers::EqualsField(stream_allocations_, other.stream_allocations_)
+ && ::protozero::internal::gen_helpers::EqualsField(heap_sampling_intervals_, other.heap_sampling_intervals_)
+ && ::protozero::internal::gen_helpers::EqualsField(all_heaps_, other.all_heaps_)
+ && ::protozero::internal::gen_helpers::EqualsField(all_, other.all_)
+ && ::protozero::internal::gen_helpers::EqualsField(min_anonymous_memory_kb_, other.min_anonymous_memory_kb_)
+ && ::protozero::internal::gen_helpers::EqualsField(max_heapprofd_memory_kb_, other.max_heapprofd_memory_kb_)
+ && ::protozero::internal::gen_helpers::EqualsField(max_heapprofd_cpu_secs_, other.max_heapprofd_cpu_secs_)
+ && ::protozero::internal::gen_helpers::EqualsField(skip_symbol_prefix_, other.skip_symbol_prefix_)
+ && ::protozero::internal::gen_helpers::EqualsField(continuous_dump_config_, other.continuous_dump_config_)
+ && ::protozero::internal::gen_helpers::EqualsField(shmem_size_bytes_, other.shmem_size_bytes_)
+ && ::protozero::internal::gen_helpers::EqualsField(block_client_, other.block_client_)
+ && ::protozero::internal::gen_helpers::EqualsField(block_client_timeout_us_, other.block_client_timeout_us_)
+ && ::protozero::internal::gen_helpers::EqualsField(no_startup_, other.no_startup_)
+ && ::protozero::internal::gen_helpers::EqualsField(no_running_, other.no_running_)
+ && ::protozero::internal::gen_helpers::EqualsField(dump_at_max_, other.dump_at_max_)
+ && ::protozero::internal::gen_helpers::EqualsField(disable_fork_teardown_, other.disable_fork_teardown_)
+ && ::protozero::internal::gen_helpers::EqualsField(disable_vfork_detection_, other.disable_vfork_detection_);
+}
+
+bool HeapprofdConfig::ParseFromArray(const void* raw, size_t size) {
+ process_cmdline_.clear();
+ pid_.clear();
+ target_installed_by_.clear();
+ heaps_.clear();
+ exclude_heaps_.clear();
+ heap_sampling_intervals_.clear();
+ skip_symbol_prefix_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* sampling_interval_bytes */:
+ field.get(&sampling_interval_bytes_);
+ break;
+ case 24 /* adaptive_sampling_shmem_threshold */:
+ field.get(&adaptive_sampling_shmem_threshold_);
+ break;
+ case 25 /* adaptive_sampling_max_sampling_interval_bytes */:
+ field.get(&adaptive_sampling_max_sampling_interval_bytes_);
+ break;
+ case 2 /* process_cmdline */:
+ process_cmdline_.emplace_back();
+ ::protozero::internal::gen_helpers::DeserializeString(field, &process_cmdline_.back());
+ break;
+ case 4 /* pid */:
+ pid_.emplace_back();
+ field.get(&pid_.back());
+ break;
+ case 26 /* target_installed_by */:
+ target_installed_by_.emplace_back();
+ ::protozero::internal::gen_helpers::DeserializeString(field, &target_installed_by_.back());
+ break;
+ case 20 /* heaps */:
+ heaps_.emplace_back();
+ ::protozero::internal::gen_helpers::DeserializeString(field, &heaps_.back());
+ break;
+ case 27 /* exclude_heaps */:
+ exclude_heaps_.emplace_back();
+ ::protozero::internal::gen_helpers::DeserializeString(field, &exclude_heaps_.back());
+ break;
+ case 23 /* stream_allocations */:
+ field.get(&stream_allocations_);
+ break;
+ case 22 /* heap_sampling_intervals */:
+ heap_sampling_intervals_.emplace_back();
+ field.get(&heap_sampling_intervals_.back());
+ break;
+ case 21 /* all_heaps */:
+ field.get(&all_heaps_);
+ break;
+ case 5 /* all */:
+ field.get(&all_);
+ break;
+ case 15 /* min_anonymous_memory_kb */:
+ field.get(&min_anonymous_memory_kb_);
+ break;
+ case 16 /* max_heapprofd_memory_kb */:
+ field.get(&max_heapprofd_memory_kb_);
+ break;
+ case 17 /* max_heapprofd_cpu_secs */:
+ field.get(&max_heapprofd_cpu_secs_);
+ break;
+ case 7 /* skip_symbol_prefix */:
+ skip_symbol_prefix_.emplace_back();
+ ::protozero::internal::gen_helpers::DeserializeString(field, &skip_symbol_prefix_.back());
+ break;
+ case 6 /* continuous_dump_config */:
+ (*continuous_dump_config_).ParseFromArray(field.data(), field.size());
+ break;
+ case 8 /* shmem_size_bytes */:
+ field.get(&shmem_size_bytes_);
+ break;
+ case 9 /* block_client */:
+ field.get(&block_client_);
+ break;
+ case 14 /* block_client_timeout_us */:
+ field.get(&block_client_timeout_us_);
+ break;
+ case 10 /* no_startup */:
+ field.get(&no_startup_);
+ break;
+ case 11 /* no_running */:
+ field.get(&no_running_);
+ break;
+ case 13 /* dump_at_max */:
+ field.get(&dump_at_max_);
+ break;
+ case 18 /* disable_fork_teardown */:
+ field.get(&disable_fork_teardown_);
+ break;
+ case 19 /* disable_vfork_detection */:
+ field.get(&disable_vfork_detection_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string HeapprofdConfig::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> HeapprofdConfig::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void HeapprofdConfig::Serialize(::protozero::Message* msg) const {
+ // Field 1: sampling_interval_bytes
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, sampling_interval_bytes_, msg);
+ }
+
+ // Field 24: adaptive_sampling_shmem_threshold
+ if (_has_field_[24]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(24, adaptive_sampling_shmem_threshold_, msg);
+ }
+
+ // Field 25: adaptive_sampling_max_sampling_interval_bytes
+ if (_has_field_[25]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(25, adaptive_sampling_max_sampling_interval_bytes_, msg);
+ }
+
+ // Field 2: process_cmdline
+ for (auto& it : process_cmdline_) {
+ ::protozero::internal::gen_helpers::SerializeString(2, it, msg);
+ }
+
+ // Field 4: pid
+ for (auto& it : pid_) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(4, it, msg);
+ }
+
+ // Field 26: target_installed_by
+ for (auto& it : target_installed_by_) {
+ ::protozero::internal::gen_helpers::SerializeString(26, it, msg);
+ }
+
+ // Field 20: heaps
+ for (auto& it : heaps_) {
+ ::protozero::internal::gen_helpers::SerializeString(20, it, msg);
+ }
+
+ // Field 27: exclude_heaps
+ for (auto& it : exclude_heaps_) {
+ ::protozero::internal::gen_helpers::SerializeString(27, it, msg);
+ }
+
+ // Field 23: stream_allocations
+ if (_has_field_[23]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(23, stream_allocations_, msg);
+ }
+
+ // Field 22: heap_sampling_intervals
+ for (auto& it : heap_sampling_intervals_) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(22, it, msg);
+ }
+
+ // Field 21: all_heaps
+ if (_has_field_[21]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(21, all_heaps_, msg);
+ }
+
+ // Field 5: all
+ if (_has_field_[5]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(5, all_, msg);
+ }
+
+ // Field 15: min_anonymous_memory_kb
+ if (_has_field_[15]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(15, min_anonymous_memory_kb_, msg);
+ }
+
+ // Field 16: max_heapprofd_memory_kb
+ if (_has_field_[16]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(16, max_heapprofd_memory_kb_, msg);
+ }
+
+ // Field 17: max_heapprofd_cpu_secs
+ if (_has_field_[17]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(17, max_heapprofd_cpu_secs_, msg);
+ }
+
+ // Field 7: skip_symbol_prefix
+ for (auto& it : skip_symbol_prefix_) {
+ ::protozero::internal::gen_helpers::SerializeString(7, it, msg);
+ }
+
+ // Field 6: continuous_dump_config
+ if (_has_field_[6]) {
+ (*continuous_dump_config_).Serialize(msg->BeginNestedMessage<::protozero::Message>(6));
+ }
+
+ // Field 8: shmem_size_bytes
+ if (_has_field_[8]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(8, shmem_size_bytes_, msg);
+ }
+
+ // Field 9: block_client
+ if (_has_field_[9]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(9, block_client_, msg);
+ }
+
+ // Field 14: block_client_timeout_us
+ if (_has_field_[14]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(14, block_client_timeout_us_, msg);
+ }
+
+ // Field 10: no_startup
+ if (_has_field_[10]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(10, no_startup_, msg);
+ }
+
+ // Field 11: no_running
+ if (_has_field_[11]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(11, no_running_, msg);
+ }
+
+ // Field 13: dump_at_max
+ if (_has_field_[13]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(13, dump_at_max_, msg);
+ }
+
+ // Field 18: disable_fork_teardown
+ if (_has_field_[18]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(18, disable_fork_teardown_, msg);
+ }
+
+ // Field 19: disable_vfork_detection
+ if (_has_field_[19]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(19, disable_vfork_detection_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+HeapprofdConfig_ContinuousDumpConfig::HeapprofdConfig_ContinuousDumpConfig() = default;
+HeapprofdConfig_ContinuousDumpConfig::~HeapprofdConfig_ContinuousDumpConfig() = default;
+HeapprofdConfig_ContinuousDumpConfig::HeapprofdConfig_ContinuousDumpConfig(const HeapprofdConfig_ContinuousDumpConfig&) = default;
+HeapprofdConfig_ContinuousDumpConfig& HeapprofdConfig_ContinuousDumpConfig::operator=(const HeapprofdConfig_ContinuousDumpConfig&) = default;
+HeapprofdConfig_ContinuousDumpConfig::HeapprofdConfig_ContinuousDumpConfig(HeapprofdConfig_ContinuousDumpConfig&&) noexcept = default;
+HeapprofdConfig_ContinuousDumpConfig& HeapprofdConfig_ContinuousDumpConfig::operator=(HeapprofdConfig_ContinuousDumpConfig&&) = default;
+
+bool HeapprofdConfig_ContinuousDumpConfig::operator==(const HeapprofdConfig_ContinuousDumpConfig& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(dump_phase_ms_, other.dump_phase_ms_)
+ && ::protozero::internal::gen_helpers::EqualsField(dump_interval_ms_, other.dump_interval_ms_);
+}
+
+bool HeapprofdConfig_ContinuousDumpConfig::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 5 /* dump_phase_ms */:
+ field.get(&dump_phase_ms_);
+ break;
+ case 6 /* dump_interval_ms */:
+ field.get(&dump_interval_ms_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string HeapprofdConfig_ContinuousDumpConfig::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> HeapprofdConfig_ContinuousDumpConfig::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void HeapprofdConfig_ContinuousDumpConfig::Serialize(::protozero::Message* msg) const {
+ // Field 5: dump_phase_ms
+ if (_has_field_[5]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(5, dump_phase_ms_, msg);
+ }
+
+ // Field 6: dump_interval_ms
+ if (_has_field_[6]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(6, dump_interval_ms_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/config/profiling/java_hprof_config.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/config/profiling/java_hprof_config.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+JavaHprofConfig::JavaHprofConfig() = default;
+JavaHprofConfig::~JavaHprofConfig() = default;
+JavaHprofConfig::JavaHprofConfig(const JavaHprofConfig&) = default;
+JavaHprofConfig& JavaHprofConfig::operator=(const JavaHprofConfig&) = default;
+JavaHprofConfig::JavaHprofConfig(JavaHprofConfig&&) noexcept = default;
+JavaHprofConfig& JavaHprofConfig::operator=(JavaHprofConfig&&) = default;
+
+bool JavaHprofConfig::operator==(const JavaHprofConfig& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(process_cmdline_, other.process_cmdline_)
+ && ::protozero::internal::gen_helpers::EqualsField(pid_, other.pid_)
+ && ::protozero::internal::gen_helpers::EqualsField(target_installed_by_, other.target_installed_by_)
+ && ::protozero::internal::gen_helpers::EqualsField(continuous_dump_config_, other.continuous_dump_config_)
+ && ::protozero::internal::gen_helpers::EqualsField(min_anonymous_memory_kb_, other.min_anonymous_memory_kb_)
+ && ::protozero::internal::gen_helpers::EqualsField(dump_smaps_, other.dump_smaps_)
+ && ::protozero::internal::gen_helpers::EqualsField(ignored_types_, other.ignored_types_);
+}
+
+bool JavaHprofConfig::ParseFromArray(const void* raw, size_t size) {
+ process_cmdline_.clear();
+ pid_.clear();
+ target_installed_by_.clear();
+ ignored_types_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* process_cmdline */:
+ process_cmdline_.emplace_back();
+ ::protozero::internal::gen_helpers::DeserializeString(field, &process_cmdline_.back());
+ break;
+ case 2 /* pid */:
+ pid_.emplace_back();
+ field.get(&pid_.back());
+ break;
+ case 7 /* target_installed_by */:
+ target_installed_by_.emplace_back();
+ ::protozero::internal::gen_helpers::DeserializeString(field, &target_installed_by_.back());
+ break;
+ case 3 /* continuous_dump_config */:
+ (*continuous_dump_config_).ParseFromArray(field.data(), field.size());
+ break;
+ case 4 /* min_anonymous_memory_kb */:
+ field.get(&min_anonymous_memory_kb_);
+ break;
+ case 5 /* dump_smaps */:
+ field.get(&dump_smaps_);
+ break;
+ case 6 /* ignored_types */:
+ ignored_types_.emplace_back();
+ ::protozero::internal::gen_helpers::DeserializeString(field, &ignored_types_.back());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string JavaHprofConfig::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> JavaHprofConfig::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void JavaHprofConfig::Serialize(::protozero::Message* msg) const {
+ // Field 1: process_cmdline
+ for (auto& it : process_cmdline_) {
+ ::protozero::internal::gen_helpers::SerializeString(1, it, msg);
+ }
+
+ // Field 2: pid
+ for (auto& it : pid_) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, it, msg);
+ }
+
+ // Field 7: target_installed_by
+ for (auto& it : target_installed_by_) {
+ ::protozero::internal::gen_helpers::SerializeString(7, it, msg);
+ }
+
+ // Field 3: continuous_dump_config
+ if (_has_field_[3]) {
+ (*continuous_dump_config_).Serialize(msg->BeginNestedMessage<::protozero::Message>(3));
+ }
+
+ // Field 4: min_anonymous_memory_kb
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(4, min_anonymous_memory_kb_, msg);
+ }
+
+ // Field 5: dump_smaps
+ if (_has_field_[5]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(5, dump_smaps_, msg);
+ }
+
+ // Field 6: ignored_types
+ for (auto& it : ignored_types_) {
+ ::protozero::internal::gen_helpers::SerializeString(6, it, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+JavaHprofConfig_ContinuousDumpConfig::JavaHprofConfig_ContinuousDumpConfig() = default;
+JavaHprofConfig_ContinuousDumpConfig::~JavaHprofConfig_ContinuousDumpConfig() = default;
+JavaHprofConfig_ContinuousDumpConfig::JavaHprofConfig_ContinuousDumpConfig(const JavaHprofConfig_ContinuousDumpConfig&) = default;
+JavaHprofConfig_ContinuousDumpConfig& JavaHprofConfig_ContinuousDumpConfig::operator=(const JavaHprofConfig_ContinuousDumpConfig&) = default;
+JavaHprofConfig_ContinuousDumpConfig::JavaHprofConfig_ContinuousDumpConfig(JavaHprofConfig_ContinuousDumpConfig&&) noexcept = default;
+JavaHprofConfig_ContinuousDumpConfig& JavaHprofConfig_ContinuousDumpConfig::operator=(JavaHprofConfig_ContinuousDumpConfig&&) = default;
+
+bool JavaHprofConfig_ContinuousDumpConfig::operator==(const JavaHprofConfig_ContinuousDumpConfig& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(dump_phase_ms_, other.dump_phase_ms_)
+ && ::protozero::internal::gen_helpers::EqualsField(dump_interval_ms_, other.dump_interval_ms_)
+ && ::protozero::internal::gen_helpers::EqualsField(scan_pids_only_on_start_, other.scan_pids_only_on_start_);
+}
+
+bool JavaHprofConfig_ContinuousDumpConfig::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* dump_phase_ms */:
+ field.get(&dump_phase_ms_);
+ break;
+ case 2 /* dump_interval_ms */:
+ field.get(&dump_interval_ms_);
+ break;
+ case 3 /* scan_pids_only_on_start */:
+ field.get(&scan_pids_only_on_start_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string JavaHprofConfig_ContinuousDumpConfig::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> JavaHprofConfig_ContinuousDumpConfig::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void JavaHprofConfig_ContinuousDumpConfig::Serialize(::protozero::Message* msg) const {
+ // Field 1: dump_phase_ms
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, dump_phase_ms_, msg);
+ }
+
+ // Field 2: dump_interval_ms
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, dump_interval_ms_, msg);
+ }
+
+ // Field 3: scan_pids_only_on_start
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(3, scan_pids_only_on_start_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/config/profiling/perf_event_config.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/config/profiling/perf_event_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/perf_events.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+PerfEventConfig::PerfEventConfig() = default;
+PerfEventConfig::~PerfEventConfig() = default;
+PerfEventConfig::PerfEventConfig(const PerfEventConfig&) = default;
+PerfEventConfig& PerfEventConfig::operator=(const PerfEventConfig&) = default;
+PerfEventConfig::PerfEventConfig(PerfEventConfig&&) noexcept = default;
+PerfEventConfig& PerfEventConfig::operator=(PerfEventConfig&&) = default;
+
+bool PerfEventConfig::operator==(const PerfEventConfig& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(timebase_, other.timebase_)
+ && ::protozero::internal::gen_helpers::EqualsField(callstack_sampling_, other.callstack_sampling_)
+ && ::protozero::internal::gen_helpers::EqualsField(ring_buffer_read_period_ms_, other.ring_buffer_read_period_ms_)
+ && ::protozero::internal::gen_helpers::EqualsField(ring_buffer_pages_, other.ring_buffer_pages_)
+ && ::protozero::internal::gen_helpers::EqualsField(max_enqueued_footprint_kb_, other.max_enqueued_footprint_kb_)
+ && ::protozero::internal::gen_helpers::EqualsField(max_daemon_memory_kb_, other.max_daemon_memory_kb_)
+ && ::protozero::internal::gen_helpers::EqualsField(remote_descriptor_timeout_ms_, other.remote_descriptor_timeout_ms_)
+ && ::protozero::internal::gen_helpers::EqualsField(unwind_state_clear_period_ms_, other.unwind_state_clear_period_ms_)
+ && ::protozero::internal::gen_helpers::EqualsField(target_installed_by_, other.target_installed_by_)
+ && ::protozero::internal::gen_helpers::EqualsField(all_cpus_, other.all_cpus_)
+ && ::protozero::internal::gen_helpers::EqualsField(sampling_frequency_, other.sampling_frequency_)
+ && ::protozero::internal::gen_helpers::EqualsField(kernel_frames_, other.kernel_frames_)
+ && ::protozero::internal::gen_helpers::EqualsField(target_pid_, other.target_pid_)
+ && ::protozero::internal::gen_helpers::EqualsField(target_cmdline_, other.target_cmdline_)
+ && ::protozero::internal::gen_helpers::EqualsField(exclude_pid_, other.exclude_pid_)
+ && ::protozero::internal::gen_helpers::EqualsField(exclude_cmdline_, other.exclude_cmdline_)
+ && ::protozero::internal::gen_helpers::EqualsField(additional_cmdline_count_, other.additional_cmdline_count_);
+}
+
+bool PerfEventConfig::ParseFromArray(const void* raw, size_t size) {
+ target_installed_by_.clear();
+ target_pid_.clear();
+ target_cmdline_.clear();
+ exclude_pid_.clear();
+ exclude_cmdline_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 15 /* timebase */:
+ (*timebase_).ParseFromArray(field.data(), field.size());
+ break;
+ case 16 /* callstack_sampling */:
+ (*callstack_sampling_).ParseFromArray(field.data(), field.size());
+ break;
+ case 8 /* ring_buffer_read_period_ms */:
+ field.get(&ring_buffer_read_period_ms_);
+ break;
+ case 3 /* ring_buffer_pages */:
+ field.get(&ring_buffer_pages_);
+ break;
+ case 17 /* max_enqueued_footprint_kb */:
+ field.get(&max_enqueued_footprint_kb_);
+ break;
+ case 13 /* max_daemon_memory_kb */:
+ field.get(&max_daemon_memory_kb_);
+ break;
+ case 9 /* remote_descriptor_timeout_ms */:
+ field.get(&remote_descriptor_timeout_ms_);
+ break;
+ case 10 /* unwind_state_clear_period_ms */:
+ field.get(&unwind_state_clear_period_ms_);
+ break;
+ case 18 /* target_installed_by */:
+ target_installed_by_.emplace_back();
+ ::protozero::internal::gen_helpers::DeserializeString(field, &target_installed_by_.back());
+ break;
+ case 1 /* all_cpus */:
+ field.get(&all_cpus_);
+ break;
+ case 2 /* sampling_frequency */:
+ field.get(&sampling_frequency_);
+ break;
+ case 12 /* kernel_frames */:
+ field.get(&kernel_frames_);
+ break;
+ case 4 /* target_pid */:
+ target_pid_.emplace_back();
+ field.get(&target_pid_.back());
+ break;
+ case 5 /* target_cmdline */:
+ target_cmdline_.emplace_back();
+ ::protozero::internal::gen_helpers::DeserializeString(field, &target_cmdline_.back());
+ break;
+ case 6 /* exclude_pid */:
+ exclude_pid_.emplace_back();
+ field.get(&exclude_pid_.back());
+ break;
+ case 7 /* exclude_cmdline */:
+ exclude_cmdline_.emplace_back();
+ ::protozero::internal::gen_helpers::DeserializeString(field, &exclude_cmdline_.back());
+ break;
+ case 11 /* additional_cmdline_count */:
+ field.get(&additional_cmdline_count_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string PerfEventConfig::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> PerfEventConfig::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void PerfEventConfig::Serialize(::protozero::Message* msg) const {
+ // Field 15: timebase
+ if (_has_field_[15]) {
+ (*timebase_).Serialize(msg->BeginNestedMessage<::protozero::Message>(15));
+ }
+
+ // Field 16: callstack_sampling
+ if (_has_field_[16]) {
+ (*callstack_sampling_).Serialize(msg->BeginNestedMessage<::protozero::Message>(16));
+ }
+
+ // Field 8: ring_buffer_read_period_ms
+ if (_has_field_[8]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(8, ring_buffer_read_period_ms_, msg);
+ }
+
+ // Field 3: ring_buffer_pages
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(3, ring_buffer_pages_, msg);
+ }
+
+ // Field 17: max_enqueued_footprint_kb
+ if (_has_field_[17]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(17, max_enqueued_footprint_kb_, msg);
+ }
+
+ // Field 13: max_daemon_memory_kb
+ if (_has_field_[13]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(13, max_daemon_memory_kb_, msg);
+ }
+
+ // Field 9: remote_descriptor_timeout_ms
+ if (_has_field_[9]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(9, remote_descriptor_timeout_ms_, msg);
+ }
+
+ // Field 10: unwind_state_clear_period_ms
+ if (_has_field_[10]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(10, unwind_state_clear_period_ms_, msg);
+ }
+
+ // Field 18: target_installed_by
+ for (auto& it : target_installed_by_) {
+ ::protozero::internal::gen_helpers::SerializeString(18, it, msg);
+ }
+
+ // Field 1: all_cpus
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(1, all_cpus_, msg);
+ }
+
+ // Field 2: sampling_frequency
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, sampling_frequency_, msg);
+ }
+
+ // Field 12: kernel_frames
+ if (_has_field_[12]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(12, kernel_frames_, msg);
+ }
+
+ // Field 4: target_pid
+ for (auto& it : target_pid_) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(4, it, msg);
+ }
+
+ // Field 5: target_cmdline
+ for (auto& it : target_cmdline_) {
+ ::protozero::internal::gen_helpers::SerializeString(5, it, msg);
+ }
+
+ // Field 6: exclude_pid
+ for (auto& it : exclude_pid_) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(6, it, msg);
+ }
+
+ // Field 7: exclude_cmdline
+ for (auto& it : exclude_cmdline_) {
+ ::protozero::internal::gen_helpers::SerializeString(7, it, msg);
+ }
+
+ // Field 11: additional_cmdline_count
+ if (_has_field_[11]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(11, additional_cmdline_count_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+PerfEventConfig_CallstackSampling::PerfEventConfig_CallstackSampling() = default;
+PerfEventConfig_CallstackSampling::~PerfEventConfig_CallstackSampling() = default;
+PerfEventConfig_CallstackSampling::PerfEventConfig_CallstackSampling(const PerfEventConfig_CallstackSampling&) = default;
+PerfEventConfig_CallstackSampling& PerfEventConfig_CallstackSampling::operator=(const PerfEventConfig_CallstackSampling&) = default;
+PerfEventConfig_CallstackSampling::PerfEventConfig_CallstackSampling(PerfEventConfig_CallstackSampling&&) noexcept = default;
+PerfEventConfig_CallstackSampling& PerfEventConfig_CallstackSampling::operator=(PerfEventConfig_CallstackSampling&&) = default;
+
+bool PerfEventConfig_CallstackSampling::operator==(const PerfEventConfig_CallstackSampling& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(scope_, other.scope_)
+ && ::protozero::internal::gen_helpers::EqualsField(kernel_frames_, other.kernel_frames_)
+ && ::protozero::internal::gen_helpers::EqualsField(user_frames_, other.user_frames_);
+}
+
+bool PerfEventConfig_CallstackSampling::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* scope */:
+ (*scope_).ParseFromArray(field.data(), field.size());
+ break;
+ case 2 /* kernel_frames */:
+ field.get(&kernel_frames_);
+ break;
+ case 3 /* user_frames */:
+ field.get(&user_frames_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string PerfEventConfig_CallstackSampling::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> PerfEventConfig_CallstackSampling::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void PerfEventConfig_CallstackSampling::Serialize(::protozero::Message* msg) const {
+ // Field 1: scope
+ if (_has_field_[1]) {
+ (*scope_).Serialize(msg->BeginNestedMessage<::protozero::Message>(1));
+ }
+
+ // Field 2: kernel_frames
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(2, kernel_frames_, msg);
+ }
+
+ // Field 3: user_frames
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(3, user_frames_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+PerfEventConfig_Scope::PerfEventConfig_Scope() = default;
+PerfEventConfig_Scope::~PerfEventConfig_Scope() = default;
+PerfEventConfig_Scope::PerfEventConfig_Scope(const PerfEventConfig_Scope&) = default;
+PerfEventConfig_Scope& PerfEventConfig_Scope::operator=(const PerfEventConfig_Scope&) = default;
+PerfEventConfig_Scope::PerfEventConfig_Scope(PerfEventConfig_Scope&&) noexcept = default;
+PerfEventConfig_Scope& PerfEventConfig_Scope::operator=(PerfEventConfig_Scope&&) = default;
+
+bool PerfEventConfig_Scope::operator==(const PerfEventConfig_Scope& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(target_pid_, other.target_pid_)
+ && ::protozero::internal::gen_helpers::EqualsField(target_cmdline_, other.target_cmdline_)
+ && ::protozero::internal::gen_helpers::EqualsField(exclude_pid_, other.exclude_pid_)
+ && ::protozero::internal::gen_helpers::EqualsField(exclude_cmdline_, other.exclude_cmdline_)
+ && ::protozero::internal::gen_helpers::EqualsField(additional_cmdline_count_, other.additional_cmdline_count_)
+ && ::protozero::internal::gen_helpers::EqualsField(process_shard_count_, other.process_shard_count_);
+}
+
+bool PerfEventConfig_Scope::ParseFromArray(const void* raw, size_t size) {
+ target_pid_.clear();
+ target_cmdline_.clear();
+ exclude_pid_.clear();
+ exclude_cmdline_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* target_pid */:
+ target_pid_.emplace_back();
+ field.get(&target_pid_.back());
+ break;
+ case 2 /* target_cmdline */:
+ target_cmdline_.emplace_back();
+ ::protozero::internal::gen_helpers::DeserializeString(field, &target_cmdline_.back());
+ break;
+ case 3 /* exclude_pid */:
+ exclude_pid_.emplace_back();
+ field.get(&exclude_pid_.back());
+ break;
+ case 4 /* exclude_cmdline */:
+ exclude_cmdline_.emplace_back();
+ ::protozero::internal::gen_helpers::DeserializeString(field, &exclude_cmdline_.back());
+ break;
+ case 5 /* additional_cmdline_count */:
+ field.get(&additional_cmdline_count_);
+ break;
+ case 6 /* process_shard_count */:
+ field.get(&process_shard_count_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string PerfEventConfig_Scope::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> PerfEventConfig_Scope::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void PerfEventConfig_Scope::Serialize(::protozero::Message* msg) const {
+ // Field 1: target_pid
+ for (auto& it : target_pid_) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, it, msg);
+ }
+
+ // Field 2: target_cmdline
+ for (auto& it : target_cmdline_) {
+ ::protozero::internal::gen_helpers::SerializeString(2, it, msg);
+ }
+
+ // Field 3: exclude_pid
+ for (auto& it : exclude_pid_) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(3, it, msg);
+ }
+
+ // Field 4: exclude_cmdline
+ for (auto& it : exclude_cmdline_) {
+ ::protozero::internal::gen_helpers::SerializeString(4, it, msg);
+ }
+
+ // Field 5: additional_cmdline_count
+ if (_has_field_[5]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(5, additional_cmdline_count_, msg);
+ }
+
+ // Field 6: process_shard_count
+ if (_has_field_[6]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(6, process_shard_count_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/config/statsd/atom_ids.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/config/statsd/atom_ids.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/config/statsd/statsd_tracing_config.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/config/statsd/statsd_tracing_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/statsd/atom_ids.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+StatsdPullAtomConfig::StatsdPullAtomConfig() = default;
+StatsdPullAtomConfig::~StatsdPullAtomConfig() = default;
+StatsdPullAtomConfig::StatsdPullAtomConfig(const StatsdPullAtomConfig&) = default;
+StatsdPullAtomConfig& StatsdPullAtomConfig::operator=(const StatsdPullAtomConfig&) = default;
+StatsdPullAtomConfig::StatsdPullAtomConfig(StatsdPullAtomConfig&&) noexcept = default;
+StatsdPullAtomConfig& StatsdPullAtomConfig::operator=(StatsdPullAtomConfig&&) = default;
+
+bool StatsdPullAtomConfig::operator==(const StatsdPullAtomConfig& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(pull_atom_id_, other.pull_atom_id_)
+ && ::protozero::internal::gen_helpers::EqualsField(raw_pull_atom_id_, other.raw_pull_atom_id_)
+ && ::protozero::internal::gen_helpers::EqualsField(pull_frequency_ms_, other.pull_frequency_ms_)
+ && ::protozero::internal::gen_helpers::EqualsField(packages_, other.packages_);
+}
+
+bool StatsdPullAtomConfig::ParseFromArray(const void* raw, size_t size) {
+ pull_atom_id_.clear();
+ raw_pull_atom_id_.clear();
+ packages_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* pull_atom_id */:
+ pull_atom_id_.emplace_back();
+ field.get(&pull_atom_id_.back());
+ break;
+ case 2 /* raw_pull_atom_id */:
+ raw_pull_atom_id_.emplace_back();
+ field.get(&raw_pull_atom_id_.back());
+ break;
+ case 3 /* pull_frequency_ms */:
+ field.get(&pull_frequency_ms_);
+ break;
+ case 4 /* packages */:
+ packages_.emplace_back();
+ ::protozero::internal::gen_helpers::DeserializeString(field, &packages_.back());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string StatsdPullAtomConfig::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> StatsdPullAtomConfig::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void StatsdPullAtomConfig::Serialize(::protozero::Message* msg) const {
+ // Field 1: pull_atom_id
+ for (auto& it : pull_atom_id_) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, it, msg);
+ }
+
+ // Field 2: raw_pull_atom_id
+ for (auto& it : raw_pull_atom_id_) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, it, msg);
+ }
+
+ // Field 3: pull_frequency_ms
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(3, pull_frequency_ms_, msg);
+ }
+
+ // Field 4: packages
+ for (auto& it : packages_) {
+ ::protozero::internal::gen_helpers::SerializeString(4, it, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+StatsdTracingConfig::StatsdTracingConfig() = default;
+StatsdTracingConfig::~StatsdTracingConfig() = default;
+StatsdTracingConfig::StatsdTracingConfig(const StatsdTracingConfig&) = default;
+StatsdTracingConfig& StatsdTracingConfig::operator=(const StatsdTracingConfig&) = default;
+StatsdTracingConfig::StatsdTracingConfig(StatsdTracingConfig&&) noexcept = default;
+StatsdTracingConfig& StatsdTracingConfig::operator=(StatsdTracingConfig&&) = default;
+
+bool StatsdTracingConfig::operator==(const StatsdTracingConfig& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(push_atom_id_, other.push_atom_id_)
+ && ::protozero::internal::gen_helpers::EqualsField(raw_push_atom_id_, other.raw_push_atom_id_)
+ && ::protozero::internal::gen_helpers::EqualsField(pull_config_, other.pull_config_);
+}
+
+int StatsdTracingConfig::pull_config_size() const { return static_cast<int>(pull_config_.size()); }
+void StatsdTracingConfig::clear_pull_config() { pull_config_.clear(); }
+StatsdPullAtomConfig* StatsdTracingConfig::add_pull_config() { pull_config_.emplace_back(); return &pull_config_.back(); }
+bool StatsdTracingConfig::ParseFromArray(const void* raw, size_t size) {
+ push_atom_id_.clear();
+ raw_push_atom_id_.clear();
+ pull_config_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* push_atom_id */:
+ push_atom_id_.emplace_back();
+ field.get(&push_atom_id_.back());
+ break;
+ case 2 /* raw_push_atom_id */:
+ raw_push_atom_id_.emplace_back();
+ field.get(&raw_push_atom_id_.back());
+ break;
+ case 3 /* pull_config */:
+ pull_config_.emplace_back();
+ pull_config_.back().ParseFromArray(field.data(), field.size());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string StatsdTracingConfig::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> StatsdTracingConfig::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void StatsdTracingConfig::Serialize(::protozero::Message* msg) const {
+ // Field 1: push_atom_id
+ for (auto& it : push_atom_id_) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, it, msg);
+ }
+
+ // Field 2: raw_push_atom_id
+ for (auto& it : raw_push_atom_id_) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, it, msg);
+ }
+
+ // Field 3: pull_config
+ for (auto& it : pull_config_) {
+ it.Serialize(msg->BeginNestedMessage<::protozero::Message>(3));
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/config/sys_stats/sys_stats_config.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/config/sys_stats/sys_stats_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/sys_stats_counters.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+SysStatsConfig::SysStatsConfig() = default;
+SysStatsConfig::~SysStatsConfig() = default;
+SysStatsConfig::SysStatsConfig(const SysStatsConfig&) = default;
+SysStatsConfig& SysStatsConfig::operator=(const SysStatsConfig&) = default;
+SysStatsConfig::SysStatsConfig(SysStatsConfig&&) noexcept = default;
+SysStatsConfig& SysStatsConfig::operator=(SysStatsConfig&&) = default;
+
+bool SysStatsConfig::operator==(const SysStatsConfig& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(meminfo_period_ms_, other.meminfo_period_ms_)
+ && ::protozero::internal::gen_helpers::EqualsField(meminfo_counters_, other.meminfo_counters_)
+ && ::protozero::internal::gen_helpers::EqualsField(vmstat_period_ms_, other.vmstat_period_ms_)
+ && ::protozero::internal::gen_helpers::EqualsField(vmstat_counters_, other.vmstat_counters_)
+ && ::protozero::internal::gen_helpers::EqualsField(stat_period_ms_, other.stat_period_ms_)
+ && ::protozero::internal::gen_helpers::EqualsField(stat_counters_, other.stat_counters_)
+ && ::protozero::internal::gen_helpers::EqualsField(devfreq_period_ms_, other.devfreq_period_ms_)
+ && ::protozero::internal::gen_helpers::EqualsField(cpufreq_period_ms_, other.cpufreq_period_ms_)
+ && ::protozero::internal::gen_helpers::EqualsField(buddyinfo_period_ms_, other.buddyinfo_period_ms_)
+ && ::protozero::internal::gen_helpers::EqualsField(diskstat_period_ms_, other.diskstat_period_ms_)
+ && ::protozero::internal::gen_helpers::EqualsField(psi_period_ms_, other.psi_period_ms_);
+}
+
+bool SysStatsConfig::ParseFromArray(const void* raw, size_t size) {
+ meminfo_counters_.clear();
+ vmstat_counters_.clear();
+ stat_counters_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* meminfo_period_ms */:
+ field.get(&meminfo_period_ms_);
+ break;
+ case 2 /* meminfo_counters */:
+ meminfo_counters_.emplace_back();
+ field.get(&meminfo_counters_.back());
+ break;
+ case 3 /* vmstat_period_ms */:
+ field.get(&vmstat_period_ms_);
+ break;
+ case 4 /* vmstat_counters */:
+ vmstat_counters_.emplace_back();
+ field.get(&vmstat_counters_.back());
+ break;
+ case 5 /* stat_period_ms */:
+ field.get(&stat_period_ms_);
+ break;
+ case 6 /* stat_counters */:
+ stat_counters_.emplace_back();
+ field.get(&stat_counters_.back());
+ break;
+ case 7 /* devfreq_period_ms */:
+ field.get(&devfreq_period_ms_);
+ break;
+ case 8 /* cpufreq_period_ms */:
+ field.get(&cpufreq_period_ms_);
+ break;
+ case 9 /* buddyinfo_period_ms */:
+ field.get(&buddyinfo_period_ms_);
+ break;
+ case 10 /* diskstat_period_ms */:
+ field.get(&diskstat_period_ms_);
+ break;
+ case 11 /* psi_period_ms */:
+ field.get(&psi_period_ms_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string SysStatsConfig::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> SysStatsConfig::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void SysStatsConfig::Serialize(::protozero::Message* msg) const {
+ // Field 1: meminfo_period_ms
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, meminfo_period_ms_, msg);
+ }
+
+ // Field 2: meminfo_counters
+ for (auto& it : meminfo_counters_) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, it, msg);
+ }
+
+ // Field 3: vmstat_period_ms
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(3, vmstat_period_ms_, msg);
+ }
+
+ // Field 4: vmstat_counters
+ for (auto& it : vmstat_counters_) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(4, it, msg);
+ }
+
+ // Field 5: stat_period_ms
+ if (_has_field_[5]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(5, stat_period_ms_, msg);
+ }
+
+ // Field 6: stat_counters
+ for (auto& it : stat_counters_) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(6, it, msg);
+ }
+
+ // Field 7: devfreq_period_ms
+ if (_has_field_[7]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(7, devfreq_period_ms_, msg);
+ }
+
+ // Field 8: cpufreq_period_ms
+ if (_has_field_[8]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(8, cpufreq_period_ms_, msg);
+ }
+
+ // Field 9: buddyinfo_period_ms
+ if (_has_field_[9]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(9, buddyinfo_period_ms_, msg);
+ }
+
+ // Field 10: diskstat_period_ms
+ if (_has_field_[10]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(10, diskstat_period_ms_, msg);
+ }
+
+ // Field 11: psi_period_ms
+ if (_has_field_[11]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(11, psi_period_ms_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/config/system_info/system_info.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/config/system_info/system_info.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+SystemInfoConfig::SystemInfoConfig() = default;
+SystemInfoConfig::~SystemInfoConfig() = default;
+SystemInfoConfig::SystemInfoConfig(const SystemInfoConfig&) = default;
+SystemInfoConfig& SystemInfoConfig::operator=(const SystemInfoConfig&) = default;
+SystemInfoConfig::SystemInfoConfig(SystemInfoConfig&&) noexcept = default;
+SystemInfoConfig& SystemInfoConfig::operator=(SystemInfoConfig&&) = default;
+
+bool SystemInfoConfig::operator==(const SystemInfoConfig& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_);
+}
+
+bool SystemInfoConfig::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string SystemInfoConfig::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> SystemInfoConfig::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void SystemInfoConfig::Serialize(::protozero::Message* msg) const {
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/config/track_event/track_event_config.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/config/track_event/track_event_config.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+TrackEventConfig::TrackEventConfig() = default;
+TrackEventConfig::~TrackEventConfig() = default;
+TrackEventConfig::TrackEventConfig(const TrackEventConfig&) = default;
+TrackEventConfig& TrackEventConfig::operator=(const TrackEventConfig&) = default;
+TrackEventConfig::TrackEventConfig(TrackEventConfig&&) noexcept = default;
+TrackEventConfig& TrackEventConfig::operator=(TrackEventConfig&&) = default;
+
+bool TrackEventConfig::operator==(const TrackEventConfig& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(disabled_categories_, other.disabled_categories_)
+ && ::protozero::internal::gen_helpers::EqualsField(enabled_categories_, other.enabled_categories_)
+ && ::protozero::internal::gen_helpers::EqualsField(disabled_tags_, other.disabled_tags_)
+ && ::protozero::internal::gen_helpers::EqualsField(enabled_tags_, other.enabled_tags_)
+ && ::protozero::internal::gen_helpers::EqualsField(disable_incremental_timestamps_, other.disable_incremental_timestamps_)
+ && ::protozero::internal::gen_helpers::EqualsField(timestamp_unit_multiplier_, other.timestamp_unit_multiplier_)
+ && ::protozero::internal::gen_helpers::EqualsField(filter_debug_annotations_, other.filter_debug_annotations_)
+ && ::protozero::internal::gen_helpers::EqualsField(enable_thread_time_sampling_, other.enable_thread_time_sampling_)
+ && ::protozero::internal::gen_helpers::EqualsField(filter_dynamic_event_names_, other.filter_dynamic_event_names_);
+}
+
+bool TrackEventConfig::ParseFromArray(const void* raw, size_t size) {
+ disabled_categories_.clear();
+ enabled_categories_.clear();
+ disabled_tags_.clear();
+ enabled_tags_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* disabled_categories */:
+ disabled_categories_.emplace_back();
+ ::protozero::internal::gen_helpers::DeserializeString(field, &disabled_categories_.back());
+ break;
+ case 2 /* enabled_categories */:
+ enabled_categories_.emplace_back();
+ ::protozero::internal::gen_helpers::DeserializeString(field, &enabled_categories_.back());
+ break;
+ case 3 /* disabled_tags */:
+ disabled_tags_.emplace_back();
+ ::protozero::internal::gen_helpers::DeserializeString(field, &disabled_tags_.back());
+ break;
+ case 4 /* enabled_tags */:
+ enabled_tags_.emplace_back();
+ ::protozero::internal::gen_helpers::DeserializeString(field, &enabled_tags_.back());
+ break;
+ case 5 /* disable_incremental_timestamps */:
+ field.get(&disable_incremental_timestamps_);
+ break;
+ case 6 /* timestamp_unit_multiplier */:
+ field.get(&timestamp_unit_multiplier_);
+ break;
+ case 7 /* filter_debug_annotations */:
+ field.get(&filter_debug_annotations_);
+ break;
+ case 8 /* enable_thread_time_sampling */:
+ field.get(&enable_thread_time_sampling_);
+ break;
+ case 9 /* filter_dynamic_event_names */:
+ field.get(&filter_dynamic_event_names_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string TrackEventConfig::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> TrackEventConfig::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void TrackEventConfig::Serialize(::protozero::Message* msg) const {
+ // Field 1: disabled_categories
+ for (auto& it : disabled_categories_) {
+ ::protozero::internal::gen_helpers::SerializeString(1, it, msg);
+ }
+
+ // Field 2: enabled_categories
+ for (auto& it : enabled_categories_) {
+ ::protozero::internal::gen_helpers::SerializeString(2, it, msg);
+ }
+
+ // Field 3: disabled_tags
+ for (auto& it : disabled_tags_) {
+ ::protozero::internal::gen_helpers::SerializeString(3, it, msg);
+ }
+
+ // Field 4: enabled_tags
+ for (auto& it : enabled_tags_) {
+ ::protozero::internal::gen_helpers::SerializeString(4, it, msg);
+ }
+
+ // Field 5: disable_incremental_timestamps
+ if (_has_field_[5]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(5, disable_incremental_timestamps_, msg);
+ }
+
+ // Field 6: timestamp_unit_multiplier
+ if (_has_field_[6]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(6, timestamp_unit_multiplier_, msg);
+ }
+
+ // Field 7: filter_debug_annotations
+ if (_has_field_[7]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(7, filter_debug_annotations_, msg);
+ }
+
+ // Field 8: enable_thread_time_sampling
+ if (_has_field_[8]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(8, enable_thread_time_sampling_, msg);
+ }
+
+ // Field 9: filter_dynamic_event_names
+ if (_has_field_[9]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(9, filter_dynamic_event_names_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/config/chrome/chrome_config.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/config/chrome/chrome_config.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+ChromeConfig::ChromeConfig() = default;
+ChromeConfig::~ChromeConfig() = default;
+ChromeConfig::ChromeConfig(const ChromeConfig&) = default;
+ChromeConfig& ChromeConfig::operator=(const ChromeConfig&) = default;
+ChromeConfig::ChromeConfig(ChromeConfig&&) noexcept = default;
+ChromeConfig& ChromeConfig::operator=(ChromeConfig&&) = default;
+
+bool ChromeConfig::operator==(const ChromeConfig& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(trace_config_, other.trace_config_)
+ && ::protozero::internal::gen_helpers::EqualsField(privacy_filtering_enabled_, other.privacy_filtering_enabled_)
+ && ::protozero::internal::gen_helpers::EqualsField(convert_to_legacy_json_, other.convert_to_legacy_json_)
+ && ::protozero::internal::gen_helpers::EqualsField(client_priority_, other.client_priority_)
+ && ::protozero::internal::gen_helpers::EqualsField(json_agent_label_filter_, other.json_agent_label_filter_);
+}
+
+bool ChromeConfig::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* trace_config */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &trace_config_);
+ break;
+ case 2 /* privacy_filtering_enabled */:
+ field.get(&privacy_filtering_enabled_);
+ break;
+ case 3 /* convert_to_legacy_json */:
+ field.get(&convert_to_legacy_json_);
+ break;
+ case 4 /* client_priority */:
+ field.get(&client_priority_);
+ break;
+ case 5 /* json_agent_label_filter */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &json_agent_label_filter_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string ChromeConfig::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> ChromeConfig::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void ChromeConfig::Serialize(::protozero::Message* msg) const {
+ // Field 1: trace_config
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeString(1, trace_config_, msg);
+ }
+
+ // Field 2: privacy_filtering_enabled
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(2, privacy_filtering_enabled_, msg);
+ }
+
+ // Field 3: convert_to_legacy_json
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(3, convert_to_legacy_json_, msg);
+ }
+
+ // Field 4: client_priority
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(4, client_priority_, msg);
+ }
+
+ // Field 5: json_agent_label_filter
+ if (_has_field_[5]) {
+ ::protozero::internal::gen_helpers::SerializeString(5, json_agent_label_filter_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/config/chrome/scenario_config.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/config/chrome/scenario_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/trace_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/data_source_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/system_info/system_info.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/track_event/track_event_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/test_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/sys_stats/sys_stats_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/sys_stats_counters.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/profiling/perf_event_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/perf_events.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/profiling/java_hprof_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/profiling/heapprofd_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/process_stats/process_stats_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/statsd/statsd_tracing_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/statsd/atom_ids.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/power/android_power_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/interceptor_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/interceptors/console_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/inode_file/inode_file_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/gpu/vulkan_memory_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/gpu/gpu_counter_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/ftrace/ftrace_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/etw/etw_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/chrome/v8_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/chrome/chrome_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/surfaceflinger_transactions_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/surfaceflinger_layers_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/protolog_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/protolog_common.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/packages_list_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/network_trace_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/android_sdk_sysprop_guard_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/android_system_property_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/android_polled_state_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/android_log_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/android_log_constants.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/android_input_event_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/android_game_intervention_list_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/builtin_clock.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+TracingTriggerRulesConfig::TracingTriggerRulesConfig() = default;
+TracingTriggerRulesConfig::~TracingTriggerRulesConfig() = default;
+TracingTriggerRulesConfig::TracingTriggerRulesConfig(const TracingTriggerRulesConfig&) = default;
+TracingTriggerRulesConfig& TracingTriggerRulesConfig::operator=(const TracingTriggerRulesConfig&) = default;
+TracingTriggerRulesConfig::TracingTriggerRulesConfig(TracingTriggerRulesConfig&&) noexcept = default;
+TracingTriggerRulesConfig& TracingTriggerRulesConfig::operator=(TracingTriggerRulesConfig&&) = default;
+
+bool TracingTriggerRulesConfig::operator==(const TracingTriggerRulesConfig& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(rules_, other.rules_);
+}
+
+int TracingTriggerRulesConfig::rules_size() const { return static_cast<int>(rules_.size()); }
+void TracingTriggerRulesConfig::clear_rules() { rules_.clear(); }
+TriggerRule* TracingTriggerRulesConfig::add_rules() { rules_.emplace_back(); return &rules_.back(); }
+bool TracingTriggerRulesConfig::ParseFromArray(const void* raw, size_t size) {
+ rules_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* rules */:
+ rules_.emplace_back();
+ rules_.back().ParseFromArray(field.data(), field.size());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string TracingTriggerRulesConfig::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> TracingTriggerRulesConfig::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void TracingTriggerRulesConfig::Serialize(::protozero::Message* msg) const {
+ // Field 1: rules
+ for (auto& it : rules_) {
+ it.Serialize(msg->BeginNestedMessage<::protozero::Message>(1));
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+TriggerRule::TriggerRule() = default;
+TriggerRule::~TriggerRule() = default;
+TriggerRule::TriggerRule(const TriggerRule&) = default;
+TriggerRule& TriggerRule::operator=(const TriggerRule&) = default;
+TriggerRule::TriggerRule(TriggerRule&&) noexcept = default;
+TriggerRule& TriggerRule::operator=(TriggerRule&&) = default;
+
+bool TriggerRule::operator==(const TriggerRule& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(name_, other.name_)
+ && ::protozero::internal::gen_helpers::EqualsField(trigger_chance_, other.trigger_chance_)
+ && ::protozero::internal::gen_helpers::EqualsField(delay_ms_, other.delay_ms_)
+ && ::protozero::internal::gen_helpers::EqualsField(activation_delay_ms_, other.activation_delay_ms_)
+ && ::protozero::internal::gen_helpers::EqualsField(manual_trigger_name_, other.manual_trigger_name_)
+ && ::protozero::internal::gen_helpers::EqualsField(histogram_, other.histogram_)
+ && ::protozero::internal::gen_helpers::EqualsField(repeating_interval_, other.repeating_interval_);
+}
+
+bool TriggerRule::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* name */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &name_);
+ break;
+ case 2 /* trigger_chance */:
+ field.get(&trigger_chance_);
+ break;
+ case 3 /* delay_ms */:
+ field.get(&delay_ms_);
+ break;
+ case 8 /* activation_delay_ms */:
+ field.get(&activation_delay_ms_);
+ break;
+ case 4 /* manual_trigger_name */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &manual_trigger_name_);
+ break;
+ case 5 /* histogram */:
+ (*histogram_).ParseFromArray(field.data(), field.size());
+ break;
+ case 6 /* repeating_interval */:
+ (*repeating_interval_).ParseFromArray(field.data(), field.size());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string TriggerRule::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> TriggerRule::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void TriggerRule::Serialize(::protozero::Message* msg) const {
+ // Field 1: name
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeString(1, name_, msg);
+ }
+
+ // Field 2: trigger_chance
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeFixed(2, trigger_chance_, msg);
+ }
+
+ // Field 3: delay_ms
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(3, delay_ms_, msg);
+ }
+
+ // Field 8: activation_delay_ms
+ if (_has_field_[8]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(8, activation_delay_ms_, msg);
+ }
+
+ // Field 4: manual_trigger_name
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeString(4, manual_trigger_name_, msg);
+ }
+
+ // Field 5: histogram
+ if (_has_field_[5]) {
+ (*histogram_).Serialize(msg->BeginNestedMessage<::protozero::Message>(5));
+ }
+
+ // Field 6: repeating_interval
+ if (_has_field_[6]) {
+ (*repeating_interval_).Serialize(msg->BeginNestedMessage<::protozero::Message>(6));
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+TriggerRule_RepeatingInterval::TriggerRule_RepeatingInterval() = default;
+TriggerRule_RepeatingInterval::~TriggerRule_RepeatingInterval() = default;
+TriggerRule_RepeatingInterval::TriggerRule_RepeatingInterval(const TriggerRule_RepeatingInterval&) = default;
+TriggerRule_RepeatingInterval& TriggerRule_RepeatingInterval::operator=(const TriggerRule_RepeatingInterval&) = default;
+TriggerRule_RepeatingInterval::TriggerRule_RepeatingInterval(TriggerRule_RepeatingInterval&&) noexcept = default;
+TriggerRule_RepeatingInterval& TriggerRule_RepeatingInterval::operator=(TriggerRule_RepeatingInterval&&) = default;
+
+bool TriggerRule_RepeatingInterval::operator==(const TriggerRule_RepeatingInterval& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(period_ms_, other.period_ms_)
+ && ::protozero::internal::gen_helpers::EqualsField(randomized_, other.randomized_);
+}
+
+bool TriggerRule_RepeatingInterval::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* period_ms */:
+ field.get(&period_ms_);
+ break;
+ case 2 /* randomized */:
+ field.get(&randomized_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string TriggerRule_RepeatingInterval::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> TriggerRule_RepeatingInterval::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void TriggerRule_RepeatingInterval::Serialize(::protozero::Message* msg) const {
+ // Field 1: period_ms
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, period_ms_, msg);
+ }
+
+ // Field 2: randomized
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(2, randomized_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+TriggerRule_HistogramTrigger::TriggerRule_HistogramTrigger() = default;
+TriggerRule_HistogramTrigger::~TriggerRule_HistogramTrigger() = default;
+TriggerRule_HistogramTrigger::TriggerRule_HistogramTrigger(const TriggerRule_HistogramTrigger&) = default;
+TriggerRule_HistogramTrigger& TriggerRule_HistogramTrigger::operator=(const TriggerRule_HistogramTrigger&) = default;
+TriggerRule_HistogramTrigger::TriggerRule_HistogramTrigger(TriggerRule_HistogramTrigger&&) noexcept = default;
+TriggerRule_HistogramTrigger& TriggerRule_HistogramTrigger::operator=(TriggerRule_HistogramTrigger&&) = default;
+
+bool TriggerRule_HistogramTrigger::operator==(const TriggerRule_HistogramTrigger& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(histogram_name_, other.histogram_name_)
+ && ::protozero::internal::gen_helpers::EqualsField(min_value_, other.min_value_)
+ && ::protozero::internal::gen_helpers::EqualsField(max_value_, other.max_value_);
+}
+
+bool TriggerRule_HistogramTrigger::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* histogram_name */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &histogram_name_);
+ break;
+ case 2 /* min_value */:
+ field.get(&min_value_);
+ break;
+ case 3 /* max_value */:
+ field.get(&max_value_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string TriggerRule_HistogramTrigger::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> TriggerRule_HistogramTrigger::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void TriggerRule_HistogramTrigger::Serialize(::protozero::Message* msg) const {
+ // Field 1: histogram_name
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeString(1, histogram_name_, msg);
+ }
+
+ // Field 2: min_value
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, min_value_, msg);
+ }
+
+ // Field 3: max_value
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(3, max_value_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+ChromeFieldTracingConfig::ChromeFieldTracingConfig() = default;
+ChromeFieldTracingConfig::~ChromeFieldTracingConfig() = default;
+ChromeFieldTracingConfig::ChromeFieldTracingConfig(const ChromeFieldTracingConfig&) = default;
+ChromeFieldTracingConfig& ChromeFieldTracingConfig::operator=(const ChromeFieldTracingConfig&) = default;
+ChromeFieldTracingConfig::ChromeFieldTracingConfig(ChromeFieldTracingConfig&&) noexcept = default;
+ChromeFieldTracingConfig& ChromeFieldTracingConfig::operator=(ChromeFieldTracingConfig&&) = default;
+
+bool ChromeFieldTracingConfig::operator==(const ChromeFieldTracingConfig& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(scenarios_, other.scenarios_);
+}
+
+int ChromeFieldTracingConfig::scenarios_size() const { return static_cast<int>(scenarios_.size()); }
+void ChromeFieldTracingConfig::clear_scenarios() { scenarios_.clear(); }
+ScenarioConfig* ChromeFieldTracingConfig::add_scenarios() { scenarios_.emplace_back(); return &scenarios_.back(); }
+bool ChromeFieldTracingConfig::ParseFromArray(const void* raw, size_t size) {
+ scenarios_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* scenarios */:
+ scenarios_.emplace_back();
+ scenarios_.back().ParseFromArray(field.data(), field.size());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string ChromeFieldTracingConfig::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> ChromeFieldTracingConfig::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void ChromeFieldTracingConfig::Serialize(::protozero::Message* msg) const {
+ // Field 1: scenarios
+ for (auto& it : scenarios_) {
+ it.Serialize(msg->BeginNestedMessage<::protozero::Message>(1));
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+ScenarioConfig::ScenarioConfig() = default;
+ScenarioConfig::~ScenarioConfig() = default;
+ScenarioConfig::ScenarioConfig(const ScenarioConfig&) = default;
+ScenarioConfig& ScenarioConfig::operator=(const ScenarioConfig&) = default;
+ScenarioConfig::ScenarioConfig(ScenarioConfig&&) noexcept = default;
+ScenarioConfig& ScenarioConfig::operator=(ScenarioConfig&&) = default;
+
+bool ScenarioConfig::operator==(const ScenarioConfig& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(scenario_name_, other.scenario_name_)
+ && ::protozero::internal::gen_helpers::EqualsField(start_rules_, other.start_rules_)
+ && ::protozero::internal::gen_helpers::EqualsField(stop_rules_, other.stop_rules_)
+ && ::protozero::internal::gen_helpers::EqualsField(upload_rules_, other.upload_rules_)
+ && ::protozero::internal::gen_helpers::EqualsField(setup_rules_, other.setup_rules_)
+ && ::protozero::internal::gen_helpers::EqualsField(trace_config_, other.trace_config_)
+ && ::protozero::internal::gen_helpers::EqualsField(nested_scenarios_, other.nested_scenarios_);
+}
+
+int ScenarioConfig::start_rules_size() const { return static_cast<int>(start_rules_.size()); }
+void ScenarioConfig::clear_start_rules() { start_rules_.clear(); }
+TriggerRule* ScenarioConfig::add_start_rules() { start_rules_.emplace_back(); return &start_rules_.back(); }
+int ScenarioConfig::stop_rules_size() const { return static_cast<int>(stop_rules_.size()); }
+void ScenarioConfig::clear_stop_rules() { stop_rules_.clear(); }
+TriggerRule* ScenarioConfig::add_stop_rules() { stop_rules_.emplace_back(); return &stop_rules_.back(); }
+int ScenarioConfig::upload_rules_size() const { return static_cast<int>(upload_rules_.size()); }
+void ScenarioConfig::clear_upload_rules() { upload_rules_.clear(); }
+TriggerRule* ScenarioConfig::add_upload_rules() { upload_rules_.emplace_back(); return &upload_rules_.back(); }
+int ScenarioConfig::setup_rules_size() const { return static_cast<int>(setup_rules_.size()); }
+void ScenarioConfig::clear_setup_rules() { setup_rules_.clear(); }
+TriggerRule* ScenarioConfig::add_setup_rules() { setup_rules_.emplace_back(); return &setup_rules_.back(); }
+int ScenarioConfig::nested_scenarios_size() const { return static_cast<int>(nested_scenarios_.size()); }
+void ScenarioConfig::clear_nested_scenarios() { nested_scenarios_.clear(); }
+NestedScenarioConfig* ScenarioConfig::add_nested_scenarios() { nested_scenarios_.emplace_back(); return &nested_scenarios_.back(); }
+bool ScenarioConfig::ParseFromArray(const void* raw, size_t size) {
+ start_rules_.clear();
+ stop_rules_.clear();
+ upload_rules_.clear();
+ setup_rules_.clear();
+ nested_scenarios_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* scenario_name */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &scenario_name_);
+ break;
+ case 2 /* start_rules */:
+ start_rules_.emplace_back();
+ start_rules_.back().ParseFromArray(field.data(), field.size());
+ break;
+ case 3 /* stop_rules */:
+ stop_rules_.emplace_back();
+ stop_rules_.back().ParseFromArray(field.data(), field.size());
+ break;
+ case 4 /* upload_rules */:
+ upload_rules_.emplace_back();
+ upload_rules_.back().ParseFromArray(field.data(), field.size());
+ break;
+ case 5 /* setup_rules */:
+ setup_rules_.emplace_back();
+ setup_rules_.back().ParseFromArray(field.data(), field.size());
+ break;
+ case 6 /* trace_config */:
+ (*trace_config_).ParseFromArray(field.data(), field.size());
+ break;
+ case 7 /* nested_scenarios */:
+ nested_scenarios_.emplace_back();
+ nested_scenarios_.back().ParseFromArray(field.data(), field.size());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string ScenarioConfig::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> ScenarioConfig::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void ScenarioConfig::Serialize(::protozero::Message* msg) const {
+ // Field 1: scenario_name
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeString(1, scenario_name_, msg);
+ }
+
+ // Field 2: start_rules
+ for (auto& it : start_rules_) {
+ it.Serialize(msg->BeginNestedMessage<::protozero::Message>(2));
+ }
+
+ // Field 3: stop_rules
+ for (auto& it : stop_rules_) {
+ it.Serialize(msg->BeginNestedMessage<::protozero::Message>(3));
+ }
+
+ // Field 4: upload_rules
+ for (auto& it : upload_rules_) {
+ it.Serialize(msg->BeginNestedMessage<::protozero::Message>(4));
+ }
+
+ // Field 5: setup_rules
+ for (auto& it : setup_rules_) {
+ it.Serialize(msg->BeginNestedMessage<::protozero::Message>(5));
+ }
+
+ // Field 6: trace_config
+ if (_has_field_[6]) {
+ (*trace_config_).Serialize(msg->BeginNestedMessage<::protozero::Message>(6));
+ }
+
+ // Field 7: nested_scenarios
+ for (auto& it : nested_scenarios_) {
+ it.Serialize(msg->BeginNestedMessage<::protozero::Message>(7));
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+NestedScenarioConfig::NestedScenarioConfig() = default;
+NestedScenarioConfig::~NestedScenarioConfig() = default;
+NestedScenarioConfig::NestedScenarioConfig(const NestedScenarioConfig&) = default;
+NestedScenarioConfig& NestedScenarioConfig::operator=(const NestedScenarioConfig&) = default;
+NestedScenarioConfig::NestedScenarioConfig(NestedScenarioConfig&&) noexcept = default;
+NestedScenarioConfig& NestedScenarioConfig::operator=(NestedScenarioConfig&&) = default;
+
+bool NestedScenarioConfig::operator==(const NestedScenarioConfig& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(scenario_name_, other.scenario_name_)
+ && ::protozero::internal::gen_helpers::EqualsField(start_rules_, other.start_rules_)
+ && ::protozero::internal::gen_helpers::EqualsField(stop_rules_, other.stop_rules_)
+ && ::protozero::internal::gen_helpers::EqualsField(upload_rules_, other.upload_rules_);
+}
+
+int NestedScenarioConfig::start_rules_size() const { return static_cast<int>(start_rules_.size()); }
+void NestedScenarioConfig::clear_start_rules() { start_rules_.clear(); }
+TriggerRule* NestedScenarioConfig::add_start_rules() { start_rules_.emplace_back(); return &start_rules_.back(); }
+int NestedScenarioConfig::stop_rules_size() const { return static_cast<int>(stop_rules_.size()); }
+void NestedScenarioConfig::clear_stop_rules() { stop_rules_.clear(); }
+TriggerRule* NestedScenarioConfig::add_stop_rules() { stop_rules_.emplace_back(); return &stop_rules_.back(); }
+int NestedScenarioConfig::upload_rules_size() const { return static_cast<int>(upload_rules_.size()); }
+void NestedScenarioConfig::clear_upload_rules() { upload_rules_.clear(); }
+TriggerRule* NestedScenarioConfig::add_upload_rules() { upload_rules_.emplace_back(); return &upload_rules_.back(); }
+bool NestedScenarioConfig::ParseFromArray(const void* raw, size_t size) {
+ start_rules_.clear();
+ stop_rules_.clear();
+ upload_rules_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* scenario_name */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &scenario_name_);
+ break;
+ case 2 /* start_rules */:
+ start_rules_.emplace_back();
+ start_rules_.back().ParseFromArray(field.data(), field.size());
+ break;
+ case 3 /* stop_rules */:
+ stop_rules_.emplace_back();
+ stop_rules_.back().ParseFromArray(field.data(), field.size());
+ break;
+ case 4 /* upload_rules */:
+ upload_rules_.emplace_back();
+ upload_rules_.back().ParseFromArray(field.data(), field.size());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string NestedScenarioConfig::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> NestedScenarioConfig::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void NestedScenarioConfig::Serialize(::protozero::Message* msg) const {
+ // Field 1: scenario_name
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeString(1, scenario_name_, msg);
+ }
+
+ // Field 2: start_rules
+ for (auto& it : start_rules_) {
+ it.Serialize(msg->BeginNestedMessage<::protozero::Message>(2));
+ }
+
+ // Field 3: stop_rules
+ for (auto& it : stop_rules_) {
+ it.Serialize(msg->BeginNestedMessage<::protozero::Message>(3));
+ }
+
+ // Field 4: upload_rules
+ for (auto& it : upload_rules_) {
+ it.Serialize(msg->BeginNestedMessage<::protozero::Message>(4));
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/config/chrome/v8_config.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/config/chrome/v8_config.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+V8Config::V8Config() = default;
+V8Config::~V8Config() = default;
+V8Config::V8Config(const V8Config&) = default;
+V8Config& V8Config::operator=(const V8Config&) = default;
+V8Config::V8Config(V8Config&&) noexcept = default;
+V8Config& V8Config::operator=(V8Config&&) = default;
+
+bool V8Config::operator==(const V8Config& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(log_script_sources_, other.log_script_sources_)
+ && ::protozero::internal::gen_helpers::EqualsField(log_instructions_, other.log_instructions_);
+}
+
+bool V8Config::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* log_script_sources */:
+ field.get(&log_script_sources_);
+ break;
+ case 2 /* log_instructions */:
+ field.get(&log_instructions_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string V8Config::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> V8Config::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void V8Config::Serialize(::protozero::Message* msg) const {
+ // Field 1: log_script_sources
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(1, log_script_sources_, msg);
+ }
+
+ // Field 2: log_instructions
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(2, log_instructions_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/config/data_source_config.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/config/data_source_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/system_info/system_info.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/test_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/interceptor_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/interceptors/console_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/chrome/chrome_config.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+DataSourceConfig::DataSourceConfig() = default;
+DataSourceConfig::~DataSourceConfig() = default;
+DataSourceConfig::DataSourceConfig(const DataSourceConfig&) = default;
+DataSourceConfig& DataSourceConfig::operator=(const DataSourceConfig&) = default;
+DataSourceConfig::DataSourceConfig(DataSourceConfig&&) noexcept = default;
+DataSourceConfig& DataSourceConfig::operator=(DataSourceConfig&&) = default;
+
+bool DataSourceConfig::operator==(const DataSourceConfig& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(name_, other.name_)
+ && ::protozero::internal::gen_helpers::EqualsField(target_buffer_, other.target_buffer_)
+ && ::protozero::internal::gen_helpers::EqualsField(trace_duration_ms_, other.trace_duration_ms_)
+ && ::protozero::internal::gen_helpers::EqualsField(prefer_suspend_clock_for_duration_, other.prefer_suspend_clock_for_duration_)
+ && ::protozero::internal::gen_helpers::EqualsField(stop_timeout_ms_, other.stop_timeout_ms_)
+ && ::protozero::internal::gen_helpers::EqualsField(enable_extra_guardrails_, other.enable_extra_guardrails_)
+ && ::protozero::internal::gen_helpers::EqualsField(session_initiator_, other.session_initiator_)
+ && ::protozero::internal::gen_helpers::EqualsField(tracing_session_id_, other.tracing_session_id_)
+ && ::protozero::internal::gen_helpers::EqualsField(ftrace_config_, other.ftrace_config_)
+ && ::protozero::internal::gen_helpers::EqualsField(inode_file_config_, other.inode_file_config_)
+ && ::protozero::internal::gen_helpers::EqualsField(process_stats_config_, other.process_stats_config_)
+ && ::protozero::internal::gen_helpers::EqualsField(sys_stats_config_, other.sys_stats_config_)
+ && ::protozero::internal::gen_helpers::EqualsField(heapprofd_config_, other.heapprofd_config_)
+ && ::protozero::internal::gen_helpers::EqualsField(java_hprof_config_, other.java_hprof_config_)
+ && ::protozero::internal::gen_helpers::EqualsField(android_power_config_, other.android_power_config_)
+ && ::protozero::internal::gen_helpers::EqualsField(android_log_config_, other.android_log_config_)
+ && ::protozero::internal::gen_helpers::EqualsField(gpu_counter_config_, other.gpu_counter_config_)
+ && ::protozero::internal::gen_helpers::EqualsField(android_game_intervention_list_config_, other.android_game_intervention_list_config_)
+ && ::protozero::internal::gen_helpers::EqualsField(packages_list_config_, other.packages_list_config_)
+ && ::protozero::internal::gen_helpers::EqualsField(perf_event_config_, other.perf_event_config_)
+ && ::protozero::internal::gen_helpers::EqualsField(vulkan_memory_config_, other.vulkan_memory_config_)
+ && ::protozero::internal::gen_helpers::EqualsField(track_event_config_, other.track_event_config_)
+ && ::protozero::internal::gen_helpers::EqualsField(android_polled_state_config_, other.android_polled_state_config_)
+ && ::protozero::internal::gen_helpers::EqualsField(android_system_property_config_, other.android_system_property_config_)
+ && ::protozero::internal::gen_helpers::EqualsField(statsd_tracing_config_, other.statsd_tracing_config_)
+ && ::protozero::internal::gen_helpers::EqualsField(system_info_config_, other.system_info_config_)
+ && ::protozero::internal::gen_helpers::EqualsField(chrome_config_, other.chrome_config_)
+ && ::protozero::internal::gen_helpers::EqualsField(v8_config_, other.v8_config_)
+ && ::protozero::internal::gen_helpers::EqualsField(interceptor_config_, other.interceptor_config_)
+ && ::protozero::internal::gen_helpers::EqualsField(network_packet_trace_config_, other.network_packet_trace_config_)
+ && ::protozero::internal::gen_helpers::EqualsField(surfaceflinger_layers_config_, other.surfaceflinger_layers_config_)
+ && ::protozero::internal::gen_helpers::EqualsField(surfaceflinger_transactions_config_, other.surfaceflinger_transactions_config_)
+ && ::protozero::internal::gen_helpers::EqualsField(android_sdk_sysprop_guard_config_, other.android_sdk_sysprop_guard_config_)
+ && ::protozero::internal::gen_helpers::EqualsField(etw_config_, other.etw_config_)
+ && ::protozero::internal::gen_helpers::EqualsField(protolog_config_, other.protolog_config_)
+ && ::protozero::internal::gen_helpers::EqualsField(android_input_event_config_, other.android_input_event_config_)
+ && ::protozero::internal::gen_helpers::EqualsField(legacy_config_, other.legacy_config_)
+ && ::protozero::internal::gen_helpers::EqualsField(for_testing_, other.for_testing_);
+}
+
+bool DataSourceConfig::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* name */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &name_);
+ break;
+ case 2 /* target_buffer */:
+ field.get(&target_buffer_);
+ break;
+ case 3 /* trace_duration_ms */:
+ field.get(&trace_duration_ms_);
+ break;
+ case 122 /* prefer_suspend_clock_for_duration */:
+ field.get(&prefer_suspend_clock_for_duration_);
+ break;
+ case 7 /* stop_timeout_ms */:
+ field.get(&stop_timeout_ms_);
+ break;
+ case 6 /* enable_extra_guardrails */:
+ field.get(&enable_extra_guardrails_);
+ break;
+ case 8 /* session_initiator */:
+ field.get(&session_initiator_);
+ break;
+ case 4 /* tracing_session_id */:
+ field.get(&tracing_session_id_);
+ break;
+ case 100 /* ftrace_config */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &ftrace_config_);
+ break;
+ case 102 /* inode_file_config */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &inode_file_config_);
+ break;
+ case 103 /* process_stats_config */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &process_stats_config_);
+ break;
+ case 104 /* sys_stats_config */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &sys_stats_config_);
+ break;
+ case 105 /* heapprofd_config */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &heapprofd_config_);
+ break;
+ case 110 /* java_hprof_config */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &java_hprof_config_);
+ break;
+ case 106 /* android_power_config */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &android_power_config_);
+ break;
+ case 107 /* android_log_config */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &android_log_config_);
+ break;
+ case 108 /* gpu_counter_config */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &gpu_counter_config_);
+ break;
+ case 116 /* android_game_intervention_list_config */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &android_game_intervention_list_config_);
+ break;
+ case 109 /* packages_list_config */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &packages_list_config_);
+ break;
+ case 111 /* perf_event_config */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &perf_event_config_);
+ break;
+ case 112 /* vulkan_memory_config */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &vulkan_memory_config_);
+ break;
+ case 113 /* track_event_config */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &track_event_config_);
+ break;
+ case 114 /* android_polled_state_config */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &android_polled_state_config_);
+ break;
+ case 118 /* android_system_property_config */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &android_system_property_config_);
+ break;
+ case 117 /* statsd_tracing_config */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &statsd_tracing_config_);
+ break;
+ case 119 /* system_info_config */:
+ (*system_info_config_).ParseFromArray(field.data(), field.size());
+ break;
+ case 101 /* chrome_config */:
+ (*chrome_config_).ParseFromArray(field.data(), field.size());
+ break;
+ case 127 /* v8_config */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &v8_config_);
+ break;
+ case 115 /* interceptor_config */:
+ (*interceptor_config_).ParseFromArray(field.data(), field.size());
+ break;
+ case 120 /* network_packet_trace_config */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &network_packet_trace_config_);
+ break;
+ case 121 /* surfaceflinger_layers_config */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &surfaceflinger_layers_config_);
+ break;
+ case 123 /* surfaceflinger_transactions_config */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &surfaceflinger_transactions_config_);
+ break;
+ case 124 /* android_sdk_sysprop_guard_config */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &android_sdk_sysprop_guard_config_);
+ break;
+ case 125 /* etw_config */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &etw_config_);
+ break;
+ case 126 /* protolog_config */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &protolog_config_);
+ break;
+ case 128 /* android_input_event_config */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &android_input_event_config_);
+ break;
+ case 1000 /* legacy_config */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &legacy_config_);
+ break;
+ case 1001 /* for_testing */:
+ (*for_testing_).ParseFromArray(field.data(), field.size());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string DataSourceConfig::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> DataSourceConfig::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void DataSourceConfig::Serialize(::protozero::Message* msg) const {
+ // Field 1: name
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeString(1, name_, msg);
+ }
+
+ // Field 2: target_buffer
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, target_buffer_, msg);
+ }
+
+ // Field 3: trace_duration_ms
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(3, trace_duration_ms_, msg);
+ }
+
+ // Field 122: prefer_suspend_clock_for_duration
+ if (_has_field_[122]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(122, prefer_suspend_clock_for_duration_, msg);
+ }
+
+ // Field 7: stop_timeout_ms
+ if (_has_field_[7]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(7, stop_timeout_ms_, msg);
+ }
+
+ // Field 6: enable_extra_guardrails
+ if (_has_field_[6]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(6, enable_extra_guardrails_, msg);
+ }
+
+ // Field 8: session_initiator
+ if (_has_field_[8]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(8, session_initiator_, msg);
+ }
+
+ // Field 4: tracing_session_id
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(4, tracing_session_id_, msg);
+ }
+
+ // Field 100: ftrace_config
+ if (_has_field_[100]) {
+ msg->AppendString(100, ftrace_config_);
+ }
+
+ // Field 102: inode_file_config
+ if (_has_field_[102]) {
+ msg->AppendString(102, inode_file_config_);
+ }
+
+ // Field 103: process_stats_config
+ if (_has_field_[103]) {
+ msg->AppendString(103, process_stats_config_);
+ }
+
+ // Field 104: sys_stats_config
+ if (_has_field_[104]) {
+ msg->AppendString(104, sys_stats_config_);
+ }
+
+ // Field 105: heapprofd_config
+ if (_has_field_[105]) {
+ msg->AppendString(105, heapprofd_config_);
+ }
+
+ // Field 110: java_hprof_config
+ if (_has_field_[110]) {
+ msg->AppendString(110, java_hprof_config_);
+ }
+
+ // Field 106: android_power_config
+ if (_has_field_[106]) {
+ msg->AppendString(106, android_power_config_);
+ }
+
+ // Field 107: android_log_config
+ if (_has_field_[107]) {
+ msg->AppendString(107, android_log_config_);
+ }
+
+ // Field 108: gpu_counter_config
+ if (_has_field_[108]) {
+ msg->AppendString(108, gpu_counter_config_);
+ }
+
+ // Field 116: android_game_intervention_list_config
+ if (_has_field_[116]) {
+ msg->AppendString(116, android_game_intervention_list_config_);
+ }
+
+ // Field 109: packages_list_config
+ if (_has_field_[109]) {
+ msg->AppendString(109, packages_list_config_);
+ }
+
+ // Field 111: perf_event_config
+ if (_has_field_[111]) {
+ msg->AppendString(111, perf_event_config_);
+ }
+
+ // Field 112: vulkan_memory_config
+ if (_has_field_[112]) {
+ msg->AppendString(112, vulkan_memory_config_);
+ }
+
+ // Field 113: track_event_config
+ if (_has_field_[113]) {
+ msg->AppendString(113, track_event_config_);
+ }
+
+ // Field 114: android_polled_state_config
+ if (_has_field_[114]) {
+ msg->AppendString(114, android_polled_state_config_);
+ }
+
+ // Field 118: android_system_property_config
+ if (_has_field_[118]) {
+ msg->AppendString(118, android_system_property_config_);
+ }
+
+ // Field 117: statsd_tracing_config
+ if (_has_field_[117]) {
+ msg->AppendString(117, statsd_tracing_config_);
+ }
+
+ // Field 119: system_info_config
+ if (_has_field_[119]) {
+ (*system_info_config_).Serialize(msg->BeginNestedMessage<::protozero::Message>(119));
+ }
+
+ // Field 101: chrome_config
+ if (_has_field_[101]) {
+ (*chrome_config_).Serialize(msg->BeginNestedMessage<::protozero::Message>(101));
+ }
+
+ // Field 127: v8_config
+ if (_has_field_[127]) {
+ msg->AppendString(127, v8_config_);
+ }
+
+ // Field 115: interceptor_config
+ if (_has_field_[115]) {
+ (*interceptor_config_).Serialize(msg->BeginNestedMessage<::protozero::Message>(115));
+ }
+
+ // Field 120: network_packet_trace_config
+ if (_has_field_[120]) {
+ msg->AppendString(120, network_packet_trace_config_);
+ }
+
+ // Field 121: surfaceflinger_layers_config
+ if (_has_field_[121]) {
+ msg->AppendString(121, surfaceflinger_layers_config_);
+ }
+
+ // Field 123: surfaceflinger_transactions_config
+ if (_has_field_[123]) {
+ msg->AppendString(123, surfaceflinger_transactions_config_);
+ }
+
+ // Field 124: android_sdk_sysprop_guard_config
+ if (_has_field_[124]) {
+ msg->AppendString(124, android_sdk_sysprop_guard_config_);
+ }
+
+ // Field 125: etw_config
+ if (_has_field_[125]) {
+ msg->AppendString(125, etw_config_);
+ }
+
+ // Field 126: protolog_config
+ if (_has_field_[126]) {
+ msg->AppendString(126, protolog_config_);
+ }
+
+ // Field 128: android_input_event_config
+ if (_has_field_[128]) {
+ msg->AppendString(128, android_input_event_config_);
+ }
+
+ // Field 1000: legacy_config
+ if (_has_field_[1000]) {
+ ::protozero::internal::gen_helpers::SerializeString(1000, legacy_config_, msg);
+ }
+
+ // Field 1001: for_testing
+ if (_has_field_[1001]) {
+ (*for_testing_).Serialize(msg->BeginNestedMessage<::protozero::Message>(1001));
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/config/etw/etw_config.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/config/etw/etw_config.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+EtwConfig::EtwConfig() = default;
+EtwConfig::~EtwConfig() = default;
+EtwConfig::EtwConfig(const EtwConfig&) = default;
+EtwConfig& EtwConfig::operator=(const EtwConfig&) = default;
+EtwConfig::EtwConfig(EtwConfig&&) noexcept = default;
+EtwConfig& EtwConfig::operator=(EtwConfig&&) = default;
+
+bool EtwConfig::operator==(const EtwConfig& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(kernel_flags_, other.kernel_flags_);
+}
+
+bool EtwConfig::ParseFromArray(const void* raw, size_t size) {
+ kernel_flags_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* kernel_flags */:
+ kernel_flags_.emplace_back();
+ field.get(&kernel_flags_.back());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string EtwConfig::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> EtwConfig::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void EtwConfig::Serialize(::protozero::Message* msg) const {
+ // Field 1: kernel_flags
+ for (auto& it : kernel_flags_) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, it, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/config/interceptor_config.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/config/interceptor_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/interceptors/console_config.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+InterceptorConfig::InterceptorConfig() = default;
+InterceptorConfig::~InterceptorConfig() = default;
+InterceptorConfig::InterceptorConfig(const InterceptorConfig&) = default;
+InterceptorConfig& InterceptorConfig::operator=(const InterceptorConfig&) = default;
+InterceptorConfig::InterceptorConfig(InterceptorConfig&&) noexcept = default;
+InterceptorConfig& InterceptorConfig::operator=(InterceptorConfig&&) = default;
+
+bool InterceptorConfig::operator==(const InterceptorConfig& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(name_, other.name_)
+ && ::protozero::internal::gen_helpers::EqualsField(console_config_, other.console_config_);
+}
+
+bool InterceptorConfig::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* name */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &name_);
+ break;
+ case 100 /* console_config */:
+ (*console_config_).ParseFromArray(field.data(), field.size());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string InterceptorConfig::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> InterceptorConfig::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void InterceptorConfig::Serialize(::protozero::Message* msg) const {
+ // Field 1: name
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeString(1, name_, msg);
+ }
+
+ // Field 100: console_config
+ if (_has_field_[100]) {
+ (*console_config_).Serialize(msg->BeginNestedMessage<::protozero::Message>(100));
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/config/stress_test_config.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/config/stress_test_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/trace_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/data_source_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/system_info/system_info.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/track_event/track_event_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/test_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/sys_stats/sys_stats_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/sys_stats_counters.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/profiling/perf_event_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/perf_events.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/profiling/java_hprof_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/profiling/heapprofd_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/process_stats/process_stats_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/statsd/statsd_tracing_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/statsd/atom_ids.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/power/android_power_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/interceptor_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/interceptors/console_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/inode_file/inode_file_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/gpu/vulkan_memory_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/gpu/gpu_counter_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/ftrace/ftrace_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/etw/etw_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/chrome/v8_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/chrome/chrome_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/surfaceflinger_transactions_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/surfaceflinger_layers_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/protolog_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/protolog_common.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/packages_list_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/network_trace_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/android_sdk_sysprop_guard_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/android_system_property_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/android_polled_state_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/android_log_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/android_log_constants.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/android_input_event_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/android_game_intervention_list_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/builtin_clock.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+StressTestConfig::StressTestConfig() = default;
+StressTestConfig::~StressTestConfig() = default;
+StressTestConfig::StressTestConfig(const StressTestConfig&) = default;
+StressTestConfig& StressTestConfig::operator=(const StressTestConfig&) = default;
+StressTestConfig::StressTestConfig(StressTestConfig&&) noexcept = default;
+StressTestConfig& StressTestConfig::operator=(StressTestConfig&&) = default;
+
+bool StressTestConfig::operator==(const StressTestConfig& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(trace_config_, other.trace_config_)
+ && ::protozero::internal::gen_helpers::EqualsField(shmem_size_kb_, other.shmem_size_kb_)
+ && ::protozero::internal::gen_helpers::EqualsField(shmem_page_size_kb_, other.shmem_page_size_kb_)
+ && ::protozero::internal::gen_helpers::EqualsField(num_processes_, other.num_processes_)
+ && ::protozero::internal::gen_helpers::EqualsField(num_threads_, other.num_threads_)
+ && ::protozero::internal::gen_helpers::EqualsField(max_events_, other.max_events_)
+ && ::protozero::internal::gen_helpers::EqualsField(nesting_, other.nesting_)
+ && ::protozero::internal::gen_helpers::EqualsField(steady_state_timings_, other.steady_state_timings_)
+ && ::protozero::internal::gen_helpers::EqualsField(burst_period_ms_, other.burst_period_ms_)
+ && ::protozero::internal::gen_helpers::EqualsField(burst_duration_ms_, other.burst_duration_ms_)
+ && ::protozero::internal::gen_helpers::EqualsField(burst_timings_, other.burst_timings_);
+}
+
+bool StressTestConfig::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* trace_config */:
+ (*trace_config_).ParseFromArray(field.data(), field.size());
+ break;
+ case 2 /* shmem_size_kb */:
+ field.get(&shmem_size_kb_);
+ break;
+ case 3 /* shmem_page_size_kb */:
+ field.get(&shmem_page_size_kb_);
+ break;
+ case 4 /* num_processes */:
+ field.get(&num_processes_);
+ break;
+ case 5 /* num_threads */:
+ field.get(&num_threads_);
+ break;
+ case 6 /* max_events */:
+ field.get(&max_events_);
+ break;
+ case 7 /* nesting */:
+ field.get(&nesting_);
+ break;
+ case 8 /* steady_state_timings */:
+ (*steady_state_timings_).ParseFromArray(field.data(), field.size());
+ break;
+ case 9 /* burst_period_ms */:
+ field.get(&burst_period_ms_);
+ break;
+ case 10 /* burst_duration_ms */:
+ field.get(&burst_duration_ms_);
+ break;
+ case 11 /* burst_timings */:
+ (*burst_timings_).ParseFromArray(field.data(), field.size());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string StressTestConfig::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> StressTestConfig::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void StressTestConfig::Serialize(::protozero::Message* msg) const {
+ // Field 1: trace_config
+ if (_has_field_[1]) {
+ (*trace_config_).Serialize(msg->BeginNestedMessage<::protozero::Message>(1));
+ }
+
+ // Field 2: shmem_size_kb
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, shmem_size_kb_, msg);
+ }
+
+ // Field 3: shmem_page_size_kb
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(3, shmem_page_size_kb_, msg);
+ }
+
+ // Field 4: num_processes
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(4, num_processes_, msg);
+ }
+
+ // Field 5: num_threads
+ if (_has_field_[5]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(5, num_threads_, msg);
+ }
+
+ // Field 6: max_events
+ if (_has_field_[6]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(6, max_events_, msg);
+ }
+
+ // Field 7: nesting
+ if (_has_field_[7]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(7, nesting_, msg);
+ }
+
+ // Field 8: steady_state_timings
+ if (_has_field_[8]) {
+ (*steady_state_timings_).Serialize(msg->BeginNestedMessage<::protozero::Message>(8));
+ }
+
+ // Field 9: burst_period_ms
+ if (_has_field_[9]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(9, burst_period_ms_, msg);
+ }
+
+ // Field 10: burst_duration_ms
+ if (_has_field_[10]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(10, burst_duration_ms_, msg);
+ }
+
+ // Field 11: burst_timings
+ if (_has_field_[11]) {
+ (*burst_timings_).Serialize(msg->BeginNestedMessage<::protozero::Message>(11));
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+StressTestConfig_WriterTiming::StressTestConfig_WriterTiming() = default;
+StressTestConfig_WriterTiming::~StressTestConfig_WriterTiming() = default;
+StressTestConfig_WriterTiming::StressTestConfig_WriterTiming(const StressTestConfig_WriterTiming&) = default;
+StressTestConfig_WriterTiming& StressTestConfig_WriterTiming::operator=(const StressTestConfig_WriterTiming&) = default;
+StressTestConfig_WriterTiming::StressTestConfig_WriterTiming(StressTestConfig_WriterTiming&&) noexcept = default;
+StressTestConfig_WriterTiming& StressTestConfig_WriterTiming::operator=(StressTestConfig_WriterTiming&&) = default;
+
+bool StressTestConfig_WriterTiming::operator==(const StressTestConfig_WriterTiming& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(payload_mean_, other.payload_mean_)
+ && ::protozero::internal::gen_helpers::EqualsField(payload_stddev_, other.payload_stddev_)
+ && ::protozero::internal::gen_helpers::EqualsField(rate_mean_, other.rate_mean_)
+ && ::protozero::internal::gen_helpers::EqualsField(rate_stddev_, other.rate_stddev_)
+ && ::protozero::internal::gen_helpers::EqualsField(payload_write_time_ms_, other.payload_write_time_ms_);
+}
+
+bool StressTestConfig_WriterTiming::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* payload_mean */:
+ field.get(&payload_mean_);
+ break;
+ case 2 /* payload_stddev */:
+ field.get(&payload_stddev_);
+ break;
+ case 3 /* rate_mean */:
+ field.get(&rate_mean_);
+ break;
+ case 4 /* rate_stddev */:
+ field.get(&rate_stddev_);
+ break;
+ case 5 /* payload_write_time_ms */:
+ field.get(&payload_write_time_ms_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string StressTestConfig_WriterTiming::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> StressTestConfig_WriterTiming::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void StressTestConfig_WriterTiming::Serialize(::protozero::Message* msg) const {
+ // Field 1: payload_mean
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeFixed(1, payload_mean_, msg);
+ }
+
+ // Field 2: payload_stddev
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeFixed(2, payload_stddev_, msg);
+ }
+
+ // Field 3: rate_mean
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeFixed(3, rate_mean_, msg);
+ }
+
+ // Field 4: rate_stddev
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeFixed(4, rate_stddev_, msg);
+ }
+
+ // Field 5: payload_write_time_ms
+ if (_has_field_[5]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(5, payload_write_time_ms_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/config/test_config.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/config/test_config.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+TestConfig::TestConfig() = default;
+TestConfig::~TestConfig() = default;
+TestConfig::TestConfig(const TestConfig&) = default;
+TestConfig& TestConfig::operator=(const TestConfig&) = default;
+TestConfig::TestConfig(TestConfig&&) noexcept = default;
+TestConfig& TestConfig::operator=(TestConfig&&) = default;
+
+bool TestConfig::operator==(const TestConfig& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(message_count_, other.message_count_)
+ && ::protozero::internal::gen_helpers::EqualsField(max_messages_per_second_, other.max_messages_per_second_)
+ && ::protozero::internal::gen_helpers::EqualsField(seed_, other.seed_)
+ && ::protozero::internal::gen_helpers::EqualsField(message_size_, other.message_size_)
+ && ::protozero::internal::gen_helpers::EqualsField(send_batch_on_register_, other.send_batch_on_register_)
+ && ::protozero::internal::gen_helpers::EqualsField(dummy_fields_, other.dummy_fields_);
+}
+
+bool TestConfig::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* message_count */:
+ field.get(&message_count_);
+ break;
+ case 2 /* max_messages_per_second */:
+ field.get(&max_messages_per_second_);
+ break;
+ case 3 /* seed */:
+ field.get(&seed_);
+ break;
+ case 4 /* message_size */:
+ field.get(&message_size_);
+ break;
+ case 5 /* send_batch_on_register */:
+ field.get(&send_batch_on_register_);
+ break;
+ case 6 /* dummy_fields */:
+ (*dummy_fields_).ParseFromArray(field.data(), field.size());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string TestConfig::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> TestConfig::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void TestConfig::Serialize(::protozero::Message* msg) const {
+ // Field 1: message_count
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, message_count_, msg);
+ }
+
+ // Field 2: max_messages_per_second
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, max_messages_per_second_, msg);
+ }
+
+ // Field 3: seed
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(3, seed_, msg);
+ }
+
+ // Field 4: message_size
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(4, message_size_, msg);
+ }
+
+ // Field 5: send_batch_on_register
+ if (_has_field_[5]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(5, send_batch_on_register_, msg);
+ }
+
+ // Field 6: dummy_fields
+ if (_has_field_[6]) {
+ (*dummy_fields_).Serialize(msg->BeginNestedMessage<::protozero::Message>(6));
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+TestConfig_DummyFields::TestConfig_DummyFields() = default;
+TestConfig_DummyFields::~TestConfig_DummyFields() = default;
+TestConfig_DummyFields::TestConfig_DummyFields(const TestConfig_DummyFields&) = default;
+TestConfig_DummyFields& TestConfig_DummyFields::operator=(const TestConfig_DummyFields&) = default;
+TestConfig_DummyFields::TestConfig_DummyFields(TestConfig_DummyFields&&) noexcept = default;
+TestConfig_DummyFields& TestConfig_DummyFields::operator=(TestConfig_DummyFields&&) = default;
+
+bool TestConfig_DummyFields::operator==(const TestConfig_DummyFields& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(field_uint32_, other.field_uint32_)
+ && ::protozero::internal::gen_helpers::EqualsField(field_int32_, other.field_int32_)
+ && ::protozero::internal::gen_helpers::EqualsField(field_uint64_, other.field_uint64_)
+ && ::protozero::internal::gen_helpers::EqualsField(field_int64_, other.field_int64_)
+ && ::protozero::internal::gen_helpers::EqualsField(field_fixed64_, other.field_fixed64_)
+ && ::protozero::internal::gen_helpers::EqualsField(field_sfixed64_, other.field_sfixed64_)
+ && ::protozero::internal::gen_helpers::EqualsField(field_fixed32_, other.field_fixed32_)
+ && ::protozero::internal::gen_helpers::EqualsField(field_sfixed32_, other.field_sfixed32_)
+ && ::protozero::internal::gen_helpers::EqualsField(field_double_, other.field_double_)
+ && ::protozero::internal::gen_helpers::EqualsField(field_float_, other.field_float_)
+ && ::protozero::internal::gen_helpers::EqualsField(field_sint64_, other.field_sint64_)
+ && ::protozero::internal::gen_helpers::EqualsField(field_sint32_, other.field_sint32_)
+ && ::protozero::internal::gen_helpers::EqualsField(field_string_, other.field_string_)
+ && ::protozero::internal::gen_helpers::EqualsField(field_bytes_, other.field_bytes_);
+}
+
+bool TestConfig_DummyFields::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* field_uint32 */:
+ field.get(&field_uint32_);
+ break;
+ case 2 /* field_int32 */:
+ field.get(&field_int32_);
+ break;
+ case 3 /* field_uint64 */:
+ field.get(&field_uint64_);
+ break;
+ case 4 /* field_int64 */:
+ field.get(&field_int64_);
+ break;
+ case 5 /* field_fixed64 */:
+ field.get(&field_fixed64_);
+ break;
+ case 6 /* field_sfixed64 */:
+ field.get(&field_sfixed64_);
+ break;
+ case 7 /* field_fixed32 */:
+ field.get(&field_fixed32_);
+ break;
+ case 8 /* field_sfixed32 */:
+ field.get(&field_sfixed32_);
+ break;
+ case 9 /* field_double */:
+ field.get(&field_double_);
+ break;
+ case 10 /* field_float */:
+ field.get(&field_float_);
+ break;
+ case 11 /* field_sint64 */:
+ field.get_signed(&field_sint64_);
+ break;
+ case 12 /* field_sint32 */:
+ field.get_signed(&field_sint32_);
+ break;
+ case 13 /* field_string */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &field_string_);
+ break;
+ case 14 /* field_bytes */:
+ field.get(&field_bytes_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string TestConfig_DummyFields::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> TestConfig_DummyFields::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void TestConfig_DummyFields::Serialize(::protozero::Message* msg) const {
+ // Field 1: field_uint32
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, field_uint32_, msg);
+ }
+
+ // Field 2: field_int32
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, field_int32_, msg);
+ }
+
+ // Field 3: field_uint64
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(3, field_uint64_, msg);
+ }
+
+ // Field 4: field_int64
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(4, field_int64_, msg);
+ }
+
+ // Field 5: field_fixed64
+ if (_has_field_[5]) {
+ ::protozero::internal::gen_helpers::SerializeFixed(5, field_fixed64_, msg);
+ }
+
+ // Field 6: field_sfixed64
+ if (_has_field_[6]) {
+ ::protozero::internal::gen_helpers::SerializeFixed(6, field_sfixed64_, msg);
+ }
+
+ // Field 7: field_fixed32
+ if (_has_field_[7]) {
+ ::protozero::internal::gen_helpers::SerializeFixed(7, field_fixed32_, msg);
+ }
+
+ // Field 8: field_sfixed32
+ if (_has_field_[8]) {
+ ::protozero::internal::gen_helpers::SerializeFixed(8, field_sfixed32_, msg);
+ }
+
+ // Field 9: field_double
+ if (_has_field_[9]) {
+ ::protozero::internal::gen_helpers::SerializeFixed(9, field_double_, msg);
+ }
+
+ // Field 10: field_float
+ if (_has_field_[10]) {
+ ::protozero::internal::gen_helpers::SerializeFixed(10, field_float_, msg);
+ }
+
+ // Field 11: field_sint64
+ if (_has_field_[11]) {
+ ::protozero::internal::gen_helpers::SerializeSignedVarInt(11, field_sint64_, msg);
+ }
+
+ // Field 12: field_sint32
+ if (_has_field_[12]) {
+ ::protozero::internal::gen_helpers::SerializeSignedVarInt(12, field_sint32_, msg);
+ }
+
+ // Field 13: field_string
+ if (_has_field_[13]) {
+ ::protozero::internal::gen_helpers::SerializeString(13, field_string_, msg);
+ }
+
+ // Field 14: field_bytes
+ if (_has_field_[14]) {
+ ::protozero::internal::gen_helpers::SerializeString(14, field_bytes_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/config/trace_config.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/config/trace_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/data_source_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/system_info/system_info.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/track_event/track_event_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/test_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/sys_stats/sys_stats_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/sys_stats_counters.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/profiling/perf_event_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/perf_events.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/profiling/java_hprof_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/profiling/heapprofd_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/process_stats/process_stats_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/statsd/statsd_tracing_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/statsd/atom_ids.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/power/android_power_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/interceptor_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/interceptors/console_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/inode_file/inode_file_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/gpu/vulkan_memory_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/gpu/gpu_counter_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/ftrace/ftrace_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/etw/etw_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/chrome/v8_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/chrome/chrome_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/surfaceflinger_transactions_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/surfaceflinger_layers_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/protolog_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/protolog_common.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/packages_list_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/network_trace_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/android_sdk_sysprop_guard_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/android_system_property_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/android_polled_state_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/android_log_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/android_log_constants.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/android_input_event_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/android_game_intervention_list_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/builtin_clock.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+TraceConfig::TraceConfig() = default;
+TraceConfig::~TraceConfig() = default;
+TraceConfig::TraceConfig(const TraceConfig&) = default;
+TraceConfig& TraceConfig::operator=(const TraceConfig&) = default;
+TraceConfig::TraceConfig(TraceConfig&&) noexcept = default;
+TraceConfig& TraceConfig::operator=(TraceConfig&&) = default;
+
+bool TraceConfig::operator==(const TraceConfig& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(buffers_, other.buffers_)
+ && ::protozero::internal::gen_helpers::EqualsField(data_sources_, other.data_sources_)
+ && ::protozero::internal::gen_helpers::EqualsField(builtin_data_sources_, other.builtin_data_sources_)
+ && ::protozero::internal::gen_helpers::EqualsField(duration_ms_, other.duration_ms_)
+ && ::protozero::internal::gen_helpers::EqualsField(prefer_suspend_clock_for_duration_, other.prefer_suspend_clock_for_duration_)
+ && ::protozero::internal::gen_helpers::EqualsField(enable_extra_guardrails_, other.enable_extra_guardrails_)
+ && ::protozero::internal::gen_helpers::EqualsField(lockdown_mode_, other.lockdown_mode_)
+ && ::protozero::internal::gen_helpers::EqualsField(producers_, other.producers_)
+ && ::protozero::internal::gen_helpers::EqualsField(statsd_metadata_, other.statsd_metadata_)
+ && ::protozero::internal::gen_helpers::EqualsField(write_into_file_, other.write_into_file_)
+ && ::protozero::internal::gen_helpers::EqualsField(output_path_, other.output_path_)
+ && ::protozero::internal::gen_helpers::EqualsField(file_write_period_ms_, other.file_write_period_ms_)
+ && ::protozero::internal::gen_helpers::EqualsField(max_file_size_bytes_, other.max_file_size_bytes_)
+ && ::protozero::internal::gen_helpers::EqualsField(guardrail_overrides_, other.guardrail_overrides_)
+ && ::protozero::internal::gen_helpers::EqualsField(deferred_start_, other.deferred_start_)
+ && ::protozero::internal::gen_helpers::EqualsField(flush_period_ms_, other.flush_period_ms_)
+ && ::protozero::internal::gen_helpers::EqualsField(flush_timeout_ms_, other.flush_timeout_ms_)
+ && ::protozero::internal::gen_helpers::EqualsField(data_source_stop_timeout_ms_, other.data_source_stop_timeout_ms_)
+ && ::protozero::internal::gen_helpers::EqualsField(notify_traceur_, other.notify_traceur_)
+ && ::protozero::internal::gen_helpers::EqualsField(bugreport_score_, other.bugreport_score_)
+ && ::protozero::internal::gen_helpers::EqualsField(bugreport_filename_, other.bugreport_filename_)
+ && ::protozero::internal::gen_helpers::EqualsField(trigger_config_, other.trigger_config_)
+ && ::protozero::internal::gen_helpers::EqualsField(activate_triggers_, other.activate_triggers_)
+ && ::protozero::internal::gen_helpers::EqualsField(incremental_state_config_, other.incremental_state_config_)
+ && ::protozero::internal::gen_helpers::EqualsField(allow_user_build_tracing_, other.allow_user_build_tracing_)
+ && ::protozero::internal::gen_helpers::EqualsField(unique_session_name_, other.unique_session_name_)
+ && ::protozero::internal::gen_helpers::EqualsField(compression_type_, other.compression_type_)
+ && ::protozero::internal::gen_helpers::EqualsField(incident_report_config_, other.incident_report_config_)
+ && ::protozero::internal::gen_helpers::EqualsField(statsd_logging_, other.statsd_logging_)
+ && ::protozero::internal::gen_helpers::EqualsField(trace_uuid_msb_, other.trace_uuid_msb_)
+ && ::protozero::internal::gen_helpers::EqualsField(trace_uuid_lsb_, other.trace_uuid_lsb_)
+ && ::protozero::internal::gen_helpers::EqualsField(trace_filter_, other.trace_filter_)
+ && ::protozero::internal::gen_helpers::EqualsField(android_report_config_, other.android_report_config_)
+ && ::protozero::internal::gen_helpers::EqualsField(cmd_trace_start_delay_, other.cmd_trace_start_delay_);
+}
+
+int TraceConfig::buffers_size() const { return static_cast<int>(buffers_.size()); }
+void TraceConfig::clear_buffers() { buffers_.clear(); }
+TraceConfig_BufferConfig* TraceConfig::add_buffers() { buffers_.emplace_back(); return &buffers_.back(); }
+int TraceConfig::data_sources_size() const { return static_cast<int>(data_sources_.size()); }
+void TraceConfig::clear_data_sources() { data_sources_.clear(); }
+TraceConfig_DataSource* TraceConfig::add_data_sources() { data_sources_.emplace_back(); return &data_sources_.back(); }
+int TraceConfig::producers_size() const { return static_cast<int>(producers_.size()); }
+void TraceConfig::clear_producers() { producers_.clear(); }
+TraceConfig_ProducerConfig* TraceConfig::add_producers() { producers_.emplace_back(); return &producers_.back(); }
+bool TraceConfig::ParseFromArray(const void* raw, size_t size) {
+ buffers_.clear();
+ data_sources_.clear();
+ producers_.clear();
+ activate_triggers_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* buffers */:
+ buffers_.emplace_back();
+ buffers_.back().ParseFromArray(field.data(), field.size());
+ break;
+ case 2 /* data_sources */:
+ data_sources_.emplace_back();
+ data_sources_.back().ParseFromArray(field.data(), field.size());
+ break;
+ case 20 /* builtin_data_sources */:
+ (*builtin_data_sources_).ParseFromArray(field.data(), field.size());
+ break;
+ case 3 /* duration_ms */:
+ field.get(&duration_ms_);
+ break;
+ case 36 /* prefer_suspend_clock_for_duration */:
+ field.get(&prefer_suspend_clock_for_duration_);
+ break;
+ case 4 /* enable_extra_guardrails */:
+ field.get(&enable_extra_guardrails_);
+ break;
+ case 5 /* lockdown_mode */:
+ field.get(&lockdown_mode_);
+ break;
+ case 6 /* producers */:
+ producers_.emplace_back();
+ producers_.back().ParseFromArray(field.data(), field.size());
+ break;
+ case 7 /* statsd_metadata */:
+ (*statsd_metadata_).ParseFromArray(field.data(), field.size());
+ break;
+ case 8 /* write_into_file */:
+ field.get(&write_into_file_);
+ break;
+ case 29 /* output_path */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &output_path_);
+ break;
+ case 9 /* file_write_period_ms */:
+ field.get(&file_write_period_ms_);
+ break;
+ case 10 /* max_file_size_bytes */:
+ field.get(&max_file_size_bytes_);
+ break;
+ case 11 /* guardrail_overrides */:
+ (*guardrail_overrides_).ParseFromArray(field.data(), field.size());
+ break;
+ case 12 /* deferred_start */:
+ field.get(&deferred_start_);
+ break;
+ case 13 /* flush_period_ms */:
+ field.get(&flush_period_ms_);
+ break;
+ case 14 /* flush_timeout_ms */:
+ field.get(&flush_timeout_ms_);
+ break;
+ case 23 /* data_source_stop_timeout_ms */:
+ field.get(&data_source_stop_timeout_ms_);
+ break;
+ case 16 /* notify_traceur */:
+ field.get(&notify_traceur_);
+ break;
+ case 30 /* bugreport_score */:
+ field.get(&bugreport_score_);
+ break;
+ case 38 /* bugreport_filename */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &bugreport_filename_);
+ break;
+ case 17 /* trigger_config */:
+ (*trigger_config_).ParseFromArray(field.data(), field.size());
+ break;
+ case 18 /* activate_triggers */:
+ activate_triggers_.emplace_back();
+ ::protozero::internal::gen_helpers::DeserializeString(field, &activate_triggers_.back());
+ break;
+ case 21 /* incremental_state_config */:
+ (*incremental_state_config_).ParseFromArray(field.data(), field.size());
+ break;
+ case 19 /* allow_user_build_tracing */:
+ field.get(&allow_user_build_tracing_);
+ break;
+ case 22 /* unique_session_name */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &unique_session_name_);
+ break;
+ case 24 /* compression_type */:
+ field.get(&compression_type_);
+ break;
+ case 25 /* incident_report_config */:
+ (*incident_report_config_).ParseFromArray(field.data(), field.size());
+ break;
+ case 31 /* statsd_logging */:
+ field.get(&statsd_logging_);
+ break;
+ case 27 /* trace_uuid_msb */:
+ field.get(&trace_uuid_msb_);
+ break;
+ case 28 /* trace_uuid_lsb */:
+ field.get(&trace_uuid_lsb_);
+ break;
+ case 33 /* trace_filter */:
+ (*trace_filter_).ParseFromArray(field.data(), field.size());
+ break;
+ case 34 /* android_report_config */:
+ (*android_report_config_).ParseFromArray(field.data(), field.size());
+ break;
+ case 35 /* cmd_trace_start_delay */:
+ (*cmd_trace_start_delay_).ParseFromArray(field.data(), field.size());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string TraceConfig::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> TraceConfig::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void TraceConfig::Serialize(::protozero::Message* msg) const {
+ // Field 1: buffers
+ for (auto& it : buffers_) {
+ it.Serialize(msg->BeginNestedMessage<::protozero::Message>(1));
+ }
+
+ // Field 2: data_sources
+ for (auto& it : data_sources_) {
+ it.Serialize(msg->BeginNestedMessage<::protozero::Message>(2));
+ }
+
+ // Field 20: builtin_data_sources
+ if (_has_field_[20]) {
+ (*builtin_data_sources_).Serialize(msg->BeginNestedMessage<::protozero::Message>(20));
+ }
+
+ // Field 3: duration_ms
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(3, duration_ms_, msg);
+ }
+
+ // Field 36: prefer_suspend_clock_for_duration
+ if (_has_field_[36]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(36, prefer_suspend_clock_for_duration_, msg);
+ }
+
+ // Field 4: enable_extra_guardrails
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(4, enable_extra_guardrails_, msg);
+ }
+
+ // Field 5: lockdown_mode
+ if (_has_field_[5]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(5, lockdown_mode_, msg);
+ }
+
+ // Field 6: producers
+ for (auto& it : producers_) {
+ it.Serialize(msg->BeginNestedMessage<::protozero::Message>(6));
+ }
+
+ // Field 7: statsd_metadata
+ if (_has_field_[7]) {
+ (*statsd_metadata_).Serialize(msg->BeginNestedMessage<::protozero::Message>(7));
+ }
+
+ // Field 8: write_into_file
+ if (_has_field_[8]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(8, write_into_file_, msg);
+ }
+
+ // Field 29: output_path
+ if (_has_field_[29]) {
+ ::protozero::internal::gen_helpers::SerializeString(29, output_path_, msg);
+ }
+
+ // Field 9: file_write_period_ms
+ if (_has_field_[9]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(9, file_write_period_ms_, msg);
+ }
+
+ // Field 10: max_file_size_bytes
+ if (_has_field_[10]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(10, max_file_size_bytes_, msg);
+ }
+
+ // Field 11: guardrail_overrides
+ if (_has_field_[11]) {
+ (*guardrail_overrides_).Serialize(msg->BeginNestedMessage<::protozero::Message>(11));
+ }
+
+ // Field 12: deferred_start
+ if (_has_field_[12]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(12, deferred_start_, msg);
+ }
+
+ // Field 13: flush_period_ms
+ if (_has_field_[13]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(13, flush_period_ms_, msg);
+ }
+
+ // Field 14: flush_timeout_ms
+ if (_has_field_[14]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(14, flush_timeout_ms_, msg);
+ }
+
+ // Field 23: data_source_stop_timeout_ms
+ if (_has_field_[23]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(23, data_source_stop_timeout_ms_, msg);
+ }
+
+ // Field 16: notify_traceur
+ if (_has_field_[16]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(16, notify_traceur_, msg);
+ }
+
+ // Field 30: bugreport_score
+ if (_has_field_[30]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(30, bugreport_score_, msg);
+ }
+
+ // Field 38: bugreport_filename
+ if (_has_field_[38]) {
+ ::protozero::internal::gen_helpers::SerializeString(38, bugreport_filename_, msg);
+ }
+
+ // Field 17: trigger_config
+ if (_has_field_[17]) {
+ (*trigger_config_).Serialize(msg->BeginNestedMessage<::protozero::Message>(17));
+ }
+
+ // Field 18: activate_triggers
+ for (auto& it : activate_triggers_) {
+ ::protozero::internal::gen_helpers::SerializeString(18, it, msg);
+ }
+
+ // Field 21: incremental_state_config
+ if (_has_field_[21]) {
+ (*incremental_state_config_).Serialize(msg->BeginNestedMessage<::protozero::Message>(21));
+ }
+
+ // Field 19: allow_user_build_tracing
+ if (_has_field_[19]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(19, allow_user_build_tracing_, msg);
+ }
+
+ // Field 22: unique_session_name
+ if (_has_field_[22]) {
+ ::protozero::internal::gen_helpers::SerializeString(22, unique_session_name_, msg);
+ }
+
+ // Field 24: compression_type
+ if (_has_field_[24]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(24, compression_type_, msg);
+ }
+
+ // Field 25: incident_report_config
+ if (_has_field_[25]) {
+ (*incident_report_config_).Serialize(msg->BeginNestedMessage<::protozero::Message>(25));
+ }
+
+ // Field 31: statsd_logging
+ if (_has_field_[31]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(31, statsd_logging_, msg);
+ }
+
+ // Field 27: trace_uuid_msb
+ if (_has_field_[27]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(27, trace_uuid_msb_, msg);
+ }
+
+ // Field 28: trace_uuid_lsb
+ if (_has_field_[28]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(28, trace_uuid_lsb_, msg);
+ }
+
+ // Field 33: trace_filter
+ if (_has_field_[33]) {
+ (*trace_filter_).Serialize(msg->BeginNestedMessage<::protozero::Message>(33));
+ }
+
+ // Field 34: android_report_config
+ if (_has_field_[34]) {
+ (*android_report_config_).Serialize(msg->BeginNestedMessage<::protozero::Message>(34));
+ }
+
+ // Field 35: cmd_trace_start_delay
+ if (_has_field_[35]) {
+ (*cmd_trace_start_delay_).Serialize(msg->BeginNestedMessage<::protozero::Message>(35));
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+TraceConfig_CmdTraceStartDelay::TraceConfig_CmdTraceStartDelay() = default;
+TraceConfig_CmdTraceStartDelay::~TraceConfig_CmdTraceStartDelay() = default;
+TraceConfig_CmdTraceStartDelay::TraceConfig_CmdTraceStartDelay(const TraceConfig_CmdTraceStartDelay&) = default;
+TraceConfig_CmdTraceStartDelay& TraceConfig_CmdTraceStartDelay::operator=(const TraceConfig_CmdTraceStartDelay&) = default;
+TraceConfig_CmdTraceStartDelay::TraceConfig_CmdTraceStartDelay(TraceConfig_CmdTraceStartDelay&&) noexcept = default;
+TraceConfig_CmdTraceStartDelay& TraceConfig_CmdTraceStartDelay::operator=(TraceConfig_CmdTraceStartDelay&&) = default;
+
+bool TraceConfig_CmdTraceStartDelay::operator==(const TraceConfig_CmdTraceStartDelay& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(min_delay_ms_, other.min_delay_ms_)
+ && ::protozero::internal::gen_helpers::EqualsField(max_delay_ms_, other.max_delay_ms_);
+}
+
+bool TraceConfig_CmdTraceStartDelay::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* min_delay_ms */:
+ field.get(&min_delay_ms_);
+ break;
+ case 2 /* max_delay_ms */:
+ field.get(&max_delay_ms_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string TraceConfig_CmdTraceStartDelay::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> TraceConfig_CmdTraceStartDelay::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void TraceConfig_CmdTraceStartDelay::Serialize(::protozero::Message* msg) const {
+ // Field 1: min_delay_ms
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, min_delay_ms_, msg);
+ }
+
+ // Field 2: max_delay_ms
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, max_delay_ms_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+TraceConfig_AndroidReportConfig::TraceConfig_AndroidReportConfig() = default;
+TraceConfig_AndroidReportConfig::~TraceConfig_AndroidReportConfig() = default;
+TraceConfig_AndroidReportConfig::TraceConfig_AndroidReportConfig(const TraceConfig_AndroidReportConfig&) = default;
+TraceConfig_AndroidReportConfig& TraceConfig_AndroidReportConfig::operator=(const TraceConfig_AndroidReportConfig&) = default;
+TraceConfig_AndroidReportConfig::TraceConfig_AndroidReportConfig(TraceConfig_AndroidReportConfig&&) noexcept = default;
+TraceConfig_AndroidReportConfig& TraceConfig_AndroidReportConfig::operator=(TraceConfig_AndroidReportConfig&&) = default;
+
+bool TraceConfig_AndroidReportConfig::operator==(const TraceConfig_AndroidReportConfig& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(reporter_service_package_, other.reporter_service_package_)
+ && ::protozero::internal::gen_helpers::EqualsField(reporter_service_class_, other.reporter_service_class_)
+ && ::protozero::internal::gen_helpers::EqualsField(skip_report_, other.skip_report_)
+ && ::protozero::internal::gen_helpers::EqualsField(use_pipe_in_framework_for_testing_, other.use_pipe_in_framework_for_testing_);
+}
+
+bool TraceConfig_AndroidReportConfig::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* reporter_service_package */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &reporter_service_package_);
+ break;
+ case 2 /* reporter_service_class */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &reporter_service_class_);
+ break;
+ case 3 /* skip_report */:
+ field.get(&skip_report_);
+ break;
+ case 4 /* use_pipe_in_framework_for_testing */:
+ field.get(&use_pipe_in_framework_for_testing_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string TraceConfig_AndroidReportConfig::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> TraceConfig_AndroidReportConfig::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void TraceConfig_AndroidReportConfig::Serialize(::protozero::Message* msg) const {
+ // Field 1: reporter_service_package
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeString(1, reporter_service_package_, msg);
+ }
+
+ // Field 2: reporter_service_class
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeString(2, reporter_service_class_, msg);
+ }
+
+ // Field 3: skip_report
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(3, skip_report_, msg);
+ }
+
+ // Field 4: use_pipe_in_framework_for_testing
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(4, use_pipe_in_framework_for_testing_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+TraceConfig_TraceFilter::TraceConfig_TraceFilter() = default;
+TraceConfig_TraceFilter::~TraceConfig_TraceFilter() = default;
+TraceConfig_TraceFilter::TraceConfig_TraceFilter(const TraceConfig_TraceFilter&) = default;
+TraceConfig_TraceFilter& TraceConfig_TraceFilter::operator=(const TraceConfig_TraceFilter&) = default;
+TraceConfig_TraceFilter::TraceConfig_TraceFilter(TraceConfig_TraceFilter&&) noexcept = default;
+TraceConfig_TraceFilter& TraceConfig_TraceFilter::operator=(TraceConfig_TraceFilter&&) = default;
+
+bool TraceConfig_TraceFilter::operator==(const TraceConfig_TraceFilter& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(bytecode_, other.bytecode_)
+ && ::protozero::internal::gen_helpers::EqualsField(bytecode_v2_, other.bytecode_v2_)
+ && ::protozero::internal::gen_helpers::EqualsField(string_filter_chain_, other.string_filter_chain_);
+}
+
+bool TraceConfig_TraceFilter::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* bytecode */:
+ field.get(&bytecode_);
+ break;
+ case 2 /* bytecode_v2 */:
+ field.get(&bytecode_v2_);
+ break;
+ case 3 /* string_filter_chain */:
+ (*string_filter_chain_).ParseFromArray(field.data(), field.size());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string TraceConfig_TraceFilter::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> TraceConfig_TraceFilter::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void TraceConfig_TraceFilter::Serialize(::protozero::Message* msg) const {
+ // Field 1: bytecode
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeString(1, bytecode_, msg);
+ }
+
+ // Field 2: bytecode_v2
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeString(2, bytecode_v2_, msg);
+ }
+
+ // Field 3: string_filter_chain
+ if (_has_field_[3]) {
+ (*string_filter_chain_).Serialize(msg->BeginNestedMessage<::protozero::Message>(3));
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+TraceConfig_TraceFilter_StringFilterChain::TraceConfig_TraceFilter_StringFilterChain() = default;
+TraceConfig_TraceFilter_StringFilterChain::~TraceConfig_TraceFilter_StringFilterChain() = default;
+TraceConfig_TraceFilter_StringFilterChain::TraceConfig_TraceFilter_StringFilterChain(const TraceConfig_TraceFilter_StringFilterChain&) = default;
+TraceConfig_TraceFilter_StringFilterChain& TraceConfig_TraceFilter_StringFilterChain::operator=(const TraceConfig_TraceFilter_StringFilterChain&) = default;
+TraceConfig_TraceFilter_StringFilterChain::TraceConfig_TraceFilter_StringFilterChain(TraceConfig_TraceFilter_StringFilterChain&&) noexcept = default;
+TraceConfig_TraceFilter_StringFilterChain& TraceConfig_TraceFilter_StringFilterChain::operator=(TraceConfig_TraceFilter_StringFilterChain&&) = default;
+
+bool TraceConfig_TraceFilter_StringFilterChain::operator==(const TraceConfig_TraceFilter_StringFilterChain& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(rules_, other.rules_);
+}
+
+int TraceConfig_TraceFilter_StringFilterChain::rules_size() const { return static_cast<int>(rules_.size()); }
+void TraceConfig_TraceFilter_StringFilterChain::clear_rules() { rules_.clear(); }
+TraceConfig_TraceFilter_StringFilterRule* TraceConfig_TraceFilter_StringFilterChain::add_rules() { rules_.emplace_back(); return &rules_.back(); }
+bool TraceConfig_TraceFilter_StringFilterChain::ParseFromArray(const void* raw, size_t size) {
+ rules_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* rules */:
+ rules_.emplace_back();
+ rules_.back().ParseFromArray(field.data(), field.size());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string TraceConfig_TraceFilter_StringFilterChain::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> TraceConfig_TraceFilter_StringFilterChain::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void TraceConfig_TraceFilter_StringFilterChain::Serialize(::protozero::Message* msg) const {
+ // Field 1: rules
+ for (auto& it : rules_) {
+ it.Serialize(msg->BeginNestedMessage<::protozero::Message>(1));
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+TraceConfig_TraceFilter_StringFilterRule::TraceConfig_TraceFilter_StringFilterRule() = default;
+TraceConfig_TraceFilter_StringFilterRule::~TraceConfig_TraceFilter_StringFilterRule() = default;
+TraceConfig_TraceFilter_StringFilterRule::TraceConfig_TraceFilter_StringFilterRule(const TraceConfig_TraceFilter_StringFilterRule&) = default;
+TraceConfig_TraceFilter_StringFilterRule& TraceConfig_TraceFilter_StringFilterRule::operator=(const TraceConfig_TraceFilter_StringFilterRule&) = default;
+TraceConfig_TraceFilter_StringFilterRule::TraceConfig_TraceFilter_StringFilterRule(TraceConfig_TraceFilter_StringFilterRule&&) noexcept = default;
+TraceConfig_TraceFilter_StringFilterRule& TraceConfig_TraceFilter_StringFilterRule::operator=(TraceConfig_TraceFilter_StringFilterRule&&) = default;
+
+bool TraceConfig_TraceFilter_StringFilterRule::operator==(const TraceConfig_TraceFilter_StringFilterRule& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(policy_, other.policy_)
+ && ::protozero::internal::gen_helpers::EqualsField(regex_pattern_, other.regex_pattern_)
+ && ::protozero::internal::gen_helpers::EqualsField(atrace_payload_starts_with_, other.atrace_payload_starts_with_);
+}
+
+bool TraceConfig_TraceFilter_StringFilterRule::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* policy */:
+ field.get(&policy_);
+ break;
+ case 2 /* regex_pattern */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &regex_pattern_);
+ break;
+ case 3 /* atrace_payload_starts_with */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &atrace_payload_starts_with_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string TraceConfig_TraceFilter_StringFilterRule::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> TraceConfig_TraceFilter_StringFilterRule::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void TraceConfig_TraceFilter_StringFilterRule::Serialize(::protozero::Message* msg) const {
+ // Field 1: policy
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, policy_, msg);
+ }
+
+ // Field 2: regex_pattern
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeString(2, regex_pattern_, msg);
+ }
+
+ // Field 3: atrace_payload_starts_with
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeString(3, atrace_payload_starts_with_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+TraceConfig_IncidentReportConfig::TraceConfig_IncidentReportConfig() = default;
+TraceConfig_IncidentReportConfig::~TraceConfig_IncidentReportConfig() = default;
+TraceConfig_IncidentReportConfig::TraceConfig_IncidentReportConfig(const TraceConfig_IncidentReportConfig&) = default;
+TraceConfig_IncidentReportConfig& TraceConfig_IncidentReportConfig::operator=(const TraceConfig_IncidentReportConfig&) = default;
+TraceConfig_IncidentReportConfig::TraceConfig_IncidentReportConfig(TraceConfig_IncidentReportConfig&&) noexcept = default;
+TraceConfig_IncidentReportConfig& TraceConfig_IncidentReportConfig::operator=(TraceConfig_IncidentReportConfig&&) = default;
+
+bool TraceConfig_IncidentReportConfig::operator==(const TraceConfig_IncidentReportConfig& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(destination_package_, other.destination_package_)
+ && ::protozero::internal::gen_helpers::EqualsField(destination_class_, other.destination_class_)
+ && ::protozero::internal::gen_helpers::EqualsField(privacy_level_, other.privacy_level_)
+ && ::protozero::internal::gen_helpers::EqualsField(skip_incidentd_, other.skip_incidentd_)
+ && ::protozero::internal::gen_helpers::EqualsField(skip_dropbox_, other.skip_dropbox_);
+}
+
+bool TraceConfig_IncidentReportConfig::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* destination_package */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &destination_package_);
+ break;
+ case 2 /* destination_class */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &destination_class_);
+ break;
+ case 3 /* privacy_level */:
+ field.get(&privacy_level_);
+ break;
+ case 5 /* skip_incidentd */:
+ field.get(&skip_incidentd_);
+ break;
+ case 4 /* skip_dropbox */:
+ field.get(&skip_dropbox_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string TraceConfig_IncidentReportConfig::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> TraceConfig_IncidentReportConfig::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void TraceConfig_IncidentReportConfig::Serialize(::protozero::Message* msg) const {
+ // Field 1: destination_package
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeString(1, destination_package_, msg);
+ }
+
+ // Field 2: destination_class
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeString(2, destination_class_, msg);
+ }
+
+ // Field 3: privacy_level
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(3, privacy_level_, msg);
+ }
+
+ // Field 5: skip_incidentd
+ if (_has_field_[5]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(5, skip_incidentd_, msg);
+ }
+
+ // Field 4: skip_dropbox
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(4, skip_dropbox_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+TraceConfig_IncrementalStateConfig::TraceConfig_IncrementalStateConfig() = default;
+TraceConfig_IncrementalStateConfig::~TraceConfig_IncrementalStateConfig() = default;
+TraceConfig_IncrementalStateConfig::TraceConfig_IncrementalStateConfig(const TraceConfig_IncrementalStateConfig&) = default;
+TraceConfig_IncrementalStateConfig& TraceConfig_IncrementalStateConfig::operator=(const TraceConfig_IncrementalStateConfig&) = default;
+TraceConfig_IncrementalStateConfig::TraceConfig_IncrementalStateConfig(TraceConfig_IncrementalStateConfig&&) noexcept = default;
+TraceConfig_IncrementalStateConfig& TraceConfig_IncrementalStateConfig::operator=(TraceConfig_IncrementalStateConfig&&) = default;
+
+bool TraceConfig_IncrementalStateConfig::operator==(const TraceConfig_IncrementalStateConfig& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(clear_period_ms_, other.clear_period_ms_);
+}
+
+bool TraceConfig_IncrementalStateConfig::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* clear_period_ms */:
+ field.get(&clear_period_ms_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string TraceConfig_IncrementalStateConfig::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> TraceConfig_IncrementalStateConfig::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void TraceConfig_IncrementalStateConfig::Serialize(::protozero::Message* msg) const {
+ // Field 1: clear_period_ms
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, clear_period_ms_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+TraceConfig_TriggerConfig::TraceConfig_TriggerConfig() = default;
+TraceConfig_TriggerConfig::~TraceConfig_TriggerConfig() = default;
+TraceConfig_TriggerConfig::TraceConfig_TriggerConfig(const TraceConfig_TriggerConfig&) = default;
+TraceConfig_TriggerConfig& TraceConfig_TriggerConfig::operator=(const TraceConfig_TriggerConfig&) = default;
+TraceConfig_TriggerConfig::TraceConfig_TriggerConfig(TraceConfig_TriggerConfig&&) noexcept = default;
+TraceConfig_TriggerConfig& TraceConfig_TriggerConfig::operator=(TraceConfig_TriggerConfig&&) = default;
+
+bool TraceConfig_TriggerConfig::operator==(const TraceConfig_TriggerConfig& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(trigger_mode_, other.trigger_mode_)
+ && ::protozero::internal::gen_helpers::EqualsField(use_clone_snapshot_if_available_, other.use_clone_snapshot_if_available_)
+ && ::protozero::internal::gen_helpers::EqualsField(triggers_, other.triggers_)
+ && ::protozero::internal::gen_helpers::EqualsField(trigger_timeout_ms_, other.trigger_timeout_ms_);
+}
+
+int TraceConfig_TriggerConfig::triggers_size() const { return static_cast<int>(triggers_.size()); }
+void TraceConfig_TriggerConfig::clear_triggers() { triggers_.clear(); }
+TraceConfig_TriggerConfig_Trigger* TraceConfig_TriggerConfig::add_triggers() { triggers_.emplace_back(); return &triggers_.back(); }
+bool TraceConfig_TriggerConfig::ParseFromArray(const void* raw, size_t size) {
+ triggers_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* trigger_mode */:
+ field.get(&trigger_mode_);
+ break;
+ case 5 /* use_clone_snapshot_if_available */:
+ field.get(&use_clone_snapshot_if_available_);
+ break;
+ case 2 /* triggers */:
+ triggers_.emplace_back();
+ triggers_.back().ParseFromArray(field.data(), field.size());
+ break;
+ case 3 /* trigger_timeout_ms */:
+ field.get(&trigger_timeout_ms_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string TraceConfig_TriggerConfig::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> TraceConfig_TriggerConfig::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void TraceConfig_TriggerConfig::Serialize(::protozero::Message* msg) const {
+ // Field 1: trigger_mode
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, trigger_mode_, msg);
+ }
+
+ // Field 5: use_clone_snapshot_if_available
+ if (_has_field_[5]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(5, use_clone_snapshot_if_available_, msg);
+ }
+
+ // Field 2: triggers
+ for (auto& it : triggers_) {
+ it.Serialize(msg->BeginNestedMessage<::protozero::Message>(2));
+ }
+
+ // Field 3: trigger_timeout_ms
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(3, trigger_timeout_ms_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+TraceConfig_TriggerConfig_Trigger::TraceConfig_TriggerConfig_Trigger() = default;
+TraceConfig_TriggerConfig_Trigger::~TraceConfig_TriggerConfig_Trigger() = default;
+TraceConfig_TriggerConfig_Trigger::TraceConfig_TriggerConfig_Trigger(const TraceConfig_TriggerConfig_Trigger&) = default;
+TraceConfig_TriggerConfig_Trigger& TraceConfig_TriggerConfig_Trigger::operator=(const TraceConfig_TriggerConfig_Trigger&) = default;
+TraceConfig_TriggerConfig_Trigger::TraceConfig_TriggerConfig_Trigger(TraceConfig_TriggerConfig_Trigger&&) noexcept = default;
+TraceConfig_TriggerConfig_Trigger& TraceConfig_TriggerConfig_Trigger::operator=(TraceConfig_TriggerConfig_Trigger&&) = default;
+
+bool TraceConfig_TriggerConfig_Trigger::operator==(const TraceConfig_TriggerConfig_Trigger& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(name_, other.name_)
+ && ::protozero::internal::gen_helpers::EqualsField(producer_name_regex_, other.producer_name_regex_)
+ && ::protozero::internal::gen_helpers::EqualsField(stop_delay_ms_, other.stop_delay_ms_)
+ && ::protozero::internal::gen_helpers::EqualsField(max_per_24_h_, other.max_per_24_h_)
+ && ::protozero::internal::gen_helpers::EqualsField(skip_probability_, other.skip_probability_);
+}
+
+bool TraceConfig_TriggerConfig_Trigger::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* name */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &name_);
+ break;
+ case 2 /* producer_name_regex */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &producer_name_regex_);
+ break;
+ case 3 /* stop_delay_ms */:
+ field.get(&stop_delay_ms_);
+ break;
+ case 4 /* max_per_24_h */:
+ field.get(&max_per_24_h_);
+ break;
+ case 5 /* skip_probability */:
+ field.get(&skip_probability_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string TraceConfig_TriggerConfig_Trigger::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> TraceConfig_TriggerConfig_Trigger::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void TraceConfig_TriggerConfig_Trigger::Serialize(::protozero::Message* msg) const {
+ // Field 1: name
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeString(1, name_, msg);
+ }
+
+ // Field 2: producer_name_regex
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeString(2, producer_name_regex_, msg);
+ }
+
+ // Field 3: stop_delay_ms
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(3, stop_delay_ms_, msg);
+ }
+
+ // Field 4: max_per_24_h
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(4, max_per_24_h_, msg);
+ }
+
+ // Field 5: skip_probability
+ if (_has_field_[5]) {
+ ::protozero::internal::gen_helpers::SerializeFixed(5, skip_probability_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+TraceConfig_GuardrailOverrides::TraceConfig_GuardrailOverrides() = default;
+TraceConfig_GuardrailOverrides::~TraceConfig_GuardrailOverrides() = default;
+TraceConfig_GuardrailOverrides::TraceConfig_GuardrailOverrides(const TraceConfig_GuardrailOverrides&) = default;
+TraceConfig_GuardrailOverrides& TraceConfig_GuardrailOverrides::operator=(const TraceConfig_GuardrailOverrides&) = default;
+TraceConfig_GuardrailOverrides::TraceConfig_GuardrailOverrides(TraceConfig_GuardrailOverrides&&) noexcept = default;
+TraceConfig_GuardrailOverrides& TraceConfig_GuardrailOverrides::operator=(TraceConfig_GuardrailOverrides&&) = default;
+
+bool TraceConfig_GuardrailOverrides::operator==(const TraceConfig_GuardrailOverrides& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(max_upload_per_day_bytes_, other.max_upload_per_day_bytes_)
+ && ::protozero::internal::gen_helpers::EqualsField(max_tracing_buffer_size_kb_, other.max_tracing_buffer_size_kb_);
+}
+
+bool TraceConfig_GuardrailOverrides::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* max_upload_per_day_bytes */:
+ field.get(&max_upload_per_day_bytes_);
+ break;
+ case 2 /* max_tracing_buffer_size_kb */:
+ field.get(&max_tracing_buffer_size_kb_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string TraceConfig_GuardrailOverrides::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> TraceConfig_GuardrailOverrides::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void TraceConfig_GuardrailOverrides::Serialize(::protozero::Message* msg) const {
+ // Field 1: max_upload_per_day_bytes
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, max_upload_per_day_bytes_, msg);
+ }
+
+ // Field 2: max_tracing_buffer_size_kb
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, max_tracing_buffer_size_kb_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+TraceConfig_StatsdMetadata::TraceConfig_StatsdMetadata() = default;
+TraceConfig_StatsdMetadata::~TraceConfig_StatsdMetadata() = default;
+TraceConfig_StatsdMetadata::TraceConfig_StatsdMetadata(const TraceConfig_StatsdMetadata&) = default;
+TraceConfig_StatsdMetadata& TraceConfig_StatsdMetadata::operator=(const TraceConfig_StatsdMetadata&) = default;
+TraceConfig_StatsdMetadata::TraceConfig_StatsdMetadata(TraceConfig_StatsdMetadata&&) noexcept = default;
+TraceConfig_StatsdMetadata& TraceConfig_StatsdMetadata::operator=(TraceConfig_StatsdMetadata&&) = default;
+
+bool TraceConfig_StatsdMetadata::operator==(const TraceConfig_StatsdMetadata& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(triggering_alert_id_, other.triggering_alert_id_)
+ && ::protozero::internal::gen_helpers::EqualsField(triggering_config_uid_, other.triggering_config_uid_)
+ && ::protozero::internal::gen_helpers::EqualsField(triggering_config_id_, other.triggering_config_id_)
+ && ::protozero::internal::gen_helpers::EqualsField(triggering_subscription_id_, other.triggering_subscription_id_);
+}
+
+bool TraceConfig_StatsdMetadata::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* triggering_alert_id */:
+ field.get(&triggering_alert_id_);
+ break;
+ case 2 /* triggering_config_uid */:
+ field.get(&triggering_config_uid_);
+ break;
+ case 3 /* triggering_config_id */:
+ field.get(&triggering_config_id_);
+ break;
+ case 4 /* triggering_subscription_id */:
+ field.get(&triggering_subscription_id_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string TraceConfig_StatsdMetadata::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> TraceConfig_StatsdMetadata::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void TraceConfig_StatsdMetadata::Serialize(::protozero::Message* msg) const {
+ // Field 1: triggering_alert_id
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, triggering_alert_id_, msg);
+ }
+
+ // Field 2: triggering_config_uid
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, triggering_config_uid_, msg);
+ }
+
+ // Field 3: triggering_config_id
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(3, triggering_config_id_, msg);
+ }
+
+ // Field 4: triggering_subscription_id
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(4, triggering_subscription_id_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+TraceConfig_ProducerConfig::TraceConfig_ProducerConfig() = default;
+TraceConfig_ProducerConfig::~TraceConfig_ProducerConfig() = default;
+TraceConfig_ProducerConfig::TraceConfig_ProducerConfig(const TraceConfig_ProducerConfig&) = default;
+TraceConfig_ProducerConfig& TraceConfig_ProducerConfig::operator=(const TraceConfig_ProducerConfig&) = default;
+TraceConfig_ProducerConfig::TraceConfig_ProducerConfig(TraceConfig_ProducerConfig&&) noexcept = default;
+TraceConfig_ProducerConfig& TraceConfig_ProducerConfig::operator=(TraceConfig_ProducerConfig&&) = default;
+
+bool TraceConfig_ProducerConfig::operator==(const TraceConfig_ProducerConfig& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(producer_name_, other.producer_name_)
+ && ::protozero::internal::gen_helpers::EqualsField(shm_size_kb_, other.shm_size_kb_)
+ && ::protozero::internal::gen_helpers::EqualsField(page_size_kb_, other.page_size_kb_);
+}
+
+bool TraceConfig_ProducerConfig::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* producer_name */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &producer_name_);
+ break;
+ case 2 /* shm_size_kb */:
+ field.get(&shm_size_kb_);
+ break;
+ case 3 /* page_size_kb */:
+ field.get(&page_size_kb_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string TraceConfig_ProducerConfig::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> TraceConfig_ProducerConfig::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void TraceConfig_ProducerConfig::Serialize(::protozero::Message* msg) const {
+ // Field 1: producer_name
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeString(1, producer_name_, msg);
+ }
+
+ // Field 2: shm_size_kb
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, shm_size_kb_, msg);
+ }
+
+ // Field 3: page_size_kb
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(3, page_size_kb_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+TraceConfig_BuiltinDataSource::TraceConfig_BuiltinDataSource() = default;
+TraceConfig_BuiltinDataSource::~TraceConfig_BuiltinDataSource() = default;
+TraceConfig_BuiltinDataSource::TraceConfig_BuiltinDataSource(const TraceConfig_BuiltinDataSource&) = default;
+TraceConfig_BuiltinDataSource& TraceConfig_BuiltinDataSource::operator=(const TraceConfig_BuiltinDataSource&) = default;
+TraceConfig_BuiltinDataSource::TraceConfig_BuiltinDataSource(TraceConfig_BuiltinDataSource&&) noexcept = default;
+TraceConfig_BuiltinDataSource& TraceConfig_BuiltinDataSource::operator=(TraceConfig_BuiltinDataSource&&) = default;
+
+bool TraceConfig_BuiltinDataSource::operator==(const TraceConfig_BuiltinDataSource& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(disable_clock_snapshotting_, other.disable_clock_snapshotting_)
+ && ::protozero::internal::gen_helpers::EqualsField(disable_trace_config_, other.disable_trace_config_)
+ && ::protozero::internal::gen_helpers::EqualsField(disable_system_info_, other.disable_system_info_)
+ && ::protozero::internal::gen_helpers::EqualsField(disable_service_events_, other.disable_service_events_)
+ && ::protozero::internal::gen_helpers::EqualsField(primary_trace_clock_, other.primary_trace_clock_)
+ && ::protozero::internal::gen_helpers::EqualsField(snapshot_interval_ms_, other.snapshot_interval_ms_)
+ && ::protozero::internal::gen_helpers::EqualsField(prefer_suspend_clock_for_snapshot_, other.prefer_suspend_clock_for_snapshot_)
+ && ::protozero::internal::gen_helpers::EqualsField(disable_chunk_usage_histograms_, other.disable_chunk_usage_histograms_);
+}
+
+bool TraceConfig_BuiltinDataSource::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* disable_clock_snapshotting */:
+ field.get(&disable_clock_snapshotting_);
+ break;
+ case 2 /* disable_trace_config */:
+ field.get(&disable_trace_config_);
+ break;
+ case 3 /* disable_system_info */:
+ field.get(&disable_system_info_);
+ break;
+ case 4 /* disable_service_events */:
+ field.get(&disable_service_events_);
+ break;
+ case 5 /* primary_trace_clock */:
+ field.get(&primary_trace_clock_);
+ break;
+ case 6 /* snapshot_interval_ms */:
+ field.get(&snapshot_interval_ms_);
+ break;
+ case 7 /* prefer_suspend_clock_for_snapshot */:
+ field.get(&prefer_suspend_clock_for_snapshot_);
+ break;
+ case 8 /* disable_chunk_usage_histograms */:
+ field.get(&disable_chunk_usage_histograms_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string TraceConfig_BuiltinDataSource::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> TraceConfig_BuiltinDataSource::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void TraceConfig_BuiltinDataSource::Serialize(::protozero::Message* msg) const {
+ // Field 1: disable_clock_snapshotting
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(1, disable_clock_snapshotting_, msg);
+ }
+
+ // Field 2: disable_trace_config
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(2, disable_trace_config_, msg);
+ }
+
+ // Field 3: disable_system_info
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(3, disable_system_info_, msg);
+ }
+
+ // Field 4: disable_service_events
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(4, disable_service_events_, msg);
+ }
+
+ // Field 5: primary_trace_clock
+ if (_has_field_[5]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(5, primary_trace_clock_, msg);
+ }
+
+ // Field 6: snapshot_interval_ms
+ if (_has_field_[6]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(6, snapshot_interval_ms_, msg);
+ }
+
+ // Field 7: prefer_suspend_clock_for_snapshot
+ if (_has_field_[7]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(7, prefer_suspend_clock_for_snapshot_, msg);
+ }
+
+ // Field 8: disable_chunk_usage_histograms
+ if (_has_field_[8]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(8, disable_chunk_usage_histograms_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+TraceConfig_DataSource::TraceConfig_DataSource() = default;
+TraceConfig_DataSource::~TraceConfig_DataSource() = default;
+TraceConfig_DataSource::TraceConfig_DataSource(const TraceConfig_DataSource&) = default;
+TraceConfig_DataSource& TraceConfig_DataSource::operator=(const TraceConfig_DataSource&) = default;
+TraceConfig_DataSource::TraceConfig_DataSource(TraceConfig_DataSource&&) noexcept = default;
+TraceConfig_DataSource& TraceConfig_DataSource::operator=(TraceConfig_DataSource&&) = default;
+
+bool TraceConfig_DataSource::operator==(const TraceConfig_DataSource& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(config_, other.config_)
+ && ::protozero::internal::gen_helpers::EqualsField(producer_name_filter_, other.producer_name_filter_)
+ && ::protozero::internal::gen_helpers::EqualsField(producer_name_regex_filter_, other.producer_name_regex_filter_);
+}
+
+bool TraceConfig_DataSource::ParseFromArray(const void* raw, size_t size) {
+ producer_name_filter_.clear();
+ producer_name_regex_filter_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* config */:
+ (*config_).ParseFromArray(field.data(), field.size());
+ break;
+ case 2 /* producer_name_filter */:
+ producer_name_filter_.emplace_back();
+ ::protozero::internal::gen_helpers::DeserializeString(field, &producer_name_filter_.back());
+ break;
+ case 3 /* producer_name_regex_filter */:
+ producer_name_regex_filter_.emplace_back();
+ ::protozero::internal::gen_helpers::DeserializeString(field, &producer_name_regex_filter_.back());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string TraceConfig_DataSource::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> TraceConfig_DataSource::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void TraceConfig_DataSource::Serialize(::protozero::Message* msg) const {
+ // Field 1: config
+ if (_has_field_[1]) {
+ (*config_).Serialize(msg->BeginNestedMessage<::protozero::Message>(1));
+ }
+
+ // Field 2: producer_name_filter
+ for (auto& it : producer_name_filter_) {
+ ::protozero::internal::gen_helpers::SerializeString(2, it, msg);
+ }
+
+ // Field 3: producer_name_regex_filter
+ for (auto& it : producer_name_regex_filter_) {
+ ::protozero::internal::gen_helpers::SerializeString(3, it, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+TraceConfig_BufferConfig::TraceConfig_BufferConfig() = default;
+TraceConfig_BufferConfig::~TraceConfig_BufferConfig() = default;
+TraceConfig_BufferConfig::TraceConfig_BufferConfig(const TraceConfig_BufferConfig&) = default;
+TraceConfig_BufferConfig& TraceConfig_BufferConfig::operator=(const TraceConfig_BufferConfig&) = default;
+TraceConfig_BufferConfig::TraceConfig_BufferConfig(TraceConfig_BufferConfig&&) noexcept = default;
+TraceConfig_BufferConfig& TraceConfig_BufferConfig::operator=(TraceConfig_BufferConfig&&) = default;
+
+bool TraceConfig_BufferConfig::operator==(const TraceConfig_BufferConfig& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(size_kb_, other.size_kb_)
+ && ::protozero::internal::gen_helpers::EqualsField(fill_policy_, other.fill_policy_)
+ && ::protozero::internal::gen_helpers::EqualsField(transfer_on_clone_, other.transfer_on_clone_)
+ && ::protozero::internal::gen_helpers::EqualsField(clear_before_clone_, other.clear_before_clone_);
+}
+
+bool TraceConfig_BufferConfig::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* size_kb */:
+ field.get(&size_kb_);
+ break;
+ case 4 /* fill_policy */:
+ field.get(&fill_policy_);
+ break;
+ case 5 /* transfer_on_clone */:
+ field.get(&transfer_on_clone_);
+ break;
+ case 6 /* clear_before_clone */:
+ field.get(&clear_before_clone_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string TraceConfig_BufferConfig::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> TraceConfig_BufferConfig::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void TraceConfig_BufferConfig::Serialize(::protozero::Message* msg) const {
+ // Field 1: size_kb
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, size_kb_, msg);
+ }
+
+ // Field 4: fill_policy
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(4, fill_policy_, msg);
+ }
+
+ // Field 5: transfer_on_clone
+ if (_has_field_[5]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(5, transfer_on_clone_, msg);
+ }
+
+ // Field 6: clear_before_clone
+ if (_has_field_[6]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(6, clear_before_clone_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/common/android_energy_consumer_descriptor.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/common/android_log_constants.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/common/builtin_clock.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/common/commit_data_request.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/common/data_source_descriptor.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/common/descriptor.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/common/ftrace_descriptor.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/common/gpu_counter_descriptor.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/common/interceptor_descriptor.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/common/observable_events.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/common/perf_events.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/common/protolog_common.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/common/sys_stats_counters.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/common/trace_stats.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/common/tracing_service_capabilities.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/common/tracing_service_state.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/common/track_event_descriptor.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/android/android_game_intervention_list.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/android/android_input_event.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/android/android_log.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/android/android_system_property.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/android/camera_event.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/android/frame_timeline_event.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/android/gpu_mem_event.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/android/graphics_frame_event.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/android/initial_display_state.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/android/network_trace.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/android/packages_list.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/android/protolog.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/android/shell_transition.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/android/surfaceflinger_common.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/android/surfaceflinger_layers.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/android/surfaceflinger_transactions.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/chrome/chrome_benchmark_metadata.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/chrome/chrome_metadata.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/chrome/chrome_trace_event.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/chrome/v8.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/gpu/gpu_counter_event.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/gpu/gpu_log.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/gpu/gpu_render_stage_event.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/gpu/vulkan_api_event.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/gpu/vulkan_memory_event.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/profiling/deobfuscation.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/profiling/heap_graph.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/profiling/profile_common.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/profiling/profile_packet.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/profiling/smaps.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/track_event/chrome_active_processes.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/track_event/chrome_application_state_info.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/track_event/chrome_compositor_scheduler_state.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/track_event/chrome_content_settings_event_info.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/track_event/chrome_frame_reporter.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/track_event/chrome_histogram_sample.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/track_event/chrome_keyed_service.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/track_event/chrome_latency_info.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/track_event/chrome_legacy_ipc.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/track_event/chrome_message_pump.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/track_event/chrome_mojo_event_info.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/track_event/chrome_process_descriptor.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/track_event/chrome_renderer_scheduler_state.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/track_event/chrome_thread_descriptor.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/track_event/chrome_user_event.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/track_event/chrome_window_handle_event_info.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/track_event/counter_descriptor.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/track_event/debug_annotation.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/track_event/log_message.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/track_event/pixel_modem.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/track_event/process_descriptor.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/track_event/range_of_interest.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/track_event/screenshot.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/track_event/source_location.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/track_event/task_execution.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/track_event/thread_descriptor.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/track_event/track_descriptor.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/track_event/track_event.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/interned_data/interned_data.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/track_event/chrome_active_processes.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/chrome_active_processes.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+ChromeActiveProcesses::ChromeActiveProcesses() = default;
+ChromeActiveProcesses::~ChromeActiveProcesses() = default;
+ChromeActiveProcesses::ChromeActiveProcesses(const ChromeActiveProcesses&) = default;
+ChromeActiveProcesses& ChromeActiveProcesses::operator=(const ChromeActiveProcesses&) = default;
+ChromeActiveProcesses::ChromeActiveProcesses(ChromeActiveProcesses&&) noexcept = default;
+ChromeActiveProcesses& ChromeActiveProcesses::operator=(ChromeActiveProcesses&&) = default;
+
+bool ChromeActiveProcesses::operator==(const ChromeActiveProcesses& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(pid_, other.pid_);
+}
+
+bool ChromeActiveProcesses::ParseFromArray(const void* raw, size_t size) {
+ pid_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* pid */:
+ pid_.emplace_back();
+ field.get(&pid_.back());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string ChromeActiveProcesses::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> ChromeActiveProcesses::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void ChromeActiveProcesses::Serialize(::protozero::Message* msg) const {
+ // Field 1: pid
+ for (auto& it : pid_) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, it, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/trace/track_event/chrome_application_state_info.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/chrome_application_state_info.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+ChromeApplicationStateInfo::ChromeApplicationStateInfo() = default;
+ChromeApplicationStateInfo::~ChromeApplicationStateInfo() = default;
+ChromeApplicationStateInfo::ChromeApplicationStateInfo(const ChromeApplicationStateInfo&) = default;
+ChromeApplicationStateInfo& ChromeApplicationStateInfo::operator=(const ChromeApplicationStateInfo&) = default;
+ChromeApplicationStateInfo::ChromeApplicationStateInfo(ChromeApplicationStateInfo&&) noexcept = default;
+ChromeApplicationStateInfo& ChromeApplicationStateInfo::operator=(ChromeApplicationStateInfo&&) = default;
+
+bool ChromeApplicationStateInfo::operator==(const ChromeApplicationStateInfo& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(application_state_, other.application_state_);
+}
+
+bool ChromeApplicationStateInfo::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* application_state */:
+ field.get(&application_state_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string ChromeApplicationStateInfo::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> ChromeApplicationStateInfo::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void ChromeApplicationStateInfo::Serialize(::protozero::Message* msg) const {
+ // Field 1: application_state
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, application_state_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/trace/track_event/chrome_compositor_scheduler_state.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/chrome_compositor_scheduler_state.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/source_location.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+CompositorTimingHistory::CompositorTimingHistory() = default;
+CompositorTimingHistory::~CompositorTimingHistory() = default;
+CompositorTimingHistory::CompositorTimingHistory(const CompositorTimingHistory&) = default;
+CompositorTimingHistory& CompositorTimingHistory::operator=(const CompositorTimingHistory&) = default;
+CompositorTimingHistory::CompositorTimingHistory(CompositorTimingHistory&&) noexcept = default;
+CompositorTimingHistory& CompositorTimingHistory::operator=(CompositorTimingHistory&&) = default;
+
+bool CompositorTimingHistory::operator==(const CompositorTimingHistory& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(begin_main_frame_queue_critical_estimate_delta_us_, other.begin_main_frame_queue_critical_estimate_delta_us_)
+ && ::protozero::internal::gen_helpers::EqualsField(begin_main_frame_queue_not_critical_estimate_delta_us_, other.begin_main_frame_queue_not_critical_estimate_delta_us_)
+ && ::protozero::internal::gen_helpers::EqualsField(begin_main_frame_start_to_ready_to_commit_estimate_delta_us_, other.begin_main_frame_start_to_ready_to_commit_estimate_delta_us_)
+ && ::protozero::internal::gen_helpers::EqualsField(commit_to_ready_to_activate_estimate_delta_us_, other.commit_to_ready_to_activate_estimate_delta_us_)
+ && ::protozero::internal::gen_helpers::EqualsField(prepare_tiles_estimate_delta_us_, other.prepare_tiles_estimate_delta_us_)
+ && ::protozero::internal::gen_helpers::EqualsField(activate_estimate_delta_us_, other.activate_estimate_delta_us_)
+ && ::protozero::internal::gen_helpers::EqualsField(draw_estimate_delta_us_, other.draw_estimate_delta_us_);
+}
+
+bool CompositorTimingHistory::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* begin_main_frame_queue_critical_estimate_delta_us */:
+ field.get(&begin_main_frame_queue_critical_estimate_delta_us_);
+ break;
+ case 2 /* begin_main_frame_queue_not_critical_estimate_delta_us */:
+ field.get(&begin_main_frame_queue_not_critical_estimate_delta_us_);
+ break;
+ case 3 /* begin_main_frame_start_to_ready_to_commit_estimate_delta_us */:
+ field.get(&begin_main_frame_start_to_ready_to_commit_estimate_delta_us_);
+ break;
+ case 4 /* commit_to_ready_to_activate_estimate_delta_us */:
+ field.get(&commit_to_ready_to_activate_estimate_delta_us_);
+ break;
+ case 5 /* prepare_tiles_estimate_delta_us */:
+ field.get(&prepare_tiles_estimate_delta_us_);
+ break;
+ case 6 /* activate_estimate_delta_us */:
+ field.get(&activate_estimate_delta_us_);
+ break;
+ case 7 /* draw_estimate_delta_us */:
+ field.get(&draw_estimate_delta_us_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string CompositorTimingHistory::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> CompositorTimingHistory::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void CompositorTimingHistory::Serialize(::protozero::Message* msg) const {
+ // Field 1: begin_main_frame_queue_critical_estimate_delta_us
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, begin_main_frame_queue_critical_estimate_delta_us_, msg);
+ }
+
+ // Field 2: begin_main_frame_queue_not_critical_estimate_delta_us
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, begin_main_frame_queue_not_critical_estimate_delta_us_, msg);
+ }
+
+ // Field 3: begin_main_frame_start_to_ready_to_commit_estimate_delta_us
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(3, begin_main_frame_start_to_ready_to_commit_estimate_delta_us_, msg);
+ }
+
+ // Field 4: commit_to_ready_to_activate_estimate_delta_us
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(4, commit_to_ready_to_activate_estimate_delta_us_, msg);
+ }
+
+ // Field 5: prepare_tiles_estimate_delta_us
+ if (_has_field_[5]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(5, prepare_tiles_estimate_delta_us_, msg);
+ }
+
+ // Field 6: activate_estimate_delta_us
+ if (_has_field_[6]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(6, activate_estimate_delta_us_, msg);
+ }
+
+ // Field 7: draw_estimate_delta_us
+ if (_has_field_[7]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(7, draw_estimate_delta_us_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+BeginFrameSourceState::BeginFrameSourceState() = default;
+BeginFrameSourceState::~BeginFrameSourceState() = default;
+BeginFrameSourceState::BeginFrameSourceState(const BeginFrameSourceState&) = default;
+BeginFrameSourceState& BeginFrameSourceState::operator=(const BeginFrameSourceState&) = default;
+BeginFrameSourceState::BeginFrameSourceState(BeginFrameSourceState&&) noexcept = default;
+BeginFrameSourceState& BeginFrameSourceState::operator=(BeginFrameSourceState&&) = default;
+
+bool BeginFrameSourceState::operator==(const BeginFrameSourceState& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(source_id_, other.source_id_)
+ && ::protozero::internal::gen_helpers::EqualsField(paused_, other.paused_)
+ && ::protozero::internal::gen_helpers::EqualsField(num_observers_, other.num_observers_)
+ && ::protozero::internal::gen_helpers::EqualsField(last_begin_frame_args_, other.last_begin_frame_args_);
+}
+
+bool BeginFrameSourceState::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* source_id */:
+ field.get(&source_id_);
+ break;
+ case 2 /* paused */:
+ field.get(&paused_);
+ break;
+ case 3 /* num_observers */:
+ field.get(&num_observers_);
+ break;
+ case 4 /* last_begin_frame_args */:
+ (*last_begin_frame_args_).ParseFromArray(field.data(), field.size());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string BeginFrameSourceState::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> BeginFrameSourceState::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void BeginFrameSourceState::Serialize(::protozero::Message* msg) const {
+ // Field 1: source_id
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, source_id_, msg);
+ }
+
+ // Field 2: paused
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(2, paused_, msg);
+ }
+
+ // Field 3: num_observers
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(3, num_observers_, msg);
+ }
+
+ // Field 4: last_begin_frame_args
+ if (_has_field_[4]) {
+ (*last_begin_frame_args_).Serialize(msg->BeginNestedMessage<::protozero::Message>(4));
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+BeginFrameArgs::BeginFrameArgs() = default;
+BeginFrameArgs::~BeginFrameArgs() = default;
+BeginFrameArgs::BeginFrameArgs(const BeginFrameArgs&) = default;
+BeginFrameArgs& BeginFrameArgs::operator=(const BeginFrameArgs&) = default;
+BeginFrameArgs::BeginFrameArgs(BeginFrameArgs&&) noexcept = default;
+BeginFrameArgs& BeginFrameArgs::operator=(BeginFrameArgs&&) = default;
+
+bool BeginFrameArgs::operator==(const BeginFrameArgs& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(type_, other.type_)
+ && ::protozero::internal::gen_helpers::EqualsField(source_id_, other.source_id_)
+ && ::protozero::internal::gen_helpers::EqualsField(sequence_number_, other.sequence_number_)
+ && ::protozero::internal::gen_helpers::EqualsField(frame_time_us_, other.frame_time_us_)
+ && ::protozero::internal::gen_helpers::EqualsField(deadline_us_, other.deadline_us_)
+ && ::protozero::internal::gen_helpers::EqualsField(interval_delta_us_, other.interval_delta_us_)
+ && ::protozero::internal::gen_helpers::EqualsField(on_critical_path_, other.on_critical_path_)
+ && ::protozero::internal::gen_helpers::EqualsField(animate_only_, other.animate_only_)
+ && ::protozero::internal::gen_helpers::EqualsField(source_location_iid_, other.source_location_iid_)
+ && ::protozero::internal::gen_helpers::EqualsField(source_location_, other.source_location_)
+ && ::protozero::internal::gen_helpers::EqualsField(frames_throttled_since_last_, other.frames_throttled_since_last_);
+}
+
+bool BeginFrameArgs::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* type */:
+ field.get(&type_);
+ break;
+ case 2 /* source_id */:
+ field.get(&source_id_);
+ break;
+ case 3 /* sequence_number */:
+ field.get(&sequence_number_);
+ break;
+ case 4 /* frame_time_us */:
+ field.get(&frame_time_us_);
+ break;
+ case 5 /* deadline_us */:
+ field.get(&deadline_us_);
+ break;
+ case 6 /* interval_delta_us */:
+ field.get(&interval_delta_us_);
+ break;
+ case 7 /* on_critical_path */:
+ field.get(&on_critical_path_);
+ break;
+ case 8 /* animate_only */:
+ field.get(&animate_only_);
+ break;
+ case 9 /* source_location_iid */:
+ field.get(&source_location_iid_);
+ break;
+ case 10 /* source_location */:
+ (*source_location_).ParseFromArray(field.data(), field.size());
+ break;
+ case 12 /* frames_throttled_since_last */:
+ field.get(&frames_throttled_since_last_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string BeginFrameArgs::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> BeginFrameArgs::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void BeginFrameArgs::Serialize(::protozero::Message* msg) const {
+ // Field 1: type
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, type_, msg);
+ }
+
+ // Field 2: source_id
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, source_id_, msg);
+ }
+
+ // Field 3: sequence_number
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(3, sequence_number_, msg);
+ }
+
+ // Field 4: frame_time_us
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(4, frame_time_us_, msg);
+ }
+
+ // Field 5: deadline_us
+ if (_has_field_[5]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(5, deadline_us_, msg);
+ }
+
+ // Field 6: interval_delta_us
+ if (_has_field_[6]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(6, interval_delta_us_, msg);
+ }
+
+ // Field 7: on_critical_path
+ if (_has_field_[7]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(7, on_critical_path_, msg);
+ }
+
+ // Field 8: animate_only
+ if (_has_field_[8]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(8, animate_only_, msg);
+ }
+
+ // Field 9: source_location_iid
+ if (_has_field_[9]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(9, source_location_iid_, msg);
+ }
+
+ // Field 10: source_location
+ if (_has_field_[10]) {
+ (*source_location_).Serialize(msg->BeginNestedMessage<::protozero::Message>(10));
+ }
+
+ // Field 12: frames_throttled_since_last
+ if (_has_field_[12]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(12, frames_throttled_since_last_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+BeginFrameObserverState::BeginFrameObserverState() = default;
+BeginFrameObserverState::~BeginFrameObserverState() = default;
+BeginFrameObserverState::BeginFrameObserverState(const BeginFrameObserverState&) = default;
+BeginFrameObserverState& BeginFrameObserverState::operator=(const BeginFrameObserverState&) = default;
+BeginFrameObserverState::BeginFrameObserverState(BeginFrameObserverState&&) noexcept = default;
+BeginFrameObserverState& BeginFrameObserverState::operator=(BeginFrameObserverState&&) = default;
+
+bool BeginFrameObserverState::operator==(const BeginFrameObserverState& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(dropped_begin_frame_args_, other.dropped_begin_frame_args_)
+ && ::protozero::internal::gen_helpers::EqualsField(last_begin_frame_args_, other.last_begin_frame_args_);
+}
+
+bool BeginFrameObserverState::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* dropped_begin_frame_args */:
+ field.get(&dropped_begin_frame_args_);
+ break;
+ case 2 /* last_begin_frame_args */:
+ (*last_begin_frame_args_).ParseFromArray(field.data(), field.size());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string BeginFrameObserverState::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> BeginFrameObserverState::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void BeginFrameObserverState::Serialize(::protozero::Message* msg) const {
+ // Field 1: dropped_begin_frame_args
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, dropped_begin_frame_args_, msg);
+ }
+
+ // Field 2: last_begin_frame_args
+ if (_has_field_[2]) {
+ (*last_begin_frame_args_).Serialize(msg->BeginNestedMessage<::protozero::Message>(2));
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+BeginImplFrameArgs::BeginImplFrameArgs() = default;
+BeginImplFrameArgs::~BeginImplFrameArgs() = default;
+BeginImplFrameArgs::BeginImplFrameArgs(const BeginImplFrameArgs&) = default;
+BeginImplFrameArgs& BeginImplFrameArgs::operator=(const BeginImplFrameArgs&) = default;
+BeginImplFrameArgs::BeginImplFrameArgs(BeginImplFrameArgs&&) noexcept = default;
+BeginImplFrameArgs& BeginImplFrameArgs::operator=(BeginImplFrameArgs&&) = default;
+
+bool BeginImplFrameArgs::operator==(const BeginImplFrameArgs& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(updated_at_us_, other.updated_at_us_)
+ && ::protozero::internal::gen_helpers::EqualsField(finished_at_us_, other.finished_at_us_)
+ && ::protozero::internal::gen_helpers::EqualsField(state_, other.state_)
+ && ::protozero::internal::gen_helpers::EqualsField(current_args_, other.current_args_)
+ && ::protozero::internal::gen_helpers::EqualsField(last_args_, other.last_args_)
+ && ::protozero::internal::gen_helpers::EqualsField(timestamps_in_us_, other.timestamps_in_us_);
+}
+
+bool BeginImplFrameArgs::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* updated_at_us */:
+ field.get(&updated_at_us_);
+ break;
+ case 2 /* finished_at_us */:
+ field.get(&finished_at_us_);
+ break;
+ case 3 /* state */:
+ field.get(&state_);
+ break;
+ case 4 /* current_args */:
+ (*current_args_).ParseFromArray(field.data(), field.size());
+ break;
+ case 5 /* last_args */:
+ (*last_args_).ParseFromArray(field.data(), field.size());
+ break;
+ case 6 /* timestamps_in_us */:
+ (*timestamps_in_us_).ParseFromArray(field.data(), field.size());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string BeginImplFrameArgs::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> BeginImplFrameArgs::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void BeginImplFrameArgs::Serialize(::protozero::Message* msg) const {
+ // Field 1: updated_at_us
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, updated_at_us_, msg);
+ }
+
+ // Field 2: finished_at_us
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, finished_at_us_, msg);
+ }
+
+ // Field 3: state
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(3, state_, msg);
+ }
+
+ // Field 4: current_args
+ if (_has_field_[4]) {
+ (*current_args_).Serialize(msg->BeginNestedMessage<::protozero::Message>(4));
+ }
+
+ // Field 5: last_args
+ if (_has_field_[5]) {
+ (*last_args_).Serialize(msg->BeginNestedMessage<::protozero::Message>(5));
+ }
+
+ // Field 6: timestamps_in_us
+ if (_has_field_[6]) {
+ (*timestamps_in_us_).Serialize(msg->BeginNestedMessage<::protozero::Message>(6));
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+BeginImplFrameArgs_TimestampsInUs::BeginImplFrameArgs_TimestampsInUs() = default;
+BeginImplFrameArgs_TimestampsInUs::~BeginImplFrameArgs_TimestampsInUs() = default;
+BeginImplFrameArgs_TimestampsInUs::BeginImplFrameArgs_TimestampsInUs(const BeginImplFrameArgs_TimestampsInUs&) = default;
+BeginImplFrameArgs_TimestampsInUs& BeginImplFrameArgs_TimestampsInUs::operator=(const BeginImplFrameArgs_TimestampsInUs&) = default;
+BeginImplFrameArgs_TimestampsInUs::BeginImplFrameArgs_TimestampsInUs(BeginImplFrameArgs_TimestampsInUs&&) noexcept = default;
+BeginImplFrameArgs_TimestampsInUs& BeginImplFrameArgs_TimestampsInUs::operator=(BeginImplFrameArgs_TimestampsInUs&&) = default;
+
+bool BeginImplFrameArgs_TimestampsInUs::operator==(const BeginImplFrameArgs_TimestampsInUs& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(interval_delta_, other.interval_delta_)
+ && ::protozero::internal::gen_helpers::EqualsField(now_to_deadline_delta_, other.now_to_deadline_delta_)
+ && ::protozero::internal::gen_helpers::EqualsField(frame_time_to_now_delta_, other.frame_time_to_now_delta_)
+ && ::protozero::internal::gen_helpers::EqualsField(frame_time_to_deadline_delta_, other.frame_time_to_deadline_delta_)
+ && ::protozero::internal::gen_helpers::EqualsField(now_, other.now_)
+ && ::protozero::internal::gen_helpers::EqualsField(frame_time_, other.frame_time_)
+ && ::protozero::internal::gen_helpers::EqualsField(deadline_, other.deadline_);
+}
+
+bool BeginImplFrameArgs_TimestampsInUs::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* interval_delta */:
+ field.get(&interval_delta_);
+ break;
+ case 2 /* now_to_deadline_delta */:
+ field.get(&now_to_deadline_delta_);
+ break;
+ case 3 /* frame_time_to_now_delta */:
+ field.get(&frame_time_to_now_delta_);
+ break;
+ case 4 /* frame_time_to_deadline_delta */:
+ field.get(&frame_time_to_deadline_delta_);
+ break;
+ case 5 /* now */:
+ field.get(&now_);
+ break;
+ case 6 /* frame_time */:
+ field.get(&frame_time_);
+ break;
+ case 7 /* deadline */:
+ field.get(&deadline_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string BeginImplFrameArgs_TimestampsInUs::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> BeginImplFrameArgs_TimestampsInUs::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void BeginImplFrameArgs_TimestampsInUs::Serialize(::protozero::Message* msg) const {
+ // Field 1: interval_delta
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, interval_delta_, msg);
+ }
+
+ // Field 2: now_to_deadline_delta
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, now_to_deadline_delta_, msg);
+ }
+
+ // Field 3: frame_time_to_now_delta
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(3, frame_time_to_now_delta_, msg);
+ }
+
+ // Field 4: frame_time_to_deadline_delta
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(4, frame_time_to_deadline_delta_, msg);
+ }
+
+ // Field 5: now
+ if (_has_field_[5]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(5, now_, msg);
+ }
+
+ // Field 6: frame_time
+ if (_has_field_[6]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(6, frame_time_, msg);
+ }
+
+ // Field 7: deadline
+ if (_has_field_[7]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(7, deadline_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+ChromeCompositorStateMachine::ChromeCompositorStateMachine() = default;
+ChromeCompositorStateMachine::~ChromeCompositorStateMachine() = default;
+ChromeCompositorStateMachine::ChromeCompositorStateMachine(const ChromeCompositorStateMachine&) = default;
+ChromeCompositorStateMachine& ChromeCompositorStateMachine::operator=(const ChromeCompositorStateMachine&) = default;
+ChromeCompositorStateMachine::ChromeCompositorStateMachine(ChromeCompositorStateMachine&&) noexcept = default;
+ChromeCompositorStateMachine& ChromeCompositorStateMachine::operator=(ChromeCompositorStateMachine&&) = default;
+
+bool ChromeCompositorStateMachine::operator==(const ChromeCompositorStateMachine& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(major_state_, other.major_state_)
+ && ::protozero::internal::gen_helpers::EqualsField(minor_state_, other.minor_state_);
+}
+
+bool ChromeCompositorStateMachine::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* major_state */:
+ (*major_state_).ParseFromArray(field.data(), field.size());
+ break;
+ case 2 /* minor_state */:
+ (*minor_state_).ParseFromArray(field.data(), field.size());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string ChromeCompositorStateMachine::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> ChromeCompositorStateMachine::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void ChromeCompositorStateMachine::Serialize(::protozero::Message* msg) const {
+ // Field 1: major_state
+ if (_has_field_[1]) {
+ (*major_state_).Serialize(msg->BeginNestedMessage<::protozero::Message>(1));
+ }
+
+ // Field 2: minor_state
+ if (_has_field_[2]) {
+ (*minor_state_).Serialize(msg->BeginNestedMessage<::protozero::Message>(2));
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+ChromeCompositorStateMachine_MinorState::ChromeCompositorStateMachine_MinorState() = default;
+ChromeCompositorStateMachine_MinorState::~ChromeCompositorStateMachine_MinorState() = default;
+ChromeCompositorStateMachine_MinorState::ChromeCompositorStateMachine_MinorState(const ChromeCompositorStateMachine_MinorState&) = default;
+ChromeCompositorStateMachine_MinorState& ChromeCompositorStateMachine_MinorState::operator=(const ChromeCompositorStateMachine_MinorState&) = default;
+ChromeCompositorStateMachine_MinorState::ChromeCompositorStateMachine_MinorState(ChromeCompositorStateMachine_MinorState&&) noexcept = default;
+ChromeCompositorStateMachine_MinorState& ChromeCompositorStateMachine_MinorState::operator=(ChromeCompositorStateMachine_MinorState&&) = default;
+
+bool ChromeCompositorStateMachine_MinorState::operator==(const ChromeCompositorStateMachine_MinorState& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(commit_count_, other.commit_count_)
+ && ::protozero::internal::gen_helpers::EqualsField(current_frame_number_, other.current_frame_number_)
+ && ::protozero::internal::gen_helpers::EqualsField(last_frame_number_submit_performed_, other.last_frame_number_submit_performed_)
+ && ::protozero::internal::gen_helpers::EqualsField(last_frame_number_draw_performed_, other.last_frame_number_draw_performed_)
+ && ::protozero::internal::gen_helpers::EqualsField(last_frame_number_begin_main_frame_sent_, other.last_frame_number_begin_main_frame_sent_)
+ && ::protozero::internal::gen_helpers::EqualsField(did_draw_, other.did_draw_)
+ && ::protozero::internal::gen_helpers::EqualsField(did_send_begin_main_frame_for_current_frame_, other.did_send_begin_main_frame_for_current_frame_)
+ && ::protozero::internal::gen_helpers::EqualsField(did_notify_begin_main_frame_not_expected_until_, other.did_notify_begin_main_frame_not_expected_until_)
+ && ::protozero::internal::gen_helpers::EqualsField(did_notify_begin_main_frame_not_expected_soon_, other.did_notify_begin_main_frame_not_expected_soon_)
+ && ::protozero::internal::gen_helpers::EqualsField(wants_begin_main_frame_not_expected_, other.wants_begin_main_frame_not_expected_)
+ && ::protozero::internal::gen_helpers::EqualsField(did_commit_during_frame_, other.did_commit_during_frame_)
+ && ::protozero::internal::gen_helpers::EqualsField(did_invalidate_layer_tree_frame_sink_, other.did_invalidate_layer_tree_frame_sink_)
+ && ::protozero::internal::gen_helpers::EqualsField(did_perform_impl_side_invalidaion_, other.did_perform_impl_side_invalidaion_)
+ && ::protozero::internal::gen_helpers::EqualsField(did_prepare_tiles_, other.did_prepare_tiles_)
+ && ::protozero::internal::gen_helpers::EqualsField(consecutive_checkerboard_animations_, other.consecutive_checkerboard_animations_)
+ && ::protozero::internal::gen_helpers::EqualsField(pending_submit_frames_, other.pending_submit_frames_)
+ && ::protozero::internal::gen_helpers::EqualsField(submit_frames_with_current_layer_tree_frame_sink_, other.submit_frames_with_current_layer_tree_frame_sink_)
+ && ::protozero::internal::gen_helpers::EqualsField(needs_redraw_, other.needs_redraw_)
+ && ::protozero::internal::gen_helpers::EqualsField(needs_prepare_tiles_, other.needs_prepare_tiles_)
+ && ::protozero::internal::gen_helpers::EqualsField(needs_begin_main_frame_, other.needs_begin_main_frame_)
+ && ::protozero::internal::gen_helpers::EqualsField(needs_one_begin_impl_frame_, other.needs_one_begin_impl_frame_)
+ && ::protozero::internal::gen_helpers::EqualsField(visible_, other.visible_)
+ && ::protozero::internal::gen_helpers::EqualsField(begin_frame_source_paused_, other.begin_frame_source_paused_)
+ && ::protozero::internal::gen_helpers::EqualsField(can_draw_, other.can_draw_)
+ && ::protozero::internal::gen_helpers::EqualsField(resourceless_draw_, other.resourceless_draw_)
+ && ::protozero::internal::gen_helpers::EqualsField(has_pending_tree_, other.has_pending_tree_)
+ && ::protozero::internal::gen_helpers::EqualsField(pending_tree_is_ready_for_activation_, other.pending_tree_is_ready_for_activation_)
+ && ::protozero::internal::gen_helpers::EqualsField(active_tree_needs_first_draw_, other.active_tree_needs_first_draw_)
+ && ::protozero::internal::gen_helpers::EqualsField(active_tree_is_ready_to_draw_, other.active_tree_is_ready_to_draw_)
+ && ::protozero::internal::gen_helpers::EqualsField(did_create_and_initialize_first_layer_tree_frame_sink_, other.did_create_and_initialize_first_layer_tree_frame_sink_)
+ && ::protozero::internal::gen_helpers::EqualsField(tree_priority_, other.tree_priority_)
+ && ::protozero::internal::gen_helpers::EqualsField(scroll_handler_state_, other.scroll_handler_state_)
+ && ::protozero::internal::gen_helpers::EqualsField(critical_begin_main_frame_to_activate_is_fast_, other.critical_begin_main_frame_to_activate_is_fast_)
+ && ::protozero::internal::gen_helpers::EqualsField(main_thread_missed_last_deadline_, other.main_thread_missed_last_deadline_)
+ && ::protozero::internal::gen_helpers::EqualsField(video_needs_begin_frames_, other.video_needs_begin_frames_)
+ && ::protozero::internal::gen_helpers::EqualsField(defer_begin_main_frame_, other.defer_begin_main_frame_)
+ && ::protozero::internal::gen_helpers::EqualsField(last_commit_had_no_updates_, other.last_commit_had_no_updates_)
+ && ::protozero::internal::gen_helpers::EqualsField(did_draw_in_last_frame_, other.did_draw_in_last_frame_)
+ && ::protozero::internal::gen_helpers::EqualsField(did_submit_in_last_frame_, other.did_submit_in_last_frame_)
+ && ::protozero::internal::gen_helpers::EqualsField(needs_impl_side_invalidation_, other.needs_impl_side_invalidation_)
+ && ::protozero::internal::gen_helpers::EqualsField(current_pending_tree_is_impl_side_, other.current_pending_tree_is_impl_side_)
+ && ::protozero::internal::gen_helpers::EqualsField(previous_pending_tree_was_impl_side_, other.previous_pending_tree_was_impl_side_)
+ && ::protozero::internal::gen_helpers::EqualsField(processing_animation_worklets_for_active_tree_, other.processing_animation_worklets_for_active_tree_)
+ && ::protozero::internal::gen_helpers::EqualsField(processing_animation_worklets_for_pending_tree_, other.processing_animation_worklets_for_pending_tree_)
+ && ::protozero::internal::gen_helpers::EqualsField(processing_paint_worklets_for_pending_tree_, other.processing_paint_worklets_for_pending_tree_);
+}
+
+bool ChromeCompositorStateMachine_MinorState::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* commit_count */:
+ field.get(&commit_count_);
+ break;
+ case 2 /* current_frame_number */:
+ field.get(&current_frame_number_);
+ break;
+ case 3 /* last_frame_number_submit_performed */:
+ field.get(&last_frame_number_submit_performed_);
+ break;
+ case 4 /* last_frame_number_draw_performed */:
+ field.get(&last_frame_number_draw_performed_);
+ break;
+ case 5 /* last_frame_number_begin_main_frame_sent */:
+ field.get(&last_frame_number_begin_main_frame_sent_);
+ break;
+ case 6 /* did_draw */:
+ field.get(&did_draw_);
+ break;
+ case 7 /* did_send_begin_main_frame_for_current_frame */:
+ field.get(&did_send_begin_main_frame_for_current_frame_);
+ break;
+ case 8 /* did_notify_begin_main_frame_not_expected_until */:
+ field.get(&did_notify_begin_main_frame_not_expected_until_);
+ break;
+ case 9 /* did_notify_begin_main_frame_not_expected_soon */:
+ field.get(&did_notify_begin_main_frame_not_expected_soon_);
+ break;
+ case 10 /* wants_begin_main_frame_not_expected */:
+ field.get(&wants_begin_main_frame_not_expected_);
+ break;
+ case 11 /* did_commit_during_frame */:
+ field.get(&did_commit_during_frame_);
+ break;
+ case 12 /* did_invalidate_layer_tree_frame_sink */:
+ field.get(&did_invalidate_layer_tree_frame_sink_);
+ break;
+ case 13 /* did_perform_impl_side_invalidaion */:
+ field.get(&did_perform_impl_side_invalidaion_);
+ break;
+ case 14 /* did_prepare_tiles */:
+ field.get(&did_prepare_tiles_);
+ break;
+ case 15 /* consecutive_checkerboard_animations */:
+ field.get(&consecutive_checkerboard_animations_);
+ break;
+ case 16 /* pending_submit_frames */:
+ field.get(&pending_submit_frames_);
+ break;
+ case 17 /* submit_frames_with_current_layer_tree_frame_sink */:
+ field.get(&submit_frames_with_current_layer_tree_frame_sink_);
+ break;
+ case 18 /* needs_redraw */:
+ field.get(&needs_redraw_);
+ break;
+ case 19 /* needs_prepare_tiles */:
+ field.get(&needs_prepare_tiles_);
+ break;
+ case 20 /* needs_begin_main_frame */:
+ field.get(&needs_begin_main_frame_);
+ break;
+ case 21 /* needs_one_begin_impl_frame */:
+ field.get(&needs_one_begin_impl_frame_);
+ break;
+ case 22 /* visible */:
+ field.get(&visible_);
+ break;
+ case 23 /* begin_frame_source_paused */:
+ field.get(&begin_frame_source_paused_);
+ break;
+ case 24 /* can_draw */:
+ field.get(&can_draw_);
+ break;
+ case 25 /* resourceless_draw */:
+ field.get(&resourceless_draw_);
+ break;
+ case 26 /* has_pending_tree */:
+ field.get(&has_pending_tree_);
+ break;
+ case 27 /* pending_tree_is_ready_for_activation */:
+ field.get(&pending_tree_is_ready_for_activation_);
+ break;
+ case 28 /* active_tree_needs_first_draw */:
+ field.get(&active_tree_needs_first_draw_);
+ break;
+ case 29 /* active_tree_is_ready_to_draw */:
+ field.get(&active_tree_is_ready_to_draw_);
+ break;
+ case 30 /* did_create_and_initialize_first_layer_tree_frame_sink */:
+ field.get(&did_create_and_initialize_first_layer_tree_frame_sink_);
+ break;
+ case 31 /* tree_priority */:
+ field.get(&tree_priority_);
+ break;
+ case 32 /* scroll_handler_state */:
+ field.get(&scroll_handler_state_);
+ break;
+ case 33 /* critical_begin_main_frame_to_activate_is_fast */:
+ field.get(&critical_begin_main_frame_to_activate_is_fast_);
+ break;
+ case 34 /* main_thread_missed_last_deadline */:
+ field.get(&main_thread_missed_last_deadline_);
+ break;
+ case 36 /* video_needs_begin_frames */:
+ field.get(&video_needs_begin_frames_);
+ break;
+ case 37 /* defer_begin_main_frame */:
+ field.get(&defer_begin_main_frame_);
+ break;
+ case 38 /* last_commit_had_no_updates */:
+ field.get(&last_commit_had_no_updates_);
+ break;
+ case 39 /* did_draw_in_last_frame */:
+ field.get(&did_draw_in_last_frame_);
+ break;
+ case 40 /* did_submit_in_last_frame */:
+ field.get(&did_submit_in_last_frame_);
+ break;
+ case 41 /* needs_impl_side_invalidation */:
+ field.get(&needs_impl_side_invalidation_);
+ break;
+ case 42 /* current_pending_tree_is_impl_side */:
+ field.get(&current_pending_tree_is_impl_side_);
+ break;
+ case 43 /* previous_pending_tree_was_impl_side */:
+ field.get(&previous_pending_tree_was_impl_side_);
+ break;
+ case 44 /* processing_animation_worklets_for_active_tree */:
+ field.get(&processing_animation_worklets_for_active_tree_);
+ break;
+ case 45 /* processing_animation_worklets_for_pending_tree */:
+ field.get(&processing_animation_worklets_for_pending_tree_);
+ break;
+ case 46 /* processing_paint_worklets_for_pending_tree */:
+ field.get(&processing_paint_worklets_for_pending_tree_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string ChromeCompositorStateMachine_MinorState::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> ChromeCompositorStateMachine_MinorState::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void ChromeCompositorStateMachine_MinorState::Serialize(::protozero::Message* msg) const {
+ // Field 1: commit_count
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, commit_count_, msg);
+ }
+
+ // Field 2: current_frame_number
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, current_frame_number_, msg);
+ }
+
+ // Field 3: last_frame_number_submit_performed
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(3, last_frame_number_submit_performed_, msg);
+ }
+
+ // Field 4: last_frame_number_draw_performed
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(4, last_frame_number_draw_performed_, msg);
+ }
+
+ // Field 5: last_frame_number_begin_main_frame_sent
+ if (_has_field_[5]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(5, last_frame_number_begin_main_frame_sent_, msg);
+ }
+
+ // Field 6: did_draw
+ if (_has_field_[6]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(6, did_draw_, msg);
+ }
+
+ // Field 7: did_send_begin_main_frame_for_current_frame
+ if (_has_field_[7]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(7, did_send_begin_main_frame_for_current_frame_, msg);
+ }
+
+ // Field 8: did_notify_begin_main_frame_not_expected_until
+ if (_has_field_[8]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(8, did_notify_begin_main_frame_not_expected_until_, msg);
+ }
+
+ // Field 9: did_notify_begin_main_frame_not_expected_soon
+ if (_has_field_[9]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(9, did_notify_begin_main_frame_not_expected_soon_, msg);
+ }
+
+ // Field 10: wants_begin_main_frame_not_expected
+ if (_has_field_[10]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(10, wants_begin_main_frame_not_expected_, msg);
+ }
+
+ // Field 11: did_commit_during_frame
+ if (_has_field_[11]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(11, did_commit_during_frame_, msg);
+ }
+
+ // Field 12: did_invalidate_layer_tree_frame_sink
+ if (_has_field_[12]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(12, did_invalidate_layer_tree_frame_sink_, msg);
+ }
+
+ // Field 13: did_perform_impl_side_invalidaion
+ if (_has_field_[13]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(13, did_perform_impl_side_invalidaion_, msg);
+ }
+
+ // Field 14: did_prepare_tiles
+ if (_has_field_[14]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(14, did_prepare_tiles_, msg);
+ }
+
+ // Field 15: consecutive_checkerboard_animations
+ if (_has_field_[15]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(15, consecutive_checkerboard_animations_, msg);
+ }
+
+ // Field 16: pending_submit_frames
+ if (_has_field_[16]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(16, pending_submit_frames_, msg);
+ }
+
+ // Field 17: submit_frames_with_current_layer_tree_frame_sink
+ if (_has_field_[17]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(17, submit_frames_with_current_layer_tree_frame_sink_, msg);
+ }
+
+ // Field 18: needs_redraw
+ if (_has_field_[18]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(18, needs_redraw_, msg);
+ }
+
+ // Field 19: needs_prepare_tiles
+ if (_has_field_[19]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(19, needs_prepare_tiles_, msg);
+ }
+
+ // Field 20: needs_begin_main_frame
+ if (_has_field_[20]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(20, needs_begin_main_frame_, msg);
+ }
+
+ // Field 21: needs_one_begin_impl_frame
+ if (_has_field_[21]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(21, needs_one_begin_impl_frame_, msg);
+ }
+
+ // Field 22: visible
+ if (_has_field_[22]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(22, visible_, msg);
+ }
+
+ // Field 23: begin_frame_source_paused
+ if (_has_field_[23]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(23, begin_frame_source_paused_, msg);
+ }
+
+ // Field 24: can_draw
+ if (_has_field_[24]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(24, can_draw_, msg);
+ }
+
+ // Field 25: resourceless_draw
+ if (_has_field_[25]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(25, resourceless_draw_, msg);
+ }
+
+ // Field 26: has_pending_tree
+ if (_has_field_[26]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(26, has_pending_tree_, msg);
+ }
+
+ // Field 27: pending_tree_is_ready_for_activation
+ if (_has_field_[27]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(27, pending_tree_is_ready_for_activation_, msg);
+ }
+
+ // Field 28: active_tree_needs_first_draw
+ if (_has_field_[28]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(28, active_tree_needs_first_draw_, msg);
+ }
+
+ // Field 29: active_tree_is_ready_to_draw
+ if (_has_field_[29]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(29, active_tree_is_ready_to_draw_, msg);
+ }
+
+ // Field 30: did_create_and_initialize_first_layer_tree_frame_sink
+ if (_has_field_[30]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(30, did_create_and_initialize_first_layer_tree_frame_sink_, msg);
+ }
+
+ // Field 31: tree_priority
+ if (_has_field_[31]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(31, tree_priority_, msg);
+ }
+
+ // Field 32: scroll_handler_state
+ if (_has_field_[32]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(32, scroll_handler_state_, msg);
+ }
+
+ // Field 33: critical_begin_main_frame_to_activate_is_fast
+ if (_has_field_[33]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(33, critical_begin_main_frame_to_activate_is_fast_, msg);
+ }
+
+ // Field 34: main_thread_missed_last_deadline
+ if (_has_field_[34]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(34, main_thread_missed_last_deadline_, msg);
+ }
+
+ // Field 36: video_needs_begin_frames
+ if (_has_field_[36]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(36, video_needs_begin_frames_, msg);
+ }
+
+ // Field 37: defer_begin_main_frame
+ if (_has_field_[37]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(37, defer_begin_main_frame_, msg);
+ }
+
+ // Field 38: last_commit_had_no_updates
+ if (_has_field_[38]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(38, last_commit_had_no_updates_, msg);
+ }
+
+ // Field 39: did_draw_in_last_frame
+ if (_has_field_[39]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(39, did_draw_in_last_frame_, msg);
+ }
+
+ // Field 40: did_submit_in_last_frame
+ if (_has_field_[40]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(40, did_submit_in_last_frame_, msg);
+ }
+
+ // Field 41: needs_impl_side_invalidation
+ if (_has_field_[41]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(41, needs_impl_side_invalidation_, msg);
+ }
+
+ // Field 42: current_pending_tree_is_impl_side
+ if (_has_field_[42]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(42, current_pending_tree_is_impl_side_, msg);
+ }
+
+ // Field 43: previous_pending_tree_was_impl_side
+ if (_has_field_[43]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(43, previous_pending_tree_was_impl_side_, msg);
+ }
+
+ // Field 44: processing_animation_worklets_for_active_tree
+ if (_has_field_[44]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(44, processing_animation_worklets_for_active_tree_, msg);
+ }
+
+ // Field 45: processing_animation_worklets_for_pending_tree
+ if (_has_field_[45]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(45, processing_animation_worklets_for_pending_tree_, msg);
+ }
+
+ // Field 46: processing_paint_worklets_for_pending_tree
+ if (_has_field_[46]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(46, processing_paint_worklets_for_pending_tree_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+ChromeCompositorStateMachine_MajorState::ChromeCompositorStateMachine_MajorState() = default;
+ChromeCompositorStateMachine_MajorState::~ChromeCompositorStateMachine_MajorState() = default;
+ChromeCompositorStateMachine_MajorState::ChromeCompositorStateMachine_MajorState(const ChromeCompositorStateMachine_MajorState&) = default;
+ChromeCompositorStateMachine_MajorState& ChromeCompositorStateMachine_MajorState::operator=(const ChromeCompositorStateMachine_MajorState&) = default;
+ChromeCompositorStateMachine_MajorState::ChromeCompositorStateMachine_MajorState(ChromeCompositorStateMachine_MajorState&&) noexcept = default;
+ChromeCompositorStateMachine_MajorState& ChromeCompositorStateMachine_MajorState::operator=(ChromeCompositorStateMachine_MajorState&&) = default;
+
+bool ChromeCompositorStateMachine_MajorState::operator==(const ChromeCompositorStateMachine_MajorState& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(next_action_, other.next_action_)
+ && ::protozero::internal::gen_helpers::EqualsField(begin_impl_frame_state_, other.begin_impl_frame_state_)
+ && ::protozero::internal::gen_helpers::EqualsField(begin_main_frame_state_, other.begin_main_frame_state_)
+ && ::protozero::internal::gen_helpers::EqualsField(layer_tree_frame_sink_state_, other.layer_tree_frame_sink_state_)
+ && ::protozero::internal::gen_helpers::EqualsField(forced_redraw_state_, other.forced_redraw_state_);
+}
+
+bool ChromeCompositorStateMachine_MajorState::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* next_action */:
+ field.get(&next_action_);
+ break;
+ case 2 /* begin_impl_frame_state */:
+ field.get(&begin_impl_frame_state_);
+ break;
+ case 3 /* begin_main_frame_state */:
+ field.get(&begin_main_frame_state_);
+ break;
+ case 4 /* layer_tree_frame_sink_state */:
+ field.get(&layer_tree_frame_sink_state_);
+ break;
+ case 5 /* forced_redraw_state */:
+ field.get(&forced_redraw_state_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string ChromeCompositorStateMachine_MajorState::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> ChromeCompositorStateMachine_MajorState::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void ChromeCompositorStateMachine_MajorState::Serialize(::protozero::Message* msg) const {
+ // Field 1: next_action
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, next_action_, msg);
+ }
+
+ // Field 2: begin_impl_frame_state
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, begin_impl_frame_state_, msg);
+ }
+
+ // Field 3: begin_main_frame_state
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(3, begin_main_frame_state_, msg);
+ }
+
+ // Field 4: layer_tree_frame_sink_state
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(4, layer_tree_frame_sink_state_, msg);
+ }
+
+ // Field 5: forced_redraw_state
+ if (_has_field_[5]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(5, forced_redraw_state_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+ChromeCompositorSchedulerState::ChromeCompositorSchedulerState() = default;
+ChromeCompositorSchedulerState::~ChromeCompositorSchedulerState() = default;
+ChromeCompositorSchedulerState::ChromeCompositorSchedulerState(const ChromeCompositorSchedulerState&) = default;
+ChromeCompositorSchedulerState& ChromeCompositorSchedulerState::operator=(const ChromeCompositorSchedulerState&) = default;
+ChromeCompositorSchedulerState::ChromeCompositorSchedulerState(ChromeCompositorSchedulerState&&) noexcept = default;
+ChromeCompositorSchedulerState& ChromeCompositorSchedulerState::operator=(ChromeCompositorSchedulerState&&) = default;
+
+bool ChromeCompositorSchedulerState::operator==(const ChromeCompositorSchedulerState& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(state_machine_, other.state_machine_)
+ && ::protozero::internal::gen_helpers::EqualsField(observing_begin_frame_source_, other.observing_begin_frame_source_)
+ && ::protozero::internal::gen_helpers::EqualsField(begin_impl_frame_deadline_task_, other.begin_impl_frame_deadline_task_)
+ && ::protozero::internal::gen_helpers::EqualsField(pending_begin_frame_task_, other.pending_begin_frame_task_)
+ && ::protozero::internal::gen_helpers::EqualsField(skipped_last_frame_missed_exceeded_deadline_, other.skipped_last_frame_missed_exceeded_deadline_)
+ && ::protozero::internal::gen_helpers::EqualsField(inside_action_, other.inside_action_)
+ && ::protozero::internal::gen_helpers::EqualsField(deadline_mode_, other.deadline_mode_)
+ && ::protozero::internal::gen_helpers::EqualsField(deadline_us_, other.deadline_us_)
+ && ::protozero::internal::gen_helpers::EqualsField(deadline_scheduled_at_us_, other.deadline_scheduled_at_us_)
+ && ::protozero::internal::gen_helpers::EqualsField(now_us_, other.now_us_)
+ && ::protozero::internal::gen_helpers::EqualsField(now_to_deadline_delta_us_, other.now_to_deadline_delta_us_)
+ && ::protozero::internal::gen_helpers::EqualsField(now_to_deadline_scheduled_at_delta_us_, other.now_to_deadline_scheduled_at_delta_us_)
+ && ::protozero::internal::gen_helpers::EqualsField(begin_impl_frame_args_, other.begin_impl_frame_args_)
+ && ::protozero::internal::gen_helpers::EqualsField(begin_frame_observer_state_, other.begin_frame_observer_state_)
+ && ::protozero::internal::gen_helpers::EqualsField(begin_frame_source_state_, other.begin_frame_source_state_)
+ && ::protozero::internal::gen_helpers::EqualsField(compositor_timing_history_, other.compositor_timing_history_);
+}
+
+bool ChromeCompositorSchedulerState::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* state_machine */:
+ (*state_machine_).ParseFromArray(field.data(), field.size());
+ break;
+ case 2 /* observing_begin_frame_source */:
+ field.get(&observing_begin_frame_source_);
+ break;
+ case 3 /* begin_impl_frame_deadline_task */:
+ field.get(&begin_impl_frame_deadline_task_);
+ break;
+ case 4 /* pending_begin_frame_task */:
+ field.get(&pending_begin_frame_task_);
+ break;
+ case 5 /* skipped_last_frame_missed_exceeded_deadline */:
+ field.get(&skipped_last_frame_missed_exceeded_deadline_);
+ break;
+ case 7 /* inside_action */:
+ field.get(&inside_action_);
+ break;
+ case 8 /* deadline_mode */:
+ field.get(&deadline_mode_);
+ break;
+ case 9 /* deadline_us */:
+ field.get(&deadline_us_);
+ break;
+ case 10 /* deadline_scheduled_at_us */:
+ field.get(&deadline_scheduled_at_us_);
+ break;
+ case 11 /* now_us */:
+ field.get(&now_us_);
+ break;
+ case 12 /* now_to_deadline_delta_us */:
+ field.get(&now_to_deadline_delta_us_);
+ break;
+ case 13 /* now_to_deadline_scheduled_at_delta_us */:
+ field.get(&now_to_deadline_scheduled_at_delta_us_);
+ break;
+ case 14 /* begin_impl_frame_args */:
+ (*begin_impl_frame_args_).ParseFromArray(field.data(), field.size());
+ break;
+ case 15 /* begin_frame_observer_state */:
+ (*begin_frame_observer_state_).ParseFromArray(field.data(), field.size());
+ break;
+ case 16 /* begin_frame_source_state */:
+ (*begin_frame_source_state_).ParseFromArray(field.data(), field.size());
+ break;
+ case 17 /* compositor_timing_history */:
+ (*compositor_timing_history_).ParseFromArray(field.data(), field.size());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string ChromeCompositorSchedulerState::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> ChromeCompositorSchedulerState::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void ChromeCompositorSchedulerState::Serialize(::protozero::Message* msg) const {
+ // Field 1: state_machine
+ if (_has_field_[1]) {
+ (*state_machine_).Serialize(msg->BeginNestedMessage<::protozero::Message>(1));
+ }
+
+ // Field 2: observing_begin_frame_source
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(2, observing_begin_frame_source_, msg);
+ }
+
+ // Field 3: begin_impl_frame_deadline_task
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(3, begin_impl_frame_deadline_task_, msg);
+ }
+
+ // Field 4: pending_begin_frame_task
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(4, pending_begin_frame_task_, msg);
+ }
+
+ // Field 5: skipped_last_frame_missed_exceeded_deadline
+ if (_has_field_[5]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(5, skipped_last_frame_missed_exceeded_deadline_, msg);
+ }
+
+ // Field 7: inside_action
+ if (_has_field_[7]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(7, inside_action_, msg);
+ }
+
+ // Field 8: deadline_mode
+ if (_has_field_[8]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(8, deadline_mode_, msg);
+ }
+
+ // Field 9: deadline_us
+ if (_has_field_[9]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(9, deadline_us_, msg);
+ }
+
+ // Field 10: deadline_scheduled_at_us
+ if (_has_field_[10]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(10, deadline_scheduled_at_us_, msg);
+ }
+
+ // Field 11: now_us
+ if (_has_field_[11]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(11, now_us_, msg);
+ }
+
+ // Field 12: now_to_deadline_delta_us
+ if (_has_field_[12]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(12, now_to_deadline_delta_us_, msg);
+ }
+
+ // Field 13: now_to_deadline_scheduled_at_delta_us
+ if (_has_field_[13]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(13, now_to_deadline_scheduled_at_delta_us_, msg);
+ }
+
+ // Field 14: begin_impl_frame_args
+ if (_has_field_[14]) {
+ (*begin_impl_frame_args_).Serialize(msg->BeginNestedMessage<::protozero::Message>(14));
+ }
+
+ // Field 15: begin_frame_observer_state
+ if (_has_field_[15]) {
+ (*begin_frame_observer_state_).Serialize(msg->BeginNestedMessage<::protozero::Message>(15));
+ }
+
+ // Field 16: begin_frame_source_state
+ if (_has_field_[16]) {
+ (*begin_frame_source_state_).Serialize(msg->BeginNestedMessage<::protozero::Message>(16));
+ }
+
+ // Field 17: compositor_timing_history
+ if (_has_field_[17]) {
+ (*compositor_timing_history_).Serialize(msg->BeginNestedMessage<::protozero::Message>(17));
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/trace/track_event/chrome_content_settings_event_info.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/chrome_content_settings_event_info.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+ChromeContentSettingsEventInfo::ChromeContentSettingsEventInfo() = default;
+ChromeContentSettingsEventInfo::~ChromeContentSettingsEventInfo() = default;
+ChromeContentSettingsEventInfo::ChromeContentSettingsEventInfo(const ChromeContentSettingsEventInfo&) = default;
+ChromeContentSettingsEventInfo& ChromeContentSettingsEventInfo::operator=(const ChromeContentSettingsEventInfo&) = default;
+ChromeContentSettingsEventInfo::ChromeContentSettingsEventInfo(ChromeContentSettingsEventInfo&&) noexcept = default;
+ChromeContentSettingsEventInfo& ChromeContentSettingsEventInfo::operator=(ChromeContentSettingsEventInfo&&) = default;
+
+bool ChromeContentSettingsEventInfo::operator==(const ChromeContentSettingsEventInfo& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(number_of_exceptions_, other.number_of_exceptions_);
+}
+
+bool ChromeContentSettingsEventInfo::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* number_of_exceptions */:
+ field.get(&number_of_exceptions_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string ChromeContentSettingsEventInfo::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> ChromeContentSettingsEventInfo::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void ChromeContentSettingsEventInfo::Serialize(::protozero::Message* msg) const {
+ // Field 1: number_of_exceptions
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, number_of_exceptions_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/trace/track_event/chrome_frame_reporter.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/chrome_frame_reporter.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+ChromeFrameReporter::ChromeFrameReporter() = default;
+ChromeFrameReporter::~ChromeFrameReporter() = default;
+ChromeFrameReporter::ChromeFrameReporter(const ChromeFrameReporter&) = default;
+ChromeFrameReporter& ChromeFrameReporter::operator=(const ChromeFrameReporter&) = default;
+ChromeFrameReporter::ChromeFrameReporter(ChromeFrameReporter&&) noexcept = default;
+ChromeFrameReporter& ChromeFrameReporter::operator=(ChromeFrameReporter&&) = default;
+
+bool ChromeFrameReporter::operator==(const ChromeFrameReporter& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(state_, other.state_)
+ && ::protozero::internal::gen_helpers::EqualsField(reason_, other.reason_)
+ && ::protozero::internal::gen_helpers::EqualsField(frame_source_, other.frame_source_)
+ && ::protozero::internal::gen_helpers::EqualsField(frame_sequence_, other.frame_sequence_)
+ && ::protozero::internal::gen_helpers::EqualsField(affects_smoothness_, other.affects_smoothness_)
+ && ::protozero::internal::gen_helpers::EqualsField(scroll_state_, other.scroll_state_)
+ && ::protozero::internal::gen_helpers::EqualsField(has_main_animation_, other.has_main_animation_)
+ && ::protozero::internal::gen_helpers::EqualsField(has_compositor_animation_, other.has_compositor_animation_)
+ && ::protozero::internal::gen_helpers::EqualsField(has_smooth_input_main_, other.has_smooth_input_main_)
+ && ::protozero::internal::gen_helpers::EqualsField(has_missing_content_, other.has_missing_content_)
+ && ::protozero::internal::gen_helpers::EqualsField(layer_tree_host_id_, other.layer_tree_host_id_)
+ && ::protozero::internal::gen_helpers::EqualsField(has_high_latency_, other.has_high_latency_)
+ && ::protozero::internal::gen_helpers::EqualsField(frame_type_, other.frame_type_)
+ && ::protozero::internal::gen_helpers::EqualsField(high_latency_contribution_stage_, other.high_latency_contribution_stage_);
+}
+
+bool ChromeFrameReporter::ParseFromArray(const void* raw, size_t size) {
+ high_latency_contribution_stage_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* state */:
+ field.get(&state_);
+ break;
+ case 2 /* reason */:
+ field.get(&reason_);
+ break;
+ case 3 /* frame_source */:
+ field.get(&frame_source_);
+ break;
+ case 4 /* frame_sequence */:
+ field.get(&frame_sequence_);
+ break;
+ case 5 /* affects_smoothness */:
+ field.get(&affects_smoothness_);
+ break;
+ case 6 /* scroll_state */:
+ field.get(&scroll_state_);
+ break;
+ case 7 /* has_main_animation */:
+ field.get(&has_main_animation_);
+ break;
+ case 8 /* has_compositor_animation */:
+ field.get(&has_compositor_animation_);
+ break;
+ case 9 /* has_smooth_input_main */:
+ field.get(&has_smooth_input_main_);
+ break;
+ case 10 /* has_missing_content */:
+ field.get(&has_missing_content_);
+ break;
+ case 11 /* layer_tree_host_id */:
+ field.get(&layer_tree_host_id_);
+ break;
+ case 12 /* has_high_latency */:
+ field.get(&has_high_latency_);
+ break;
+ case 13 /* frame_type */:
+ field.get(&frame_type_);
+ break;
+ case 14 /* high_latency_contribution_stage */:
+ high_latency_contribution_stage_.emplace_back();
+ ::protozero::internal::gen_helpers::DeserializeString(field, &high_latency_contribution_stage_.back());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string ChromeFrameReporter::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> ChromeFrameReporter::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void ChromeFrameReporter::Serialize(::protozero::Message* msg) const {
+ // Field 1: state
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, state_, msg);
+ }
+
+ // Field 2: reason
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, reason_, msg);
+ }
+
+ // Field 3: frame_source
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(3, frame_source_, msg);
+ }
+
+ // Field 4: frame_sequence
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(4, frame_sequence_, msg);
+ }
+
+ // Field 5: affects_smoothness
+ if (_has_field_[5]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(5, affects_smoothness_, msg);
+ }
+
+ // Field 6: scroll_state
+ if (_has_field_[6]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(6, scroll_state_, msg);
+ }
+
+ // Field 7: has_main_animation
+ if (_has_field_[7]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(7, has_main_animation_, msg);
+ }
+
+ // Field 8: has_compositor_animation
+ if (_has_field_[8]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(8, has_compositor_animation_, msg);
+ }
+
+ // Field 9: has_smooth_input_main
+ if (_has_field_[9]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(9, has_smooth_input_main_, msg);
+ }
+
+ // Field 10: has_missing_content
+ if (_has_field_[10]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(10, has_missing_content_, msg);
+ }
+
+ // Field 11: layer_tree_host_id
+ if (_has_field_[11]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(11, layer_tree_host_id_, msg);
+ }
+
+ // Field 12: has_high_latency
+ if (_has_field_[12]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(12, has_high_latency_, msg);
+ }
+
+ // Field 13: frame_type
+ if (_has_field_[13]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(13, frame_type_, msg);
+ }
+
+ // Field 14: high_latency_contribution_stage
+ for (auto& it : high_latency_contribution_stage_) {
+ ::protozero::internal::gen_helpers::SerializeString(14, it, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/trace/track_event/chrome_histogram_sample.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/chrome_histogram_sample.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+ChromeHistogramSample::ChromeHistogramSample() = default;
+ChromeHistogramSample::~ChromeHistogramSample() = default;
+ChromeHistogramSample::ChromeHistogramSample(const ChromeHistogramSample&) = default;
+ChromeHistogramSample& ChromeHistogramSample::operator=(const ChromeHistogramSample&) = default;
+ChromeHistogramSample::ChromeHistogramSample(ChromeHistogramSample&&) noexcept = default;
+ChromeHistogramSample& ChromeHistogramSample::operator=(ChromeHistogramSample&&) = default;
+
+bool ChromeHistogramSample::operator==(const ChromeHistogramSample& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(name_hash_, other.name_hash_)
+ && ::protozero::internal::gen_helpers::EqualsField(name_, other.name_)
+ && ::protozero::internal::gen_helpers::EqualsField(sample_, other.sample_)
+ && ::protozero::internal::gen_helpers::EqualsField(name_iid_, other.name_iid_);
+}
+
+bool ChromeHistogramSample::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* name_hash */:
+ field.get(&name_hash_);
+ break;
+ case 2 /* name */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &name_);
+ break;
+ case 3 /* sample */:
+ field.get(&sample_);
+ break;
+ case 4 /* name_iid */:
+ field.get(&name_iid_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string ChromeHistogramSample::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> ChromeHistogramSample::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void ChromeHistogramSample::Serialize(::protozero::Message* msg) const {
+ // Field 1: name_hash
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, name_hash_, msg);
+ }
+
+ // Field 2: name
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeString(2, name_, msg);
+ }
+
+ // Field 3: sample
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(3, sample_, msg);
+ }
+
+ // Field 4: name_iid
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(4, name_iid_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+HistogramName::HistogramName() = default;
+HistogramName::~HistogramName() = default;
+HistogramName::HistogramName(const HistogramName&) = default;
+HistogramName& HistogramName::operator=(const HistogramName&) = default;
+HistogramName::HistogramName(HistogramName&&) noexcept = default;
+HistogramName& HistogramName::operator=(HistogramName&&) = default;
+
+bool HistogramName::operator==(const HistogramName& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(iid_, other.iid_)
+ && ::protozero::internal::gen_helpers::EqualsField(name_, other.name_);
+}
+
+bool HistogramName::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* iid */:
+ field.get(&iid_);
+ break;
+ case 2 /* name */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &name_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string HistogramName::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> HistogramName::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void HistogramName::Serialize(::protozero::Message* msg) const {
+ // Field 1: iid
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, iid_, msg);
+ }
+
+ // Field 2: name
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeString(2, name_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/trace/track_event/chrome_keyed_service.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/chrome_keyed_service.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+ChromeKeyedService::ChromeKeyedService() = default;
+ChromeKeyedService::~ChromeKeyedService() = default;
+ChromeKeyedService::ChromeKeyedService(const ChromeKeyedService&) = default;
+ChromeKeyedService& ChromeKeyedService::operator=(const ChromeKeyedService&) = default;
+ChromeKeyedService::ChromeKeyedService(ChromeKeyedService&&) noexcept = default;
+ChromeKeyedService& ChromeKeyedService::operator=(ChromeKeyedService&&) = default;
+
+bool ChromeKeyedService::operator==(const ChromeKeyedService& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(name_, other.name_);
+}
+
+bool ChromeKeyedService::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* name */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &name_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string ChromeKeyedService::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> ChromeKeyedService::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void ChromeKeyedService::Serialize(::protozero::Message* msg) const {
+ // Field 1: name
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeString(1, name_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/trace/track_event/chrome_latency_info.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/chrome_latency_info.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+ChromeLatencyInfo::ChromeLatencyInfo() = default;
+ChromeLatencyInfo::~ChromeLatencyInfo() = default;
+ChromeLatencyInfo::ChromeLatencyInfo(const ChromeLatencyInfo&) = default;
+ChromeLatencyInfo& ChromeLatencyInfo::operator=(const ChromeLatencyInfo&) = default;
+ChromeLatencyInfo::ChromeLatencyInfo(ChromeLatencyInfo&&) noexcept = default;
+ChromeLatencyInfo& ChromeLatencyInfo::operator=(ChromeLatencyInfo&&) = default;
+
+bool ChromeLatencyInfo::operator==(const ChromeLatencyInfo& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(trace_id_, other.trace_id_)
+ && ::protozero::internal::gen_helpers::EqualsField(step_, other.step_)
+ && ::protozero::internal::gen_helpers::EqualsField(frame_tree_node_id_, other.frame_tree_node_id_)
+ && ::protozero::internal::gen_helpers::EqualsField(component_info_, other.component_info_)
+ && ::protozero::internal::gen_helpers::EqualsField(is_coalesced_, other.is_coalesced_)
+ && ::protozero::internal::gen_helpers::EqualsField(gesture_scroll_id_, other.gesture_scroll_id_)
+ && ::protozero::internal::gen_helpers::EqualsField(touch_id_, other.touch_id_);
+}
+
+int ChromeLatencyInfo::component_info_size() const { return static_cast<int>(component_info_.size()); }
+void ChromeLatencyInfo::clear_component_info() { component_info_.clear(); }
+ChromeLatencyInfo_ComponentInfo* ChromeLatencyInfo::add_component_info() { component_info_.emplace_back(); return &component_info_.back(); }
+bool ChromeLatencyInfo::ParseFromArray(const void* raw, size_t size) {
+ component_info_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* trace_id */:
+ field.get(&trace_id_);
+ break;
+ case 2 /* step */:
+ field.get(&step_);
+ break;
+ case 3 /* frame_tree_node_id */:
+ field.get(&frame_tree_node_id_);
+ break;
+ case 4 /* component_info */:
+ component_info_.emplace_back();
+ component_info_.back().ParseFromArray(field.data(), field.size());
+ break;
+ case 5 /* is_coalesced */:
+ field.get(&is_coalesced_);
+ break;
+ case 6 /* gesture_scroll_id */:
+ field.get(&gesture_scroll_id_);
+ break;
+ case 7 /* touch_id */:
+ field.get(&touch_id_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string ChromeLatencyInfo::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> ChromeLatencyInfo::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void ChromeLatencyInfo::Serialize(::protozero::Message* msg) const {
+ // Field 1: trace_id
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, trace_id_, msg);
+ }
+
+ // Field 2: step
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, step_, msg);
+ }
+
+ // Field 3: frame_tree_node_id
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(3, frame_tree_node_id_, msg);
+ }
+
+ // Field 4: component_info
+ for (auto& it : component_info_) {
+ it.Serialize(msg->BeginNestedMessage<::protozero::Message>(4));
+ }
+
+ // Field 5: is_coalesced
+ if (_has_field_[5]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(5, is_coalesced_, msg);
+ }
+
+ // Field 6: gesture_scroll_id
+ if (_has_field_[6]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(6, gesture_scroll_id_, msg);
+ }
+
+ // Field 7: touch_id
+ if (_has_field_[7]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(7, touch_id_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+ChromeLatencyInfo_ComponentInfo::ChromeLatencyInfo_ComponentInfo() = default;
+ChromeLatencyInfo_ComponentInfo::~ChromeLatencyInfo_ComponentInfo() = default;
+ChromeLatencyInfo_ComponentInfo::ChromeLatencyInfo_ComponentInfo(const ChromeLatencyInfo_ComponentInfo&) = default;
+ChromeLatencyInfo_ComponentInfo& ChromeLatencyInfo_ComponentInfo::operator=(const ChromeLatencyInfo_ComponentInfo&) = default;
+ChromeLatencyInfo_ComponentInfo::ChromeLatencyInfo_ComponentInfo(ChromeLatencyInfo_ComponentInfo&&) noexcept = default;
+ChromeLatencyInfo_ComponentInfo& ChromeLatencyInfo_ComponentInfo::operator=(ChromeLatencyInfo_ComponentInfo&&) = default;
+
+bool ChromeLatencyInfo_ComponentInfo::operator==(const ChromeLatencyInfo_ComponentInfo& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(component_type_, other.component_type_)
+ && ::protozero::internal::gen_helpers::EqualsField(time_us_, other.time_us_);
+}
+
+bool ChromeLatencyInfo_ComponentInfo::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* component_type */:
+ field.get(&component_type_);
+ break;
+ case 2 /* time_us */:
+ field.get(&time_us_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string ChromeLatencyInfo_ComponentInfo::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> ChromeLatencyInfo_ComponentInfo::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void ChromeLatencyInfo_ComponentInfo::Serialize(::protozero::Message* msg) const {
+ // Field 1: component_type
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, component_type_, msg);
+ }
+
+ // Field 2: time_us
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, time_us_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/trace/track_event/chrome_legacy_ipc.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/chrome_legacy_ipc.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+ChromeLegacyIpc::ChromeLegacyIpc() = default;
+ChromeLegacyIpc::~ChromeLegacyIpc() = default;
+ChromeLegacyIpc::ChromeLegacyIpc(const ChromeLegacyIpc&) = default;
+ChromeLegacyIpc& ChromeLegacyIpc::operator=(const ChromeLegacyIpc&) = default;
+ChromeLegacyIpc::ChromeLegacyIpc(ChromeLegacyIpc&&) noexcept = default;
+ChromeLegacyIpc& ChromeLegacyIpc::operator=(ChromeLegacyIpc&&) = default;
+
+bool ChromeLegacyIpc::operator==(const ChromeLegacyIpc& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(message_class_, other.message_class_)
+ && ::protozero::internal::gen_helpers::EqualsField(message_line_, other.message_line_);
+}
+
+bool ChromeLegacyIpc::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* message_class */:
+ field.get(&message_class_);
+ break;
+ case 2 /* message_line */:
+ field.get(&message_line_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string ChromeLegacyIpc::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> ChromeLegacyIpc::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void ChromeLegacyIpc::Serialize(::protozero::Message* msg) const {
+ // Field 1: message_class
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, message_class_, msg);
+ }
+
+ // Field 2: message_line
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, message_line_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/trace/track_event/chrome_message_pump.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/chrome_message_pump.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+ChromeMessagePump::ChromeMessagePump() = default;
+ChromeMessagePump::~ChromeMessagePump() = default;
+ChromeMessagePump::ChromeMessagePump(const ChromeMessagePump&) = default;
+ChromeMessagePump& ChromeMessagePump::operator=(const ChromeMessagePump&) = default;
+ChromeMessagePump::ChromeMessagePump(ChromeMessagePump&&) noexcept = default;
+ChromeMessagePump& ChromeMessagePump::operator=(ChromeMessagePump&&) = default;
+
+bool ChromeMessagePump::operator==(const ChromeMessagePump& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(sent_messages_in_queue_, other.sent_messages_in_queue_)
+ && ::protozero::internal::gen_helpers::EqualsField(io_handler_location_iid_, other.io_handler_location_iid_);
+}
+
+bool ChromeMessagePump::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* sent_messages_in_queue */:
+ field.get(&sent_messages_in_queue_);
+ break;
+ case 2 /* io_handler_location_iid */:
+ field.get(&io_handler_location_iid_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string ChromeMessagePump::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> ChromeMessagePump::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void ChromeMessagePump::Serialize(::protozero::Message* msg) const {
+ // Field 1: sent_messages_in_queue
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(1, sent_messages_in_queue_, msg);
+ }
+
+ // Field 2: io_handler_location_iid
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, io_handler_location_iid_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/trace/track_event/chrome_mojo_event_info.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/chrome_mojo_event_info.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+ChromeMojoEventInfo::ChromeMojoEventInfo() = default;
+ChromeMojoEventInfo::~ChromeMojoEventInfo() = default;
+ChromeMojoEventInfo::ChromeMojoEventInfo(const ChromeMojoEventInfo&) = default;
+ChromeMojoEventInfo& ChromeMojoEventInfo::operator=(const ChromeMojoEventInfo&) = default;
+ChromeMojoEventInfo::ChromeMojoEventInfo(ChromeMojoEventInfo&&) noexcept = default;
+ChromeMojoEventInfo& ChromeMojoEventInfo::operator=(ChromeMojoEventInfo&&) = default;
+
+bool ChromeMojoEventInfo::operator==(const ChromeMojoEventInfo& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(watcher_notify_interface_tag_, other.watcher_notify_interface_tag_)
+ && ::protozero::internal::gen_helpers::EqualsField(ipc_hash_, other.ipc_hash_)
+ && ::protozero::internal::gen_helpers::EqualsField(mojo_interface_tag_, other.mojo_interface_tag_)
+ && ::protozero::internal::gen_helpers::EqualsField(mojo_interface_method_iid_, other.mojo_interface_method_iid_)
+ && ::protozero::internal::gen_helpers::EqualsField(is_reply_, other.is_reply_)
+ && ::protozero::internal::gen_helpers::EqualsField(payload_size_, other.payload_size_)
+ && ::protozero::internal::gen_helpers::EqualsField(data_num_bytes_, other.data_num_bytes_);
+}
+
+bool ChromeMojoEventInfo::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* watcher_notify_interface_tag */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &watcher_notify_interface_tag_);
+ break;
+ case 2 /* ipc_hash */:
+ field.get(&ipc_hash_);
+ break;
+ case 3 /* mojo_interface_tag */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &mojo_interface_tag_);
+ break;
+ case 4 /* mojo_interface_method_iid */:
+ field.get(&mojo_interface_method_iid_);
+ break;
+ case 5 /* is_reply */:
+ field.get(&is_reply_);
+ break;
+ case 6 /* payload_size */:
+ field.get(&payload_size_);
+ break;
+ case 7 /* data_num_bytes */:
+ field.get(&data_num_bytes_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string ChromeMojoEventInfo::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> ChromeMojoEventInfo::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void ChromeMojoEventInfo::Serialize(::protozero::Message* msg) const {
+ // Field 1: watcher_notify_interface_tag
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeString(1, watcher_notify_interface_tag_, msg);
+ }
+
+ // Field 2: ipc_hash
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, ipc_hash_, msg);
+ }
+
+ // Field 3: mojo_interface_tag
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeString(3, mojo_interface_tag_, msg);
+ }
+
+ // Field 4: mojo_interface_method_iid
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(4, mojo_interface_method_iid_, msg);
+ }
+
+ // Field 5: is_reply
+ if (_has_field_[5]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(5, is_reply_, msg);
+ }
+
+ // Field 6: payload_size
+ if (_has_field_[6]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(6, payload_size_, msg);
+ }
+
+ // Field 7: data_num_bytes
+ if (_has_field_[7]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(7, data_num_bytes_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/trace/track_event/chrome_process_descriptor.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/chrome_process_descriptor.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+ChromeProcessDescriptor::ChromeProcessDescriptor() = default;
+ChromeProcessDescriptor::~ChromeProcessDescriptor() = default;
+ChromeProcessDescriptor::ChromeProcessDescriptor(const ChromeProcessDescriptor&) = default;
+ChromeProcessDescriptor& ChromeProcessDescriptor::operator=(const ChromeProcessDescriptor&) = default;
+ChromeProcessDescriptor::ChromeProcessDescriptor(ChromeProcessDescriptor&&) noexcept = default;
+ChromeProcessDescriptor& ChromeProcessDescriptor::operator=(ChromeProcessDescriptor&&) = default;
+
+bool ChromeProcessDescriptor::operator==(const ChromeProcessDescriptor& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(process_type_, other.process_type_)
+ && ::protozero::internal::gen_helpers::EqualsField(process_priority_, other.process_priority_)
+ && ::protozero::internal::gen_helpers::EqualsField(legacy_sort_index_, other.legacy_sort_index_)
+ && ::protozero::internal::gen_helpers::EqualsField(host_app_package_name_, other.host_app_package_name_)
+ && ::protozero::internal::gen_helpers::EqualsField(crash_trace_id_, other.crash_trace_id_);
+}
+
+bool ChromeProcessDescriptor::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* process_type */:
+ field.get(&process_type_);
+ break;
+ case 2 /* process_priority */:
+ field.get(&process_priority_);
+ break;
+ case 3 /* legacy_sort_index */:
+ field.get(&legacy_sort_index_);
+ break;
+ case 4 /* host_app_package_name */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &host_app_package_name_);
+ break;
+ case 5 /* crash_trace_id */:
+ field.get(&crash_trace_id_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string ChromeProcessDescriptor::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> ChromeProcessDescriptor::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void ChromeProcessDescriptor::Serialize(::protozero::Message* msg) const {
+ // Field 1: process_type
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, process_type_, msg);
+ }
+
+ // Field 2: process_priority
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, process_priority_, msg);
+ }
+
+ // Field 3: legacy_sort_index
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(3, legacy_sort_index_, msg);
+ }
+
+ // Field 4: host_app_package_name
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeString(4, host_app_package_name_, msg);
+ }
+
+ // Field 5: crash_trace_id
+ if (_has_field_[5]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(5, crash_trace_id_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/trace/track_event/chrome_renderer_scheduler_state.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/chrome_renderer_scheduler_state.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+ChromeRendererSchedulerState::ChromeRendererSchedulerState() = default;
+ChromeRendererSchedulerState::~ChromeRendererSchedulerState() = default;
+ChromeRendererSchedulerState::ChromeRendererSchedulerState(const ChromeRendererSchedulerState&) = default;
+ChromeRendererSchedulerState& ChromeRendererSchedulerState::operator=(const ChromeRendererSchedulerState&) = default;
+ChromeRendererSchedulerState::ChromeRendererSchedulerState(ChromeRendererSchedulerState&&) noexcept = default;
+ChromeRendererSchedulerState& ChromeRendererSchedulerState::operator=(ChromeRendererSchedulerState&&) = default;
+
+bool ChromeRendererSchedulerState::operator==(const ChromeRendererSchedulerState& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(rail_mode_, other.rail_mode_)
+ && ::protozero::internal::gen_helpers::EqualsField(is_backgrounded_, other.is_backgrounded_)
+ && ::protozero::internal::gen_helpers::EqualsField(is_hidden_, other.is_hidden_);
+}
+
+bool ChromeRendererSchedulerState::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* rail_mode */:
+ field.get(&rail_mode_);
+ break;
+ case 2 /* is_backgrounded */:
+ field.get(&is_backgrounded_);
+ break;
+ case 3 /* is_hidden */:
+ field.get(&is_hidden_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string ChromeRendererSchedulerState::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> ChromeRendererSchedulerState::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void ChromeRendererSchedulerState::Serialize(::protozero::Message* msg) const {
+ // Field 1: rail_mode
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, rail_mode_, msg);
+ }
+
+ // Field 2: is_backgrounded
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(2, is_backgrounded_, msg);
+ }
+
+ // Field 3: is_hidden
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(3, is_hidden_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/trace/track_event/chrome_thread_descriptor.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/chrome_thread_descriptor.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+ChromeThreadDescriptor::ChromeThreadDescriptor() = default;
+ChromeThreadDescriptor::~ChromeThreadDescriptor() = default;
+ChromeThreadDescriptor::ChromeThreadDescriptor(const ChromeThreadDescriptor&) = default;
+ChromeThreadDescriptor& ChromeThreadDescriptor::operator=(const ChromeThreadDescriptor&) = default;
+ChromeThreadDescriptor::ChromeThreadDescriptor(ChromeThreadDescriptor&&) noexcept = default;
+ChromeThreadDescriptor& ChromeThreadDescriptor::operator=(ChromeThreadDescriptor&&) = default;
+
+bool ChromeThreadDescriptor::operator==(const ChromeThreadDescriptor& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(thread_type_, other.thread_type_)
+ && ::protozero::internal::gen_helpers::EqualsField(legacy_sort_index_, other.legacy_sort_index_);
+}
+
+bool ChromeThreadDescriptor::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* thread_type */:
+ field.get(&thread_type_);
+ break;
+ case 2 /* legacy_sort_index */:
+ field.get(&legacy_sort_index_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string ChromeThreadDescriptor::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> ChromeThreadDescriptor::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void ChromeThreadDescriptor::Serialize(::protozero::Message* msg) const {
+ // Field 1: thread_type
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, thread_type_, msg);
+ }
+
+ // Field 2: legacy_sort_index
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, legacy_sort_index_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/trace/track_event/chrome_user_event.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/chrome_user_event.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+ChromeUserEvent::ChromeUserEvent() = default;
+ChromeUserEvent::~ChromeUserEvent() = default;
+ChromeUserEvent::ChromeUserEvent(const ChromeUserEvent&) = default;
+ChromeUserEvent& ChromeUserEvent::operator=(const ChromeUserEvent&) = default;
+ChromeUserEvent::ChromeUserEvent(ChromeUserEvent&&) noexcept = default;
+ChromeUserEvent& ChromeUserEvent::operator=(ChromeUserEvent&&) = default;
+
+bool ChromeUserEvent::operator==(const ChromeUserEvent& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(action_, other.action_)
+ && ::protozero::internal::gen_helpers::EqualsField(action_hash_, other.action_hash_);
+}
+
+bool ChromeUserEvent::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* action */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &action_);
+ break;
+ case 2 /* action_hash */:
+ field.get(&action_hash_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string ChromeUserEvent::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> ChromeUserEvent::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void ChromeUserEvent::Serialize(::protozero::Message* msg) const {
+ // Field 1: action
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeString(1, action_, msg);
+ }
+
+ // Field 2: action_hash
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, action_hash_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/trace/track_event/chrome_window_handle_event_info.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/chrome_window_handle_event_info.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+ChromeWindowHandleEventInfo::ChromeWindowHandleEventInfo() = default;
+ChromeWindowHandleEventInfo::~ChromeWindowHandleEventInfo() = default;
+ChromeWindowHandleEventInfo::ChromeWindowHandleEventInfo(const ChromeWindowHandleEventInfo&) = default;
+ChromeWindowHandleEventInfo& ChromeWindowHandleEventInfo::operator=(const ChromeWindowHandleEventInfo&) = default;
+ChromeWindowHandleEventInfo::ChromeWindowHandleEventInfo(ChromeWindowHandleEventInfo&&) noexcept = default;
+ChromeWindowHandleEventInfo& ChromeWindowHandleEventInfo::operator=(ChromeWindowHandleEventInfo&&) = default;
+
+bool ChromeWindowHandleEventInfo::operator==(const ChromeWindowHandleEventInfo& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(dpi_, other.dpi_)
+ && ::protozero::internal::gen_helpers::EqualsField(message_id_, other.message_id_)
+ && ::protozero::internal::gen_helpers::EqualsField(hwnd_ptr_, other.hwnd_ptr_);
+}
+
+bool ChromeWindowHandleEventInfo::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* dpi */:
+ field.get(&dpi_);
+ break;
+ case 2 /* message_id */:
+ field.get(&message_id_);
+ break;
+ case 3 /* hwnd_ptr */:
+ field.get(&hwnd_ptr_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string ChromeWindowHandleEventInfo::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> ChromeWindowHandleEventInfo::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void ChromeWindowHandleEventInfo::Serialize(::protozero::Message* msg) const {
+ // Field 1: dpi
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, dpi_, msg);
+ }
+
+ // Field 2: message_id
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, message_id_, msg);
+ }
+
+ // Field 3: hwnd_ptr
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeFixed(3, hwnd_ptr_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/trace/track_event/counter_descriptor.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/counter_descriptor.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+CounterDescriptor::CounterDescriptor() = default;
+CounterDescriptor::~CounterDescriptor() = default;
+CounterDescriptor::CounterDescriptor(const CounterDescriptor&) = default;
+CounterDescriptor& CounterDescriptor::operator=(const CounterDescriptor&) = default;
+CounterDescriptor::CounterDescriptor(CounterDescriptor&&) noexcept = default;
+CounterDescriptor& CounterDescriptor::operator=(CounterDescriptor&&) = default;
+
+bool CounterDescriptor::operator==(const CounterDescriptor& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(type_, other.type_)
+ && ::protozero::internal::gen_helpers::EqualsField(categories_, other.categories_)
+ && ::protozero::internal::gen_helpers::EqualsField(unit_, other.unit_)
+ && ::protozero::internal::gen_helpers::EqualsField(unit_name_, other.unit_name_)
+ && ::protozero::internal::gen_helpers::EqualsField(unit_multiplier_, other.unit_multiplier_)
+ && ::protozero::internal::gen_helpers::EqualsField(is_incremental_, other.is_incremental_);
+}
+
+bool CounterDescriptor::ParseFromArray(const void* raw, size_t size) {
+ categories_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* type */:
+ field.get(&type_);
+ break;
+ case 2 /* categories */:
+ categories_.emplace_back();
+ ::protozero::internal::gen_helpers::DeserializeString(field, &categories_.back());
+ break;
+ case 3 /* unit */:
+ field.get(&unit_);
+ break;
+ case 6 /* unit_name */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &unit_name_);
+ break;
+ case 4 /* unit_multiplier */:
+ field.get(&unit_multiplier_);
+ break;
+ case 5 /* is_incremental */:
+ field.get(&is_incremental_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string CounterDescriptor::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> CounterDescriptor::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void CounterDescriptor::Serialize(::protozero::Message* msg) const {
+ // Field 1: type
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, type_, msg);
+ }
+
+ // Field 2: categories
+ for (auto& it : categories_) {
+ ::protozero::internal::gen_helpers::SerializeString(2, it, msg);
+ }
+
+ // Field 3: unit
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(3, unit_, msg);
+ }
+
+ // Field 6: unit_name
+ if (_has_field_[6]) {
+ ::protozero::internal::gen_helpers::SerializeString(6, unit_name_, msg);
+ }
+
+ // Field 4: unit_multiplier
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(4, unit_multiplier_, msg);
+ }
+
+ // Field 5: is_incremental
+ if (_has_field_[5]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(5, is_incremental_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/trace/track_event/debug_annotation.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/debug_annotation.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+DebugAnnotationValueTypeName::DebugAnnotationValueTypeName() = default;
+DebugAnnotationValueTypeName::~DebugAnnotationValueTypeName() = default;
+DebugAnnotationValueTypeName::DebugAnnotationValueTypeName(const DebugAnnotationValueTypeName&) = default;
+DebugAnnotationValueTypeName& DebugAnnotationValueTypeName::operator=(const DebugAnnotationValueTypeName&) = default;
+DebugAnnotationValueTypeName::DebugAnnotationValueTypeName(DebugAnnotationValueTypeName&&) noexcept = default;
+DebugAnnotationValueTypeName& DebugAnnotationValueTypeName::operator=(DebugAnnotationValueTypeName&&) = default;
+
+bool DebugAnnotationValueTypeName::operator==(const DebugAnnotationValueTypeName& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(iid_, other.iid_)
+ && ::protozero::internal::gen_helpers::EqualsField(name_, other.name_);
+}
+
+bool DebugAnnotationValueTypeName::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* iid */:
+ field.get(&iid_);
+ break;
+ case 2 /* name */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &name_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string DebugAnnotationValueTypeName::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> DebugAnnotationValueTypeName::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void DebugAnnotationValueTypeName::Serialize(::protozero::Message* msg) const {
+ // Field 1: iid
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, iid_, msg);
+ }
+
+ // Field 2: name
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeString(2, name_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+DebugAnnotationName::DebugAnnotationName() = default;
+DebugAnnotationName::~DebugAnnotationName() = default;
+DebugAnnotationName::DebugAnnotationName(const DebugAnnotationName&) = default;
+DebugAnnotationName& DebugAnnotationName::operator=(const DebugAnnotationName&) = default;
+DebugAnnotationName::DebugAnnotationName(DebugAnnotationName&&) noexcept = default;
+DebugAnnotationName& DebugAnnotationName::operator=(DebugAnnotationName&&) = default;
+
+bool DebugAnnotationName::operator==(const DebugAnnotationName& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(iid_, other.iid_)
+ && ::protozero::internal::gen_helpers::EqualsField(name_, other.name_);
+}
+
+bool DebugAnnotationName::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* iid */:
+ field.get(&iid_);
+ break;
+ case 2 /* name */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &name_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string DebugAnnotationName::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> DebugAnnotationName::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void DebugAnnotationName::Serialize(::protozero::Message* msg) const {
+ // Field 1: iid
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, iid_, msg);
+ }
+
+ // Field 2: name
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeString(2, name_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+DebugAnnotation::DebugAnnotation() = default;
+DebugAnnotation::~DebugAnnotation() = default;
+DebugAnnotation::DebugAnnotation(const DebugAnnotation&) = default;
+DebugAnnotation& DebugAnnotation::operator=(const DebugAnnotation&) = default;
+DebugAnnotation::DebugAnnotation(DebugAnnotation&&) noexcept = default;
+DebugAnnotation& DebugAnnotation::operator=(DebugAnnotation&&) = default;
+
+bool DebugAnnotation::operator==(const DebugAnnotation& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(name_iid_, other.name_iid_)
+ && ::protozero::internal::gen_helpers::EqualsField(name_, other.name_)
+ && ::protozero::internal::gen_helpers::EqualsField(bool_value_, other.bool_value_)
+ && ::protozero::internal::gen_helpers::EqualsField(uint_value_, other.uint_value_)
+ && ::protozero::internal::gen_helpers::EqualsField(int_value_, other.int_value_)
+ && ::protozero::internal::gen_helpers::EqualsField(double_value_, other.double_value_)
+ && ::protozero::internal::gen_helpers::EqualsField(pointer_value_, other.pointer_value_)
+ && ::protozero::internal::gen_helpers::EqualsField(nested_value_, other.nested_value_)
+ && ::protozero::internal::gen_helpers::EqualsField(legacy_json_value_, other.legacy_json_value_)
+ && ::protozero::internal::gen_helpers::EqualsField(string_value_, other.string_value_)
+ && ::protozero::internal::gen_helpers::EqualsField(string_value_iid_, other.string_value_iid_)
+ && ::protozero::internal::gen_helpers::EqualsField(proto_type_name_, other.proto_type_name_)
+ && ::protozero::internal::gen_helpers::EqualsField(proto_type_name_iid_, other.proto_type_name_iid_)
+ && ::protozero::internal::gen_helpers::EqualsField(proto_value_, other.proto_value_)
+ && ::protozero::internal::gen_helpers::EqualsField(dict_entries_, other.dict_entries_)
+ && ::protozero::internal::gen_helpers::EqualsField(array_values_, other.array_values_);
+}
+
+int DebugAnnotation::dict_entries_size() const { return static_cast<int>(dict_entries_.size()); }
+void DebugAnnotation::clear_dict_entries() { dict_entries_.clear(); }
+DebugAnnotation* DebugAnnotation::add_dict_entries() { dict_entries_.emplace_back(); return &dict_entries_.back(); }
+int DebugAnnotation::array_values_size() const { return static_cast<int>(array_values_.size()); }
+void DebugAnnotation::clear_array_values() { array_values_.clear(); }
+DebugAnnotation* DebugAnnotation::add_array_values() { array_values_.emplace_back(); return &array_values_.back(); }
+bool DebugAnnotation::ParseFromArray(const void* raw, size_t size) {
+ dict_entries_.clear();
+ array_values_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* name_iid */:
+ field.get(&name_iid_);
+ break;
+ case 10 /* name */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &name_);
+ break;
+ case 2 /* bool_value */:
+ field.get(&bool_value_);
+ break;
+ case 3 /* uint_value */:
+ field.get(&uint_value_);
+ break;
+ case 4 /* int_value */:
+ field.get(&int_value_);
+ break;
+ case 5 /* double_value */:
+ field.get(&double_value_);
+ break;
+ case 7 /* pointer_value */:
+ field.get(&pointer_value_);
+ break;
+ case 8 /* nested_value */:
+ (*nested_value_).ParseFromArray(field.data(), field.size());
+ break;
+ case 9 /* legacy_json_value */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &legacy_json_value_);
+ break;
+ case 6 /* string_value */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &string_value_);
+ break;
+ case 17 /* string_value_iid */:
+ field.get(&string_value_iid_);
+ break;
+ case 16 /* proto_type_name */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &proto_type_name_);
+ break;
+ case 13 /* proto_type_name_iid */:
+ field.get(&proto_type_name_iid_);
+ break;
+ case 14 /* proto_value */:
+ field.get(&proto_value_);
+ break;
+ case 11 /* dict_entries */:
+ dict_entries_.emplace_back();
+ dict_entries_.back().ParseFromArray(field.data(), field.size());
+ break;
+ case 12 /* array_values */:
+ array_values_.emplace_back();
+ array_values_.back().ParseFromArray(field.data(), field.size());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string DebugAnnotation::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> DebugAnnotation::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void DebugAnnotation::Serialize(::protozero::Message* msg) const {
+ // Field 1: name_iid
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, name_iid_, msg);
+ }
+
+ // Field 10: name
+ if (_has_field_[10]) {
+ ::protozero::internal::gen_helpers::SerializeString(10, name_, msg);
+ }
+
+ // Field 2: bool_value
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(2, bool_value_, msg);
+ }
+
+ // Field 3: uint_value
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(3, uint_value_, msg);
+ }
+
+ // Field 4: int_value
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(4, int_value_, msg);
+ }
+
+ // Field 5: double_value
+ if (_has_field_[5]) {
+ ::protozero::internal::gen_helpers::SerializeFixed(5, double_value_, msg);
+ }
+
+ // Field 7: pointer_value
+ if (_has_field_[7]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(7, pointer_value_, msg);
+ }
+
+ // Field 8: nested_value
+ if (_has_field_[8]) {
+ (*nested_value_).Serialize(msg->BeginNestedMessage<::protozero::Message>(8));
+ }
+
+ // Field 9: legacy_json_value
+ if (_has_field_[9]) {
+ ::protozero::internal::gen_helpers::SerializeString(9, legacy_json_value_, msg);
+ }
+
+ // Field 6: string_value
+ if (_has_field_[6]) {
+ ::protozero::internal::gen_helpers::SerializeString(6, string_value_, msg);
+ }
+
+ // Field 17: string_value_iid
+ if (_has_field_[17]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(17, string_value_iid_, msg);
+ }
+
+ // Field 16: proto_type_name
+ if (_has_field_[16]) {
+ ::protozero::internal::gen_helpers::SerializeString(16, proto_type_name_, msg);
+ }
+
+ // Field 13: proto_type_name_iid
+ if (_has_field_[13]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(13, proto_type_name_iid_, msg);
+ }
+
+ // Field 14: proto_value
+ if (_has_field_[14]) {
+ ::protozero::internal::gen_helpers::SerializeString(14, proto_value_, msg);
+ }
+
+ // Field 11: dict_entries
+ for (auto& it : dict_entries_) {
+ it.Serialize(msg->BeginNestedMessage<::protozero::Message>(11));
+ }
+
+ // Field 12: array_values
+ for (auto& it : array_values_) {
+ it.Serialize(msg->BeginNestedMessage<::protozero::Message>(12));
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+DebugAnnotation_NestedValue::DebugAnnotation_NestedValue() = default;
+DebugAnnotation_NestedValue::~DebugAnnotation_NestedValue() = default;
+DebugAnnotation_NestedValue::DebugAnnotation_NestedValue(const DebugAnnotation_NestedValue&) = default;
+DebugAnnotation_NestedValue& DebugAnnotation_NestedValue::operator=(const DebugAnnotation_NestedValue&) = default;
+DebugAnnotation_NestedValue::DebugAnnotation_NestedValue(DebugAnnotation_NestedValue&&) noexcept = default;
+DebugAnnotation_NestedValue& DebugAnnotation_NestedValue::operator=(DebugAnnotation_NestedValue&&) = default;
+
+bool DebugAnnotation_NestedValue::operator==(const DebugAnnotation_NestedValue& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(nested_type_, other.nested_type_)
+ && ::protozero::internal::gen_helpers::EqualsField(dict_keys_, other.dict_keys_)
+ && ::protozero::internal::gen_helpers::EqualsField(dict_values_, other.dict_values_)
+ && ::protozero::internal::gen_helpers::EqualsField(array_values_, other.array_values_)
+ && ::protozero::internal::gen_helpers::EqualsField(int_value_, other.int_value_)
+ && ::protozero::internal::gen_helpers::EqualsField(double_value_, other.double_value_)
+ && ::protozero::internal::gen_helpers::EqualsField(bool_value_, other.bool_value_)
+ && ::protozero::internal::gen_helpers::EqualsField(string_value_, other.string_value_);
+}
+
+int DebugAnnotation_NestedValue::dict_values_size() const { return static_cast<int>(dict_values_.size()); }
+void DebugAnnotation_NestedValue::clear_dict_values() { dict_values_.clear(); }
+DebugAnnotation_NestedValue* DebugAnnotation_NestedValue::add_dict_values() { dict_values_.emplace_back(); return &dict_values_.back(); }
+int DebugAnnotation_NestedValue::array_values_size() const { return static_cast<int>(array_values_.size()); }
+void DebugAnnotation_NestedValue::clear_array_values() { array_values_.clear(); }
+DebugAnnotation_NestedValue* DebugAnnotation_NestedValue::add_array_values() { array_values_.emplace_back(); return &array_values_.back(); }
+bool DebugAnnotation_NestedValue::ParseFromArray(const void* raw, size_t size) {
+ dict_keys_.clear();
+ dict_values_.clear();
+ array_values_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* nested_type */:
+ field.get(&nested_type_);
+ break;
+ case 2 /* dict_keys */:
+ dict_keys_.emplace_back();
+ ::protozero::internal::gen_helpers::DeserializeString(field, &dict_keys_.back());
+ break;
+ case 3 /* dict_values */:
+ dict_values_.emplace_back();
+ dict_values_.back().ParseFromArray(field.data(), field.size());
+ break;
+ case 4 /* array_values */:
+ array_values_.emplace_back();
+ array_values_.back().ParseFromArray(field.data(), field.size());
+ break;
+ case 5 /* int_value */:
+ field.get(&int_value_);
+ break;
+ case 6 /* double_value */:
+ field.get(&double_value_);
+ break;
+ case 7 /* bool_value */:
+ field.get(&bool_value_);
+ break;
+ case 8 /* string_value */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &string_value_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string DebugAnnotation_NestedValue::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> DebugAnnotation_NestedValue::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void DebugAnnotation_NestedValue::Serialize(::protozero::Message* msg) const {
+ // Field 1: nested_type
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, nested_type_, msg);
+ }
+
+ // Field 2: dict_keys
+ for (auto& it : dict_keys_) {
+ ::protozero::internal::gen_helpers::SerializeString(2, it, msg);
+ }
+
+ // Field 3: dict_values
+ for (auto& it : dict_values_) {
+ it.Serialize(msg->BeginNestedMessage<::protozero::Message>(3));
+ }
+
+ // Field 4: array_values
+ for (auto& it : array_values_) {
+ it.Serialize(msg->BeginNestedMessage<::protozero::Message>(4));
+ }
+
+ // Field 5: int_value
+ if (_has_field_[5]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(5, int_value_, msg);
+ }
+
+ // Field 6: double_value
+ if (_has_field_[6]) {
+ ::protozero::internal::gen_helpers::SerializeFixed(6, double_value_, msg);
+ }
+
+ // Field 7: bool_value
+ if (_has_field_[7]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(7, bool_value_, msg);
+ }
+
+ // Field 8: string_value
+ if (_has_field_[8]) {
+ ::protozero::internal::gen_helpers::SerializeString(8, string_value_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/trace/track_event/log_message.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/log_message.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+LogMessageBody::LogMessageBody() = default;
+LogMessageBody::~LogMessageBody() = default;
+LogMessageBody::LogMessageBody(const LogMessageBody&) = default;
+LogMessageBody& LogMessageBody::operator=(const LogMessageBody&) = default;
+LogMessageBody::LogMessageBody(LogMessageBody&&) noexcept = default;
+LogMessageBody& LogMessageBody::operator=(LogMessageBody&&) = default;
+
+bool LogMessageBody::operator==(const LogMessageBody& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(iid_, other.iid_)
+ && ::protozero::internal::gen_helpers::EqualsField(body_, other.body_);
+}
+
+bool LogMessageBody::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* iid */:
+ field.get(&iid_);
+ break;
+ case 2 /* body */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &body_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string LogMessageBody::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> LogMessageBody::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void LogMessageBody::Serialize(::protozero::Message* msg) const {
+ // Field 1: iid
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, iid_, msg);
+ }
+
+ // Field 2: body
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeString(2, body_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+LogMessage::LogMessage() = default;
+LogMessage::~LogMessage() = default;
+LogMessage::LogMessage(const LogMessage&) = default;
+LogMessage& LogMessage::operator=(const LogMessage&) = default;
+LogMessage::LogMessage(LogMessage&&) noexcept = default;
+LogMessage& LogMessage::operator=(LogMessage&&) = default;
+
+bool LogMessage::operator==(const LogMessage& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(source_location_iid_, other.source_location_iid_)
+ && ::protozero::internal::gen_helpers::EqualsField(body_iid_, other.body_iid_)
+ && ::protozero::internal::gen_helpers::EqualsField(prio_, other.prio_);
+}
+
+bool LogMessage::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* source_location_iid */:
+ field.get(&source_location_iid_);
+ break;
+ case 2 /* body_iid */:
+ field.get(&body_iid_);
+ break;
+ case 3 /* prio */:
+ field.get(&prio_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string LogMessage::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> LogMessage::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void LogMessage::Serialize(::protozero::Message* msg) const {
+ // Field 1: source_location_iid
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, source_location_iid_, msg);
+ }
+
+ // Field 2: body_iid
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, body_iid_, msg);
+ }
+
+ // Field 3: prio
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(3, prio_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/trace/track_event/pixel_modem.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/pixel_modem.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+PixelModemEventInsight::PixelModemEventInsight() = default;
+PixelModemEventInsight::~PixelModemEventInsight() = default;
+PixelModemEventInsight::PixelModemEventInsight(const PixelModemEventInsight&) = default;
+PixelModemEventInsight& PixelModemEventInsight::operator=(const PixelModemEventInsight&) = default;
+PixelModemEventInsight::PixelModemEventInsight(PixelModemEventInsight&&) noexcept = default;
+PixelModemEventInsight& PixelModemEventInsight::operator=(PixelModemEventInsight&&) = default;
+
+bool PixelModemEventInsight::operator==(const PixelModemEventInsight& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(detokenized_message_, other.detokenized_message_);
+}
+
+bool PixelModemEventInsight::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* detokenized_message */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &detokenized_message_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string PixelModemEventInsight::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> PixelModemEventInsight::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void PixelModemEventInsight::Serialize(::protozero::Message* msg) const {
+ // Field 1: detokenized_message
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeString(1, detokenized_message_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/trace/track_event/process_descriptor.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/process_descriptor.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+ProcessDescriptor::ProcessDescriptor() = default;
+ProcessDescriptor::~ProcessDescriptor() = default;
+ProcessDescriptor::ProcessDescriptor(const ProcessDescriptor&) = default;
+ProcessDescriptor& ProcessDescriptor::operator=(const ProcessDescriptor&) = default;
+ProcessDescriptor::ProcessDescriptor(ProcessDescriptor&&) noexcept = default;
+ProcessDescriptor& ProcessDescriptor::operator=(ProcessDescriptor&&) = default;
+
+bool ProcessDescriptor::operator==(const ProcessDescriptor& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(pid_, other.pid_)
+ && ::protozero::internal::gen_helpers::EqualsField(cmdline_, other.cmdline_)
+ && ::protozero::internal::gen_helpers::EqualsField(process_name_, other.process_name_)
+ && ::protozero::internal::gen_helpers::EqualsField(process_priority_, other.process_priority_)
+ && ::protozero::internal::gen_helpers::EqualsField(start_timestamp_ns_, other.start_timestamp_ns_)
+ && ::protozero::internal::gen_helpers::EqualsField(chrome_process_type_, other.chrome_process_type_)
+ && ::protozero::internal::gen_helpers::EqualsField(legacy_sort_index_, other.legacy_sort_index_)
+ && ::protozero::internal::gen_helpers::EqualsField(process_labels_, other.process_labels_);
+}
+
+bool ProcessDescriptor::ParseFromArray(const void* raw, size_t size) {
+ cmdline_.clear();
+ process_labels_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* pid */:
+ field.get(&pid_);
+ break;
+ case 2 /* cmdline */:
+ cmdline_.emplace_back();
+ ::protozero::internal::gen_helpers::DeserializeString(field, &cmdline_.back());
+ break;
+ case 6 /* process_name */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &process_name_);
+ break;
+ case 5 /* process_priority */:
+ field.get(&process_priority_);
+ break;
+ case 7 /* start_timestamp_ns */:
+ field.get(&start_timestamp_ns_);
+ break;
+ case 4 /* chrome_process_type */:
+ field.get(&chrome_process_type_);
+ break;
+ case 3 /* legacy_sort_index */:
+ field.get(&legacy_sort_index_);
+ break;
+ case 8 /* process_labels */:
+ process_labels_.emplace_back();
+ ::protozero::internal::gen_helpers::DeserializeString(field, &process_labels_.back());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string ProcessDescriptor::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> ProcessDescriptor::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void ProcessDescriptor::Serialize(::protozero::Message* msg) const {
+ // Field 1: pid
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, pid_, msg);
+ }
+
+ // Field 2: cmdline
+ for (auto& it : cmdline_) {
+ ::protozero::internal::gen_helpers::SerializeString(2, it, msg);
+ }
+
+ // Field 6: process_name
+ if (_has_field_[6]) {
+ ::protozero::internal::gen_helpers::SerializeString(6, process_name_, msg);
+ }
+
+ // Field 5: process_priority
+ if (_has_field_[5]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(5, process_priority_, msg);
+ }
+
+ // Field 7: start_timestamp_ns
+ if (_has_field_[7]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(7, start_timestamp_ns_, msg);
+ }
+
+ // Field 4: chrome_process_type
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(4, chrome_process_type_, msg);
+ }
+
+ // Field 3: legacy_sort_index
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(3, legacy_sort_index_, msg);
+ }
+
+ // Field 8: process_labels
+ for (auto& it : process_labels_) {
+ ::protozero::internal::gen_helpers::SerializeString(8, it, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/trace/track_event/range_of_interest.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/range_of_interest.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+TrackEventRangeOfInterest::TrackEventRangeOfInterest() = default;
+TrackEventRangeOfInterest::~TrackEventRangeOfInterest() = default;
+TrackEventRangeOfInterest::TrackEventRangeOfInterest(const TrackEventRangeOfInterest&) = default;
+TrackEventRangeOfInterest& TrackEventRangeOfInterest::operator=(const TrackEventRangeOfInterest&) = default;
+TrackEventRangeOfInterest::TrackEventRangeOfInterest(TrackEventRangeOfInterest&&) noexcept = default;
+TrackEventRangeOfInterest& TrackEventRangeOfInterest::operator=(TrackEventRangeOfInterest&&) = default;
+
+bool TrackEventRangeOfInterest::operator==(const TrackEventRangeOfInterest& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(start_us_, other.start_us_);
+}
+
+bool TrackEventRangeOfInterest::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* start_us */:
+ field.get(&start_us_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string TrackEventRangeOfInterest::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> TrackEventRangeOfInterest::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void TrackEventRangeOfInterest::Serialize(::protozero::Message* msg) const {
+ // Field 1: start_us
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, start_us_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/trace/track_event/screenshot.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/screenshot.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+Screenshot::Screenshot() = default;
+Screenshot::~Screenshot() = default;
+Screenshot::Screenshot(const Screenshot&) = default;
+Screenshot& Screenshot::operator=(const Screenshot&) = default;
+Screenshot::Screenshot(Screenshot&&) noexcept = default;
+Screenshot& Screenshot::operator=(Screenshot&&) = default;
+
+bool Screenshot::operator==(const Screenshot& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(jpg_image_, other.jpg_image_);
+}
+
+bool Screenshot::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* jpg_image */:
+ field.get(&jpg_image_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string Screenshot::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> Screenshot::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void Screenshot::Serialize(::protozero::Message* msg) const {
+ // Field 1: jpg_image
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeString(1, jpg_image_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/trace/track_event/source_location.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/source_location.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+SourceLocation::SourceLocation() = default;
+SourceLocation::~SourceLocation() = default;
+SourceLocation::SourceLocation(const SourceLocation&) = default;
+SourceLocation& SourceLocation::operator=(const SourceLocation&) = default;
+SourceLocation::SourceLocation(SourceLocation&&) noexcept = default;
+SourceLocation& SourceLocation::operator=(SourceLocation&&) = default;
+
+bool SourceLocation::operator==(const SourceLocation& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(iid_, other.iid_)
+ && ::protozero::internal::gen_helpers::EqualsField(file_name_, other.file_name_)
+ && ::protozero::internal::gen_helpers::EqualsField(function_name_, other.function_name_)
+ && ::protozero::internal::gen_helpers::EqualsField(line_number_, other.line_number_);
+}
+
+bool SourceLocation::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* iid */:
+ field.get(&iid_);
+ break;
+ case 2 /* file_name */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &file_name_);
+ break;
+ case 3 /* function_name */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &function_name_);
+ break;
+ case 4 /* line_number */:
+ field.get(&line_number_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string SourceLocation::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> SourceLocation::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void SourceLocation::Serialize(::protozero::Message* msg) const {
+ // Field 1: iid
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, iid_, msg);
+ }
+
+ // Field 2: file_name
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeString(2, file_name_, msg);
+ }
+
+ // Field 3: function_name
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeString(3, function_name_, msg);
+ }
+
+ // Field 4: line_number
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(4, line_number_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+UnsymbolizedSourceLocation::UnsymbolizedSourceLocation() = default;
+UnsymbolizedSourceLocation::~UnsymbolizedSourceLocation() = default;
+UnsymbolizedSourceLocation::UnsymbolizedSourceLocation(const UnsymbolizedSourceLocation&) = default;
+UnsymbolizedSourceLocation& UnsymbolizedSourceLocation::operator=(const UnsymbolizedSourceLocation&) = default;
+UnsymbolizedSourceLocation::UnsymbolizedSourceLocation(UnsymbolizedSourceLocation&&) noexcept = default;
+UnsymbolizedSourceLocation& UnsymbolizedSourceLocation::operator=(UnsymbolizedSourceLocation&&) = default;
+
+bool UnsymbolizedSourceLocation::operator==(const UnsymbolizedSourceLocation& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(iid_, other.iid_)
+ && ::protozero::internal::gen_helpers::EqualsField(mapping_id_, other.mapping_id_)
+ && ::protozero::internal::gen_helpers::EqualsField(rel_pc_, other.rel_pc_);
+}
+
+bool UnsymbolizedSourceLocation::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* iid */:
+ field.get(&iid_);
+ break;
+ case 2 /* mapping_id */:
+ field.get(&mapping_id_);
+ break;
+ case 3 /* rel_pc */:
+ field.get(&rel_pc_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string UnsymbolizedSourceLocation::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> UnsymbolizedSourceLocation::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void UnsymbolizedSourceLocation::Serialize(::protozero::Message* msg) const {
+ // Field 1: iid
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, iid_, msg);
+ }
+
+ // Field 2: mapping_id
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, mapping_id_, msg);
+ }
+
+ // Field 3: rel_pc
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(3, rel_pc_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/trace/track_event/task_execution.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/task_execution.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+TaskExecution::TaskExecution() = default;
+TaskExecution::~TaskExecution() = default;
+TaskExecution::TaskExecution(const TaskExecution&) = default;
+TaskExecution& TaskExecution::operator=(const TaskExecution&) = default;
+TaskExecution::TaskExecution(TaskExecution&&) noexcept = default;
+TaskExecution& TaskExecution::operator=(TaskExecution&&) = default;
+
+bool TaskExecution::operator==(const TaskExecution& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(posted_from_iid_, other.posted_from_iid_);
+}
+
+bool TaskExecution::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* posted_from_iid */:
+ field.get(&posted_from_iid_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string TaskExecution::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> TaskExecution::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void TaskExecution::Serialize(::protozero::Message* msg) const {
+ // Field 1: posted_from_iid
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, posted_from_iid_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/trace/track_event/thread_descriptor.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/thread_descriptor.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+ThreadDescriptor::ThreadDescriptor() = default;
+ThreadDescriptor::~ThreadDescriptor() = default;
+ThreadDescriptor::ThreadDescriptor(const ThreadDescriptor&) = default;
+ThreadDescriptor& ThreadDescriptor::operator=(const ThreadDescriptor&) = default;
+ThreadDescriptor::ThreadDescriptor(ThreadDescriptor&&) noexcept = default;
+ThreadDescriptor& ThreadDescriptor::operator=(ThreadDescriptor&&) = default;
+
+bool ThreadDescriptor::operator==(const ThreadDescriptor& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(pid_, other.pid_)
+ && ::protozero::internal::gen_helpers::EqualsField(tid_, other.tid_)
+ && ::protozero::internal::gen_helpers::EqualsField(thread_name_, other.thread_name_)
+ && ::protozero::internal::gen_helpers::EqualsField(chrome_thread_type_, other.chrome_thread_type_)
+ && ::protozero::internal::gen_helpers::EqualsField(reference_timestamp_us_, other.reference_timestamp_us_)
+ && ::protozero::internal::gen_helpers::EqualsField(reference_thread_time_us_, other.reference_thread_time_us_)
+ && ::protozero::internal::gen_helpers::EqualsField(reference_thread_instruction_count_, other.reference_thread_instruction_count_)
+ && ::protozero::internal::gen_helpers::EqualsField(legacy_sort_index_, other.legacy_sort_index_);
+}
+
+bool ThreadDescriptor::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* pid */:
+ field.get(&pid_);
+ break;
+ case 2 /* tid */:
+ field.get(&tid_);
+ break;
+ case 5 /* thread_name */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &thread_name_);
+ break;
+ case 4 /* chrome_thread_type */:
+ field.get(&chrome_thread_type_);
+ break;
+ case 6 /* reference_timestamp_us */:
+ field.get(&reference_timestamp_us_);
+ break;
+ case 7 /* reference_thread_time_us */:
+ field.get(&reference_thread_time_us_);
+ break;
+ case 8 /* reference_thread_instruction_count */:
+ field.get(&reference_thread_instruction_count_);
+ break;
+ case 3 /* legacy_sort_index */:
+ field.get(&legacy_sort_index_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string ThreadDescriptor::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> ThreadDescriptor::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void ThreadDescriptor::Serialize(::protozero::Message* msg) const {
+ // Field 1: pid
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, pid_, msg);
+ }
+
+ // Field 2: tid
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, tid_, msg);
+ }
+
+ // Field 5: thread_name
+ if (_has_field_[5]) {
+ ::protozero::internal::gen_helpers::SerializeString(5, thread_name_, msg);
+ }
+
+ // Field 4: chrome_thread_type
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(4, chrome_thread_type_, msg);
+ }
+
+ // Field 6: reference_timestamp_us
+ if (_has_field_[6]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(6, reference_timestamp_us_, msg);
+ }
+
+ // Field 7: reference_thread_time_us
+ if (_has_field_[7]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(7, reference_thread_time_us_, msg);
+ }
+
+ // Field 8: reference_thread_instruction_count
+ if (_has_field_[8]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(8, reference_thread_instruction_count_, msg);
+ }
+
+ // Field 3: legacy_sort_index
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(3, legacy_sort_index_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/trace/track_event/track_descriptor.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/track_descriptor.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/counter_descriptor.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/thread_descriptor.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/process_descriptor.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/chrome_thread_descriptor.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/chrome_process_descriptor.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+TrackDescriptor::TrackDescriptor() = default;
+TrackDescriptor::~TrackDescriptor() = default;
+TrackDescriptor::TrackDescriptor(const TrackDescriptor&) = default;
+TrackDescriptor& TrackDescriptor::operator=(const TrackDescriptor&) = default;
+TrackDescriptor::TrackDescriptor(TrackDescriptor&&) noexcept = default;
+TrackDescriptor& TrackDescriptor::operator=(TrackDescriptor&&) = default;
+
+bool TrackDescriptor::operator==(const TrackDescriptor& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(uuid_, other.uuid_)
+ && ::protozero::internal::gen_helpers::EqualsField(parent_uuid_, other.parent_uuid_)
+ && ::protozero::internal::gen_helpers::EqualsField(name_, other.name_)
+ && ::protozero::internal::gen_helpers::EqualsField(process_, other.process_)
+ && ::protozero::internal::gen_helpers::EqualsField(chrome_process_, other.chrome_process_)
+ && ::protozero::internal::gen_helpers::EqualsField(thread_, other.thread_)
+ && ::protozero::internal::gen_helpers::EqualsField(chrome_thread_, other.chrome_thread_)
+ && ::protozero::internal::gen_helpers::EqualsField(counter_, other.counter_)
+ && ::protozero::internal::gen_helpers::EqualsField(disallow_merging_with_system_tracks_, other.disallow_merging_with_system_tracks_);
+}
+
+bool TrackDescriptor::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* uuid */:
+ field.get(&uuid_);
+ break;
+ case 5 /* parent_uuid */:
+ field.get(&parent_uuid_);
+ break;
+ case 2 /* name */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &name_);
+ break;
+ case 3 /* process */:
+ (*process_).ParseFromArray(field.data(), field.size());
+ break;
+ case 6 /* chrome_process */:
+ (*chrome_process_).ParseFromArray(field.data(), field.size());
+ break;
+ case 4 /* thread */:
+ (*thread_).ParseFromArray(field.data(), field.size());
+ break;
+ case 7 /* chrome_thread */:
+ (*chrome_thread_).ParseFromArray(field.data(), field.size());
+ break;
+ case 8 /* counter */:
+ (*counter_).ParseFromArray(field.data(), field.size());
+ break;
+ case 9 /* disallow_merging_with_system_tracks */:
+ field.get(&disallow_merging_with_system_tracks_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string TrackDescriptor::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> TrackDescriptor::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void TrackDescriptor::Serialize(::protozero::Message* msg) const {
+ // Field 1: uuid
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, uuid_, msg);
+ }
+
+ // Field 5: parent_uuid
+ if (_has_field_[5]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(5, parent_uuid_, msg);
+ }
+
+ // Field 2: name
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeString(2, name_, msg);
+ }
+
+ // Field 3: process
+ if (_has_field_[3]) {
+ (*process_).Serialize(msg->BeginNestedMessage<::protozero::Message>(3));
+ }
+
+ // Field 6: chrome_process
+ if (_has_field_[6]) {
+ (*chrome_process_).Serialize(msg->BeginNestedMessage<::protozero::Message>(6));
+ }
+
+ // Field 4: thread
+ if (_has_field_[4]) {
+ (*thread_).Serialize(msg->BeginNestedMessage<::protozero::Message>(4));
+ }
+
+ // Field 7: chrome_thread
+ if (_has_field_[7]) {
+ (*chrome_thread_).Serialize(msg->BeginNestedMessage<::protozero::Message>(7));
+ }
+
+ // Field 8: counter
+ if (_has_field_[8]) {
+ (*counter_).Serialize(msg->BeginNestedMessage<::protozero::Message>(8));
+ }
+
+ // Field 9: disallow_merging_with_system_tracks
+ if (_has_field_[9]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(9, disallow_merging_with_system_tracks_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/trace/track_event/track_event.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/track_event.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/source_location.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/screenshot.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/pixel_modem.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/chrome_window_handle_event_info.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/chrome_user_event.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/chrome_renderer_scheduler_state.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/chrome_mojo_event_info.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/chrome_message_pump.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/chrome_legacy_ipc.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/chrome_latency_info.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/chrome_keyed_service.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/chrome_histogram_sample.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/chrome_frame_reporter.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/chrome_content_settings_event_info.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/chrome_compositor_scheduler_state.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/chrome_application_state_info.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/chrome_active_processes.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/task_execution.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/log_message.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/debug_annotation.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+EventName::EventName() = default;
+EventName::~EventName() = default;
+EventName::EventName(const EventName&) = default;
+EventName& EventName::operator=(const EventName&) = default;
+EventName::EventName(EventName&&) noexcept = default;
+EventName& EventName::operator=(EventName&&) = default;
+
+bool EventName::operator==(const EventName& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(iid_, other.iid_)
+ && ::protozero::internal::gen_helpers::EqualsField(name_, other.name_);
+}
+
+bool EventName::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* iid */:
+ field.get(&iid_);
+ break;
+ case 2 /* name */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &name_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string EventName::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> EventName::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void EventName::Serialize(::protozero::Message* msg) const {
+ // Field 1: iid
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, iid_, msg);
+ }
+
+ // Field 2: name
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeString(2, name_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+EventCategory::EventCategory() = default;
+EventCategory::~EventCategory() = default;
+EventCategory::EventCategory(const EventCategory&) = default;
+EventCategory& EventCategory::operator=(const EventCategory&) = default;
+EventCategory::EventCategory(EventCategory&&) noexcept = default;
+EventCategory& EventCategory::operator=(EventCategory&&) = default;
+
+bool EventCategory::operator==(const EventCategory& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(iid_, other.iid_)
+ && ::protozero::internal::gen_helpers::EqualsField(name_, other.name_);
+}
+
+bool EventCategory::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* iid */:
+ field.get(&iid_);
+ break;
+ case 2 /* name */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &name_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string EventCategory::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> EventCategory::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void EventCategory::Serialize(::protozero::Message* msg) const {
+ // Field 1: iid
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, iid_, msg);
+ }
+
+ // Field 2: name
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeString(2, name_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+TrackEventDefaults::TrackEventDefaults() = default;
+TrackEventDefaults::~TrackEventDefaults() = default;
+TrackEventDefaults::TrackEventDefaults(const TrackEventDefaults&) = default;
+TrackEventDefaults& TrackEventDefaults::operator=(const TrackEventDefaults&) = default;
+TrackEventDefaults::TrackEventDefaults(TrackEventDefaults&&) noexcept = default;
+TrackEventDefaults& TrackEventDefaults::operator=(TrackEventDefaults&&) = default;
+
+bool TrackEventDefaults::operator==(const TrackEventDefaults& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(track_uuid_, other.track_uuid_)
+ && ::protozero::internal::gen_helpers::EqualsField(extra_counter_track_uuids_, other.extra_counter_track_uuids_)
+ && ::protozero::internal::gen_helpers::EqualsField(extra_double_counter_track_uuids_, other.extra_double_counter_track_uuids_);
+}
+
+bool TrackEventDefaults::ParseFromArray(const void* raw, size_t size) {
+ extra_counter_track_uuids_.clear();
+ extra_double_counter_track_uuids_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 11 /* track_uuid */:
+ field.get(&track_uuid_);
+ break;
+ case 31 /* extra_counter_track_uuids */:
+ extra_counter_track_uuids_.emplace_back();
+ field.get(&extra_counter_track_uuids_.back());
+ break;
+ case 45 /* extra_double_counter_track_uuids */:
+ extra_double_counter_track_uuids_.emplace_back();
+ field.get(&extra_double_counter_track_uuids_.back());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string TrackEventDefaults::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> TrackEventDefaults::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void TrackEventDefaults::Serialize(::protozero::Message* msg) const {
+ // Field 11: track_uuid
+ if (_has_field_[11]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(11, track_uuid_, msg);
+ }
+
+ // Field 31: extra_counter_track_uuids
+ for (auto& it : extra_counter_track_uuids_) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(31, it, msg);
+ }
+
+ // Field 45: extra_double_counter_track_uuids
+ for (auto& it : extra_double_counter_track_uuids_) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(45, it, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+TrackEvent::TrackEvent() = default;
+TrackEvent::~TrackEvent() = default;
+TrackEvent::TrackEvent(const TrackEvent&) = default;
+TrackEvent& TrackEvent::operator=(const TrackEvent&) = default;
+TrackEvent::TrackEvent(TrackEvent&&) noexcept = default;
+TrackEvent& TrackEvent::operator=(TrackEvent&&) = default;
+
+bool TrackEvent::operator==(const TrackEvent& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(category_iids_, other.category_iids_)
+ && ::protozero::internal::gen_helpers::EqualsField(categories_, other.categories_)
+ && ::protozero::internal::gen_helpers::EqualsField(name_iid_, other.name_iid_)
+ && ::protozero::internal::gen_helpers::EqualsField(name_, other.name_)
+ && ::protozero::internal::gen_helpers::EqualsField(type_, other.type_)
+ && ::protozero::internal::gen_helpers::EqualsField(track_uuid_, other.track_uuid_)
+ && ::protozero::internal::gen_helpers::EqualsField(counter_value_, other.counter_value_)
+ && ::protozero::internal::gen_helpers::EqualsField(double_counter_value_, other.double_counter_value_)
+ && ::protozero::internal::gen_helpers::EqualsField(extra_counter_track_uuids_, other.extra_counter_track_uuids_)
+ && ::protozero::internal::gen_helpers::EqualsField(extra_counter_values_, other.extra_counter_values_)
+ && ::protozero::internal::gen_helpers::EqualsField(extra_double_counter_track_uuids_, other.extra_double_counter_track_uuids_)
+ && ::protozero::internal::gen_helpers::EqualsField(extra_double_counter_values_, other.extra_double_counter_values_)
+ && ::protozero::internal::gen_helpers::EqualsField(flow_ids_old_, other.flow_ids_old_)
+ && ::protozero::internal::gen_helpers::EqualsField(flow_ids_, other.flow_ids_)
+ && ::protozero::internal::gen_helpers::EqualsField(terminating_flow_ids_old_, other.terminating_flow_ids_old_)
+ && ::protozero::internal::gen_helpers::EqualsField(terminating_flow_ids_, other.terminating_flow_ids_)
+ && ::protozero::internal::gen_helpers::EqualsField(debug_annotations_, other.debug_annotations_)
+ && ::protozero::internal::gen_helpers::EqualsField(task_execution_, other.task_execution_)
+ && ::protozero::internal::gen_helpers::EqualsField(log_message_, other.log_message_)
+ && ::protozero::internal::gen_helpers::EqualsField(cc_scheduler_state_, other.cc_scheduler_state_)
+ && ::protozero::internal::gen_helpers::EqualsField(chrome_user_event_, other.chrome_user_event_)
+ && ::protozero::internal::gen_helpers::EqualsField(chrome_keyed_service_, other.chrome_keyed_service_)
+ && ::protozero::internal::gen_helpers::EqualsField(chrome_legacy_ipc_, other.chrome_legacy_ipc_)
+ && ::protozero::internal::gen_helpers::EqualsField(chrome_histogram_sample_, other.chrome_histogram_sample_)
+ && ::protozero::internal::gen_helpers::EqualsField(chrome_latency_info_, other.chrome_latency_info_)
+ && ::protozero::internal::gen_helpers::EqualsField(chrome_frame_reporter_, other.chrome_frame_reporter_)
+ && ::protozero::internal::gen_helpers::EqualsField(chrome_application_state_info_, other.chrome_application_state_info_)
+ && ::protozero::internal::gen_helpers::EqualsField(chrome_renderer_scheduler_state_, other.chrome_renderer_scheduler_state_)
+ && ::protozero::internal::gen_helpers::EqualsField(chrome_window_handle_event_info_, other.chrome_window_handle_event_info_)
+ && ::protozero::internal::gen_helpers::EqualsField(chrome_content_settings_event_info_, other.chrome_content_settings_event_info_)
+ && ::protozero::internal::gen_helpers::EqualsField(chrome_active_processes_, other.chrome_active_processes_)
+ && ::protozero::internal::gen_helpers::EqualsField(screenshot_, other.screenshot_)
+ && ::protozero::internal::gen_helpers::EqualsField(pixel_modem_event_insight_, other.pixel_modem_event_insight_)
+ && ::protozero::internal::gen_helpers::EqualsField(source_location_, other.source_location_)
+ && ::protozero::internal::gen_helpers::EqualsField(source_location_iid_, other.source_location_iid_)
+ && ::protozero::internal::gen_helpers::EqualsField(chrome_message_pump_, other.chrome_message_pump_)
+ && ::protozero::internal::gen_helpers::EqualsField(chrome_mojo_event_info_, other.chrome_mojo_event_info_)
+ && ::protozero::internal::gen_helpers::EqualsField(timestamp_delta_us_, other.timestamp_delta_us_)
+ && ::protozero::internal::gen_helpers::EqualsField(timestamp_absolute_us_, other.timestamp_absolute_us_)
+ && ::protozero::internal::gen_helpers::EqualsField(thread_time_delta_us_, other.thread_time_delta_us_)
+ && ::protozero::internal::gen_helpers::EqualsField(thread_time_absolute_us_, other.thread_time_absolute_us_)
+ && ::protozero::internal::gen_helpers::EqualsField(thread_instruction_count_delta_, other.thread_instruction_count_delta_)
+ && ::protozero::internal::gen_helpers::EqualsField(thread_instruction_count_absolute_, other.thread_instruction_count_absolute_)
+ && ::protozero::internal::gen_helpers::EqualsField(legacy_event_, other.legacy_event_);
+}
+
+int TrackEvent::debug_annotations_size() const { return static_cast<int>(debug_annotations_.size()); }
+void TrackEvent::clear_debug_annotations() { debug_annotations_.clear(); }
+DebugAnnotation* TrackEvent::add_debug_annotations() { debug_annotations_.emplace_back(); return &debug_annotations_.back(); }
+bool TrackEvent::ParseFromArray(const void* raw, size_t size) {
+ category_iids_.clear();
+ categories_.clear();
+ extra_counter_track_uuids_.clear();
+ extra_counter_values_.clear();
+ extra_double_counter_track_uuids_.clear();
+ extra_double_counter_values_.clear();
+ flow_ids_old_.clear();
+ flow_ids_.clear();
+ terminating_flow_ids_old_.clear();
+ terminating_flow_ids_.clear();
+ debug_annotations_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 3 /* category_iids */:
+ category_iids_.emplace_back();
+ field.get(&category_iids_.back());
+ break;
+ case 22 /* categories */:
+ categories_.emplace_back();
+ ::protozero::internal::gen_helpers::DeserializeString(field, &categories_.back());
+ break;
+ case 10 /* name_iid */:
+ field.get(&name_iid_);
+ break;
+ case 23 /* name */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &name_);
+ break;
+ case 9 /* type */:
+ field.get(&type_);
+ break;
+ case 11 /* track_uuid */:
+ field.get(&track_uuid_);
+ break;
+ case 30 /* counter_value */:
+ field.get(&counter_value_);
+ break;
+ case 44 /* double_counter_value */:
+ field.get(&double_counter_value_);
+ break;
+ case 31 /* extra_counter_track_uuids */:
+ extra_counter_track_uuids_.emplace_back();
+ field.get(&extra_counter_track_uuids_.back());
+ break;
+ case 12 /* extra_counter_values */:
+ extra_counter_values_.emplace_back();
+ field.get(&extra_counter_values_.back());
+ break;
+ case 45 /* extra_double_counter_track_uuids */:
+ extra_double_counter_track_uuids_.emplace_back();
+ field.get(&extra_double_counter_track_uuids_.back());
+ break;
+ case 46 /* extra_double_counter_values */:
+ extra_double_counter_values_.emplace_back();
+ field.get(&extra_double_counter_values_.back());
+ break;
+ case 36 /* flow_ids_old */:
+ flow_ids_old_.emplace_back();
+ field.get(&flow_ids_old_.back());
+ break;
+ case 47 /* flow_ids */:
+ flow_ids_.emplace_back();
+ field.get(&flow_ids_.back());
+ break;
+ case 42 /* terminating_flow_ids_old */:
+ terminating_flow_ids_old_.emplace_back();
+ field.get(&terminating_flow_ids_old_.back());
+ break;
+ case 48 /* terminating_flow_ids */:
+ terminating_flow_ids_.emplace_back();
+ field.get(&terminating_flow_ids_.back());
+ break;
+ case 4 /* debug_annotations */:
+ debug_annotations_.emplace_back();
+ debug_annotations_.back().ParseFromArray(field.data(), field.size());
+ break;
+ case 5 /* task_execution */:
+ (*task_execution_).ParseFromArray(field.data(), field.size());
+ break;
+ case 21 /* log_message */:
+ (*log_message_).ParseFromArray(field.data(), field.size());
+ break;
+ case 24 /* cc_scheduler_state */:
+ (*cc_scheduler_state_).ParseFromArray(field.data(), field.size());
+ break;
+ case 25 /* chrome_user_event */:
+ (*chrome_user_event_).ParseFromArray(field.data(), field.size());
+ break;
+ case 26 /* chrome_keyed_service */:
+ (*chrome_keyed_service_).ParseFromArray(field.data(), field.size());
+ break;
+ case 27 /* chrome_legacy_ipc */:
+ (*chrome_legacy_ipc_).ParseFromArray(field.data(), field.size());
+ break;
+ case 28 /* chrome_histogram_sample */:
+ (*chrome_histogram_sample_).ParseFromArray(field.data(), field.size());
+ break;
+ case 29 /* chrome_latency_info */:
+ (*chrome_latency_info_).ParseFromArray(field.data(), field.size());
+ break;
+ case 32 /* chrome_frame_reporter */:
+ (*chrome_frame_reporter_).ParseFromArray(field.data(), field.size());
+ break;
+ case 39 /* chrome_application_state_info */:
+ (*chrome_application_state_info_).ParseFromArray(field.data(), field.size());
+ break;
+ case 40 /* chrome_renderer_scheduler_state */:
+ (*chrome_renderer_scheduler_state_).ParseFromArray(field.data(), field.size());
+ break;
+ case 41 /* chrome_window_handle_event_info */:
+ (*chrome_window_handle_event_info_).ParseFromArray(field.data(), field.size());
+ break;
+ case 43 /* chrome_content_settings_event_info */:
+ (*chrome_content_settings_event_info_).ParseFromArray(field.data(), field.size());
+ break;
+ case 49 /* chrome_active_processes */:
+ (*chrome_active_processes_).ParseFromArray(field.data(), field.size());
+ break;
+ case 50 /* screenshot */:
+ (*screenshot_).ParseFromArray(field.data(), field.size());
+ break;
+ case 51 /* pixel_modem_event_insight */:
+ (*pixel_modem_event_insight_).ParseFromArray(field.data(), field.size());
+ break;
+ case 33 /* source_location */:
+ (*source_location_).ParseFromArray(field.data(), field.size());
+ break;
+ case 34 /* source_location_iid */:
+ field.get(&source_location_iid_);
+ break;
+ case 35 /* chrome_message_pump */:
+ (*chrome_message_pump_).ParseFromArray(field.data(), field.size());
+ break;
+ case 38 /* chrome_mojo_event_info */:
+ (*chrome_mojo_event_info_).ParseFromArray(field.data(), field.size());
+ break;
+ case 1 /* timestamp_delta_us */:
+ field.get(&timestamp_delta_us_);
+ break;
+ case 16 /* timestamp_absolute_us */:
+ field.get(&timestamp_absolute_us_);
+ break;
+ case 2 /* thread_time_delta_us */:
+ field.get(&thread_time_delta_us_);
+ break;
+ case 17 /* thread_time_absolute_us */:
+ field.get(&thread_time_absolute_us_);
+ break;
+ case 8 /* thread_instruction_count_delta */:
+ field.get(&thread_instruction_count_delta_);
+ break;
+ case 20 /* thread_instruction_count_absolute */:
+ field.get(&thread_instruction_count_absolute_);
+ break;
+ case 6 /* legacy_event */:
+ (*legacy_event_).ParseFromArray(field.data(), field.size());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string TrackEvent::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> TrackEvent::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void TrackEvent::Serialize(::protozero::Message* msg) const {
+ // Field 3: category_iids
+ for (auto& it : category_iids_) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(3, it, msg);
+ }
+
+ // Field 22: categories
+ for (auto& it : categories_) {
+ ::protozero::internal::gen_helpers::SerializeString(22, it, msg);
+ }
+
+ // Field 10: name_iid
+ if (_has_field_[10]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(10, name_iid_, msg);
+ }
+
+ // Field 23: name
+ if (_has_field_[23]) {
+ ::protozero::internal::gen_helpers::SerializeString(23, name_, msg);
+ }
+
+ // Field 9: type
+ if (_has_field_[9]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(9, type_, msg);
+ }
+
+ // Field 11: track_uuid
+ if (_has_field_[11]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(11, track_uuid_, msg);
+ }
+
+ // Field 30: counter_value
+ if (_has_field_[30]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(30, counter_value_, msg);
+ }
+
+ // Field 44: double_counter_value
+ if (_has_field_[44]) {
+ ::protozero::internal::gen_helpers::SerializeFixed(44, double_counter_value_, msg);
+ }
+
+ // Field 31: extra_counter_track_uuids
+ for (auto& it : extra_counter_track_uuids_) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(31, it, msg);
+ }
+
+ // Field 12: extra_counter_values
+ for (auto& it : extra_counter_values_) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(12, it, msg);
+ }
+
+ // Field 45: extra_double_counter_track_uuids
+ for (auto& it : extra_double_counter_track_uuids_) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(45, it, msg);
+ }
+
+ // Field 46: extra_double_counter_values
+ for (auto& it : extra_double_counter_values_) {
+ ::protozero::internal::gen_helpers::SerializeFixed(46, it, msg);
+ }
+
+ // Field 36: flow_ids_old
+ for (auto& it : flow_ids_old_) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(36, it, msg);
+ }
+
+ // Field 47: flow_ids
+ for (auto& it : flow_ids_) {
+ ::protozero::internal::gen_helpers::SerializeFixed(47, it, msg);
+ }
+
+ // Field 42: terminating_flow_ids_old
+ for (auto& it : terminating_flow_ids_old_) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(42, it, msg);
+ }
+
+ // Field 48: terminating_flow_ids
+ for (auto& it : terminating_flow_ids_) {
+ ::protozero::internal::gen_helpers::SerializeFixed(48, it, msg);
+ }
+
+ // Field 4: debug_annotations
+ for (auto& it : debug_annotations_) {
+ it.Serialize(msg->BeginNestedMessage<::protozero::Message>(4));
+ }
+
+ // Field 5: task_execution
+ if (_has_field_[5]) {
+ (*task_execution_).Serialize(msg->BeginNestedMessage<::protozero::Message>(5));
+ }
+
+ // Field 21: log_message
+ if (_has_field_[21]) {
+ (*log_message_).Serialize(msg->BeginNestedMessage<::protozero::Message>(21));
+ }
+
+ // Field 24: cc_scheduler_state
+ if (_has_field_[24]) {
+ (*cc_scheduler_state_).Serialize(msg->BeginNestedMessage<::protozero::Message>(24));
+ }
+
+ // Field 25: chrome_user_event
+ if (_has_field_[25]) {
+ (*chrome_user_event_).Serialize(msg->BeginNestedMessage<::protozero::Message>(25));
+ }
+
+ // Field 26: chrome_keyed_service
+ if (_has_field_[26]) {
+ (*chrome_keyed_service_).Serialize(msg->BeginNestedMessage<::protozero::Message>(26));
+ }
+
+ // Field 27: chrome_legacy_ipc
+ if (_has_field_[27]) {
+ (*chrome_legacy_ipc_).Serialize(msg->BeginNestedMessage<::protozero::Message>(27));
+ }
+
+ // Field 28: chrome_histogram_sample
+ if (_has_field_[28]) {
+ (*chrome_histogram_sample_).Serialize(msg->BeginNestedMessage<::protozero::Message>(28));
+ }
+
+ // Field 29: chrome_latency_info
+ if (_has_field_[29]) {
+ (*chrome_latency_info_).Serialize(msg->BeginNestedMessage<::protozero::Message>(29));
+ }
+
+ // Field 32: chrome_frame_reporter
+ if (_has_field_[32]) {
+ (*chrome_frame_reporter_).Serialize(msg->BeginNestedMessage<::protozero::Message>(32));
+ }
+
+ // Field 39: chrome_application_state_info
+ if (_has_field_[39]) {
+ (*chrome_application_state_info_).Serialize(msg->BeginNestedMessage<::protozero::Message>(39));
+ }
+
+ // Field 40: chrome_renderer_scheduler_state
+ if (_has_field_[40]) {
+ (*chrome_renderer_scheduler_state_).Serialize(msg->BeginNestedMessage<::protozero::Message>(40));
+ }
+
+ // Field 41: chrome_window_handle_event_info
+ if (_has_field_[41]) {
+ (*chrome_window_handle_event_info_).Serialize(msg->BeginNestedMessage<::protozero::Message>(41));
+ }
+
+ // Field 43: chrome_content_settings_event_info
+ if (_has_field_[43]) {
+ (*chrome_content_settings_event_info_).Serialize(msg->BeginNestedMessage<::protozero::Message>(43));
+ }
+
+ // Field 49: chrome_active_processes
+ if (_has_field_[49]) {
+ (*chrome_active_processes_).Serialize(msg->BeginNestedMessage<::protozero::Message>(49));
+ }
+
+ // Field 50: screenshot
+ if (_has_field_[50]) {
+ (*screenshot_).Serialize(msg->BeginNestedMessage<::protozero::Message>(50));
+ }
+
+ // Field 51: pixel_modem_event_insight
+ if (_has_field_[51]) {
+ (*pixel_modem_event_insight_).Serialize(msg->BeginNestedMessage<::protozero::Message>(51));
+ }
+
+ // Field 33: source_location
+ if (_has_field_[33]) {
+ (*source_location_).Serialize(msg->BeginNestedMessage<::protozero::Message>(33));
+ }
+
+ // Field 34: source_location_iid
+ if (_has_field_[34]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(34, source_location_iid_, msg);
+ }
+
+ // Field 35: chrome_message_pump
+ if (_has_field_[35]) {
+ (*chrome_message_pump_).Serialize(msg->BeginNestedMessage<::protozero::Message>(35));
+ }
+
+ // Field 38: chrome_mojo_event_info
+ if (_has_field_[38]) {
+ (*chrome_mojo_event_info_).Serialize(msg->BeginNestedMessage<::protozero::Message>(38));
+ }
+
+ // Field 1: timestamp_delta_us
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, timestamp_delta_us_, msg);
+ }
+
+ // Field 16: timestamp_absolute_us
+ if (_has_field_[16]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(16, timestamp_absolute_us_, msg);
+ }
+
+ // Field 2: thread_time_delta_us
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, thread_time_delta_us_, msg);
+ }
+
+ // Field 17: thread_time_absolute_us
+ if (_has_field_[17]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(17, thread_time_absolute_us_, msg);
+ }
+
+ // Field 8: thread_instruction_count_delta
+ if (_has_field_[8]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(8, thread_instruction_count_delta_, msg);
+ }
+
+ // Field 20: thread_instruction_count_absolute
+ if (_has_field_[20]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(20, thread_instruction_count_absolute_, msg);
+ }
+
+ // Field 6: legacy_event
+ if (_has_field_[6]) {
+ (*legacy_event_).Serialize(msg->BeginNestedMessage<::protozero::Message>(6));
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+TrackEvent_LegacyEvent::TrackEvent_LegacyEvent() = default;
+TrackEvent_LegacyEvent::~TrackEvent_LegacyEvent() = default;
+TrackEvent_LegacyEvent::TrackEvent_LegacyEvent(const TrackEvent_LegacyEvent&) = default;
+TrackEvent_LegacyEvent& TrackEvent_LegacyEvent::operator=(const TrackEvent_LegacyEvent&) = default;
+TrackEvent_LegacyEvent::TrackEvent_LegacyEvent(TrackEvent_LegacyEvent&&) noexcept = default;
+TrackEvent_LegacyEvent& TrackEvent_LegacyEvent::operator=(TrackEvent_LegacyEvent&&) = default;
+
+bool TrackEvent_LegacyEvent::operator==(const TrackEvent_LegacyEvent& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(name_iid_, other.name_iid_)
+ && ::protozero::internal::gen_helpers::EqualsField(phase_, other.phase_)
+ && ::protozero::internal::gen_helpers::EqualsField(duration_us_, other.duration_us_)
+ && ::protozero::internal::gen_helpers::EqualsField(thread_duration_us_, other.thread_duration_us_)
+ && ::protozero::internal::gen_helpers::EqualsField(thread_instruction_delta_, other.thread_instruction_delta_)
+ && ::protozero::internal::gen_helpers::EqualsField(unscoped_id_, other.unscoped_id_)
+ && ::protozero::internal::gen_helpers::EqualsField(local_id_, other.local_id_)
+ && ::protozero::internal::gen_helpers::EqualsField(global_id_, other.global_id_)
+ && ::protozero::internal::gen_helpers::EqualsField(id_scope_, other.id_scope_)
+ && ::protozero::internal::gen_helpers::EqualsField(use_async_tts_, other.use_async_tts_)
+ && ::protozero::internal::gen_helpers::EqualsField(bind_id_, other.bind_id_)
+ && ::protozero::internal::gen_helpers::EqualsField(bind_to_enclosing_, other.bind_to_enclosing_)
+ && ::protozero::internal::gen_helpers::EqualsField(flow_direction_, other.flow_direction_)
+ && ::protozero::internal::gen_helpers::EqualsField(instant_event_scope_, other.instant_event_scope_)
+ && ::protozero::internal::gen_helpers::EqualsField(pid_override_, other.pid_override_)
+ && ::protozero::internal::gen_helpers::EqualsField(tid_override_, other.tid_override_);
+}
+
+bool TrackEvent_LegacyEvent::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* name_iid */:
+ field.get(&name_iid_);
+ break;
+ case 2 /* phase */:
+ field.get(&phase_);
+ break;
+ case 3 /* duration_us */:
+ field.get(&duration_us_);
+ break;
+ case 4 /* thread_duration_us */:
+ field.get(&thread_duration_us_);
+ break;
+ case 15 /* thread_instruction_delta */:
+ field.get(&thread_instruction_delta_);
+ break;
+ case 6 /* unscoped_id */:
+ field.get(&unscoped_id_);
+ break;
+ case 10 /* local_id */:
+ field.get(&local_id_);
+ break;
+ case 11 /* global_id */:
+ field.get(&global_id_);
+ break;
+ case 7 /* id_scope */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &id_scope_);
+ break;
+ case 9 /* use_async_tts */:
+ field.get(&use_async_tts_);
+ break;
+ case 8 /* bind_id */:
+ field.get(&bind_id_);
+ break;
+ case 12 /* bind_to_enclosing */:
+ field.get(&bind_to_enclosing_);
+ break;
+ case 13 /* flow_direction */:
+ field.get(&flow_direction_);
+ break;
+ case 14 /* instant_event_scope */:
+ field.get(&instant_event_scope_);
+ break;
+ case 18 /* pid_override */:
+ field.get(&pid_override_);
+ break;
+ case 19 /* tid_override */:
+ field.get(&tid_override_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string TrackEvent_LegacyEvent::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> TrackEvent_LegacyEvent::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void TrackEvent_LegacyEvent::Serialize(::protozero::Message* msg) const {
+ // Field 1: name_iid
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, name_iid_, msg);
+ }
+
+ // Field 2: phase
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, phase_, msg);
+ }
+
+ // Field 3: duration_us
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(3, duration_us_, msg);
+ }
+
+ // Field 4: thread_duration_us
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(4, thread_duration_us_, msg);
+ }
+
+ // Field 15: thread_instruction_delta
+ if (_has_field_[15]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(15, thread_instruction_delta_, msg);
+ }
+
+ // Field 6: unscoped_id
+ if (_has_field_[6]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(6, unscoped_id_, msg);
+ }
+
+ // Field 10: local_id
+ if (_has_field_[10]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(10, local_id_, msg);
+ }
+
+ // Field 11: global_id
+ if (_has_field_[11]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(11, global_id_, msg);
+ }
+
+ // Field 7: id_scope
+ if (_has_field_[7]) {
+ ::protozero::internal::gen_helpers::SerializeString(7, id_scope_, msg);
+ }
+
+ // Field 9: use_async_tts
+ if (_has_field_[9]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(9, use_async_tts_, msg);
+ }
+
+ // Field 8: bind_id
+ if (_has_field_[8]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(8, bind_id_, msg);
+ }
+
+ // Field 12: bind_to_enclosing
+ if (_has_field_[12]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(12, bind_to_enclosing_, msg);
+ }
+
+ // Field 13: flow_direction
+ if (_has_field_[13]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(13, flow_direction_, msg);
+ }
+
+ // Field 14: instant_event_scope
+ if (_has_field_[14]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(14, instant_event_scope_, msg);
+ }
+
+ // Field 18: pid_override
+ if (_has_field_[18]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(18, pid_override_, msg);
+ }
+
+ // Field 19: tid_override
+ if (_has_field_[19]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(19, tid_override_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/config/android/android_game_intervention_list_config.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/config/android/android_input_event_config.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/config/android/android_log_config.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/config/android/android_polled_state_config.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/config/android/android_sdk_sysprop_guard_config.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/config/android/android_system_property_config.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/config/android/network_trace_config.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/config/android/packages_list_config.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/config/android/protolog_config.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/config/android/surfaceflinger_layers_config.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/config/android/surfaceflinger_transactions_config.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/config/ftrace/ftrace_config.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/config/gpu/gpu_counter_config.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/config/gpu/vulkan_memory_config.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/config/inode_file/inode_file_config.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/config/interceptors/console_config.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/config/power/android_power_config.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/config/process_stats/process_stats_config.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/config/profiling/heapprofd_config.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/config/profiling/java_hprof_config.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/config/profiling/perf_event_config.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/config/statsd/atom_ids.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/config/statsd/statsd_tracing_config.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/config/sys_stats/sys_stats_config.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/config/system_info/system_info.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/config/track_event/track_event_config.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/config/chrome/chrome_config.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/config/chrome/scenario_config.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/config/chrome/v8_config.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/config/data_source_config.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/config/etw/etw_config.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/config/interceptor_config.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/config/stress_test_config.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/config/test_config.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/config/trace_config.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/clock_snapshot.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/trace_uuid.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/trigger.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/system_info.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/etw/etw.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/etw/etw_event.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/etw/etw_event_bundle.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/filesystem/inode_file_map.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/ftrace_event.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/ftrace_event_bundle.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/ftrace_stats.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/test_bundle_wrapper.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/generic.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/android_fs.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/binder.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/block.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/cgroup.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/clk.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/cma.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/compaction.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/cpuhp.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/cros_ec.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/dma_fence.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/dmabuf_heap.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/dpu.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/drm.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/ext4.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/f2fs.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/fastrpc.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/fence.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/filemap.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/ftrace.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/g2d.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/gpu_mem.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/gpu_scheduler.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/hyp.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/i2c.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/ion.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/ipi.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/irq.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/kmem.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/kvm.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/lowmemorykiller.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/lwis.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/mali.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/mdss.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/mm_event.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/net.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/oom.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/panel.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/perf_trace_counters.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/power.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/printk.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/raw_syscalls.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/regulator.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/rpm.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/samsung.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/sched.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/scm.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/sde.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/signal.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/skb.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/sock.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/sync.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/synthetic.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/systrace.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/task.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/tcp.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/thermal.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/trusty.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/ufs.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/v4l2.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/virtio_gpu.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/virtio_video.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/vmscan.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ftrace/workqueue.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/perfetto/perfetto_metatrace.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/perfetto/tracing_service_event.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/power/android_energy_estimation_breakdown.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/power/android_entity_state_residency.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/power/battery_counters.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/power/power_rails.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ps/process_stats.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ps/process_tree.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/statsd/statsd_atom.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/sys_stats/sys_stats.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/system_info/cpu_info.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/translation/translation_table.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/remote_clock_sync.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/trace_packet_defaults.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/test_event.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/test_extensions.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/trace_packet.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/trace.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/extension_descriptor.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/memory_graph.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: gen/protos/perfetto/trace/ui_state.pbzero.cc
+// Intentionally empty (crbug.com/998165)
+// gen_amalgamated begin source: src/tracing/trace_writer_base.cc
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/tracing/trace_writer_base.h"
+
+namespace perfetto {
+
+// This destructor needs to be defined in a dedicated translation unit and
+// cannot be merged together with the other ones in virtual_destructors.cc.
+// This is because trace_writer_base.h/cc is part of a separate target
+// (src/public:common) that is linked also by other part of the codebase.
+
+TraceWriterBase::~TraceWriterBase() = default;
+
+} // namespace perfetto
+// gen_amalgamated begin source: src/tracing/core/clock_snapshots.cc
+// gen_amalgamated begin header: include/perfetto/tracing/core/clock_snapshots.h
+/*
+ * Copyright (C) 2024 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_TRACING_CORE_CLOCK_SNAPSHOTS_H_
+#define INCLUDE_PERFETTO_TRACING_CORE_CLOCK_SNAPSHOTS_H_
+
+#include <cstdint>
+#include <vector>
+
+namespace perfetto {
+struct ClockReading {
+ ClockReading(uint32_t _clock_id, uint64_t _timestamp)
+ : clock_id(_clock_id), timestamp(_timestamp) {}
+ ClockReading() = default;
+
+ // Identifier of the clock domain (of type protos::pbzero::BuiltinClock).
+ uint32_t clock_id = 0;
+ // Clock reading as uint64_t.
+ uint64_t timestamp = 0;
+};
+
+using ClockSnapshotVector = std::vector<ClockReading>;
+
+// Takes snapshots of clock readings of all supported built-in clocks.
+ClockSnapshotVector CaptureClockSnapshots();
+
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_TRACING_CORE_CLOCK_SNAPSHOTS_H_
+/*
+ * Copyright (C) 2024 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/tracing/core/clock_snapshots.h"
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+// gen_amalgamated expanded: #include "perfetto/base/time.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/builtin_clock.pbzero.h"
+
+namespace perfetto {
+
+ClockSnapshotVector CaptureClockSnapshots() {
+ ClockSnapshotVector snapshot_data;
+#if !PERFETTO_BUILDFLAG(PERFETTO_OS_APPLE) && \
+ !PERFETTO_BUILDFLAG(PERFETTO_OS_WIN) && \
+ !PERFETTO_BUILDFLAG(PERFETTO_OS_NACL)
+ struct {
+ clockid_t id;
+ protos::pbzero::BuiltinClock type;
+ struct timespec ts;
+ } clocks[] = {
+ {CLOCK_BOOTTIME, protos::pbzero::BUILTIN_CLOCK_BOOTTIME, {0, 0}},
+ {CLOCK_REALTIME_COARSE,
+ protos::pbzero::BUILTIN_CLOCK_REALTIME_COARSE,
+ {0, 0}},
+ {CLOCK_MONOTONIC_COARSE,
+ protos::pbzero::BUILTIN_CLOCK_MONOTONIC_COARSE,
+ {0, 0}},
+ {CLOCK_REALTIME, protos::pbzero::BUILTIN_CLOCK_REALTIME, {0, 0}},
+ {CLOCK_MONOTONIC, protos::pbzero::BUILTIN_CLOCK_MONOTONIC, {0, 0}},
+ {CLOCK_MONOTONIC_RAW,
+ protos::pbzero::BUILTIN_CLOCK_MONOTONIC_RAW,
+ {0, 0}},
+ };
+ // First snapshot all the clocks as atomically as we can.
+ for (auto& clock : clocks) {
+ if (clock_gettime(clock.id, &clock.ts) == -1)
+ PERFETTO_DLOG("clock_gettime failed for clock %d", clock.id);
+ }
+ for (auto& clock : clocks) {
+ snapshot_data.push_back(ClockReading(
+ static_cast<uint32_t>(clock.type),
+ static_cast<uint64_t>(base::FromPosixTimespec(clock.ts).count())));
+ }
+#else // OS_APPLE || OS_WIN && OS_NACL
+ auto wall_time_ns = static_cast<uint64_t>(base::GetWallTimeNs().count());
+ // The default trace clock is boot time, so we always need to emit a path to
+ // it. However since we don't actually have a boot time source on these
+ // platforms, pretend that wall time equals boot time.
+ snapshot_data.push_back(
+ ClockReading(protos::pbzero::BUILTIN_CLOCK_BOOTTIME, wall_time_ns));
+ snapshot_data.push_back(
+ ClockReading(protos::pbzero::BUILTIN_CLOCK_MONOTONIC, wall_time_ns));
+#endif
+
+ return snapshot_data;
+}
+
+} // namespace perfetto
+// gen_amalgamated begin source: src/tracing/core/id_allocator.cc
+// gen_amalgamated begin header: src/tracing/core/id_allocator.h
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef SRC_TRACING_CORE_ID_ALLOCATOR_H_
+#define SRC_TRACING_CORE_ID_ALLOCATOR_H_
+
+#include <stdint.h>
+
+#include <type_traits>
+#include <vector>
+
+namespace perfetto {
+
+// Handles assigment of IDs (int types) from a fixed-size pool.
+// Zero is not considered a valid ID.
+// The base class takes always a uint32_t and the derived class casts and checks
+// bounds at compile time. This is to avoid bloating code with different
+// instances of the main class for each size.
+class IdAllocatorGeneric {
+ public:
+ // |max_id| is inclusive.
+ explicit IdAllocatorGeneric(uint32_t max_id);
+ ~IdAllocatorGeneric();
+
+ // Returns an ID in the range [1, max_id] or 0 if no more ids are available.
+ uint32_t AllocateGeneric();
+ void FreeGeneric(uint32_t);
+
+ bool IsEmpty() const;
+
+ private:
+ IdAllocatorGeneric(const IdAllocatorGeneric&) = delete;
+ IdAllocatorGeneric& operator=(const IdAllocatorGeneric&) = delete;
+
+ const uint32_t max_id_;
+ uint32_t last_id_ = 0;
+ std::vector<bool> ids_;
+};
+
+template <typename T = uint32_t>
+class IdAllocator : public IdAllocatorGeneric {
+ public:
+ explicit IdAllocator(T end) : IdAllocatorGeneric(end) {
+ static_assert(std::is_integral<T>::value && std::is_unsigned<T>::value,
+ "T must be an unsigned integer");
+ static_assert(sizeof(T) <= sizeof(uint32_t), "T is too big");
+ }
+
+ T Allocate() { return static_cast<T>(AllocateGeneric()); }
+
+ // Tries to allocate `n` IDs. Returns a vector of `n` valid IDs or an empty
+ // vector, if not enough IDs are available.
+ std::vector<T> AllocateMultiple(size_t n) {
+ std::vector<T> res;
+ res.reserve(n);
+ for (size_t i = 0; i < n; i++) {
+ T id = Allocate();
+ if (id) {
+ res.push_back(id);
+ } else {
+ for (T free_id : res) {
+ Free(free_id);
+ }
+ return {};
+ }
+ }
+ return res;
+ }
+
+ void Free(T id) { FreeGeneric(id); }
+};
+
+} // namespace perfetto
+
+#endif // SRC_TRACING_CORE_ID_ALLOCATOR_H_
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "src/tracing/core/id_allocator.h"
+
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+
+namespace perfetto {
+
+IdAllocatorGeneric::IdAllocatorGeneric(uint32_t max_id) : max_id_(max_id) {
+ PERFETTO_DCHECK(max_id > 1);
+}
+
+IdAllocatorGeneric::~IdAllocatorGeneric() = default;
+
+uint32_t IdAllocatorGeneric::AllocateGeneric() {
+ for (uint32_t ignored = 1; ignored <= max_id_; ignored++) {
+ last_id_ = last_id_ < max_id_ ? last_id_ + 1 : 1;
+ const auto id = last_id_;
+
+ // 0 is never a valid ID. So if we are looking for |id| == N and there are
+ // N or less elements in the vector, they must necessarily be all < N.
+ // e.g. if |id| == 4 and size() == 4, the vector will contain IDs 0,1,2,3.
+ if (id >= ids_.size()) {
+ ids_.resize(id + 1);
+ ids_[id] = true;
+ return id;
+ }
+
+ if (!ids_[id]) {
+ ids_[id] = true;
+ return id;
+ }
+ }
+ return 0;
+}
+
+void IdAllocatorGeneric::FreeGeneric(uint32_t id) {
+ if (id == 0 || id >= ids_.size() || !ids_[id]) {
+ PERFETTO_DFATAL("Invalid id.");
+ return;
+ }
+ ids_[id] = false;
+}
+
+bool IdAllocatorGeneric::IsEmpty() const {
+ for (auto id : ids_) {
+ if (id)
+ return false;
+ }
+ return true;
+}
+
+} // namespace perfetto
+// gen_amalgamated begin source: src/tracing/core/in_process_shared_memory.cc
+// gen_amalgamated begin header: src/tracing/core/in_process_shared_memory.h
+// gen_amalgamated begin header: include/perfetto/ext/tracing/core/shared_memory.h
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_TRACING_CORE_SHARED_MEMORY_H_
+#define INCLUDE_PERFETTO_EXT_TRACING_CORE_SHARED_MEMORY_H_
+
+#include <stddef.h>
+
+#include <memory>
+
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+// gen_amalgamated expanded: #include "perfetto/base/platform_handle.h"
+
+namespace perfetto {
+
+// An abstract interface that models the shared memory region shared between
+// Service and Producer. The concrete implementation of this is up to the
+// transport layer. This can be as simple as a malloc()-ed buffer, if both
+// Producer and Service are hosted in the same process, or some posix shared
+// memory for the out-of-process case (see src/unix_rpc).
+// Both this class and the Factory are subclassed by the transport layer, which
+// will attach platform specific fields to it (e.g., a unix file descriptor).
+class PERFETTO_EXPORT_COMPONENT SharedMemory {
+ public:
+ class PERFETTO_EXPORT_COMPONENT Factory {
+ public:
+ virtual ~Factory();
+ virtual std::unique_ptr<SharedMemory> CreateSharedMemory(size_t) = 0;
+ };
+
+ // The transport layer is expected to tear down the resource associated to
+ // this object region when destroyed.
+ virtual ~SharedMemory();
+
+ virtual void* start() const = 0;
+ virtual size_t size() const = 0;
+};
+
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_TRACING_CORE_SHARED_MEMORY_H_
+/*
+ * Copyright (C) 2023 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef SRC_TRACING_CORE_IN_PROCESS_SHARED_MEMORY_H_
+#define SRC_TRACING_CORE_IN_PROCESS_SHARED_MEMORY_H_
+
+#include <memory>
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/paged_memory.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/shared_memory.h"
+
+namespace perfetto {
+
+// An implementation of the ShareMemory interface that allocates memory that can
+// only be shared intra-process.
+class InProcessSharedMemory : public SharedMemory {
+ public:
+ static constexpr size_t kDefaultSize = 128 * 1024;
+
+ // Default ctor used for intra-process shmem between a producer and the
+ // service.
+ explicit InProcessSharedMemory(size_t size)
+ : mem_(base::PagedMemory::Allocate(size)) {}
+ ~InProcessSharedMemory() override;
+
+ static std::unique_ptr<InProcessSharedMemory> Create(
+ size_t size = kDefaultSize) {
+ return std::make_unique<InProcessSharedMemory>(size);
+ }
+
+ // SharedMemory implementation.
+ void* start() const override;
+ size_t size() const override;
+
+ class Factory : public SharedMemory::Factory {
+ public:
+ ~Factory() override;
+ std::unique_ptr<SharedMemory> CreateSharedMemory(size_t size) override {
+ return InProcessSharedMemory::Create(size);
+ }
+ };
+
+ private:
+ base::PagedMemory mem_;
+};
+
+} // namespace perfetto
+
+#endif // SRC_TRACING_CORE_IN_PROCESS_SHARED_MEMORY_H_
+/*
+ * Copyright (C) 2023 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "src/tracing/core/in_process_shared_memory.h"
+
+namespace perfetto {
+
+InProcessSharedMemory::~InProcessSharedMemory() = default;
+InProcessSharedMemory::Factory::~Factory() = default;
+
+void* InProcessSharedMemory::start() const {
+ return mem_.Get();
+}
+size_t InProcessSharedMemory::size() const {
+ return mem_.size();
+}
+
+} // namespace perfetto
+// gen_amalgamated begin source: src/tracing/core/null_trace_writer.cc
+// gen_amalgamated begin header: src/tracing/core/null_trace_writer.h
+// gen_amalgamated begin header: include/perfetto/ext/tracing/core/trace_writer.h
+// gen_amalgamated begin header: include/perfetto/ext/tracing/core/basic_types.h
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_TRACING_CORE_BASIC_TYPES_H_
+#define INCLUDE_PERFETTO_EXT_TRACING_CORE_BASIC_TYPES_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/sys_types.h"
+
+namespace perfetto {
+
+// Unique within the scope of the tracing service.
+using TracingSessionID = uint64_t;
+
+// Unique within the scope of the tracing service.
+using ProducerID = uint16_t;
+
+// Unique within the scope of the tracing service.
+using DataSourceInstanceID = uint64_t;
+
+// Unique within the scope of a Producer.
+using WriterID = uint16_t;
+
+// Unique within the scope of the tracing service.
+using FlushRequestID = uint64_t;
+
+// Combines Producer and Writer ID in one word which can be used as key for
+// hashtables and other data structures.
+using ProducerAndWriterID = uint32_t;
+
+inline ProducerAndWriterID MkProducerAndWriterID(ProducerID p, WriterID w) {
+ static_assert(
+ sizeof(ProducerID) + sizeof(WriterID) == sizeof(ProducerAndWriterID),
+ "MkProducerAndWriterID() and GetProducerAndWriterID() need updating");
+ return (static_cast<ProducerAndWriterID>(p) << (sizeof(WriterID) * 8)) | w;
+}
+
+inline void GetProducerAndWriterID(ProducerAndWriterID x,
+ ProducerID* p,
+ WriterID* w) {
+ static constexpr auto mask = (1ull << (sizeof(WriterID) * 8)) - 1;
+ *w = static_cast<WriterID>(x & mask);
+ *p = static_cast<ProducerID>(x >> (sizeof(WriterID) * 8));
+}
+
+// We need one FD per producer and we are not going to be able to keep > 64k FDs
+// open in the service.
+static constexpr ProducerID kMaxProducerID = static_cast<ProducerID>(-1);
+
+// 1024 Writers per producer seems a resonable bound. This reduces the ability
+// to memory-DoS the service by having to keep track of too many writer IDs.
+static constexpr WriterID kMaxWriterID = static_cast<WriterID>((1 << 10) - 1);
+
+// Unique within the scope of a {ProducerID, WriterID} tuple.
+using ChunkID = uint32_t;
+static constexpr ChunkID kMaxChunkID = static_cast<ChunkID>(-1);
+
+// Unique within the scope of the tracing service.
+using BufferID = uint16_t;
+
+// Target buffer ID for SharedMemoryArbiter. Values up to max uint16_t are
+// equivalent to a bound BufferID. Values above max uint16_t are reservation IDs
+// for the target buffer of a startup trace writer. Reservation IDs will be
+// translated to actual BufferIDs after they are bound by
+// SharedMemoryArbiter::BindStartupTargetBuffer().
+// TODO(mohitms): Delete this type and use `struct {uint16 ; uint16;}` instead.
+using MaybeUnboundBufferID = uint32_t;
+
+// Keep this in sync with SharedMemoryABI::PageHeader::target_buffer.
+static constexpr BufferID kMaxTraceBufferID = static_cast<BufferID>(-1);
+
+// Unique within the scope of a tracing session.
+using PacketSequenceID = uint32_t;
+// Used for extra packets emitted by the service, such as statistics.
+static constexpr PacketSequenceID kServicePacketSequenceID = 1;
+static constexpr PacketSequenceID kMaxPacketSequenceID =
+ static_cast<PacketSequenceID>(-1);
+
+constexpr uint32_t kDefaultFlushTimeoutMs = 5000;
+
+// The special id 0xffff..ffff represents the tracing session with the highest
+// bugreport score. This is used for CloneSession(kBugreportSessionId).
+constexpr TracingSessionID kBugreportSessionId =
+ static_cast<TracingSessionID>(-1);
+
+// The ID of a machine in a multi-machine tracing session.
+using MachineID = base::MachineID;
+constexpr MachineID kDefaultMachineID = base::kDefaultMachineID;
+
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_TRACING_CORE_BASIC_TYPES_H_
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_TRACING_CORE_TRACE_WRITER_H_
+#define INCLUDE_PERFETTO_EXT_TRACING_CORE_TRACE_WRITER_H_
+
+#include <functional>
+
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/basic_types.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message_handle.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/trace_writer_base.h"
+
+namespace perfetto {
+
+namespace protos {
+namespace pbzero {
+class TracePacket;
+} // namespace pbzero
+} // namespace protos
+
+// See comments in include/perfetto/tracing/trace_writer_base.h
+class PERFETTO_EXPORT_COMPONENT TraceWriter : public TraceWriterBase {
+ public:
+ using TracePacketHandle =
+ protozero::MessageHandle<protos::pbzero::TracePacket>;
+
+ TraceWriter();
+ ~TraceWriter() override;
+
+ virtual WriterID writer_id() const = 0;
+
+ private:
+ TraceWriter(const TraceWriter&) = delete;
+ TraceWriter& operator=(const TraceWriter&) = delete;
+};
+
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_TRACING_CORE_TRACE_WRITER_H_
+/*
+ * Copyright (C) 2018 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef SRC_TRACING_CORE_NULL_TRACE_WRITER_H_
+#define SRC_TRACING_CORE_NULL_TRACE_WRITER_H_
+
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/trace_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message_handle.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/root_message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_stream_null_delegate.h"
+
+namespace perfetto {
+
+// A specialization of TraceWriter which no-ops all the writes routing them
+// into a fixed region of memory
+// See //include/perfetto/ext/tracing/core/trace_writer.h for docs.
+class NullTraceWriter : public TraceWriter {
+ public:
+ NullTraceWriter();
+ ~NullTraceWriter() override;
+
+ // TraceWriter implementation. See documentation in trace_writer.h.
+ // TracePacketHandle is defined in trace_writer.h
+ TracePacketHandle NewTracePacket() override;
+ void FinishTracePacket() override;
+ void Flush(std::function<void()> callback = {}) override;
+ WriterID writer_id() const override;
+ uint64_t written() const override;
+
+ private:
+ NullTraceWriter(const NullTraceWriter&) = delete;
+ NullTraceWriter& operator=(const NullTraceWriter&) = delete;
+
+ protozero::ScatteredStreamWriterNullDelegate delegate_;
+ protozero::ScatteredStreamWriter stream_;
+
+ // The packet returned via NewTracePacket(). It is owned by this class,
+ // TracePacketHandle has just a pointer to it.
+ std::unique_ptr<protozero::RootMessage<protos::pbzero::TracePacket>>
+ cur_packet_;
+};
+
+} // namespace perfetto
+
+#endif // SRC_TRACING_CORE_NULL_TRACE_WRITER_H_
+/*
+ * Copyright (C) 2018 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "src/tracing/core/null_trace_writer.h"
+
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/utils.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+
+// gen_amalgamated expanded: #include "protos/perfetto/trace/trace_packet.pbzero.h"
+
+namespace perfetto {
+
+NullTraceWriter::NullTraceWriter() : delegate_(4096), stream_(&delegate_) {
+ cur_packet_.reset(new protozero::RootMessage<protos::pbzero::TracePacket>());
+ cur_packet_->Finalize(); // To avoid the DCHECK in NewTracePacket().
+}
+
+NullTraceWriter::~NullTraceWriter() {}
+
+void NullTraceWriter::Flush(std::function<void()> callback) {
+ // Flush() cannot be called in the middle of a TracePacket.
+ PERFETTO_CHECK(cur_packet_->is_finalized());
+
+ if (callback)
+ callback();
+}
+
+NullTraceWriter::TracePacketHandle NullTraceWriter::NewTracePacket() {
+ // If we hit this, the caller is calling NewTracePacket() without having
+ // finalized the previous packet.
+ PERFETTO_DCHECK(cur_packet_->is_finalized());
+ cur_packet_->Reset(&stream_);
+ return TraceWriter::TracePacketHandle(cur_packet_.get());
+}
+
+void NullTraceWriter::FinishTracePacket() {
+ cur_packet_->Finalize();
+}
+
+WriterID NullTraceWriter::writer_id() const {
+ return 0;
+}
+
+uint64_t NullTraceWriter::written() const {
+ return 0;
+}
+
+} // namespace perfetto
+// gen_amalgamated begin source: src/tracing/core/shared_memory_abi.cc
+// gen_amalgamated begin header: include/perfetto/ext/tracing/core/shared_memory_abi.h
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_TRACING_CORE_SHARED_MEMORY_ABI_H_
+#define INCLUDE_PERFETTO_EXT_TRACING_CORE_SHARED_MEMORY_ABI_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+#include <array>
+#include <atomic>
+#include <bitset>
+#include <thread>
+#include <type_traits>
+#include <utility>
+
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+
+// This file defines the binary interface of the memory buffers shared between
+// Producer and Service. This is a long-term stable ABI and has to be backwards
+// compatible to deal with mismatching Producer and Service versions.
+//
+// Overview
+// --------
+// SMB := "Shared Memory Buffer".
+// In the most typical case of a multi-process architecture (i.e. Producer and
+// Service are hosted by different processes), a Producer means almost always
+// a "client process producing data" (almost: in some cases a process might host
+// > 1 Producer, if it links two libraries, independent of each other, that both
+// use Perfetto tracing).
+// The Service has one SMB for each Producer.
+// A producer has one or (typically) more data sources. They all share the same
+// SMB.
+// The SMB is a staging area to decouple data sources living in the Producer
+// and allow them to do non-blocking async writes.
+// The SMB is *not* the ultimate logging buffer seen by the Consumer. That one
+// is larger (~MBs) and not shared with Producers.
+// Each SMB is small, typically few KB. Its size is configurable by the producer
+// within a max limit of ~MB (see kMaxShmSize in tracing_service_impl.cc).
+// The SMB is partitioned into fixed-size Page(s). The size of the Pages are
+// determined by each Producer at connection time and cannot be changed.
+// Hence, different producers can have SMB(s) that have a different Page size
+// from each other, but the page size will be constant throughout all the
+// lifetime of the SMB.
+// Page(s) are partitioned by the Producer into variable size Chunk(s):
+//
+// +------------+ +--------------------------+
+// | Producer 1 | <-> | SMB 1 [~32K - 1MB] |
+// +------------+ +--------+--------+--------+
+// | Page | Page | Page |
+// +--------+--------+--------+
+// | Chunk | | Chunk |
+// +--------+ Chunk +--------+ <----+
+// | Chunk | | Chunk | |
+// +--------+--------+--------+ +---------------------+
+// | Service |
+// +------------+ +--------------------------+ +---------------------+
+// | Producer 2 | <-> | SMB 2 [~32K - 1MB] | /| large ring buffers |
+// +------------+ +--------+--------+--------+ <--+ | (100K - several MB) |
+// | Page | Page | Page | +---------------------+
+// +--------+--------+--------+
+// | Chunk | | Chunk |
+// +--------+ Chunk +--------+
+// | Chunk | | Chunk |
+// +--------+--------+--------+
+//
+// * Sizes of both SMB and ring buffers are purely indicative and decided at
+// configuration time by the Producer (for SMB sizes) and the Consumer (for the
+// final ring buffer size).
+
+// Page
+// ----
+// A page is a portion of the shared memory buffer and defines the granularity
+// of the interaction between the Producer and tracing Service. When scanning
+// the shared memory buffer to determine if something should be moved to the
+// central logging buffers, the Service most of the times looks at and moves
+// whole pages. Similarly, the Producer sends an IPC to invite the Service to
+// drain the shared memory buffer only when a whole page is filled.
+// Having fixed the total SMB size (hence the total memory overhead), the page
+// size is a triangular tradeoff between:
+// 1) IPC traffic: smaller pages -> more IPCs.
+// 2) Producer lock freedom: larger pages -> larger chunks -> data sources can
+// write more data without needing to swap chunks and synchronize.
+// 3) Risk of write-starving the SMB: larger pages -> higher chance that the
+// Service won't manage to drain them and the SMB remains full.
+// The page size, on the other side, has no implications on wasted memory due to
+// fragmentations (see Chunk below).
+// The size of the page is chosen by the Service at connection time and stays
+// fixed throughout all the lifetime of the Producer. Different producers (i.e.
+// ~ different client processes) can use different page sizes.
+// The page size must be an integer multiple of 4k (this is to allow VM page
+// stealing optimizations) and obviously has to be an integer divisor of the
+// total SMB size.
+
+// Chunk
+// -----
+// A chunk is a portion of a Page which is written and handled by a Producer.
+// A chunk contains a linear sequence of TracePacket(s) (the root proto).
+// A chunk cannot be written concurrently by two data sources. Protobufs must be
+// encoded as contiguous byte streams and cannot be interleaved. Therefore, on
+// the Producer side, a chunk is almost always owned exclusively by one thread
+// (% extremely peculiar slow-path cases).
+// Chunks are essentially single-writer single-thread lock-free arenas. Locking
+// happens only when a Chunk is full and a new one needs to be acquired.
+// Locking happens only within the scope of a Producer process. There is no
+// inter-process locking. The Producer cannot lock the Service and viceversa.
+// In the worst case, any of the two can starve the SMB, by marking all chunks
+// as either being read or written. But that has the only side effect of
+// losing the trace data.
+// The Producer can decide to partition each page into a number of limited
+// configurations (e.g., 1 page == 1 chunk, 1 page == 2 chunks and so on).
+
+// TracePacket
+// -----------
+// Is the atom of tracing. Putting aside pages and chunks a trace is merely a
+// sequence of TracePacket(s). TracePacket is the root protobuf message.
+// A TracePacket can span across several chunks (hence even across several
+// pages). A TracePacket can therefore be >> chunk size, >> page size and even
+// >> SMB size. The Chunk header carries metadata to deal with the TracePacket
+// splitting case.
+
+// Use only explicitly-sized types below. DO NOT use size_t or any architecture
+// dependent size (e.g. size_t) in the struct fields. This buffer will be read
+// and written by processes that have a different bitness in the same OS.
+// Instead it's fine to assume little-endianess. Big-endian is a dream we are
+// not currently pursuing.
+
+class SharedMemoryABI {
+ public:
+ static constexpr size_t kMinPageSize = 4 * 1024;
+
+ // This is due to Chunk::size being 16 bits.
+ static constexpr size_t kMaxPageSize = 64 * 1024;
+
+ // "14" is the max number that can be encoded in a 32 bit atomic word using
+ // 2 state bits per Chunk and leaving 4 bits for the page layout.
+ // See PageLayout below.
+ static constexpr size_t kMaxChunksPerPage = 14;
+
+ // Each TracePacket fragment in the Chunk is prefixed by a VarInt stating its
+ // size that is up to 4 bytes long. Since the size is often known after the
+ // fragment has been filled, the VarInt is often redundantly encoded (see
+ // proto_utils.h) to be exactly 4 bytes.
+ static constexpr size_t kPacketHeaderSize = 4;
+
+ // TraceWriter specifies this invalid packet/fragment size to signal to the
+ // service that a packet should be discarded, because the TraceWriter couldn't
+ // write its remaining fragments (e.g. because the SMB was exhausted).
+ static constexpr size_t kPacketSizeDropPacket =
+ protozero::proto_utils::kMaxMessageLength;
+
+ // Chunk states and transitions:
+ // kChunkFree <----------------+
+ // | (Producer) |
+ // V |
+ // kChunkBeingWritten |
+ // | (Producer) |
+ // V |
+ // kChunkComplete |
+ // | (Service) |
+ // V |
+ // kChunkBeingRead |
+ // | (Service) |
+ // +------------------------+
+ //
+ // The ABI has an "emulation mode" for transports where shared memory isn't
+ // supported. In this mode, kChunkBeingRead is skipped. A chunk in the
+ // kChunkComplete state is released as free after the producer serializes
+ // chunk content to the protobuf message.
+ enum ChunkState : uint32_t {
+ // The Chunk is free. The Service shall never touch it, the Producer can
+ // acquire it and transition it into kChunkBeingWritten.
+ kChunkFree = 0,
+
+ // The Chunk is being used by the Producer and is not complete yet.
+ // The Service shall never touch kChunkBeingWritten pages.
+ kChunkBeingWritten = 1,
+
+ // The Service is moving the page into its non-shared ring buffer. The
+ // Producer shall never touch kChunkBeingRead pages.
+ kChunkBeingRead = 2,
+
+ // The Producer is done writing the page and won't touch it again. The
+ // Service can now move it to its non-shared ring buffer.
+ // kAllChunksComplete relies on this being == 3.
+ kChunkComplete = 3,
+ };
+ static constexpr const char* kChunkStateStr[] = {"Free", "BeingWritten",
+ "BeingRead", "Complete"};
+
+ enum PageLayout : uint32_t {
+ // The page is fully free and has not been partitioned yet.
+ kPageNotPartitioned = 0,
+
+ // TODO(primiano): Aligning a chunk @ 16 bytes could allow to use faster
+ // intrinsics based on quad-word moves. Do the math and check what is the
+ // fragmentation loss.
+
+ // align4(X) := the largest integer N s.t. (N % 4) == 0 && N <= X.
+ // 8 == sizeof(PageHeader).
+ kPageDiv1 = 1, // Only one chunk of size: PAGE_SIZE - 8.
+ kPageDiv2 = 2, // Two chunks of size: align4((PAGE_SIZE - 8) / 2).
+ kPageDiv4 = 3, // Four chunks of size: align4((PAGE_SIZE - 8) / 4).
+ kPageDiv7 = 4, // Seven chunks of size: align4((PAGE_SIZE - 8) / 7).
+ kPageDiv14 = 5, // Fourteen chunks of size: align4((PAGE_SIZE - 8) / 14).
+
+ // The rationale for 7 and 14 above is to maximize the page usage for the
+ // likely case of |page_size| == 4096:
+ // (((4096 - 8) / 14) % 4) == 0, while (((4096 - 8) / 16 % 4)) == 3. So
+ // Div16 would waste 3 * 16 = 48 bytes per page for chunk alignment gaps.
+
+ kPageDivReserved1 = 6,
+ kPageDivReserved2 = 7,
+ kNumPageLayouts = 8,
+ };
+
+ // Keep this consistent with the PageLayout enum above.
+ static constexpr uint32_t kNumChunksForLayout[] = {0, 1, 2, 4, 7, 14, 0, 0};
+
+ enum class ShmemMode {
+ // The default mode, where the shared buffer is visible to both the producer
+ // and the service.
+ kDefault,
+
+ // The emulation mode, used for producer ports without shared memory. The
+ // state transitions are all done in the producer process.
+ kShmemEmulation,
+ };
+
+ // Layout of a Page.
+ // +===================================================+
+ // | Page header [8 bytes] |
+ // | Tells how many chunks there are, how big they are |
+ // | and their state (free, read, write, complete). |
+ // +===================================================+
+ // +***************************************************+
+ // | Chunk #0 header [8 bytes] |
+ // | Tells how many packets there are and whether the |
+ // | whether the 1st and last ones are fragmented. |
+ // | Also has a chunk id to reassemble fragments. |
+ // +***************************************************+
+ // +---------------------------------------------------+
+ // | Packet #0 size [varint, up to 4 bytes] |
+ // + - - - - - - - - - - - - - - - - - - - - - - - - - +
+ // | Packet #0 payload |
+ // | A TracePacket protobuf message |
+ // +---------------------------------------------------+
+ // ...
+ // + . . . . . . . . . . . . . . . . . . . . . . . . . +
+ // | Optional padding to maintain aligment |
+ // + . . . . . . . . . . . . . . . . . . . . . . . . . +
+ // +---------------------------------------------------+
+ // | Packet #N size [varint, up to 4 bytes] |
+ // + - - - - - - - - - - - - - - - - - - - - - - - - - +
+ // | Packet #N payload |
+ // | A TracePacket protobuf message |
+ // +---------------------------------------------------+
+ // ...
+ // +***************************************************+
+ // | Chunk #M header [8 bytes] |
+ // ...
+
+ // Alignment applies to start offset only. The Chunk size is *not* aligned.
+ static constexpr uint32_t kChunkAlignment = 4;
+ static constexpr uint32_t kChunkShift = 2;
+ static constexpr uint32_t kChunkMask = 0x3;
+ static constexpr uint32_t kLayoutMask = 0x70000000;
+ static constexpr uint32_t kLayoutShift = 28;
+ static constexpr uint32_t kAllChunksMask = 0x0FFFFFFF;
+
+ // This assumes that kChunkComplete == 3.
+ static constexpr uint32_t kAllChunksComplete = 0x0FFFFFFF;
+ static constexpr uint32_t kAllChunksFree = 0;
+ static constexpr size_t kInvalidPageIdx = static_cast<size_t>(-1);
+
+ // There is one page header per page, at the beginning of the page.
+ struct PageHeader {
+ // |layout| bits:
+ // [31] [30:28] [27:26] ... [1:0]
+ // | | | | |
+ // | | | | +---------- ChunkState[0]
+ // | | | +--------------- ChunkState[12..1]
+ // | | +--------------------- ChunkState[13]
+ // | +----------------------------- PageLayout (0 == page fully free)
+ // +------------------------------------ Reserved for future use
+ std::atomic<uint32_t> layout;
+
+ // If we'll ever going to use this in the future it might come handy
+ // reviving the kPageBeingPartitioned logic (look in git log, it was there
+ // at some point in the past).
+ uint32_t reserved;
+ };
+
+ // There is one Chunk header per chunk (hence PageLayout per page) at the
+ // beginning of each chunk.
+ struct ChunkHeader {
+ enum Flags : uint8_t {
+ // If set, the first TracePacket in the chunk is partial and continues
+ // from |chunk_id| - 1 (within the same |writer_id|).
+ kFirstPacketContinuesFromPrevChunk = 1 << 0,
+
+ // If set, the last TracePacket in the chunk is partial and continues on
+ // |chunk_id| + 1 (within the same |writer_id|).
+ kLastPacketContinuesOnNextChunk = 1 << 1,
+
+ // If set, the last (fragmented) TracePacket in the chunk has holes (even
+ // if the chunk is marked as kChunkComplete) that need to be patched
+ // out-of-band before the chunk can be read.
+ kChunkNeedsPatching = 1 << 2,
+ };
+
+ struct Packets {
+ // Number of valid TracePacket protobuf messages contained in the chunk.
+ // Each TracePacket is prefixed by its own size. This field is
+ // monotonically updated by the Producer with release store semantic when
+ // the packet at position |count| is started. This last packet may not be
+ // considered complete until |count| is incremented for the subsequent
+ // packet or the chunk is completed.
+ uint16_t count : 10;
+ static constexpr size_t kMaxCount = (1 << 10) - 1;
+
+ // See Flags above.
+ uint16_t flags : 6;
+ };
+
+ // A monotonic counter of the chunk within the scoped of a |writer_id|.
+ // The tuple (ProducerID, WriterID, ChunkID) allows to figure out if two
+ // chunks are contiguous (and hence a trace packets spanning across them can
+ // be glued) or we had some holes due to the ring buffer wrapping.
+ // This is set only when transitioning from kChunkFree to kChunkBeingWritten
+ // and remains unchanged throughout the remaining lifetime of the chunk.
+ std::atomic<uint32_t> chunk_id;
+
+ // ID of the writer, unique within the producer.
+ // Like |chunk_id|, this is set only when transitioning from kChunkFree to
+ // kChunkBeingWritten.
+ std::atomic<uint16_t> writer_id;
+
+ // There is no ProducerID here. The service figures that out from the IPC
+ // channel, which is unspoofable.
+
+ // Updated with release-store semantics.
+ std::atomic<Packets> packets;
+ };
+
+ class Chunk {
+ public:
+ Chunk(); // Constructs an invalid chunk.
+
+ // Chunk is move-only, to document the scope of the Acquire/Release
+ // TryLock operations below.
+ Chunk(const Chunk&) = delete;
+ Chunk operator=(const Chunk&) = delete;
+ Chunk(Chunk&&) noexcept;
+ Chunk& operator=(Chunk&&);
+
+ uint8_t* begin() const { return begin_; }
+ uint8_t* end() const { return begin_ + size_; }
+
+ // Size, including Chunk header.
+ size_t size() const { return size_; }
+
+ // Begin of the first packet (or packet fragment).
+ uint8_t* payload_begin() const { return begin_ + sizeof(ChunkHeader); }
+ size_t payload_size() const {
+ PERFETTO_DCHECK(size_ >= sizeof(ChunkHeader));
+ return size_ - sizeof(ChunkHeader);
+ }
+
+ bool is_valid() const { return begin_ && size_; }
+
+ // Index of the chunk within the page [0..13] (13 comes from kPageDiv14).
+ uint8_t chunk_idx() const { return chunk_idx_; }
+
+ ChunkHeader* header() { return reinterpret_cast<ChunkHeader*>(begin_); }
+
+ uint16_t writer_id() {
+ return header()->writer_id.load(std::memory_order_relaxed);
+ }
+
+ // Returns the count of packets and the flags with acquire-load semantics.
+ std::pair<uint16_t, uint8_t> GetPacketCountAndFlags() {
+ auto packets = header()->packets.load(std::memory_order_acquire);
+ const uint16_t packets_count = packets.count;
+ const uint8_t packets_flags = packets.flags;
+ return std::make_pair(packets_count, packets_flags);
+ }
+
+ // Increases |packets.count| with release semantics (note, however, that the
+ // packet count is incremented *before* starting writing a packet). Returns
+ // the new packet count. The increment is atomic but NOT race-free (i.e. no
+ // CAS). Only the Producer is supposed to perform this increment, and it's
+ // supposed to do that in a thread-safe way (holding a lock). A Chunk cannot
+ // be shared by multiple Producer threads without locking. The packet count
+ // is cleared by TryAcquireChunk(), when passing the new header for the
+ // chunk.
+ uint16_t IncrementPacketCount() {
+ ChunkHeader* chunk_header = header();
+ auto packets = chunk_header->packets.load(std::memory_order_relaxed);
+ packets.count++;
+ chunk_header->packets.store(packets, std::memory_order_release);
+ return packets.count;
+ }
+
+ // Flags are cleared by TryAcquireChunk(), by passing the new header for
+ // the chunk, or through ClearNeedsPatchingFlag.
+ void SetFlag(ChunkHeader::Flags flag) {
+ ChunkHeader* chunk_header = header();
+ auto packets = chunk_header->packets.load(std::memory_order_relaxed);
+ packets.flags |= flag;
+ chunk_header->packets.store(packets, std::memory_order_release);
+ }
+
+ // This flag can only be cleared by the producer while it is still holding
+ // on to the chunk - i.e. while the chunk is still in state
+ // ChunkState::kChunkBeingWritten and hasn't been transitioned to
+ // ChunkState::kChunkComplete. This is ok, because the service is oblivious
+ // to the needs patching flag before the chunk is released as complete.
+ void ClearNeedsPatchingFlag() {
+ ChunkHeader* chunk_header = header();
+ auto packets = chunk_header->packets.load(std::memory_order_relaxed);
+ packets.flags &= ~ChunkHeader::kChunkNeedsPatching;
+ chunk_header->packets.store(packets, std::memory_order_release);
+ }
+
+ private:
+ friend class SharedMemoryABI;
+ Chunk(uint8_t* begin, uint16_t size, uint8_t chunk_idx);
+
+ // Don't add extra fields, keep the move operator fast.
+ uint8_t* begin_ = nullptr;
+ uint16_t size_ = 0;
+ uint8_t chunk_idx_ = 0;
+
+ public:
+ static constexpr size_t kMaxSize = 1ULL << sizeof(size_) * 8;
+ };
+
+ // Construct an instance from an existing shared memory buffer.
+ SharedMemoryABI(uint8_t* start,
+ size_t size,
+ size_t page_size,
+ ShmemMode mode);
+ SharedMemoryABI();
+
+ void Initialize(uint8_t* start,
+ size_t size,
+ size_t page_size,
+ ShmemMode mode);
+
+ uint8_t* start() const { return start_; }
+ uint8_t* end() const { return start_ + size_; }
+ size_t size() const { return size_; }
+ size_t page_size() const { return page_size_; }
+ size_t num_pages() const { return num_pages_; }
+ bool is_valid() { return num_pages() > 0; }
+
+ uint8_t* page_start(size_t page_idx) {
+ PERFETTO_DCHECK(page_idx < num_pages_);
+ return start_ + page_size_ * page_idx;
+ }
+
+ PageHeader* page_header(size_t page_idx) {
+ return reinterpret_cast<PageHeader*>(page_start(page_idx));
+ }
+
+ // Returns true if the page is fully clear and has not been partitioned yet.
+ // The state of the page can change at any point after this returns (or even
+ // before). The Producer should use this only as a hint to decide out whether
+ // it should TryPartitionPage() or acquire an individual chunk.
+ bool is_page_free(size_t page_idx) {
+ return page_header(page_idx)->layout.load(std::memory_order_relaxed) == 0;
+ }
+
+ // Returns true if all chunks in the page are kChunkComplete. As above, this
+ // is advisory only. The Service is supposed to use this only to decide
+ // whether to TryAcquireAllChunksForReading() or not.
+ bool is_page_complete(size_t page_idx) {
+ auto layout = page_header(page_idx)->layout.load(std::memory_order_relaxed);
+ const uint32_t num_chunks = GetNumChunksForLayout(layout);
+ if (num_chunks == 0)
+ return false; // Non partitioned pages cannot be complete.
+ return (layout & kAllChunksMask) ==
+ (kAllChunksComplete & ((1 << (num_chunks * kChunkShift)) - 1));
+ }
+
+ // For testing / debugging only.
+ std::string page_header_dbg(size_t page_idx) {
+ uint32_t x = page_header(page_idx)->layout.load(std::memory_order_relaxed);
+ return std::bitset<32>(x).to_string();
+ }
+
+ // Returns the page layout, which is a bitmap that specifies the chunking
+ // layout of the page and each chunk's current state. Reads with an
+ // acquire-load semantic to ensure a producer's writes corresponding to an
+ // update of the layout (e.g. clearing a chunk's header) are observed
+ // consistently.
+ uint32_t GetPageLayout(size_t page_idx) {
+ return page_header(page_idx)->layout.load(std::memory_order_acquire);
+ }
+
+ // Returns a bitmap in which each bit is set if the corresponding Chunk exists
+ // in the page (according to the page layout) and is free. If the page is not
+ // partitioned it returns 0 (as if the page had no free chunks).
+ uint32_t GetFreeChunks(size_t page_idx);
+
+ // Tries to atomically partition a page with the given |layout|. Returns true
+ // if the page was free and has been partitioned with the given |layout|,
+ // false if the page wasn't free anymore by the time we got there.
+ // If succeeds all the chunks are atomically set in the kChunkFree state.
+ bool TryPartitionPage(size_t page_idx, PageLayout layout);
+
+ // Tries to atomically mark a single chunk within the page as
+ // kChunkBeingWritten. Returns an invalid chunk if the page is not partitioned
+ // or the chunk is not in the kChunkFree state. If succeeds sets the chunk
+ // header to |header|.
+ Chunk TryAcquireChunkForWriting(size_t page_idx,
+ size_t chunk_idx,
+ const ChunkHeader* header) {
+ return TryAcquireChunk(page_idx, chunk_idx, kChunkBeingWritten, header);
+ }
+
+ // Similar to TryAcquireChunkForWriting. Fails if the chunk isn't in the
+ // kChunkComplete state.
+ Chunk TryAcquireChunkForReading(size_t page_idx, size_t chunk_idx) {
+ return TryAcquireChunk(page_idx, chunk_idx, kChunkBeingRead, nullptr);
+ }
+
+ // The caller must have successfully TryAcquireAllChunksForReading() or it
+ // needs to guarantee that the chunk is already in the kChunkBeingWritten
+ // state.
+ Chunk GetChunkUnchecked(size_t page_idx,
+ uint32_t page_layout,
+ size_t chunk_idx);
+
+ // Creates a Chunk by adopting the given buffer (|data| and |size|) and chunk
+ // index. This is used for chunk data passed over the wire (e.g. tcp or
+ // vsock). The chunk should *not* be freed to the shared memory.
+ static Chunk MakeChunkFromSerializedData(uint8_t* data,
+ uint16_t size,
+ uint8_t chunk_idx) {
+ return Chunk(data, size, chunk_idx);
+ }
+
+ // Puts a chunk into the kChunkComplete state. Returns the page index.
+ size_t ReleaseChunkAsComplete(Chunk chunk) {
+ return ReleaseChunk(std::move(chunk), kChunkComplete);
+ }
+
+ // Puts a chunk into the kChunkFree state. Returns the page index.
+ size_t ReleaseChunkAsFree(Chunk chunk) {
+ return ReleaseChunk(std::move(chunk), kChunkFree);
+ }
+
+ ChunkState GetChunkState(size_t page_idx, size_t chunk_idx) {
+ PageHeader* phdr = page_header(page_idx);
+ uint32_t layout = phdr->layout.load(std::memory_order_relaxed);
+ return GetChunkStateFromLayout(layout, chunk_idx);
+ }
+
+ std::pair<size_t, size_t> GetPageAndChunkIndex(const Chunk& chunk);
+
+ uint16_t GetChunkSizeForLayout(uint32_t page_layout) const {
+ return chunk_sizes_[(page_layout & kLayoutMask) >> kLayoutShift];
+ }
+
+ static ChunkState GetChunkStateFromLayout(uint32_t page_layout,
+ size_t chunk_idx) {
+ return static_cast<ChunkState>((page_layout >> (chunk_idx * kChunkShift)) &
+ kChunkMask);
+ }
+
+ static constexpr uint32_t GetNumChunksForLayout(uint32_t page_layout) {
+ return kNumChunksForLayout[(page_layout & kLayoutMask) >> kLayoutShift];
+ }
+
+ // Returns a bitmap in which each bit is set if the corresponding Chunk exists
+ // in the page (according to the page layout) and is not free. If the page is
+ // not partitioned it returns 0 (as if the page had no used chunks). Bit N
+ // corresponds to Chunk N.
+ static uint32_t GetUsedChunks(uint32_t page_layout) {
+ const uint32_t num_chunks = GetNumChunksForLayout(page_layout);
+ uint32_t res = 0;
+ for (uint32_t i = 0; i < num_chunks; i++) {
+ res |= ((page_layout & kChunkMask) != kChunkFree) ? (1 << i) : 0;
+ page_layout >>= kChunkShift;
+ }
+ return res;
+ }
+
+ private:
+ SharedMemoryABI(const SharedMemoryABI&) = delete;
+ SharedMemoryABI& operator=(const SharedMemoryABI&) = delete;
+
+ Chunk TryAcquireChunk(size_t page_idx,
+ size_t chunk_idx,
+ ChunkState,
+ const ChunkHeader*);
+ size_t ReleaseChunk(Chunk chunk, ChunkState);
+
+ uint8_t* start_ = nullptr;
+ size_t size_ = 0;
+ size_t page_size_ = 0;
+ bool use_shmem_emulation_ = false;
+ size_t num_pages_ = 0;
+ std::array<uint16_t, kNumPageLayouts> chunk_sizes_;
+};
+
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_TRACING_CORE_SHARED_MEMORY_ABI_H_
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the
+ * License. You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing,
+ * software distributed under the License is distributed on an "AS
+ * IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either
+ * express or implied. See the License for the specific language
+ * governing permissions and limitations under the License.
+ */
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/shared_memory_abi.h"
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+// gen_amalgamated expanded: #include "perfetto/base/time.h"
+
+#if !PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+#include <sys/mman.h>
+#endif
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/utils.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/basic_types.h"
+
+namespace perfetto {
+
+namespace {
+
+constexpr int kRetryAttempts = 64;
+
+inline void WaitBeforeNextAttempt(int attempt) {
+ if (attempt < kRetryAttempts / 2) {
+ std::this_thread::yield();
+ } else {
+ base::SleepMicroseconds((unsigned(attempt) / 10) * 1000);
+ }
+}
+
+// Returns the largest 4-bytes aligned chunk size <= |page_size| / |divider|
+// for each divider in PageLayout.
+constexpr size_t GetChunkSize(size_t page_size, size_t divider) {
+ return ((page_size - sizeof(SharedMemoryABI::PageHeader)) / divider) & ~3UL;
+}
+
+// Initializer for the const |chunk_sizes_| array.
+std::array<uint16_t, SharedMemoryABI::kNumPageLayouts> InitChunkSizes(
+ size_t page_size) {
+ static_assert(SharedMemoryABI::kNumPageLayouts ==
+ base::ArraySize(SharedMemoryABI::kNumChunksForLayout),
+ "kNumPageLayouts out of date");
+ std::array<uint16_t, SharedMemoryABI::kNumPageLayouts> res = {};
+ for (size_t i = 0; i < SharedMemoryABI::kNumPageLayouts; i++) {
+ size_t num_chunks = SharedMemoryABI::kNumChunksForLayout[i];
+ size_t size = num_chunks == 0 ? 0 : GetChunkSize(page_size, num_chunks);
+ PERFETTO_CHECK(size <= std::numeric_limits<uint16_t>::max());
+ res[i] = static_cast<uint16_t>(size);
+ }
+ return res;
+}
+
+inline void ClearChunkHeader(SharedMemoryABI::ChunkHeader* header) {
+ header->writer_id.store(0u, std::memory_order_relaxed);
+ header->chunk_id.store(0u, std::memory_order_relaxed);
+ header->packets.store({}, std::memory_order_release);
+}
+
+} // namespace
+
+SharedMemoryABI::SharedMemoryABI() = default;
+
+SharedMemoryABI::SharedMemoryABI(uint8_t* start,
+ size_t size,
+ size_t page_size,
+ ShmemMode mode) {
+ Initialize(start, size, page_size, mode);
+}
+
+void SharedMemoryABI::Initialize(uint8_t* start,
+ size_t size,
+ size_t page_size,
+ ShmemMode mode) {
+ start_ = start;
+ size_ = size;
+ page_size_ = page_size;
+ use_shmem_emulation_ = mode == ShmemMode::kShmemEmulation;
+ num_pages_ = size / page_size;
+ chunk_sizes_ = InitChunkSizes(page_size);
+ static_assert(sizeof(PageHeader) == 8, "PageHeader size");
+ static_assert(sizeof(ChunkHeader) == 8, "ChunkHeader size");
+ static_assert(sizeof(ChunkHeader::chunk_id) == sizeof(ChunkID),
+ "ChunkID size");
+
+ static_assert(sizeof(ChunkHeader::Packets) == 2, "ChunkHeader::Packets size");
+ static_assert(alignof(ChunkHeader) == kChunkAlignment,
+ "ChunkHeader alignment");
+
+ // In theory std::atomic does not guarantee that the underlying type
+ // consists only of the actual atomic word. Theoretically it could have
+ // locks or other state. In practice most implementations just implement
+ // them without extra state. The code below overlays the atomic into the
+ // SMB, hence relies on this implementation detail. This should be fine
+ // pragmatically (Chrome's base makes the same assumption), but let's have a
+ // check for this.
+ static_assert(sizeof(std::atomic<uint32_t>) == sizeof(uint32_t) &&
+ sizeof(std::atomic<uint16_t>) == sizeof(uint16_t),
+ "Incompatible STL <atomic> implementation");
+
+ // Chec that the kAllChunks(Complete,Free) are consistent with the
+ // ChunkState enum values.
+
+ // These must be zero because rely on zero-initialized memory being
+ // interpreted as "free".
+ static_assert(kChunkFree == 0 && kAllChunksFree == 0,
+ "kChunkFree/kAllChunksFree and must be 0");
+
+ static_assert((kAllChunksComplete & kChunkMask) == kChunkComplete,
+ "kAllChunksComplete out of sync with kChunkComplete");
+
+ // Check the consistency of the kMax... constants.
+ static_assert(sizeof(ChunkHeader::writer_id) == sizeof(WriterID),
+ "WriterID size");
+ ChunkHeader chunk_header{};
+ chunk_header.chunk_id.store(static_cast<uint32_t>(-1));
+ PERFETTO_CHECK(chunk_header.chunk_id.load() == kMaxChunkID);
+
+ chunk_header.writer_id.store(static_cast<uint16_t>(-1));
+ PERFETTO_CHECK(kMaxWriterID <= chunk_header.writer_id.load());
+
+ PERFETTO_CHECK(page_size >= kMinPageSize);
+ PERFETTO_CHECK(page_size <= kMaxPageSize);
+ PERFETTO_CHECK(page_size % kMinPageSize == 0);
+ PERFETTO_CHECK(reinterpret_cast<uintptr_t>(start) % kMinPageSize == 0);
+ PERFETTO_CHECK(size % page_size == 0);
+}
+
+SharedMemoryABI::Chunk SharedMemoryABI::GetChunkUnchecked(size_t page_idx,
+ uint32_t page_layout,
+ size_t chunk_idx) {
+ const size_t num_chunks = GetNumChunksForLayout(page_layout);
+ PERFETTO_DCHECK(chunk_idx < num_chunks);
+ // Compute the chunk virtual address and write it into |chunk|.
+ const uint16_t chunk_size = GetChunkSizeForLayout(page_layout);
+ size_t chunk_offset_in_page = sizeof(PageHeader) + chunk_idx * chunk_size;
+
+ Chunk chunk(page_start(page_idx) + chunk_offset_in_page, chunk_size,
+ static_cast<uint8_t>(chunk_idx));
+ PERFETTO_DCHECK(chunk.end() <= end());
+ return chunk;
+}
+
+SharedMemoryABI::Chunk SharedMemoryABI::TryAcquireChunk(
+ size_t page_idx,
+ size_t chunk_idx,
+ ChunkState desired_chunk_state,
+ const ChunkHeader* header) {
+ PERFETTO_DCHECK(desired_chunk_state == kChunkBeingRead ||
+ desired_chunk_state == kChunkBeingWritten);
+ PageHeader* phdr = page_header(page_idx);
+ for (int attempt = 0; attempt < kRetryAttempts; attempt++) {
+ uint32_t layout = phdr->layout.load(std::memory_order_acquire);
+ const size_t num_chunks = GetNumChunksForLayout(layout);
+
+ // The page layout has changed (or the page is free).
+ if (chunk_idx >= num_chunks)
+ return Chunk();
+
+ // Verify that the chunk is still in a state that allows the transition to
+ // |desired_chunk_state|. The only allowed transitions are:
+ // 1. kChunkFree -> kChunkBeingWritten (Producer).
+ // 2. kChunkComplete -> kChunkBeingRead (Service).
+ ChunkState expected_chunk_state =
+ desired_chunk_state == kChunkBeingWritten ? kChunkFree : kChunkComplete;
+ auto cur_chunk_state = (layout >> (chunk_idx * kChunkShift)) & kChunkMask;
+ if (cur_chunk_state != expected_chunk_state)
+ return Chunk();
+
+ uint32_t next_layout = layout;
+ next_layout &= ~(kChunkMask << (chunk_idx * kChunkShift));
+ next_layout |= (desired_chunk_state << (chunk_idx * kChunkShift));
+ if (phdr->layout.compare_exchange_strong(layout, next_layout,
+ std::memory_order_acq_rel)) {
+ // Compute the chunk virtual address and write it into |chunk|.
+ Chunk chunk = GetChunkUnchecked(page_idx, layout, chunk_idx);
+ if (desired_chunk_state == kChunkBeingWritten) {
+ PERFETTO_DCHECK(header);
+ ChunkHeader* new_header = chunk.header();
+ new_header->writer_id.store(header->writer_id,
+ std::memory_order_relaxed);
+ new_header->chunk_id.store(header->chunk_id, std::memory_order_relaxed);
+ new_header->packets.store(header->packets, std::memory_order_release);
+ }
+ return chunk;
+ }
+ WaitBeforeNextAttempt(attempt);
+ }
+ return Chunk(); // All our attempts failed.
+}
+
+bool SharedMemoryABI::TryPartitionPage(size_t page_idx, PageLayout layout) {
+ PERFETTO_DCHECK(layout >= kPageDiv1 && layout <= kPageDiv14);
+ uint32_t expected_layout = 0; // Free page.
+ uint32_t next_layout = (layout << kLayoutShift) & kLayoutMask;
+ PageHeader* phdr = page_header(page_idx);
+ if (!phdr->layout.compare_exchange_strong(expected_layout, next_layout,
+ std::memory_order_acq_rel)) {
+ return false;
+ }
+ return true;
+}
+
+uint32_t SharedMemoryABI::GetFreeChunks(size_t page_idx) {
+ uint32_t layout =
+ page_header(page_idx)->layout.load(std::memory_order_relaxed);
+ const uint32_t num_chunks = GetNumChunksForLayout(layout);
+ uint32_t res = 0;
+ for (uint32_t i = 0; i < num_chunks; i++) {
+ res |= ((layout & kChunkMask) == kChunkFree) ? (1 << i) : 0;
+ layout >>= kChunkShift;
+ }
+ return res;
+}
+
+size_t SharedMemoryABI::ReleaseChunk(Chunk chunk,
+ ChunkState desired_chunk_state) {
+ PERFETTO_DCHECK(desired_chunk_state == kChunkComplete ||
+ desired_chunk_state == kChunkFree);
+
+ size_t page_idx;
+ size_t chunk_idx;
+ std::tie(page_idx, chunk_idx) = GetPageAndChunkIndex(chunk);
+
+ // Reset header fields, so that the service can identify when the chunk's
+ // header has been initialized by the producer.
+ if (desired_chunk_state == kChunkFree)
+ ClearChunkHeader(chunk.header());
+
+ for (int attempt = 0; attempt < kRetryAttempts; attempt++) {
+ PageHeader* phdr = page_header(page_idx);
+ uint32_t layout = phdr->layout.load(std::memory_order_relaxed);
+ const size_t page_chunk_size = GetChunkSizeForLayout(layout);
+
+ // TODO(primiano): this should not be a CHECK, because a malicious producer
+ // could crash us by putting the chunk in an invalid state. This should
+ // gracefully fail. Keep a CHECK until then.
+ PERFETTO_CHECK(chunk.size() == page_chunk_size);
+ const uint32_t chunk_state = GetChunkStateFromLayout(layout, chunk_idx);
+
+ // Verify that the chunk is still in a state that allows the transition to
+ // |desired_chunk_state|. The only allowed transitions are:
+ // 1. kChunkBeingWritten -> kChunkComplete (Producer).
+ // 2. kChunkBeingRead -> kChunkFree (Service).
+ // Or in the emulation mode, the allowed transitions are:
+ // 1. kChunkBeingWritten -> kChunkComplete (Producer).
+ // 2. kChunkComplete -> kChunkFree (Producer).
+ ChunkState expected_chunk_state;
+ if (desired_chunk_state == kChunkComplete) {
+ expected_chunk_state = kChunkBeingWritten;
+ } else {
+ expected_chunk_state =
+ use_shmem_emulation_ ? kChunkComplete : kChunkBeingRead;
+ }
+
+ // TODO(primiano): should not be a CHECK (same rationale of comment above).
+ PERFETTO_CHECK(chunk_state == expected_chunk_state);
+ uint32_t next_layout = layout;
+ next_layout &= ~(kChunkMask << (chunk_idx * kChunkShift));
+ next_layout |= (desired_chunk_state << (chunk_idx * kChunkShift));
+
+ // If we are freeing a chunk and all the other chunks in the page are free
+ // we should de-partition the page and mark it as clear.
+ if ((next_layout & kAllChunksMask) == kAllChunksFree)
+ next_layout = 0;
+
+ if (phdr->layout.compare_exchange_strong(layout, next_layout,
+ std::memory_order_acq_rel)) {
+ return page_idx;
+ }
+ WaitBeforeNextAttempt(attempt);
+ }
+ // Too much contention on this page. Give up. This page will be left pending
+ // forever but there isn't much more we can do at this point.
+ PERFETTO_DFATAL("Too much contention on page.");
+ return kInvalidPageIdx;
+}
+
+SharedMemoryABI::Chunk::Chunk() = default;
+
+SharedMemoryABI::Chunk::Chunk(uint8_t* begin, uint16_t size, uint8_t chunk_idx)
+ : begin_(begin), size_(size), chunk_idx_(chunk_idx) {
+ PERFETTO_CHECK(reinterpret_cast<uintptr_t>(begin) % kChunkAlignment == 0);
+ PERFETTO_CHECK(size > 0);
+}
+
+SharedMemoryABI::Chunk::Chunk(Chunk&& o) noexcept {
+ *this = std::move(o);
+}
+
+SharedMemoryABI::Chunk& SharedMemoryABI::Chunk::operator=(Chunk&& o) {
+ begin_ = o.begin_;
+ size_ = o.size_;
+ chunk_idx_ = o.chunk_idx_;
+ o.begin_ = nullptr;
+ o.size_ = 0;
+ o.chunk_idx_ = 0;
+ return *this;
+}
+
+std::pair<size_t, size_t> SharedMemoryABI::GetPageAndChunkIndex(
+ const Chunk& chunk) {
+ PERFETTO_DCHECK(chunk.is_valid());
+ PERFETTO_DCHECK(chunk.begin() >= start_);
+ PERFETTO_DCHECK(chunk.end() <= start_ + size_);
+
+ // TODO(primiano): The divisions below could be avoided if we cached
+ // |page_shift_|.
+ const uintptr_t rel_addr = static_cast<uintptr_t>(chunk.begin() - start_);
+ const size_t page_idx = rel_addr / page_size_;
+ const size_t offset = rel_addr % page_size_;
+ PERFETTO_DCHECK(offset >= sizeof(PageHeader));
+ PERFETTO_DCHECK(offset % kChunkAlignment == 0);
+ PERFETTO_DCHECK((offset - sizeof(PageHeader)) % chunk.size() == 0);
+ const size_t chunk_idx = (offset - sizeof(PageHeader)) / chunk.size();
+ PERFETTO_DCHECK(chunk_idx < kMaxChunksPerPage);
+ PERFETTO_DCHECK(chunk_idx < GetNumChunksForLayout(GetPageLayout(page_idx)));
+ return std::make_pair(page_idx, chunk_idx);
+}
+
+} // namespace perfetto
+// gen_amalgamated begin source: src/tracing/core/shared_memory_arbiter_impl.cc
+// gen_amalgamated begin header: src/tracing/core/shared_memory_arbiter_impl.h
+// gen_amalgamated begin header: include/perfetto/ext/tracing/core/shared_memory_arbiter.h
+// gen_amalgamated begin header: include/perfetto/ext/tracing/core/tracing_service.h
+// gen_amalgamated begin header: include/perfetto/ext/tracing/core/trace_packet.h
+// gen_amalgamated begin header: include/perfetto/ext/tracing/core/slice.h
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_TRACING_CORE_SLICE_H_
+#define INCLUDE_PERFETTO_EXT_TRACING_CORE_SLICE_H_
+
+#include <stddef.h>
+#include <string.h>
+
+#include <memory>
+#include <string>
+#include <vector>
+
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+
+namespace perfetto {
+
+// A simple wrapper around a virtually contiguous memory range that contains a
+// TracePacket, or just a portion of it.
+struct Slice {
+ Slice() : start(nullptr), size(0) {}
+ Slice(const void* st, size_t sz) : start(st), size(sz) {}
+ Slice(Slice&& other) noexcept = default;
+
+ // Create a Slice which owns |size| bytes of memory.
+ static Slice Allocate(size_t size) {
+ Slice slice;
+ slice.own_data_.reset(new uint8_t[size]);
+ slice.start = &slice.own_data_[0];
+ slice.size = size;
+ return slice;
+ }
+
+ static Slice TakeOwnership(std::unique_ptr<uint8_t[]> buf, size_t size) {
+ Slice slice;
+ slice.own_data_ = std::move(buf);
+ slice.start = &slice.own_data_[0];
+ slice.size = size;
+ return slice;
+ }
+
+ uint8_t* own_data() {
+ PERFETTO_DCHECK(own_data_);
+ return own_data_.get();
+ }
+
+ const void* start;
+ size_t size;
+
+ private:
+ Slice(const Slice&) = delete;
+ void operator=(const Slice&) = delete;
+
+ std::unique_ptr<uint8_t[]> own_data_;
+};
+
+// TODO(primiano): most TracePacket(s) fit in a slice or two. We need something
+// a bit more clever here that has inline capacity for 2 slices and then uses a
+// std::forward_list or a std::vector for the less likely cases.
+using Slices = std::vector<Slice>;
+
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_TRACING_CORE_SLICE_H_
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_TRACING_CORE_TRACE_PACKET_H_
+#define INCLUDE_PERFETTO_EXT_TRACING_CORE_TRACE_PACKET_H_
+
+#include <stddef.h>
+#include <memory>
+#include <optional>
+#include <tuple>
+
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/slice.h"
+
+namespace perfetto {
+
+// A wrapper around a byte buffer that contains a protobuf-encoded TracePacket
+// (see trace_packet.proto). The TracePacket is decoded only if the Consumer
+// requests that. This is to allow Consumer(s) to just stream the packet over
+// the network or save it to a file without wasting time decoding it and without
+// needing to depend on libprotobuf or the trace_packet.pb.h header.
+// If the packets are saved / streamed and not just consumed locally, consumers
+// should ensure to preserve the unknown fields in the proto. A consumer, in
+// fact, might have an older version .proto which is newer on the producer.
+class PERFETTO_EXPORT_COMPONENT TracePacket {
+ public:
+ using const_iterator = Slices::const_iterator;
+
+ // The field id of protos::Trace::packet, static_assert()-ed in the unittest.
+ static constexpr uint32_t kPacketFieldNumber = 1;
+
+ // Maximum size of the preamble returned by GetProtoPreamble().
+ static constexpr size_t kMaxPreambleBytes = 8;
+
+ TracePacket();
+ ~TracePacket();
+ TracePacket(TracePacket&&) noexcept;
+ TracePacket& operator=(TracePacket&&);
+
+ // Accesses all the raw slices in the packet, for saving them to file/network.
+ const Slices& slices() const { return slices_; }
+
+ // Mutator, used only by the service and tests.
+ void AddSlice(Slice);
+
+ // Does not copy / take ownership of the memory of the slice. The TracePacket
+ // will be valid only as long as the original buffer is valid.
+ void AddSlice(const void* start, size_t size);
+
+ // Total size of all slices.
+ size_t size() const { return size_; }
+
+ // Generates a protobuf preamble suitable to represent this packet as a
+ // repeated field within a root trace.proto message.
+ // Returns a pointer to a buffer, owned by this class, containing the preamble
+ // and its size.
+ std::tuple<char*, size_t> GetProtoPreamble();
+
+ // Returns the raw protobuf bytes of the slices, all stitched together into
+ // a string. Only for testing.
+ std::string GetRawBytesForTesting();
+
+ // Remembers the buffer index where this packet was taken from. This is
+ // usually populated for packets from a TraceBuffer, not synthetic ones.
+ std::optional<uint32_t> buffer_index_for_stats() const {
+ if (buffer_index_for_stats_ == 0)
+ return std::nullopt;
+ return buffer_index_for_stats_ - 1;
+ }
+ void set_buffer_index_for_stats(uint32_t v) {
+ buffer_index_for_stats_ = v + 1;
+ }
+
+ private:
+ TracePacket(const TracePacket&) = delete;
+ TracePacket& operator=(const TracePacket&) = delete;
+
+ Slices slices_; // Not owned.
+ size_t size_ = 0; // SUM(slice.size for slice in slices_).
+
+ // Internally we store index+1, and use 0 for the "not set" case.
+ uint32_t buffer_index_for_stats_ = 0;
+ char preamble_[kMaxPreambleBytes]; // Deliberately not initialized.
+
+ // Remember to update the move operators and their unittest if adding new
+ // fields. ConsumerIPCClientImpl::OnReadBuffersResponse() relies on
+ // std::move(TracePacket) to clear up the moved-from instance.
+};
+
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_TRACING_CORE_TRACE_PACKET_H_
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_TRACING_CORE_TRACING_SERVICE_H_
+#define INCLUDE_PERFETTO_EXT_TRACING_CORE_TRACING_SERVICE_H_
+
+#include <stdint.h>
+
+#include <functional>
+#include <memory>
+#include <vector>
+
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/scoped_file.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/sys_types.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/basic_types.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/shared_memory.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/trace_packet.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/buffer_exhausted_policy.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/core/clock_snapshots.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/core/flush_flags.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/core/forward_decls.h"
+
+namespace perfetto {
+
+namespace base {
+class TaskRunner;
+} // namespace base
+
+class Consumer;
+class Producer;
+class SharedMemoryArbiter;
+class TraceWriter;
+class ClientIdentity;
+
+// TODO: for the moment this assumes that all the calls happen on the same
+// thread/sequence. Not sure this will be the case long term in Chrome.
+
+// The API for the Producer port of the Service.
+// Subclassed by:
+// 1. The tracing_service_impl.cc business logic when returning it in response
+// to the ConnectProducer() method.
+// 2. The transport layer (e.g., src/ipc) when the producer and
+// the service don't talk locally but via some IPC mechanism.
+class PERFETTO_EXPORT_COMPONENT ProducerEndpoint {
+ public:
+ virtual ~ProducerEndpoint();
+
+ // Disconnects the endpoint from the service, while keeping the shared memory
+ // valid. After calling this, the endpoint will no longer call any methods
+ // on the Producer.
+ virtual void Disconnect() = 0;
+
+ // Called by the Producer to (un)register data sources. Data sources are
+ // identified by their name (i.e. DataSourceDescriptor.name)
+ virtual void RegisterDataSource(const DataSourceDescriptor&) = 0;
+ virtual void UpdateDataSource(const DataSourceDescriptor&) = 0;
+ virtual void UnregisterDataSource(const std::string& name) = 0;
+
+ // Associate the trace writer with the given |writer_id| with
+ // |target_buffer|. The service may use this information to retrieve and
+ // copy uncommitted chunks written by the trace writer into its associated
+ // buffer, e.g. when a producer process crashes or when a flush is
+ // necessary.
+ virtual void RegisterTraceWriter(uint32_t writer_id,
+ uint32_t target_buffer) = 0;
+
+ // Remove the association of the trace writer previously created via
+ // RegisterTraceWriter.
+ virtual void UnregisterTraceWriter(uint32_t writer_id) = 0;
+
+ // Called by the Producer to signal that some pages in the shared memory
+ // buffer (shared between Service and Producer) have changed.
+ // When the Producer and the Service are hosted in the same process and
+ // hence potentially live on the same task runner, This method must call
+ // TracingServiceImpl's CommitData synchronously, without any PostTask()s,
+ // if on the same thread. This is to avoid a deadlock where the Producer
+ // exhausts its SMB and stalls waiting for the service to catch up with
+ // reads, but the Service never gets to that because it lives on the same
+ // thread.
+ using CommitDataCallback = std::function<void()>;
+ virtual void CommitData(const CommitDataRequest&,
+ CommitDataCallback callback = {}) = 0;
+
+ virtual SharedMemory* shared_memory() const = 0;
+
+ // Size of shared memory buffer pages. It's always a multiple of 4K.
+ // See shared_memory_abi.h
+ virtual size_t shared_buffer_page_size_kb() const = 0;
+
+ // Creates a trace writer, which allows to create events, handling the
+ // underying shared memory buffer and signalling to the Service. This method
+ // is thread-safe but the returned object is not. A TraceWriter should be
+ // used only from a single thread, or the caller has to handle sequencing
+ // via a mutex or equivalent. This method can only be called if
+ // TracingService::ConnectProducer was called with |in_process=true|.
+ // Args:
+ // |target_buffer| is the target buffer ID where the data produced by the
+ // writer should be stored by the tracing service. This value is passed
+ // upon creation of the data source (StartDataSource()) in the
+ // DataSourceConfig.target_buffer().
+ virtual std::unique_ptr<TraceWriter> CreateTraceWriter(
+ BufferID target_buffer,
+ BufferExhaustedPolicy buffer_exhausted_policy =
+ BufferExhaustedPolicy::kDefault) = 0;
+
+ // TODO(eseckler): Also expose CreateStartupTraceWriter() ?
+
+ // In some cases you can access the producer's SharedMemoryArbiter (for
+ // example if TracingService::ConnectProducer is called with
+ // |in_process=true|). The SharedMemoryArbiter can be used to create
+ // TraceWriters which is able to directly commit chunks. For the
+ // |in_process=true| case this can be done without going through an IPC layer.
+ virtual SharedMemoryArbiter* MaybeSharedMemoryArbiter() = 0;
+
+ // Whether the service accepted a shared memory buffer provided by the
+ // producer.
+ virtual bool IsShmemProvidedByProducer() const = 0;
+
+ // Called in response to a Producer::Flush(request_id) call after all data
+ // for the flush request has been committed.
+ virtual void NotifyFlushComplete(FlushRequestID) = 0;
+
+ // Called in response to one or more Producer::StartDataSource(),
+ // if the data source registered setting the flag
+ // DataSourceDescriptor.will_notify_on_start.
+ virtual void NotifyDataSourceStarted(DataSourceInstanceID) = 0;
+
+ // Called in response to one or more Producer::StopDataSource(),
+ // if the data source registered setting the flag
+ // DataSourceDescriptor.will_notify_on_stop.
+ virtual void NotifyDataSourceStopped(DataSourceInstanceID) = 0;
+
+ // This informs the service to activate any of these triggers if any tracing
+ // session was waiting for them.
+ virtual void ActivateTriggers(const std::vector<std::string>&) = 0;
+
+ // Emits a synchronization barrier to linearize with the service. When
+ // |callback| is invoked, the caller has the guarantee that the service has
+ // seen and processed all the requests sent by this producer prior to the
+ // Sync() call. Used mainly in tests.
+ virtual void Sync(std::function<void()> callback) = 0;
+}; // class ProducerEndpoint.
+
+// The API for the Consumer port of the Service.
+// Subclassed by:
+// 1. The tracing_service_impl.cc business logic when returning it in response
+// to
+// the ConnectConsumer() method.
+// 2. The transport layer (e.g., src/ipc) when the consumer and
+// the service don't talk locally but via some IPC mechanism.
+class PERFETTO_EXPORT_COMPONENT ConsumerEndpoint {
+ public:
+ virtual ~ConsumerEndpoint();
+
+ // Enables tracing with the given TraceConfig. The ScopedFile argument is
+ // used only when TraceConfig.write_into_file == true.
+ // If TraceConfig.deferred_start == true data sources are configured via
+ // SetupDataSource() but are not started until StartTracing() is called.
+ // This is to support pre-initialization and fast triggering of traces.
+ // The ScopedFile argument is used only when TraceConfig.write_into_file
+ // == true.
+ virtual void EnableTracing(const TraceConfig&,
+ base::ScopedFile = base::ScopedFile()) = 0;
+
+ // Update the trace config of an existing tracing session; only a subset
+ // of options can be changed mid-session. Currently the only
+ // supported functionality is expanding the list of producer_name_filters()
+ // (or removing the filter entirely) for existing data sources.
+ virtual void ChangeTraceConfig(const TraceConfig&) = 0;
+
+ // Starts all data sources configured in the trace config. This is used only
+ // after calling EnableTracing() with TraceConfig.deferred_start=true.
+ // It's a no-op if called after a regular EnableTracing(), without setting
+ // deferred_start.
+ virtual void StartTracing() = 0;
+
+ virtual void DisableTracing() = 0;
+
+ // Clones an existing tracing session and attaches to it. The session is
+ // cloned in read-only mode and can only be used to read a snapshot of an
+ // existing tracing session. Will invoke Consumer::OnSessionCloned().
+ // If TracingSessionID == kBugreportSessionId (0xff...ff) the session with the
+ // highest bugreport score is cloned (if any exists).
+ struct CloneSessionArgs {
+ // If set, the trace filter will not have effect on the cloned session.
+ // Used for bugreports.
+ bool skip_trace_filter = false;
+
+ // If set, affects the generation of the FlushFlags::CloneTarget to be set
+ // to kBugreport when requesting the flush to the producers.
+ bool for_bugreport = false;
+ };
+ virtual void CloneSession(TracingSessionID, CloneSessionArgs) = 0;
+
+ // Requests all data sources to flush their data immediately and invokes the
+ // passed callback once all of them have acked the flush (in which case
+ // the callback argument |success| will be true) or |timeout_ms| are elapsed
+ // (in which case |success| will be false).
+ // If |timeout_ms| is 0 the TraceConfig's flush_timeout_ms is used, or,
+ // if that one is not set (or is set to 0), kDefaultFlushTimeoutMs (5s) is
+ // used.
+ using FlushCallback = std::function<void(bool /*success*/)>;
+ virtual void Flush(uint32_t timeout_ms,
+ FlushCallback callback,
+ FlushFlags) = 0;
+
+ // This is required for legacy out-of-repo clients like arctraceservice which
+ // use the 2-version parameter.
+ inline void Flush(uint32_t timeout_ms, FlushCallback callback) {
+ Flush(timeout_ms, std::move(callback), FlushFlags());
+ }
+
+ // Tracing data will be delivered invoking Consumer::OnTraceData().
+ virtual void ReadBuffers() = 0;
+
+ virtual void FreeBuffers() = 0;
+
+ // Will call OnDetach().
+ virtual void Detach(const std::string& key) = 0;
+
+ // Will call OnAttach().
+ virtual void Attach(const std::string& key) = 0;
+
+ // Will call OnTraceStats().
+ virtual void GetTraceStats() = 0;
+
+ // Start or stop observing events of selected types. |events_mask| specifies
+ // the types of events to observe in a bitmask of ObservableEvents::Type.
+ // To disable observing, pass 0.
+ // Will call OnObservableEvents() repeatedly whenever an event of an enabled
+ // ObservableEventType occurs.
+ // TODO(eseckler): Extend this to support producers & data sources.
+ virtual void ObserveEvents(uint32_t events_mask) = 0;
+
+ // Used to obtain the list of connected data sources and other info about
+ // the tracing service.
+ struct QueryServiceStateArgs {
+ // If set, only the TracingServiceState.tracing_sessions is filled.
+ bool sessions_only = false;
+ };
+ using QueryServiceStateCallback =
+ std::function<void(bool success, const TracingServiceState&)>;
+ virtual void QueryServiceState(QueryServiceStateArgs,
+ QueryServiceStateCallback) = 0;
+
+ // Used for feature detection. Makes sense only when the consumer and the
+ // service talk over IPC and can be from different versions.
+ using QueryCapabilitiesCallback =
+ std::function<void(const TracingServiceCapabilities&)>;
+ virtual void QueryCapabilities(QueryCapabilitiesCallback) = 0;
+
+ // If any tracing session with TraceConfig.bugreport_score > 0 is running,
+ // this will pick the highest-score one, stop it and save it into a fixed
+ // path (See kBugreportTracePath).
+ // The callback is invoked when the file has been saved, in case of success,
+ // or whenever an error occurs.
+ // Args:
+ // - success: if true, an eligible trace was found and saved into file.
+ // If false, either there was no eligible trace running or
+ // something else failed (See |msg|).
+ // - msg: human readable diagnostic messages to debug failures.
+ using SaveTraceForBugreportCallback =
+ std::function<void(bool /*success*/, const std::string& /*msg*/)>;
+ virtual void SaveTraceForBugreport(SaveTraceForBugreportCallback) = 0;
+}; // class ConsumerEndpoint.
+
+struct PERFETTO_EXPORT_COMPONENT TracingServiceInitOpts {
+ // Function used by tracing service to compress packets. Takes a pointer to
+ // a vector of TracePackets and replaces the packets in the vector with
+ // compressed ones.
+ using CompressorFn = void (*)(std::vector<TracePacket>*);
+ CompressorFn compressor_fn = nullptr;
+
+ // Whether the relay endpoint is enabled on producer transport(s).
+ bool enable_relay_endpoint = false;
+};
+
+// The API for the Relay port of the Service. Subclassed by the
+// tracing_service_impl.cc business logic when returning it in response to the
+// ConnectRelayClient() method.
+class PERFETTO_EXPORT_COMPONENT RelayEndpoint {
+ public:
+ virtual ~RelayEndpoint();
+
+ // A snapshot of client and host clocks.
+ struct SyncClockSnapshot {
+ ClockSnapshotVector client_clock_snapshots;
+ ClockSnapshotVector host_clock_snapshots;
+ };
+
+ enum class SyncMode : uint32_t { PING = 1, UPDATE = 2 };
+ virtual void SyncClocks(SyncMode sync_mode,
+ ClockSnapshotVector client_clocks,
+ ClockSnapshotVector host_clocks) = 0;
+ virtual void Disconnect() = 0;
+};
+
+// The public API of the tracing Service business logic.
+//
+// Exposed to:
+// 1. The transport layer (e.g., src/unix_rpc/unix_service_host.cc),
+// which forwards commands received from a remote producer or consumer to
+// the actual service implementation.
+// 2. Tests.
+//
+// Subclassed by:
+// The service business logic in src/core/tracing_service_impl.cc.
+class PERFETTO_EXPORT_COMPONENT TracingService {
+ public:
+ using ProducerEndpoint = perfetto::ProducerEndpoint;
+ using ConsumerEndpoint = perfetto::ConsumerEndpoint;
+ using RelayEndpoint = perfetto::RelayEndpoint;
+ using InitOpts = TracingServiceInitOpts;
+
+ // Default sizes used by the service implementation and client library.
+ static constexpr size_t kDefaultShmPageSize = 4096ul;
+ static constexpr size_t kDefaultShmSize = 256 * 1024ul;
+
+ enum class ProducerSMBScrapingMode {
+ // Use service's default setting for SMB scraping. Currently, the default
+ // mode is to disable SMB scraping, but this may change in the future.
+ kDefault,
+
+ // Enable scraping of uncommitted chunks in producers' shared memory
+ // buffers.
+ kEnabled,
+
+ // Disable scraping of uncommitted chunks in producers' shared memory
+ // buffers.
+ kDisabled
+ };
+
+ // Implemented in src/core/tracing_service_impl.cc . CompressorFn can be
+ // nullptr, in which case TracingService will not support compression.
+ static std::unique_ptr<TracingService> CreateInstance(
+ std::unique_ptr<SharedMemory::Factory>,
+ base::TaskRunner*,
+ InitOpts init_opts = {});
+
+ virtual ~TracingService();
+
+ // Connects a Producer instance and obtains a ProducerEndpoint, which is
+ // essentially a 1:1 channel between one Producer and the Service.
+ //
+ // The caller has to guarantee that the passed Producer will be alive as long
+ // as the returned ProducerEndpoint is alive. Both the passed Producer and the
+ // returned ProducerEndpoint must live on the same task runner of the service,
+ // specifically:
+ // 1) The Service will call Producer::* methods on the Service's task runner.
+ // 2) The Producer should call ProducerEndpoint::* methods only on the
+ // service's task runner, except for ProducerEndpoint::CreateTraceWriter(),
+ // which can be called on any thread. To disconnect just destroy the
+ // returned ProducerEndpoint object. It is safe to destroy the Producer
+ // once the Producer::OnDisconnect() has been invoked.
+ //
+ // |uid| is the trusted user id of the producer process, used by the consumers
+ // for validating the origin of trace data. |shared_memory_size_hint_bytes|
+ // and |shared_memory_page_size_hint_bytes| are optional hints on the size of
+ // the shared memory buffer and its pages. The service can ignore the hints
+ // (e.g., if the hints are unreasonably large or other sizes were configured
+ // in a tracing session's config). |in_process| enables the ProducerEndpoint
+ // to manage its own shared memory and enables use of
+ // |ProducerEndpoint::CreateTraceWriter|.
+ //
+ // The producer can optionally provide a non-null |shm|, which the service
+ // will adopt for the connection to the producer, provided it is correctly
+ // sized. In this case, |shared_memory_page_size_hint_bytes| indicates the
+ // page size used in this SMB. The producer can use this mechanism to record
+ // tracing data to an SMB even before the tracing session is started by the
+ // service. This is used in Chrome to implement startup tracing. If the buffer
+ // is incorrectly sized, the service will discard the SMB and allocate a new
+ // one, provided to the producer via ProducerEndpoint::shared_memory() after
+ // OnTracingSetup(). To verify that the service accepted the SMB, the producer
+ // may check via ProducerEndpoint::IsShmemProvidedByProducer(). If the service
+ // accepted the SMB, the producer can then commit any data that is already in
+ // the SMB after the tracing session was started by the service via
+ // Producer::StartDataSource(). The |shm| will also be rejected when
+ // connecting to a service that is too old (pre Android-11).
+ //
+ // Can return null in the unlikely event that service has too many producers
+ // connected.
+ virtual std::unique_ptr<ProducerEndpoint> ConnectProducer(
+ Producer*,
+ const ClientIdentity& client_identity,
+ const std::string& name,
+ size_t shared_memory_size_hint_bytes = 0,
+ bool in_process = false,
+ ProducerSMBScrapingMode smb_scraping_mode =
+ ProducerSMBScrapingMode::kDefault,
+ size_t shared_memory_page_size_hint_bytes = 0,
+ std::unique_ptr<SharedMemory> shm = nullptr,
+ const std::string& sdk_version = {}) = 0;
+
+ // Connects a Consumer instance and obtains a ConsumerEndpoint, which is
+ // essentially a 1:1 channel between one Consumer and the Service.
+ // The caller has to guarantee that the passed Consumer will be alive as long
+ // as the returned ConsumerEndpoint is alive.
+ // To disconnect just destroy the returned ConsumerEndpoint object. It is safe
+ // to destroy the Consumer once the Consumer::OnDisconnect() has been invoked.
+ virtual std::unique_ptr<ConsumerEndpoint> ConnectConsumer(Consumer*,
+ uid_t) = 0;
+
+ // Enable/disable scraping of chunks in the shared memory buffer. If enabled,
+ // the service will copy uncommitted but non-empty chunks from the SMB when
+ // flushing (e.g. to handle unresponsive producers or producers unable to
+ // flush their active chunks), on producer disconnect (e.g. to recover data
+ // from crashed producers), and after disabling a tracing session (e.g. to
+ // gather data from producers that didn't stop their data sources in time).
+ //
+ // This feature is currently used by Chrome.
+ virtual void SetSMBScrapingEnabled(bool enabled) = 0;
+
+ using RelayClientID = std::pair<base::MachineID, /*client ID*/ uint64_t>;
+ // Connects a remote RelayClient instance and obtains a RelayEndpoint, which
+ // is a 1:1 channel between one RelayClient and the Service. To disconnect
+ // just call Disconnect() of the RelayEndpoint instance. The relay client is
+ // connected using an identifier of MachineID and client ID. The service
+ // doesn't hold an object that represents the client because the relay port
+ // only has a client-to-host SyncClock() method.
+ //
+ // TODO(chinglinyu): connect the relay client using a RelayClient* object when
+ // we need host-to-client RPC method.
+ virtual std::unique_ptr<RelayEndpoint> ConnectRelayClient(RelayClientID) = 0;
+};
+
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_TRACING_CORE_TRACING_SERVICE_H_
+/*
+ * Copyright (C) 2018 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_TRACING_CORE_SHARED_MEMORY_ARBITER_H_
+#define INCLUDE_PERFETTO_EXT_TRACING_CORE_SHARED_MEMORY_ARBITER_H_
+
+#include <stddef.h>
+
+#include <functional>
+#include <memory>
+#include <vector>
+
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/basic_types.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/shared_memory_abi.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/tracing_service.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/buffer_exhausted_policy.h"
+
+namespace perfetto {
+
+namespace base {
+class TaskRunner;
+}
+
+class SharedMemory;
+class TraceWriter;
+
+// Used by the Producer-side of the transport layer to vend TraceWriters
+// from the SharedMemory it receives from the Service-side.
+class PERFETTO_EXPORT_COMPONENT SharedMemoryArbiter {
+ public:
+ using ShmemMode = SharedMemoryABI::ShmemMode;
+
+ virtual ~SharedMemoryArbiter();
+
+ // Creates a new TraceWriter and assigns it a new WriterID. The WriterID is
+ // written in each chunk header owned by a given TraceWriter and is used by
+ // the Service to reconstruct TracePackets written by the same TraceWriter.
+ // Returns null impl of TraceWriter if all WriterID slots are exhausted. The
+ // writer will commit to the provided |target_buffer|. If the arbiter was
+ // created via CreateUnbound() or CreateStartupTraceWriter() is later used,
+ // only BufferExhaustedPolicy::kDrop is supported.
+ virtual std::unique_ptr<TraceWriter> CreateTraceWriter(
+ BufferID target_buffer,
+ BufferExhaustedPolicy buffer_exhausted_policy =
+ BufferExhaustedPolicy::kDefault) = 0;
+
+ // Creates a TraceWriter that will commit to the target buffer with the given
+ // reservation ID (creating a new reservation for this ID if none exists yet).
+ // The buffer reservation should be bound to an actual BufferID via
+ // BindStartupTargetBuffer() once the actual BufferID is known. Calling this
+ // method may transition the arbiter into unbound state (see state diagram in
+ // SharedMemoryArbiterImpl's class comment) and requires that all (past and
+ // future) TraceWriters are created with BufferExhaustedPolicy::kDrop.
+ //
+ // While any unbound buffer reservation exists, all commits will be buffered
+ // until all reservations were bound. Thus, until all reservations are bound,
+ // the data written to the SMB will not be consumed by the service - the SMB
+ // size should be chosen with this in mind. Startup writers always use
+ // BufferExhaustedPolicy::kDrop, as we cannot feasibly stall while not
+ // flushing to the service.
+ //
+ // The |target_buffer_reservation_id| should be greater than 0 but can
+ // otherwise be freely chosen by the producer and is only used to translate
+ // packets into the actual buffer id once
+ // BindStartupTargetBuffer(reservation_id) is called. For example, Chrome uses
+ // startup tracing not only for the first, but also subsequent tracing
+ // sessions (to enable tracing in the browser process before it instructs the
+ // tracing service to start tracing asynchronously, minimizing trace data loss
+ // in the meantime), and increments the reservation ID between sessions.
+ // Similarly, if more than a single target buffer per session is required
+ // (e.g. for two different data sources), different reservation IDs should be
+ // chosen for different target buffers.
+ virtual std::unique_ptr<TraceWriter> CreateStartupTraceWriter(
+ uint16_t target_buffer_reservation_id) = 0;
+
+ // Should only be called on unbound SharedMemoryArbiters. Binds the arbiter to
+ // the provided ProducerEndpoint and TaskRunner. Should be called only once
+ // and on the provided |TaskRunner|. Usually called by the producer (i.e., no
+ // specific data source) once it connects to the service. Both the endpoint
+ // and task runner should remain valid for the remainder of the arbiter's
+ // lifetime.
+ virtual void BindToProducerEndpoint(TracingService::ProducerEndpoint*,
+ base::TaskRunner*) = 0;
+
+ // Binds commits from TraceWriters created via CreateStartupTraceWriter() with
+ // the given |target_buffer_reservation_id| to |target_buffer_id|. May only be
+ // called once per |target_buffer_reservation_id|. Should be called on the
+ // arbiter's TaskRunner, and after BindToProducerEndpoint() was called.
+ // Usually, it is called by a specific data source, after it received its
+ // configuration (including the target buffer ID) from the service.
+ virtual void BindStartupTargetBuffer(uint16_t target_buffer_reservation_id,
+ BufferID target_buffer_id) = 0;
+
+ // Treat the reservation as resolved to an invalid buffer. Commits for this
+ // reservation will be flushed to the service ASAP. The service will free
+ // committed chunks but otherwise ignore them. The producer can call this
+ // method, for example, if connection to the tracing service failed or the
+ // session was stopped concurrently before the connection was established.
+ virtual void AbortStartupTracingForReservation(
+ uint16_t target_buffer_reservation_id) = 0;
+
+ // Notifies the service that all data for the given FlushRequestID has been
+ // committed in the shared memory buffer. Should only be called while bound.
+ virtual void NotifyFlushComplete(FlushRequestID) = 0;
+
+ // Sets the duration during which commits are batched. Args:
+ // |batch_commits_duration_ms|: The length of the period, during which commits
+ // by all trace writers are accumulated, before being sent to the service.
+ // When the period ends, all accumulated commits are flushed. On the first
+ // commit after the last flush, another delayed flush is scheduled to run in
+ // |batch_commits_duration_ms|. If an immediate flush occurs (via
+ // FlushPendingCommitDataRequests()) during a batching period, any
+ // accumulated commits up to that point will be sent to the service
+ // immediately. And when the batching period ends, the commits that occurred
+ // after the immediate flush will also be sent to the service.
+ //
+ // If the duration has already been set to a non-zero value before this method
+ // is called, and there is already a scheduled flush with the previously-set
+ // duration, the new duration will take effect after the scheduled flush
+ // occurs.
+ //
+ // If |batch_commits_duration_ms| is non-zero, batched data that hasn't been
+ // sent could be lost at the end of a tracing session. To avoid this,
+ // producers should make sure that FlushPendingCommitDataRequests is called
+ // after the last TraceWriter write and before the service has stopped
+ // listening for commits from the tracing session's data sources (i.e.
+ // data sources should stop asynchronously, see
+ // DataSourceDescriptor.will_notify_on_stop=true).
+ virtual void SetBatchCommitsDuration(uint32_t batch_commits_duration_ms) = 0;
+
+ // Called to enable direct producer-side patching of chunks that have not yet
+ // been committed to the service. The return value indicates whether direct
+ // patching was successfully enabled. It will be true if
+ // SharedMemoryArbiter::SetDirectSMBPatchingSupportedByService has been called
+ // and false otherwise.
+ virtual bool EnableDirectSMBPatching() = 0;
+
+ // When the producer and service live in separate processes, this method
+ // should be called if the producer receives an
+ // InitializeConnectionResponse.direct_smb_patching_supported set to true by
+ // the service (see producer_port.proto) .
+ //
+ // In the in-process case, the service will always support direct SMB patching
+ // and this method should always be called.
+ virtual void SetDirectSMBPatchingSupportedByService() = 0;
+
+ // Forces an immediate commit of the completed packets, without waiting for
+ // the next task or for a batching period to end. Should only be called while
+ // bound.
+ virtual void FlushPendingCommitDataRequests(
+ std::function<void()> callback = {}) = 0;
+
+ // Attempts to shut down this arbiter. This function prevents new trace
+ // writers from being created for this this arbiter, but if there are any
+ // existing trace writers, the shutdown cannot proceed and this funtion
+ // returns false. The caller should not delete the arbiter before all of its
+ // associated trace writers have been destroyed and this function returns
+ // true.
+ virtual bool TryShutdown() = 0;
+
+ // Create a bound arbiter instance. Args:
+ // |SharedMemory|: the shared memory buffer to use.
+ // |page_size|: a multiple of 4KB that defines the granularity of tracing
+ // pages. See tradeoff considerations in shared_memory_abi.h.
+ // |ProducerEndpoint|: The service's producer endpoint used e.g. to commit
+ // chunks and register trace writers.
+ // |TaskRunner|: Task runner for perfetto's main thread, which executes the
+ // OnPagesCompleteCallback and IPC calls to the |ProducerEndpoint|.
+ //
+ // Implemented in src/core/shared_memory_arbiter_impl.cc.
+ static std::unique_ptr<SharedMemoryArbiter> CreateInstance(
+ SharedMemory*,
+ size_t page_size,
+ ShmemMode,
+ TracingService::ProducerEndpoint*,
+ base::TaskRunner*);
+
+ // Create an unbound arbiter instance, which should later be bound to a
+ // ProducerEndpoint and TaskRunner by calling BindToProducerEndpoint(). The
+ // returned arbiter will ONLY support trace writers with
+ // BufferExhaustedPolicy::kDrop.
+ //
+ // An unbound SharedMemoryArbiter can be used to write to a producer-created
+ // SharedMemory buffer before the producer connects to the tracing service.
+ // The producer can then pass this SMB to the service when it connects (see
+ // TracingService::ConnectProducer).
+ //
+ // To trace into the SMB before the service starts the tracing session, trace
+ // writers can be obtained via CreateStartupTraceWriter() and later associated
+ // with a target buffer via BindStartupTargetBuffer(), once the target buffer
+ // is known.
+ //
+ // Implemented in src/core/shared_memory_arbiter_impl.cc. See CreateInstance()
+ // for comments about the arguments.
+ static std::unique_ptr<SharedMemoryArbiter>
+ CreateUnboundInstance(SharedMemory*, size_t page_size, ShmemMode mode);
+};
+
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_TRACING_CORE_SHARED_MEMORY_ARBITER_H_
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef SRC_TRACING_CORE_SHARED_MEMORY_ARBITER_IMPL_H_
+#define SRC_TRACING_CORE_SHARED_MEMORY_ARBITER_IMPL_H_
+
+#include <stdint.h>
+
+#include <functional>
+#include <map>
+#include <memory>
+#include <mutex>
+#include <vector>
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/weak_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/basic_types.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/shared_memory_abi.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/shared_memory_arbiter.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/core/forward_decls.h"
+// gen_amalgamated expanded: #include "src/tracing/core/id_allocator.h"
+
+namespace perfetto {
+
+class PatchList;
+class Patch;
+class TraceWriter;
+class TraceWriterImpl;
+
+namespace base {
+class TaskRunner;
+} // namespace base
+
+// This class handles the shared memory buffer on the producer side. It is used
+// to obtain thread-local chunks and to partition pages from several threads.
+// There is one arbiter instance per Producer.
+// This class is thread-safe and uses locks to do so. Data sources are supposed
+// to interact with this sporadically, only when they run out of space on their
+// current thread-local chunk.
+//
+// The arbiter can become "unbound" as a consequence of:
+// (a) being created without an endpoint
+// (b) CreateStartupTraceWriter calls after creation (whether created with or
+// without endpoint).
+//
+// Entering the unbound state is only supported if all trace writers are created
+// in kDrop mode. In the unbound state, the arbiter buffers commit messages
+// until all trace writers are bound to a target buffer.
+//
+// The following state transitions are possible:
+//
+// CreateInstance()
+// |
+// | CreateUnboundInstance()
+// | |
+// | |
+// | V
+// | [ !fully_bound_, !endpoint_, 0 unbound buffer reservations ]
+// | | |
+// | | | CreateStartupTraceWriter(buf)
+// | | | buffer reservations += buf
+// | | |
+// | | | ----
+// | | | | | CreateStartupTraceWriter(buf)
+// | | | | | buffer reservations += buf
+// | | V | V
+// | | [ !fully_bound_, !endpoint_, >=1 unbound buffer reservations ]
+// | | |
+// | | BindToProducerEndpoint() |
+// | | |
+// | | BindToProducerEndpoint() |
+// | | V
+// | | [ !fully_bound_, endpoint_, >=1 unbound buffer reservations ]
+// | | A | A | A
+// | | | | | | |
+// | | | ---- | |
+// | | | CreateStartupTraceWriter(buf) | |
+// | | | buffer reservations += buf | |
+// | | | | |
+// | | | CreateStartupTraceWriter(buf) | |
+// | | | where buf is not yet bound | |
+// | | | buffer reservations += buf | | (yes)
+// | | | | |
+// | | | BindStartupTargetBuffer(buf, id) |-----
+// | | | buffer reservations -= buf | reservations > 0?
+// | | | |
+// | | | | (no)
+// | V | V
+// --> [ fully_bound_, endpoint_, 0 unbound buffer reservations ]
+// | A
+// | | CreateStartupTraceWriter(buf)
+// | | where buf is already bound
+// ----
+class SharedMemoryArbiterImpl : public SharedMemoryArbiter {
+ public:
+ // See SharedMemoryArbiter::CreateInstance(). |start|, |size| define the
+ // boundaries of the shared memory buffer. ProducerEndpoint and TaskRunner may
+ // be |nullptr| if created unbound, see
+ // SharedMemoryArbiter::CreateUnboundInstance().
+
+ // SharedMemoryArbiterImpl(void* start,
+ // size_t size,
+ // size_t page_size,
+ // TracingService::ProducerEndpoint*
+ // producer_endpoint, base::TaskRunner* task_runner) :
+ // SharedMemoryArbiterImpl(start, size, page_size, false, producer_endpoint,
+ // task_runner) {
+ // }
+
+ SharedMemoryArbiterImpl(void* start,
+ size_t size,
+ ShmemMode mode,
+ size_t page_size,
+ TracingService::ProducerEndpoint*,
+ base::TaskRunner*);
+
+ // Returns a new Chunk to write tracing data. Depending on the provided
+ // BufferExhaustedPolicy, this may return an invalid chunk if no valid free
+ // chunk could be found in the SMB.
+ SharedMemoryABI::Chunk GetNewChunk(const SharedMemoryABI::ChunkHeader&,
+ BufferExhaustedPolicy);
+
+ // Puts back a Chunk that has been completed and sends a request to the
+ // service to move it to the central tracing buffer. |target_buffer| is the
+ // absolute trace buffer ID where the service should move the chunk onto (the
+ // producer is just to copy back the same number received in the
+ // DataSourceConfig upon the StartDataSource() reques).
+ // PatchList is a pointer to the list of patches for previous chunks. The
+ // first patched entries will be removed from the patched list and sent over
+ // to the service in the same CommitData() IPC request.
+ void ReturnCompletedChunk(SharedMemoryABI::Chunk,
+ MaybeUnboundBufferID target_buffer,
+ PatchList*);
+
+ // Send a request to the service to apply completed patches from |patch_list|.
+ // |writer_id| is the ID of the TraceWriter that calls this method,
+ // |target_buffer| is the global trace buffer ID of its target buffer.
+ void SendPatches(WriterID writer_id,
+ MaybeUnboundBufferID target_buffer,
+ PatchList* patch_list);
+
+ SharedMemoryABI* shmem_abi_for_testing() { return &shmem_abi_; }
+
+ static void set_default_layout_for_testing(SharedMemoryABI::PageLayout l) {
+ default_page_layout = l;
+ }
+
+ static SharedMemoryABI::PageLayout default_page_layout_for_testing() {
+ return default_page_layout;
+ }
+
+ // SharedMemoryArbiter implementation.
+ // See include/perfetto/tracing/core/shared_memory_arbiter.h for comments.
+ std::unique_ptr<TraceWriter> CreateTraceWriter(
+ BufferID target_buffer,
+ BufferExhaustedPolicy = BufferExhaustedPolicy::kDefault) override;
+ std::unique_ptr<TraceWriter> CreateStartupTraceWriter(
+ uint16_t target_buffer_reservation_id) override;
+ void BindToProducerEndpoint(TracingService::ProducerEndpoint*,
+ base::TaskRunner*) override;
+ void BindStartupTargetBuffer(uint16_t target_buffer_reservation_id,
+ BufferID target_buffer_id) override;
+ void AbortStartupTracingForReservation(
+ uint16_t target_buffer_reservation_id) override;
+ void NotifyFlushComplete(FlushRequestID) override;
+
+ void SetBatchCommitsDuration(uint32_t batch_commits_duration_ms) override;
+
+ bool EnableDirectSMBPatching() override;
+
+ void SetDirectSMBPatchingSupportedByService() override;
+
+ void FlushPendingCommitDataRequests(
+ std::function<void()> callback = {}) override;
+ bool TryShutdown() override;
+
+ base::TaskRunner* task_runner() const { return task_runner_; }
+ size_t page_size() const { return shmem_abi_.page_size(); }
+ size_t num_pages() const { return shmem_abi_.num_pages(); }
+
+ base::WeakPtr<SharedMemoryArbiterImpl> GetWeakPtr() const {
+ return weak_ptr_factory_.GetWeakPtr();
+ }
+
+ private:
+ friend class TraceWriterImpl;
+ friend class StartupTraceWriterTest;
+ friend class SharedMemoryArbiterImplTest;
+
+ struct TargetBufferReservation {
+ bool resolved = false;
+ BufferID target_buffer = kInvalidBufferId;
+ };
+
+ // Placeholder for the actual target buffer ID of a startup target buffer
+ // reservation ID in |target_buffer_reservations_|.
+ static constexpr BufferID kInvalidBufferId = 0;
+
+ static SharedMemoryABI::PageLayout default_page_layout;
+
+ SharedMemoryArbiterImpl(const SharedMemoryArbiterImpl&) = delete;
+ SharedMemoryArbiterImpl& operator=(const SharedMemoryArbiterImpl&) = delete;
+
+ void UpdateCommitDataRequest(SharedMemoryABI::Chunk chunk,
+ WriterID writer_id,
+ MaybeUnboundBufferID target_buffer,
+ PatchList* patch_list);
+
+ // Search the chunks that are being batched in |commit_data_req_| for a chunk
+ // that needs patching and that matches the provided |writer_id| and
+ // |patch.chunk_id|. If found, apply |patch| to that chunk, and if
+ // |chunk_needs_more_patching| is true, clear the needs patching flag of the
+ // chunk and mark it as complete - to allow the service to read it (and other
+ // chunks after it) during scraping. Returns true if the patch was applied,
+ // false otherwise.
+ //
+ // Note: the caller must be holding |lock_| for the duration of the call.
+ bool TryDirectPatchLocked(WriterID writer_id,
+ const Patch& patch,
+ bool chunk_needs_more_patching);
+ std::unique_ptr<TraceWriter> CreateTraceWriterInternal(
+ MaybeUnboundBufferID target_buffer,
+ BufferExhaustedPolicy);
+
+ // Called by the TraceWriter destructor.
+ void ReleaseWriterID(WriterID);
+
+ void BindStartupTargetBufferImpl(std::unique_lock<std::mutex> scoped_lock,
+ uint16_t target_buffer_reservation_id,
+ BufferID target_buffer_id);
+
+ // If any flush callbacks were queued up while the arbiter or any target
+ // buffer reservation was unbound, this wraps the pending callbacks into a new
+ // std::function and returns it. Otherwise returns an invalid std::function.
+ std::function<void()> TakePendingFlushCallbacksLocked();
+
+ // Replace occurrences of target buffer reservation IDs in |commit_data_req_|
+ // with their respective actual BufferIDs if they were already bound. Returns
+ // true iff all occurrences were replaced.
+ bool ReplaceCommitPlaceholderBufferIdsLocked();
+
+ // Update and return |fully_bound_| based on the arbiter's |pending_writers_|
+ // state.
+ bool UpdateFullyBoundLocked();
+
+ // Only accessed on |task_runner_| after the producer endpoint was bound.
+ TracingService::ProducerEndpoint* producer_endpoint_ = nullptr;
+
+ // Set to true when this instance runs in a emulation mode for a producer
+ // endpoint that doesn't support shared memory (e.g. vsock).
+ const bool use_shmem_emulation_ = false;
+
+ // --- Begin lock-protected members ---
+
+ std::mutex lock_;
+
+ base::TaskRunner* task_runner_ = nullptr;
+ SharedMemoryABI shmem_abi_;
+ size_t page_idx_ = 0;
+ std::unique_ptr<CommitDataRequest> commit_data_req_;
+ size_t bytes_pending_commit_ = 0; // SUM(chunk.size() : commit_data_req_).
+ IdAllocator<WriterID> active_writer_ids_;
+ bool did_shutdown_ = false;
+
+ // Whether the arbiter itself and all startup target buffer reservations are
+ // bound. Note that this can become false again later if a new target buffer
+ // reservation is created by calling CreateStartupTraceWriter() with a new
+ // reservation id.
+ bool fully_bound_;
+
+ // Whether the arbiter was always bound. If false, the arbiter was unbound at
+ // one point in time.
+ bool was_always_bound_;
+
+ // Whether all created trace writers were created with kDrop policy.
+ bool all_writers_have_drop_policy_ = true;
+
+ // IDs of writers and their assigned target buffers that should be registered
+ // with the service after the arbiter and/or their startup target buffer is
+ // bound.
+ std::map<WriterID, MaybeUnboundBufferID> pending_writers_;
+
+ // Callbacks for flush requests issued while the arbiter or a target buffer
+ // reservation was unbound.
+ std::vector<std::function<void()>> pending_flush_callbacks_;
+
+ // See SharedMemoryArbiter::SetBatchCommitsDuration.
+ uint32_t batch_commits_duration_ms_ = 0;
+
+ // See SharedMemoryArbiter::EnableDirectSMBPatching.
+ bool direct_patching_enabled_ = false;
+
+ // See SharedMemoryArbiter::SetDirectSMBPatchingSupportedByService.
+ bool direct_patching_supported_by_service_ = false;
+
+ // Indicates whether we have already scheduled a delayed flush for the
+ // purposes of batching. Set to true at the beginning of a batching period and
+ // cleared at the end of the period. Immediate flushes that happen during a
+ // batching period will empty the |commit_data_req| (triggering an immediate
+ // IPC to the service), but will not clear this flag and the
+ // previously-scheduled delayed flush will still occur at the end of the
+ // batching period.
+ bool delayed_flush_scheduled_ = false;
+
+ // Stores target buffer reservations for writers created via
+ // CreateStartupTraceWriter(). A bound reservation sets
+ // TargetBufferReservation::resolved to true and is associated with the actual
+ // BufferID supplied in BindStartupTargetBuffer().
+ //
+ // TODO(eseckler): Clean up entries from this map. This would probably require
+ // a method in SharedMemoryArbiter that allows a producer to invalidate a
+ // reservation ID.
+ std::map<MaybeUnboundBufferID, TargetBufferReservation>
+ target_buffer_reservations_;
+
+ // --- End lock-protected members ---
+
+ // Keep at the end.
+ base::WeakPtrFactory<SharedMemoryArbiterImpl> weak_ptr_factory_;
+};
+
+} // namespace perfetto
+
+#endif // SRC_TRACING_CORE_SHARED_MEMORY_ARBITER_IMPL_H_
+// gen_amalgamated begin header: include/perfetto/ext/tracing/core/commit_data_request.h
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_TRACING_CORE_COMMIT_DATA_REQUEST_H_
+#define INCLUDE_PERFETTO_EXT_TRACING_CORE_COMMIT_DATA_REQUEST_H_
+
+// Creates the aliases in the ::perfetto namespace, doing things like:
+// using ::perfetto::Foo = ::perfetto::protos::gen::Foo.
+// See comments in forward_decls.h for the historical reasons of this
+// indirection layer.
+// gen_amalgamated expanded: #include "perfetto/tracing/core/forward_decls.h"
+
+// gen_amalgamated expanded: #include "protos/perfetto/common/commit_data_request.gen.h"
+
+#endif // INCLUDE_PERFETTO_EXT_TRACING_CORE_COMMIT_DATA_REQUEST_H_
+// gen_amalgamated begin header: src/tracing/core/trace_writer_impl.h
+// gen_amalgamated begin header: src/tracing/core/patch_list.h
+/*
+ * Copyright (C) 2018 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef SRC_TRACING_CORE_PATCH_LIST_H_
+#define SRC_TRACING_CORE_PATCH_LIST_H_
+
+#include <array>
+#include <forward_list>
+
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/basic_types.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/shared_memory_abi.h"
+
+namespace perfetto {
+
+// Used to handle the backfilling of the headers (the |size_field|) of nested
+// messages when a proto is fragmented over several chunks. These patches are
+// sent out-of-band to the tracing service, after having returned the initial
+// chunks of the fragment.
+// TODO(crbug.com/904477): Re-disable the move constructors when all usses of
+// this class have been fixed.
+class Patch {
+ public:
+ using PatchContent = std::array<uint8_t, SharedMemoryABI::kPacketHeaderSize>;
+ Patch(ChunkID c, uint16_t o) : chunk_id(c), offset(o) {}
+ Patch(const Patch&) = default; // For tests.
+
+ const ChunkID chunk_id;
+ const uint16_t offset;
+ PatchContent size_field{};
+
+ // |size_field| contains a varint. Any varint must start with != 0. Even in
+ // the case we want to encode a size == 0, protozero will write a redundant
+ // varint for that, that is [0x80, 0x80, 0x80, 0x00]. So the first byte is 0
+ // iff we never wrote any varint into that.
+ bool is_patched() const { return size_field[0] != 0; }
+
+ // For tests.
+ bool operator==(const Patch& o) const {
+ return chunk_id == o.chunk_id && offset == o.offset &&
+ size_field == o.size_field;
+ }
+
+ private:
+ Patch& operator=(const Patch&) = delete;
+};
+
+// Note: the protozero::Message(s) will take pointers to the |size_field| of
+// these entries. This container must guarantee that the Patch objects are never
+// moved around (i.e. cannot be a vector because of reallocations can change
+// addresses of pre-existing entries).
+class PatchList {
+ public:
+ using ListType = std::forward_list<Patch>;
+ using value_type = ListType::value_type; // For gtest.
+ using const_iterator = ListType::const_iterator; // For gtest.
+
+ PatchList() : last_(list_.before_begin()) {}
+
+ Patch* emplace_back(ChunkID chunk_id, uint16_t offset) {
+ last_ = list_.emplace_after(last_, chunk_id, offset);
+ return &*last_;
+ }
+
+ void pop_front() {
+ PERFETTO_DCHECK(!list_.empty());
+ list_.pop_front();
+ if (empty())
+ last_ = list_.before_begin();
+ }
+
+ const Patch& front() const {
+ PERFETTO_DCHECK(!list_.empty());
+ return list_.front();
+ }
+
+ const Patch& back() const {
+ PERFETTO_DCHECK(!list_.empty());
+ return *last_;
+ }
+
+ ListType::const_iterator begin() const { return list_.begin(); }
+ ListType::const_iterator end() const { return list_.end(); }
+ bool empty() const { return list_.empty(); }
+
+ private:
+ ListType list_;
+ ListType::iterator last_;
+};
+
+} // namespace perfetto
+
+#endif // SRC_TRACING_CORE_PATCH_LIST_H_
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef SRC_TRACING_CORE_TRACE_WRITER_IMPL_H_
+#define SRC_TRACING_CORE_TRACE_WRITER_IMPL_H_
+
+// gen_amalgamated expanded: #include "perfetto/base/proc_utils.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/basic_types.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/shared_memory_abi.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/shared_memory_arbiter.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/trace_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message_handle.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/root_message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_stream_writer.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/buffer_exhausted_policy.h"
+// gen_amalgamated expanded: #include "src/tracing/core/patch_list.h"
+
+namespace perfetto {
+
+class SharedMemoryArbiterImpl;
+
+// See //include/perfetto/ext/tracing/core/trace_writer.h for docs.
+//
+// Locking will happen only when a chunk is exhausted and a new one is
+// acquired from the arbiter.
+//
+// TODO: TraceWriter needs to keep the shared memory buffer alive (refcount?).
+// Otherwise if the shared memory buffer goes away (e.g. the Service crashes)
+// the TraceWriter will keep writing into unmapped memory.
+//
+class TraceWriterImpl : public TraceWriter,
+ public protozero::MessageFinalizationListener,
+ public protozero::ScatteredStreamWriter::Delegate {
+ public:
+ // TracePacketHandle is defined in trace_writer.h
+ TraceWriterImpl(SharedMemoryArbiterImpl*,
+ WriterID,
+ MaybeUnboundBufferID buffer_id,
+ BufferExhaustedPolicy);
+ ~TraceWriterImpl() override;
+
+ // TraceWriter implementation. See documentation in trace_writer.h.
+ TracePacketHandle NewTracePacket() override;
+ void FinishTracePacket() override;
+ // Commits the data pending for the current chunk into the shared memory
+ // buffer and sends a CommitDataRequest() to the service.
+ // TODO(primiano): right now the |callback| will be called on the IPC thread.
+ // This is fine in the current single-thread scenario, but long-term
+ // trace_writer_impl.cc should be smarter and post it on the right thread.
+ void Flush(std::function<void()> callback = {}) override;
+ WriterID writer_id() const override;
+ uint64_t written() const override {
+ return protobuf_stream_writer_.written();
+ }
+
+ void ResetChunkForTesting() {
+ cur_chunk_ = SharedMemoryABI::Chunk();
+ cur_chunk_packet_count_inflated_ = false;
+ }
+ bool drop_packets_for_testing() const { return drop_packets_; }
+
+ private:
+ TraceWriterImpl(const TraceWriterImpl&) = delete;
+ TraceWriterImpl& operator=(const TraceWriterImpl&) = delete;
+
+ // ScatteredStreamWriter::Delegate implementation.
+ protozero::ContiguousMemoryRange GetNewBuffer() override;
+ uint8_t* AnnotatePatch(uint8_t*) override;
+
+ // MessageFinalizationListener implementation.
+ void OnMessageFinalized(protozero::Message*) override;
+
+ // Writes the size of the current fragment into the chunk.
+ //
+ // The size of nested messages inside TracePacket is written by
+ // by the user, but the size of the TracePacket fragments is written by
+ // TraceWriterImpl.
+ void FinalizeFragmentIfRequired();
+
+ // Returns |cur_chunk_| (for which is_valid() must be true) to the
+ // |shmem_arbiter|.
+ void ReturnCompletedChunk();
+
+ // The per-producer arbiter that coordinates access to the shared memory
+ // buffer from several threads.
+ SharedMemoryArbiterImpl* const shmem_arbiter_;
+
+ // ID of the current writer.
+ const WriterID id_;
+
+ // This is copied into the commit request by SharedMemoryArbiter. See comments
+ // in data_source_config.proto for |target_buffer|. If this is a reservation
+ // for a buffer ID in case of a startup trace writer, SharedMemoryArbiterImpl
+ // will also translate the reservation ID to the actual buffer ID.
+ const MaybeUnboundBufferID target_buffer_;
+
+ // Whether GetNewChunk() should stall or return an invalid chunk if the SMB is
+ // exhausted.
+ const BufferExhaustedPolicy buffer_exhausted_policy_;
+
+ // Monotonic (% wrapping) sequence id of the chunk. Together with the WriterID
+ // this allows the Service to reconstruct the linear sequence of packets.
+ ChunkID next_chunk_id_ = 0;
+
+ // The chunk we are holding onto (if any).
+ SharedMemoryABI::Chunk cur_chunk_;
+
+ // Passed to protozero message to write directly into |cur_chunk_|. It
+ // keeps track of the write pointer. It calls us back (GetNewBuffer()) when
+ // |cur_chunk_| is filled.
+ protozero::ScatteredStreamWriter protobuf_stream_writer_;
+
+ // The packet returned via NewTracePacket(). Its owned by this class,
+ // TracePacketHandle has just a pointer to it.
+ //
+ // The caller of NewTracePacket can use TakeStreamWriter() and use the stream
+ // writer directly: in that case:
+ // * cur_packet_->size() is not up to date. Only the stream writer has the
+ // correct information.
+ // * cur_packet_->nested_message() is always nullptr.
+ // * cur_packet_->size_field() is still used to track the start of the current
+ // fragment.
+ std::unique_ptr<protozero::RootMessage<protos::pbzero::TracePacket>>
+ cur_packet_;
+
+ // The start address of |cur_packet_| within |cur_chunk_|. Used to figure out
+ // fragments sizes when a TracePacket write is interrupted by GetNewBuffer().
+ uint8_t* cur_fragment_start_ = nullptr;
+
+ // true if we received a call to GetNewBuffer() after NewTracePacket(),
+ // false if GetNewBuffer() happened during NewTracePacket() prologue, while
+ // starting the TracePacket header.
+ bool fragmenting_packet_ = false;
+
+ // Set to |true| when the current chunk contains the maximum number of packets
+ // a chunk can contain. When this is |true|, the next packet requires starting
+ // a new chunk.
+ bool reached_max_packets_per_chunk_ = false;
+
+ // If we fail to acquire a new chunk when the arbiter operates in
+ // SharedMemory::BufferExhaustedPolicy::kDrop mode, the trace writer enters a
+ // mode in which data is written to a local garbage chunk and dropped.
+ bool drop_packets_ = false;
+
+ // Whether the trace writer should try to acquire a new chunk from the SMB
+ // when the next TracePacket is started because it filled the garbage chunk at
+ // least once since the last attempt.
+ bool retry_new_chunk_after_packet_ = false;
+
+ // Set to true if `cur_chunk_` has a packet counter that's inflated by one.
+ // The count may be inflated to convince the tracing service scraping logic
+ // that the last packet has been completed. When this is true, cur_chunk_
+ // should have at least `kExtraRoomForInflatedPacket` bytes free.
+ bool cur_chunk_packet_count_inflated_ = false;
+
+ // Points to the size field of the still open fragment we're writing to the
+ // current chunk. If the chunk was already returned, this is reset to
+ // |nullptr|. If the fragment is finalized, this is reset to |nullptr|.
+ //
+ // Note: for nested messages the field is tracked somewhere else
+ // (protozero::Message::size_field_ or PerfettoPbMsg::size_field). For the
+ // root message, protozero::Message::size_field_ is nullptr and this is used
+ // instead. This is because at the root level we deal with fragments, not
+ // logical messages.
+ uint8_t* cur_fragment_size_field_ = nullptr;
+
+ // When a packet is fragmented across different chunks, the |size_field| of
+ // the outstanding nested protobuf messages is redirected onto Patch entries
+ // in this list at the time the Chunk is returned (because at that point we
+ // have to release the ownership of the current Chunk). This list will be
+ // later sent out-of-band to the tracing service, who will patch the required
+ // chunks, if they are still around.
+ PatchList patch_list_;
+
+ // PID of the process that created the trace writer. Used for a DCHECK that
+ // aims to detect unsupported process forks while tracing.
+ const base::PlatformProcessId process_id_;
+
+ // True for the first packet on sequence. See the comment for
+ // TracePacket.first_packet_on_sequence for more details.
+ bool first_packet_on_sequence_ = true;
+};
+
+} // namespace perfetto
+
+#endif // SRC_TRACING_CORE_TRACE_WRITER_IMPL_H_
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "src/tracing/core/shared_memory_arbiter_impl.h"
+
+#include <algorithm>
+#include <limits>
+#include <utility>
+
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/base/task_runner.h"
+// gen_amalgamated expanded: #include "perfetto/base/time.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/commit_data_request.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/shared_memory.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/shared_memory_abi.h"
+// gen_amalgamated expanded: #include "src/tracing/core/null_trace_writer.h"
+// gen_amalgamated expanded: #include "src/tracing/core/trace_writer_impl.h"
+
+namespace perfetto {
+
+using Chunk = SharedMemoryABI::Chunk;
+
+namespace {
+static_assert(sizeof(BufferID) == sizeof(uint16_t),
+ "The MaybeUnboundBufferID logic requires BufferID not to grow "
+ "above uint16_t.");
+
+MaybeUnboundBufferID MakeTargetBufferIdForReservation(uint16_t reservation_id) {
+ // Reservation IDs are stored in the upper bits.
+ PERFETTO_CHECK(reservation_id > 0);
+ return static_cast<MaybeUnboundBufferID>(reservation_id) << 16;
+}
+
+bool IsReservationTargetBufferId(MaybeUnboundBufferID buffer_id) {
+ return (buffer_id >> 16) > 0;
+}
+} // namespace
+
+// static
+SharedMemoryABI::PageLayout SharedMemoryArbiterImpl::default_page_layout =
+ SharedMemoryABI::PageLayout::kPageDiv1;
+
+// static
+std::unique_ptr<SharedMemoryArbiter> SharedMemoryArbiter::CreateInstance(
+ SharedMemory* shared_memory,
+ size_t page_size,
+ ShmemMode mode,
+ TracingService::ProducerEndpoint* producer_endpoint,
+ base::TaskRunner* task_runner) {
+ return std::unique_ptr<SharedMemoryArbiterImpl>(new SharedMemoryArbiterImpl(
+ shared_memory->start(), shared_memory->size(), mode, page_size,
+ producer_endpoint, task_runner));
+}
+
+// static
+std::unique_ptr<SharedMemoryArbiter> SharedMemoryArbiter::CreateUnboundInstance(
+ SharedMemory* shared_memory,
+ size_t page_size,
+ ShmemMode mode) {
+ return std::unique_ptr<SharedMemoryArbiterImpl>(new SharedMemoryArbiterImpl(
+ shared_memory->start(), shared_memory->size(), mode, page_size,
+ /*producer_endpoint=*/nullptr, /*task_runner=*/nullptr));
+}
+
+SharedMemoryArbiterImpl::SharedMemoryArbiterImpl(
+ void* start,
+ size_t size,
+ ShmemMode mode,
+ size_t page_size,
+ TracingService::ProducerEndpoint* producer_endpoint,
+ base::TaskRunner* task_runner)
+ : producer_endpoint_(producer_endpoint),
+ use_shmem_emulation_(mode == ShmemMode::kShmemEmulation),
+ task_runner_(task_runner),
+ shmem_abi_(reinterpret_cast<uint8_t*>(start), size, page_size, mode),
+ active_writer_ids_(kMaxWriterID),
+ fully_bound_(task_runner && producer_endpoint),
+ was_always_bound_(fully_bound_),
+ weak_ptr_factory_(this) {}
+
+Chunk SharedMemoryArbiterImpl::GetNewChunk(
+ const SharedMemoryABI::ChunkHeader& header,
+ BufferExhaustedPolicy buffer_exhausted_policy) {
+ int stall_count = 0;
+ unsigned stall_interval_us = 0;
+ bool task_runner_runs_on_current_thread = false;
+ static const unsigned kMaxStallIntervalUs = 100000;
+ static const int kLogAfterNStalls = 3;
+ static const int kFlushCommitsAfterEveryNStalls = 2;
+ static const int kAssertAtNStalls = 200;
+
+ for (;;) {
+ // TODO(primiano): Probably this lock is not really required and this code
+ // could be rewritten leveraging only the Try* atomic operations in
+ // SharedMemoryABI. But let's not be too adventurous for the moment.
+ {
+ std::unique_lock<std::mutex> scoped_lock(lock_);
+
+ // If ever unbound, we do not support stalling. In theory, we could
+ // support stalling for TraceWriters created after the arbiter and startup
+ // buffer reservations were bound, but to avoid raciness between the
+ // creation of startup writers and binding, we categorically forbid kStall
+ // mode.
+ PERFETTO_DCHECK(was_always_bound_ ||
+ buffer_exhausted_policy == BufferExhaustedPolicy::kDrop);
+
+ task_runner_runs_on_current_thread =
+ task_runner_ && task_runner_->RunsTasksOnCurrentThread();
+
+ // If more than half of the SMB.size() is filled with completed chunks for
+ // which we haven't notified the service yet (i.e. they are still enqueued
+ // in |commit_data_req_|), force a synchronous CommitDataRequest() even if
+ // we acquire a chunk, to reduce the likeliness of stalling the writer.
+ //
+ // We can only do this if we're writing on the same thread that we access
+ // the producer endpoint on, since we cannot notify the producer endpoint
+ // to commit synchronously on a different thread. Attempting to flush
+ // synchronously on another thread will lead to subtle bugs caused by
+ // out-of-order commit requests (crbug.com/919187#c28).
+ bool should_commit_synchronously =
+ task_runner_runs_on_current_thread &&
+ buffer_exhausted_policy == BufferExhaustedPolicy::kStall &&
+ commit_data_req_ && bytes_pending_commit_ >= shmem_abi_.size() / 2;
+
+ const size_t initial_page_idx = page_idx_;
+ for (size_t i = 0; i < shmem_abi_.num_pages(); i++) {
+ page_idx_ = (initial_page_idx + i) % shmem_abi_.num_pages();
+ bool is_new_page = false;
+
+ // TODO(primiano): make the page layout dynamic.
+ auto layout = SharedMemoryArbiterImpl::default_page_layout;
+
+ if (shmem_abi_.is_page_free(page_idx_)) {
+ // TODO(primiano): Use the |size_hint| here to decide the layout.
+ is_new_page = shmem_abi_.TryPartitionPage(page_idx_, layout);
+ }
+ uint32_t free_chunks;
+ if (is_new_page) {
+ free_chunks = (1 << SharedMemoryABI::kNumChunksForLayout[layout]) - 1;
+ } else {
+ free_chunks = shmem_abi_.GetFreeChunks(page_idx_);
+ }
+
+ for (uint32_t chunk_idx = 0; free_chunks;
+ chunk_idx++, free_chunks >>= 1) {
+ if (!(free_chunks & 1))
+ continue;
+ // We found a free chunk.
+ Chunk chunk = shmem_abi_.TryAcquireChunkForWriting(
+ page_idx_, chunk_idx, &header);
+ if (!chunk.is_valid())
+ continue;
+ if (stall_count > kLogAfterNStalls) {
+ PERFETTO_LOG("Recovered from stall after %d iterations",
+ stall_count);
+ }
+
+ if (should_commit_synchronously) {
+ // We can't flush while holding the lock.
+ scoped_lock.unlock();
+ FlushPendingCommitDataRequests();
+ return chunk;
+ } else {
+ return chunk;
+ }
+ }
+ }
+ } // scoped_lock
+
+ if (buffer_exhausted_policy == BufferExhaustedPolicy::kDrop) {
+ PERFETTO_DLOG("Shared memory buffer exhausted, returning invalid Chunk!");
+ return Chunk();
+ }
+
+ // Stalling is not supported if we were ever unbound (see earlier comment).
+ PERFETTO_CHECK(was_always_bound_);
+
+ // All chunks are taken (either kBeingWritten by us or kBeingRead by the
+ // Service).
+ if (stall_count++ == kLogAfterNStalls) {
+ PERFETTO_LOG("Shared memory buffer overrun! Stalling");
+ }
+
+ if (stall_count == kAssertAtNStalls) {
+ PERFETTO_FATAL(
+ "Shared memory buffer max stall count exceeded; possible deadlock");
+ }
+
+ // If the IPC thread itself is stalled because the current process has
+ // filled up the SMB, we need to make sure that the service can process and
+ // purge the chunks written by our process, by flushing any pending commit
+ // requests. Because other threads in our process can continue to
+ // concurrently grab, fill and commit any chunks purged by the service, it
+ // is possible that the SMB remains full and the IPC thread remains stalled,
+ // needing to flush the concurrently queued up commits again. This is
+ // particularly likely with in-process perfetto service where the IPC thread
+ // is the service thread. To avoid remaining stalled forever in such a
+ // situation, we attempt to flush periodically after every N stalls.
+ if (stall_count % kFlushCommitsAfterEveryNStalls == 0 &&
+ task_runner_runs_on_current_thread) {
+ // TODO(primiano): sending the IPC synchronously is a temporary workaround
+ // until the backpressure logic in probes_producer is sorted out. Until
+ // then the risk is that we stall the message loop waiting for the tracing
+ // service to consume the shared memory buffer (SMB) and, for this reason,
+ // never run the task that tells the service to purge the SMB. This must
+ // happen iff we are on the IPC thread, not doing this will cause
+ // deadlocks, doing this on the wrong thread causes out-of-order data
+ // commits (crbug.com/919187#c28).
+ FlushPendingCommitDataRequests();
+ } else {
+ base::SleepMicroseconds(stall_interval_us);
+ stall_interval_us =
+ std::min(kMaxStallIntervalUs, (stall_interval_us + 1) * 8);
+ }
+ }
+}
+
+void SharedMemoryArbiterImpl::ReturnCompletedChunk(
+ Chunk chunk,
+ MaybeUnboundBufferID target_buffer,
+ PatchList* patch_list) {
+ PERFETTO_DCHECK(chunk.is_valid());
+ const WriterID writer_id = chunk.writer_id();
+ UpdateCommitDataRequest(std::move(chunk), writer_id, target_buffer,
+ patch_list);
+}
+
+void SharedMemoryArbiterImpl::SendPatches(WriterID writer_id,
+ MaybeUnboundBufferID target_buffer,
+ PatchList* patch_list) {
+ PERFETTO_DCHECK(!patch_list->empty() && patch_list->front().is_patched());
+ UpdateCommitDataRequest(Chunk(), writer_id, target_buffer, patch_list);
+}
+
+void SharedMemoryArbiterImpl::UpdateCommitDataRequest(
+ Chunk chunk,
+ WriterID writer_id,
+ MaybeUnboundBufferID target_buffer,
+ PatchList* patch_list) {
+ // Note: chunk will be invalid if the call came from SendPatches().
+ base::TaskRunner* task_runner_to_post_delayed_callback_on = nullptr;
+ // The delay with which the flush will be posted.
+ uint32_t flush_delay_ms = 0;
+ base::WeakPtr<SharedMemoryArbiterImpl> weak_this;
+ {
+ std::lock_guard<std::mutex> scoped_lock(lock_);
+
+ if (!commit_data_req_) {
+ commit_data_req_.reset(new CommitDataRequest());
+
+ // Flushing the commit is only supported while we're |fully_bound_|. If we
+ // aren't, we'll flush when |fully_bound_| is updated.
+ if (fully_bound_ && !delayed_flush_scheduled_) {
+ weak_this = weak_ptr_factory_.GetWeakPtr();
+ task_runner_to_post_delayed_callback_on = task_runner_;
+ flush_delay_ms = batch_commits_duration_ms_;
+ delayed_flush_scheduled_ = true;
+ }
+ }
+
+ CommitDataRequest::ChunksToMove* ctm = nullptr; // Set if chunk is valid.
+ // If a valid chunk is specified, return it and attach it to the request.
+ if (chunk.is_valid()) {
+ PERFETTO_DCHECK(chunk.writer_id() == writer_id);
+ uint8_t chunk_idx = chunk.chunk_idx();
+ bytes_pending_commit_ += chunk.size();
+ size_t page_idx;
+
+ ctm = commit_data_req_->add_chunks_to_move();
+ // If the chunk needs patching, it should not be marked as complete yet,
+ // because this would indicate to the service that the producer will not
+ // be writing to it anymore, while the producer might still apply patches
+ // to the chunk later on. In particular, when re-reading (e.g. because of
+ // periodic scraping) a completed chunk, the service expects the flags of
+ // that chunk not to be removed between reads. So, let's say the producer
+ // marked the chunk as complete here and the service then read it for the
+ // first time. If the producer then fully patched the chunk, thus removing
+ // the kChunkNeedsPatching flag, and the service re-read the chunk after
+ // the patching, the service would be thrown off by the removed flag.
+ if (direct_patching_enabled_ &&
+ (chunk.GetPacketCountAndFlags().second &
+ SharedMemoryABI::ChunkHeader::kChunkNeedsPatching)) {
+ page_idx = shmem_abi_.GetPageAndChunkIndex(std::move(chunk)).first;
+ } else {
+ // If the chunk doesn't need patching, we can mark it as complete
+ // immediately. This allows the service to read it in full while
+ // scraping, which would not be the case if the chunk was left in a
+ // kChunkBeingWritten state.
+ page_idx = shmem_abi_.ReleaseChunkAsComplete(std::move(chunk));
+ }
+
+ // DO NOT access |chunk| after this point, it has been std::move()-d
+ // above.
+ ctm->set_page(static_cast<uint32_t>(page_idx));
+ ctm->set_chunk(chunk_idx);
+ ctm->set_target_buffer(target_buffer);
+ }
+
+ // Process the completed patches for previous chunks from the |patch_list|.
+ CommitDataRequest::ChunkToPatch* last_patch_req = nullptr;
+ while (!patch_list->empty() && patch_list->front().is_patched()) {
+ Patch curr_patch = patch_list->front();
+ patch_list->pop_front();
+ // Patches for the same chunk are contiguous in the |patch_list|. So, to
+ // determine if there are any other patches that apply to the chunk that
+ // is being patched, check if the next patch in the |patch_list| applies
+ // to the same chunk.
+ bool chunk_needs_more_patching =
+ !patch_list->empty() &&
+ patch_list->front().chunk_id == curr_patch.chunk_id;
+
+ if (direct_patching_enabled_ &&
+ TryDirectPatchLocked(writer_id, curr_patch,
+ chunk_needs_more_patching)) {
+ continue;
+ }
+
+ // The chunk that this patch applies to has already been released to the
+ // service, so it cannot be patches here. Add the patch to the commit data
+ // request, so that it can be sent to the service and applied there.
+ if (!last_patch_req ||
+ last_patch_req->chunk_id() != curr_patch.chunk_id) {
+ last_patch_req = commit_data_req_->add_chunks_to_patch();
+ last_patch_req->set_writer_id(writer_id);
+ last_patch_req->set_chunk_id(curr_patch.chunk_id);
+ last_patch_req->set_target_buffer(target_buffer);
+ }
+ auto* patch = last_patch_req->add_patches();
+ patch->set_offset(curr_patch.offset);
+ patch->set_data(&curr_patch.size_field[0], curr_patch.size_field.size());
+ }
+
+ // Patches are enqueued in the |patch_list| in order and are notified to
+ // the service when the chunk is returned. The only case when the current
+ // patch list is incomplete is if there is an unpatched entry at the head of
+ // the |patch_list| that belongs to the same ChunkID as the last one we are
+ // about to send to the service.
+ if (last_patch_req && !patch_list->empty() &&
+ patch_list->front().chunk_id == last_patch_req->chunk_id()) {
+ last_patch_req->set_has_more_patches(true);
+ }
+
+ // If the buffer is filling up or if we are given a patch for a chunk
+ // that was already sent to the service, we don't want to wait for the next
+ // delayed flush to happen and we flush immediately. Otherwise, if we
+ // accumulate the patch and a crash occurs before the patch is sent, the
+ // service will not know of the patch and won't be able to reconstruct the
+ // trace.
+ if (fully_bound_ &&
+ (last_patch_req || bytes_pending_commit_ >= shmem_abi_.size() / 2)) {
+ weak_this = weak_ptr_factory_.GetWeakPtr();
+ task_runner_to_post_delayed_callback_on = task_runner_;
+ flush_delay_ms = 0;
+ }
+ } // scoped_lock(lock_)
+
+ // We shouldn't post tasks while locked.
+ // |task_runner_to_post_delayed_callback_on| remains valid after unlocking,
+ // because |task_runner_| is never reset.
+ if (task_runner_to_post_delayed_callback_on) {
+ task_runner_to_post_delayed_callback_on->PostDelayedTask(
+ [weak_this] {
+ if (!weak_this)
+ return;
+ {
+ std::lock_guard<std::mutex> scoped_lock(weak_this->lock_);
+ // Clear |delayed_flush_scheduled_|, allowing the next call to
+ // UpdateCommitDataRequest to start another batching period.
+ weak_this->delayed_flush_scheduled_ = false;
+ }
+ weak_this->FlushPendingCommitDataRequests();
+ },
+ flush_delay_ms);
+ }
+}
+
+bool SharedMemoryArbiterImpl::TryDirectPatchLocked(
+ WriterID writer_id,
+ const Patch& patch,
+ bool chunk_needs_more_patching) {
+ // Search the chunks that are being batched in |commit_data_req_| for a chunk
+ // that needs patching and that matches the provided |writer_id| and
+ // |patch.chunk_id|. Iterate |commit_data_req_| in reverse, since
+ // |commit_data_req_| is appended to at the end with newly-returned chunks,
+ // and patches are more likely to apply to chunks that have been returned
+ // recently.
+ SharedMemoryABI::Chunk chunk;
+ bool chunk_found = false;
+ auto& chunks_to_move = commit_data_req_->chunks_to_move();
+ for (auto ctm_it = chunks_to_move.rbegin(); ctm_it != chunks_to_move.rend();
+ ++ctm_it) {
+ uint32_t layout = shmem_abi_.GetPageLayout(ctm_it->page());
+ auto chunk_state =
+ shmem_abi_.GetChunkStateFromLayout(layout, ctm_it->chunk());
+ // Note: the subset of |commit_data_req_| chunks that still need patching is
+ // also the subset of chunks that are still being written to. The rest of
+ // the chunks in |commit_data_req_| do not need patching and have already
+ // been marked as complete.
+ if (chunk_state != SharedMemoryABI::kChunkBeingWritten)
+ continue;
+
+ chunk =
+ shmem_abi_.GetChunkUnchecked(ctm_it->page(), layout, ctm_it->chunk());
+ if (chunk.writer_id() == writer_id &&
+ chunk.header()->chunk_id.load(std::memory_order_relaxed) ==
+ patch.chunk_id) {
+ chunk_found = true;
+ break;
+ }
+ }
+
+ if (!chunk_found) {
+ // The chunk has already been committed to the service and the patch cannot
+ // be applied in the producer.
+ return false;
+ }
+
+ // Apply the patch.
+ size_t page_idx;
+ uint8_t chunk_idx;
+ std::tie(page_idx, chunk_idx) = shmem_abi_.GetPageAndChunkIndex(chunk);
+ PERFETTO_DCHECK(shmem_abi_.GetChunkState(page_idx, chunk_idx) ==
+ SharedMemoryABI::ChunkState::kChunkBeingWritten);
+ auto chunk_begin = chunk.payload_begin();
+ uint8_t* ptr = chunk_begin + patch.offset;
+ PERFETTO_CHECK(ptr <= chunk.end() - SharedMemoryABI::kPacketHeaderSize);
+ // DCHECK that we are writing into a zero-filled size field and not into
+ // valid data. It relies on ScatteredStreamWriter::ReserveBytes() to
+ // zero-fill reservations in debug builds.
+ const char zero[SharedMemoryABI::kPacketHeaderSize]{};
+ PERFETTO_DCHECK(memcmp(ptr, &zero, SharedMemoryABI::kPacketHeaderSize) == 0);
+
+ memcpy(ptr, &patch.size_field[0], SharedMemoryABI::kPacketHeaderSize);
+
+ if (!chunk_needs_more_patching) {
+ // Mark that the chunk doesn't need more patching and mark it as complete,
+ // as the producer will not write to it anymore. This allows the service to
+ // read the chunk in full while scraping, which would not be the case if the
+ // chunk was left in a kChunkBeingWritten state.
+ chunk.ClearNeedsPatchingFlag();
+ shmem_abi_.ReleaseChunkAsComplete(std::move(chunk));
+ }
+
+ return true;
+}
+
+void SharedMemoryArbiterImpl::SetBatchCommitsDuration(
+ uint32_t batch_commits_duration_ms) {
+ std::lock_guard<std::mutex> scoped_lock(lock_);
+ batch_commits_duration_ms_ = batch_commits_duration_ms;
+}
+
+bool SharedMemoryArbiterImpl::EnableDirectSMBPatching() {
+ std::lock_guard<std::mutex> scoped_lock(lock_);
+ if (!direct_patching_supported_by_service_) {
+ return false;
+ }
+
+ return direct_patching_enabled_ = true;
+}
+
+void SharedMemoryArbiterImpl::SetDirectSMBPatchingSupportedByService() {
+ std::lock_guard<std::mutex> scoped_lock(lock_);
+ direct_patching_supported_by_service_ = true;
+}
+
+// This function is quite subtle. When making changes keep in mind these two
+// challenges:
+// 1) If the producer stalls and we happen to be on the |task_runner_| IPC
+// thread (or, for in-process cases, on the same thread where
+// TracingServiceImpl lives), the CommitData() call must be synchronous and
+// not posted, to avoid deadlocks.
+// 2) When different threads hit this function, we must guarantee that we don't
+// accidentally make commits out of order. See commit 4e4fe8f56ef and
+// crbug.com/919187 for more context.
+void SharedMemoryArbiterImpl::FlushPendingCommitDataRequests(
+ std::function<void()> callback) {
+ std::unique_ptr<CommitDataRequest> req;
+ {
+ std::unique_lock<std::mutex> scoped_lock(lock_);
+
+ // Flushing is only supported while |fully_bound_|, and there may still be
+ // unbound startup trace writers. If so, skip the commit for now - it'll be
+ // done when |fully_bound_| is updated.
+ if (!fully_bound_) {
+ if (callback)
+ pending_flush_callbacks_.push_back(callback);
+ return;
+ }
+
+ // May be called by TraceWriterImpl on any thread.
+ base::TaskRunner* task_runner = task_runner_;
+ if (!task_runner->RunsTasksOnCurrentThread()) {
+ // We shouldn't post a task while holding a lock. |task_runner| remains
+ // valid after unlocking, because |task_runner_| is never reset.
+ scoped_lock.unlock();
+
+ auto weak_this = weak_ptr_factory_.GetWeakPtr();
+ task_runner->PostTask([weak_this, callback] {
+ if (weak_this)
+ weak_this->FlushPendingCommitDataRequests(std::move(callback));
+ });
+ return;
+ }
+
+ // |commit_data_req_| could have become a nullptr, for example when a forced
+ // sync flush happens in GetNewChunk().
+ if (commit_data_req_) {
+ // Make sure any placeholder buffer IDs from StartupWriters are replaced
+ // before sending the request.
+ bool all_placeholders_replaced =
+ ReplaceCommitPlaceholderBufferIdsLocked();
+ // We're |fully_bound_|, thus all writers are bound and all placeholders
+ // should have been replaced.
+ PERFETTO_DCHECK(all_placeholders_replaced);
+
+ // In order to allow patching in the producer we delay the kChunkComplete
+ // transition and keep batched chunks in the kChunkBeingWritten state.
+ // Since we are about to notify the service of all batched chunks, it will
+ // not be possible to apply any more patches to them and we need to move
+ // them to kChunkComplete - otherwise the service won't look at them.
+ for (auto& ctm : *commit_data_req_->mutable_chunks_to_move()) {
+ uint32_t layout = shmem_abi_.GetPageLayout(ctm.page());
+ auto chunk_state =
+ shmem_abi_.GetChunkStateFromLayout(layout, ctm.chunk());
+ // Note: the subset of |commit_data_req_| chunks that still need
+ // patching is also the subset of chunks that are still being written
+ // to. The rest of the chunks in |commit_data_req_| do not need patching
+ // and have already been marked as complete.
+ if (chunk_state == SharedMemoryABI::kChunkBeingWritten) {
+ auto chunk =
+ shmem_abi_.GetChunkUnchecked(ctm.page(), layout, ctm.chunk());
+ shmem_abi_.ReleaseChunkAsComplete(std::move(chunk));
+ }
+
+ if (use_shmem_emulation_) {
+ // When running in the emulation mode:
+ // 1. serialize the chunk data to |ctm| as we won't modify the chunk
+ // anymore.
+ // 2. free the chunk as the service won't be able to do this.
+ auto chunk =
+ shmem_abi_.GetChunkUnchecked(ctm.page(), layout, ctm.chunk());
+ PERFETTO_CHECK(chunk.is_valid());
+ ctm.set_data(chunk.begin(), chunk.size());
+ shmem_abi_.ReleaseChunkAsFree(std::move(chunk));
+ }
+ }
+
+ req = std::move(commit_data_req_);
+ bytes_pending_commit_ = 0;
+ }
+ } // scoped_lock
+
+ if (req) {
+ producer_endpoint_->CommitData(*req, callback);
+ } else if (callback) {
+ // If |req| was nullptr, it means that an enqueued deferred commit was
+ // executed just before this. At this point send an empty commit request
+ // to the service, just to linearize with it and give the guarantee to the
+ // caller that the data has been flushed into the service.
+ producer_endpoint_->CommitData(CommitDataRequest(), std::move(callback));
+ }
+}
+
+bool SharedMemoryArbiterImpl::TryShutdown() {
+ std::lock_guard<std::mutex> scoped_lock(lock_);
+ did_shutdown_ = true;
+ // Shutdown is safe if there are no active trace writers for this arbiter.
+ return active_writer_ids_.IsEmpty();
+}
+
+std::unique_ptr<TraceWriter> SharedMemoryArbiterImpl::CreateTraceWriter(
+ BufferID target_buffer,
+ BufferExhaustedPolicy buffer_exhausted_policy) {
+ PERFETTO_CHECK(target_buffer > 0);
+ return CreateTraceWriterInternal(target_buffer, buffer_exhausted_policy);
+}
+
+std::unique_ptr<TraceWriter> SharedMemoryArbiterImpl::CreateStartupTraceWriter(
+ uint16_t target_buffer_reservation_id) {
+ return CreateTraceWriterInternal(
+ MakeTargetBufferIdForReservation(target_buffer_reservation_id),
+ BufferExhaustedPolicy::kDrop);
+}
+
+void SharedMemoryArbiterImpl::BindToProducerEndpoint(
+ TracingService::ProducerEndpoint* producer_endpoint,
+ base::TaskRunner* task_runner) {
+ PERFETTO_DCHECK(producer_endpoint && task_runner);
+ PERFETTO_DCHECK(task_runner->RunsTasksOnCurrentThread());
+
+ bool should_flush = false;
+ std::function<void()> flush_callback;
+ {
+ std::lock_guard<std::mutex> scoped_lock(lock_);
+ PERFETTO_CHECK(!fully_bound_);
+ PERFETTO_CHECK(!producer_endpoint_ && !task_runner_);
+
+ producer_endpoint_ = producer_endpoint;
+ task_runner_ = task_runner;
+
+ // Now that we're bound to a task runner, also reset the WeakPtrFactory to
+ // it. Because this code runs on the task runner, the factory's weak
+ // pointers will be valid on it.
+ weak_ptr_factory_.Reset(this);
+
+ // All writers registered so far should be startup trace writers, since
+ // the producer cannot feasibly know the target buffer for any future
+ // session yet.
+ for (const auto& entry : pending_writers_) {
+ PERFETTO_CHECK(IsReservationTargetBufferId(entry.second));
+ }
+
+ // If all buffer reservations are bound, we can flush pending commits.
+ if (UpdateFullyBoundLocked()) {
+ should_flush = true;
+ flush_callback = TakePendingFlushCallbacksLocked();
+ }
+ } // scoped_lock
+
+ // Attempt to flush any pending commits (and run pending flush callbacks). If
+ // there are none, this will have no effect. If we ended up in a race that
+ // changed |fully_bound_| back to false, the commit will happen once we become
+ // |fully_bound_| again.
+ if (should_flush)
+ FlushPendingCommitDataRequests(flush_callback);
+}
+
+void SharedMemoryArbiterImpl::BindStartupTargetBuffer(
+ uint16_t target_buffer_reservation_id,
+ BufferID target_buffer_id) {
+ PERFETTO_DCHECK(target_buffer_id > 0);
+
+ std::unique_lock<std::mutex> scoped_lock(lock_);
+
+ // We should already be bound to an endpoint.
+ PERFETTO_CHECK(producer_endpoint_);
+ PERFETTO_CHECK(task_runner_);
+ PERFETTO_CHECK(task_runner_->RunsTasksOnCurrentThread());
+
+ BindStartupTargetBufferImpl(std::move(scoped_lock),
+ target_buffer_reservation_id, target_buffer_id);
+}
+
+void SharedMemoryArbiterImpl::AbortStartupTracingForReservation(
+ uint16_t target_buffer_reservation_id) {
+ std::unique_lock<std::mutex> scoped_lock(lock_);
+
+ // If we are already bound to an arbiter, we may need to flush after aborting
+ // the session, and thus should be running on the arbiter's task runner.
+ if (task_runner_ && !task_runner_->RunsTasksOnCurrentThread()) {
+ // We shouldn't post tasks while locked.
+ auto* task_runner = task_runner_;
+ scoped_lock.unlock();
+
+ auto weak_this = weak_ptr_factory_.GetWeakPtr();
+ task_runner->PostTask([weak_this, target_buffer_reservation_id]() {
+ if (!weak_this)
+ return;
+ weak_this->AbortStartupTracingForReservation(
+ target_buffer_reservation_id);
+ });
+ return;
+ }
+
+ // Bind the target buffer reservation to an invalid buffer (ID 0), so that
+ // existing commits, as well as future commits (of currently acquired chunks),
+ // will be released as free free by the service but otherwise ignored (i.e.
+ // not copied into any valid target buffer).
+ BindStartupTargetBufferImpl(std::move(scoped_lock),
+ target_buffer_reservation_id,
+ /*target_buffer_id=*/kInvalidBufferId);
+}
+
+void SharedMemoryArbiterImpl::BindStartupTargetBufferImpl(
+ std::unique_lock<std::mutex> scoped_lock,
+ uint16_t target_buffer_reservation_id,
+ BufferID target_buffer_id) {
+ // We should already be bound to an endpoint if the target buffer is valid.
+ PERFETTO_DCHECK((producer_endpoint_ && task_runner_) ||
+ target_buffer_id == kInvalidBufferId);
+
+ PERFETTO_DLOG("Binding startup target buffer reservation %" PRIu16
+ " to buffer %" PRIu16,
+ target_buffer_reservation_id, target_buffer_id);
+
+ MaybeUnboundBufferID reserved_id =
+ MakeTargetBufferIdForReservation(target_buffer_reservation_id);
+
+ bool should_flush = false;
+ std::function<void()> flush_callback;
+ std::vector<std::pair<WriterID, BufferID>> writers_to_register;
+
+ TargetBufferReservation& reservation =
+ target_buffer_reservations_[reserved_id];
+ PERFETTO_CHECK(!reservation.resolved);
+ reservation.resolved = true;
+ reservation.target_buffer = target_buffer_id;
+
+ // Collect trace writers associated with the reservation.
+ for (auto it = pending_writers_.begin(); it != pending_writers_.end();) {
+ if (it->second == reserved_id) {
+ // No need to register writers that have an invalid target buffer.
+ if (target_buffer_id != kInvalidBufferId) {
+ writers_to_register.push_back(
+ std::make_pair(it->first, target_buffer_id));
+ }
+ it = pending_writers_.erase(it);
+ } else {
+ it++;
+ }
+ }
+
+ // If all buffer reservations are bound, we can flush pending commits.
+ if (UpdateFullyBoundLocked()) {
+ should_flush = true;
+ flush_callback = TakePendingFlushCallbacksLocked();
+ }
+
+ scoped_lock.unlock();
+
+ // Register any newly bound trace writers with the service.
+ for (const auto& writer_and_target_buffer : writers_to_register) {
+ producer_endpoint_->RegisterTraceWriter(writer_and_target_buffer.first,
+ writer_and_target_buffer.second);
+ }
+
+ // Attempt to flush any pending commits (and run pending flush callbacks). If
+ // there are none, this will have no effect. If we ended up in a race that
+ // changed |fully_bound_| back to false, the commit will happen once we become
+ // |fully_bound_| again.
+ if (should_flush)
+ FlushPendingCommitDataRequests(flush_callback);
+}
+
+std::function<void()>
+SharedMemoryArbiterImpl::TakePendingFlushCallbacksLocked() {
+ if (pending_flush_callbacks_.empty())
+ return std::function<void()>();
+
+ std::vector<std::function<void()>> pending_flush_callbacks;
+ pending_flush_callbacks.swap(pending_flush_callbacks_);
+ // Capture the callback list into the lambda by copy.
+ return [pending_flush_callbacks]() {
+ for (auto& callback : pending_flush_callbacks)
+ callback();
+ };
+}
+
+void SharedMemoryArbiterImpl::NotifyFlushComplete(FlushRequestID req_id) {
+ base::TaskRunner* task_runner_to_commit_on = nullptr;
+
+ {
+ std::lock_guard<std::mutex> scoped_lock(lock_);
+ // If a commit_data_req_ exists it means that somebody else already posted a
+ // FlushPendingCommitDataRequests() task.
+ if (!commit_data_req_) {
+ commit_data_req_.reset(new CommitDataRequest());
+
+ // Flushing the commit is only supported while we're |fully_bound_|. If we
+ // aren't, we'll flush when |fully_bound_| is updated.
+ if (fully_bound_)
+ task_runner_to_commit_on = task_runner_;
+ } else {
+ // If there is another request queued and that also contains is a reply
+ // to a flush request, reply with the highest id.
+ req_id = std::max(req_id, commit_data_req_->flush_request_id());
+ }
+ commit_data_req_->set_flush_request_id(req_id);
+ } // scoped_lock
+
+ // We shouldn't post tasks while locked. |task_runner_to_commit_on|
+ // remains valid after unlocking, because |task_runner_| is never reset.
+ if (task_runner_to_commit_on) {
+ auto weak_this = weak_ptr_factory_.GetWeakPtr();
+ task_runner_to_commit_on->PostTask([weak_this] {
+ if (weak_this)
+ weak_this->FlushPendingCommitDataRequests();
+ });
+ }
+}
+
+std::unique_ptr<TraceWriter> SharedMemoryArbiterImpl::CreateTraceWriterInternal(
+ MaybeUnboundBufferID target_buffer,
+ BufferExhaustedPolicy buffer_exhausted_policy) {
+ WriterID id;
+ base::TaskRunner* task_runner_to_register_on = nullptr;
+
+ {
+ std::lock_guard<std::mutex> scoped_lock(lock_);
+ if (did_shutdown_)
+ return std::unique_ptr<TraceWriter>(new NullTraceWriter());
+
+ id = active_writer_ids_.Allocate();
+ if (!id)
+ return std::unique_ptr<TraceWriter>(new NullTraceWriter());
+
+ PERFETTO_DCHECK(!pending_writers_.count(id));
+
+ if (IsReservationTargetBufferId(target_buffer)) {
+ // If the reservation is new, mark it as unbound in
+ // |target_buffer_reservations_|. Otherwise, if the reservation was
+ // already bound, choose the bound buffer ID now.
+ auto it_and_inserted = target_buffer_reservations_.insert(
+ {target_buffer, TargetBufferReservation()});
+ if (it_and_inserted.first->second.resolved)
+ target_buffer = it_and_inserted.first->second.target_buffer;
+ }
+
+ if (IsReservationTargetBufferId(target_buffer)) {
+ // The arbiter and/or startup buffer reservations are not bound yet, so
+ // buffer the registration of the writer until after we're bound.
+ pending_writers_[id] = target_buffer;
+
+ // Mark the arbiter as not fully bound, since we now have at least one
+ // unbound trace writer / target buffer reservation.
+ fully_bound_ = false;
+ was_always_bound_ = false;
+ } else if (target_buffer != kInvalidBufferId) {
+ // Trace writer is bound, so arbiter should be bound to an endpoint, too.
+ PERFETTO_CHECK(producer_endpoint_ && task_runner_);
+ task_runner_to_register_on = task_runner_;
+ }
+
+ // All trace writers must use kDrop policy if the arbiter ever becomes
+ // unbound.
+ bool uses_drop_policy =
+ buffer_exhausted_policy == BufferExhaustedPolicy::kDrop;
+ all_writers_have_drop_policy_ &= uses_drop_policy;
+ PERFETTO_DCHECK(fully_bound_ || uses_drop_policy);
+ PERFETTO_CHECK(fully_bound_ || all_writers_have_drop_policy_);
+ PERFETTO_CHECK(was_always_bound_ || uses_drop_policy);
+ } // scoped_lock
+
+ // We shouldn't post tasks while locked. |task_runner_to_register_on|
+ // remains valid after unlocking, because |task_runner_| is never reset.
+ if (task_runner_to_register_on) {
+ auto weak_this = weak_ptr_factory_.GetWeakPtr();
+ task_runner_to_register_on->PostTask([weak_this, id, target_buffer] {
+ if (weak_this)
+ weak_this->producer_endpoint_->RegisterTraceWriter(id, target_buffer);
+ });
+ }
+
+ return std::unique_ptr<TraceWriter>(
+ new TraceWriterImpl(this, id, target_buffer, buffer_exhausted_policy));
+}
+
+void SharedMemoryArbiterImpl::ReleaseWriterID(WriterID id) {
+ base::TaskRunner* task_runner = nullptr;
+ {
+ std::lock_guard<std::mutex> scoped_lock(lock_);
+ active_writer_ids_.Free(id);
+
+ auto it = pending_writers_.find(id);
+ if (it != pending_writers_.end()) {
+ // Writer hasn't been bound yet and thus also not yet registered with the
+ // service.
+ pending_writers_.erase(it);
+ return;
+ }
+
+ // A trace writer from an aborted session may be destroyed before the
+ // arbiter is bound to a task runner. In that case, it was never registered
+ // with the service.
+ if (!task_runner_)
+ return;
+
+ task_runner = task_runner_;
+ } // scoped_lock
+
+ // We shouldn't post tasks while locked. |task_runner| remains valid after
+ // unlocking, because |task_runner_| is never reset.
+ auto weak_this = weak_ptr_factory_.GetWeakPtr();
+ task_runner->PostTask([weak_this, id] {
+ if (weak_this)
+ weak_this->producer_endpoint_->UnregisterTraceWriter(id);
+ });
+}
+
+bool SharedMemoryArbiterImpl::ReplaceCommitPlaceholderBufferIdsLocked() {
+ if (!commit_data_req_)
+ return true;
+
+ bool all_placeholders_replaced = true;
+ for (auto& chunk : *commit_data_req_->mutable_chunks_to_move()) {
+ if (!IsReservationTargetBufferId(chunk.target_buffer()))
+ continue;
+ const auto it = target_buffer_reservations_.find(chunk.target_buffer());
+ PERFETTO_DCHECK(it != target_buffer_reservations_.end());
+ if (!it->second.resolved) {
+ all_placeholders_replaced = false;
+ continue;
+ }
+ chunk.set_target_buffer(it->second.target_buffer);
+ }
+ for (auto& chunk : *commit_data_req_->mutable_chunks_to_patch()) {
+ if (!IsReservationTargetBufferId(chunk.target_buffer()))
+ continue;
+ const auto it = target_buffer_reservations_.find(chunk.target_buffer());
+ PERFETTO_DCHECK(it != target_buffer_reservations_.end());
+ if (!it->second.resolved) {
+ all_placeholders_replaced = false;
+ continue;
+ }
+ chunk.set_target_buffer(it->second.target_buffer);
+ }
+ return all_placeholders_replaced;
+}
+
+bool SharedMemoryArbiterImpl::UpdateFullyBoundLocked() {
+ if (!producer_endpoint_) {
+ PERFETTO_DCHECK(!fully_bound_);
+ return false;
+ }
+ // We're fully bound if all target buffer reservations have a valid associated
+ // BufferID.
+ fully_bound_ = std::none_of(
+ target_buffer_reservations_.begin(), target_buffer_reservations_.end(),
+ [](std::pair<MaybeUnboundBufferID, TargetBufferReservation> entry) {
+ return !entry.second.resolved;
+ });
+ if (!fully_bound_)
+ was_always_bound_ = false;
+ return fully_bound_;
+}
+
+} // namespace perfetto
+// gen_amalgamated begin source: src/tracing/core/trace_packet.cc
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/trace_packet.h"
+
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+
+TracePacket::TracePacket() = default;
+TracePacket::~TracePacket() = default;
+
+TracePacket::TracePacket(TracePacket&& other) noexcept {
+ *this = std::move(other);
+}
+
+TracePacket& TracePacket::operator=(TracePacket&& other) {
+ slices_ = std::move(other.slices_);
+ other.slices_.clear();
+ size_ = other.size_;
+ other.size_ = 0;
+ buffer_index_for_stats_ = other.buffer_index_for_stats_;
+ other.buffer_index_for_stats_ = 0;
+ return *this;
+}
+
+void TracePacket::AddSlice(Slice slice) {
+ size_ += slice.size;
+ slices_.push_back(std::move(slice));
+}
+
+void TracePacket::AddSlice(const void* start, size_t size) {
+ size_ += size;
+ slices_.emplace_back(start, size);
+}
+
+std::tuple<char*, size_t> TracePacket::GetProtoPreamble() {
+ using protozero::proto_utils::MakeTagLengthDelimited;
+ using protozero::proto_utils::WriteVarInt;
+ uint8_t* ptr = reinterpret_cast<uint8_t*>(&preamble_[0]);
+
+ constexpr uint8_t tag = MakeTagLengthDelimited(kPacketFieldNumber);
+ static_assert(tag < 0x80, "TracePacket tag should fit in one byte");
+ *(ptr++) = tag;
+
+ ptr = WriteVarInt(size(), ptr);
+ size_t preamble_size = reinterpret_cast<uintptr_t>(ptr) -
+ reinterpret_cast<uintptr_t>(&preamble_[0]);
+ PERFETTO_DCHECK(preamble_size <= sizeof(preamble_));
+ return std::make_tuple(&preamble_[0], preamble_size);
+}
+
+std::string TracePacket::GetRawBytesForTesting() {
+ std::string data;
+ data.resize(size());
+ size_t pos = 0;
+ for (const Slice& slice : slices()) {
+ PERFETTO_CHECK(pos + slice.size <= data.size());
+ memcpy(&data[pos], slice.start, slice.size);
+ pos += slice.size;
+ }
+ return data;
+}
+
+} // namespace perfetto
+// gen_amalgamated begin source: src/tracing/core/trace_writer_impl.cc
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "src/tracing/core/trace_writer_impl.h"
+
+#include <string.h>
+
+#include <algorithm>
+#include <type_traits>
+#include <utility>
+
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/thread_annotations.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/root_message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/static_buffer.h"
+// gen_amalgamated expanded: #include "src/tracing/core/shared_memory_arbiter_impl.h"
+
+// gen_amalgamated expanded: #include "protos/perfetto/trace/trace_packet.pbzero.h"
+
+using protozero::proto_utils::kMessageLengthFieldSize;
+using protozero::proto_utils::WriteRedundantVarInt;
+using ChunkHeader = perfetto::SharedMemoryABI::ChunkHeader;
+
+namespace perfetto {
+
+namespace {
+constexpr size_t kPacketHeaderSize = SharedMemoryABI::kPacketHeaderSize;
+// The -1 is because we want to leave extra room to inflate the counter.
+constexpr size_t kMaxPacketsPerChunk = ChunkHeader::Packets::kMaxCount - 1;
+// When the packet count in a chunk is inflated, TraceWriter is always going to
+// leave this kExtraRoomForInflatedPacket bytes to write an empty trace packet
+// if it needs to.
+constexpr size_t kExtraRoomForInflatedPacket = 1;
+uint8_t g_garbage_chunk[1024];
+} // namespace
+
+TraceWriterImpl::TraceWriterImpl(SharedMemoryArbiterImpl* shmem_arbiter,
+ WriterID id,
+ MaybeUnboundBufferID target_buffer,
+ BufferExhaustedPolicy buffer_exhausted_policy)
+ : shmem_arbiter_(shmem_arbiter),
+ id_(id),
+ target_buffer_(target_buffer),
+ buffer_exhausted_policy_(buffer_exhausted_policy),
+ protobuf_stream_writer_(this),
+ process_id_(base::GetProcessId()) {
+ // TODO(primiano): we could handle the case of running out of TraceWriterID(s)
+ // more gracefully and always return a no-op TracePacket in NewTracePacket().
+ PERFETTO_CHECK(id_ != 0);
+
+ cur_packet_.reset(new protozero::RootMessage<protos::pbzero::TracePacket>());
+ cur_packet_->Finalize(); // To avoid the CHECK in NewTracePacket().
+}
+
+TraceWriterImpl::~TraceWriterImpl() {
+ if (cur_chunk_.is_valid()) {
+ cur_packet_->Finalize();
+ Flush();
+ }
+ // This call may cause the shared memory arbiter (and the underlying memory)
+ // to get asynchronously deleted if this was the last trace writer targeting
+ // the arbiter and the arbiter was marked for shutdown.
+ shmem_arbiter_->ReleaseWriterID(id_);
+}
+
+void TraceWriterImpl::ReturnCompletedChunk() {
+ PERFETTO_DCHECK(cur_chunk_.is_valid());
+ if (cur_chunk_packet_count_inflated_) {
+ uint8_t zero_size = 0;
+ static_assert(sizeof zero_size == kExtraRoomForInflatedPacket);
+ PERFETTO_CHECK(protobuf_stream_writer_.bytes_available() != 0);
+ protobuf_stream_writer_.WriteBytesUnsafe(&zero_size, sizeof zero_size);
+ cur_chunk_packet_count_inflated_ = false;
+ }
+ shmem_arbiter_->ReturnCompletedChunk(std::move(cur_chunk_), target_buffer_,
+ &patch_list_);
+}
+
+void TraceWriterImpl::Flush(std::function<void()> callback) {
+ // Flush() cannot be called in the middle of a TracePacket.
+ PERFETTO_CHECK(cur_packet_->is_finalized());
+ // cur_packet_ is finalized: that means that the size is correct for all the
+ // nested submessages. The root fragment size however is not handled by
+ // protozero::Message::Finalize() and must be filled here.
+ FinalizeFragmentIfRequired();
+
+ if (cur_chunk_.is_valid()) {
+ ReturnCompletedChunk();
+ } else {
+ // When in stall mode, all patches should have been returned with the last
+ // chunk, since the last packet was completed. In drop_packets_ mode, this
+ // may not be the case because the packet may have been fragmenting when
+ // SMB exhaustion occurred and |cur_chunk_| became invalid. In this case,
+ // drop_packets_ should be true.
+ PERFETTO_DCHECK(patch_list_.empty() || drop_packets_);
+ }
+
+ // Always issue the Flush request, even if there is nothing to flush, just
+ // for the sake of getting the callback posted back.
+ shmem_arbiter_->FlushPendingCommitDataRequests(callback);
+ protobuf_stream_writer_.Reset({nullptr, nullptr});
+}
+
+TraceWriterImpl::TracePacketHandle TraceWriterImpl::NewTracePacket() {
+ // If we hit this, the caller is calling NewTracePacket() without having
+ // finalized the previous packet.
+ PERFETTO_CHECK(cur_packet_->is_finalized());
+ // If we hit this, this trace writer was created in a different process. This
+ // likely means that the process forked while tracing was active, and the
+ // forked child process tried to emit a trace event. This is not supported, as
+ // it would lead to two processes writing to the same tracing SMB.
+ PERFETTO_DCHECK(process_id_ == base::GetProcessId());
+
+ // Before starting a new packet, make sure that the last fragment size has ben
+ // written correctly. The root fragment size is not written by
+ // protozero::Message::Finalize().
+ FinalizeFragmentIfRequired();
+
+ fragmenting_packet_ = false;
+
+ // Reserve space for the size of the message. Note: this call might re-enter
+ // into this class invoking GetNewBuffer() if there isn't enough space or if
+ // this is the very first call to NewTracePacket().
+ static_assert(kPacketHeaderSize == kMessageLengthFieldSize,
+ "The packet header must match the Message header size");
+
+ bool was_dropping_packets = drop_packets_;
+
+ // It doesn't make sense to begin a packet that is going to fragment
+ // immediately after (8 is just an arbitrary estimation on the minimum size of
+ // a realistic packet).
+ bool chunk_too_full =
+ protobuf_stream_writer_.bytes_available() < kPacketHeaderSize + 8;
+ if (chunk_too_full || reached_max_packets_per_chunk_ ||
+ retry_new_chunk_after_packet_) {
+ protobuf_stream_writer_.Reset(GetNewBuffer());
+ }
+
+ // Send any completed patches to the service to facilitate trace data
+ // recovery by the service. This should only happen when we're completing
+ // the first packet in a chunk which was a continuation from the previous
+ // chunk, i.e. at most once per chunk.
+ if (!patch_list_.empty() && patch_list_.front().is_patched()) {
+ shmem_arbiter_->SendPatches(id_, target_buffer_, &patch_list_);
+ }
+
+ cur_packet_->Reset(&protobuf_stream_writer_);
+ uint8_t* header = protobuf_stream_writer_.ReserveBytes(kPacketHeaderSize);
+ memset(header, 0, kPacketHeaderSize);
+ cur_fragment_size_field_ = header;
+
+ TracePacketHandle handle(cur_packet_.get());
+ cur_fragment_start_ = protobuf_stream_writer_.write_ptr();
+ fragmenting_packet_ = true;
+
+ if (PERFETTO_LIKELY(!drop_packets_)) {
+ uint16_t new_packet_count;
+ if (cur_chunk_packet_count_inflated_) {
+ new_packet_count =
+ cur_chunk_.header()->packets.load(std::memory_order_relaxed).count;
+ cur_chunk_packet_count_inflated_ = false;
+ } else {
+ new_packet_count = cur_chunk_.IncrementPacketCount();
+ }
+ reached_max_packets_per_chunk_ = new_packet_count == kMaxPacketsPerChunk;
+
+ if (PERFETTO_UNLIKELY(was_dropping_packets)) {
+ // We've succeeded to get a new chunk from the SMB after we entered
+ // drop_packets_ mode. Record a marker into the new packet to indicate the
+ // data loss.
+ cur_packet_->set_previous_packet_dropped(true);
+ }
+ }
+
+ if (PERFETTO_UNLIKELY(first_packet_on_sequence_)) {
+ cur_packet_->set_first_packet_on_sequence(true);
+ first_packet_on_sequence_ = false;
+ }
+
+ handle.set_finalization_listener(this);
+
+ return handle;
+}
+
+// Called by the Message. We can get here in two cases:
+// 1. In the middle of writing a Message,
+// when |fragmenting_packet_| == true. In this case we want to update the
+// chunk header with a partial packet and start a new partial packet in the
+// new chunk.
+// 2. While calling ReserveBytes() for the packet header in NewTracePacket().
+// In this case |fragmenting_packet_| == false and we just want a new chunk
+// without creating any fragments.
+protozero::ContiguousMemoryRange TraceWriterImpl::GetNewBuffer() {
+ if (fragmenting_packet_ && drop_packets_) {
+ // We can't write the remaining data of the fragmenting packet to a new
+ // chunk, because we have already lost some of its data in the garbage
+ // chunk. Thus, we will wrap around in the garbage chunk, wait until the
+ // current packet was completed, and then attempt to get a new chunk from
+ // the SMB again. Instead, if |drop_packets_| is true and
+ // |fragmenting_packet_| is false, we try to acquire a valid chunk because
+ // the SMB exhaustion might be resolved.
+ retry_new_chunk_after_packet_ = true;
+ cur_fragment_size_field_ = nullptr;
+ cur_fragment_start_ = &g_garbage_chunk[0];
+ return protozero::ContiguousMemoryRange{
+ &g_garbage_chunk[0], &g_garbage_chunk[0] + sizeof(g_garbage_chunk)};
+ }
+
+ // Attempt to grab the next chunk before finalizing the current one, so that
+ // we know whether we need to start dropping packets before writing the
+ // current packet fragment's header.
+ ChunkHeader::Packets packets = {};
+ if (fragmenting_packet_) {
+ packets.count = 1;
+ packets.flags = ChunkHeader::kFirstPacketContinuesFromPrevChunk;
+ }
+
+ // The memory order of the stores below doesn't really matter. This |header|
+ // is just a local temporary object. The GetNewChunk() call below will copy it
+ // into the shared buffer with the proper barriers.
+ ChunkHeader header = {};
+ header.writer_id.store(id_, std::memory_order_relaxed);
+ header.chunk_id.store(next_chunk_id_, std::memory_order_relaxed);
+ header.packets.store(packets, std::memory_order_relaxed);
+
+ SharedMemoryABI::Chunk new_chunk =
+ shmem_arbiter_->GetNewChunk(header, buffer_exhausted_policy_);
+ if (!new_chunk.is_valid()) {
+ // Shared memory buffer exhausted, switch into |drop_packets_| mode. We'll
+ // drop data until the garbage chunk has been filled once and then retry.
+
+ // If we started a packet in one of the previous (valid) chunks, we need to
+ // tell the service to discard it.
+ if (fragmenting_packet_) {
+ // We can only end up here if the previous chunk was a valid chunk,
+ // because we never try to acquire a new chunk in |drop_packets_| mode
+ // while fragmenting.
+ PERFETTO_DCHECK(!drop_packets_);
+
+ // Backfill the last fragment's header with an invalid size (too large),
+ // so that the service's TraceBuffer throws out the incomplete packet.
+ // It'll restart reading from the next chunk we submit.
+ WriteRedundantVarInt(SharedMemoryABI::kPacketSizeDropPacket,
+ cur_fragment_size_field_);
+
+ // Reset the size field, since we should not write the current packet's
+ // size anymore after this.
+ cur_fragment_size_field_ = nullptr;
+
+ // We don't set kLastPacketContinuesOnNextChunk or kChunkNeedsPatching on
+ // the last chunk, because its last fragment will be discarded anyway.
+ // However, the current packet fragment points to a valid |cur_chunk_| and
+ // may have non-finalized nested messages which will continue in the
+ // garbage chunk and currently still point into |cur_chunk_|. As we are
+ // about to return |cur_chunk_|, we need to invalidate the size fields of
+ // those nested messages. Normally we move them in the |patch_list_| (see
+ // below) but in this case, it doesn't make sense to send patches for a
+ // fragment that will be discarded for sure. Thus, we clean up any size
+ // field references into |cur_chunk_|.
+ for (auto* nested_msg = cur_packet_->nested_message(); nested_msg;
+ nested_msg = nested_msg->nested_message()) {
+ uint8_t* const cur_hdr = nested_msg->size_field();
+
+ // If this is false the protozero Message has already been instructed to
+ // write, upon Finalize(), its size into the patch list.
+ bool size_field_points_within_chunk =
+ cur_hdr >= cur_chunk_.payload_begin() &&
+ cur_hdr + kMessageLengthFieldSize <= cur_chunk_.end();
+
+ if (size_field_points_within_chunk)
+ nested_msg->set_size_field(nullptr);
+ }
+ } else if (!drop_packets_ && cur_fragment_size_field_) {
+ // If we weren't dropping packets before, we should indicate to the
+ // service that we're about to lose data. We do this by invalidating the
+ // size of the last packet in |cur_chunk_|. The service will record
+ // statistics about packets with kPacketSizeDropPacket size.
+ PERFETTO_DCHECK(cur_packet_->is_finalized());
+ PERFETTO_DCHECK(cur_chunk_.is_valid());
+
+ // |cur_fragment_size_field_| should point within |cur_chunk_|'s payload.
+ PERFETTO_DCHECK(cur_fragment_size_field_ >= cur_chunk_.payload_begin() &&
+ cur_fragment_size_field_ + kMessageLengthFieldSize <=
+ cur_chunk_.end());
+
+ WriteRedundantVarInt(SharedMemoryABI::kPacketSizeDropPacket,
+ cur_fragment_size_field_);
+ }
+
+ if (cur_chunk_.is_valid()) {
+ ReturnCompletedChunk();
+ }
+
+ drop_packets_ = true;
+ cur_chunk_ = SharedMemoryABI::Chunk(); // Reset to an invalid chunk.
+ cur_chunk_packet_count_inflated_ = false;
+ reached_max_packets_per_chunk_ = false;
+ retry_new_chunk_after_packet_ = false;
+ cur_fragment_size_field_ = nullptr;
+ cur_fragment_start_ = &g_garbage_chunk[0];
+
+ PERFETTO_ANNOTATE_BENIGN_RACE_SIZED(&g_garbage_chunk,
+ sizeof(g_garbage_chunk),
+ "nobody reads the garbage chunk")
+ return protozero::ContiguousMemoryRange{
+ &g_garbage_chunk[0], &g_garbage_chunk[0] + sizeof(g_garbage_chunk)};
+ } // if (!new_chunk.is_valid())
+
+ PERFETTO_DCHECK(new_chunk.is_valid());
+
+ if (fragmenting_packet_) {
+ // We should not be fragmenting a packet after we exited drop_packets_ mode,
+ // because we only retry to get a new chunk when a fresh packet is started.
+ PERFETTO_DCHECK(!drop_packets_);
+
+ uint8_t* const wptr = protobuf_stream_writer_.write_ptr();
+ PERFETTO_DCHECK(wptr >= cur_fragment_start_);
+ uint32_t partial_size = static_cast<uint32_t>(wptr - cur_fragment_start_);
+ PERFETTO_DCHECK(partial_size < cur_chunk_.size());
+
+ // Backfill the packet header with the fragment size.
+ PERFETTO_DCHECK(partial_size > 0);
+ cur_chunk_.SetFlag(ChunkHeader::kLastPacketContinuesOnNextChunk);
+ WriteRedundantVarInt(partial_size, cur_fragment_size_field_);
+
+ // Descend in the stack of non-finalized nested submessages (if any) and
+ // detour their |size_field| into the |patch_list_|. At this point we have
+ // to release the chunk and they cannot write anymore into that.
+ for (auto* nested_msg = cur_packet_->nested_message(); nested_msg;
+ nested_msg = nested_msg->nested_message()) {
+ uint8_t* cur_hdr = nested_msg->size_field();
+
+ // If this is false the protozero Message has already been instructed to
+ // write, upon Finalize(), its size into the patch list.
+ bool size_field_points_within_chunk =
+ cur_hdr >= cur_chunk_.payload_begin() &&
+ cur_hdr + kMessageLengthFieldSize <= cur_chunk_.end();
+
+ if (size_field_points_within_chunk) {
+ cur_hdr = TraceWriterImpl::AnnotatePatch(cur_hdr);
+ nested_msg->set_size_field(cur_hdr);
+ } else {
+#if PERFETTO_DCHECK_IS_ON()
+ // Ensure that the size field of the message points to an element of the
+ // patch list.
+ auto patch_it = std::find_if(
+ patch_list_.begin(), patch_list_.end(),
+ [cur_hdr](const Patch& p) { return &p.size_field[0] == cur_hdr; });
+ PERFETTO_DCHECK(patch_it != patch_list_.end());
+#endif
+ }
+ } // for(nested_msg)
+ } // if(fragmenting_packet)
+
+ if (cur_chunk_.is_valid()) {
+ // ReturnCompletedChunk will consume the first patched entries from
+ // |patch_list_| and shrink it.
+ ReturnCompletedChunk();
+ }
+
+ // Switch to the new chunk.
+ drop_packets_ = false;
+ reached_max_packets_per_chunk_ = false;
+ retry_new_chunk_after_packet_ = false;
+ next_chunk_id_++;
+ cur_chunk_ = std::move(new_chunk);
+ cur_chunk_packet_count_inflated_ = false;
+ cur_fragment_size_field_ = nullptr;
+
+ uint8_t* payload_begin = cur_chunk_.payload_begin();
+ if (fragmenting_packet_) {
+ cur_fragment_size_field_ = payload_begin;
+ memset(payload_begin, 0, kPacketHeaderSize);
+ payload_begin += kPacketHeaderSize;
+ cur_fragment_start_ = payload_begin;
+ }
+
+ return protozero::ContiguousMemoryRange{payload_begin, cur_chunk_.end()};
+}
+
+void TraceWriterImpl::FinishTracePacket() {
+ // If we hit this, this trace writer was created in a different process. This
+ // likely means that the process forked while tracing was active, and the
+ // forked child process tried to emit a trace event. This is not supported, as
+ // it would lead to two processes writing to the same tracing SMB.
+ PERFETTO_DCHECK(process_id_ == base::GetProcessId());
+
+ FinalizeFragmentIfRequired();
+
+ cur_packet_->Reset(&protobuf_stream_writer_);
+ cur_packet_->Finalize(); // To avoid the CHECK in NewTracePacket().
+
+ // cur_chunk_packet_count_inflated_ can be true if FinishTracePacket() is
+ // called multiple times.
+ if (cur_chunk_.is_valid() && !cur_chunk_packet_count_inflated_) {
+ if (protobuf_stream_writer_.bytes_available() <
+ kExtraRoomForInflatedPacket) {
+ ReturnCompletedChunk();
+ } else {
+ cur_chunk_packet_count_inflated_ = true;
+ cur_chunk_.IncrementPacketCount();
+ }
+ }
+
+ // Send any completed patches to the service to facilitate trace data
+ // recovery by the service. This should only happen when we're completing
+ // the first packet in a chunk which was a continuation from the previous
+ // chunk, i.e. at most once per chunk.
+ if (!patch_list_.empty() && patch_list_.front().is_patched()) {
+ shmem_arbiter_->SendPatches(id_, target_buffer_, &patch_list_);
+ }
+}
+
+void TraceWriterImpl::FinalizeFragmentIfRequired() {
+ if (!cur_fragment_size_field_) {
+ return;
+ }
+ uint8_t* const wptr = protobuf_stream_writer_.write_ptr();
+ PERFETTO_DCHECK(wptr >= cur_fragment_start_);
+ uint32_t partial_size = static_cast<uint32_t>(wptr - cur_fragment_start_);
+
+ // cur_fragment_size_field_, if not nullptr, is always inside or immediately
+ // before protobuf_stream_writer_.cur_range().
+ if (partial_size < protozero::proto_utils::kMaxOneByteMessageLength &&
+ cur_fragment_size_field_ >= protobuf_stream_writer_.cur_range().begin) {
+ // This handles compaction of the root message. For nested messages, the
+ // compaction is handled by protozero::Message::Finalize().
+ protobuf_stream_writer_.Rewind(
+ partial_size, protozero::proto_utils::kMessageLengthFieldSize - 1u);
+ *cur_fragment_size_field_ = static_cast<uint8_t>(partial_size);
+ } else {
+ WriteRedundantVarInt(partial_size, cur_fragment_size_field_);
+ }
+ cur_fragment_size_field_ = nullptr;
+}
+
+uint8_t* TraceWriterImpl::AnnotatePatch(uint8_t* to_patch) {
+ if (!cur_chunk_.is_valid()) {
+ return nullptr;
+ }
+ auto offset = static_cast<uint16_t>(to_patch - cur_chunk_.payload_begin());
+ const ChunkID cur_chunk_id =
+ cur_chunk_.header()->chunk_id.load(std::memory_order_relaxed);
+ static_assert(kPatchSize == sizeof(Patch::PatchContent),
+ "Patch size mismatch");
+ Patch* patch = patch_list_.emplace_back(cur_chunk_id, offset);
+ // Check that the flag is not already set before setting it. This is not
+ // necessary, but it makes the code faster.
+ if (!(cur_chunk_.GetPacketCountAndFlags().second &
+ ChunkHeader::kChunkNeedsPatching)) {
+ cur_chunk_.SetFlag(ChunkHeader::kChunkNeedsPatching);
+ }
+ return &patch->size_field[0];
+}
+
+void TraceWriterImpl::OnMessageFinalized(protozero::Message*) {
+ TraceWriterImpl::FinishTracePacket();
+}
+
+WriterID TraceWriterImpl::writer_id() const {
+ return id_;
+}
+
+// Base class definitions.
+TraceWriter::TraceWriter() = default;
+TraceWriter::~TraceWriter() = default;
+
+} // namespace perfetto
+// gen_amalgamated begin source: src/tracing/core/virtual_destructors.cc
+// gen_amalgamated begin header: include/perfetto/ext/tracing/core/consumer.h
+// gen_amalgamated begin header: include/perfetto/ext/tracing/core/observable_events.h
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_TRACING_CORE_OBSERVABLE_EVENTS_H_
+#define INCLUDE_PERFETTO_EXT_TRACING_CORE_OBSERVABLE_EVENTS_H_
+
+// Creates the aliases in the ::perfetto namespace, doing things like:
+// using ::perfetto::Foo = ::perfetto::protos::gen::Foo.
+// See comments in forward_decls.h for the historical reasons of this
+// indirection layer.
+// gen_amalgamated expanded: #include "perfetto/tracing/core/forward_decls.h"
+
+// gen_amalgamated expanded: #include "protos/perfetto/common/observable_events.gen.h"
+
+#endif // INCLUDE_PERFETTO_EXT_TRACING_CORE_OBSERVABLE_EVENTS_H_
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_TRACING_CORE_CONSUMER_H_
+#define INCLUDE_PERFETTO_EXT_TRACING_CORE_CONSUMER_H_
+
+#include <vector>
+
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/uuid.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/basic_types.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/observable_events.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/core/forward_decls.h"
+namespace perfetto {
+
+class TracePacket;
+
+class PERFETTO_EXPORT_COMPONENT Consumer {
+ public:
+ virtual ~Consumer();
+
+ // Called by Service (or more typically by the transport layer, on behalf of
+ // the remote Service), once the Consumer <> Service connection has been
+ // established.
+ virtual void OnConnect() = 0;
+
+ // Called by the Service or by the transport layer if the connection with the
+ // service drops, either voluntarily (e.g., by destroying the ConsumerEndpoint
+ // obtained through Service::ConnectConsumer()) or involuntarily (e.g., if the
+ // Service process crashes).
+ virtual void OnDisconnect() = 0;
+
+ // Called by the Service after the tracing session has ended. This can happen
+ // for a variety of reasons:
+ // - The consumer explicitly called DisableTracing()
+ // - The TraceConfig's |duration_ms| has been reached.
+ // - The TraceConfig's |max_file_size_bytes| has been reached.
+ // - An error occurred while trying to enable tracing. In this case |error|
+ // is non-empty.
+ virtual void OnTracingDisabled(const std::string& error) = 0;
+
+ // Called back by the Service (or transport layer) after invoking
+ // TracingService::ConsumerEndpoint::ReadBuffers(). This function can be
+ // called more than once. Each invocation can carry one or more
+ // TracePacket(s). Upon the last call, |has_more| is set to true (i.e.
+ // |has_more| is a !EOF).
+ virtual void OnTraceData(std::vector<TracePacket>, bool has_more) = 0;
+
+ // Called back by the Service (or transport layer) after invoking
+ // TracingService::ConsumerEndpoint::Detach().
+ // The consumer can disconnect at this point and the trace session will keep
+ // on going. A new consumer can later re-attach passing back the same |key|
+ // passed to Detach(), but only if the two requests come from the same uid.
+ virtual void OnDetach(bool success) = 0;
+
+ // Called back by the Service (or transport layer) after invoking
+ // TracingService::ConsumerEndpoint::Attach().
+ virtual void OnAttach(bool success, const TraceConfig&) = 0;
+
+ // Called back by the Service (or transport layer) after invoking
+ // TracingService::ConsumerEndpoint::GetTraceStats().
+ virtual void OnTraceStats(bool success, const TraceStats&) = 0;
+
+ // Called back by the Service (or transport layer) after invoking
+ // TracingService::ConsumerEndpoint::ObserveEvents() whenever one or more
+ // ObservableEvents of enabled event types occur.
+ virtual void OnObservableEvents(const ObservableEvents&) = 0;
+
+ // Called back by the Service (or transport layer) after invoking
+ // TracingService::ConsumerEndpoint::CloneSession().
+ // TODO(primiano): make pure virtual after various 3way patches.
+ struct OnSessionClonedArgs {
+ bool success;
+ std::string error;
+ base::Uuid uuid; // UUID of the cloned session.
+ };
+ virtual void OnSessionCloned(const OnSessionClonedArgs&);
+};
+
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_TRACING_CORE_CONSUMER_H_
+// gen_amalgamated begin header: include/perfetto/ext/tracing/core/producer.h
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_TRACING_CORE_PRODUCER_H_
+#define INCLUDE_PERFETTO_EXT_TRACING_CORE_PRODUCER_H_
+
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/basic_types.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/core/flush_flags.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/core/forward_decls.h"
+
+namespace perfetto {
+
+class SharedMemory;
+
+// A Producer is an entity that connects to the write-only port of the Service
+// and exposes the ability to produce performance data on-demand. The lifecycle
+// of a Producer is as follows:
+// 1. The producer connects to the service and advertises its data sources
+// (e.g., the ability to get kernel ftraces, to list process stats).
+// 2. The service acknowledges the connection and sends over the SharedMemory
+// region that will be used to exchange data (together with the signalling
+// API TracingService::ProducerEndpoint::OnPageAcquired()/OnPageReleased()).
+// 3. At some point later on, the Service asks the Producer to turn on some of
+// the previously registered data sources, together with some configuration
+// parameters. This happens via the StartDataSource() callback.
+// 4. In response to that the Producer will spawn an instance of the given data
+// source and inject its data into the shared memory buffer (obtained during
+// OnConnect).
+// This interface is subclassed by:
+// 1. The actual producer code in the clients e.g., the ftrace reader process.
+// 2. The transport layer when interposing RPC between service and producers.
+class PERFETTO_EXPORT_COMPONENT Producer {
+ public:
+ virtual ~Producer();
+
+ // Called by Service (or more typically by the transport layer, on behalf of
+ // the remote Service), once the Producer <> Service connection has been
+ // established.
+ virtual void OnConnect() = 0;
+
+ // Called by the Service or by the transport layer if the connection with the
+ // service drops, either voluntarily (e.g., by destroying the ProducerEndpoint
+ // obtained through Service::ConnectProducer()) or involuntarily (e.g., if the
+ // Service process crashes).
+ // The Producer is expected to tear down all its data sources if this happens.
+ // Once this call returns it is possible to safely destroy the Producer
+ // instance.
+ virtual void OnDisconnect() = 0;
+
+ // Called by the Service after OnConnect but before the first DataSource is
+ // created. Can be used for any setup required before tracing begins.
+ virtual void OnTracingSetup() = 0;
+
+ // Called by muxer once StartupTracing is started. It will be called before
+ // SetupStartupTracingBlocking is returned.
+ virtual void OnStartupTracingSetup() {}
+
+ // The lifecycle methods below are always called in the following sequence:
+ // SetupDataSource -> StartDataSource -> StopDataSource.
+ // Or, in the edge case where a trace is aborted immediately:
+ // SetupDataSource -> StopDataSource.
+ // The Setup+Start call sequence is always guaranateed, regardless of the
+ // TraceConfig.deferred_start flags.
+ // Called by the Service to configure one of the data sources previously
+ // registered through TracingService::ProducerEndpoint::RegisterDataSource().
+ // This method is always called before StartDataSource. There is always a
+ // SetupDataSource() call before each StartDataSource() call.
+ // Args:
+ // - DataSourceInstanceID is an identifier chosen by the Service that should
+ // be assigned to the newly created data source instance. It is used to
+ // match the StopDataSource() request below.
+ // - DataSourceConfig is the configuration for the new data source (e.g.,
+ // tells which trace categories to enable).
+ virtual void SetupDataSource(DataSourceInstanceID,
+ const DataSourceConfig&) = 0;
+
+ // Called by the Service to turn on one of the data sources previously
+ // registered through TracingService::ProducerEndpoint::RegisterDataSource()
+ // and initialized through SetupDataSource().
+ // Both arguments are guaranteed to be identical to the ones passed to the
+ // prior SetupDataSource() call.
+ virtual void StartDataSource(DataSourceInstanceID,
+ const DataSourceConfig&) = 0;
+
+ // Called by the Service to shut down an existing data source instance.
+ virtual void StopDataSource(DataSourceInstanceID) = 0;
+
+ // Called by the service to request the Producer to commit the data of the
+ // given data sources and return their chunks into the shared memory buffer.
+ // The Producer is expected to invoke NotifyFlushComplete(FlushRequestID) on
+ // the Service after the data has been committed. The producer has to either
+ // reply to the flush requests in order, or can just reply to the latest one
+ // Upon seeing a NotifyFlushComplete(N), the service will assume that all
+ // flushes < N have also been committed.
+ virtual void Flush(FlushRequestID,
+ const DataSourceInstanceID* data_source_ids,
+ size_t num_data_sources,
+ FlushFlags) = 0;
+
+ // Called by the service to instruct the given data sources to stop referring
+ // to any trace contents emitted so far. The intent is that after processing
+ // this call, the rest of the trace should be parsable even if all of the
+ // packets emitted so far have been lost (for example due to ring buffer
+ // overwrites).
+ //
+ // Called only for Producers with active data sources that have opted in by
+ // setting |handles_incremental_state_clear| in their DataSourceDescriptor.
+ //
+ // The way this call is handled is up to the individual Producer
+ // implementation. Some might wish to emit invalidation markers in the trace
+ // (see TracePacket.incremental_state_cleared for an existing field), and
+ // handle them when parsing the trace.
+ virtual void ClearIncrementalState(
+ const DataSourceInstanceID* data_source_ids,
+ size_t num_data_sources) = 0;
+};
+
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_TRACING_CORE_PRODUCER_H_
+/*
+ * Copyright (C) 2018 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/consumer.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/producer.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/shared_memory.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/shared_memory_arbiter.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/tracing_service.h"
+
+// gen_amalgamated expanded: #include "protos/perfetto/common/tracing_service_state.gen.h"
+
+// This translation unit contains the definitions for the destructor of pure
+// virtual interfaces for the current build target. The alternative would be
+// introducing a one-liner .cc file for each pure virtual interface, which is
+// overkill. This is for compliance with -Wweak-vtables.
+
+namespace perfetto {
+
+Consumer::~Consumer() = default;
+Producer::~Producer() = default;
+TracingService::~TracingService() = default;
+ConsumerEndpoint::~ConsumerEndpoint() = default;
+ProducerEndpoint::~ProducerEndpoint() = default;
+RelayEndpoint::~RelayEndpoint() = default;
+SharedMemory::~SharedMemory() = default;
+SharedMemory::Factory::~Factory() = default;
+SharedMemoryArbiter::~SharedMemoryArbiter() = default;
+
+// TODO(primiano): make pure virtual after various 3way patches.
+void Consumer::OnSessionCloned(const OnSessionClonedArgs&) {}
+
+} // namespace perfetto
+// gen_amalgamated begin source: src/tracing/console_interceptor.cc
+/*
+ * Copyright (C) 2020 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/tracing/console_interceptor.h"
+
+#include <stdarg.h>
+
+#include <algorithm>
+#include <cmath>
+#include <optional>
+#include <tuple>
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/file_utils.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/hash.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/scoped_file.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/string_utils.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/utils.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/internal/track_event_internal.h"
+
+// gen_amalgamated expanded: #include "protos/perfetto/common/interceptor_descriptor.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/data_source_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/interceptor_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/interceptors/console_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/interned_data/interned_data.pbzero.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/trace_packet.pbzero.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/trace_packet_defaults.pbzero.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/process_descriptor.pbzero.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/thread_descriptor.pbzero.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/track_descriptor.pbzero.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/track_event.pbzero.h"
+
+namespace perfetto {
+
+// sRGB color.
+struct ConsoleColor {
+ uint8_t r;
+ uint8_t g;
+ uint8_t b;
+};
+
+namespace {
+
+int g_output_fd_for_testing;
+
+// Google Turbo colormap.
+constexpr std::array<ConsoleColor, 16> kTurboColors = {{
+ ConsoleColor{0x30, 0x12, 0x3b},
+ ConsoleColor{0x40, 0x40, 0xa1},
+ ConsoleColor{0x46, 0x6b, 0xe3},
+ ConsoleColor{0x41, 0x93, 0xfe},
+ ConsoleColor{0x28, 0xbb, 0xeb},
+ ConsoleColor{0x17, 0xdc, 0xc2},
+ ConsoleColor{0x32, 0xf1, 0x97},
+ ConsoleColor{0x6d, 0xfd, 0x62},
+ ConsoleColor{0xa4, 0xfc, 0x3b},
+ ConsoleColor{0xcd, 0xeb, 0x34},
+ ConsoleColor{0xed, 0xcf, 0x39},
+ ConsoleColor{0xfd, 0xab, 0x33},
+ ConsoleColor{0xfa, 0x7d, 0x20},
+ ConsoleColor{0xea, 0x50, 0x0d},
+ ConsoleColor{0xd0, 0x2f, 0x04},
+ ConsoleColor{0xa9, 0x15, 0x01},
+}};
+
+constexpr size_t kHueBits = 4;
+constexpr uint32_t kMaxHue = kTurboColors.size() << kHueBits;
+constexpr uint8_t kLightness = 128u;
+constexpr ConsoleColor kWhiteColor{0xff, 0xff, 0xff};
+
+const char kDim[] = "\x1b[90m";
+const char kDefault[] = "\x1b[39m";
+const char kReset[] = "\x1b[0m";
+
+#define FMT_RGB_SET "\x1b[38;2;%d;%d;%dm"
+#define FMT_RGB_SET_BG "\x1b[48;2;%d;%d;%dm"
+
+ConsoleColor Mix(ConsoleColor a, ConsoleColor b, uint8_t ratio) {
+ return {
+ static_cast<uint8_t>(a.r + (((b.r - a.r) * ratio) >> 8)),
+ static_cast<uint8_t>(a.g + (((b.g - a.g) * ratio) >> 8)),
+ static_cast<uint8_t>(a.b + (((b.b - a.b) * ratio) >> 8)),
+ };
+}
+
+ConsoleColor HueToRGB(uint32_t hue) {
+ PERFETTO_DCHECK(hue < kMaxHue);
+ uint32_t c1 = hue >> kHueBits;
+ uint32_t c2 =
+ std::min(static_cast<uint32_t>(kTurboColors.size() - 1), c1 + 1u);
+ uint32_t ratio = hue & ((1 << kHueBits) - 1);
+ return Mix(kTurboColors[c1], kTurboColors[c2],
+ static_cast<uint8_t>(ratio | (ratio << kHueBits)));
+}
+
+uint32_t CounterToHue(uint32_t counter) {
+ // We split the hue space into 8 segments, reversing the order of bits so
+ // successive counter values will be far from each other.
+ uint32_t reversed =
+ ((counter & 0x7) >> 2) | ((counter & 0x3)) | ((counter & 0x1) << 2);
+ return reversed * kMaxHue / 8;
+}
+
+} // namespace
+
+class ConsoleInterceptor::Delegate : public TrackEventStateTracker::Delegate {
+ public:
+ explicit Delegate(InterceptorContext&);
+ ~Delegate() override;
+
+ TrackEventStateTracker::SessionState* GetSessionState() override;
+ void OnTrackUpdated(TrackEventStateTracker::Track&) override;
+ void OnTrackEvent(const TrackEventStateTracker::Track&,
+ const TrackEventStateTracker::ParsedTrackEvent&) override;
+
+ private:
+ using SelfHandle = LockedHandle<ConsoleInterceptor>;
+
+ InterceptorContext& context_;
+ std::optional<SelfHandle> locked_self_;
+};
+
+ConsoleInterceptor::~ConsoleInterceptor() = default;
+
+ConsoleInterceptor::ThreadLocalState::ThreadLocalState(
+ ThreadLocalStateArgs& args) {
+ if (auto self = args.GetInterceptorLocked()) {
+ start_time_ns = self->start_time_ns_;
+ use_colors = self->use_colors_;
+ fd = self->fd_;
+ }
+}
+
+ConsoleInterceptor::ThreadLocalState::~ThreadLocalState() = default;
+
+ConsoleInterceptor::Delegate::Delegate(InterceptorContext& context)
+ : context_(context) {}
+ConsoleInterceptor::Delegate::~Delegate() = default;
+
+TrackEventStateTracker::SessionState*
+ConsoleInterceptor::Delegate::GetSessionState() {
+ // When the session state is retrieved for the first time, it is cached (and
+ // kept locked) until we return from OnTracePacket. This avoids having to lock
+ // and unlock the instance multiple times per invocation.
+ if (locked_self_.has_value())
+ return &locked_self_.value()->session_state_;
+ locked_self_ =
+ std::make_optional<SelfHandle>(context_.GetInterceptorLocked());
+ return &locked_self_.value()->session_state_;
+}
+
+void ConsoleInterceptor::Delegate::OnTrackUpdated(
+ TrackEventStateTracker::Track& track) {
+ auto track_color = HueToRGB(CounterToHue(track.index));
+ std::array<char, 16> title;
+ if (!track.name.empty()) {
+ snprintf(title.data(), title.size(), "%s", track.name.c_str());
+ } else if (track.pid && track.tid) {
+ snprintf(title.data(), title.size(), "%u:%u",
+ static_cast<uint32_t>(track.pid),
+ static_cast<uint32_t>(track.tid));
+ } else if (track.pid) {
+ snprintf(title.data(), title.size(), "%" PRId64, track.pid);
+ } else {
+ snprintf(title.data(), title.size(), "%" PRIu64, track.uuid);
+ }
+ int title_width = static_cast<int>(title.size());
+
+ auto& tls = context_.GetThreadLocalState();
+ std::array<char, 128> message_prefix{};
+ size_t written = 0;
+ if (tls.use_colors) {
+ written = base::SprintfTrunc(message_prefix.data(), message_prefix.size(),
+ FMT_RGB_SET_BG " %s%s %-*.*s", track_color.r,
+ track_color.g, track_color.b, kReset, kDim,
+ title_width, title_width, title.data());
+ } else {
+ written = base::SprintfTrunc(message_prefix.data(), message_prefix.size(),
+ "%-*.*s", title_width + 2, title_width,
+ title.data());
+ }
+ track.user_data.assign(
+ message_prefix.begin(),
+ message_prefix.begin() + static_cast<ssize_t>(written));
+}
+
+void ConsoleInterceptor::Delegate::OnTrackEvent(
+ const TrackEventStateTracker::Track& track,
+ const TrackEventStateTracker::ParsedTrackEvent& event) {
+ // Start printing.
+ auto& tls = context_.GetThreadLocalState();
+ tls.buffer_pos = 0;
+
+ // Print timestamp and track identifier.
+ SetColor(context_, kDim);
+ Printf(context_, "[%7.3lf] %.*s",
+ static_cast<double>(event.timestamp_ns - tls.start_time_ns) / 1e9,
+ static_cast<int>(track.user_data.size()), track.user_data.data());
+
+ // Print category.
+ Printf(context_, "%-5.*s ",
+ std::min(5, static_cast<int>(event.category.size)),
+ event.category.data);
+
+ // Print stack depth.
+ for (size_t i = 0; i < event.stack_depth; i++) {
+ Printf(context_, "- ");
+ }
+
+ // Print slice name.
+ auto slice_color = HueToRGB(event.name_hash % kMaxHue);
+ auto highlight_color = Mix(slice_color, kWhiteColor, kLightness);
+ if (event.track_event.type() == protos::pbzero::TrackEvent::TYPE_SLICE_END) {
+ SetColor(context_, kDefault);
+ Printf(context_, "} ");
+ }
+ SetColor(context_, highlight_color);
+ Printf(context_, "%.*s", static_cast<int>(event.name.size), event.name.data);
+ SetColor(context_, kReset);
+ if (event.track_event.type() ==
+ protos::pbzero::TrackEvent::TYPE_SLICE_BEGIN) {
+ SetColor(context_, kDefault);
+ Printf(context_, " {");
+ }
+
+ // Print annotations.
+ if (event.track_event.has_debug_annotations()) {
+ PrintDebugAnnotations(context_, event.track_event, slice_color,
+ highlight_color);
+ }
+
+ // TODO(skyostil): Print typed arguments.
+
+ // Print duration for longer events.
+ constexpr uint64_t kNsPerMillisecond = 1000000u;
+ if (event.duration_ns >= 10 * kNsPerMillisecond) {
+ SetColor(context_, kDim);
+ Printf(context_, " +%" PRIu64 "ms", event.duration_ns / kNsPerMillisecond);
+ }
+ SetColor(context_, kReset);
+ Printf(context_, "\n");
+}
+
+// static
+void ConsoleInterceptor::Register() {
+ perfetto::protos::gen::InterceptorDescriptor desc;
+ desc.set_name("console");
+ Interceptor<ConsoleInterceptor>::Register(desc);
+}
+
+// static
+void ConsoleInterceptor::SetOutputFdForTesting(int fd) {
+ g_output_fd_for_testing = fd;
+}
+
+void ConsoleInterceptor::OnSetup(const SetupArgs& args) {
+ int fd = STDOUT_FILENO;
+ if (g_output_fd_for_testing)
+ fd = g_output_fd_for_testing;
+#if !PERFETTO_BUILDFLAG(PERFETTO_OS_WIN) && \
+ !PERFETTO_BUILDFLAG(PERFETTO_OS_WASM)
+ bool use_colors = isatty(fd);
+#else
+ bool use_colors = false;
+#endif
+ const protos::gen::ConsoleConfig& config =
+ args.config.interceptor_config().console_config();
+ if (config.has_enable_colors())
+ use_colors = config.enable_colors();
+ if (config.output() == protos::gen::ConsoleConfig::OUTPUT_STDOUT) {
+ fd = STDOUT_FILENO;
+ } else if (config.output() == protos::gen::ConsoleConfig::OUTPUT_STDERR) {
+ fd = STDERR_FILENO;
+ }
+ fd_ = fd;
+ use_colors_ = use_colors;
+}
+
+void ConsoleInterceptor::OnStart(const StartArgs&) {
+ start_time_ns_ = internal::TrackEventInternal::GetTimeNs();
+}
+
+void ConsoleInterceptor::OnStop(const StopArgs&) {}
+
+// static
+void ConsoleInterceptor::OnTracePacket(InterceptorContext context) {
+ {
+ auto& tls = context.GetThreadLocalState();
+ Delegate delegate(context);
+ perfetto::protos::pbzero::TracePacket::Decoder packet(
+ context.packet_data.data, context.packet_data.size);
+ TrackEventStateTracker::ProcessTracePacket(delegate, tls.sequence_state,
+ packet);
+ } // (Potential) lock scope for session state.
+ Flush(context);
+}
+
+// static
+void ConsoleInterceptor::Printf(InterceptorContext& context,
+ const char* format,
+ ...) {
+ auto& tls = context.GetThreadLocalState();
+ ssize_t remaining = static_cast<ssize_t>(tls.message_buffer.size()) -
+ static_cast<ssize_t>(tls.buffer_pos);
+ int written = 0;
+ if (remaining > 0) {
+ va_list args;
+ va_start(args, format);
+ written = vsnprintf(&tls.message_buffer[tls.buffer_pos],
+ static_cast<size_t>(remaining), format, args);
+ PERFETTO_DCHECK(written >= 0);
+ va_end(args);
+ }
+
+ // In case of buffer overflow, flush to the fd and write the latest message to
+ // it directly instead.
+ if (remaining <= 0 || written > remaining) {
+ FILE* output = (tls.fd == STDOUT_FILENO) ? stdout : stderr;
+ if (g_output_fd_for_testing) {
+ output = fdopen(dup(g_output_fd_for_testing), "w");
+ }
+ Flush(context);
+ va_list args;
+ va_start(args, format);
+ vfprintf(output, format, args);
+ va_end(args);
+ if (g_output_fd_for_testing) {
+ fclose(output);
+ }
+ } else if (written > 0) {
+ tls.buffer_pos += static_cast<size_t>(written);
+ }
+}
+
+// static
+void ConsoleInterceptor::Flush(InterceptorContext& context) {
+ auto& tls = context.GetThreadLocalState();
+ ssize_t res = base::WriteAll(tls.fd, &tls.message_buffer[0], tls.buffer_pos);
+ PERFETTO_DCHECK(res == static_cast<ssize_t>(tls.buffer_pos));
+ tls.buffer_pos = 0;
+}
+
+// static
+void ConsoleInterceptor::SetColor(InterceptorContext& context,
+ const ConsoleColor& color) {
+ auto& tls = context.GetThreadLocalState();
+ if (!tls.use_colors)
+ return;
+ Printf(context, FMT_RGB_SET, color.r, color.g, color.b);
+}
+
+// static
+void ConsoleInterceptor::SetColor(InterceptorContext& context,
+ const char* color) {
+ auto& tls = context.GetThreadLocalState();
+ if (!tls.use_colors)
+ return;
+ Printf(context, "%s", color);
+}
+
+// static
+void ConsoleInterceptor::PrintDebugAnnotations(
+ InterceptorContext& context,
+ const protos::pbzero::TrackEvent_Decoder& track_event,
+ const ConsoleColor& slice_color,
+ const ConsoleColor& highlight_color) {
+ SetColor(context, slice_color);
+ Printf(context, "(");
+
+ bool is_first = true;
+ for (auto it = track_event.debug_annotations(); it; it++) {
+ perfetto::protos::pbzero::DebugAnnotation::Decoder annotation(*it);
+ SetColor(context, slice_color);
+ if (!is_first)
+ Printf(context, ", ");
+
+ PrintDebugAnnotationName(context, annotation);
+ Printf(context, ":");
+
+ SetColor(context, highlight_color);
+ PrintDebugAnnotationValue(context, annotation);
+
+ is_first = false;
+ }
+ SetColor(context, slice_color);
+ Printf(context, ")");
+}
+
+// static
+void ConsoleInterceptor::PrintDebugAnnotationName(
+ InterceptorContext& context,
+ const perfetto::protos::pbzero::DebugAnnotation::Decoder& annotation) {
+ auto& tls = context.GetThreadLocalState();
+ protozero::ConstChars name{};
+ if (annotation.name_iid()) {
+ name.data =
+ tls.sequence_state.debug_annotation_names[annotation.name_iid()].data();
+ name.size =
+ tls.sequence_state.debug_annotation_names[annotation.name_iid()].size();
+ } else if (annotation.has_name()) {
+ name.data = annotation.name().data;
+ name.size = annotation.name().size;
+ }
+ Printf(context, "%.*s", static_cast<int>(name.size), name.data);
+}
+
+// static
+void ConsoleInterceptor::PrintDebugAnnotationValue(
+ InterceptorContext& context,
+ const perfetto::protos::pbzero::DebugAnnotation::Decoder& annotation) {
+ if (annotation.has_bool_value()) {
+ Printf(context, "%s", annotation.bool_value() ? "true" : "false");
+ } else if (annotation.has_uint_value()) {
+ Printf(context, "%" PRIu64, annotation.uint_value());
+ } else if (annotation.has_int_value()) {
+ Printf(context, "%" PRId64, annotation.int_value());
+ } else if (annotation.has_double_value()) {
+ Printf(context, "%f", annotation.double_value());
+ } else if (annotation.has_string_value()) {
+ Printf(context, "%.*s", static_cast<int>(annotation.string_value().size),
+ annotation.string_value().data);
+ } else if (annotation.has_pointer_value()) {
+ Printf(context, "%p", reinterpret_cast<void*>(annotation.pointer_value()));
+ } else if (annotation.has_legacy_json_value()) {
+ Printf(context, "%.*s",
+ static_cast<int>(annotation.legacy_json_value().size),
+ annotation.legacy_json_value().data);
+ } else if (annotation.has_dict_entries()) {
+ Printf(context, "{");
+ bool is_first = true;
+ for (auto it = annotation.dict_entries(); it; ++it) {
+ if (!is_first)
+ Printf(context, ", ");
+ perfetto::protos::pbzero::DebugAnnotation::Decoder key_value(*it);
+ PrintDebugAnnotationName(context, key_value);
+ Printf(context, ":");
+ PrintDebugAnnotationValue(context, key_value);
+ is_first = false;
+ }
+ Printf(context, "}");
+ } else if (annotation.has_array_values()) {
+ Printf(context, "[");
+ bool is_first = true;
+ for (auto it = annotation.array_values(); it; ++it) {
+ if (!is_first)
+ Printf(context, ", ");
+ perfetto::protos::pbzero::DebugAnnotation::Decoder key_value(*it);
+ PrintDebugAnnotationValue(context, key_value);
+ is_first = false;
+ }
+ Printf(context, "]");
+ } else {
+ Printf(context, "{}");
+ }
+}
+
+} // namespace perfetto
+// gen_amalgamated begin source: src/tracing/data_source.cc
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/tracing/data_source.h"
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/data_source_config.gen.h"
+
+namespace perfetto {
+
+DataSourceBase::StopArgs::~StopArgs() = default;
+DataSourceBase::FlushArgs::~FlushArgs() = default;
+DataSourceBase::~DataSourceBase() = default;
+void DataSourceBase::OnSetup(const SetupArgs&) {}
+void DataSourceBase::OnStart(const StartArgs&) {}
+void DataSourceBase::OnStop(const StopArgs&) {}
+void DataSourceBase::WillClearIncrementalState(
+ const ClearIncrementalStateArgs&) {}
+void DataSourceBase::OnFlush(const FlushArgs&) {}
+
+bool DataSourceBase::CanAdoptStartupSession(
+ const DataSourceConfig& startup_config,
+ const DataSourceConfig& service_config) {
+ // Clear target buffer and tracing-service provided fields for comparison of
+ // configs for startup tracing, since these fields are not available when
+ // setting up data sources for startup tracing.
+ DataSourceConfig startup_config_stripped = startup_config;
+ DataSourceConfig service_config_stripped = service_config;
+
+ startup_config_stripped.set_target_buffer(0);
+ startup_config_stripped.set_tracing_session_id(0);
+ startup_config_stripped.set_session_initiator(
+ DataSourceConfig::SESSION_INITIATOR_UNSPECIFIED);
+ startup_config_stripped.set_trace_duration_ms(0);
+ startup_config_stripped.set_stop_timeout_ms(0);
+ startup_config_stripped.set_enable_extra_guardrails(false);
+
+ service_config_stripped.set_target_buffer(0);
+ service_config_stripped.set_tracing_session_id(0);
+ service_config_stripped.set_session_initiator(
+ DataSourceConfig::SESSION_INITIATOR_UNSPECIFIED);
+ service_config_stripped.set_trace_duration_ms(0);
+ service_config_stripped.set_stop_timeout_ms(0);
+ service_config_stripped.set_enable_extra_guardrails(false);
+
+ return startup_config_stripped == service_config_stripped;
+}
+
+namespace internal {
+
+void DataSourceType::PopulateTlsInst(
+ DataSourceInstanceThreadLocalState* tls_inst,
+ DataSourceState* instance_state,
+ uint32_t instance_index) {
+ auto* tracing_impl = TracingMuxer::Get();
+ tls_inst->muxer_id_for_testing = instance_state->muxer_id_for_testing;
+ tls_inst->backend_id = instance_state->backend_id;
+ tls_inst->backend_connection_id = instance_state->backend_connection_id;
+ tls_inst->buffer_id = instance_state->buffer_id;
+ tls_inst->startup_target_buffer_reservation =
+ instance_state->startup_target_buffer_reservation.load(
+ std::memory_order_relaxed);
+ tls_inst->data_source_instance_id = instance_state->data_source_instance_id;
+ tls_inst->is_intercepted = instance_state->interceptor_id != 0;
+ tls_inst->trace_writer = tracing_impl->CreateTraceWriter(
+ &state_, instance_index, instance_state, buffer_exhausted_policy_);
+ if (create_incremental_state_fn_) {
+ PERFETTO_DCHECK(!tls_inst->incremental_state);
+ CreateIncrementalState(tls_inst, instance_index);
+ }
+ if (create_custom_tls_fn_) {
+ tls_inst->data_source_custom_tls =
+ create_custom_tls_fn_(tls_inst, instance_index, user_arg_);
+ }
+ // Even in the case of out-of-IDs, SharedMemoryArbiterImpl returns a
+ // NullTraceWriter. The returned pointer should never be null.
+ PERFETTO_DCHECK(tls_inst->trace_writer);
+}
+
+} // namespace internal
+} // namespace perfetto
+// gen_amalgamated begin source: src/tracing/debug_annotation.cc
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/tracing/debug_annotation.h"
+
+// gen_amalgamated expanded: #include "perfetto/tracing/traced_value.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/debug_annotation.pbzero.h"
+
+namespace perfetto {
+
+DebugAnnotation::~DebugAnnotation() = default;
+
+void DebugAnnotation::WriteIntoTracedValue(TracedValue context) const {
+ Add(context.annotation_);
+}
+
+} // namespace perfetto
+// gen_amalgamated begin source: src/tracing/event_context.cc
+// gen_amalgamated begin header: include/perfetto/tracing/internal/track_event_interned_fields.h
+/*
+ * Copyright (C) 2021 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/track_event_interned_data_index.h"
+
+#ifndef INCLUDE_PERFETTO_TRACING_INTERNAL_TRACK_EVENT_INTERNED_FIELDS_H_
+#define INCLUDE_PERFETTO_TRACING_INTERNAL_TRACK_EVENT_INTERNED_FIELDS_H_
+
+namespace perfetto {
+namespace internal {
+
+// These helpers are exposed here to allow Chromium-without-client library
+// to share the interning buffers with Perfetto internals (e.g.
+// perfetto::TracedValue implementation).
+
+struct PERFETTO_EXPORT_COMPONENT InternedEventCategory
+ : public TrackEventInternedDataIndex<
+ InternedEventCategory,
+ perfetto::protos::pbzero::InternedData::kEventCategoriesFieldNumber,
+ const char*,
+ SmallInternedDataTraits> {
+ ~InternedEventCategory() override;
+
+ static void Add(protos::pbzero::InternedData* interned_data,
+ size_t iid,
+ const char* value,
+ size_t length);
+};
+
+struct PERFETTO_EXPORT_COMPONENT InternedEventName
+ : public TrackEventInternedDataIndex<
+ InternedEventName,
+ perfetto::protos::pbzero::InternedData::kEventNamesFieldNumber,
+ const char*,
+ SmallInternedDataTraits> {
+ ~InternedEventName() override;
+
+ static void Add(protos::pbzero::InternedData* interned_data,
+ size_t iid,
+ const char* value);
+};
+
+struct PERFETTO_EXPORT_COMPONENT InternedDebugAnnotationName
+ : public TrackEventInternedDataIndex<
+ InternedDebugAnnotationName,
+ perfetto::protos::pbzero::InternedData::
+ kDebugAnnotationNamesFieldNumber,
+ const char*,
+ SmallInternedDataTraits> {
+ ~InternedDebugAnnotationName() override;
+
+ static void Add(protos::pbzero::InternedData* interned_data,
+ size_t iid,
+ const char* value);
+};
+
+struct PERFETTO_EXPORT_COMPONENT InternedDebugAnnotationValueTypeName
+ : public TrackEventInternedDataIndex<
+ InternedDebugAnnotationValueTypeName,
+ perfetto::protos::pbzero::InternedData::
+ kDebugAnnotationValueTypeNamesFieldNumber,
+ const char*,
+ SmallInternedDataTraits> {
+ ~InternedDebugAnnotationValueTypeName() override;
+
+ static void Add(protos::pbzero::InternedData* interned_data,
+ size_t iid,
+ const char* value);
+};
+
+} // namespace internal
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_TRACING_INTERNAL_TRACK_EVENT_INTERNED_FIELDS_H_
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/tracing/event_context.h"
+
+// gen_amalgamated expanded: #include "perfetto/tracing/internal/track_event_interned_fields.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/interned_data/interned_data.pbzero.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/track_event.pbzero.h"
+
+namespace perfetto {
+
+EventContext::EventContext(
+ TraceWriterBase* trace_writer,
+ EventContext::TracePacketHandle trace_packet,
+ internal::TrackEventIncrementalState* incremental_state,
+ internal::TrackEventTlsState* tls_state)
+ : trace_writer_(trace_writer),
+ trace_packet_(std::move(trace_packet)),
+ event_(trace_packet_->set_track_event()),
+ incremental_state_(incremental_state),
+ tls_state_(tls_state) {}
+
+EventContext::~EventContext() {
+ if (!trace_packet_)
+ return;
+
+ // When the track event is finalized (i.e., the context is destroyed), we
+ // should flush any newly seen interned data to the trace. The data has
+ // earlier been written to a heap allocated protobuf message
+ // (|serialized_interned_data|). Here we just need to flush it to the main
+ // trace.
+ auto& serialized_interned_data = incremental_state_->serialized_interned_data;
+ if (PERFETTO_UNLIKELY(!serialized_interned_data.empty())) {
+ auto ranges = serialized_interned_data.GetRanges();
+ trace_packet_->AppendScatteredBytes(
+ perfetto::protos::pbzero::TracePacket::kInternedDataFieldNumber,
+ &ranges[0], ranges.size());
+
+ // Reset the message but keep one buffer allocated for future use.
+ serialized_interned_data.Reset();
+ }
+}
+
+protos::pbzero::DebugAnnotation* EventContext::AddDebugAnnotation(
+ const char* name) {
+ auto annotation = event()->add_debug_annotations();
+ annotation->set_name_iid(
+ internal::InternedDebugAnnotationName::Get(this, name));
+ return annotation;
+}
+
+protos::pbzero::DebugAnnotation* EventContext::AddDebugAnnotation(
+ ::perfetto::DynamicString name) {
+ auto annotation = event()->add_debug_annotations();
+ annotation->set_name(name.value);
+ return annotation;
+}
+
+TrackEventTlsStateUserData* EventContext::GetTlsUserData(const void* key) {
+ PERFETTO_CHECK(tls_state_);
+ PERFETTO_CHECK(key);
+ auto it = tls_state_->user_data.find(key);
+ if (it != tls_state_->user_data.end()) {
+ return it->second.get();
+ }
+ return nullptr;
+}
+
+void EventContext::SetTlsUserData(
+ const void* key,
+ std::unique_ptr<TrackEventTlsStateUserData> data) {
+ PERFETTO_CHECK(tls_state_);
+ PERFETTO_CHECK(key);
+ tls_state_->user_data[key] = std::move(data);
+}
+
+} // namespace perfetto
+// gen_amalgamated begin source: src/tracing/interceptor.cc
+/*
+ * Copyright (C) 2020 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/tracing/interceptor.h"
+
+// gen_amalgamated expanded: #include "perfetto/tracing/internal/tracing_muxer.h"
+
+namespace perfetto {
+
+InterceptorBase::~InterceptorBase() = default;
+InterceptorBase::ThreadLocalState::~ThreadLocalState() = default;
+
+// static
+void InterceptorBase::RegisterImpl(
+ const InterceptorDescriptor& descriptor,
+ std::function<std::unique_ptr<InterceptorBase>()> factory,
+ InterceptorBase::TLSFactory tls_factory,
+ InterceptorBase::TracePacketCallback on_trace_packet) {
+ auto* tracing_impl = internal::TracingMuxer::Get();
+ tracing_impl->RegisterInterceptor(descriptor, factory, tls_factory,
+ on_trace_packet);
+}
+
+} // namespace perfetto
+// gen_amalgamated begin source: src/tracing/internal/checked_scope.cc
+/*
+ * Copyright (C) 2021 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/tracing/internal/checked_scope.h"
+
+#include <utility>
+
+namespace perfetto {
+namespace internal {
+
+#if PERFETTO_DCHECK_IS_ON()
+CheckedScope::CheckedScope(CheckedScope* parent_scope)
+ : parent_scope_(parent_scope) {
+ if (parent_scope_) {
+ PERFETTO_DCHECK(parent_scope_->is_active());
+ parent_scope_->set_is_active(false);
+ }
+}
+
+CheckedScope::~CheckedScope() {
+ Reset();
+}
+
+void CheckedScope::Reset() {
+ if (!is_active_) {
+ // The only case when inactive scope could be destroyed is when Reset() was
+ // called explicitly or the contents of the object were moved away.
+ PERFETTO_DCHECK(deleted_);
+ return;
+ }
+ is_active_ = false;
+ deleted_ = true;
+ if (parent_scope_)
+ parent_scope_->set_is_active(true);
+}
+
+CheckedScope::CheckedScope(CheckedScope&& other) {
+ *this = std::move(other);
+}
+
+CheckedScope& CheckedScope::operator=(CheckedScope&& other) {
+ is_active_ = other.is_active_;
+ parent_scope_ = other.parent_scope_;
+ deleted_ = other.deleted_;
+
+ other.is_active_ = false;
+ other.parent_scope_ = nullptr;
+ other.deleted_ = true;
+
+ return *this;
+}
+#endif
+
+} // namespace internal
+} // namespace perfetto
+// gen_amalgamated begin source: src/tracing/internal/interceptor_trace_writer.cc
+// gen_amalgamated begin header: include/perfetto/tracing/internal/interceptor_trace_writer.h
+/*
+ * Copyright (C) 2020 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_TRACING_INTERNAL_INTERCEPTOR_TRACE_WRITER_H_
+#define INCLUDE_PERFETTO_TRACING_INTERNAL_INTERCEPTOR_TRACE_WRITER_H_
+
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/interceptor.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/internal/basic_types.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/trace_writer_base.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/trace_packet.pbzero.h"
+
+namespace perfetto {
+namespace internal {
+
+// A heap-backed trace writer used to reroute trace packets to an interceptor.
+class InterceptorTraceWriter : public TraceWriterBase {
+ public:
+ InterceptorTraceWriter(std::unique_ptr<InterceptorBase::ThreadLocalState> tls,
+ InterceptorBase::TracePacketCallback packet_callback,
+ DataSourceStaticState* static_state,
+ uint32_t instance_index);
+ ~InterceptorTraceWriter() override;
+
+ // TraceWriterBase implementation.
+ protozero::MessageHandle<protos::pbzero::TracePacket> NewTracePacket()
+ override;
+ void FinishTracePacket() override;
+ void Flush(std::function<void()> callback = {}) override;
+ uint64_t written() const override;
+
+ private:
+ std::unique_ptr<InterceptorBase::ThreadLocalState> tls_;
+ InterceptorBase::TracePacketCallback packet_callback_;
+
+ protozero::HeapBuffered<protos::pbzero::TracePacket> cur_packet_;
+ uint64_t bytes_written_ = 0;
+
+ // Static state of the data source we are intercepting.
+ DataSourceStaticState* const static_state_;
+
+ // Index of the data source tracing session which we are intercepting
+ // (0...kMaxDataSourceInstances - 1). Used to look up this interceptor's
+ // session state (i.e., the Interceptor class instance) in the
+ // DataSourceStaticState::instances array.
+ const uint32_t instance_index_;
+
+ const uint32_t sequence_id_;
+
+ static std::atomic<uint32_t> next_sequence_id_;
+};
+
+} // namespace internal
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_TRACING_INTERNAL_INTERCEPTOR_TRACE_WRITER_H_
+/*
+ * Copyright (C) 2020 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/tracing/internal/interceptor_trace_writer.h"
+
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/trace_writer.h"
+
+namespace perfetto {
+namespace internal {
+
+// static
+std::atomic<uint32_t> InterceptorTraceWriter::next_sequence_id_{};
+
+InterceptorTraceWriter::InterceptorTraceWriter(
+ std::unique_ptr<InterceptorBase::ThreadLocalState> tls,
+ InterceptorBase::TracePacketCallback packet_callback,
+ DataSourceStaticState* static_state,
+ uint32_t instance_index)
+ : tls_(std::move(tls)),
+ packet_callback_(std::move(packet_callback)),
+ static_state_(static_state),
+ instance_index_(instance_index),
+ sequence_id_(++next_sequence_id_) {}
+
+InterceptorTraceWriter::~InterceptorTraceWriter() = default;
+
+protozero::MessageHandle<protos::pbzero::TracePacket>
+InterceptorTraceWriter::NewTracePacket() {
+ Flush();
+ auto packet = TraceWriter::TracePacketHandle(cur_packet_.get());
+ packet->set_trusted_packet_sequence_id(sequence_id_);
+ return packet;
+}
+
+void InterceptorTraceWriter::Flush(std::function<void()> callback) {
+ if (!cur_packet_.empty()) {
+ InterceptorBase::TracePacketCallbackArgs args{};
+ args.static_state = static_state_;
+ args.instance_index = instance_index_;
+ args.tls = tls_.get();
+
+ const auto& slices = cur_packet_.GetSlices();
+ if (slices.size() == 1) {
+ // Fast path: the current packet fits into a single slice.
+ auto slice_range = slices.begin()->GetUsedRange();
+ args.packet_data = protozero::ConstBytes{
+ slice_range.begin,
+ static_cast<size_t>(slice_range.end - slice_range.begin)};
+ bytes_written_ += static_cast<uint64_t>(args.packet_data.size);
+ packet_callback_(std::move(args));
+ } else {
+ // Fallback: stitch together multiple slices.
+ auto stitched_data = cur_packet_.SerializeAsArray();
+ args.packet_data =
+ protozero::ConstBytes{stitched_data.data(), stitched_data.size()};
+ bytes_written_ += static_cast<uint64_t>(stitched_data.size());
+ packet_callback_(std::move(args));
+ }
+ cur_packet_.Reset();
+ }
+ if (callback)
+ callback();
+}
+
+void InterceptorTraceWriter::FinishTracePacket() {}
+
+uint64_t InterceptorTraceWriter::written() const {
+ return bytes_written_;
+}
+
+} // namespace internal
+} // namespace perfetto
+// gen_amalgamated begin source: src/tracing/internal/tracing_backend_fake.cc
+// gen_amalgamated begin header: include/perfetto/tracing/internal/tracing_backend_fake.h
+/*
+ * Copyright (C) 2021 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_TRACING_INTERNAL_TRACING_BACKEND_FAKE_H_
+#define INCLUDE_PERFETTO_TRACING_INTERNAL_TRACING_BACKEND_FAKE_H_
+
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/tracing_backend.h"
+
+namespace perfetto {
+namespace internal {
+
+// A built-in implementation of TracingBackend that fails any attempt to create
+// a tracing session.
+class PERFETTO_EXPORT_COMPONENT TracingBackendFake : public TracingBackend {
+ public:
+ static TracingBackend* GetInstance();
+
+ // TracingBackend implementation.
+ std::unique_ptr<ProducerEndpoint> ConnectProducer(
+ const ConnectProducerArgs&) override;
+ std::unique_ptr<ConsumerEndpoint> ConnectConsumer(
+ const ConnectConsumerArgs&) override;
+
+ private:
+ TracingBackendFake();
+};
+
+} // namespace internal
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_TRACING_INTERNAL_TRACING_BACKEND_FAKE_H_
+/*
+ * Copyright (C) 2021 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/tracing/internal/tracing_backend_fake.h"
+
+// gen_amalgamated expanded: #include "perfetto/base/task_runner.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/weak_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/consumer.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/producer.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/trace_writer.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/tracing_service.h"
+
+namespace perfetto {
+namespace internal {
+
+namespace {
+
+class UnsupportedProducerEndpoint : public ProducerEndpoint {
+ public:
+ UnsupportedProducerEndpoint(Producer* producer, base::TaskRunner* task_runner)
+ : producer_(producer), task_runner_(task_runner) {
+ // The SDK will attempt to reconnect the producer, so instead we allow it
+ // to connect successfully, but never start any sessions.
+ auto weak_ptr = weak_ptr_factory_.GetWeakPtr();
+ task_runner_->PostTask([weak_ptr] {
+ if (weak_ptr && weak_ptr->connected_)
+ weak_ptr->producer_->OnConnect();
+ });
+ }
+ ~UnsupportedProducerEndpoint() override { Disconnect(); }
+
+ void Disconnect() override {
+ if (!connected_)
+ return;
+ connected_ = false;
+ producer_->OnDisconnect();
+ }
+
+ void RegisterDataSource(const DataSourceDescriptor&) override {}
+ void UpdateDataSource(const DataSourceDescriptor&) override {}
+ void UnregisterDataSource(const std::string& /*name*/) override {}
+
+ void RegisterTraceWriter(uint32_t /*writer_id*/,
+ uint32_t /*target_buffer*/) override {}
+ void UnregisterTraceWriter(uint32_t /*writer_id*/) override {}
+
+ void CommitData(const CommitDataRequest&,
+ CommitDataCallback callback) override {
+ if (connected_) {
+ callback();
+ }
+ }
+
+ SharedMemory* shared_memory() const override { return nullptr; }
+ size_t shared_buffer_page_size_kb() const override { return 0; }
+
+ std::unique_ptr<TraceWriter> CreateTraceWriter(
+ BufferID /*target_buffer*/,
+ BufferExhaustedPolicy) override {
+ return nullptr;
+ }
+
+ SharedMemoryArbiter* MaybeSharedMemoryArbiter() override { return nullptr; }
+ bool IsShmemProvidedByProducer() const override { return false; }
+
+ void NotifyFlushComplete(FlushRequestID) override {}
+ void NotifyDataSourceStarted(DataSourceInstanceID) override {}
+ void NotifyDataSourceStopped(DataSourceInstanceID) override {}
+ void ActivateTriggers(const std::vector<std::string>&) override {}
+
+ void Sync(std::function<void()> callback) override {
+ if (connected_) {
+ callback();
+ }
+ }
+
+ private:
+ Producer* const producer_;
+ base::TaskRunner* const task_runner_;
+ bool connected_ = true;
+ base::WeakPtrFactory<UnsupportedProducerEndpoint> weak_ptr_factory_{
+ this}; // Keep last.
+};
+
+class UnsupportedConsumerEndpoint : public ConsumerEndpoint {
+ public:
+ UnsupportedConsumerEndpoint(Consumer* consumer, base::TaskRunner* task_runner)
+ : consumer_(consumer), task_runner_(task_runner) {
+ // The SDK will not to reconnect the consumer, so we just disconnect it
+ // immediately, which will cancel the tracing session.
+ auto weak_this = weak_ptr_factory_.GetWeakPtr();
+ task_runner_->PostTask([weak_this] {
+ if (weak_this)
+ weak_this->consumer_->OnDisconnect();
+ });
+ }
+ ~UnsupportedConsumerEndpoint() override = default;
+
+ void EnableTracing(const TraceConfig&, base::ScopedFile) override {}
+ void ChangeTraceConfig(const TraceConfig&) override {}
+
+ void StartTracing() override {}
+ void DisableTracing() override {}
+
+ void Flush(uint32_t /*timeout_ms*/,
+ FlushCallback callback,
+ FlushFlags) override {
+ callback(/*success=*/false);
+ }
+
+ void ReadBuffers() override {}
+ void FreeBuffers() override {}
+
+ void Detach(const std::string& /*key*/) override {}
+ void Attach(const std::string& /*key*/) override {}
+
+ void GetTraceStats() override {}
+ void ObserveEvents(uint32_t /*events_mask*/) override {}
+ void QueryServiceState(QueryServiceStateArgs,
+ QueryServiceStateCallback) override {}
+ void QueryCapabilities(QueryCapabilitiesCallback) override {}
+
+ void SaveTraceForBugreport(SaveTraceForBugreportCallback) override {}
+ void CloneSession(TracingSessionID, CloneSessionArgs) override {}
+
+ private:
+ Consumer* const consumer_;
+ base::TaskRunner* const task_runner_;
+ base::WeakPtrFactory<UnsupportedConsumerEndpoint> weak_ptr_factory_{
+ this}; // Keep last.
+};
+
+} // namespace
+
+// static
+TracingBackend* TracingBackendFake::GetInstance() {
+ static auto* instance = new TracingBackendFake();
+ return instance;
+}
+
+TracingBackendFake::TracingBackendFake() = default;
+
+std::unique_ptr<ProducerEndpoint> TracingBackendFake::ConnectProducer(
+ const ConnectProducerArgs& args) {
+ return std::unique_ptr<ProducerEndpoint>(
+ new UnsupportedProducerEndpoint(args.producer, args.task_runner));
+}
+
+std::unique_ptr<ConsumerEndpoint> TracingBackendFake::ConnectConsumer(
+ const ConnectConsumerArgs& args) {
+ return std::unique_ptr<ConsumerEndpoint>(
+ new UnsupportedConsumerEndpoint(args.consumer, args.task_runner));
+}
+
+} // namespace internal
+} // namespace perfetto
+// gen_amalgamated begin source: src/tracing/internal/tracing_muxer_fake.cc
+// gen_amalgamated begin header: src/tracing/internal/tracing_muxer_fake.h
+/*
+ * Copyright (C) 2021 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef SRC_TRACING_INTERNAL_TRACING_MUXER_FAKE_H_
+#define SRC_TRACING_INTERNAL_TRACING_MUXER_FAKE_H_
+
+// gen_amalgamated expanded: #include "perfetto/base/compiler.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/internal/tracing_muxer.h"
+
+namespace perfetto {
+namespace internal {
+
+// An always-fail implementation of TracingMuxer. Before tracing has been
+// initialiazed, all muxer operations will route here and fail with a helpful
+// error message. This is to avoid introducing null checks in
+// performance-critical parts of the codebase.
+class TracingMuxerFake : public TracingMuxer {
+ class FakePlatform : public Platform {
+ public:
+ ~FakePlatform() override;
+ ThreadLocalObject* GetOrCreateThreadLocalObject() override;
+ std::unique_ptr<base::TaskRunner> CreateTaskRunner(
+ const CreateTaskRunnerArgs&) override;
+ std::string GetCurrentProcessName() override;
+
+ static FakePlatform instance;
+ };
+
+ public:
+ TracingMuxerFake() : TracingMuxer(&FakePlatform::instance) {}
+ ~TracingMuxerFake() override;
+
+ static constexpr TracingMuxerFake* Get() {
+#if PERFETTO_HAS_NO_DESTROY()
+ return &instance;
+#else
+ return nullptr;
+#endif
+ }
+
+ // TracingMuxer implementation.
+ bool RegisterDataSource(const DataSourceDescriptor&,
+ DataSourceFactory,
+ DataSourceParams,
+ bool,
+ DataSourceStaticState*) override;
+ void UpdateDataSourceDescriptor(const DataSourceDescriptor&,
+ const DataSourceStaticState*) override;
+ std::unique_ptr<TraceWriterBase> CreateTraceWriter(
+ DataSourceStaticState*,
+ uint32_t data_source_instance_index,
+ DataSourceState*,
+ BufferExhaustedPolicy buffer_exhausted_policy) override;
+ void DestroyStoppedTraceWritersForCurrentThread() override;
+ void RegisterInterceptor(const InterceptorDescriptor&,
+ InterceptorFactory,
+ InterceptorBase::TLSFactory,
+ InterceptorBase::TracePacketCallback) override;
+ void ActivateTriggers(const std::vector<std::string>&, uint32_t) override;
+
+ private:
+ static TracingMuxerFake instance;
+};
+
+} // namespace internal
+} // namespace perfetto
+
+#endif // SRC_TRACING_INTERNAL_TRACING_MUXER_FAKE_H_
+/*
+ * Copyright (C) 2021 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "src/tracing/internal/tracing_muxer_fake.h"
+
+namespace perfetto {
+namespace internal {
+namespace {
+
+PERFETTO_NORETURN void FailUninitialized() {
+ PERFETTO_FATAL(
+ "Tracing not initialized. Call perfetto::Tracing::Initialize() first.");
+}
+
+} // namespace
+
+#if PERFETTO_HAS_NO_DESTROY()
+// static
+PERFETTO_NO_DESTROY TracingMuxerFake::FakePlatform
+ TracingMuxerFake::FakePlatform::instance{};
+// static
+PERFETTO_NO_DESTROY TracingMuxerFake TracingMuxerFake::instance{};
+#endif // PERFETTO_HAS_NO_DESTROY()
+
+TracingMuxerFake::~TracingMuxerFake() = default;
+
+TracingMuxerFake::FakePlatform::~FakePlatform() = default;
+
+Platform::ThreadLocalObject*
+TracingMuxerFake::FakePlatform::GetOrCreateThreadLocalObject() {
+ FailUninitialized();
+}
+
+std::unique_ptr<base::TaskRunner>
+TracingMuxerFake::FakePlatform::CreateTaskRunner(const CreateTaskRunnerArgs&) {
+ FailUninitialized();
+}
+
+std::string TracingMuxerFake::FakePlatform::GetCurrentProcessName() {
+ FailUninitialized();
+}
+
+bool TracingMuxerFake::RegisterDataSource(const DataSourceDescriptor&,
+ DataSourceFactory,
+ DataSourceParams,
+ bool,
+ DataSourceStaticState*) {
+ FailUninitialized();
+}
+
+void TracingMuxerFake::UpdateDataSourceDescriptor(
+ const DataSourceDescriptor&,
+ const DataSourceStaticState*) {
+ FailUninitialized();
+}
+
+std::unique_ptr<TraceWriterBase> TracingMuxerFake::CreateTraceWriter(
+ DataSourceStaticState*,
+ uint32_t,
+ DataSourceState*,
+ BufferExhaustedPolicy) {
+ FailUninitialized();
+}
+
+void TracingMuxerFake::DestroyStoppedTraceWritersForCurrentThread() {
+ FailUninitialized();
+}
+
+void TracingMuxerFake::RegisterInterceptor(
+ const InterceptorDescriptor&,
+ InterceptorFactory,
+ InterceptorBase::TLSFactory,
+ InterceptorBase::TracePacketCallback) {
+ FailUninitialized();
+}
+
+void TracingMuxerFake::ActivateTriggers(const std::vector<std::string>&,
+ uint32_t) {
+ FailUninitialized();
+}
+
+} // namespace internal
+} // namespace perfetto
+// gen_amalgamated begin source: src/tracing/internal/tracing_muxer_impl.cc
+// gen_amalgamated begin header: src/tracing/internal/tracing_muxer_impl.h
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef SRC_TRACING_INTERNAL_TRACING_MUXER_IMPL_H_
+#define SRC_TRACING_INTERNAL_TRACING_MUXER_IMPL_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+#include <array>
+#include <atomic>
+#include <bitset>
+#include <functional>
+#include <list>
+#include <map>
+#include <memory>
+#include <set>
+#include <utility>
+#include <vector>
+
+// gen_amalgamated expanded: #include "perfetto/base/time.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/scoped_file.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/thread_checker.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/basic_types.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/consumer.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/producer.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/backend_type.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/core/data_source_descriptor.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/core/forward_decls.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/core/trace_config.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/internal/basic_types.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/internal/tracing_muxer.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/tracing.h"
+
+// gen_amalgamated expanded: #include "protos/perfetto/common/interceptor_descriptor.gen.h"
+
+namespace perfetto {
+
+class ConsumerEndpoint;
+class DataSourceBase;
+class ProducerEndpoint;
+class TraceWriterBase;
+class TracingBackend;
+class TracingSession;
+struct TracingInitArgs;
+
+namespace base {
+class TaskRunner;
+}
+
+namespace shlib {
+void ResetForTesting();
+}
+
+namespace test {
+class TracingMuxerImplInternalsForTest;
+}
+
+namespace internal {
+
+struct DataSourceStaticState;
+
+// This class acts as a bridge between the public API and the TracingBackend(s).
+// It exposes a simplified view of the world to the API methods handling all the
+// bookkeeping to map data source instances and trace writers to the various
+// backends. It deals with N data sources, M backends (1 backend == 1 tracing
+// service == 1 producer connection) and T concurrent tracing sessions.
+//
+// Handing data source registration and start/stop flows [producer side]:
+// ----------------------------------------------------------------------
+// 1. The API client subclasses perfetto::DataSource and calls
+// DataSource::Register<MyDataSource>(). In turn this calls into the
+// TracingMuxer.
+// 2. The tracing muxer iterates through all the backends (1 backend == 1
+// service == 1 producer connection) and registers the data source on each
+// backend.
+// 3. When any (services behind a) backend starts tracing and requests to start
+// that specific data source, the TracingMuxerImpl constructs a new instance
+// of MyDataSource and calls the OnStart() method.
+//
+// Controlling trace and retrieving trace data [consumer side]:
+// ------------------------------------------------------------
+// 1. The API client calls Tracing::NewTrace(), returns a RAII TracingSession
+// object.
+// 2. NewTrace() calls into internal::TracingMuxer(Impl). TracingMuxer
+// subclasses the TracingSession object (TracingSessionImpl) and returns it.
+// 3. The tracing muxer identifies the backend (according to the args passed to
+// NewTrace), creates a new Consumer and connects to it.
+// 4. When the API client calls Start()/Stop()/ReadTrace() methods, the
+// TracingMuxer forwards them to the consumer associated to the
+// TracingSession. Likewise for callbacks coming from the consumer-side of
+// the service.
+class TracingMuxerImpl : public TracingMuxer {
+ public:
+ // This is different than TracingSessionID because it's global across all
+ // backends. TracingSessionID is global only within the scope of one service.
+ using TracingSessionGlobalID = uint64_t;
+
+ struct RegisteredDataSource {
+ DataSourceDescriptor descriptor;
+ DataSourceFactory factory{};
+ bool supports_multiple_instances = false;
+ bool requires_callbacks_under_lock = false;
+ bool no_flush = false;
+ DataSourceStaticState* static_state = nullptr;
+ };
+
+ static void InitializeInstance(const TracingInitArgs&);
+ static void ResetForTesting();
+ static void Shutdown();
+
+ // TracingMuxer implementation.
+ bool RegisterDataSource(const DataSourceDescriptor&,
+ DataSourceFactory,
+ DataSourceParams,
+ bool no_flush,
+ DataSourceStaticState*) override;
+ void UpdateDataSourceDescriptor(const DataSourceDescriptor&,
+ const DataSourceStaticState*) override;
+ std::unique_ptr<TraceWriterBase> CreateTraceWriter(
+ DataSourceStaticState*,
+ uint32_t data_source_instance_index,
+ DataSourceState*,
+ BufferExhaustedPolicy buffer_exhausted_policy) override;
+ void DestroyStoppedTraceWritersForCurrentThread() override;
+ void RegisterInterceptor(const InterceptorDescriptor&,
+ InterceptorFactory,
+ InterceptorBase::TLSFactory,
+ InterceptorBase::TracePacketCallback) override;
+
+ void ActivateTriggers(const std::vector<std::string>&, uint32_t) override;
+
+ std::unique_ptr<TracingSession> CreateTracingSession(
+ BackendType,
+ TracingConsumerBackend* (*system_backend_factory)());
+ std::unique_ptr<StartupTracingSession> CreateStartupTracingSession(
+ const TraceConfig& config,
+ Tracing::SetupStartupTracingOpts);
+ std::unique_ptr<StartupTracingSession> CreateStartupTracingSessionBlocking(
+ const TraceConfig& config,
+ Tracing::SetupStartupTracingOpts);
+
+ // Producer-side bookkeeping methods.
+ void UpdateDataSourcesOnAllBackends();
+ void SetupDataSource(TracingBackendId,
+ uint32_t backend_connection_id,
+ DataSourceInstanceID,
+ const DataSourceConfig&);
+ void StartDataSource(TracingBackendId, DataSourceInstanceID);
+ void StopDataSource_AsyncBegin(TracingBackendId, DataSourceInstanceID);
+ void ClearDataSourceIncrementalState(TracingBackendId, DataSourceInstanceID);
+ void SyncProducersForTesting();
+
+ // Consumer-side bookkeeping methods.
+ void SetupTracingSession(TracingSessionGlobalID,
+ const std::shared_ptr<TraceConfig>&,
+ base::ScopedFile trace_fd = base::ScopedFile());
+ void StartTracingSession(TracingSessionGlobalID);
+ void ChangeTracingSessionConfig(TracingSessionGlobalID, const TraceConfig&);
+ void StopTracingSession(TracingSessionGlobalID);
+ void DestroyTracingSession(TracingSessionGlobalID);
+ void FlushTracingSession(TracingSessionGlobalID,
+ uint32_t,
+ std::function<void(bool)>);
+ void ReadTracingSessionData(
+ TracingSessionGlobalID,
+ std::function<void(TracingSession::ReadTraceCallbackArgs)>);
+ void GetTraceStats(TracingSessionGlobalID,
+ TracingSession::GetTraceStatsCallback);
+ void QueryServiceState(TracingSessionGlobalID,
+ TracingSession::QueryServiceStateCallback);
+
+ // Sets the batching period to |batch_commits_duration_ms| on the backends
+ // with type |backend_type|.
+ void SetBatchCommitsDurationForTesting(uint32_t batch_commits_duration_ms,
+ BackendType backend_type);
+
+ // Enables direct SMB patching on the backends with type |backend_type| (see
+ // SharedMemoryArbiter::EnableDirectSMBPatching). Returns true if the
+ // operation succeeded for all backends with type |backend_type|, false
+ // otherwise.
+ bool EnableDirectSMBPatchingForTesting(BackendType backend_type);
+
+ void SetMaxProducerReconnectionsForTesting(uint32_t count);
+
+ private:
+ friend class test::TracingMuxerImplInternalsForTest;
+ friend void shlib::ResetForTesting();
+
+ // For each TracingBackend we create and register one ProducerImpl instance.
+ // This talks to the producer-side of the service, gets start/stop requests
+ // from it and routes them to the registered data sources.
+ // One ProducerImpl == one backend == one tracing service.
+ // This class is needed to disambiguate callbacks coming from different
+ // services. TracingMuxerImpl can't directly implement the Producer interface
+ // because the Producer virtual methods don't allow to identify the service.
+ class ProducerImpl : public Producer {
+ public:
+ ProducerImpl(TracingMuxerImpl*,
+ TracingBackendId,
+ uint32_t shmem_batch_commits_duration_ms,
+ bool shmem_direct_patching_enabled);
+ ~ProducerImpl() override;
+
+ void Initialize(std::unique_ptr<ProducerEndpoint> endpoint);
+ void RegisterDataSource(const DataSourceDescriptor&,
+ DataSourceFactory,
+ DataSourceStaticState*);
+ void DisposeConnection();
+
+ // perfetto::Producer implementation.
+ void OnConnect() override;
+ void OnDisconnect() override;
+ void OnTracingSetup() override;
+ void OnStartupTracingSetup() override;
+ void SetupDataSource(DataSourceInstanceID,
+ const DataSourceConfig&) override;
+ void StartDataSource(DataSourceInstanceID,
+ const DataSourceConfig&) override;
+ void StopDataSource(DataSourceInstanceID) override;
+ void Flush(FlushRequestID,
+ const DataSourceInstanceID*,
+ size_t,
+ FlushFlags) override;
+ void ClearIncrementalState(const DataSourceInstanceID*, size_t) override;
+
+ bool SweepDeadServices();
+ void SendOnConnectTriggers();
+ void NotifyFlushForDataSourceDone(DataSourceInstanceID, FlushRequestID);
+
+ PERFETTO_THREAD_CHECKER(thread_checker_)
+ TracingMuxerImpl* muxer_;
+ TracingBackendId const backend_id_;
+ bool connected_ = false;
+ bool did_setup_tracing_ = false;
+ bool did_setup_startup_tracing_ = false;
+ std::atomic<uint32_t> connection_id_{0};
+ uint16_t last_startup_target_buffer_reservation_ = 0;
+ bool is_producer_provided_smb_ = false;
+ bool producer_provided_smb_failed_ = false;
+
+ const uint32_t shmem_batch_commits_duration_ms_ = 0;
+ const bool shmem_direct_patching_enabled_ = false;
+
+ // Set of data sources that have been actually registered on this producer.
+ // This can be a subset of the global |data_sources_|, because data sources
+ // can register before the producer is fully connected.
+ std::bitset<kMaxDataSources> registered_data_sources_{};
+
+ // A collection of disconnected service endpoints. Since trace writers on
+ // arbitrary threads might continue writing data to disconnected services,
+ // we keep the old services around and periodically try to clean up ones
+ // that no longer have any writers (see SweepDeadServices).
+ std::list<std::shared_ptr<ProducerEndpoint>> dead_services_;
+
+ // Triggers that should be sent when the service connects (trigger_name,
+ // expiration).
+ std::list<std::pair<std::string, base::TimeMillis>> on_connect_triggers_;
+
+ std::map<FlushRequestID, std::set<DataSourceInstanceID>> pending_flushes_;
+
+ // The currently active service endpoint is maintained as an atomic shared
+ // pointer so it won't get deleted from underneath threads that are creating
+ // trace writers. At any given time one endpoint can be shared (and thus
+ // kept alive) by the |service_| pointer, an entry in |dead_services_| and
+ // as a pointer on the stack in CreateTraceWriter() (on an arbitrary
+ // thread). The endpoint is never shared outside ProducerImpl itself.
+ //
+ // WARNING: Any *write* access to this variable or any *read* access from a
+ // non-muxer thread must be done through std::atomic_{load,store} to avoid
+ // data races.
+ std::shared_ptr<ProducerEndpoint> service_; // Keep last.
+ };
+
+ // For each TracingSession created by the API client (Tracing::NewTrace() we
+ // create and register one ConsumerImpl instance.
+ // This talks to the consumer-side of the service, gets end-of-trace and
+ // on-trace-data callbacks and routes them to the API client callbacks.
+ // This class is needed to disambiguate callbacks coming from different
+ // tracing sessions.
+ class ConsumerImpl : public Consumer {
+ public:
+ ConsumerImpl(TracingMuxerImpl*, BackendType, TracingSessionGlobalID);
+ ~ConsumerImpl() override;
+
+ void Initialize(std::unique_ptr<ConsumerEndpoint> endpoint);
+
+ // perfetto::Consumer implementation.
+ void OnConnect() override;
+ void OnDisconnect() override;
+ void OnTracingDisabled(const std::string& error) override;
+ void OnTraceData(std::vector<TracePacket>, bool has_more) override;
+ void OnDetach(bool success) override;
+ void OnAttach(bool success, const TraceConfig&) override;
+ void OnTraceStats(bool success, const TraceStats&) override;
+ void OnObservableEvents(const ObservableEvents&) override;
+ void OnSessionCloned(const OnSessionClonedArgs&) override;
+
+ void NotifyStartComplete();
+ void NotifyError(const TracingError&);
+ void NotifyStopComplete();
+
+ // Will eventually inform the |muxer_| when it is safe to remove |this|.
+ void Disconnect();
+
+ TracingMuxerImpl* muxer_;
+ BackendType const backend_type_;
+ TracingSessionGlobalID const session_id_;
+ bool connected_ = false;
+
+ // This is to handle the case where the Setup call from the API client
+ // arrives before the consumer has connected. In this case we keep around
+ // the config and check if we have it after connection.
+ bool start_pending_ = false;
+
+ // Similarly if the session is stopped before the consumer was connected, we
+ // need to wait until the session has started before stopping it.
+ bool stop_pending_ = false;
+
+ // Similarly we need to buffer a call to get trace statistics if the
+ // consumer wasn't connected yet.
+ bool get_trace_stats_pending_ = false;
+
+ // Whether this session was already stopped. This will happen in response to
+ // Stop{,Blocking}, but also if the service stops the session for us
+ // automatically (e.g., when there are no data sources).
+ bool stopped_ = false;
+
+ // shared_ptr because it's posted across threads. This is to avoid copying
+ // it more than once.
+ std::shared_ptr<TraceConfig> trace_config_;
+ base::ScopedFile trace_fd_;
+
+ // If the API client passes a callback to start, we should invoke this when
+ // NotifyStartComplete() is invoked.
+ std::function<void()> start_complete_callback_;
+
+ // An internal callback used to implement StartBlocking().
+ std::function<void()> blocking_start_complete_callback_;
+
+ // If the API client passes a callback to get notification about the
+ // errors, we should invoke this when NotifyError() is invoked.
+ std::function<void(TracingError)> error_callback_;
+
+ // If the API client passes a callback to stop, we should invoke this when
+ // OnTracingDisabled() is invoked.
+ std::function<void()> stop_complete_callback_;
+
+ // An internal callback used to implement StopBlocking().
+ std::function<void()> blocking_stop_complete_callback_;
+
+ // Callback passed to ReadTrace().
+ std::function<void(TracingSession::ReadTraceCallbackArgs)>
+ read_trace_callback_;
+
+ // Callback passed to GetTraceStats().
+ TracingSession::GetTraceStatsCallback get_trace_stats_callback_;
+
+ // Callback for a pending call to QueryServiceState().
+ TracingSession::QueryServiceStateCallback query_service_state_callback_;
+
+ // The states of all data sources in this tracing session. |true| means the
+ // data source has started tracing.
+ using DataSourceHandle = std::pair<std::string, std::string>;
+ std::map<DataSourceHandle, bool> data_source_states_;
+
+ std::unique_ptr<ConsumerEndpoint> service_; // Keep before last.
+ PERFETTO_THREAD_CHECKER(thread_checker_) // Keep last.
+ };
+
+ // This object is returned to API clients when they call
+ // Tracing::CreateTracingSession().
+ class TracingSessionImpl : public TracingSession {
+ public:
+ TracingSessionImpl(TracingMuxerImpl*, TracingSessionGlobalID, BackendType);
+ ~TracingSessionImpl() override;
+ void Setup(const TraceConfig&, int fd) override;
+ void Start() override;
+ void StartBlocking() override;
+ void SetOnStartCallback(std::function<void()>) override;
+ void SetOnErrorCallback(std::function<void(TracingError)>) override;
+ void Stop() override;
+ void StopBlocking() override;
+ void Flush(std::function<void(bool)>, uint32_t timeout_ms) override;
+ void ReadTrace(ReadTraceCallback) override;
+ void SetOnStopCallback(std::function<void()>) override;
+ void GetTraceStats(GetTraceStatsCallback) override;
+ void QueryServiceState(QueryServiceStateCallback) override;
+ void ChangeTraceConfig(const TraceConfig&) override;
+
+ private:
+ TracingMuxerImpl* const muxer_;
+ TracingSessionGlobalID const session_id_;
+ BackendType const backend_type_;
+ };
+
+ // This object is returned to API clients when they call
+ // Tracing::SetupStartupTracing().
+ class StartupTracingSessionImpl : public StartupTracingSession {
+ public:
+ StartupTracingSessionImpl(TracingMuxerImpl*,
+ TracingSessionGlobalID,
+ BackendType);
+ ~StartupTracingSessionImpl() override;
+ void Abort() override;
+ void AbortBlocking() override;
+
+ private:
+ TracingMuxerImpl* const muxer_;
+ TracingSessionGlobalID const session_id_;
+ BackendType backend_type_;
+ };
+
+ struct RegisteredInterceptor {
+ protos::gen::InterceptorDescriptor descriptor;
+ InterceptorFactory factory{};
+ InterceptorBase::TLSFactory tls_factory{};
+ InterceptorBase::TracePacketCallback packet_callback{};
+ };
+
+ struct RegisteredStartupSession {
+ TracingSessionID session_id = 0;
+ int num_unbound_data_sources = 0;
+
+ bool is_aborting = false;
+ int num_aborting_data_sources = 0;
+
+ std::function<void()> on_aborted;
+ std::function<void()> on_adopted;
+ };
+
+ struct RegisteredProducerBackend {
+ // Backends are supposed to have static lifetime.
+ TracingProducerBackend* backend = nullptr;
+ TracingBackendId id = 0;
+ BackendType type{};
+
+ TracingBackend::ConnectProducerArgs producer_conn_args;
+ std::unique_ptr<ProducerImpl> producer;
+
+ std::vector<RegisteredStartupSession> startup_sessions;
+ };
+
+ struct RegisteredConsumerBackend {
+ // Backends are supposed to have static lifetime.
+ TracingConsumerBackend* backend = nullptr;
+ BackendType type{};
+ // The calling code can request more than one concurrently active tracing
+ // session for the same backend. We need to create one consumer per session.
+ std::vector<std::unique_ptr<ConsumerImpl>> consumers;
+ };
+
+ void UpdateDataSourceOnAllBackends(RegisteredDataSource& rds,
+ bool is_changed);
+ explicit TracingMuxerImpl(const TracingInitArgs&);
+ void Initialize(const TracingInitArgs& args);
+ void AddBackends(const TracingInitArgs& args);
+ void AddConsumerBackend(TracingConsumerBackend* backend, BackendType type);
+ void AddProducerBackend(TracingProducerBackend* backend,
+ BackendType type,
+ const TracingInitArgs& args);
+ ConsumerImpl* FindConsumer(TracingSessionGlobalID session_id);
+ std::pair<ConsumerImpl*, RegisteredConsumerBackend*> FindConsumerAndBackend(
+ TracingSessionGlobalID session_id);
+ RegisteredProducerBackend* FindProducerBackendById(TracingBackendId id);
+ RegisteredProducerBackend* FindProducerBackendByType(BackendType type);
+ RegisteredConsumerBackend* FindConsumerBackendByType(BackendType type);
+ void InitializeConsumer(TracingSessionGlobalID session_id);
+ void OnConsumerDisconnected(ConsumerImpl* consumer);
+ void OnProducerDisconnected(ProducerImpl* producer);
+ // Test only method.
+ void SweepDeadBackends();
+
+ struct FindDataSourceRes {
+ FindDataSourceRes() = default;
+ FindDataSourceRes(DataSourceStaticState* a,
+ DataSourceState* b,
+ uint32_t c,
+ bool d)
+ : static_state(a),
+ internal_state(b),
+ instance_idx(c),
+ requires_callbacks_under_lock(d) {}
+ explicit operator bool() const { return !!internal_state; }
+
+ DataSourceStaticState* static_state = nullptr;
+ DataSourceState* internal_state = nullptr;
+ uint32_t instance_idx = 0;
+ bool requires_callbacks_under_lock = false;
+ };
+ FindDataSourceRes FindDataSource(TracingBackendId, DataSourceInstanceID);
+
+ FindDataSourceRes SetupDataSourceImpl(
+ const RegisteredDataSource&,
+ TracingBackendId,
+ uint32_t backend_connection_id,
+ DataSourceInstanceID,
+ const DataSourceConfig&,
+ TracingSessionGlobalID startup_session_id);
+ void StartDataSourceImpl(const FindDataSourceRes&);
+ void StopDataSource_AsyncBeginImpl(const FindDataSourceRes&);
+ void StopDataSource_AsyncEnd(TracingBackendId,
+ uint32_t backend_connection_id,
+ DataSourceInstanceID,
+ const FindDataSourceRes&);
+ bool FlushDataSource_AsyncBegin(TracingBackendId,
+ DataSourceInstanceID,
+ FlushRequestID,
+ FlushFlags);
+ void FlushDataSource_AsyncEnd(TracingBackendId,
+ uint32_t backend_connection_id,
+ DataSourceInstanceID,
+ const FindDataSourceRes&,
+ FlushRequestID);
+ void AbortStartupTracingSession(TracingSessionGlobalID, BackendType);
+ // When ResetForTesting() is executed, `cb` will be called on the calling
+ // thread and on the muxer thread.
+ void AppendResetForTestingCallback(std::function<void()> cb);
+
+ // WARNING: If you add new state here, be sure to update ResetForTesting.
+ std::unique_ptr<base::TaskRunner> task_runner_;
+ std::vector<RegisteredDataSource> data_sources_;
+ // These lists can only have one backend per BackendType. The elements are
+ // sorted by BackendType priority (see BackendTypePriority). They always
+ // contain a fake low-priority kUnspecifiedBackend at the end.
+ std::list<RegisteredProducerBackend> producer_backends_;
+ std::list<RegisteredConsumerBackend> consumer_backends_;
+ std::vector<RegisteredInterceptor> interceptors_;
+ TracingPolicy* policy_ = nullptr;
+
+ // Learn more at TracingInitArgs::supports_multiple_data_source_instances
+ bool supports_multiple_data_source_instances_ = true;
+
+ std::atomic<TracingSessionGlobalID> next_tracing_session_id_{};
+ std::atomic<uint32_t> next_data_source_index_{};
+ uint32_t muxer_id_for_testing_{};
+
+ // Maximum number of times we will try to reconnect producer backend.
+ // Should only be modified for testing purposes.
+ std::atomic<uint32_t> max_producer_reconnections_{100u};
+
+ // Test only member.
+ // After ResetForTesting() is called, holds tracing backends which needs to be
+ // kept alive until all inbound references have gone away. See
+ // SweepDeadBackends().
+ std::list<RegisteredProducerBackend> dead_backends_;
+
+ // Test only member.
+ // Executes these cleanup functions on the calling thread and on the muxer
+ // thread when ResetForTesting() is called.
+ std::list<std::function<void()>> reset_callbacks_;
+
+ PERFETTO_THREAD_CHECKER(thread_checker_)
+};
+
+} // namespace internal
+} // namespace perfetto
+
+#endif // SRC_TRACING_INTERNAL_TRACING_MUXER_IMPL_H_
+// gen_amalgamated begin header: include/perfetto/ext/tracing/core/trace_stats.h
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_TRACING_CORE_TRACE_STATS_H_
+#define INCLUDE_PERFETTO_EXT_TRACING_CORE_TRACE_STATS_H_
+
+// Creates the aliases in the ::perfetto namespace, doing things like:
+// using ::perfetto::Foo = ::perfetto::protos::gen::Foo.
+// See comments in forward_decls.h for the historical reasons of this
+// indirection layer.
+// gen_amalgamated expanded: #include "perfetto/tracing/core/forward_decls.h"
+
+// gen_amalgamated expanded: #include "protos/perfetto/common/trace_stats.gen.h"
+
+#endif // INCLUDE_PERFETTO_EXT_TRACING_CORE_TRACE_STATS_H_
+// gen_amalgamated begin header: include/perfetto/tracing/core/tracing_service_state.h
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+
+#ifndef INCLUDE_PERFETTO_TRACING_CORE_TRACING_SERVICE_STATE_H_
+#define INCLUDE_PERFETTO_TRACING_CORE_TRACING_SERVICE_STATE_H_
+
+// Creates the aliases in the ::perfetto namespace, doing things like:
+// using ::perfetto::Foo = ::perfetto::protos::gen::Foo.
+// See comments in forward_decls.h for the historical reasons of this
+// indirection layer.
+// gen_amalgamated expanded: #include "perfetto/tracing/core/forward_decls.h"
+
+// gen_amalgamated expanded: #include "protos/perfetto/common/tracing_service_state.gen.h"
+
+#endif // INCLUDE_PERFETTO_TRACING_CORE_TRACING_SERVICE_STATE_H_
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "src/tracing/internal/tracing_muxer_impl.h"
+
+#include <algorithm>
+#include <atomic>
+#include <mutex>
+#include <optional>
+#include <vector>
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/base/task_runner.h"
+// gen_amalgamated expanded: #include "perfetto/base/time.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/hash.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/thread_checker.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/waitable_event.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/shared_memory_arbiter.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/trace_packet.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/trace_stats.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/trace_writer.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/tracing_service.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/buffer_exhausted_policy.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/core/data_source_config.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/core/tracing_service_state.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/data_source.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/internal/data_source_internal.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/internal/interceptor_trace_writer.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/internal/tracing_backend_fake.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/trace_writer_base.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/tracing.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/tracing_backend.h"
+// gen_amalgamated expanded: #include "src/tracing/core/null_trace_writer.h"
+// gen_amalgamated expanded: #include "src/tracing/internal/tracing_muxer_fake.h"
+
+// gen_amalgamated expanded: #include "protos/perfetto/config/interceptor_config.gen.h"
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+#include <io.h> // For dup()
+#else
+#include <unistd.h> // For dup()
+#endif
+
+namespace perfetto {
+namespace internal {
+
+namespace {
+
+using RegisteredDataSource = TracingMuxerImpl::RegisteredDataSource;
+
+// A task runner which prevents calls to DataSource::Trace() while an operation
+// is in progress. Used to guard against unexpected re-entrancy where the
+// user-provided task runner implementation tries to enter a trace point under
+// the hood.
+class NonReentrantTaskRunner : public base::TaskRunner {
+ public:
+ NonReentrantTaskRunner(TracingMuxer* muxer,
+ std::unique_ptr<base::TaskRunner> task_runner)
+ : muxer_(muxer), task_runner_(std::move(task_runner)) {}
+
+ // base::TaskRunner implementation.
+ void PostTask(std::function<void()> task) override {
+ CallWithGuard([&] { task_runner_->PostTask(std::move(task)); });
+ }
+
+ void PostDelayedTask(std::function<void()> task, uint32_t delay_ms) override {
+ CallWithGuard(
+ [&] { task_runner_->PostDelayedTask(std::move(task), delay_ms); });
+ }
+
+ void AddFileDescriptorWatch(base::PlatformHandle fd,
+ std::function<void()> callback) override {
+ CallWithGuard(
+ [&] { task_runner_->AddFileDescriptorWatch(fd, std::move(callback)); });
+ }
+
+ void RemoveFileDescriptorWatch(base::PlatformHandle fd) override {
+ CallWithGuard([&] { task_runner_->RemoveFileDescriptorWatch(fd); });
+ }
+
+ bool RunsTasksOnCurrentThread() const override {
+ bool result;
+ CallWithGuard([&] { result = task_runner_->RunsTasksOnCurrentThread(); });
+ return result;
+ }
+
+ private:
+ template <typename T>
+ void CallWithGuard(T lambda) const {
+ auto* root_tls = muxer_->GetOrCreateTracingTLS();
+ if (PERFETTO_UNLIKELY(root_tls->is_in_trace_point)) {
+ lambda();
+ return;
+ }
+ ScopedReentrancyAnnotator scoped_annotator(*root_tls);
+ lambda();
+ }
+
+ TracingMuxer* const muxer_;
+ std::unique_ptr<base::TaskRunner> task_runner_;
+};
+
+class StopArgsImpl : public DataSourceBase::StopArgs {
+ public:
+ std::function<void()> HandleStopAsynchronously() const override {
+ auto closure = std::move(async_stop_closure);
+ async_stop_closure = std::function<void()>();
+ return closure;
+ }
+
+ mutable std::function<void()> async_stop_closure;
+};
+
+class FlushArgsImpl : public DataSourceBase::FlushArgs {
+ public:
+ std::function<void()> HandleFlushAsynchronously() const override {
+ auto closure = std::move(async_flush_closure);
+ async_flush_closure = std::function<void()>();
+ return closure;
+ }
+
+ mutable std::function<void()> async_flush_closure;
+};
+
+// Holds an earlier TracingMuxerImpl instance after ResetForTesting() is called.
+static TracingMuxerImpl* g_prev_instance{};
+
+template <typename RegisteredBackend>
+struct CompareBackendByType {
+ static int BackendTypePriority(BackendType type) {
+ switch (type) {
+ case kSystemBackend:
+ return 0;
+ case kInProcessBackend:
+ return 1;
+ case kCustomBackend:
+ return 2;
+ // The UnspecifiedBackend has the highest priority so that
+ // TracingBackendFake is the last one on the backend lists.
+ case kUnspecifiedBackend:
+ break;
+ }
+ return 3;
+ }
+ bool operator()(BackendType type, const RegisteredBackend& b) {
+ return BackendTypePriority(type) < BackendTypePriority(b.type);
+ }
+};
+
+} // namespace
+
+// ----- Begin of TracingMuxerImpl::ProducerImpl
+TracingMuxerImpl::ProducerImpl::ProducerImpl(
+ TracingMuxerImpl* muxer,
+ TracingBackendId backend_id,
+ uint32_t shmem_batch_commits_duration_ms,
+ bool shmem_direct_patching_enabled)
+ : muxer_(muxer),
+ backend_id_(backend_id),
+ shmem_batch_commits_duration_ms_(shmem_batch_commits_duration_ms),
+ shmem_direct_patching_enabled_(shmem_direct_patching_enabled) {}
+
+TracingMuxerImpl::ProducerImpl::~ProducerImpl() {
+ muxer_ = nullptr;
+}
+
+void TracingMuxerImpl::ProducerImpl::Initialize(
+ std::unique_ptr<ProducerEndpoint> endpoint) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ PERFETTO_DCHECK(!connected_);
+ connection_id_.fetch_add(1, std::memory_order_relaxed);
+ is_producer_provided_smb_ = endpoint->shared_memory();
+ last_startup_target_buffer_reservation_ = 0;
+
+ // Adopt the endpoint into a shared pointer so that we can safely share it
+ // across threads that create trace writers. The custom deleter function
+ // ensures that the endpoint is always destroyed on the muxer's thread. (Note
+ // that |task_runner| is assumed to outlive tracing sessions on all threads.)
+ auto* task_runner = muxer_->task_runner_.get();
+ auto deleter = [task_runner](ProducerEndpoint* e) {
+ if (task_runner->RunsTasksOnCurrentThread()) {
+ delete e;
+ return;
+ }
+ task_runner->PostTask([e] { delete e; });
+ };
+ std::shared_ptr<ProducerEndpoint> service(endpoint.release(), deleter);
+ // This atomic store is needed because another thread might be concurrently
+ // creating a trace writer using the previous (disconnected) |service_|. See
+ // CreateTraceWriter().
+ std::atomic_store(&service_, std::move(service));
+ // Don't try to use the service here since it may not have connected yet. See
+ // OnConnect().
+}
+
+void TracingMuxerImpl::ProducerImpl::OnConnect() {
+ PERFETTO_DLOG("Producer connected");
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ PERFETTO_DCHECK(!connected_);
+ if (is_producer_provided_smb_ && !service_->IsShmemProvidedByProducer()) {
+ PERFETTO_ELOG(
+ "The service likely doesn't support producer-provided SMBs. Preventing "
+ "future attempts to use producer-provided SMB again with this "
+ "backend.");
+ producer_provided_smb_failed_ = true;
+ // Will call OnDisconnect() and cause a reconnect without producer-provided
+ // SMB.
+ service_->Disconnect();
+ return;
+ }
+ connected_ = true;
+ muxer_->UpdateDataSourcesOnAllBackends();
+ SendOnConnectTriggers();
+}
+
+void TracingMuxerImpl::ProducerImpl::OnDisconnect() {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ // If we're being destroyed, bail out.
+ if (!muxer_)
+ return;
+ connected_ = false;
+ // Active data sources for this producer will be stopped by
+ // DestroyStoppedTraceWritersForCurrentThread() since the reconnected producer
+ // will have a different connection id (even before it has finished
+ // connecting).
+ registered_data_sources_.reset();
+ DisposeConnection();
+
+ // Try reconnecting the producer.
+ muxer_->OnProducerDisconnected(this);
+}
+
+void TracingMuxerImpl::ProducerImpl::DisposeConnection() {
+ // Keep the old service around as a dead connection in case it has active
+ // trace writers. If any tracing sessions were created, we can't clear
+ // |service_| here because other threads may be concurrently creating new
+ // trace writers. Any reconnection attempt will atomically swap the new
+ // service in place of the old one.
+ if (did_setup_tracing_ || did_setup_startup_tracing_) {
+ dead_services_.push_back(service_);
+ } else {
+ service_.reset();
+ }
+}
+
+void TracingMuxerImpl::ProducerImpl::OnTracingSetup() {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ did_setup_tracing_ = true;
+ service_->MaybeSharedMemoryArbiter()->SetBatchCommitsDuration(
+ shmem_batch_commits_duration_ms_);
+ if (shmem_direct_patching_enabled_) {
+ service_->MaybeSharedMemoryArbiter()->EnableDirectSMBPatching();
+ }
+}
+
+void TracingMuxerImpl::ProducerImpl::OnStartupTracingSetup() {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ did_setup_startup_tracing_ = true;
+}
+
+void TracingMuxerImpl::ProducerImpl::SetupDataSource(
+ DataSourceInstanceID id,
+ const DataSourceConfig& cfg) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ if (!muxer_)
+ return;
+ muxer_->SetupDataSource(
+ backend_id_, connection_id_.load(std::memory_order_relaxed), id, cfg);
+}
+
+void TracingMuxerImpl::ProducerImpl::StartDataSource(DataSourceInstanceID id,
+ const DataSourceConfig&) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ if (!muxer_)
+ return;
+ muxer_->StartDataSource(backend_id_, id);
+ service_->NotifyDataSourceStarted(id);
+}
+
+void TracingMuxerImpl::ProducerImpl::StopDataSource(DataSourceInstanceID id) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ if (!muxer_)
+ return;
+ muxer_->StopDataSource_AsyncBegin(backend_id_, id);
+}
+
+void TracingMuxerImpl::ProducerImpl::Flush(
+ FlushRequestID flush_id,
+ const DataSourceInstanceID* instances,
+ size_t instance_count,
+ FlushFlags flush_flags) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ bool all_handled = true;
+ if (muxer_) {
+ for (size_t i = 0; i < instance_count; i++) {
+ DataSourceInstanceID ds_id = instances[i];
+ bool handled = muxer_->FlushDataSource_AsyncBegin(backend_id_, ds_id,
+ flush_id, flush_flags);
+ if (!handled) {
+ pending_flushes_[flush_id].insert(ds_id);
+ all_handled = false;
+ }
+ }
+ }
+
+ if (all_handled) {
+ service_->NotifyFlushComplete(flush_id);
+ }
+}
+
+void TracingMuxerImpl::ProducerImpl::ClearIncrementalState(
+ const DataSourceInstanceID* instances,
+ size_t instance_count) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ if (!muxer_)
+ return;
+ for (size_t inst_idx = 0; inst_idx < instance_count; inst_idx++) {
+ muxer_->ClearDataSourceIncrementalState(backend_id_, instances[inst_idx]);
+ }
+}
+
+bool TracingMuxerImpl::ProducerImpl::SweepDeadServices() {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ auto is_unused = [](const std::shared_ptr<ProducerEndpoint>& endpoint) {
+ auto* arbiter = endpoint->MaybeSharedMemoryArbiter();
+ return !arbiter || arbiter->TryShutdown();
+ };
+ for (auto it = dead_services_.begin(); it != dead_services_.end();) {
+ auto next_it = it;
+ next_it++;
+ if (is_unused(*it)) {
+ dead_services_.erase(it);
+ }
+ it = next_it;
+ }
+ return dead_services_.empty();
+}
+
+void TracingMuxerImpl::ProducerImpl::SendOnConnectTriggers() {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ base::TimeMillis now = base::GetWallTimeMs();
+ std::vector<std::string> triggers;
+ while (!on_connect_triggers_.empty()) {
+ // Skip if we passed TTL.
+ if (on_connect_triggers_.front().second > now) {
+ triggers.push_back(std::move(on_connect_triggers_.front().first));
+ }
+ on_connect_triggers_.pop_front();
+ }
+ if (!triggers.empty()) {
+ service_->ActivateTriggers(triggers);
+ }
+}
+
+void TracingMuxerImpl::ProducerImpl::NotifyFlushForDataSourceDone(
+ DataSourceInstanceID ds_id,
+ FlushRequestID flush_id) {
+ if (!connected_) {
+ return;
+ }
+
+ {
+ auto it = pending_flushes_.find(flush_id);
+ if (it == pending_flushes_.end()) {
+ return;
+ }
+ std::set<DataSourceInstanceID>& ds_ids = it->second;
+ ds_ids.erase(ds_id);
+ }
+
+ std::optional<DataSourceInstanceID> biggest_flush_id;
+ for (auto it = pending_flushes_.begin(); it != pending_flushes_.end();) {
+ if (it->second.empty()) {
+ biggest_flush_id = it->first;
+ it = pending_flushes_.erase(it);
+ } else {
+ break;
+ }
+ }
+
+ if (biggest_flush_id) {
+ service_->NotifyFlushComplete(*biggest_flush_id);
+ }
+}
+
+// ----- End of TracingMuxerImpl::ProducerImpl methods.
+
+// ----- Begin of TracingMuxerImpl::ConsumerImpl
+TracingMuxerImpl::ConsumerImpl::ConsumerImpl(TracingMuxerImpl* muxer,
+ BackendType backend_type,
+ TracingSessionGlobalID session_id)
+ : muxer_(muxer), backend_type_(backend_type), session_id_(session_id) {}
+
+TracingMuxerImpl::ConsumerImpl::~ConsumerImpl() {
+ muxer_ = nullptr;
+}
+
+void TracingMuxerImpl::ConsumerImpl::Initialize(
+ std::unique_ptr<ConsumerEndpoint> endpoint) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ service_ = std::move(endpoint);
+ // Don't try to use the service here since it may not have connected yet. See
+ // OnConnect().
+}
+
+void TracingMuxerImpl::ConsumerImpl::OnConnect() {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ PERFETTO_DCHECK(!connected_);
+ connected_ = true;
+
+ // Observe data source instance events so we get notified when tracing starts.
+ service_->ObserveEvents(ObservableEvents::TYPE_DATA_SOURCES_INSTANCES |
+ ObservableEvents::TYPE_ALL_DATA_SOURCES_STARTED);
+
+ // If the API client configured and started tracing before we connected,
+ // tell the backend about it now.
+ if (trace_config_)
+ muxer_->SetupTracingSession(session_id_, trace_config_);
+ if (start_pending_)
+ muxer_->StartTracingSession(session_id_);
+ if (get_trace_stats_pending_) {
+ auto callback = std::move(get_trace_stats_callback_);
+ get_trace_stats_callback_ = nullptr;
+ muxer_->GetTraceStats(session_id_, std::move(callback));
+ }
+ if (query_service_state_callback_) {
+ auto callback = std::move(query_service_state_callback_);
+ query_service_state_callback_ = nullptr;
+ muxer_->QueryServiceState(session_id_, std::move(callback));
+ }
+ if (stop_pending_)
+ muxer_->StopTracingSession(session_id_);
+}
+
+void TracingMuxerImpl::ConsumerImpl::OnDisconnect() {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ // If we're being destroyed, bail out.
+ if (!muxer_)
+ return;
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID)
+ if (!connected_ && backend_type_ == kSystemBackend) {
+ PERFETTO_ELOG(
+ "Unable to connect to the system tracing service as a consumer. On "
+ "Android, use the \"perfetto\" command line tool instead to start "
+ "system-wide tracing sessions");
+ }
+#endif // PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID)
+
+ // Notify the client about disconnection.
+ NotifyError(TracingError{TracingError::kDisconnected, "Peer disconnected"});
+
+ // Make sure the client doesn't hang in a blocking start/stop because of the
+ // disconnection.
+ NotifyStartComplete();
+ NotifyStopComplete();
+
+ // It shouldn't be necessary to call StopTracingSession. If we get this call
+ // it means that the service did shutdown before us, so there is no point
+ // trying it to ask it to stop the session. We should just remember to cleanup
+ // the consumer vector.
+ connected_ = false;
+
+ // Notify the muxer that it is safe to destroy |this|. This is needed because
+ // the ConsumerEndpoint stored in |service_| requires that |this| be safe to
+ // access until OnDisconnect() is called.
+ muxer_->OnConsumerDisconnected(this);
+}
+
+void TracingMuxerImpl::ConsumerImpl::Disconnect() {
+ // This is weird and deserves a comment.
+ //
+ // When we called the ConnectConsumer method on the service it returns
+ // us a ConsumerEndpoint which we stored in |service_|, however this
+ // ConsumerEndpoint holds a pointer to the ConsumerImpl pointed to by
+ // |this|. Part of the API contract to TracingService::ConnectConsumer is that
+ // the ConsumerImpl pointer has to be valid until the
+ // ConsumerImpl::OnDisconnect method is called. Therefore we reset the
+ // ConsumerEndpoint |service_|. Eventually this will call
+ // ConsumerImpl::OnDisconnect and we will inform the muxer it is safe to
+ // call the destructor of |this|.
+ service_.reset();
+}
+
+void TracingMuxerImpl::ConsumerImpl::OnTracingDisabled(
+ const std::string& error) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ PERFETTO_DCHECK(!stopped_);
+ stopped_ = true;
+
+ if (!error.empty())
+ NotifyError(TracingError{TracingError::kTracingFailed, error});
+
+ // If we're still waiting for the start event, fire it now. This may happen if
+ // there are no active data sources in the session.
+ NotifyStartComplete();
+ NotifyStopComplete();
+}
+
+void TracingMuxerImpl::ConsumerImpl::NotifyStartComplete() {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ if (start_complete_callback_) {
+ muxer_->task_runner_->PostTask(std::move(start_complete_callback_));
+ start_complete_callback_ = nullptr;
+ }
+ if (blocking_start_complete_callback_) {
+ muxer_->task_runner_->PostTask(
+ std::move(blocking_start_complete_callback_));
+ blocking_start_complete_callback_ = nullptr;
+ }
+}
+
+void TracingMuxerImpl::ConsumerImpl::NotifyError(const TracingError& error) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ if (error_callback_) {
+ muxer_->task_runner_->PostTask(
+ std::bind(std::move(error_callback_), error));
+ }
+}
+
+void TracingMuxerImpl::ConsumerImpl::NotifyStopComplete() {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ if (stop_complete_callback_) {
+ muxer_->task_runner_->PostTask(std::move(stop_complete_callback_));
+ stop_complete_callback_ = nullptr;
+ }
+ if (blocking_stop_complete_callback_) {
+ muxer_->task_runner_->PostTask(std::move(blocking_stop_complete_callback_));
+ blocking_stop_complete_callback_ = nullptr;
+ }
+}
+
+void TracingMuxerImpl::ConsumerImpl::OnTraceData(
+ std::vector<TracePacket> packets,
+ bool has_more) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ if (!read_trace_callback_)
+ return;
+
+ size_t capacity = 0;
+ for (const auto& packet : packets) {
+ // 16 is an over-estimation of the proto preamble size
+ capacity += packet.size() + 16;
+ }
+
+ // The shared_ptr is to avoid making a copy of the buffer when PostTask-ing.
+ std::shared_ptr<std::vector<char>> buf(new std::vector<char>());
+ buf->reserve(capacity);
+ for (auto& packet : packets) {
+ char* start;
+ size_t size;
+ std::tie(start, size) = packet.GetProtoPreamble();
+ buf->insert(buf->end(), start, start + size);
+ for (auto& slice : packet.slices()) {
+ const auto* slice_data = reinterpret_cast<const char*>(slice.start);
+ buf->insert(buf->end(), slice_data, slice_data + slice.size);
+ }
+ }
+
+ auto callback = read_trace_callback_;
+ muxer_->task_runner_->PostTask([callback, buf, has_more] {
+ TracingSession::ReadTraceCallbackArgs callback_arg{};
+ callback_arg.data = buf->empty() ? nullptr : &(*buf)[0];
+ callback_arg.size = buf->size();
+ callback_arg.has_more = has_more;
+ callback(callback_arg);
+ });
+
+ if (!has_more)
+ read_trace_callback_ = nullptr;
+}
+
+void TracingMuxerImpl::ConsumerImpl::OnObservableEvents(
+ const ObservableEvents& events) {
+ if (events.instance_state_changes_size()) {
+ for (const auto& state_change : events.instance_state_changes()) {
+ DataSourceHandle handle{state_change.producer_name(),
+ state_change.data_source_name()};
+ data_source_states_[handle] =
+ state_change.state() ==
+ ObservableEvents::DATA_SOURCE_INSTANCE_STATE_STARTED;
+ }
+ }
+
+ if (events.instance_state_changes_size() ||
+ events.all_data_sources_started()) {
+ // Data sources are first reported as being stopped before starting, so once
+ // all the data sources we know about have started we can declare tracing
+ // begun. In the case where there are no matching data sources for the
+ // session, the service will report the all_data_sources_started() event
+ // without adding any instances (only since Android S / Perfetto v10.0).
+ if (start_complete_callback_ || blocking_start_complete_callback_) {
+ bool all_data_sources_started = std::all_of(
+ data_source_states_.cbegin(), data_source_states_.cend(),
+ [](std::pair<DataSourceHandle, bool> state) { return state.second; });
+ if (all_data_sources_started)
+ NotifyStartComplete();
+ }
+ }
+}
+
+void TracingMuxerImpl::ConsumerImpl::OnSessionCloned(
+ const OnSessionClonedArgs&) {
+ // CloneSession is not exposed in the SDK. This should never happen.
+ PERFETTO_DCHECK(false);
+}
+
+void TracingMuxerImpl::ConsumerImpl::OnTraceStats(
+ bool success,
+ const TraceStats& trace_stats) {
+ if (!get_trace_stats_callback_)
+ return;
+ TracingSession::GetTraceStatsCallbackArgs callback_arg{};
+ callback_arg.success = success;
+ callback_arg.trace_stats_data = trace_stats.SerializeAsArray();
+ muxer_->task_runner_->PostTask(
+ std::bind(std::move(get_trace_stats_callback_), std::move(callback_arg)));
+ get_trace_stats_callback_ = nullptr;
+}
+
+// The callbacks below are not used.
+void TracingMuxerImpl::ConsumerImpl::OnDetach(bool) {}
+void TracingMuxerImpl::ConsumerImpl::OnAttach(bool, const TraceConfig&) {}
+// ----- End of TracingMuxerImpl::ConsumerImpl
+
+// ----- Begin of TracingMuxerImpl::TracingSessionImpl
+
+// TracingSessionImpl is the RAII object returned to API clients when they
+// invoke Tracing::CreateTracingSession. They use it for starting/stopping
+// tracing.
+
+TracingMuxerImpl::TracingSessionImpl::TracingSessionImpl(
+ TracingMuxerImpl* muxer,
+ TracingSessionGlobalID session_id,
+ BackendType backend_type)
+ : muxer_(muxer), session_id_(session_id), backend_type_(backend_type) {}
+
+// Can be destroyed from any thread.
+TracingMuxerImpl::TracingSessionImpl::~TracingSessionImpl() {
+ auto* muxer = muxer_;
+ auto session_id = session_id_;
+ muxer->task_runner_->PostTask(
+ [muxer, session_id] { muxer->DestroyTracingSession(session_id); });
+}
+
+// Can be called from any thread.
+void TracingMuxerImpl::TracingSessionImpl::Setup(const TraceConfig& cfg,
+ int fd) {
+ auto* muxer = muxer_;
+ auto session_id = session_id_;
+ std::shared_ptr<TraceConfig> trace_config(new TraceConfig(cfg));
+ if (fd >= 0) {
+ base::ignore_result(backend_type_); // For -Wunused in the amalgamation.
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ if (backend_type_ != kInProcessBackend) {
+ PERFETTO_FATAL(
+ "Passing a file descriptor to TracingSession::Setup() is only "
+ "supported with the kInProcessBackend on Windows. Use "
+ "TracingSession::ReadTrace() instead");
+ }
+#endif
+ trace_config->set_write_into_file(true);
+ fd = dup(fd);
+ }
+ muxer->task_runner_->PostTask([muxer, session_id, trace_config, fd] {
+ muxer->SetupTracingSession(session_id, trace_config, base::ScopedFile(fd));
+ });
+}
+
+// Can be called from any thread.
+void TracingMuxerImpl::TracingSessionImpl::Start() {
+ auto* muxer = muxer_;
+ auto session_id = session_id_;
+ muxer->task_runner_->PostTask(
+ [muxer, session_id] { muxer->StartTracingSession(session_id); });
+}
+
+// Can be called from any thread.
+void TracingMuxerImpl::TracingSessionImpl::ChangeTraceConfig(
+ const TraceConfig& cfg) {
+ auto* muxer = muxer_;
+ auto session_id = session_id_;
+ muxer->task_runner_->PostTask([muxer, session_id, cfg] {
+ muxer->ChangeTracingSessionConfig(session_id, cfg);
+ });
+}
+
+// Can be called from any thread except the service thread.
+void TracingMuxerImpl::TracingSessionImpl::StartBlocking() {
+ PERFETTO_DCHECK(!muxer_->task_runner_->RunsTasksOnCurrentThread());
+ auto* muxer = muxer_;
+ auto session_id = session_id_;
+ base::WaitableEvent tracing_started;
+ muxer->task_runner_->PostTask([muxer, session_id, &tracing_started] {
+ auto* consumer = muxer->FindConsumer(session_id);
+ if (!consumer) {
+ // TODO(skyostil): Signal an error to the user.
+ tracing_started.Notify();
+ return;
+ }
+ PERFETTO_DCHECK(!consumer->blocking_start_complete_callback_);
+ consumer->blocking_start_complete_callback_ = [&] {
+ tracing_started.Notify();
+ };
+ muxer->StartTracingSession(session_id);
+ });
+ tracing_started.Wait();
+}
+
+// Can be called from any thread.
+void TracingMuxerImpl::TracingSessionImpl::Flush(
+ std::function<void(bool)> user_callback,
+ uint32_t timeout_ms) {
+ auto* muxer = muxer_;
+ auto session_id = session_id_;
+ muxer->task_runner_->PostTask([muxer, session_id, timeout_ms, user_callback] {
+ auto* consumer = muxer->FindConsumer(session_id);
+ if (!consumer) {
+ std::move(user_callback)(false);
+ return;
+ }
+ muxer->FlushTracingSession(session_id, timeout_ms,
+ std::move(user_callback));
+ });
+}
+
+// Can be called from any thread.
+void TracingMuxerImpl::TracingSessionImpl::Stop() {
+ auto* muxer = muxer_;
+ auto session_id = session_id_;
+ muxer->task_runner_->PostTask(
+ [muxer, session_id] { muxer->StopTracingSession(session_id); });
+}
+
+// Can be called from any thread except the service thread.
+void TracingMuxerImpl::TracingSessionImpl::StopBlocking() {
+ PERFETTO_DCHECK(!muxer_->task_runner_->RunsTasksOnCurrentThread());
+ auto* muxer = muxer_;
+ auto session_id = session_id_;
+ base::WaitableEvent tracing_stopped;
+ muxer->task_runner_->PostTask([muxer, session_id, &tracing_stopped] {
+ auto* consumer = muxer->FindConsumer(session_id);
+ if (!consumer) {
+ // TODO(skyostil): Signal an error to the user.
+ tracing_stopped.Notify();
+ return;
+ }
+ PERFETTO_DCHECK(!consumer->blocking_stop_complete_callback_);
+ consumer->blocking_stop_complete_callback_ = [&] {
+ tracing_stopped.Notify();
+ };
+ muxer->StopTracingSession(session_id);
+ });
+ tracing_stopped.Wait();
+}
+
+// Can be called from any thread.
+void TracingMuxerImpl::TracingSessionImpl::ReadTrace(ReadTraceCallback cb) {
+ auto* muxer = muxer_;
+ auto session_id = session_id_;
+ muxer->task_runner_->PostTask([muxer, session_id, cb] {
+ muxer->ReadTracingSessionData(session_id, std::move(cb));
+ });
+}
+
+// Can be called from any thread.
+void TracingMuxerImpl::TracingSessionImpl::SetOnStartCallback(
+ std::function<void()> cb) {
+ auto* muxer = muxer_;
+ auto session_id = session_id_;
+ muxer->task_runner_->PostTask([muxer, session_id, cb] {
+ auto* consumer = muxer->FindConsumer(session_id);
+ if (!consumer)
+ return;
+ consumer->start_complete_callback_ = cb;
+ });
+}
+
+// Can be called from any thread
+void TracingMuxerImpl::TracingSessionImpl::SetOnErrorCallback(
+ std::function<void(TracingError)> cb) {
+ auto* muxer = muxer_;
+ auto session_id = session_id_;
+ muxer->task_runner_->PostTask([muxer, session_id, cb] {
+ auto* consumer = muxer->FindConsumer(session_id);
+ if (!consumer) {
+ // Notify the client about concurrent disconnection of the session.
+ if (cb)
+ cb(TracingError{TracingError::kDisconnected, "Peer disconnected"});
+ return;
+ }
+ consumer->error_callback_ = cb;
+ });
+}
+
+// Can be called from any thread.
+void TracingMuxerImpl::TracingSessionImpl::SetOnStopCallback(
+ std::function<void()> cb) {
+ auto* muxer = muxer_;
+ auto session_id = session_id_;
+ muxer->task_runner_->PostTask([muxer, session_id, cb] {
+ auto* consumer = muxer->FindConsumer(session_id);
+ if (!consumer)
+ return;
+ consumer->stop_complete_callback_ = cb;
+ });
+}
+
+// Can be called from any thread.
+void TracingMuxerImpl::TracingSessionImpl::GetTraceStats(
+ GetTraceStatsCallback cb) {
+ auto* muxer = muxer_;
+ auto session_id = session_id_;
+ muxer->task_runner_->PostTask([muxer, session_id, cb] {
+ muxer->GetTraceStats(session_id, std::move(cb));
+ });
+}
+
+// Can be called from any thread.
+void TracingMuxerImpl::TracingSessionImpl::QueryServiceState(
+ QueryServiceStateCallback cb) {
+ auto* muxer = muxer_;
+ auto session_id = session_id_;
+ muxer->task_runner_->PostTask([muxer, session_id, cb] {
+ muxer->QueryServiceState(session_id, std::move(cb));
+ });
+}
+
+// ----- End of TracingMuxerImpl::TracingSessionImpl
+
+// ----- Begin of TracingMuxerImpl::StartupTracingSessionImpl
+
+TracingMuxerImpl::StartupTracingSessionImpl::StartupTracingSessionImpl(
+ TracingMuxerImpl* muxer,
+ TracingSessionGlobalID session_id,
+ BackendType backend_type)
+ : muxer_(muxer), session_id_(session_id), backend_type_(backend_type) {}
+
+// Can be destroyed from any thread.
+TracingMuxerImpl::StartupTracingSessionImpl::~StartupTracingSessionImpl() =
+ default;
+
+void TracingMuxerImpl::StartupTracingSessionImpl::Abort() {
+ auto* muxer = muxer_;
+ auto session_id = session_id_;
+ auto backend_type = backend_type_;
+ muxer->task_runner_->PostTask([muxer, session_id, backend_type] {
+ muxer->AbortStartupTracingSession(session_id, backend_type);
+ });
+}
+
+// Must not be called from the SDK's internal thread.
+void TracingMuxerImpl::StartupTracingSessionImpl::AbortBlocking() {
+ auto* muxer = muxer_;
+ auto session_id = session_id_;
+ auto backend_type = backend_type_;
+ PERFETTO_CHECK(!muxer->task_runner_->RunsTasksOnCurrentThread());
+ base::WaitableEvent event;
+ muxer->task_runner_->PostTask([muxer, session_id, backend_type, &event] {
+ muxer->AbortStartupTracingSession(session_id, backend_type);
+ event.Notify();
+ });
+ event.Wait();
+}
+
+// ----- End of TracingMuxerImpl::StartupTracingSessionImpl
+
+// static
+TracingMuxer* TracingMuxer::instance_ = TracingMuxerFake::Get();
+
+// This is called by perfetto::Tracing::Initialize().
+// Can be called on any thread. Typically, but not necessarily, that will be
+// the embedder's main thread.
+TracingMuxerImpl::TracingMuxerImpl(const TracingInitArgs& args)
+ : TracingMuxer(args.platform ? args.platform
+ : Platform::GetDefaultPlatform()) {
+ PERFETTO_DETACH_FROM_THREAD(thread_checker_);
+ instance_ = this;
+
+ // Create the thread where muxer, producers and service will live.
+ Platform::CreateTaskRunnerArgs tr_args{/*name_for_debugging=*/"TracingMuxer"};
+ task_runner_.reset(new NonReentrantTaskRunner(
+ this, platform_->CreateTaskRunner(std::move(tr_args))));
+
+ // Run the initializer on that thread.
+ task_runner_->PostTask([this, args] {
+ Initialize(args);
+ AddBackends(args);
+ });
+}
+
+void TracingMuxerImpl::Initialize(const TracingInitArgs& args) {
+ PERFETTO_DCHECK_THREAD(thread_checker_); // Rebind the thread checker.
+
+ policy_ = args.tracing_policy;
+ supports_multiple_data_source_instances_ =
+ args.supports_multiple_data_source_instances;
+
+ // Fallback backend for producer creation for an unsupported backend type.
+ PERFETTO_CHECK(producer_backends_.empty());
+ AddProducerBackend(internal::TracingBackendFake::GetInstance(),
+ BackendType::kUnspecifiedBackend, args);
+ // Fallback backend for consumer creation for an unsupported backend type.
+ // This backend simply fails any attempt to start a tracing session.
+ PERFETTO_CHECK(consumer_backends_.empty());
+ AddConsumerBackend(internal::TracingBackendFake::GetInstance(),
+ BackendType::kUnspecifiedBackend);
+}
+
+void TracingMuxerImpl::AddConsumerBackend(TracingConsumerBackend* backend,
+ BackendType type) {
+ if (!backend) {
+ // We skip the log in release builds because the *_backend_fake.cc code
+ // has already an ELOG before returning a nullptr.
+ PERFETTO_DLOG("Consumer backend creation failed, type %d",
+ static_cast<int>(type));
+ return;
+ }
+ // Keep the backends sorted by type.
+ auto it =
+ std::upper_bound(consumer_backends_.begin(), consumer_backends_.end(),
+ type, CompareBackendByType<RegisteredConsumerBackend>());
+ it = consumer_backends_.emplace(it);
+
+ RegisteredConsumerBackend& rb = *it;
+ rb.backend = backend;
+ rb.type = type;
+}
+
+void TracingMuxerImpl::AddProducerBackend(TracingProducerBackend* backend,
+ BackendType type,
+ const TracingInitArgs& args) {
+ if (!backend) {
+ // We skip the log in release builds because the *_backend_fake.cc code
+ // has already an ELOG before returning a nullptr.
+ PERFETTO_DLOG("Producer backend creation failed, type %d",
+ static_cast<int>(type));
+ return;
+ }
+ TracingBackendId backend_id = producer_backends_.size();
+ // Keep the backends sorted by type.
+ auto it =
+ std::upper_bound(producer_backends_.begin(), producer_backends_.end(),
+ type, CompareBackendByType<RegisteredProducerBackend>());
+ it = producer_backends_.emplace(it);
+
+ RegisteredProducerBackend& rb = *it;
+ rb.backend = backend;
+ rb.id = backend_id;
+ rb.type = type;
+ rb.producer.reset(new ProducerImpl(this, backend_id,
+ args.shmem_batch_commits_duration_ms,
+ args.shmem_direct_patching_enabled));
+ rb.producer_conn_args.producer = rb.producer.get();
+ rb.producer_conn_args.producer_name = platform_->GetCurrentProcessName();
+ rb.producer_conn_args.task_runner = task_runner_.get();
+ rb.producer_conn_args.shmem_size_hint_bytes = args.shmem_size_hint_kb * 1024;
+ rb.producer_conn_args.shmem_page_size_hint_bytes =
+ args.shmem_page_size_hint_kb * 1024;
+ rb.producer_conn_args.create_socket_async = args.create_socket_async;
+ rb.producer->Initialize(rb.backend->ConnectProducer(rb.producer_conn_args));
+}
+
+TracingMuxerImpl::RegisteredProducerBackend*
+TracingMuxerImpl::FindProducerBackendById(TracingBackendId id) {
+ for (RegisteredProducerBackend& b : producer_backends_) {
+ if (b.id == id) {
+ return &b;
+ }
+ }
+ return nullptr;
+}
+
+TracingMuxerImpl::RegisteredProducerBackend*
+TracingMuxerImpl::FindProducerBackendByType(BackendType type) {
+ for (RegisteredProducerBackend& b : producer_backends_) {
+ if (b.type == type) {
+ return &b;
+ }
+ }
+ return nullptr;
+}
+
+TracingMuxerImpl::RegisteredConsumerBackend*
+TracingMuxerImpl::FindConsumerBackendByType(BackendType type) {
+ for (RegisteredConsumerBackend& b : consumer_backends_) {
+ if (b.type == type) {
+ return &b;
+ }
+ }
+ return nullptr;
+}
+
+void TracingMuxerImpl::AddBackends(const TracingInitArgs& args) {
+ if (args.backends & kSystemBackend) {
+ PERFETTO_CHECK(args.system_producer_backend_factory_);
+ if (FindProducerBackendByType(kSystemBackend) == nullptr) {
+ AddProducerBackend(args.system_producer_backend_factory_(),
+ kSystemBackend, args);
+ }
+ if (args.enable_system_consumer) {
+ PERFETTO_CHECK(args.system_consumer_backend_factory_);
+ if (FindConsumerBackendByType(kSystemBackend) == nullptr) {
+ AddConsumerBackend(args.system_consumer_backend_factory_(),
+ kSystemBackend);
+ }
+ }
+ }
+
+ if (args.backends & kInProcessBackend) {
+ TracingBackend* b = nullptr;
+ if (FindProducerBackendByType(kInProcessBackend) == nullptr) {
+ if (!b) {
+ PERFETTO_CHECK(args.in_process_backend_factory_);
+ b = args.in_process_backend_factory_();
+ }
+ AddProducerBackend(b, kInProcessBackend, args);
+ }
+ if (FindConsumerBackendByType(kInProcessBackend) == nullptr) {
+ if (!b) {
+ PERFETTO_CHECK(args.in_process_backend_factory_);
+ b = args.in_process_backend_factory_();
+ }
+ AddConsumerBackend(b, kInProcessBackend);
+ }
+ }
+
+ if (args.backends & kCustomBackend) {
+ PERFETTO_CHECK(args.custom_backend);
+ if (FindProducerBackendByType(kCustomBackend) == nullptr) {
+ AddProducerBackend(args.custom_backend, kCustomBackend, args);
+ }
+ if (FindConsumerBackendByType(kCustomBackend) == nullptr) {
+ AddConsumerBackend(args.custom_backend, kCustomBackend);
+ }
+ }
+
+ if (args.backends & ~(kSystemBackend | kInProcessBackend | kCustomBackend)) {
+ PERFETTO_FATAL("Unsupported tracing backend type");
+ }
+}
+
+// Can be called from any thread (but not concurrently).
+bool TracingMuxerImpl::RegisterDataSource(
+ const DataSourceDescriptor& descriptor,
+ DataSourceFactory factory,
+ DataSourceParams params,
+ bool no_flush,
+ DataSourceStaticState* static_state) {
+ // Ignore repeated registrations.
+ if (static_state->index != kMaxDataSources)
+ return true;
+
+ uint32_t new_index = next_data_source_index_++;
+ if (new_index >= kMaxDataSources) {
+ PERFETTO_DLOG(
+ "RegisterDataSource failed: too many data sources already registered");
+ return false;
+ }
+
+ // Initialize the static state.
+ static_assert(sizeof(static_state->instances[0]) >= sizeof(DataSourceState),
+ "instances[] size mismatch");
+ for (size_t i = 0; i < static_state->instances.size(); i++)
+ new (&static_state->instances[i]) DataSourceState{};
+
+ static_state->index = new_index;
+
+ // Generate a semi-unique id for this data source.
+ base::Hasher hash;
+ hash.Update(reinterpret_cast<intptr_t>(static_state));
+ hash.Update(base::GetWallTimeNs().count());
+ static_state->id = hash.digest() ? hash.digest() : 1;
+
+ task_runner_->PostTask([this, descriptor, factory, static_state, params,
+ no_flush] {
+ data_sources_.emplace_back();
+ RegisteredDataSource& rds = data_sources_.back();
+ rds.descriptor = descriptor;
+ rds.factory = factory;
+ rds.supports_multiple_instances =
+ supports_multiple_data_source_instances_ &&
+ params.supports_multiple_instances;
+ rds.requires_callbacks_under_lock = params.requires_callbacks_under_lock;
+ rds.static_state = static_state;
+ rds.no_flush = no_flush;
+
+ UpdateDataSourceOnAllBackends(rds, /*is_changed=*/false);
+ });
+ return true;
+}
+
+// Can be called from any thread (but not concurrently).
+void TracingMuxerImpl::UpdateDataSourceDescriptor(
+ const DataSourceDescriptor& descriptor,
+ const DataSourceStaticState* static_state) {
+ task_runner_->PostTask([this, descriptor, static_state] {
+ for (auto& rds : data_sources_) {
+ if (rds.static_state == static_state) {
+ PERFETTO_CHECK(rds.descriptor.name() == descriptor.name());
+ rds.descriptor = descriptor;
+ rds.descriptor.set_id(static_state->id);
+ UpdateDataSourceOnAllBackends(rds, /*is_changed=*/true);
+ return;
+ }
+ }
+ });
+}
+
+// Can be called from any thread (but not concurrently).
+void TracingMuxerImpl::RegisterInterceptor(
+ const InterceptorDescriptor& descriptor,
+ InterceptorFactory factory,
+ InterceptorBase::TLSFactory tls_factory,
+ InterceptorBase::TracePacketCallback packet_callback) {
+ task_runner_->PostTask([this, descriptor, factory, tls_factory,
+ packet_callback] {
+ // Ignore repeated registrations.
+ for (const auto& interceptor : interceptors_) {
+ if (interceptor.descriptor.name() == descriptor.name()) {
+ PERFETTO_DCHECK(interceptor.tls_factory == tls_factory);
+ PERFETTO_DCHECK(interceptor.packet_callback == packet_callback);
+ return;
+ }
+ }
+ // Only allow certain interceptors for now.
+ if (descriptor.name() != "test_interceptor" &&
+ descriptor.name() != "console" && descriptor.name() != "etwexport") {
+ PERFETTO_ELOG(
+ "Interceptors are experimental. If you want to use them, please "
+ "get in touch with the project maintainers "
+ "(https://perfetto.dev/docs/contributing/"
+ "getting-started#community).");
+ return;
+ }
+ interceptors_.emplace_back();
+ RegisteredInterceptor& interceptor = interceptors_.back();
+ interceptor.descriptor = descriptor;
+ interceptor.factory = factory;
+ interceptor.tls_factory = tls_factory;
+ interceptor.packet_callback = packet_callback;
+ });
+}
+
+void TracingMuxerImpl::ActivateTriggers(
+ const std::vector<std::string>& triggers,
+ uint32_t ttl_ms) {
+ base::TimeMillis expire_time =
+ base::GetWallTimeMs() + base::TimeMillis(ttl_ms);
+ task_runner_->PostTask([this, triggers, expire_time] {
+ for (RegisteredProducerBackend& backend : producer_backends_) {
+ if (backend.producer->connected_) {
+ backend.producer->service_->ActivateTriggers(triggers);
+ } else {
+ for (const std::string& trigger : triggers) {
+ backend.producer->on_connect_triggers_.emplace_back(trigger,
+ expire_time);
+ }
+ }
+ }
+ });
+}
+
+// Checks if there is any matching startup tracing data source instance for a
+// new SetupDataSource call. If so, moves the data source to this tracing
+// session (and its target buffer) and returns true, otherwise returns false.
+static bool MaybeAdoptStartupTracingInDataSource(
+ TracingBackendId backend_id,
+ uint32_t backend_connection_id,
+ DataSourceInstanceID instance_id,
+ const DataSourceConfig& cfg,
+ const std::vector<RegisteredDataSource>& data_sources) {
+ for (const auto& rds : data_sources) {
+ DataSourceStaticState* static_state = rds.static_state;
+ for (uint32_t i = 0; i < kMaxDataSourceInstances; i++) {
+ auto* internal_state = static_state->TryGet(i);
+
+ if (internal_state &&
+ internal_state->startup_target_buffer_reservation.load(
+ std::memory_order_relaxed) &&
+ internal_state->data_source_instance_id == 0 &&
+ internal_state->backend_id == backend_id &&
+ internal_state->backend_connection_id == backend_connection_id &&
+ internal_state->config &&
+ internal_state->data_source->CanAdoptStartupSession(
+ *internal_state->config, cfg)) {
+ PERFETTO_DLOG("Setting up data source %" PRIu64
+ " %s by adopting it from a startup tracing session",
+ instance_id, cfg.name().c_str());
+
+ std::lock_guard<std::recursive_mutex> lock(internal_state->lock);
+ // Set the associations. The actual takeover happens in
+ // StartDataSource().
+ internal_state->data_source_instance_id = instance_id;
+ internal_state->buffer_id =
+ static_cast<internal::BufferId>(cfg.target_buffer());
+ internal_state->config.reset(new DataSourceConfig(cfg));
+
+ // TODO(eseckler): Should the data souce config provided by the service
+ // be allowed to specify additional interceptors / additional data
+ // source params?
+
+ return true;
+ }
+ }
+ }
+ return false;
+}
+
+// Called by the service of one of the backends.
+void TracingMuxerImpl::SetupDataSource(TracingBackendId backend_id,
+ uint32_t backend_connection_id,
+ DataSourceInstanceID instance_id,
+ const DataSourceConfig& cfg) {
+ PERFETTO_DLOG("Setting up data source %" PRIu64 " %s", instance_id,
+ cfg.name().c_str());
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+
+ // First check if there is any matching startup tracing data source instance.
+ if (MaybeAdoptStartupTracingInDataSource(backend_id, backend_connection_id,
+ instance_id, cfg, data_sources_)) {
+ return;
+ }
+
+ for (const auto& rds : data_sources_) {
+ if (rds.descriptor.name() != cfg.name())
+ continue;
+ DataSourceStaticState& static_state = *rds.static_state;
+
+ // If this data source is already active for this exact config, don't start
+ // another instance. This happens when we have several data sources with the
+ // same name, in which case the service sends one SetupDataSource event for
+ // each one. Since we can't map which event maps to which data source, we
+ // ensure each event only starts one data source instance.
+ // TODO(skyostil): Register a unique id with each data source to the service
+ // to disambiguate.
+ bool active_for_config = false;
+ for (uint32_t i = 0; i < kMaxDataSourceInstances; i++) {
+ if (!static_state.TryGet(i))
+ continue;
+ auto* internal_state =
+ reinterpret_cast<DataSourceState*>(&static_state.instances[i]);
+ if (internal_state->backend_id == backend_id &&
+ internal_state->backend_connection_id == backend_connection_id &&
+ internal_state->config && *internal_state->config == cfg) {
+ active_for_config = true;
+ break;
+ }
+ }
+ if (active_for_config) {
+ PERFETTO_DLOG(
+ "Data source %s is already active with this config, skipping",
+ cfg.name().c_str());
+ continue;
+ }
+
+ SetupDataSourceImpl(rds, backend_id, backend_connection_id, instance_id,
+ cfg, /*startup_session_id=*/0);
+ return;
+ }
+}
+
+TracingMuxerImpl::FindDataSourceRes TracingMuxerImpl::SetupDataSourceImpl(
+ const RegisteredDataSource& rds,
+ TracingBackendId backend_id,
+ uint32_t backend_connection_id,
+ DataSourceInstanceID instance_id,
+ const DataSourceConfig& cfg,
+ TracingSessionGlobalID startup_session_id) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ DataSourceStaticState& static_state = *rds.static_state;
+
+ // If any bit is set in `static_state.valid_instances` then at least one
+ // other instance of data source is running.
+ if (!rds.supports_multiple_instances &&
+ static_state.valid_instances.load(std::memory_order_acquire) != 0) {
+ PERFETTO_ELOG(
+ "Failed to setup data source because some another instance of this "
+ "data source is already active");
+ return FindDataSourceRes();
+ }
+
+ for (uint32_t i = 0; i < kMaxDataSourceInstances; i++) {
+ // Find a free slot.
+ if (static_state.TryGet(i))
+ continue;
+
+ auto* internal_state =
+ reinterpret_cast<DataSourceState*>(&static_state.instances[i]);
+ std::unique_lock<std::recursive_mutex> lock(internal_state->lock);
+ static_assert(
+ std::is_same<decltype(internal_state->data_source_instance_id),
+ DataSourceInstanceID>::value,
+ "data_source_instance_id type mismatch");
+ internal_state->muxer_id_for_testing = muxer_id_for_testing_;
+ RegisteredProducerBackend& backend = *FindProducerBackendById(backend_id);
+
+ if (startup_session_id) {
+ uint16_t& last_reservation =
+ backend.producer->last_startup_target_buffer_reservation_;
+ if (last_reservation == std::numeric_limits<uint16_t>::max()) {
+ PERFETTO_ELOG(
+ "Startup buffer reservations exhausted, dropping data source");
+ return FindDataSourceRes();
+ }
+ internal_state->startup_target_buffer_reservation.store(
+ ++last_reservation, std::memory_order_relaxed);
+ } else {
+ internal_state->startup_target_buffer_reservation.store(
+ 0, std::memory_order_relaxed);
+ }
+
+ internal_state->backend_id = backend_id;
+ internal_state->backend_connection_id = backend_connection_id;
+ internal_state->data_source_instance_id = instance_id;
+ internal_state->buffer_id =
+ static_cast<internal::BufferId>(cfg.target_buffer());
+ internal_state->config.reset(new DataSourceConfig(cfg));
+ internal_state->startup_session_id = startup_session_id;
+ internal_state->data_source = rds.factory();
+ internal_state->interceptor = nullptr;
+ internal_state->interceptor_id = 0;
+
+ if (cfg.has_interceptor_config()) {
+ for (size_t j = 0; j < interceptors_.size(); j++) {
+ if (cfg.interceptor_config().name() ==
+ interceptors_[j].descriptor.name()) {
+ PERFETTO_DLOG("Intercepting data source %" PRIu64
+ " \"%s\" into \"%s\"",
+ instance_id, cfg.name().c_str(),
+ cfg.interceptor_config().name().c_str());
+ internal_state->interceptor_id = static_cast<uint32_t>(j + 1);
+ internal_state->interceptor = interceptors_[j].factory();
+ internal_state->interceptor->OnSetup({cfg});
+ break;
+ }
+ }
+ if (!internal_state->interceptor_id) {
+ PERFETTO_ELOG("Unknown interceptor configured for data source: %s",
+ cfg.interceptor_config().name().c_str());
+ }
+ }
+
+ // This must be made at the end. See matching acquire-load in
+ // DataSource::Trace().
+ static_state.valid_instances.fetch_or(1 << i, std::memory_order_release);
+
+ DataSourceBase::SetupArgs setup_args;
+ setup_args.config = &cfg;
+ setup_args.backend_type = backend.type;
+ setup_args.internal_instance_index = i;
+
+ if (!rds.requires_callbacks_under_lock)
+ lock.unlock();
+ internal_state->data_source->OnSetup(setup_args);
+
+ return FindDataSourceRes(&static_state, internal_state, i,
+ rds.requires_callbacks_under_lock);
+ }
+ PERFETTO_ELOG(
+ "Maximum number of data source instances exhausted. "
+ "Dropping data source %" PRIu64,
+ instance_id);
+ return FindDataSourceRes();
+}
+
+// Called by the service of one of the backends.
+void TracingMuxerImpl::StartDataSource(TracingBackendId backend_id,
+ DataSourceInstanceID instance_id) {
+ PERFETTO_DLOG("Starting data source %" PRIu64, instance_id);
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+
+ auto ds = FindDataSource(backend_id, instance_id);
+ if (!ds) {
+ PERFETTO_ELOG("Could not find data source to start");
+ return;
+ }
+
+ // Check if the data source was already started for startup tracing.
+ uint16_t startup_reservation =
+ ds.internal_state->startup_target_buffer_reservation.load(
+ std::memory_order_relaxed);
+ if (startup_reservation) {
+ RegisteredProducerBackend& backend = *FindProducerBackendById(backend_id);
+ TracingSessionGlobalID session_id = ds.internal_state->startup_session_id;
+ auto session_it = std::find_if(
+ backend.startup_sessions.begin(), backend.startup_sessions.end(),
+ [session_id](const RegisteredStartupSession& session) {
+ return session.session_id == session_id;
+ });
+ PERFETTO_DCHECK(session_it != backend.startup_sessions.end());
+
+ if (session_it->is_aborting) {
+ PERFETTO_DLOG("Data source %" PRIu64
+ " was already aborted for startup tracing, not starting it",
+ instance_id);
+ return;
+ }
+
+ PERFETTO_DLOG(
+ "Data source %" PRIu64
+ " was already started for startup tracing, binding its target buffer",
+ instance_id);
+
+ backend.producer->service_->MaybeSharedMemoryArbiter()
+ ->BindStartupTargetBuffer(startup_reservation,
+ ds.internal_state->buffer_id);
+
+ // The reservation ID can be used even after binding it, so there's no need
+ // for any barriers here - we just need atomicity.
+ ds.internal_state->startup_target_buffer_reservation.store(
+ 0, std::memory_order_relaxed);
+
+ // TODO(eseckler): Should we reset incremental state at this point, or
+ // notify the data source some other way?
+
+ // The session should not have been fully bound yet (or aborted).
+ PERFETTO_DCHECK(session_it->num_unbound_data_sources > 0);
+
+ session_it->num_unbound_data_sources--;
+ if (session_it->num_unbound_data_sources == 0) {
+ if (session_it->on_adopted)
+ task_runner_->PostTask(session_it->on_adopted);
+ backend.startup_sessions.erase(session_it);
+ }
+ return;
+ }
+
+ StartDataSourceImpl(ds);
+}
+
+void TracingMuxerImpl::StartDataSourceImpl(const FindDataSourceRes& ds) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+
+ DataSourceBase::StartArgs start_args{};
+ start_args.internal_instance_index = ds.instance_idx;
+
+ std::unique_lock<std::recursive_mutex> lock(ds.internal_state->lock);
+ if (ds.internal_state->interceptor)
+ ds.internal_state->interceptor->OnStart({});
+ ds.internal_state->trace_lambda_enabled.store(true,
+ std::memory_order_relaxed);
+ PERFETTO_DCHECK(ds.internal_state->data_source != nullptr);
+
+ if (!ds.requires_callbacks_under_lock)
+ lock.unlock();
+ ds.internal_state->data_source->OnStart(start_args);
+}
+
+// Called by the service of one of the backends.
+void TracingMuxerImpl::StopDataSource_AsyncBegin(
+ TracingBackendId backend_id,
+ DataSourceInstanceID instance_id) {
+ PERFETTO_DLOG("Stopping data source %" PRIu64, instance_id);
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+
+ auto ds = FindDataSource(backend_id, instance_id);
+ if (!ds) {
+ PERFETTO_ELOG("Could not find data source to stop");
+ return;
+ }
+
+ StopDataSource_AsyncBeginImpl(ds);
+}
+
+void TracingMuxerImpl::StopDataSource_AsyncBeginImpl(
+ const FindDataSourceRes& ds) {
+ TracingBackendId backend_id = ds.internal_state->backend_id;
+ uint32_t backend_connection_id = ds.internal_state->backend_connection_id;
+ DataSourceInstanceID instance_id = ds.internal_state->data_source_instance_id;
+
+ StopArgsImpl stop_args{};
+ stop_args.internal_instance_index = ds.instance_idx;
+ stop_args.async_stop_closure = [this, backend_id, backend_connection_id,
+ instance_id, ds] {
+ // TracingMuxerImpl is long lived, capturing |this| is okay.
+ // The notification closure can be moved out of the StopArgs by the
+ // embedder to handle stop asynchronously. The embedder might then
+ // call the closure on a different thread than the current one, hence
+ // this nested PostTask().
+ task_runner_->PostTask(
+ [this, backend_id, backend_connection_id, instance_id, ds] {
+ StopDataSource_AsyncEnd(backend_id, backend_connection_id,
+ instance_id, ds);
+ });
+ };
+
+ {
+ std::unique_lock<std::recursive_mutex> lock(ds.internal_state->lock);
+
+ // Don't call OnStop again if the datasource is already stopping.
+ if (ds.internal_state->async_stop_in_progress)
+ return;
+ ds.internal_state->async_stop_in_progress = true;
+
+ if (ds.internal_state->interceptor)
+ ds.internal_state->interceptor->OnStop({});
+
+ if (!ds.requires_callbacks_under_lock)
+ lock.unlock();
+ ds.internal_state->data_source->OnStop(stop_args);
+ }
+
+ // If the embedder hasn't called StopArgs.HandleStopAsynchronously() run the
+ // async closure here. In theory we could avoid the PostTask and call
+ // straight into CompleteDataSourceAsyncStop(). We keep that to reduce
+ // divergencies between the deferred-stop vs non-deferred-stop code paths.
+ if (stop_args.async_stop_closure)
+ std::move(stop_args.async_stop_closure)();
+}
+
+void TracingMuxerImpl::StopDataSource_AsyncEnd(TracingBackendId backend_id,
+ uint32_t backend_connection_id,
+ DataSourceInstanceID instance_id,
+ const FindDataSourceRes& ds) {
+ PERFETTO_DLOG("Ending async stop of data source %" PRIu64, instance_id);
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+
+ // Check that the data source instance is still active and was not modified
+ // while it was being stopped.
+ if (!ds.static_state->TryGet(ds.instance_idx) ||
+ ds.internal_state->backend_id != backend_id ||
+ ds.internal_state->backend_connection_id != backend_connection_id ||
+ ds.internal_state->data_source_instance_id != instance_id) {
+ PERFETTO_ELOG(
+ "Async stop of data source %" PRIu64
+ " failed. This might be due to calling the async_stop_closure twice.",
+ instance_id);
+ return;
+ }
+
+ const uint32_t mask = ~(1 << ds.instance_idx);
+ ds.static_state->valid_instances.fetch_and(mask, std::memory_order_acq_rel);
+
+ // Take the mutex to prevent that the data source is in the middle of
+ // a Trace() execution where it called GetDataSourceLocked() while we
+ // destroy it.
+ uint16_t startup_buffer_reservation;
+ TracingSessionGlobalID startup_session_id;
+ {
+ std::lock_guard<std::recursive_mutex> guard(ds.internal_state->lock);
+ ds.internal_state->trace_lambda_enabled.store(false,
+ std::memory_order_relaxed);
+ ds.internal_state->data_source.reset();
+ ds.internal_state->interceptor.reset();
+ ds.internal_state->config.reset();
+ ds.internal_state->async_stop_in_progress = false;
+ startup_buffer_reservation =
+ ds.internal_state->startup_target_buffer_reservation.load(
+ std::memory_order_relaxed);
+ startup_session_id = ds.internal_state->startup_session_id;
+ }
+
+ // The other fields of internal_state are deliberately *not* cleared.
+ // See races-related comments of DataSource::Trace().
+
+ TracingMuxer::generation_++;
+
+ // |producer_backends_| is append-only, Backend instances are always valid.
+ PERFETTO_CHECK(backend_id < producer_backends_.size());
+ RegisteredProducerBackend& backend = *FindProducerBackendById(backend_id);
+ ProducerImpl* producer = backend.producer.get();
+ if (!producer)
+ return;
+
+ // If the data source instance still has a startup buffer reservation, it was
+ // only active for startup tracing and never started by the service. Discard
+ // the startup buffer reservation.
+ if (startup_buffer_reservation) {
+ PERFETTO_DCHECK(startup_session_id);
+
+ if (producer->service_ && producer->service_->MaybeSharedMemoryArbiter()) {
+ producer->service_->MaybeSharedMemoryArbiter()
+ ->AbortStartupTracingForReservation(startup_buffer_reservation);
+ }
+
+ auto session_it = std::find_if(
+ backend.startup_sessions.begin(), backend.startup_sessions.end(),
+ [startup_session_id](const RegisteredStartupSession& session) {
+ return session.session_id == startup_session_id;
+ });
+
+ // Session should not be removed until abortion of all data source instances
+ // is complete.
+ PERFETTO_DCHECK(session_it != backend.startup_sessions.end());
+
+ session_it->num_aborting_data_sources--;
+ if (session_it->num_aborting_data_sources == 0) {
+ if (session_it->on_aborted)
+ task_runner_->PostTask(session_it->on_aborted);
+
+ backend.startup_sessions.erase(session_it);
+ }
+ }
+
+ if (producer->connected_ &&
+ backend.producer->connection_id_.load(std::memory_order_relaxed) ==
+ backend_connection_id) {
+ // Flush any commits that might have been batched by SharedMemoryArbiter.
+ producer->service_->MaybeSharedMemoryArbiter()
+ ->FlushPendingCommitDataRequests();
+ if (instance_id)
+ producer->service_->NotifyDataSourceStopped(instance_id);
+ }
+ producer->SweepDeadServices();
+}
+
+void TracingMuxerImpl::ClearDataSourceIncrementalState(
+ TracingBackendId backend_id,
+ DataSourceInstanceID instance_id) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ PERFETTO_DLOG("Clearing incremental state for data source %" PRIu64,
+ instance_id);
+ auto ds = FindDataSource(backend_id, instance_id);
+ if (!ds) {
+ PERFETTO_ELOG("Could not find data source to clear incremental state for");
+ return;
+ }
+
+ DataSourceBase::ClearIncrementalStateArgs clear_incremental_state_args;
+ clear_incremental_state_args.internal_instance_index = ds.instance_idx;
+ {
+ std::unique_lock<std::recursive_mutex> lock;
+ if (ds.requires_callbacks_under_lock)
+ lock = std::unique_lock<std::recursive_mutex>(ds.internal_state->lock);
+ ds.internal_state->data_source->WillClearIncrementalState(
+ clear_incremental_state_args);
+ }
+
+ // Make DataSource::TraceContext::GetIncrementalState() eventually notice that
+ // the incremental state should be cleared.
+ ds.static_state->incremental_state_generation.fetch_add(
+ 1, std::memory_order_relaxed);
+}
+
+bool TracingMuxerImpl::FlushDataSource_AsyncBegin(
+ TracingBackendId backend_id,
+ DataSourceInstanceID instance_id,
+ FlushRequestID flush_id,
+ FlushFlags flush_flags) {
+ PERFETTO_DLOG("Flushing data source %" PRIu64, instance_id);
+ auto ds = FindDataSource(backend_id, instance_id);
+ if (!ds) {
+ PERFETTO_ELOG("Could not find data source to flush");
+ return true;
+ }
+
+ uint32_t backend_connection_id = ds.internal_state->backend_connection_id;
+
+ FlushArgsImpl flush_args;
+ flush_args.flush_flags = flush_flags;
+ flush_args.internal_instance_index = ds.instance_idx;
+ flush_args.async_flush_closure = [this, backend_id, backend_connection_id,
+ instance_id, ds, flush_id] {
+ // TracingMuxerImpl is long lived, capturing |this| is okay.
+ // The notification closure can be moved out of the StopArgs by the
+ // embedder to handle stop asynchronously. The embedder might then
+ // call the closure on a different thread than the current one, hence
+ // this nested PostTask().
+ task_runner_->PostTask(
+ [this, backend_id, backend_connection_id, instance_id, ds, flush_id] {
+ FlushDataSource_AsyncEnd(backend_id, backend_connection_id,
+ instance_id, ds, flush_id);
+ });
+ };
+ {
+ std::unique_lock<std::recursive_mutex> lock;
+ if (ds.requires_callbacks_under_lock)
+ lock = std::unique_lock<std::recursive_mutex>(ds.internal_state->lock);
+ ds.internal_state->data_source->OnFlush(flush_args);
+ }
+
+ // |async_flush_closure| is moved out of |flush_args| if the producer
+ // requested to handle the flush asynchronously.
+ bool handled = static_cast<bool>(flush_args.async_flush_closure);
+ return handled;
+}
+
+void TracingMuxerImpl::FlushDataSource_AsyncEnd(
+ TracingBackendId backend_id,
+ uint32_t backend_connection_id,
+ DataSourceInstanceID instance_id,
+ const FindDataSourceRes& ds,
+ FlushRequestID flush_id) {
+ PERFETTO_DLOG("Ending async flush of data source %" PRIu64, instance_id);
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+
+ // Check that the data source instance is still active and was not modified
+ // while it was being flushed.
+ if (!ds.static_state->TryGet(ds.instance_idx) ||
+ ds.internal_state->backend_id != backend_id ||
+ ds.internal_state->backend_connection_id != backend_connection_id ||
+ ds.internal_state->data_source_instance_id != instance_id) {
+ PERFETTO_ELOG("Async flush of data source %" PRIu64
+ " failed. This might be due to the data source being stopped "
+ "in the meantime",
+ instance_id);
+ return;
+ }
+
+ // |producer_backends_| is append-only, Backend instances are always valid.
+ PERFETTO_CHECK(backend_id < producer_backends_.size());
+ RegisteredProducerBackend& backend = *FindProducerBackendById(backend_id);
+
+ ProducerImpl* producer = backend.producer.get();
+ if (!producer)
+ return;
+
+ // If the tracing service disconnects and reconnects while a data source is
+ // handling a flush request, there's no point is sending the flush reply to
+ // the newly reconnected producer.
+ if (producer->connected_ &&
+ backend.producer->connection_id_.load(std::memory_order_relaxed) ==
+ backend_connection_id) {
+ producer->NotifyFlushForDataSourceDone(instance_id, flush_id);
+ }
+}
+
+void TracingMuxerImpl::SyncProducersForTesting() {
+ std::mutex mutex;
+ std::condition_variable cv;
+
+ // IPC-based producers don't report connection errors explicitly for each
+ // command, but instead with an asynchronous callback
+ // (ProducerImpl::OnDisconnected). This means that the sync command below
+ // may have completed but failed to reach the service because of a
+ // disconnection, but we can't tell until the disconnection message comes
+ // through. To guard against this, we run two whole rounds of sync round-trips
+ // before returning; the first one will detect any disconnected producers and
+ // the second one will ensure any reconnections have completed and all data
+ // sources are registered in the service again.
+ for (size_t i = 0; i < 2; i++) {
+ size_t countdown = std::numeric_limits<size_t>::max();
+ task_runner_->PostTask([this, &mutex, &cv, &countdown] {
+ {
+ std::unique_lock<std::mutex> countdown_lock(mutex);
+ countdown = producer_backends_.size();
+ }
+ for (auto& backend : producer_backends_) {
+ auto* producer = backend.producer.get();
+ producer->service_->Sync([&mutex, &cv, &countdown] {
+ std::unique_lock<std::mutex> countdown_lock(mutex);
+ countdown--;
+ cv.notify_one();
+ });
+ }
+ });
+
+ {
+ std::unique_lock<std::mutex> countdown_lock(mutex);
+ cv.wait(countdown_lock, [&countdown] { return !countdown; });
+ }
+ }
+
+ // Check that all producers are indeed connected.
+ bool done = false;
+ bool all_producers_connected = true;
+ task_runner_->PostTask([this, &mutex, &cv, &done, &all_producers_connected] {
+ for (auto& backend : producer_backends_)
+ all_producers_connected &= backend.producer->connected_;
+ std::unique_lock<std::mutex> lock(mutex);
+ done = true;
+ cv.notify_one();
+ });
+
+ {
+ std::unique_lock<std::mutex> lock(mutex);
+ cv.wait(lock, [&done] { return done; });
+ }
+ PERFETTO_DCHECK(all_producers_connected);
+}
+
+void TracingMuxerImpl::DestroyStoppedTraceWritersForCurrentThread() {
+ // Iterate across all possible data source types.
+ auto cur_generation = generation_.load(std::memory_order_acquire);
+ auto* root_tls = GetOrCreateTracingTLS();
+
+ auto destroy_stopped_instances = [](DataSourceThreadLocalState& tls) {
+ // |tls| has a vector of per-data-source-instance thread-local state.
+ DataSourceStaticState* static_state = tls.static_state;
+ if (!static_state)
+ return; // Slot not used.
+
+ // Iterate across all possible instances for this data source.
+ for (uint32_t inst = 0; inst < kMaxDataSourceInstances; inst++) {
+ DataSourceInstanceThreadLocalState& ds_tls = tls.per_instance[inst];
+ if (!ds_tls.trace_writer)
+ continue;
+
+ DataSourceState* ds_state = static_state->TryGet(inst);
+ if (ds_state &&
+ ds_state->muxer_id_for_testing == ds_tls.muxer_id_for_testing &&
+ ds_state->backend_id == ds_tls.backend_id &&
+ ds_state->backend_connection_id == ds_tls.backend_connection_id &&
+ ds_state->startup_target_buffer_reservation.load(
+ std::memory_order_relaxed) ==
+ ds_tls.startup_target_buffer_reservation &&
+ ds_state->buffer_id == ds_tls.buffer_id &&
+ ds_state->data_source_instance_id == ds_tls.data_source_instance_id) {
+ continue;
+ }
+
+ // The DataSource instance has been destroyed or recycled.
+ ds_tls.Reset(); // Will also destroy the |ds_tls.trace_writer|.
+ }
+ };
+
+ for (size_t ds_idx = 0; ds_idx < kMaxDataSources; ds_idx++) {
+ // |tls| has a vector of per-data-source-instance thread-local state.
+ DataSourceThreadLocalState& tls = root_tls->data_sources_tls[ds_idx];
+ destroy_stopped_instances(tls);
+ }
+ destroy_stopped_instances(root_tls->track_event_tls);
+ root_tls->generation = cur_generation;
+}
+
+// Called both when a new data source is registered or when a new backend
+// connects. In both cases we want to be sure we reflected the data source
+// registrations on the backends.
+void TracingMuxerImpl::UpdateDataSourcesOnAllBackends() {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ for (RegisteredDataSource& rds : data_sources_) {
+ UpdateDataSourceOnAllBackends(rds, /*is_changed=*/false);
+ }
+}
+
+void TracingMuxerImpl::UpdateDataSourceOnAllBackends(RegisteredDataSource& rds,
+ bool is_changed) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ for (RegisteredProducerBackend& backend : producer_backends_) {
+ // We cannot call RegisterDataSource on the backend before it connects.
+ if (!backend.producer->connected_)
+ continue;
+
+ PERFETTO_DCHECK(rds.static_state->index < kMaxDataSources);
+ bool is_registered = backend.producer->registered_data_sources_.test(
+ rds.static_state->index);
+ if (is_registered && !is_changed)
+ continue;
+
+ if (!rds.descriptor.no_flush()) {
+ rds.descriptor.set_no_flush(rds.no_flush);
+ }
+ rds.descriptor.set_will_notify_on_start(true);
+ rds.descriptor.set_will_notify_on_stop(true);
+ rds.descriptor.set_handles_incremental_state_clear(true);
+ rds.descriptor.set_id(rds.static_state->id);
+ if (is_registered) {
+ backend.producer->service_->UpdateDataSource(rds.descriptor);
+ } else {
+ backend.producer->service_->RegisterDataSource(rds.descriptor);
+ }
+ backend.producer->registered_data_sources_.set(rds.static_state->index);
+ }
+}
+
+void TracingMuxerImpl::SetupTracingSession(
+ TracingSessionGlobalID session_id,
+ const std::shared_ptr<TraceConfig>& trace_config,
+ base::ScopedFile trace_fd) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ PERFETTO_CHECK(!trace_fd || trace_config->write_into_file());
+
+ auto* consumer = FindConsumer(session_id);
+ if (!consumer)
+ return;
+
+ consumer->trace_config_ = trace_config;
+ if (trace_fd)
+ consumer->trace_fd_ = std::move(trace_fd);
+
+ if (!consumer->connected_)
+ return;
+
+ // Only used in the deferred start mode.
+ if (trace_config->deferred_start()) {
+ consumer->service_->EnableTracing(*trace_config,
+ std::move(consumer->trace_fd_));
+ }
+}
+
+void TracingMuxerImpl::StartTracingSession(TracingSessionGlobalID session_id) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+
+ auto* consumer = FindConsumer(session_id);
+
+ if (!consumer)
+ return;
+
+ if (!consumer->trace_config_) {
+ PERFETTO_ELOG("Must call Setup(config) first");
+ return;
+ }
+
+ if (!consumer->connected_) {
+ consumer->start_pending_ = true;
+ return;
+ }
+
+ consumer->start_pending_ = false;
+ if (consumer->trace_config_->deferred_start()) {
+ consumer->service_->StartTracing();
+ } else {
+ consumer->service_->EnableTracing(*consumer->trace_config_,
+ std::move(consumer->trace_fd_));
+ }
+
+ // TODO implement support for the deferred-start + fast-triggering case.
+}
+
+void TracingMuxerImpl::ChangeTracingSessionConfig(
+ TracingSessionGlobalID session_id,
+ const TraceConfig& trace_config) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+
+ auto* consumer = FindConsumer(session_id);
+
+ if (!consumer)
+ return;
+
+ if (!consumer->trace_config_) {
+ // Changing the config is only supported for started sessions.
+ PERFETTO_ELOG("Must call Setup(config) and Start() first");
+ return;
+ }
+
+ consumer->trace_config_ = std::make_shared<TraceConfig>(trace_config);
+ if (consumer->connected_)
+ consumer->service_->ChangeTraceConfig(trace_config);
+}
+
+void TracingMuxerImpl::FlushTracingSession(TracingSessionGlobalID session_id,
+ uint32_t timeout_ms,
+ std::function<void(bool)> callback) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ auto* consumer = FindConsumer(session_id);
+ if (!consumer || consumer->start_pending_ || consumer->stop_pending_ ||
+ !consumer->trace_config_) {
+ PERFETTO_ELOG("Flush() can be called only after Start() and before Stop()");
+ std::move(callback)(false);
+ return;
+ }
+
+ // For now we don't want to expose the flush reason to the consumer-side SDK
+ // users to avoid misuses until there is a strong need.
+ consumer->service_->Flush(timeout_ms, std::move(callback),
+ FlushFlags(FlushFlags::Initiator::kConsumerSdk,
+ FlushFlags::Reason::kExplicit));
+}
+
+void TracingMuxerImpl::StopTracingSession(TracingSessionGlobalID session_id) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ auto* consumer = FindConsumer(session_id);
+ if (!consumer)
+ return;
+
+ if (consumer->start_pending_) {
+ // If the session hasn't started yet, wait until it does before stopping.
+ consumer->stop_pending_ = true;
+ return;
+ }
+
+ consumer->stop_pending_ = false;
+ if (consumer->stopped_) {
+ // If the session was already stopped (e.g., it failed to start), don't try
+ // stopping again.
+ consumer->NotifyStopComplete();
+ } else if (!consumer->trace_config_) {
+ PERFETTO_ELOG("Must call Setup(config) and Start() first");
+ return;
+ } else {
+ consumer->service_->DisableTracing();
+ }
+
+ consumer->trace_config_.reset();
+}
+
+void TracingMuxerImpl::DestroyTracingSession(
+ TracingSessionGlobalID session_id) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ for (RegisteredConsumerBackend& backend : consumer_backends_) {
+ // We need to find the consumer (if any) and call Disconnect as we destroy
+ // the tracing session. We can't call Disconnect() inside this for loop
+ // because in the in-process case this will end up to a synchronous call to
+ // OnConsumerDisconnect which will invalidate all the iterators to
+ // |backend.consumers|.
+ ConsumerImpl* consumer = nullptr;
+ for (auto& con : backend.consumers) {
+ if (con->session_id_ == session_id) {
+ consumer = con.get();
+ break;
+ }
+ }
+ if (consumer) {
+ // We broke out of the loop above on the assumption that each backend will
+ // only have a single consumer per session. This DCHECK ensures that
+ // this is the case.
+ PERFETTO_DCHECK(
+ std::count_if(backend.consumers.begin(), backend.consumers.end(),
+ [session_id](const std::unique_ptr<ConsumerImpl>& con) {
+ return con->session_id_ == session_id;
+ }) == 1u);
+ consumer->Disconnect();
+ }
+ }
+}
+
+void TracingMuxerImpl::ReadTracingSessionData(
+ TracingSessionGlobalID session_id,
+ std::function<void(TracingSession::ReadTraceCallbackArgs)> callback) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ auto* consumer = FindConsumer(session_id);
+ if (!consumer) {
+ // TODO(skyostil): Signal an error to the user.
+ TracingSession::ReadTraceCallbackArgs callback_arg{};
+ callback(callback_arg);
+ return;
+ }
+ PERFETTO_DCHECK(!consumer->read_trace_callback_);
+ consumer->read_trace_callback_ = std::move(callback);
+ consumer->service_->ReadBuffers();
+}
+
+void TracingMuxerImpl::GetTraceStats(
+ TracingSessionGlobalID session_id,
+ TracingSession::GetTraceStatsCallback callback) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ auto* consumer = FindConsumer(session_id);
+ if (!consumer) {
+ TracingSession::GetTraceStatsCallbackArgs callback_arg{};
+ callback_arg.success = false;
+ callback(std::move(callback_arg));
+ return;
+ }
+ PERFETTO_DCHECK(!consumer->get_trace_stats_callback_);
+ consumer->get_trace_stats_callback_ = std::move(callback);
+ if (!consumer->connected_) {
+ consumer->get_trace_stats_pending_ = true;
+ return;
+ }
+ consumer->get_trace_stats_pending_ = false;
+ consumer->service_->GetTraceStats();
+}
+
+void TracingMuxerImpl::QueryServiceState(
+ TracingSessionGlobalID session_id,
+ TracingSession::QueryServiceStateCallback callback) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ auto* consumer = FindConsumer(session_id);
+ if (!consumer) {
+ TracingSession::QueryServiceStateCallbackArgs callback_arg{};
+ callback_arg.success = false;
+ callback(std::move(callback_arg));
+ return;
+ }
+ PERFETTO_DCHECK(!consumer->query_service_state_callback_);
+ if (!consumer->connected_) {
+ consumer->query_service_state_callback_ = std::move(callback);
+ return;
+ }
+ auto callback_wrapper = [callback](bool success,
+ protos::gen::TracingServiceState state) {
+ TracingSession::QueryServiceStateCallbackArgs callback_arg{};
+ callback_arg.success = success;
+ callback_arg.service_state_data = state.SerializeAsArray();
+ callback(std::move(callback_arg));
+ };
+ consumer->service_->QueryServiceState({}, std::move(callback_wrapper));
+}
+
+void TracingMuxerImpl::SetBatchCommitsDurationForTesting(
+ uint32_t batch_commits_duration_ms,
+ BackendType backend_type) {
+ for (RegisteredProducerBackend& backend : producer_backends_) {
+ if (backend.producer && backend.producer->connected_ &&
+ backend.type == backend_type) {
+ backend.producer->service_->MaybeSharedMemoryArbiter()
+ ->SetBatchCommitsDuration(batch_commits_duration_ms);
+ }
+ }
+}
+
+bool TracingMuxerImpl::EnableDirectSMBPatchingForTesting(
+ BackendType backend_type) {
+ for (RegisteredProducerBackend& backend : producer_backends_) {
+ if (backend.producer && backend.producer->connected_ &&
+ backend.type == backend_type &&
+ !backend.producer->service_->MaybeSharedMemoryArbiter()
+ ->EnableDirectSMBPatching()) {
+ return false;
+ }
+ }
+ return true;
+}
+
+TracingMuxerImpl::ConsumerImpl* TracingMuxerImpl::FindConsumer(
+ TracingSessionGlobalID session_id) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ return FindConsumerAndBackend(session_id).first;
+}
+
+std::pair<TracingMuxerImpl::ConsumerImpl*,
+ TracingMuxerImpl::RegisteredConsumerBackend*>
+TracingMuxerImpl::FindConsumerAndBackend(TracingSessionGlobalID session_id) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ for (RegisteredConsumerBackend& backend : consumer_backends_) {
+ for (auto& consumer : backend.consumers) {
+ if (consumer->session_id_ == session_id) {
+ return {consumer.get(), &backend};
+ }
+ }
+ }
+ return {nullptr, nullptr};
+}
+
+void TracingMuxerImpl::InitializeConsumer(TracingSessionGlobalID session_id) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+
+ auto res = FindConsumerAndBackend(session_id);
+ if (!res.first || !res.second)
+ return;
+ TracingMuxerImpl::ConsumerImpl* consumer = res.first;
+ RegisteredConsumerBackend& backend = *res.second;
+
+ TracingBackend::ConnectConsumerArgs conn_args;
+ conn_args.consumer = consumer;
+ conn_args.task_runner = task_runner_.get();
+ consumer->Initialize(backend.backend->ConnectConsumer(conn_args));
+}
+
+void TracingMuxerImpl::OnConsumerDisconnected(ConsumerImpl* consumer) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ for (RegisteredConsumerBackend& backend : consumer_backends_) {
+ auto pred = [consumer](const std::unique_ptr<ConsumerImpl>& con) {
+ return con.get() == consumer;
+ };
+ backend.consumers.erase(std::remove_if(backend.consumers.begin(),
+ backend.consumers.end(), pred),
+ backend.consumers.end());
+ }
+}
+
+void TracingMuxerImpl::SetMaxProducerReconnectionsForTesting(uint32_t count) {
+ max_producer_reconnections_.store(count);
+}
+
+void TracingMuxerImpl::OnProducerDisconnected(ProducerImpl* producer) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ for (RegisteredProducerBackend& backend : producer_backends_) {
+ if (backend.producer.get() != producer)
+ continue;
+
+ // The tracing service is disconnected. It does not make sense to keep
+ // tracing (we wouldn't be able to commit). On reconnection, the tracing
+ // service will restart the data sources.
+ for (const auto& rds : data_sources_) {
+ DataSourceStaticState* static_state = rds.static_state;
+ for (uint32_t i = 0; i < kMaxDataSourceInstances; i++) {
+ auto* internal_state = static_state->TryGet(i);
+ if (internal_state && internal_state->backend_id == backend.id &&
+ internal_state->backend_connection_id ==
+ backend.producer->connection_id_.load(
+ std::memory_order_relaxed)) {
+ StopDataSource_AsyncBeginImpl(
+ FindDataSourceRes(static_state, internal_state, i,
+ rds.requires_callbacks_under_lock));
+ }
+ }
+ }
+
+ // Try reconnecting the disconnected producer. If the connection succeeds,
+ // all the data sources will be automatically re-registered.
+ if (producer->connection_id_.load(std::memory_order_relaxed) >
+ max_producer_reconnections_.load()) {
+ // Avoid reconnecting a failing producer too many times. Instead we just
+ // leak the producer instead of trying to avoid further complicating
+ // cross-thread trace writer creation.
+ PERFETTO_ELOG("Producer disconnected too many times; not reconnecting");
+ continue;
+ }
+
+ backend.producer->Initialize(
+ backend.backend->ConnectProducer(backend.producer_conn_args));
+ // Don't use producer-provided SMBs for the next connection unless startup
+ // tracing requires it again.
+ backend.producer_conn_args.use_producer_provided_smb = false;
+ }
+}
+
+void TracingMuxerImpl::SweepDeadBackends() {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ for (auto it = dead_backends_.begin(); it != dead_backends_.end();) {
+ auto next_it = it;
+ next_it++;
+ if (it->producer->SweepDeadServices())
+ dead_backends_.erase(it);
+ it = next_it;
+ }
+}
+
+TracingMuxerImpl::FindDataSourceRes TracingMuxerImpl::FindDataSource(
+ TracingBackendId backend_id,
+ DataSourceInstanceID instance_id) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ RegisteredProducerBackend& backend = *FindProducerBackendById(backend_id);
+ for (const auto& rds : data_sources_) {
+ DataSourceStaticState* static_state = rds.static_state;
+ for (uint32_t i = 0; i < kMaxDataSourceInstances; i++) {
+ auto* internal_state = static_state->TryGet(i);
+ if (internal_state && internal_state->backend_id == backend_id &&
+ internal_state->backend_connection_id ==
+ backend.producer->connection_id_.load(
+ std::memory_order_relaxed) &&
+ internal_state->data_source_instance_id == instance_id) {
+ return FindDataSourceRes(static_state, internal_state, i,
+ rds.requires_callbacks_under_lock);
+ }
+ }
+ }
+ return FindDataSourceRes();
+}
+
+// Can be called from any thread.
+std::unique_ptr<TraceWriterBase> TracingMuxerImpl::CreateTraceWriter(
+ DataSourceStaticState* static_state,
+ uint32_t data_source_instance_index,
+ DataSourceState* data_source,
+ BufferExhaustedPolicy buffer_exhausted_policy) {
+ if (PERFETTO_UNLIKELY(data_source->interceptor_id)) {
+ // If the session is being intercepted, return a heap-backed trace writer
+ // instead. This is safe because all the data given to the interceptor is
+ // either thread-local (|instance_index|), statically allocated
+ // (|static_state|) or constant after initialization (|interceptor|). Access
+ // to the interceptor instance itself through |data_source| is protected by
+ // a statically allocated lock (similarly to the data source instance).
+ auto& interceptor = interceptors_[data_source->interceptor_id - 1];
+ return std::unique_ptr<TraceWriterBase>(new InterceptorTraceWriter(
+ interceptor.tls_factory(static_state, data_source_instance_index),
+ interceptor.packet_callback, static_state, data_source_instance_index));
+ }
+ ProducerImpl* producer =
+ FindProducerBackendById(data_source->backend_id)->producer.get();
+ // Atomically load the current service endpoint. We keep the pointer as a
+ // shared pointer on the stack to guard against it from being concurrently
+ // modified on the thread by ProducerImpl::Initialize() swapping in a
+ // reconnected service on the muxer task runner thread.
+ //
+ // The endpoint may also be concurrently modified by SweepDeadServices()
+ // clearing out old disconnected services. We guard against that by
+ // SharedMemoryArbiter keeping track of any outstanding trace writers. After
+ // shutdown has started, the trace writer created below will be a null one
+ // which will drop any written data. See SharedMemoryArbiter::TryShutdown().
+ //
+ // We use an atomic pointer instead of holding a lock because
+ // CreateTraceWriter posts tasks under the hood.
+ std::shared_ptr<ProducerEndpoint> service =
+ std::atomic_load(&producer->service_);
+
+ // The service may have been disconnected and reconnected concurrently after
+ // the data source was enabled, in which case we may not have an arbiter, or
+ // would be creating a TraceWriter for the wrong (a newer) connection / SMB.
+ // Instead, early-out now. A relaxed load is fine here because the atomic_load
+ // above ensures that the |service| isn't newer.
+ if (producer->connection_id_.load(std::memory_order_relaxed) !=
+ data_source->backend_connection_id) {
+ return std::unique_ptr<TraceWriter>(new NullTraceWriter());
+ }
+
+ // We just need a relaxed atomic read here: We can use the reservation ID even
+ // after the buffer was bound, we just need to be sure to read it atomically.
+ uint16_t startup_buffer_reservation =
+ data_source->startup_target_buffer_reservation.load(
+ std::memory_order_relaxed);
+ if (startup_buffer_reservation) {
+ return service->MaybeSharedMemoryArbiter()->CreateStartupTraceWriter(
+ startup_buffer_reservation);
+ }
+ return service->CreateTraceWriter(data_source->buffer_id,
+ buffer_exhausted_policy);
+}
+
+// This is called via the public API Tracing::NewTrace().
+// Can be called from any thread.
+std::unique_ptr<TracingSession> TracingMuxerImpl::CreateTracingSession(
+ BackendType requested_backend_type,
+ TracingConsumerBackend* (*system_backend_factory)()) {
+ TracingSessionGlobalID session_id = ++next_tracing_session_id_;
+
+ // |backend_type| can only specify one backend, not an OR-ed mask.
+ PERFETTO_CHECK((requested_backend_type & (requested_backend_type - 1)) == 0);
+
+ // Capturing |this| is fine because the TracingMuxer is a leaky singleton.
+ task_runner_->PostTask([this, requested_backend_type, session_id,
+ system_backend_factory] {
+ if (requested_backend_type == kSystemBackend && system_backend_factory &&
+ !FindConsumerBackendByType(kSystemBackend)) {
+ AddConsumerBackend(system_backend_factory(), kSystemBackend);
+ }
+ for (RegisteredConsumerBackend& backend : consumer_backends_) {
+ if (requested_backend_type && backend.type &&
+ backend.type != requested_backend_type) {
+ continue;
+ }
+
+ // Create the consumer now, even if we have to ask the embedder below, so
+ // that any other tasks executing after this one can find the consumer and
+ // change its pending attributes.
+ backend.consumers.emplace_back(
+ new ConsumerImpl(this, backend.type, session_id));
+
+ // The last registered backend in |consumer_backends_| is the unsupported
+ // backend without a valid type.
+ if (!backend.type) {
+ PERFETTO_ELOG(
+ "No tracing backend ready for type=%d, consumer will disconnect",
+ requested_backend_type);
+ InitializeConsumer(session_id);
+ return;
+ }
+
+ // Check if the embedder wants to be asked for permission before
+ // connecting the consumer.
+ if (!policy_) {
+ InitializeConsumer(session_id);
+ return;
+ }
+
+ BackendType type = backend.type;
+ TracingPolicy::ShouldAllowConsumerSessionArgs args;
+ args.backend_type = backend.type;
+ args.result_callback = [this, type, session_id](bool allow) {
+ task_runner_->PostTask([this, type, session_id, allow] {
+ if (allow) {
+ InitializeConsumer(session_id);
+ return;
+ }
+
+ PERFETTO_ELOG(
+ "Consumer session for backend type type=%d forbidden, "
+ "consumer will disconnect",
+ type);
+
+ auto* consumer = FindConsumer(session_id);
+ if (!consumer)
+ return;
+
+ consumer->OnDisconnect();
+ });
+ };
+ policy_->ShouldAllowConsumerSession(args);
+ return;
+ }
+ PERFETTO_DFATAL("Not reached");
+ });
+
+ return std::unique_ptr<TracingSession>(
+ new TracingSessionImpl(this, session_id, requested_backend_type));
+}
+
+// static
+// This is called via the public API Tracing::SetupStartupTracing().
+// Can be called from any thread.
+std::unique_ptr<StartupTracingSession>
+TracingMuxerImpl::CreateStartupTracingSession(
+ const TraceConfig& config,
+ Tracing::SetupStartupTracingOpts opts) {
+ BackendType backend_type = opts.backend;
+ // |backend_type| can only specify one backend, not an OR-ed mask.
+ PERFETTO_CHECK((backend_type & (backend_type - 1)) == 0);
+ // The in-process backend doesn't support startup tracing.
+ PERFETTO_CHECK(backend_type != BackendType::kInProcessBackend);
+
+ TracingSessionGlobalID session_id = ++next_tracing_session_id_;
+
+ // Capturing |this| is fine because the TracingMuxer is a leaky singleton.
+ task_runner_->PostTask([this, config, opts, backend_type, session_id] {
+ for (RegisteredProducerBackend& backend : producer_backends_) {
+ if (backend_type && backend.type && backend.type != backend_type) {
+ continue;
+ }
+
+ TracingBackendId backend_id = backend.id;
+
+ // The last registered backend in |producer_backends_| is the unsupported
+ // backend without a valid type.
+ if (!backend.type) {
+ PERFETTO_ELOG(
+ "No tracing backend initialized for type=%d, startup tracing "
+ "failed",
+ backend_type);
+ if (opts.on_setup)
+ opts.on_setup(Tracing::OnStartupTracingSetupCallbackArgs{
+ 0 /* num_data_sources_started */});
+ return;
+ }
+
+ if (!backend.producer->service_ ||
+ !backend.producer->service_->shared_memory()) {
+ // If we unsuccessfully attempted to use a producer-provided SMB in the
+ // past, don't try again.
+ if (backend.producer->producer_provided_smb_failed_) {
+ PERFETTO_ELOG(
+ "Backend %zu doesn't seem to support producer-provided "
+ "SMBs, startup tracing failed",
+ backend_id);
+ if (opts.on_setup)
+ opts.on_setup(Tracing::OnStartupTracingSetupCallbackArgs{
+ 0 /* num_data_sources_started */});
+ return;
+ }
+
+ PERFETTO_DLOG("Reconnecting backend %zu for startup tracing",
+ backend_id);
+ backend.producer_conn_args.use_producer_provided_smb = true;
+ backend.producer->service_->Disconnect(); // Causes a reconnect.
+ PERFETTO_DCHECK(backend.producer->service_ &&
+ backend.producer->service_->MaybeSharedMemoryArbiter());
+ }
+
+ RegisteredStartupSession session;
+ session.session_id = session_id;
+ session.on_aborted = opts.on_aborted;
+ session.on_adopted = opts.on_adopted;
+
+ for (const TraceConfig::DataSource& ds_cfg : config.data_sources()) {
+ // Find all matching data sources and start one instance of each.
+ for (const auto& rds : data_sources_) {
+ if (rds.descriptor.name() != ds_cfg.config().name())
+ continue;
+
+ PERFETTO_DLOG(
+ "Setting up data source %s for startup tracing with target "
+ "buffer reservation %" PRIi32,
+ rds.descriptor.name().c_str(),
+ backend.producer->last_startup_target_buffer_reservation_ + 1u);
+ auto ds = SetupDataSourceImpl(
+ rds, backend_id,
+ backend.producer->connection_id_.load(std::memory_order_relaxed),
+ /*instance_id=*/0, ds_cfg.config(),
+ /*startup_session_id=*/session_id);
+ if (ds) {
+ StartDataSourceImpl(ds);
+ session.num_unbound_data_sources++;
+ }
+ }
+ }
+
+ int num_ds = session.num_unbound_data_sources;
+ auto on_setup = opts.on_setup;
+ if (on_setup) {
+ backend.producer->OnStartupTracingSetup();
+ task_runner_->PostTask([on_setup, num_ds] {
+ on_setup(Tracing::OnStartupTracingSetupCallbackArgs{num_ds});
+ });
+ }
+
+ if (num_ds > 0) {
+ backend.startup_sessions.push_back(std::move(session));
+
+ if (opts.timeout_ms > 0) {
+ task_runner_->PostDelayedTask(
+ [this, session_id, backend_type] {
+ AbortStartupTracingSession(session_id, backend_type);
+ },
+ opts.timeout_ms);
+ }
+ }
+ return;
+ }
+ PERFETTO_DFATAL("Invalid startup tracing session backend");
+ });
+
+ return std::unique_ptr<StartupTracingSession>(
+ new StartupTracingSessionImpl(this, session_id, backend_type));
+}
+
+// Must not be called from the SDK's internal thread.
+std::unique_ptr<StartupTracingSession>
+TracingMuxerImpl::CreateStartupTracingSessionBlocking(
+ const TraceConfig& config,
+ Tracing::SetupStartupTracingOpts opts) {
+ auto previous_on_setup = std::move(opts.on_setup);
+ PERFETTO_CHECK(!task_runner_->RunsTasksOnCurrentThread());
+ base::WaitableEvent event;
+ // It is safe to capture by reference because once on_setup is called only
+ // once before this method returns.
+ opts.on_setup = [&](Tracing::OnStartupTracingSetupCallbackArgs args) {
+ if (previous_on_setup) {
+ previous_on_setup(std::move(args));
+ }
+ event.Notify();
+ };
+ auto session = CreateStartupTracingSession(config, std::move(opts));
+ event.Wait();
+ return session;
+}
+
+void TracingMuxerImpl::AbortStartupTracingSession(
+ TracingSessionGlobalID session_id,
+ BackendType backend_type) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+
+ for (RegisteredProducerBackend& backend : producer_backends_) {
+ if (backend_type != backend.type)
+ continue;
+
+ auto session_it = std::find_if(
+ backend.startup_sessions.begin(), backend.startup_sessions.end(),
+ [session_id](const RegisteredStartupSession& session) {
+ return session.session_id == session_id;
+ });
+
+ // The startup session may have already been aborted or fully adopted.
+ if (session_it == backend.startup_sessions.end())
+ return;
+ if (session_it->is_aborting)
+ return;
+
+ session_it->is_aborting = true;
+
+ // Iterate all data sources and abort them if they weren't adopted yet.
+ for (const auto& rds : data_sources_) {
+ DataSourceStaticState* static_state = rds.static_state;
+ for (uint32_t i = 0; i < kMaxDataSourceInstances; i++) {
+ auto* internal_state = static_state->TryGet(i);
+ if (internal_state &&
+ internal_state->startup_target_buffer_reservation.load(
+ std::memory_order_relaxed) &&
+ internal_state->data_source_instance_id == 0 &&
+ internal_state->startup_session_id == session_id) {
+ PERFETTO_DLOG(
+ "Aborting startup tracing for data source %s (target buffer "
+ "reservation %" PRIu16 ")",
+ rds.descriptor.name().c_str(),
+ internal_state->startup_target_buffer_reservation.load(
+ std::memory_order_relaxed));
+
+ // Abort the instance asynchronously by stopping it. From this point
+ // onwards, the service will not be able to adopt it via
+ // StartDataSource().
+ session_it->num_aborting_data_sources++;
+ StopDataSource_AsyncBeginImpl(
+ FindDataSourceRes(static_state, internal_state, i,
+ rds.requires_callbacks_under_lock));
+ }
+ }
+ }
+
+ // If we did everything right, we should have aborted all still-unbound data
+ // source instances.
+ PERFETTO_DCHECK(session_it->num_unbound_data_sources ==
+ session_it->num_aborting_data_sources);
+
+ if (session_it->num_aborting_data_sources == 0) {
+ if (session_it->on_aborted)
+ task_runner_->PostTask(session_it->on_aborted);
+
+ backend.startup_sessions.erase(session_it);
+ }
+ return;
+ }
+ // We might reach here in tests because when we start a trace, we post the
+ // Task(AbortStartupTrace, delay=timeout). When we do
+ // perfetto::ResetForTesting, we sweep dead backends, and we are not able to
+ // kill those delayed tasks because TaskRunner doesn't have support for
+ // deleting scheduled future tasks and TaskRunner doesn't have any API for us
+ // to wait for the completion of all the scheduled tasks (apart from
+ // deleting the TaskRunner) and we want to avoid doing that because we need
+ // a long running TaskRunner in muxer.
+ PERFETTO_DLOG("Invalid startup tracing session backend");
+}
+
+void TracingMuxerImpl::InitializeInstance(const TracingInitArgs& args) {
+ if (instance_ != TracingMuxerFake::Get()) {
+ // The tracing muxer was already initialized. We might need to initialize
+ // additional backends that were not configured earlier.
+ auto* muxer = static_cast<TracingMuxerImpl*>(instance_);
+ muxer->task_runner_->PostTask([muxer, args] { muxer->AddBackends(args); });
+ return;
+ }
+ // If we previously had a TracingMuxerImpl instance which was reset,
+ // reinitialize and reuse it instead of trying to create a new one. See
+ // ResetForTesting().
+ if (g_prev_instance) {
+ auto* muxer = g_prev_instance;
+ g_prev_instance = nullptr;
+ instance_ = muxer;
+ muxer->task_runner_->PostTask([muxer, args] {
+ muxer->Initialize(args);
+ muxer->AddBackends(args);
+ });
+ } else {
+ new TracingMuxerImpl(args);
+ }
+}
+
+// static
+void TracingMuxerImpl::ResetForTesting() {
+ // Ideally we'd tear down the entire TracingMuxerImpl, but the lifetimes of
+ // various objects make that a non-starter. In particular:
+ //
+ // 1) Any thread that has entered a trace event has a TraceWriter, which holds
+ // a reference back to ProducerImpl::service_.
+ //
+ // 2) ProducerImpl::service_ has a reference back to the ProducerImpl.
+ //
+ // 3) ProducerImpl holds reference to TracingMuxerImpl::task_runner_, which in
+ // turn depends on TracingMuxerImpl itself.
+ //
+ // Because of this, it's not safe to deallocate TracingMuxerImpl until all
+ // threads have dropped their TraceWriters. Since we can't really ask the
+ // caller to guarantee this, we'll instead reset enough of the muxer's state
+ // so that it can be reinitialized later and ensure all necessary objects from
+ // the old state remain alive until all references have gone away.
+ auto* muxer = reinterpret_cast<TracingMuxerImpl*>(instance_);
+
+ base::WaitableEvent reset_done;
+ auto do_reset = [muxer, &reset_done] {
+ muxer->DestroyStoppedTraceWritersForCurrentThread();
+ // Unregister all data sources so they don't interfere with any future
+ // tracing sessions.
+ for (RegisteredDataSource& rds : muxer->data_sources_) {
+ for (RegisteredProducerBackend& backend : muxer->producer_backends_) {
+ if (!backend.producer->service_ || !backend.producer->connected_)
+ continue;
+ backend.producer->service_->UnregisterDataSource(rds.descriptor.name());
+ }
+ }
+ for (auto& backend : muxer->consumer_backends_) {
+ // Check that no consumer session is currently active on any backend.
+ for (auto& consumer : backend.consumers)
+ PERFETTO_CHECK(!consumer->service_);
+ }
+ for (auto& backend : muxer->producer_backends_) {
+ backend.producer->muxer_ = nullptr;
+ backend.producer->DisposeConnection();
+ muxer->dead_backends_.push_back(std::move(backend));
+ }
+ muxer->consumer_backends_.clear();
+ muxer->producer_backends_.clear();
+ muxer->interceptors_.clear();
+
+ for (auto& ds : muxer->data_sources_) {
+ ds.static_state->ResetForTesting();
+ }
+
+ muxer->data_sources_.clear();
+ muxer->next_data_source_index_ = 0;
+
+ // Free all backends without active trace writers or other inbound
+ // references. Note that even if all the backends get swept, the muxer still
+ // needs to stay around since |task_runner_| is assumed to be long-lived.
+ muxer->SweepDeadBackends();
+
+ // Make sure we eventually discard any per-thread trace writers from the
+ // previous instance.
+ muxer->muxer_id_for_testing_++;
+
+ g_prev_instance = muxer;
+ instance_ = TracingMuxerFake::Get();
+
+ // Call the user provided cleanups on the muxer thread.
+ for (auto& cb : muxer->reset_callbacks_) {
+ cb();
+ }
+
+ reset_done.Notify();
+ };
+
+ // Some tests run the muxer and the test on the same thread. In these cases,
+ // we can reset synchronously.
+ if (muxer->task_runner_->RunsTasksOnCurrentThread()) {
+ do_reset();
+ } else {
+ muxer->DestroyStoppedTraceWritersForCurrentThread();
+ muxer->task_runner_->PostTask(std::move(do_reset));
+ reset_done.Wait();
+ // Call the user provided cleanups also on this thread.
+ for (auto& cb : muxer->reset_callbacks_) {
+ cb();
+ }
+ }
+ muxer->reset_callbacks_.clear();
+}
+
+// static
+void TracingMuxerImpl::Shutdown() {
+ auto* muxer = reinterpret_cast<TracingMuxerImpl*>(instance_);
+
+ // Shutting down on the muxer thread would lead to a deadlock.
+ PERFETTO_CHECK(!muxer->task_runner_->RunsTasksOnCurrentThread());
+ muxer->DestroyStoppedTraceWritersForCurrentThread();
+
+ std::unique_ptr<base::TaskRunner> owned_task_runner(
+ muxer->task_runner_.get());
+ base::WaitableEvent shutdown_done;
+ owned_task_runner->PostTask([muxer, &shutdown_done] {
+ // Check that no consumer session is currently active on any backend.
+ // Producers will be automatically disconnected as a part of deleting the
+ // muxer below.
+ for (auto& backend : muxer->consumer_backends_) {
+ for (auto& consumer : backend.consumers) {
+ PERFETTO_CHECK(!consumer->service_);
+ }
+ }
+ // Make sure no trace writers are lingering around on the muxer thread. Note
+ // that we can't do this for any arbitrary thread in the process; it is the
+ // caller's responsibility to clean them up before shutting down Perfetto.
+ muxer->DestroyStoppedTraceWritersForCurrentThread();
+ // The task runner must be deleted outside the muxer thread. This is done by
+ // `owned_task_runner` above.
+ muxer->task_runner_.release();
+ auto* platform = muxer->platform_;
+ delete muxer;
+ instance_ = TracingMuxerFake::Get();
+ platform->Shutdown();
+ shutdown_done.Notify();
+ });
+ shutdown_done.Wait();
+}
+
+void TracingMuxerImpl::AppendResetForTestingCallback(std::function<void()> cb) {
+ reset_callbacks_.push_back(std::move(cb));
+}
+
+TracingMuxer::~TracingMuxer() = default;
+
+static_assert(std::is_same<internal::BufferId, BufferID>::value,
+ "public's BufferId and tracing/core's BufferID diverged");
+
+} // namespace internal
+} // namespace perfetto
+// gen_amalgamated begin source: src/tracing/internal/track_event_internal.cc
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/tracing/internal/track_event_internal.h"
+
+// gen_amalgamated expanded: #include "perfetto/base/proc_utils.h"
+// gen_amalgamated expanded: #include "perfetto/base/time.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/core/data_source_config.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/internal/track_event_interned_fields.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/track_event.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/track_event_category_registry.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/track_event_interned_data_index.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/data_source_descriptor.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/track_event_descriptor.pbzero.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/clock_snapshot.pbzero.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/interned_data/interned_data.pbzero.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/trace_packet_defaults.pbzero.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/debug_annotation.pbzero.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/track_descriptor.pbzero.h"
+
+using perfetto::protos::pbzero::ClockSnapshot;
+
+namespace perfetto {
+
+TrackEventSessionObserver::~TrackEventSessionObserver() = default;
+void TrackEventSessionObserver::OnSetup(const DataSourceBase::SetupArgs&) {}
+void TrackEventSessionObserver::OnStart(const DataSourceBase::StartArgs&) {}
+void TrackEventSessionObserver::OnStop(const DataSourceBase::StopArgs&) {}
+void TrackEventSessionObserver::WillClearIncrementalState(
+ const DataSourceBase::ClearIncrementalStateArgs&) {}
+
+TrackEventTlsStateUserData::~TrackEventTlsStateUserData() = default;
+
+namespace internal {
+
+BaseTrackEventInternedDataIndex::~BaseTrackEventInternedDataIndex() = default;
+
+namespace {
+
+static constexpr const char kLegacySlowPrefix[] = "disabled-by-default-";
+static constexpr const char kSlowTag[] = "slow";
+static constexpr const char kDebugTag[] = "debug";
+static constexpr const char kFilteredEventName[] = "FILTERED";
+
+constexpr auto kClockIdIncremental =
+ TrackEventIncrementalState::kClockIdIncremental;
+
+constexpr auto kClockIdAbsolute = TrackEventIncrementalState::kClockIdAbsolute;
+
+class TrackEventSessionObserverRegistry {
+ public:
+ static TrackEventSessionObserverRegistry* GetInstance() {
+ static TrackEventSessionObserverRegistry* instance =
+ new TrackEventSessionObserverRegistry(); // leaked
+ return instance;
+ }
+
+ void AddObserverForRegistry(const TrackEventCategoryRegistry& registry,
+ TrackEventSessionObserver* observer) {
+ std::unique_lock<std::recursive_mutex> lock(mutex_);
+ observers_.emplace_back(&registry, observer);
+ }
+
+ void RemoveObserverForRegistry(const TrackEventCategoryRegistry& registry,
+ TrackEventSessionObserver* observer) {
+ std::unique_lock<std::recursive_mutex> lock(mutex_);
+ observers_.erase(std::remove(observers_.begin(), observers_.end(),
+ RegisteredObserver(&registry, observer)),
+ observers_.end());
+ }
+
+ void ForEachObserverForRegistry(
+ const TrackEventCategoryRegistry& registry,
+ std::function<void(TrackEventSessionObserver*)> callback) {
+ std::unique_lock<std::recursive_mutex> lock(mutex_);
+ for (auto& registered_observer : observers_) {
+ if (&registry == registered_observer.registry) {
+ callback(registered_observer.observer);
+ }
+ }
+ }
+
+ private:
+ struct RegisteredObserver {
+ RegisteredObserver(const TrackEventCategoryRegistry* r,
+ TrackEventSessionObserver* o)
+ : registry(r), observer(o) {}
+ bool operator==(const RegisteredObserver& other) {
+ return registry == other.registry && observer == other.observer;
+ }
+ const TrackEventCategoryRegistry* registry;
+ TrackEventSessionObserver* observer;
+ };
+
+ std::recursive_mutex mutex_;
+ std::vector<RegisteredObserver> observers_;
+};
+
+enum class MatchType { kExact, kPattern };
+
+bool NameMatchesPattern(const std::string& pattern,
+ const std::string& name,
+ MatchType match_type) {
+ // To avoid pulling in all of std::regex, for now we only support a single "*"
+ // wildcard at the end of the pattern.
+ size_t i = pattern.find('*');
+ if (i != std::string::npos) {
+ PERFETTO_DCHECK(i == pattern.size() - 1);
+ if (match_type != MatchType::kPattern)
+ return false;
+ return name.substr(0, i) == pattern.substr(0, i);
+ }
+ return name == pattern;
+}
+
+bool NameMatchesPatternList(const std::vector<std::string>& patterns,
+ const std::string& name,
+ MatchType match_type) {
+ for (const auto& pattern : patterns) {
+ if (NameMatchesPattern(pattern, name, match_type))
+ return true;
+ }
+ return false;
+}
+
+} // namespace
+
+// static
+const Track TrackEventInternal::kDefaultTrack{};
+
+// static
+std::atomic<int> TrackEventInternal::session_count_{};
+
+// static
+bool TrackEventInternal::Initialize(
+ const TrackEventCategoryRegistry& registry,
+ bool (*register_data_source)(const DataSourceDescriptor&)) {
+ DataSourceDescriptor dsd;
+ dsd.set_name("track_event");
+
+ protozero::HeapBuffered<protos::pbzero::TrackEventDescriptor> ted;
+ for (size_t i = 0; i < registry.category_count(); i++) {
+ auto category = registry.GetCategory(i);
+ // Don't register group categories.
+ if (category->IsGroup())
+ continue;
+ auto cat = ted->add_available_categories();
+ cat->set_name(category->name);
+ if (category->description)
+ cat->set_description(category->description);
+ for (const auto& tag : category->tags) {
+ if (tag)
+ cat->add_tags(tag);
+ }
+ // Disabled-by-default categories get a "slow" tag.
+ if (!strncmp(category->name, kLegacySlowPrefix, strlen(kLegacySlowPrefix)))
+ cat->add_tags(kSlowTag);
+ }
+ dsd.set_track_event_descriptor_raw(ted.SerializeAsString());
+
+ return register_data_source(dsd);
+}
+
+// static
+bool TrackEventInternal::AddSessionObserver(
+ const TrackEventCategoryRegistry& registry,
+ TrackEventSessionObserver* observer) {
+ TrackEventSessionObserverRegistry::GetInstance()->AddObserverForRegistry(
+ registry, observer);
+ return true;
+}
+
+// static
+void TrackEventInternal::RemoveSessionObserver(
+ const TrackEventCategoryRegistry& registry,
+ TrackEventSessionObserver* observer) {
+ TrackEventSessionObserverRegistry::GetInstance()->RemoveObserverForRegistry(
+ registry, observer);
+}
+
+#if !PERFETTO_BUILDFLAG(PERFETTO_OS_APPLE) && \
+ !PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+static constexpr protos::pbzero::BuiltinClock kDefaultTraceClock =
+ protos::pbzero::BUILTIN_CLOCK_BOOTTIME;
+#else
+static constexpr protos::pbzero::BuiltinClock kDefaultTraceClock =
+ protos::pbzero::BUILTIN_CLOCK_MONOTONIC;
+#endif
+
+// static
+protos::pbzero::BuiltinClock TrackEventInternal::clock_ = kDefaultTraceClock;
+
+// static
+bool TrackEventInternal::disallow_merging_with_system_tracks_ = false;
+
+// static
+void TrackEventInternal::EnableTracing(
+ const TrackEventCategoryRegistry& registry,
+ const protos::gen::TrackEventConfig& config,
+ const DataSourceBase::SetupArgs& args) {
+ for (size_t i = 0; i < registry.category_count(); i++) {
+ if (IsCategoryEnabled(registry, config, *registry.GetCategory(i)))
+ registry.EnableCategoryForInstance(i, args.internal_instance_index);
+ }
+ TrackEventSessionObserverRegistry::GetInstance()->ForEachObserverForRegistry(
+ registry, [&](TrackEventSessionObserver* o) { o->OnSetup(args); });
+}
+
+// static
+void TrackEventInternal::OnStart(const TrackEventCategoryRegistry& registry,
+ const DataSourceBase::StartArgs& args) {
+ session_count_.fetch_add(1);
+ TrackEventSessionObserverRegistry::GetInstance()->ForEachObserverForRegistry(
+ registry, [&](TrackEventSessionObserver* o) { o->OnStart(args); });
+}
+
+// static
+void TrackEventInternal::OnStop(const TrackEventCategoryRegistry& registry,
+ const DataSourceBase::StopArgs& args) {
+ TrackEventSessionObserverRegistry::GetInstance()->ForEachObserverForRegistry(
+ registry, [&](TrackEventSessionObserver* o) { o->OnStop(args); });
+}
+
+// static
+void TrackEventInternal::DisableTracing(
+ const TrackEventCategoryRegistry& registry,
+ uint32_t internal_instance_index) {
+ for (size_t i = 0; i < registry.category_count(); i++)
+ registry.DisableCategoryForInstance(i, internal_instance_index);
+}
+
+// static
+void TrackEventInternal::WillClearIncrementalState(
+ const TrackEventCategoryRegistry& registry,
+ const DataSourceBase::ClearIncrementalStateArgs& args) {
+ TrackEventSessionObserverRegistry::GetInstance()->ForEachObserverForRegistry(
+ registry, [&](TrackEventSessionObserver* o) {
+ o->WillClearIncrementalState(args);
+ });
+}
+
+// static
+bool TrackEventInternal::IsCategoryEnabled(
+ const TrackEventCategoryRegistry& registry,
+ const protos::gen::TrackEventConfig& config,
+ const Category& category) {
+ // If this is a group category, check if any of its constituent categories are
+ // enabled. If so, then this one is enabled too.
+ if (category.IsGroup()) {
+ bool result = false;
+ category.ForEachGroupMember([&](const char* member_name, size_t name_size) {
+ for (size_t i = 0; i < registry.category_count(); i++) {
+ const auto ref_category = registry.GetCategory(i);
+ // Groups can't refer to other groups.
+ if (ref_category->IsGroup())
+ continue;
+ // Require an exact match.
+ if (ref_category->name_size() != name_size ||
+ strncmp(ref_category->name, member_name, name_size)) {
+ continue;
+ }
+ if (IsCategoryEnabled(registry, config, *ref_category)) {
+ result = true;
+ // Break ForEachGroupMember() loop.
+ return false;
+ }
+ break;
+ }
+ // No match? Must be a dynamic category.
+ DynamicCategory dyn_category(std::string(member_name, name_size));
+ Category ref_category{Category::FromDynamicCategory(dyn_category)};
+ if (IsCategoryEnabled(registry, config, ref_category)) {
+ result = true;
+ // Break ForEachGroupMember() loop.
+ return false;
+ }
+ // No match found => keep iterating.
+ return true;
+ });
+ return result;
+ }
+
+ auto has_matching_tag = [&](std::function<bool(const char*)> matcher) {
+ for (const auto& tag : category.tags) {
+ if (!tag)
+ break;
+ if (matcher(tag))
+ return true;
+ }
+ // Legacy "disabled-by-default" categories automatically get the "slow" tag.
+ if (!strncmp(category.name, kLegacySlowPrefix, strlen(kLegacySlowPrefix)) &&
+ matcher(kSlowTag)) {
+ return true;
+ }
+ return false;
+ };
+
+ // First try exact matches, then pattern matches.
+ const std::array<MatchType, 2> match_types = {
+ {MatchType::kExact, MatchType::kPattern}};
+ for (auto match_type : match_types) {
+ // 1. Enabled categories.
+ if (NameMatchesPatternList(config.enabled_categories(), category.name,
+ match_type)) {
+ return true;
+ }
+
+ // 2. Enabled tags.
+ if (has_matching_tag([&](const char* tag) {
+ return NameMatchesPatternList(config.enabled_tags(), tag, match_type);
+ })) {
+ return true;
+ }
+
+ // 2.5. A special case for Chrome's legacy disabled-by-default categories.
+ // We treat them as having a "slow" tag with one exception: they can be
+ // enabled by a pattern if the pattern starts with "disabled-by-default-"
+ // itself.
+ if (match_type == MatchType::kExact &&
+ !strncmp(category.name, kLegacySlowPrefix, strlen(kLegacySlowPrefix))) {
+ for (const auto& pattern : config.enabled_categories()) {
+ if (!strncmp(pattern.c_str(), kLegacySlowPrefix,
+ strlen(kLegacySlowPrefix)) &&
+ NameMatchesPattern(pattern, category.name, MatchType::kPattern)) {
+ return true;
+ }
+ }
+ }
+
+ // 3. Disabled categories.
+ if (NameMatchesPatternList(config.disabled_categories(), category.name,
+ match_type)) {
+ return false;
+ }
+
+ // 4. Disabled tags.
+ if (has_matching_tag([&](const char* tag) {
+ if (config.disabled_tags_size()) {
+ return NameMatchesPatternList(config.disabled_tags(), tag,
+ match_type);
+ } else {
+ // The "slow" and "debug" tags are disabled by default.
+ return NameMatchesPattern(kSlowTag, tag, match_type) ||
+ NameMatchesPattern(kDebugTag, tag, match_type);
+ }
+ })) {
+ return false;
+ }
+ }
+
+ // If nothing matched, enable the category by default.
+ return true;
+}
+
+// static
+uint64_t TrackEventInternal::GetTimeNs() {
+ if (GetClockId() == protos::pbzero::BUILTIN_CLOCK_BOOTTIME)
+ return static_cast<uint64_t>(perfetto::base::GetBootTimeNs().count());
+ else if (GetClockId() == protos::pbzero::BUILTIN_CLOCK_MONOTONIC)
+ return static_cast<uint64_t>(perfetto::base::GetWallTimeNs().count());
+ PERFETTO_DCHECK(GetClockId() == protos::pbzero::BUILTIN_CLOCK_MONOTONIC_RAW);
+ return static_cast<uint64_t>(perfetto::base::GetWallTimeRawNs().count());
+}
+
+// static
+TraceTimestamp TrackEventInternal::GetTraceTime() {
+ return {kClockIdIncremental, GetTimeNs()};
+}
+
+// static
+int TrackEventInternal::GetSessionCount() {
+ return session_count_.load();
+}
+
+// static
+void TrackEventInternal::ResetIncrementalState(
+ TraceWriterBase* trace_writer,
+ TrackEventIncrementalState* incr_state,
+ const TrackEventTlsState& tls_state,
+ const TraceTimestamp& timestamp) {
+ auto sequence_timestamp = timestamp;
+ if (timestamp.clock_id != kClockIdIncremental) {
+ sequence_timestamp = TrackEventInternal::GetTraceTime();
+ }
+
+ incr_state->last_timestamp_ns = sequence_timestamp.value;
+ auto default_track = ThreadTrack::Current();
+ auto ts_unit_multiplier = tls_state.timestamp_unit_multiplier;
+ auto thread_time_counter_track =
+ CounterTrack("thread_time", default_track)
+ .set_is_incremental(true)
+ .set_unit_multiplier(static_cast<int64_t>(ts_unit_multiplier))
+ .set_type(protos::gen::CounterDescriptor::COUNTER_THREAD_TIME_NS);
+ {
+ // Mark any incremental state before this point invalid. Also set up
+ // defaults so that we don't need to repeat constant data for each packet.
+ auto packet = NewTracePacket(
+ trace_writer, incr_state, tls_state, timestamp,
+ protos::pbzero::TracePacket::SEQ_INCREMENTAL_STATE_CLEARED);
+ auto defaults = packet->set_trace_packet_defaults();
+ defaults->set_timestamp_clock_id(tls_state.default_clock);
+ // Establish the default track for this event sequence.
+ auto track_defaults = defaults->set_track_event_defaults();
+ track_defaults->set_track_uuid(default_track.uuid);
+ if (tls_state.enable_thread_time_sampling) {
+ track_defaults->add_extra_counter_track_uuids(
+ thread_time_counter_track.uuid);
+ }
+
+ if (tls_state.default_clock != static_cast<uint32_t>(GetClockId())) {
+ ClockSnapshot* clocks = packet->set_clock_snapshot();
+ // Trace clock.
+ ClockSnapshot::Clock* trace_clock = clocks->add_clocks();
+ trace_clock->set_clock_id(static_cast<uint32_t>(GetClockId()));
+ trace_clock->set_timestamp(sequence_timestamp.value);
+
+ if (PERFETTO_LIKELY(tls_state.default_clock == kClockIdIncremental)) {
+ // Delta-encoded incremental clock in nanoseconds by default but
+ // configurable by |tls_state.timestamp_unit_multiplier|.
+ ClockSnapshot::Clock* clock_incremental = clocks->add_clocks();
+ clock_incremental->set_clock_id(kClockIdIncremental);
+ clock_incremental->set_timestamp(sequence_timestamp.value /
+ ts_unit_multiplier);
+ clock_incremental->set_is_incremental(true);
+ clock_incremental->set_unit_multiplier_ns(ts_unit_multiplier);
+ }
+ if (ts_unit_multiplier > 1) {
+ // absolute clock with custom timestamp_unit_multiplier.
+ ClockSnapshot::Clock* absolute_clock = clocks->add_clocks();
+ absolute_clock->set_clock_id(kClockIdAbsolute);
+ absolute_clock->set_timestamp(sequence_timestamp.value /
+ ts_unit_multiplier);
+ absolute_clock->set_is_incremental(false);
+ absolute_clock->set_unit_multiplier_ns(ts_unit_multiplier);
+ }
+ }
+ }
+
+ // Every thread should write a descriptor for its default track, because most
+ // trace points won't explicitly reference it. We also write the process
+ // descriptor from every thread that writes trace events to ensure it gets
+ // emitted at least once.
+ WriteTrackDescriptor(default_track, trace_writer, incr_state, tls_state,
+ sequence_timestamp);
+
+ WriteTrackDescriptor(ProcessTrack::Current(), trace_writer, incr_state,
+ tls_state, sequence_timestamp);
+
+ if (tls_state.enable_thread_time_sampling) {
+ WriteTrackDescriptor(thread_time_counter_track, trace_writer, incr_state,
+ tls_state, sequence_timestamp);
+ }
+}
+
+// static
+protozero::MessageHandle<protos::pbzero::TracePacket>
+TrackEventInternal::NewTracePacket(TraceWriterBase* trace_writer,
+ TrackEventIncrementalState* incr_state,
+ const TrackEventTlsState& tls_state,
+ TraceTimestamp timestamp,
+ uint32_t seq_flags) {
+ if (PERFETTO_UNLIKELY(tls_state.default_clock != kClockIdIncremental &&
+ timestamp.clock_id == kClockIdIncremental)) {
+ timestamp.clock_id = tls_state.default_clock;
+ }
+ auto packet = trace_writer->NewTracePacket();
+ auto ts_unit_multiplier = tls_state.timestamp_unit_multiplier;
+ if (PERFETTO_LIKELY(timestamp.clock_id == kClockIdIncremental)) {
+ if (PERFETTO_LIKELY(incr_state->last_timestamp_ns <= timestamp.value)) {
+ // No need to set the clock id here, since kClockIdIncremental is the
+ // clock id assumed by default.
+ auto time_diff_ns = timestamp.value - incr_state->last_timestamp_ns;
+ auto time_diff_units = time_diff_ns / ts_unit_multiplier;
+ packet->set_timestamp(time_diff_units);
+ incr_state->last_timestamp_ns += time_diff_units * ts_unit_multiplier;
+ } else {
+ packet->set_timestamp(timestamp.value / ts_unit_multiplier);
+ packet->set_timestamp_clock_id(ts_unit_multiplier == 1
+ ? static_cast<uint32_t>(GetClockId())
+ : kClockIdAbsolute);
+ }
+ } else if (PERFETTO_LIKELY(timestamp.clock_id == tls_state.default_clock)) {
+ packet->set_timestamp(timestamp.value / ts_unit_multiplier);
+ } else {
+ packet->set_timestamp(timestamp.value);
+ packet->set_timestamp_clock_id(timestamp.clock_id);
+ }
+ packet->set_sequence_flags(seq_flags);
+ return packet;
+}
+
+// static
+void TrackEventInternal::WriteEventName(StaticString event_name,
+ perfetto::EventContext& event_ctx,
+ const TrackEventTlsState&) {
+ if (PERFETTO_LIKELY(event_name.value != nullptr)) {
+ size_t name_iid = InternedEventName::Get(&event_ctx, event_name.value);
+ event_ctx.event()->set_name_iid(name_iid);
+ }
+}
+
+// static
+void TrackEventInternal::WriteEventName(perfetto::DynamicString event_name,
+ perfetto::EventContext& event_ctx,
+ const TrackEventTlsState& tls_state) {
+ if (PERFETTO_UNLIKELY(tls_state.filter_dynamic_event_names)) {
+ event_ctx.event()->set_name(kFilteredEventName,
+ sizeof(kFilteredEventName) - 1);
+ } else {
+ event_ctx.event()->set_name(event_name.value, event_name.length);
+ }
+}
+
+// static
+EventContext TrackEventInternal::WriteEvent(
+ TraceWriterBase* trace_writer,
+ TrackEventIncrementalState* incr_state,
+ TrackEventTlsState& tls_state,
+ const Category* category,
+ perfetto::protos::pbzero::TrackEvent::Type type,
+ const TraceTimestamp& timestamp,
+ bool on_current_thread_track) {
+ PERFETTO_DCHECK(!incr_state->was_cleared);
+ auto packet = NewTracePacket(trace_writer, incr_state, tls_state, timestamp);
+ EventContext ctx(trace_writer, std::move(packet), incr_state, &tls_state);
+
+ auto track_event = ctx.event();
+ if (type != protos::pbzero::TrackEvent::TYPE_UNSPECIFIED)
+ track_event->set_type(type);
+
+ if (tls_state.enable_thread_time_sampling && on_current_thread_track) {
+ int64_t thread_time_ns = base::GetThreadCPUTimeNs().count();
+ auto thread_time_delta_ns =
+ thread_time_ns - incr_state->last_thread_time_ns;
+ incr_state->last_thread_time_ns = thread_time_ns;
+ track_event->add_extra_counter_values(
+ thread_time_delta_ns /
+ static_cast<int64_t>(tls_state.timestamp_unit_multiplier));
+ }
+
+ // We assume that |category| points to the string with static lifetime.
+ // This means we can use their addresses as interning keys.
+ // TODO(skyostil): Intern categories at compile time.
+ if (category && type != protos::pbzero::TrackEvent::TYPE_SLICE_END &&
+ type != protos::pbzero::TrackEvent::TYPE_COUNTER) {
+ category->ForEachGroupMember(
+ [&](const char* member_name, size_t name_size) {
+ size_t category_iid =
+ InternedEventCategory::Get(&ctx, member_name, name_size);
+ track_event->add_category_iids(category_iid);
+ return true;
+ });
+ }
+ return ctx;
+}
+
+// static
+protos::pbzero::DebugAnnotation* TrackEventInternal::AddDebugAnnotation(
+ perfetto::EventContext* event_ctx,
+ const char* name) {
+ auto annotation = event_ctx->event()->add_debug_annotations();
+ annotation->set_name_iid(InternedDebugAnnotationName::Get(event_ctx, name));
+ return annotation;
+}
+
+// static
+protos::pbzero::DebugAnnotation* TrackEventInternal::AddDebugAnnotation(
+ perfetto::EventContext* event_ctx,
+ perfetto::DynamicString name) {
+ auto annotation = event_ctx->event()->add_debug_annotations();
+ annotation->set_name(name.value);
+ return annotation;
+}
+
+} // namespace internal
+} // namespace perfetto
+// gen_amalgamated begin source: src/tracing/internal/track_event_interned_fields.cc
+/*
+ * Copyright (C) 2021 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/tracing/internal/track_event_interned_fields.h"
+
+namespace perfetto {
+namespace internal {
+
+InternedEventCategory::~InternedEventCategory() = default;
+
+// static
+void InternedEventCategory::Add(protos::pbzero::InternedData* interned_data,
+ size_t iid,
+ const char* value,
+ size_t length) {
+ auto category = interned_data->add_event_categories();
+ category->set_iid(iid);
+ category->set_name(value, length);
+}
+
+InternedEventName::~InternedEventName() = default;
+
+// static
+void InternedEventName::Add(protos::pbzero::InternedData* interned_data,
+ size_t iid,
+ const char* value) {
+ auto name = interned_data->add_event_names();
+ name->set_iid(iid);
+ name->set_name(value);
+}
+
+InternedDebugAnnotationName::~InternedDebugAnnotationName() = default;
+
+// static
+void InternedDebugAnnotationName::Add(
+ protos::pbzero::InternedData* interned_data,
+ size_t iid,
+ const char* value) {
+ auto name = interned_data->add_debug_annotation_names();
+ name->set_iid(iid);
+ name->set_name(value);
+}
+
+InternedDebugAnnotationValueTypeName::~InternedDebugAnnotationValueTypeName() =
+ default;
+
+// static
+void InternedDebugAnnotationValueTypeName::Add(
+ protos::pbzero::InternedData* interned_data,
+ size_t iid,
+ const char* value) {
+ auto name = interned_data->add_debug_annotation_value_type_names();
+ name->set_iid(iid);
+ name->set_name(value);
+}
+
+} // namespace internal
+} // namespace perfetto
+// gen_amalgamated begin source: src/tracing/platform.cc
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/tracing/platform.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/internal/tracing_tls.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/trace_writer_base.h"
+
+namespace perfetto {
+
+PlatformThreadLocalObject::~PlatformThreadLocalObject() = default;
+Platform::~Platform() = default;
+
+void Platform::Shutdown() {}
+
+base::PlatformThreadId Platform::GetCurrentThreadId() {
+ return base::GetThreadId();
+}
+
+// static
+std::unique_ptr<PlatformThreadLocalObject>
+PlatformThreadLocalObject::CreateInstance() {
+ return std::unique_ptr<PlatformThreadLocalObject>(new internal::TracingTLS());
+}
+
+// static
+base::PlatformProcessId Platform::process_id_ = 0;
+
+} // namespace perfetto
+// gen_amalgamated begin source: src/tracing/traced_value.cc
+/*
+ * Copyright (C) 2021 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/tracing/traced_value.h"
+
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/debug_annotation.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/internal/track_event_interned_fields.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/debug_annotation.pbzero.h"
+
+namespace perfetto {
+
+namespace internal {
+
+TracedValue CreateTracedValueFromProto(
+ protos::pbzero::DebugAnnotation* annotation,
+ EventContext* event_context) {
+ return TracedValue::CreateFromProto(annotation, event_context);
+}
+
+} // namespace internal
+
+// static
+TracedValue TracedValue::CreateFromProto(
+ protos::pbzero::DebugAnnotation* annotation,
+ EventContext* event_context) {
+ return TracedValue(annotation, event_context, nullptr);
+}
+
+TracedValue::TracedValue(TracedValue&&) = default;
+TracedValue::~TracedValue() = default;
+
+void TracedValue::WriteInt64(int64_t value) && {
+ PERFETTO_DCHECK(checked_scope_.is_active());
+ annotation_->set_int_value(value);
+}
+
+void TracedValue::WriteUInt64(uint64_t value) && {
+ PERFETTO_DCHECK(checked_scope_.is_active());
+ annotation_->set_uint_value(value);
+}
+
+void TracedValue::WriteDouble(double value) && {
+ PERFETTO_DCHECK(checked_scope_.is_active());
+ annotation_->set_double_value(value);
+}
+
+void TracedValue::WriteBoolean(bool value) && {
+ PERFETTO_DCHECK(checked_scope_.is_active());
+ annotation_->set_bool_value(value);
+}
+
+void TracedValue::WriteString(const char* value) && {
+ PERFETTO_DCHECK(checked_scope_.is_active());
+ annotation_->set_string_value(value);
+}
+
+void TracedValue::WriteString(const char* value, size_t len) && {
+ PERFETTO_DCHECK(checked_scope_.is_active());
+ annotation_->set_string_value(value, len);
+}
+
+void TracedValue::WriteString(const std::string& value) && {
+ PERFETTO_DCHECK(checked_scope_.is_active());
+ annotation_->set_string_value(value);
+}
+
+void TracedValue::WriteString(std::string_view value) && {
+ PERFETTO_DCHECK(checked_scope_.is_active());
+ annotation_->set_string_value(value.data(), value.size());
+}
+
+void TracedValue::WritePointer(const void* value) && {
+ PERFETTO_DCHECK(checked_scope_.is_active());
+ annotation_->set_pointer_value(reinterpret_cast<uint64_t>(value));
+}
+
+TracedDictionary TracedValue::WriteDictionary() && {
+ // Note: this passes |checked_scope_.is_active_| bit to the parent to be
+ // picked up later by the new TracedDictionary.
+ PERFETTO_DCHECK(checked_scope_.is_active());
+ checked_scope_.Reset();
+
+ PERFETTO_DCHECK(!annotation_->is_finalized());
+ return TracedDictionary(annotation_,
+ protos::pbzero::DebugAnnotation::kDictEntries,
+ event_context_, checked_scope_.parent_scope());
+}
+
+TracedArray TracedValue::WriteArray() && {
+ // Note: this passes |checked_scope_.is_active_| bit to the parent to be
+ // picked up later by the new TracedDictionary.
+ PERFETTO_DCHECK(checked_scope_.is_active());
+ checked_scope_.Reset();
+
+ PERFETTO_DCHECK(!annotation_->is_finalized());
+ return TracedArray(annotation_, event_context_,
+ checked_scope_.parent_scope());
+}
+
+protozero::Message* TracedValue::WriteProtoInternal(const char* name) {
+ if (event_context_) {
+ annotation_->set_proto_type_name_iid(
+ internal::InternedDebugAnnotationValueTypeName::Get(event_context_,
+ name));
+ } else {
+ annotation_->set_proto_type_name(name);
+ }
+ return annotation_->template BeginNestedMessage<protozero::Message>(
+ protos::pbzero::DebugAnnotation::kProtoValueFieldNumber);
+}
+
+TracedArray::TracedArray(TracedValue annotation)
+ : TracedArray(std::move(annotation).WriteArray()) {}
+
+TracedValue TracedArray::AppendItem() {
+ PERFETTO_DCHECK(checked_scope_.is_active());
+ return TracedValue(annotation_->add_array_values(), event_context_,
+ &checked_scope_);
+}
+
+TracedDictionary TracedArray::AppendDictionary() {
+ PERFETTO_DCHECK(checked_scope_.is_active());
+ return AppendItem().WriteDictionary();
+}
+
+TracedArray TracedArray::AppendArray() {
+ PERFETTO_DCHECK(checked_scope_.is_active());
+ return AppendItem().WriteArray();
+}
+
+TracedDictionary::TracedDictionary(TracedValue annotation)
+ : TracedDictionary(std::move(annotation).WriteDictionary()) {}
+
+TracedValue TracedDictionary::AddItem(StaticString key) {
+ PERFETTO_DCHECK(checked_scope_.is_active());
+ protos::pbzero::DebugAnnotation* item =
+ message_->BeginNestedMessage<protos::pbzero::DebugAnnotation>(field_id_);
+ item->set_name(key.value);
+ return TracedValue(item, event_context_, &checked_scope_);
+}
+
+TracedValue TracedDictionary::AddItem(DynamicString key) {
+ PERFETTO_DCHECK(checked_scope_.is_active());
+ protos::pbzero::DebugAnnotation* item =
+ message_->BeginNestedMessage<protos::pbzero::DebugAnnotation>(field_id_);
+ item->set_name(key.value);
+ return TracedValue(item, event_context_, &checked_scope_);
+}
+
+TracedDictionary TracedDictionary::AddDictionary(StaticString key) {
+ PERFETTO_DCHECK(checked_scope_.is_active());
+ return AddItem(key).WriteDictionary();
+}
+
+TracedDictionary TracedDictionary::AddDictionary(DynamicString key) {
+ PERFETTO_DCHECK(checked_scope_.is_active());
+ return AddItem(key).WriteDictionary();
+}
+
+TracedArray TracedDictionary::AddArray(StaticString key) {
+ PERFETTO_DCHECK(checked_scope_.is_active());
+ return AddItem(key).WriteArray();
+}
+
+TracedArray TracedDictionary::AddArray(DynamicString key) {
+ PERFETTO_DCHECK(checked_scope_.is_active());
+ return AddItem(key).WriteArray();
+}
+
+} // namespace perfetto
+// gen_amalgamated begin source: src/tracing/tracing.cc
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/tracing/tracing.h"
+
+#include <atomic>
+#include <condition_variable>
+#include <mutex>
+
+// gen_amalgamated expanded: #include "perfetto/base/time.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/no_destructor.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/waitable_event.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/internal/track_event_internal.h"
+// gen_amalgamated expanded: #include "src/tracing/internal/tracing_muxer_impl.h"
+
+namespace perfetto {
+namespace {
+bool g_was_initialized = false;
+
+// Wrapped in a function to avoid global constructor
+std::mutex& InitializedMutex() {
+ static base::NoDestructor<std::mutex> initialized_mutex;
+ return initialized_mutex.ref();
+}
+} // namespace
+
+// static
+void Tracing::InitializeInternal(const TracingInitArgs& args) {
+ base::InitializeTime();
+ std::unique_lock<std::mutex> lock(InitializedMutex());
+ // If it's the first time Initialize is called, set some global params.
+ if (!g_was_initialized) {
+ // Make sure the headers and implementation files agree on the build config.
+ PERFETTO_CHECK(args.dcheck_is_on_ == PERFETTO_DCHECK_IS_ON());
+ if (args.log_message_callback) {
+ base::SetLogMessageCallback(args.log_message_callback);
+ }
+
+ if (args.use_monotonic_clock) {
+ PERFETTO_CHECK(!args.use_monotonic_raw_clock);
+ internal::TrackEventInternal::SetClockId(
+ protos::pbzero::BUILTIN_CLOCK_MONOTONIC);
+ } else if (args.use_monotonic_raw_clock) {
+ internal::TrackEventInternal::SetClockId(
+ protos::pbzero::BUILTIN_CLOCK_MONOTONIC_RAW);
+ }
+
+ if (args.disallow_merging_with_system_tracks) {
+ internal::TrackEventInternal::SetDisallowMergingWithSystemTracks(true);
+ }
+ }
+
+ internal::TracingMuxerImpl::InitializeInstance(args);
+ internal::TrackRegistry::InitializeInstance();
+ g_was_initialized = true;
+}
+
+// static
+bool Tracing::IsInitialized() {
+ std::unique_lock<std::mutex> lock(InitializedMutex());
+ return g_was_initialized;
+}
+
+// static
+void Tracing::Shutdown() {
+ std::unique_lock<std::mutex> lock(InitializedMutex());
+ if (!g_was_initialized)
+ return;
+ internal::TracingMuxerImpl::Shutdown();
+ g_was_initialized = false;
+}
+
+// static
+void Tracing::ResetForTesting() {
+ std::unique_lock<std::mutex> lock(InitializedMutex());
+ if (!g_was_initialized)
+ return;
+ base::SetLogMessageCallback(nullptr);
+ internal::TracingMuxerImpl::ResetForTesting();
+ internal::TrackRegistry::ResetForTesting();
+ g_was_initialized = false;
+}
+
+// static
+std::unique_ptr<TracingSession> Tracing::NewTraceInternal(
+ BackendType backend,
+ TracingConsumerBackend* (*system_backend_factory)()) {
+ return static_cast<internal::TracingMuxerImpl*>(internal::TracingMuxer::Get())
+ ->CreateTracingSession(backend, system_backend_factory);
+}
+
+// static
+std::unique_ptr<StartupTracingSession> Tracing::SetupStartupTracing(
+ const TraceConfig& config,
+ Tracing::SetupStartupTracingOpts opts) {
+ return static_cast<internal::TracingMuxerImpl*>(internal::TracingMuxer::Get())
+ ->CreateStartupTracingSession(config, std::move(opts));
+}
+
+// static
+std::unique_ptr<StartupTracingSession> Tracing::SetupStartupTracingBlocking(
+ const TraceConfig& config,
+ Tracing::SetupStartupTracingOpts opts) {
+ return static_cast<internal::TracingMuxerImpl*>(internal::TracingMuxer::Get())
+ ->CreateStartupTracingSessionBlocking(config, std::move(opts));
+}
+
+// static
+void Tracing::ActivateTriggers(const std::vector<std::string>& triggers,
+ uint32_t ttl_ms) {
+ internal::TracingMuxer::Get()->ActivateTriggers(triggers, ttl_ms);
+}
+
+TracingSession::~TracingSession() = default;
+
+// Can be called from any thread.
+bool TracingSession::FlushBlocking(uint32_t timeout_ms) {
+ std::atomic<bool> flush_result;
+ base::WaitableEvent flush_ack;
+
+ // The non blocking Flush() can be called on any thread. It does the PostTask
+ // internally.
+ Flush(
+ [&flush_ack, &flush_result](bool res) {
+ flush_result = res;
+ flush_ack.Notify();
+ },
+ timeout_ms);
+ flush_ack.Wait();
+ return flush_result;
+}
+
+std::vector<char> TracingSession::ReadTraceBlocking() {
+ std::vector<char> raw_trace;
+ std::mutex mutex;
+ std::condition_variable cv;
+
+ bool all_read = false;
+
+ ReadTrace([&mutex, &raw_trace, &all_read, &cv](ReadTraceCallbackArgs cb) {
+ raw_trace.insert(raw_trace.end(), cb.data, cb.data + cb.size);
+ std::unique_lock<std::mutex> lock(mutex);
+ all_read = !cb.has_more;
+ if (all_read)
+ cv.notify_one();
+ });
+
+ {
+ std::unique_lock<std::mutex> lock(mutex);
+ cv.wait(lock, [&all_read] { return all_read; });
+ }
+ return raw_trace;
+}
+
+TracingSession::GetTraceStatsCallbackArgs
+TracingSession::GetTraceStatsBlocking() {
+ std::mutex mutex;
+ std::condition_variable cv;
+ GetTraceStatsCallbackArgs result;
+ bool stats_read = false;
+
+ GetTraceStats(
+ [&mutex, &result, &stats_read, &cv](GetTraceStatsCallbackArgs args) {
+ result = std::move(args);
+ std::unique_lock<std::mutex> lock(mutex);
+ stats_read = true;
+ cv.notify_one();
+ });
+
+ {
+ std::unique_lock<std::mutex> lock(mutex);
+ cv.wait(lock, [&stats_read] { return stats_read; });
+ }
+ return result;
+}
+
+TracingSession::QueryServiceStateCallbackArgs
+TracingSession::QueryServiceStateBlocking() {
+ std::mutex mutex;
+ std::condition_variable cv;
+ QueryServiceStateCallbackArgs result;
+ bool status_read = false;
+
+ QueryServiceState(
+ [&mutex, &result, &status_read, &cv](QueryServiceStateCallbackArgs args) {
+ result = std::move(args);
+ std::unique_lock<std::mutex> lock(mutex);
+ status_read = true;
+ cv.notify_one();
+ });
+
+ {
+ std::unique_lock<std::mutex> lock(mutex);
+ cv.wait(lock, [&status_read] { return status_read; });
+ }
+ return result;
+}
+
+StartupTracingSession::~StartupTracingSession() = default;
+
+} // namespace perfetto
+// gen_amalgamated begin source: src/tracing/tracing_policy.cc
+/*
+ * Copyright (C) 2021 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/tracing/tracing_policy.h"
+
+namespace perfetto {
+
+TracingPolicy::~TracingPolicy() = default;
+
+} // namespace perfetto
+// gen_amalgamated begin source: src/tracing/track.cc
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/tracing/track.h"
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/file_utils.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/hash.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/scoped_file.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/string_splitter.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/string_utils.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/thread_utils.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/uuid.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/internal/track_event_data_source.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/internal/track_event_internal.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/counter_descriptor.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/process_descriptor.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/process_descriptor.pbzero.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/thread_descriptor.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/thread_descriptor.pbzero.h"
+
+namespace perfetto {
+
+// static
+uint64_t Track::process_uuid;
+
+protos::gen::TrackDescriptor Track::Serialize() const {
+ protos::gen::TrackDescriptor desc;
+ desc.set_uuid(uuid);
+ if (parent_uuid)
+ desc.set_parent_uuid(parent_uuid);
+ return desc;
+}
+
+void Track::Serialize(protos::pbzero::TrackDescriptor* desc) const {
+ auto bytes = Serialize().SerializeAsString();
+ desc->AppendRawProtoBytes(bytes.data(), bytes.size());
+}
+
+protos::gen::TrackDescriptor ProcessTrack::Serialize() const {
+ auto desc = Track::Serialize();
+ auto pd = desc.mutable_process();
+ pd->set_pid(static_cast<int32_t>(pid));
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_LINUX) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID)
+ std::string cmdline;
+ if (base::ReadFile("/proc/self/cmdline", &cmdline)) {
+ // Since cmdline is a zero-terminated list of arguments, this ends up
+ // writing just the first element, i.e., the process name, into the process
+ // name field.
+ pd->set_process_name(cmdline.c_str());
+ base::StringSplitter splitter(std::move(cmdline), '\0');
+ while (splitter.Next()) {
+ pd->add_cmdline(
+ std::string(splitter.cur_token(), splitter.cur_token_size()));
+ }
+ }
+ // TODO(skyostil): Record command line on Windows and Mac.
+#endif
+ return desc;
+}
+
+void ProcessTrack::Serialize(protos::pbzero::TrackDescriptor* desc) const {
+ auto bytes = Serialize().SerializeAsString();
+ desc->AppendRawProtoBytes(bytes.data(), bytes.size());
+}
+
+protos::gen::TrackDescriptor ThreadTrack::Serialize() const {
+ auto desc = Track::Serialize();
+ auto td = desc.mutable_thread();
+ td->set_pid(static_cast<int32_t>(pid));
+ td->set_tid(static_cast<int32_t>(tid));
+ if (disallow_merging_with_system_tracks) {
+ desc.set_disallow_merging_with_system_tracks(true);
+ }
+ std::string thread_name;
+ if (base::GetThreadName(thread_name))
+ td->set_thread_name(thread_name);
+ return desc;
+}
+
+// static
+ThreadTrack ThreadTrack::Current() {
+ return ThreadTrack(
+ internal::TracingMuxer::Get()->GetCurrentThreadId(),
+ internal::TrackEventInternal::GetDisallowMergingWithSystemTracks());
+}
+
+// static
+ThreadTrack ThreadTrack::ForThread(base::PlatformThreadId tid_) {
+ return ThreadTrack(
+ tid_, internal::TrackEventInternal::GetDisallowMergingWithSystemTracks());
+}
+
+void ThreadTrack::Serialize(protos::pbzero::TrackDescriptor* desc) const {
+ auto bytes = Serialize().SerializeAsString();
+ desc->AppendRawProtoBytes(bytes.data(), bytes.size());
+}
+
+protos::gen::TrackDescriptor CounterTrack::Serialize() const {
+ auto desc = Track::Serialize();
+ desc.set_name(name_);
+ auto* counter = desc.mutable_counter();
+ if (category_)
+ counter->add_categories(category_);
+ if (unit_ != perfetto::protos::pbzero::CounterDescriptor::UNIT_UNSPECIFIED)
+ counter->set_unit(static_cast<protos::gen::CounterDescriptor_Unit>(unit_));
+ {
+ // if |type| is set, we don't want to emit |unit_name|. Trace processor
+ // infers the track name from the type in that case.
+ if (type_ !=
+ perfetto::protos::gen::CounterDescriptor::COUNTER_UNSPECIFIED) {
+ counter->set_type(type_);
+ } else if (unit_name_) {
+ counter->set_unit_name(unit_name_);
+ }
+ }
+ if (unit_multiplier_ != 1)
+ counter->set_unit_multiplier(unit_multiplier_);
+ if (is_incremental_)
+ counter->set_is_incremental(is_incremental_);
+ return desc;
+}
+
+void CounterTrack::Serialize(protos::pbzero::TrackDescriptor* desc) const {
+ auto bytes = Serialize().SerializeAsString();
+ desc->AppendRawProtoBytes(bytes.data(), bytes.size());
+}
+
+namespace internal {
+namespace {
+
+uint64_t GetProcessStartTime() {
+#if !PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ std::string stat;
+ if (!base::ReadFile("/proc/self/stat", &stat))
+ return 0u;
+ // The stat file is a single line split into space-separated fields as "pid
+ // (comm) state ppid ...". However because the command name can contain any
+ // characters (including parentheses and spaces), we need to skip past it
+ // before parsing the rest of the fields. To do that, we look for the last
+ // instance of ") " (parentheses followed by space) and parse forward from
+ // that point.
+ size_t comm_end = stat.rfind(") ");
+ if (comm_end == std::string::npos)
+ return 0u;
+ stat = stat.substr(comm_end + strlen(") "));
+ base::StringSplitter splitter(stat, ' ');
+ for (size_t skip = 0; skip < 20; skip++) {
+ if (!splitter.Next())
+ return 0u;
+ }
+ return base::CStringToUInt64(splitter.cur_token()).value_or(0u);
+#else
+ return 0;
+#endif // !PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+}
+
+} // namespace
+
+// static
+TrackRegistry* TrackRegistry::instance_;
+
+TrackRegistry::TrackRegistry() = default;
+TrackRegistry::~TrackRegistry() = default;
+
+// static
+void TrackRegistry::InitializeInstance() {
+ if (instance_)
+ return;
+ instance_ = new TrackRegistry();
+ Track::process_uuid = ComputeProcessUuid();
+}
+
+// static
+uint64_t TrackRegistry::ComputeProcessUuid() {
+ // Use the process start time + pid as the unique identifier for this process.
+ // This ensures that if there are two independent copies of the Perfetto SDK
+ // in the same process (e.g., one in the app and another in a system
+ // framework), events emitted by each will be consistently interleaved on
+ // common thread and process tracks.
+ if (uint64_t start_time = GetProcessStartTime()) {
+ base::Hasher hash;
+ hash.Update(start_time);
+ hash.Update(Platform::GetCurrentProcessId());
+ return hash.digest();
+ }
+ // Fall back to a randomly generated identifier.
+ static uint64_t random_once = static_cast<uint64_t>(base::Uuidv4().lsb());
+ return random_once;
+}
+
+void TrackRegistry::ResetForTesting() {
+ instance_->tracks_.clear();
+}
+
+void TrackRegistry::UpdateTrack(Track track,
+ const std::string& serialized_desc) {
+ std::lock_guard<std::mutex> lock(mutex_);
+ tracks_[track.uuid] = std::move(serialized_desc);
+}
+
+void TrackRegistry::UpdateTrackImpl(
+ Track track,
+ std::function<void(protos::pbzero::TrackDescriptor*)> fill_function) {
+ constexpr size_t kInitialSliceSize = 32;
+ constexpr size_t kMaximumSliceSize = 4096;
+ protozero::HeapBuffered<protos::pbzero::TrackDescriptor> new_descriptor(
+ kInitialSliceSize, kMaximumSliceSize);
+ fill_function(new_descriptor.get());
+ auto serialized_desc = new_descriptor.SerializeAsString();
+ UpdateTrack(track, serialized_desc);
+}
+
+void TrackRegistry::EraseTrack(Track track) {
+ std::lock_guard<std::mutex> lock(mutex_);
+ tracks_.erase(track.uuid);
+}
+
+// static
+void TrackRegistry::WriteTrackDescriptor(
+ const SerializedTrackDescriptor& desc,
+ protozero::MessageHandle<protos::pbzero::TracePacket> packet) {
+ packet->AppendString(
+ perfetto::protos::pbzero::TracePacket::kTrackDescriptorFieldNumber, desc);
+}
+
+} // namespace internal
+} // namespace perfetto
+// gen_amalgamated begin source: src/tracing/track_event_category_registry.cc
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/tracing/track_event_category_registry.h"
+
+namespace perfetto {
+
+// static
+Category Category::FromDynamicCategory(const char* name) {
+ if (GetNthNameSize(1, name, name)) {
+ Category group(Group(name));
+ PERFETTO_DCHECK(group.name);
+ return group;
+ }
+ Category category(name);
+ PERFETTO_DCHECK(category.name);
+ return category;
+}
+
+Category Category::FromDynamicCategory(
+ const DynamicCategory& dynamic_category) {
+ return FromDynamicCategory(dynamic_category.name.c_str());
+}
+
+namespace internal {
+
+perfetto::DynamicCategory NullCategory(const perfetto::DynamicCategory&) {
+ return perfetto::DynamicCategory{};
+}
+
+void TrackEventCategoryRegistry::EnableCategoryForInstance(
+ size_t category_index,
+ uint32_t instance_index) const {
+ PERFETTO_DCHECK(instance_index < kMaxDataSourceInstances);
+ PERFETTO_DCHECK(category_index < category_count_);
+ // Matches the acquire_load in DataSource::Trace().
+ state_storage_[category_index].fetch_or(
+ static_cast<uint8_t>(1u << instance_index), std::memory_order_release);
+}
+
+void TrackEventCategoryRegistry::DisableCategoryForInstance(
+ size_t category_index,
+ uint32_t instance_index) const {
+ PERFETTO_DCHECK(instance_index < kMaxDataSourceInstances);
+ PERFETTO_DCHECK(category_index < category_count_);
+ // Matches the acquire_load in DataSource::Trace().
+ state_storage_[category_index].fetch_and(
+ static_cast<uint8_t>(~(1u << instance_index)), std::memory_order_release);
+}
+
+} // namespace internal
+} // namespace perfetto
+// gen_amalgamated begin source: src/tracing/track_event_legacy.cc
+/*
+ * Copyright (C) 2020 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/tracing/track_event_legacy.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/hash.h"
+
+// gen_amalgamated expanded: #include "perfetto/tracing/track.h"
+
+namespace perfetto {
+namespace legacy {
+
+template <>
+ThreadTrack ConvertThreadId(const PerfettoLegacyCurrentThreadId&) {
+ // Because of the short-circuit in PERFETTO_INTERNAL_LEGACY_EVENT, we should
+ // never get here.
+ PERFETTO_DCHECK(false);
+ return ThreadTrack::Current();
+}
+
+} // namespace legacy
+
+namespace internal {
+
+void LegacyTraceId::Write(protos::pbzero::TrackEvent::LegacyEvent* event,
+ uint32_t event_flags) const {
+ // Legacy flow events always use bind_id.
+ if (event_flags &
+ (legacy::kTraceEventFlagFlowOut | legacy::kTraceEventFlagFlowIn)) {
+ // Flow bind_ids don't have scopes, so we need to mangle in-process ones to
+ // avoid collisions.
+ if (id_flags_ & legacy::kTraceEventFlagHasLocalId) {
+ event->set_bind_id(raw_id_ ^ ProcessTrack::Current().uuid);
+ } else {
+ event->set_bind_id(raw_id_);
+ }
+ return;
+ }
+
+ uint32_t scope_flags = id_flags_ & (legacy::kTraceEventFlagHasId |
+ legacy::kTraceEventFlagHasLocalId |
+ legacy::kTraceEventFlagHasGlobalId);
+ uint64_t id = raw_id_;
+ if (scope_ && scope_flags != legacy::kTraceEventFlagHasGlobalId) {
+ id = base::Hasher::Combine(id, scope_);
+ }
+
+ switch (scope_flags) {
+ case legacy::kTraceEventFlagHasId:
+ event->set_unscoped_id(id);
+ break;
+ case legacy::kTraceEventFlagHasLocalId:
+ event->set_local_id(id);
+ break;
+ case legacy::kTraceEventFlagHasGlobalId:
+ event->set_global_id(id);
+ break;
+ }
+ if (scope_)
+ event->set_id_scope(scope_);
+}
+
+} // namespace internal
+} // namespace perfetto
+// gen_amalgamated begin source: src/tracing/track_event_state_tracker.cc
+/*
+ * Copyright (C) 2020 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/tracing/track_event_state_tracker.h"
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/hash.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/internal/track_event_internal.h"
+
+// gen_amalgamated expanded: #include "protos/perfetto/common/interceptor_descriptor.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/clock_snapshot.pbzero.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/interned_data/interned_data.pbzero.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/trace_packet.pbzero.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/trace_packet_defaults.pbzero.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/debug_annotation.pbzero.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/process_descriptor.pbzero.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/thread_descriptor.pbzero.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/track_descriptor.pbzero.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/track_event.pbzero.h"
+
+namespace perfetto {
+
+using internal::TrackEventIncrementalState;
+
+TrackEventStateTracker::~TrackEventStateTracker() = default;
+TrackEventStateTracker::Delegate::~Delegate() = default;
+
+// static
+void TrackEventStateTracker::ProcessTracePacket(
+ Delegate& delegate,
+ SequenceState& sequence_state,
+ const protos::pbzero::TracePacket_Decoder& packet) {
+ UpdateIncrementalState(delegate, sequence_state, packet);
+
+ if (!packet.has_track_event())
+ return;
+ perfetto::protos::pbzero::TrackEvent::Decoder track_event(
+ packet.track_event());
+
+ auto clock_id = packet.timestamp_clock_id();
+ if (!packet.has_timestamp_clock_id())
+ clock_id = sequence_state.default_clock_id;
+ uint64_t timestamp = packet.timestamp();
+ // TODO(mohitms): Incorporate unit multiplier as well.
+ if (clock_id == internal::TrackEventIncrementalState::kClockIdIncremental) {
+ timestamp += sequence_state.most_recent_absolute_time_ns;
+ sequence_state.most_recent_absolute_time_ns = timestamp;
+ }
+
+ Track* track = &sequence_state.track;
+ if (track_event.has_track_uuid()) {
+ auto* session_state = delegate.GetSessionState();
+ if (!session_state)
+ return; // Tracing must have ended.
+ track = &session_state->tracks[track_event.track_uuid()];
+ }
+
+ // We only log the first category of each event.
+ protozero::ConstChars category{};
+ uint64_t category_iid = 0;
+ if (auto iid_it = track_event.category_iids()) {
+ category_iid = *iid_it;
+ category.data = sequence_state.event_categories[category_iid].data();
+ category.size = sequence_state.event_categories[category_iid].size();
+ } else if (auto cat_it = track_event.categories()) {
+ category.data = reinterpret_cast<const char*>(cat_it->data());
+ category.size = cat_it->size();
+ }
+
+ protozero::ConstChars name{};
+ uint64_t name_iid = track_event.name_iid();
+ uint64_t name_hash = 0;
+ uint64_t duration = 0;
+ if (name_iid) {
+ name.data = sequence_state.event_names[name_iid].data();
+ name.size = sequence_state.event_names[name_iid].size();
+ } else if (track_event.has_name()) {
+ name.data = track_event.name().data;
+ name.size = track_event.name().size;
+ }
+
+ if (name.data) {
+ base::Hasher hash;
+ hash.Update(name.data, name.size);
+ name_hash = hash.digest();
+ }
+
+ size_t depth = track->stack.size();
+ switch (track_event.type()) {
+ case protos::pbzero::TrackEvent::TYPE_SLICE_BEGIN: {
+ StackFrame frame;
+ frame.timestamp = timestamp;
+ frame.name_hash = name_hash;
+ if (track_event.has_track_uuid()) {
+ frame.name = name.ToStdString();
+ frame.category = category.ToStdString();
+ } else {
+ frame.name_iid = name_iid;
+ frame.category_iid = category_iid;
+ }
+ track->stack.push_back(std::move(frame));
+ break;
+ }
+ case protos::pbzero::TrackEvent::TYPE_SLICE_END:
+ if (!track->stack.empty()) {
+ const auto& prev_frame = track->stack.back();
+ if (prev_frame.name_iid) {
+ name.data = sequence_state.event_names[prev_frame.name_iid].data();
+ name.size = sequence_state.event_names[prev_frame.name_iid].size();
+ } else {
+ name.data = prev_frame.name.data();
+ name.size = prev_frame.name.size();
+ }
+ name_hash = prev_frame.name_hash;
+ if (prev_frame.category_iid) {
+ category.data =
+ sequence_state.event_categories[prev_frame.category_iid].data();
+ category.size =
+ sequence_state.event_categories[prev_frame.category_iid].size();
+ } else {
+ category.data = prev_frame.category.data();
+ category.size = prev_frame.category.size();
+ }
+ duration = timestamp - prev_frame.timestamp;
+ depth--;
+ }
+ break;
+ case protos::pbzero::TrackEvent::TYPE_INSTANT:
+ break;
+ case protos::pbzero::TrackEvent::TYPE_COUNTER:
+ case protos::pbzero::TrackEvent::TYPE_UNSPECIFIED:
+ // TODO(skyostil): Support counters.
+ return;
+ }
+
+ ParsedTrackEvent parsed_event{track_event};
+ parsed_event.timestamp_ns = timestamp;
+ parsed_event.duration_ns = duration;
+ parsed_event.stack_depth = depth;
+ parsed_event.category = category;
+ parsed_event.name = name;
+ parsed_event.name_hash = name_hash;
+ delegate.OnTrackEvent(*track, parsed_event);
+
+ if (track_event.type() == protos::pbzero::TrackEvent::TYPE_SLICE_END &&
+ !track->stack.empty()) {
+ track->stack.pop_back();
+ }
+}
+
+// static
+void TrackEventStateTracker::UpdateIncrementalState(
+ Delegate& delegate,
+ SequenceState& sequence_state,
+ const protos::pbzero::TracePacket_Decoder& packet) {
+#if PERFETTO_DCHECK_IS_ON()
+ if (!sequence_state.sequence_id) {
+ sequence_state.sequence_id = packet.trusted_packet_sequence_id();
+ } else {
+ PERFETTO_DCHECK(sequence_state.sequence_id ==
+ packet.trusted_packet_sequence_id());
+ }
+#endif
+
+ perfetto::protos::pbzero::ClockSnapshot::Decoder snapshot(
+ packet.clock_snapshot());
+ for (auto it = snapshot.clocks(); it; ++it) {
+ perfetto::protos::pbzero::ClockSnapshot::Clock::Decoder clock(*it);
+ // TODO(mohitms) : Handle the incremental clock other than default one.
+ if (clock.is_incremental() &&
+ clock.clock_id() ==
+ internal::TrackEventIncrementalState::kClockIdIncremental) {
+ sequence_state.most_recent_absolute_time_ns =
+ clock.timestamp() * clock.unit_multiplier_ns();
+ break;
+ }
+ }
+
+ if (packet.sequence_flags() &
+ perfetto::protos::pbzero::TracePacket::SEQ_INCREMENTAL_STATE_CLEARED) {
+ // Convert any existing event names and categories on the stack to
+ // non-interned strings so we can look up their names even after the
+ // incremental state is gone.
+ for (auto& frame : sequence_state.track.stack) {
+ if (frame.name_iid) {
+ frame.name = sequence_state.event_names[frame.name_iid];
+ frame.name_iid = 0u;
+ }
+ if (frame.category_iid) {
+ frame.category = sequence_state.event_categories[frame.category_iid];
+ frame.category_iid = 0u;
+ }
+ }
+ sequence_state.event_names.clear();
+ sequence_state.event_categories.clear();
+ sequence_state.debug_annotation_names.clear();
+ sequence_state.track.uuid = 0u;
+ sequence_state.track.index = 0u;
+ }
+ if (packet.has_interned_data()) {
+ perfetto::protos::pbzero::InternedData::Decoder interned_data(
+ packet.interned_data());
+ for (auto it = interned_data.event_names(); it; it++) {
+ perfetto::protos::pbzero::EventName::Decoder entry(*it);
+ sequence_state.event_names[entry.iid()] = entry.name().ToStdString();
+ }
+ for (auto it = interned_data.event_categories(); it; it++) {
+ perfetto::protos::pbzero::EventCategory::Decoder entry(*it);
+ sequence_state.event_categories[entry.iid()] = entry.name().ToStdString();
+ }
+ for (auto it = interned_data.debug_annotation_names(); it; it++) {
+ perfetto::protos::pbzero::DebugAnnotationName::Decoder entry(*it);
+ sequence_state.debug_annotation_names[entry.iid()] =
+ entry.name().ToStdString();
+ }
+ }
+ if (packet.has_trace_packet_defaults()) {
+ perfetto::protos::pbzero::TracePacketDefaults::Decoder defaults(
+ packet.trace_packet_defaults());
+ if (defaults.has_track_event_defaults()) {
+ perfetto::protos::pbzero::TrackEventDefaults::Decoder
+ track_event_defaults(defaults.track_event_defaults());
+ sequence_state.track.uuid = track_event_defaults.track_uuid();
+ if (defaults.has_timestamp_clock_id())
+ sequence_state.default_clock_id = defaults.timestamp_clock_id();
+ }
+ }
+ if (packet.has_track_descriptor()) {
+ perfetto::protos::pbzero::TrackDescriptor::Decoder track_descriptor(
+ packet.track_descriptor());
+ auto* session_state = delegate.GetSessionState();
+ auto& track = session_state->tracks[track_descriptor.uuid()];
+ if (!track.index)
+ track.index = static_cast<uint32_t>(session_state->tracks.size() + 1);
+ track.uuid = track_descriptor.uuid();
+
+ track.name = track_descriptor.name().ToStdString();
+ track.pid = 0;
+ track.tid = 0;
+ if (track_descriptor.has_process()) {
+ perfetto::protos::pbzero::ProcessDescriptor::Decoder process(
+ track_descriptor.process());
+ track.pid = process.pid();
+ if (track.name.empty())
+ track.name = process.process_name().ToStdString();
+ } else if (track_descriptor.has_thread()) {
+ perfetto::protos::pbzero::ThreadDescriptor::Decoder thread(
+ track_descriptor.thread());
+ track.pid = thread.pid();
+ track.tid = thread.tid();
+ if (track.name.empty())
+ track.name = thread.thread_name().ToStdString();
+ }
+ delegate.OnTrackUpdated(track);
+
+ // Mirror properties to the default track of the sequence. Note that
+ // this does not catch updates to the default track written through other
+ // sequences.
+ if (track.uuid == sequence_state.track.uuid) {
+ sequence_state.track.index = track.index;
+ sequence_state.track.name = track.name;
+ sequence_state.track.pid = track.pid;
+ sequence_state.track.tid = track.tid;
+ sequence_state.track.user_data = track.user_data;
+ }
+ }
+}
+
+TrackEventStateTracker::ParsedTrackEvent::ParsedTrackEvent(
+ const perfetto::protos::pbzero::TrackEvent::Decoder& track_event_)
+ : track_event(track_event_) {}
+
+} // namespace perfetto
+// gen_amalgamated begin source: src/tracing/virtual_destructors.cc
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/tracing/internal/tracing_tls.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/tracing.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/tracing_backend.h"
+
+// This translation unit contains the definitions for the destructor of pure
+// virtual interfaces for the src/public:public target. The alternative would be
+// introducing a one-liner .cc file for each pure virtual interface, which is
+// overkill. This is for compliance with -Wweak-vtables.
+
+namespace perfetto {
+namespace internal {
+
+TracingTLS::~TracingTLS() {
+ // Avoid entering trace points while the thread is being torn down.
+ // This is the problem: when a thread exits, the at-thread-exit destroys the
+ // TracingTLS. As part of that the various TraceWriter for the active data
+ // sources are destroyd. A TraceWriter dtor will issue a PostTask on the IPC
+ // thread to issue a final flush and unregister its ID with the service.
+ // The PostTask, in chromium, might have a trace event that will try to
+ // re-enter the tracing system.
+ // We fix this by resetting the TLS key to the TracingTLS object that is
+ // being destroyed in the platform impl (platform_posix.cc,
+ // platform_windows.cc, chromium's platform.cc). We carefully rely on the fact
+ // that all the tracing path that will be invoked during thread exit will
+ // early out if |is_in_trace_point| == true and will not depend on the other
+ // TLS state that has been destroyed.
+ is_in_trace_point = true;
+}
+
+} // namespace internal
+
+TracingProducerBackend::~TracingProducerBackend() = default;
+TracingConsumerBackend::~TracingConsumerBackend() = default;
+TracingBackend::~TracingBackend() = default;
+
+} // namespace perfetto
+// gen_amalgamated begin source: src/android_stats/statsd_logging_helper.cc
+// gen_amalgamated begin header: src/android_stats/statsd_logging_helper.h
+// gen_amalgamated begin header: src/android_stats/perfetto_atoms.h
+/*
+ * Copyright (C) 2020 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef SRC_ANDROID_STATS_PERFETTO_ATOMS_H_
+#define SRC_ANDROID_STATS_PERFETTO_ATOMS_H_
+
+namespace perfetto {
+
+// This must match the values of the PerfettoUploadEvent enum in:
+// frameworks/proto_logging/stats/atoms.proto
+enum class PerfettoStatsdAtom {
+ kUndefined = 0,
+
+ // Checkpoints inside perfetto_cmd before tracing is finished.
+ kTraceBegin = 1,
+ kBackgroundTraceBegin = 2,
+ kOnConnect = 3,
+
+ // Guardrails inside perfetto_cmd before tracing is finished.
+ kOnTimeout = 16,
+ kCmdUserBuildTracingNotAllowed = 43,
+
+ // Checkpoints inside traced.
+ kTracedEnableTracing = 37,
+ kTracedStartTracing = 38,
+ kTracedDisableTracing = 39,
+ kTracedNotifyTracingDisabled = 40,
+
+ // Trigger checkpoints inside traced.
+ // These atoms are special because, along with the UUID,
+ // they log the trigger name.
+ kTracedTriggerStartTracing = 41,
+ kTracedTriggerStopTracing = 42,
+ kTracedTriggerCloneSnapshot = 53,
+
+ // Guardrails inside traced.
+ kTracedEnableTracingExistingTraceSession = 18,
+ kTracedEnableTracingTooLongTrace = 19,
+ kTracedEnableTracingInvalidTriggerTimeout = 20,
+ kTracedEnableTracingDurationWithTrigger = 21,
+ kTracedEnableTracingStopTracingWriteIntoFile = 22,
+ kTracedEnableTracingDuplicateTriggerName = 23,
+ kTracedEnableTracingInvalidDeferredStart = 24,
+ kTracedEnableTracingInvalidBufferSize = 25,
+ kTracedEnableTracingBufferSizeTooLarge = 26,
+ kTracedEnableTracingTooManyBuffers = 27,
+ kTracedEnableTracingDuplicateSessionName = 28,
+ kTracedEnableTracingSessionNameTooRecent = 29,
+ kTracedEnableTracingTooManySessionsForUid = 30,
+ kTracedEnableTracingTooManyConcurrentSessions = 31,
+ kTracedEnableTracingInvalidFdOutputFile = 32,
+ kTracedEnableTracingFailedToCreateFile = 33,
+ kTracedEnableTracingOom = 34,
+ kTracedEnableTracingUnknown = 35,
+ kTracedStartTracingInvalidSessionState = 36,
+ kTracedEnableTracingInvalidFilter = 47,
+ kTracedEnableTracingOobTargetBuffer = 48,
+ kTracedEnableTracingInvalidTriggerMode = 52,
+ kTracedEnableTracingInvalidBrFilename = 54,
+
+ // Checkpoints inside perfetto_cmd after tracing has finished.
+ kOnTracingDisabled = 4,
+ kFinalizeTraceAndExit = 11,
+ kCmdFwReportBegin = 49,
+ // Will be removed once incidentd is no longer used.
+ kUploadIncidentBegin = 8,
+ kNotUploadingEmptyTrace = 17,
+
+ // Guardrails inside perfetto_cmd after tracing has finished.
+ kCmdFwReportEmptyTrace = 50,
+ // Will be removed once incidentd is no longer used.
+ kUploadIncidentFailure = 10,
+
+ // "Successful" terminal states inside perfetto_cmd.
+ kCmdFwReportHandoff = 51,
+
+ // Deprecated as "success" is misleading; it simply means we were
+ // able to communicate with incidentd. Will be removed once
+ // incidentd is no longer used.
+ kUploadIncidentSuccess = 9,
+
+ // Contained trigger begin/success/failure. Replaced by
+ // |PerfettoTriggerAtom| to allow aggregation using a count metric
+ // and reduce spam.
+ // reserved 12, 13, 14;
+
+ // Contained that a guardrail in perfetto_cmd was hit. Replaced with
+ // kCmd* guardrails.
+ // reserved 15;
+
+ // Contained status of Dropbox uploads. Removed as Perfetto no
+ // longer supports uploading traces using Dropbox.
+ // reserved 5, 6, 7;
+
+ // Contained status of guardrail state initalization and upload limit in
+ // perfetto_cmd. Removed as perfetto no longer manages stateful guardrails
+ // reserved 44, 45, 46;
+};
+
+// This must match the values of the PerfettoTrigger::TriggerType enum in:
+// frameworks/proto_logging/stats/atoms.proto
+enum PerfettoTriggerAtom {
+ kUndefined = 0,
+
+ kCmdTrigger = 1,
+ kCmdTriggerFail = 2,
+
+ kTriggerPerfettoTrigger = 3,
+ kTriggerPerfettoTriggerFail = 4,
+
+ kTracedLimitProbability = 5,
+ kTracedLimitMaxPer24h = 6,
+
+ kProbesProducerTrigger = 7,
+ kProbesProducerTriggerFail = 8,
+};
+
+} // namespace perfetto
+
+#endif // SRC_ANDROID_STATS_PERFETTO_ATOMS_H_
+/*
+ * Copyright (C) 2020 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef SRC_ANDROID_STATS_STATSD_LOGGING_HELPER_H_
+#define SRC_ANDROID_STATS_STATSD_LOGGING_HELPER_H_
+
+#include <stdint.h>
+#include <string>
+#include <vector>
+
+// gen_amalgamated expanded: #include "src/android_stats/perfetto_atoms.h"
+
+namespace perfetto {
+namespace android_stats {
+
+// Functions in this file are only active on built in the Android
+// tree. On other platforms (including Android standalone and Chromium
+// on Android) these functions are a noop.
+
+// Logs the upload event to statsd if built in the Android tree.
+void MaybeLogUploadEvent(PerfettoStatsdAtom atom,
+ int64_t uuid_lsb,
+ int64_t uuid_msb,
+ const std::string& trigger_name = "");
+
+// Logs the trigger events to statsd if built in the Android tree.
+void MaybeLogTriggerEvent(PerfettoTriggerAtom atom, const std::string& trigger);
+
+// Logs the trigger events to statsd if built in the Android tree.
+void MaybeLogTriggerEvents(PerfettoTriggerAtom atom,
+ const std::vector<std::string>& triggers);
+
+} // namespace android_stats
+} // namespace perfetto
+
+#endif // SRC_ANDROID_STATS_STATSD_LOGGING_HELPER_H_
+/*
+ * Copyright (C) 2020 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "src/android_stats/statsd_logging_helper.h"
+
+#include <string>
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+// gen_amalgamated expanded: #include "perfetto/base/compiler.h"
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID) && \
+ PERFETTO_BUILDFLAG(PERFETTO_ANDROID_BUILD)
+// gen_amalgamated expanded: #include "src/android_internal/lazy_library_loader.h" // nogncheck
+// gen_amalgamated expanded: #include "src/android_internal/statsd_logging.h" // nogncheck
+#endif
+
+namespace perfetto {
+namespace android_stats {
+
+// Make sure we don't accidentally log on non-Android tree build. Note that even
+// removing this ifdef still doesn't make uploads work on OS_ANDROID.
+// PERFETTO_LAZY_LOAD will return a nullptr on non-Android and non-in-tree
+// builds as libperfetto_android_internal will not be available.
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID) && \
+ PERFETTO_BUILDFLAG(PERFETTO_ANDROID_BUILD)
+
+void MaybeLogUploadEvent(PerfettoStatsdAtom atom,
+ int64_t uuid_lsb,
+ int64_t uuid_msb,
+ const std::string& trigger_name) {
+ PERFETTO_LAZY_LOAD(android_internal::StatsdLogUploadEvent, log_event_fn);
+ if (log_event_fn) {
+ log_event_fn(atom, uuid_lsb, uuid_msb, trigger_name.c_str());
+ }
+}
+
+void MaybeLogTriggerEvent(PerfettoTriggerAtom atom,
+ const std::string& trigger_name) {
+ PERFETTO_LAZY_LOAD(android_internal::StatsdLogTriggerEvent, log_event_fn);
+ if (log_event_fn) {
+ log_event_fn(atom, trigger_name.c_str());
+ }
+}
+
+void MaybeLogTriggerEvents(PerfettoTriggerAtom atom,
+ const std::vector<std::string>& triggers) {
+ PERFETTO_LAZY_LOAD(android_internal::StatsdLogTriggerEvent, log_event_fn);
+ if (log_event_fn) {
+ for (const std::string& trigger_name : triggers) {
+ log_event_fn(atom, trigger_name.c_str());
+ }
+ }
+}
+
+#else
+void MaybeLogUploadEvent(PerfettoStatsdAtom,
+ int64_t,
+ int64_t,
+ const std::string&) {}
+void MaybeLogTriggerEvent(PerfettoTriggerAtom, const std::string&) {}
+void MaybeLogTriggerEvents(PerfettoTriggerAtom,
+ const std::vector<std::string>&) {}
+#endif
+
+} // namespace android_stats
+} // namespace perfetto
+// gen_amalgamated begin source: src/base/version.cc
+// gen_amalgamated begin header: include/perfetto/ext/base/version.h
+/*
+ * Copyright (C) 2020 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_BASE_VERSION_H_
+#define INCLUDE_PERFETTO_EXT_BASE_VERSION_H_
+
+namespace perfetto {
+namespace base {
+
+// The returned pointer is a static string and safe to pass around.
+// Returns a human readable string currently of the approximate form:
+// Perfetto v42.1-deadbeef0 (deadbeef03c641e4b4ea9cf38e9b5696670175a9)
+// However you should not depend on the format of this string.
+// It maybe not be possible to determine the version. In which case the
+// string will be of the approximate form:
+// Perfetto v0.0 (unknown)
+const char* GetVersionString();
+
+// The returned pointer is a static string and safe to pass around.
+// Returns the short code used to identity the version:
+// v42.1-deadbeef0
+// It maybe not be possible to determine the version. In which case
+// this returns nullptr.
+// This can be compared with equality to other
+// version codes to detect matched builds (for example to see if
+// trace_processor_shell and the UI were built at the same revision)
+// but you should not attempt to parse it as the format may change
+// without warning.
+const char* GetVersionCode();
+
+} // namespace base
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_BASE_VERSION_H_
+// gen_amalgamated begin header: gen/perfetto_version.gen.h
+// Generated by write_version_header.py
+
+#ifndef GEN_PERFETTO_VERSION_GEN_H_
+#define GEN_PERFETTO_VERSION_GEN_H_
+
+#define PERFETTO_VERSION_STRING() "v44.0-94bdc3da5"
+#define PERFETTO_VERSION_SCM_REVISION() "94bdc3da58ad5343e7db3c40fba76309103e342a"
+
+#endif // GEN_PERFETTO_VERSION_GEN_H_
+/*
+ * Copyright (C) 2020 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/version.h"
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+
+#include <stdio.h>
+
+#if PERFETTO_BUILDFLAG(PERFETTO_VERSION_GEN)
+// gen_amalgamated expanded: #include "perfetto_version.gen.h"
+#else
+#define PERFETTO_VERSION_STRING() nullptr
+#define PERFETTO_VERSION_SCM_REVISION() "unknown"
+#endif
+
+namespace perfetto {
+namespace base {
+
+const char* GetVersionCode() {
+ return PERFETTO_VERSION_STRING();
+}
+
+const char* GetVersionString() {
+ static const char* version_str = [] {
+ static constexpr size_t kMaxLen = 256;
+ const char* version_code = PERFETTO_VERSION_STRING();
+ if (version_code == nullptr) {
+ version_code = "v0.0";
+ }
+ char* version = new char[kMaxLen + 1];
+ snprintf(version, kMaxLen, "Perfetto %s (%s)", version_code,
+ PERFETTO_VERSION_SCM_REVISION());
+ return version;
+ }();
+ return version_str;
+}
+
+} // namespace base
+} // namespace perfetto
+// gen_amalgamated begin source: src/protozero/filtering/filter_bytecode_parser.cc
+// gen_amalgamated begin header: src/protozero/filtering/filter_bytecode_parser.h
+/*
+ * Copyright (C) 2021 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef SRC_PROTOZERO_FILTERING_FILTER_BYTECODE_PARSER_H_
+#define SRC_PROTOZERO_FILTERING_FILTER_BYTECODE_PARSER_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+#include <optional>
+#include <vector>
+
+namespace protozero {
+
+// Loads the proto-encoded bytecode in memory and allows fast lookups for tuples
+// (msg_index, field_id) to tell if a given field should be allowed or not and,
+// in the case of nested fields, what is the next message index to recurse into.
+// This class does two things:
+// 1. Expands the array of varint from the proto into a vector<uint32_t>. This
+// is to avoid performing varint decoding on every lookup, at the cost of
+// some extra memory (2KB-4KB). Note that the expanded vector is not just a
+// 1:1 copy of the proto one (more below). This is to avoid O(Fields) linear
+// lookup complexity.
+// 2. Creates an index of offsets to remember the start word for each message.
+// This is so we can jump to O(1) to the N-th message when recursing into a
+// nested fields, without having to scan and find the (N-1)-th END_OF_MESSAGE
+// marker.
+// Overall lookups are O(1) for field ids < 128 (kDirectlyIndexLimit) and O(N),
+// with N being the number of allowed field ranges for other fields.
+// See comments around |word_| below for the structure of the word vector.
+class FilterBytecodeParser {
+ public:
+ // Result of a Query() operation
+ struct QueryResult {
+ bool allowed; // Whether the field is allowed at all or no.
+
+ // If |allowed|==true && nested_msg_field() == true, this tells the message
+ // index of the nested field that should be used when recursing in the
+ // parser.
+ uint32_t nested_msg_index;
+
+ // If |allowed|==true, specifies if the field is of a simple type (varint,
+ // fixed32/64, string or byte).
+ bool simple_field() const { return nested_msg_index == kSimpleField; }
+
+ // If |allowed|==true, specifies if this field is a string field that needs
+ // to be filtered.
+ bool filter_string_field() const {
+ return nested_msg_index == kFilterStringField;
+ }
+
+ // If |allowed|==true, specifies if the field is a nested field that needs
+ // recursion. The caller is expected to use |nested_msg_index| for the next
+ // Query() calls.
+ bool nested_msg_field() const {
+ static_assert(kFilterStringField < kSimpleField,
+ "kFilterStringField < kSimpleField");
+ return nested_msg_index < kFilterStringField;
+ }
+ };
+
+ // Loads a filter. The filter data consists of a sequence of varints which
+ // contains the filter opcodes and a final checksum.
+ bool Load(const void* filter_data, size_t len);
+
+ // Checks wheter a given field is allowed or not.
+ // msg_index = 0 is the index of the root message, where all queries should
+ // start from (typically perfetto.protos.Trace).
+ QueryResult Query(uint32_t msg_index, uint32_t field_id) const;
+
+ void Reset();
+ void set_suppress_logs_for_fuzzer(bool x) { suppress_logs_for_fuzzer_ = x; }
+
+ private:
+ static constexpr uint32_t kDirectlyIndexLimit = 128;
+ static constexpr uint32_t kAllowed = 1u << 31u;
+ static constexpr uint32_t kSimpleField = 0x7fffffff;
+ static constexpr uint32_t kFilterStringField = 0x7ffffffe;
+
+ bool LoadInternal(const uint8_t* filter_data, size_t len);
+
+ // The state of all fields for all messages is stored in one contiguous array.
+ // This is to avoid memory fragmentation and allocator overhead.
+ // We expect a high number of messages (hundreds), but each message is small.
+ // For each message we store two sets of uint32:
+ // 1. A set of "directly indexed" fields, for field ids < 128.
+ // 2. The remainder is a set of ranges.
+ // So each message descriptor consists of a sequence of words as follows:
+ //
+ // [0] -> how many directly indexed fields are stored next (up to 128)
+ //
+ // [1..N] -> One word per field id (See "field state" below).
+ //
+ // [N + 1] -> Start of field id range 1
+ // [N + 2] -> End of field id range 1 (exclusive, STL-style).
+ // [N + 3] -> Field state for fields in range 1 (below)
+ //
+ // [N + 4] -> Start of field id range 2
+ // [N + 5] -> End of field id range 2 (exclusive, STL-style).
+ // [N + 6] -> Field state for fields in range 2 (below)
+
+ // The "field state" word is as follows:
+ // Bit 31: 1 if the field is allowed, 0 if disallowed.
+ // Only directly indexed fields can be 0 (it doesn't make sense to add
+ // a range and then say "btw it's NOT allowed".. don't add it then.
+ // 0 is only used for filling gaps in the directly indexed bucket.
+ // Bits [30..0] (only when MSB == allowed):
+ // 0x7fffffff: The field is "simple" (varint, fixed32/64, string, bytes) and
+ // can be directly passed through in output. No recursion is needed.
+ // 0x7ffffffe: The field is string field which needs to be filtered.
+ // [0, 7ffffffd]: The field is a nested submessage. The value is the index
+ // that must be passed as first argument to the next Query() calls.
+ // Note that the message index is purely a monotonic counter in the
+ std::vector<uint32_t> words_;
+
+ // One entry for each message index stored in the filter plus a sentinel at
+ // the end. Maps each message index to the offset in |words_| where the
+ // Nth message start.
+ // message_offset_.size() - 2 == the max message id that can be parsed.
+ std::vector<uint32_t> message_offset_;
+
+ bool suppress_logs_for_fuzzer_ = false;
+};
+
+} // namespace protozero
+
+#endif // SRC_PROTOZERO_FILTERING_FILTER_BYTECODE_PARSER_H_
+// gen_amalgamated begin header: src/protozero/filtering/filter_bytecode_common.h
+/*
+ * Copyright (C) 2021 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef SRC_PROTOZERO_FILTERING_FILTER_BYTECODE_COMMON_H_
+#define SRC_PROTOZERO_FILTERING_FILTER_BYTECODE_COMMON_H_
+
+#include <stdint.h>
+
+namespace protozero {
+
+enum FilterOpcode : uint32_t {
+ // The immediate value is 0 in this case.
+ kFilterOpcode_EndOfMessage = 0,
+
+ // The immediate value is the id of the allowed field.
+ kFilterOpcode_SimpleField = 1,
+
+ // The immediate value is the start of the range. The next word (without
+ // any shifting) is the length of the range.
+ kFilterOpcode_SimpleFieldRange = 2,
+
+ // The immediate value is the id of the allowed field. The next word
+ // (without any shifting) is the index of the filter that should be used to
+ // recurse into the nested message.
+ kFilterOpcode_NestedField = 3,
+
+ // The imediate value is the id of the allowed field. The behaviour of this
+ // opcode is the same as kFilterOpcode_SimpleField, with the further semantic
+ // that the field is a string and needs to be processed using the string
+ // filtering fules.
+ kFilterOpcode_FilterString = 4,
+};
+
+} // namespace protozero
+
+#endif // SRC_PROTOZERO_FILTERING_FILTER_BYTECODE_COMMON_H_
+/*
+ * Copyright (C) 2021 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "src/protozero/filtering/filter_bytecode_parser.h"
+
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/hash.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+// gen_amalgamated expanded: #include "src/protozero/filtering/filter_bytecode_common.h"
+
+namespace protozero {
+
+void FilterBytecodeParser::Reset() {
+ bool suppress = suppress_logs_for_fuzzer_;
+ *this = FilterBytecodeParser();
+ suppress_logs_for_fuzzer_ = suppress;
+}
+
+bool FilterBytecodeParser::Load(const void* filter_data, size_t len) {
+ Reset();
+ bool res = LoadInternal(static_cast<const uint8_t*>(filter_data), len);
+ // If load fails, don't leave the parser in a half broken state.
+ if (!res)
+ Reset();
+ return res;
+}
+
+bool FilterBytecodeParser::LoadInternal(const uint8_t* bytecode_data,
+ size_t len) {
+ // First unpack the varints into a plain uint32 vector, so it's easy to
+ // iterate through them and look ahead.
+ std::vector<uint32_t> words;
+ bool packed_parse_err = false;
+ words.reserve(len); // An overestimation, but avoids reallocations.
+ using BytecodeDecoder =
+ PackedRepeatedFieldIterator<proto_utils::ProtoWireType::kVarInt,
+ uint32_t>;
+ for (BytecodeDecoder it(bytecode_data, len, &packed_parse_err); it; ++it)
+ words.emplace_back(*it);
+
+ if (packed_parse_err || words.empty())
+ return false;
+
+ perfetto::base::Hasher hasher;
+ for (size_t i = 0; i < words.size() - 1; ++i)
+ hasher.Update(words[i]);
+
+ uint32_t expected_csum = static_cast<uint32_t>(hasher.digest());
+ if (expected_csum != words.back()) {
+ if (!suppress_logs_for_fuzzer_) {
+ PERFETTO_ELOG("Filter bytecode checksum failed. Expected: %x, actual: %x",
+ expected_csum, words.back());
+ }
+ return false;
+ }
+
+ words.pop_back(); // Pop the checksum.
+
+ // Temporay storage for each message. Cleared on every END_OF_MESSAGE.
+ std::vector<uint32_t> direct_indexed_fields;
+ std::vector<uint32_t> ranges;
+ uint32_t max_msg_index = 0;
+
+ auto add_directly_indexed_field = [&](uint32_t field_id, uint32_t msg_id) {
+ PERFETTO_DCHECK(field_id > 0 && field_id < kDirectlyIndexLimit);
+ direct_indexed_fields.resize(std::max(direct_indexed_fields.size(),
+ static_cast<size_t>(field_id) + 1));
+ direct_indexed_fields[field_id] = kAllowed | msg_id;
+ };
+
+ auto add_range = [&](uint32_t id_start, uint32_t id_end, uint32_t msg_id) {
+ PERFETTO_DCHECK(id_end > id_start);
+ PERFETTO_DCHECK(id_start >= kDirectlyIndexLimit);
+ ranges.emplace_back(id_start);
+ ranges.emplace_back(id_end);
+ ranges.emplace_back(kAllowed | msg_id);
+ };
+
+ bool is_eom = true;
+ for (size_t i = 0; i < words.size(); ++i) {
+ const uint32_t word = words[i];
+ const bool has_next_word = i < words.size() - 1;
+ const uint32_t opcode = word & 0x7u;
+ const uint32_t field_id = word >> 3;
+
+ is_eom = opcode == kFilterOpcode_EndOfMessage;
+ if (field_id == 0 && opcode != kFilterOpcode_EndOfMessage) {
+ PERFETTO_DLOG("bytecode error @ word %zu, invalid field id (0)", i);
+ return false;
+ }
+
+ if (opcode == kFilterOpcode_SimpleField ||
+ opcode == kFilterOpcode_NestedField ||
+ opcode == kFilterOpcode_FilterString) {
+ // Field words are organized as follow:
+ // MSB: 1 if allowed, 0 if not allowed.
+ // Remaining bits:
+ // Message index in the case of nested (non-simple) messages.
+ // 0x7f..e in the case of string fields which need filtering.
+ // 0x7f..f in the case of simple fields.
+ uint32_t msg_id;
+ if (opcode == kFilterOpcode_SimpleField) {
+ msg_id = kSimpleField;
+ } else if (opcode == kFilterOpcode_FilterString) {
+ msg_id = kFilterStringField;
+ } else { // FILTER_OPCODE_NESTED_FIELD
+ // The next word in the bytecode contains the message index.
+ if (!has_next_word) {
+ PERFETTO_DLOG("bytecode error @ word %zu: unterminated nested field",
+ i);
+ return false;
+ }
+ msg_id = words[++i];
+ max_msg_index = std::max(max_msg_index, msg_id);
+ }
+
+ if (field_id < kDirectlyIndexLimit) {
+ add_directly_indexed_field(field_id, msg_id);
+ } else {
+ // In the case of a large field id (rare) we waste an extra word and
+ // represent it as a range. Doesn't make sense to introduce extra
+ // complexity to deal with rare cases like this.
+ add_range(field_id, field_id + 1, msg_id);
+ }
+ } else if (opcode == kFilterOpcode_SimpleFieldRange) {
+ if (!has_next_word) {
+ PERFETTO_DLOG("bytecode error @ word %zu: unterminated range", i);
+ return false;
+ }
+ const uint32_t range_len = words[++i];
+ const uint32_t range_end = field_id + range_len; // STL-style, excl.
+ uint32_t id = field_id;
+
+ // Here's the subtle complexity: at the bytecode level, we don't know
+ // anything about the kDirectlyIndexLimit. It is legit to define a range
+ // that spans across the direct-indexing threshold (e.g. 126-132). In that
+ // case we want to add all the elements < the indexing to the O(1) bucket
+ // and add only the remaining range as a non-indexed range.
+ for (; id < range_end && id < kDirectlyIndexLimit; ++id)
+ add_directly_indexed_field(id, kAllowed | kSimpleField);
+ PERFETTO_DCHECK(id >= kDirectlyIndexLimit || id == range_end);
+ if (id < range_end)
+ add_range(id, range_end, kSimpleField);
+ } else if (opcode == kFilterOpcode_EndOfMessage) {
+ // For each message append:
+ // 1. The "header" word telling how many directly indexed fields there
+ // are.
+ // 2. The words for the directly indexed fields (id < 128).
+ // 3. The rest of the fields, encoded as ranges.
+ // Also update the |message_offset_| index to remember the word offset for
+ // the current message.
+ message_offset_.emplace_back(static_cast<uint32_t>(words_.size()));
+ words_.emplace_back(static_cast<uint32_t>(direct_indexed_fields.size()));
+ words_.insert(words_.end(), direct_indexed_fields.begin(),
+ direct_indexed_fields.end());
+ words_.insert(words_.end(), ranges.begin(), ranges.end());
+ direct_indexed_fields.clear();
+ ranges.clear();
+ } else {
+ PERFETTO_DLOG("bytecode error @ word %zu: invalid opcode (%x)", i, word);
+ return false;
+ }
+ } // (for word in bytecode).
+
+ if (!is_eom) {
+ PERFETTO_DLOG(
+ "bytecode error: end of message not the last word in the bytecode");
+ return false;
+ }
+
+ if (max_msg_index > 0 && max_msg_index >= message_offset_.size()) {
+ PERFETTO_DLOG(
+ "bytecode error: a message index (%u) is out of range "
+ "(num_messages=%zu)",
+ max_msg_index, message_offset_.size());
+ return false;
+ }
+
+ // Add a final entry to |message_offset_| so we can tell where the last
+ // message ends without an extra branch in the Query() hotpath.
+ message_offset_.emplace_back(static_cast<uint32_t>(words_.size()));
+
+ return true;
+}
+
+FilterBytecodeParser::QueryResult FilterBytecodeParser::Query(
+ uint32_t msg_index,
+ uint32_t field_id) const {
+ FilterBytecodeParser::QueryResult res{false, 0u};
+ if (static_cast<uint64_t>(msg_index) + 1 >=
+ static_cast<uint64_t>(message_offset_.size())) {
+ return res;
+ }
+ const uint32_t start_offset = message_offset_[msg_index];
+ // These are DCHECKs and not just CHECKS because the |words_| is populated
+ // by the LoadInternal call above. These cannot be violated with a malformed
+ // bytecode.
+ PERFETTO_DCHECK(start_offset < words_.size());
+ const uint32_t* word = &words_[start_offset];
+ const uint32_t end_off = message_offset_[msg_index + 1];
+ const uint32_t* const end = words_.data() + end_off;
+ PERFETTO_DCHECK(end > word && end <= words_.data() + words_.size());
+ const uint32_t num_directly_indexed = *(word++);
+ PERFETTO_DCHECK(num_directly_indexed <= kDirectlyIndexLimit);
+ PERFETTO_DCHECK(word + num_directly_indexed <= end);
+ uint32_t field_state = 0;
+ if (PERFETTO_LIKELY(field_id < num_directly_indexed)) {
+ PERFETTO_DCHECK(&word[field_id] < end);
+ field_state = word[field_id];
+ } else {
+ for (word = word + num_directly_indexed; word + 2 < end;) {
+ const uint32_t range_start = *(word++);
+ const uint32_t range_end = *(word++);
+ const uint32_t range_state = *(word++);
+ if (field_id >= range_start && field_id < range_end) {
+ field_state = range_state;
+ break;
+ }
+ } // for (word in ranges)
+ } // if (field_id >= num_directly_indexed)
+
+ res.allowed = (field_state & kAllowed) != 0;
+ res.nested_msg_index = field_state & ~kAllowed;
+ PERFETTO_DCHECK(!res.nested_msg_field() ||
+ res.nested_msg_index < message_offset_.size() - 1);
+ return res;
+}
+
+} // namespace protozero
+// gen_amalgamated begin source: src/protozero/filtering/string_filter.cc
+// gen_amalgamated begin header: src/protozero/filtering/string_filter.h
+/*
+ * Copyright (C) 2023 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef SRC_PROTOZERO_FILTERING_STRING_FILTER_H_
+#define SRC_PROTOZERO_FILTERING_STRING_FILTER_H_
+
+#include <regex>
+#include <string>
+#include <string_view>
+
+namespace protozero {
+
+// Performs filtering of strings in an "iptables" style. See the comments in
+// |TraceConfig.TraceFilter| for information on how this class works.
+class StringFilter {
+ public:
+ enum class Policy {
+ kMatchRedactGroups = 1,
+ kAtraceMatchRedactGroups = 2,
+ kMatchBreak = 3,
+ kAtraceMatchBreak = 4,
+ kAtraceRepeatedSearchRedactGroups = 5,
+ };
+
+ // Adds a new rule for filtering strings.
+ void AddRule(Policy policy,
+ std::string_view pattern,
+ std::string atrace_payload_starts_with);
+
+ // Tries to filter the given string. Returns true if the string was modified
+ // in any way, false otherwise.
+ bool MaybeFilter(char* ptr, size_t len) const {
+ if (len == 0 || rules_.empty()) {
+ return false;
+ }
+ return MaybeFilterInternal(ptr, len);
+ }
+
+ private:
+ struct Rule {
+ Policy policy;
+ std::regex pattern;
+ std::string atrace_payload_starts_with;
+ };
+
+ bool MaybeFilterInternal(char* ptr, size_t len) const;
+
+ std::vector<Rule> rules_;
+};
+
+} // namespace protozero
+
+#endif // SRC_PROTOZERO_FILTERING_STRING_FILTER_H_
+/*
+ * Copyright (C) 2023 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "src/protozero/filtering/string_filter.h"
+
+#include <cstring>
+#include <regex>
+#include <string_view>
+
+// gen_amalgamated expanded: #include "perfetto/base/compiler.h"
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/string_view.h"
+// gen_amalgamated expanded: #include "perfetto/public/compiler.h"
+
+namespace protozero {
+namespace {
+
+using Matches = std::match_results<char*>;
+
+static constexpr std::string_view kRedacted = "P60REDACTED";
+static constexpr char kRedactedDash = '-';
+
+// Returns a pointer to the first character after the tgid pipe character in
+// the atrace string given by [ptr, end). Returns null if no such character
+// exists.
+//
+// Examples:
+// E|1024 -> nullptr
+// foobarbaz -> nullptr
+// B|1024|x -> pointer to x
+const char* FindAtracePayloadPtr(const char* ptr, const char* end) {
+ // Don't even bother checking any strings which are so short that they could
+ // not contain a post-tgid section. This filters out strings like "E|" which
+ // emitted by Bionic.
+ //
+ // Also filter out any other strings starting with "E" as they never contain
+ // anything past the tgid: this removes >half of the strings for ~zero cost.
+ static constexpr size_t kEarliestSecondPipeIndex = 2;
+ const char* search_start = ptr + kEarliestSecondPipeIndex;
+ if (search_start >= end || *ptr == 'E') {
+ return nullptr;
+ }
+
+ // We skipped past the first '|' character by starting at the character at
+ // index 2. Just find the next pipe character (i.e. the one after tgid) using
+ // memchr.
+ const char* pipe = static_cast<const char*>(
+ memchr(search_start, '|', size_t(end - search_start)));
+ return pipe ? pipe + 1 : nullptr;
+}
+
+bool StartsWith(const char* ptr,
+ const char* end,
+ const std::string& starts_with) {
+ // Verify that the atrace string has enough characters to match against all
+ // the characters in the "starts with" string. If it does, memcmp to check if
+ // all the characters match and return true if they do.
+ return ptr + starts_with.size() <= end &&
+ memcmp(ptr, starts_with.data(), starts_with.size()) == 0;
+}
+
+void RedactMatches(const Matches& matches) {
+ // Go through every group in the matches.
+ for (size_t i = 1; i < matches.size(); ++i) {
+ const auto& match = matches[i];
+ PERFETTO_CHECK(match.second >= match.first);
+
+ // Overwrite the match with characters from |kRedacted|. If match is
+ // smaller, we will not use all of |kRedacted| but that's fine (i.e. we
+ // will overwrite with a truncated |kRedacted|).
+ size_t match_len = static_cast<size_t>(match.second - match.first);
+ size_t redacted_len = std::min(match_len, kRedacted.size());
+ memcpy(match.first, kRedacted.data(), redacted_len);
+
+ // Overwrite any characters after |kRedacted| with |kRedactedDash|.
+ memset(match.first + redacted_len, kRedactedDash, match_len - redacted_len);
+ }
+}
+
+} // namespace
+
+void StringFilter::AddRule(Policy policy,
+ std::string_view pattern_str,
+ std::string atrace_payload_starts_with) {
+ rules_.emplace_back(StringFilter::Rule{
+ policy,
+ std::regex(pattern_str.begin(), pattern_str.end(),
+ std::regex::ECMAScript | std::regex_constants::optimize),
+ std::move(atrace_payload_starts_with)});
+}
+
+bool StringFilter::MaybeFilterInternal(char* ptr, size_t len) const {
+ std::match_results<char*> matches;
+ bool atrace_find_tried = false;
+ const char* atrace_payload_ptr = nullptr;
+ for (const Rule& rule : rules_) {
+ switch (rule.policy) {
+ case Policy::kMatchRedactGroups:
+ case Policy::kMatchBreak:
+ if (std::regex_match(ptr, ptr + len, matches, rule.pattern)) {
+ if (rule.policy == Policy::kMatchBreak) {
+ return false;
+ }
+ RedactMatches(matches);
+ return true;
+ }
+ break;
+ case Policy::kAtraceMatchRedactGroups:
+ case Policy::kAtraceMatchBreak:
+ atrace_payload_ptr = atrace_find_tried
+ ? atrace_payload_ptr
+ : FindAtracePayloadPtr(ptr, ptr + len);
+ atrace_find_tried = true;
+ if (atrace_payload_ptr &&
+ StartsWith(atrace_payload_ptr, ptr + len,
+ rule.atrace_payload_starts_with) &&
+ std::regex_match(ptr, ptr + len, matches, rule.pattern)) {
+ if (rule.policy == Policy::kAtraceMatchBreak) {
+ return false;
+ }
+ RedactMatches(matches);
+ return true;
+ }
+ break;
+ case Policy::kAtraceRepeatedSearchRedactGroups:
+ atrace_payload_ptr = atrace_find_tried
+ ? atrace_payload_ptr
+ : FindAtracePayloadPtr(ptr, ptr + len);
+ atrace_find_tried = true;
+ if (atrace_payload_ptr && StartsWith(atrace_payload_ptr, ptr + len,
+ rule.atrace_payload_starts_with)) {
+ auto beg = std::regex_iterator<char*>(ptr, ptr + len, rule.pattern);
+ auto end = std::regex_iterator<char*>();
+ bool has_any_matches = beg != end;
+ for (auto it = std::move(beg); it != end; ++it) {
+ RedactMatches(*it);
+ }
+ if (has_any_matches) {
+ return true;
+ }
+ }
+ break;
+ }
+ }
+ return false;
+}
+
+} // namespace protozero
+// gen_amalgamated begin source: src/protozero/filtering/message_filter.cc
+// gen_amalgamated begin header: src/protozero/filtering/message_filter.h
+// gen_amalgamated begin header: src/protozero/filtering/message_tokenizer.h
+/*
+ * Copyright (C) 2021 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef SRC_PROTOZERO_FILTERING_MESSAGE_TOKENIZER_H_
+#define SRC_PROTOZERO_FILTERING_MESSAGE_TOKENIZER_H_
+
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/base/compiler.h"
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace protozero {
+
+// A helper class for schema-less tokenizing of protobuf messages.
+// This class takes a stream of proto-encoded bytes, pushed one by one in input
+// via Push(octet), and returns a stream of tokens (each Push() call can return
+// 0 or 1 token).
+// A "token" contains metadata about a field, specifically: its ID, its wire
+// type and:
+// - For varint and fixed32/64 fields: its payload.
+// - For string and bytes fields: the length of its payload.
+// In this case the caller is supposed to "eat" those N bytes before calling
+// Push() again.
+// Note that this class cannot differentiate between a string/bytes field or
+// a submessage, because they are encoded in the same way. The caller is
+// supposed to know whether a field can be recursed into by just keep calling
+// Push() or is a string that should be skipped.
+// This is inline to allow the compiler to see through the Push method and
+// avoid a function call for each byte.
+class MessageTokenizer {
+ public:
+ struct Token {
+ uint32_t field_id; // 0 == not valid.
+ proto_utils::ProtoWireType type;
+
+ // For kLengthDelimited, |value| represent the length of the payload.
+ uint64_t value;
+
+ inline bool valid() const { return field_id != 0; }
+ bool operator==(const Token& o) const {
+ return field_id == o.field_id && type == o.type && value == o.value;
+ }
+ };
+
+ // Pushes a byte in input and returns a token, only when getting to the last
+ // byte of each field. Specifically:
+ // - For varint and fixed32 fields, the Token is returned after the last byte
+ // of the numeric payload is pushed.
+ // - For length-delimited fields, this returns after the last byte of the
+ // length is pushed (i.e. right before the payload starts). The caller is
+ // expected to either skip the next |value| bytes (in the case of a string
+ // or bytes fields) or keep calling Push, in the case of a submessage.
+ inline Token Push(uint8_t octet) {
+ using protozero::proto_utils::ProtoWireType;
+
+ // Parsing a fixed32/64 field is the only case where we don't have to do
+ // any varint decoding. This is why this block is before the remaining
+ // switch statement below (all the rest is a varint).
+ if (PERFETTO_UNLIKELY(state_ == kFixedIntValue)) {
+ PERFETTO_DCHECK(fixed_int_bits_ == 32 || fixed_int_bits_ == 64);
+ fixed_int_value_ |= static_cast<uint64_t>(octet) << fixed_int_shift_;
+ fixed_int_shift_ += 8;
+ if (fixed_int_shift_ < fixed_int_bits_)
+ return Token{}; // Intermediate byte of a fixed32/64.
+ auto wire_type = fixed_int_bits_ == 32 ? ProtoWireType::kFixed32
+ : ProtoWireType::kFixed64;
+ uint64_t fixed_int_value = fixed_int_value_;
+ fixed_int_value_ = fixed_int_shift_ = fixed_int_bits_ = 0;
+ state_ = kFieldPreamble;
+ return Token{field_id_, wire_type, fixed_int_value};
+ }
+
+ // At this point either we are: (i) parsing a field preamble; (ii) parsing a
+ // varint field paylod; (iii) parsing the length of a length-delimited
+ // field. In all cases, we need to decode a varint before proceeding.
+ varint_ |= static_cast<uint64_t>(octet & 0x7F) << varint_shift_;
+ if (octet & 0x80) {
+ varint_shift_ += 7;
+ if (PERFETTO_UNLIKELY(varint_shift_ >= 64)) {
+ varint_shift_ = 0;
+ state_ = kInvalidVarInt;
+ }
+ return Token{}; // Still parsing a varint.
+ }
+
+ uint64_t varint = varint_;
+ varint_ = 0;
+ varint_shift_ = 0;
+
+ switch (state_) {
+ case kFieldPreamble: {
+ auto field_type = static_cast<uint32_t>(varint & 7u); // 7 = 0..0111
+ field_id_ = static_cast<uint32_t>(varint >> 3);
+
+ // The field type is legit, now check it's well formed and within
+ // boundaries.
+ if (field_type == static_cast<uint32_t>(ProtoWireType::kVarInt)) {
+ state_ = kVarIntValue;
+ } else if (field_type ==
+ static_cast<uint32_t>(ProtoWireType::kFixed32) ||
+ field_type ==
+ static_cast<uint32_t>(ProtoWireType::kFixed64)) {
+ state_ = kFixedIntValue;
+ fixed_int_shift_ = 0;
+ fixed_int_value_ = 0;
+ fixed_int_bits_ =
+ field_type == static_cast<uint32_t>(ProtoWireType::kFixed32) ? 32
+ : 64;
+ } else if (field_type ==
+ static_cast<uint32_t>(ProtoWireType::kLengthDelimited)) {
+ state_ = kLenDelimited;
+ } else {
+ state_ = kInvalidFieldType;
+ }
+ return Token{};
+ }
+
+ case kVarIntValue: {
+ // Return the varint field payload and go back to the next field.
+ state_ = kFieldPreamble;
+ return Token{field_id_, ProtoWireType::kVarInt, varint};
+ }
+
+ case kLenDelimited: {
+ const auto payload_len = varint;
+ if (payload_len > protozero::proto_utils::kMaxMessageLength) {
+ state_ = kMessageTooBig;
+ return Token{};
+ }
+ state_ = kFieldPreamble;
+ // At this point the caller is expected to consume the next
+ // |payload_len| bytes.
+ return Token{field_id_, ProtoWireType::kLengthDelimited, payload_len};
+ }
+
+ case kFixedIntValue:
+ // Unreacheable because of the if before the switch.
+ PERFETTO_DCHECK(false);
+ break;
+
+ // Unrecoverable error states.
+ case kInvalidFieldType:
+ case kMessageTooBig:
+ case kInvalidVarInt:
+ break;
+ } // switch(state_)
+
+ return Token{}; // Keep GCC happy.
+ }
+
+ // Returns true if the tokenizer FSM has reached quiescence (i.e. if we are
+ // NOT in the middle of parsing a field).
+ bool idle() const {
+ return state_ == kFieldPreamble && varint_shift_ == 0 &&
+ fixed_int_shift_ == 0;
+ }
+
+ // Only for reporting parser errors in the trace.
+ uint32_t state() const { return static_cast<uint32_t>(state_); }
+
+ private:
+ enum State {
+ kFieldPreamble = 0, // Parsing the varint for the field preamble.
+ kVarIntValue = 1, // Parsing the payload of a varint field.
+ kFixedIntValue = 2, // Parsing the payload of a fixed32/64 field.
+ kLenDelimited = 3, // Parsing the length of a length-delimited field.
+
+ // Unrecoverable error states:
+ kInvalidFieldType = 4, // Encountered an invalid field type.
+ kMessageTooBig = 5, // Size of the length delimited message was too big.
+ kInvalidVarInt = 6, // Varint larger than 64 bits.
+ };
+
+ State state_ = kFieldPreamble;
+ uint32_t field_id_ = 0;
+ uint64_t varint_ = 0;
+ uint32_t varint_shift_ = 0;
+ uint32_t fixed_int_shift_ = 0;
+ uint32_t fixed_int_bits_ = 0;
+ uint64_t fixed_int_value_ = 0;
+};
+
+} // namespace protozero
+
+#endif // SRC_PROTOZERO_FILTERING_MESSAGE_TOKENIZER_H_
+/*
+ * Copyright (C) 2021 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef SRC_PROTOZERO_FILTERING_MESSAGE_FILTER_H_
+#define SRC_PROTOZERO_FILTERING_MESSAGE_FILTER_H_
+
+#include <stdint.h>
+
+#include <memory>
+#include <string>
+#include <unordered_map>
+
+// gen_amalgamated expanded: #include "src/protozero/filtering/filter_bytecode_parser.h"
+// gen_amalgamated expanded: #include "src/protozero/filtering/message_tokenizer.h"
+// gen_amalgamated expanded: #include "src/protozero/filtering/string_filter.h"
+
+namespace protozero {
+
+// A class to filter binary-encoded proto messages using an allow-list of field
+// ids, also known as "filter bytecode". The filter determines which fields are
+// allowed to be passed through in output and strips all the other fields.
+// See go/trace-filtering for full design.
+// This class takes in input:
+// 1) The filter bytecode, loaded once via the LoadFilterBytecode() method.
+// 2) A proto-encoded binary message. The message doesn't have to be contiguous,
+// it can be passed as an array of arbitrarily chunked fragments.
+// The FilterMessage*() method returns in output a proto message, stripping out
+// all unknown fields. If the input is malformed (e.g., unknown proto field wire
+// types, lengths out of bound) the whole filtering failed and the |error| flag
+// of the FilteredMessage object is set to true.
+// The filtering operation is based on rewriting a copy of the message into a
+// self-allocated buffer, which is then returned in the output. The input buffer
+// is NOT altered.
+// Note also that the process of rewriting the protos gets rid of most redundant
+// varint encoding (if present). So even if all fields are allow-listed, the
+// output might NOT be bitwise identical to the input (but it will be
+// semantically equivalent).
+// Furthermore the enable_field_usage_tracking() method allows to keep track of
+// a histogram of allowed / denied fields. It slows down filtering and is
+// intended only on host tools.
+class MessageFilter {
+ public:
+ class Config {
+ public:
+ bool LoadFilterBytecode(const void* filter_data, size_t len);
+ bool SetFilterRoot(std::initializer_list<uint32_t> field_ids);
+
+ const FilterBytecodeParser& filter() const { return filter_; }
+ const StringFilter& string_filter() const { return string_filter_; }
+ StringFilter& string_filter() { return string_filter_; }
+ uint32_t root_msg_index() const { return root_msg_index_; }
+
+ private:
+ FilterBytecodeParser filter_;
+ StringFilter string_filter_;
+ uint32_t root_msg_index_ = 0;
+ };
+
+ MessageFilter();
+ explicit MessageFilter(Config);
+ ~MessageFilter();
+
+ struct InputSlice {
+ const void* data;
+ size_t len;
+ };
+
+ struct FilteredMessage {
+ FilteredMessage(std::unique_ptr<uint8_t[]> d, size_t s)
+ : data(std::move(d)), size(s) {}
+ std::unique_ptr<uint8_t[]> data;
+ size_t size; // The used bytes in |data|. This is <= sizeof(data).
+ bool error = false;
+ };
+
+ // Loads the filter bytecode that will be used to filter any subsequent
+ // message. Must be called before the first call to FilterMessage*().
+ // |filter_data| must point to a byte buffer for a proto-encoded ProtoFilter
+ // message (see proto_filter.proto).
+ bool LoadFilterBytecode(const void* filter_data, size_t len) {
+ return config_.LoadFilterBytecode(filter_data, len);
+ }
+
+ // This affects the filter starting point of the subsequent FilterMessage*()
+ // calls. By default the filtering process starts from the message @ index 0,
+ // the root message passed to proto_filter when generating the bytecode
+ // (in typical tracing use-cases, this is perfetto.protos.Trace). However, the
+ // caller (TracingServiceImpl) might want to filter packets from the 2nd level
+ // (perfetto.protos.TracePacket) because the root level is pre-pended after
+ // the fact. This call allows to change the root message for the filter.
+ // The argument |field_ids| is an array of proto field ids and determines the
+ // path to the new root. For instance, in the case of [1,2,3] SetFilterRoot
+ // will identify the sub-message for the field "root.1.2.3" and use that.
+ // In order for this to succeed all the fields in the path must be allowed
+ // in the filter and must be a nested message type.
+ bool SetFilterRoot(std::initializer_list<uint32_t> field_ids) {
+ return config_.SetFilterRoot(field_ids);
+ }
+
+ // Takes an input message, fragmented in arbitrary slices, and returns a
+ // filtered message in output.
+ FilteredMessage FilterMessageFragments(const InputSlice*, size_t num_slices);
+
+ // Helper for tests, where the input is a contiguous buffer.
+ FilteredMessage FilterMessage(const void* data, size_t len) {
+ InputSlice slice{data, len};
+ return FilterMessageFragments(&slice, 1);
+ }
+
+ // When enabled returns a map of "field path" to "usage counter".
+ // The key (std::string) is a binary buffer (i.e. NOT an ASCII/UTF-8 string)
+ // which contains a varint for each field. Consider the following:
+ // message Root { Sub1 f1 = 1; };
+ // message Sub1 { Sub2 f2 = 7;}
+ // message Sub2 { string f3 = 5; }
+ // The field .f1.f2.f3 will be encoded as \x01\0x07\x05.
+ // The value is the number of times that field has been encountered. If the
+ // field is not allow-listed in the bytecode (the field is stripped in output)
+ // the count will be negative.
+ void enable_field_usage_tracking(bool x) { track_field_usage_ = x; }
+ const std::unordered_map<std::string, int32_t>& field_usage() const {
+ return field_usage_;
+ }
+
+ const Config& config() const { return config_; }
+
+ // Retuns the helper class used to perform string filtering.
+ StringFilter& string_filter() { return config_.string_filter(); }
+
+ private:
+ // This is called by FilterMessageFragments().
+ // Inlining allows the compiler turn the per-byte call/return into a for loop,
+ // while, at the same time, keeping the code easy to read and reason about.
+ // It gives a 20-25% speedup (265ms vs 215ms for a 25MB trace).
+ void FilterOneByte(uint8_t octet) PERFETTO_ALWAYS_INLINE;
+
+ // No-inline because this is a slowpath (only when usage tracking is enabled).
+ void IncrementCurrentFieldUsage(uint32_t field_id,
+ bool allowed) PERFETTO_NO_INLINE;
+
+ // Gets into an error state which swallows all the input and emits no output.
+ void SetUnrecoverableErrorState();
+
+ // We keep track of the nest of messages in a stack. Each StackState
+ // object corresponds to a level of nesting in the proto message structure.
+ // Every time a new field of type len-delimited that has a corresponding
+ // sub-message in the bytecode is encountered, a new StackState is pushed in
+ // |stack_|. stack_[0] is a sentinel to prevent over-popping without adding
+ // extra branches in the fastpath.
+ // |stack_|. stack_[1] is the state of the root message.
+ struct StackState {
+ uint32_t in_bytes = 0; // Number of input bytes processed.
+
+ // When |in_bytes| reaches this value, the current state should be popped.
+ // This is set when recursing into nested submessages. This is 0 only for
+ // stack_[0] (we don't know the size of the root message upfront).
+ uint32_t in_bytes_limit = 0;
+
+ // This is set when a len-delimited message is encountered, either a string
+ // or a nested submessage that is NOT allow-listed in the bytecode.
+ // This causes input bytes to be consumed without being parsed from the
+ // input stream. If |passthrough_eaten_bytes| == true, they will be copied
+ // as-is in output (e.g. in the case of an allowed string/bytes field).
+ uint32_t eat_next_bytes = 0;
+
+ // Keeps tracks of the stream_writer output counter (out_.written()) then
+ // the StackState is pushed. This is used to work out, when popping, how
+ // many bytes have been written for the current submessage.
+ uint32_t out_bytes_written_at_start = 0;
+
+ uint32_t field_id = 0; // The proto field id for the current message.
+ uint32_t msg_index = 0; // The index of the message filter in the bytecode.
+
+ // This is a pointer to the proto preamble for the current submessage
+ // (it's nullptr for stack_[0] and non-null elsewhere). This will be filled
+ // with the actual size of the message (out_.written() -
+ // |out_bytes_written_at_start|) when finishing (popping) the message.
+ // This must be filled using WriteRedundantVarint(). Note that the
+ // |size_field_len| is variable and depends on the actual length of the
+ // input message. If the output message has roughly the same size of the
+ // input message, the length will not be redundant.
+ // In other words: the length of the field is reserved when the submessage
+ // starts. At that point we know the upper-bound for the output message
+ // (a filtered submessage can be <= the original one, but not >). So we
+ // reserve as many bytes it takes to write the input length in varint.
+ // Then, when the message is finalized and we know the actual output size
+ // we backfill the field.
+ // Consider the example of a submessage where the input size = 130 (>127,
+ // 2 varint bytes) and the output is 120 bytes. The length will be 2 bytes
+ // wide even though could have been encoded with just one byte.
+ uint8_t* size_field = nullptr;
+ uint32_t size_field_len = 0;
+
+ // The pointer to the start of the string to update the string if it is
+ // filtered.
+ uint8_t* filter_string_ptr = nullptr;
+
+ // How |eat_next_bytes| should be handled. It seems that keeping this field
+ // at the end rather than next to |eat_next_bytes| makes the filter a little
+ // (but measurably) faster. (likely something related with struct layout vs
+ // cache sizes).
+ enum FilterAction {
+ kDrop,
+ kPassthrough,
+ kFilterString,
+ };
+ FilterAction action = FilterAction::kDrop;
+ };
+
+ uint32_t out_written() { return static_cast<uint32_t>(out_ - &out_buf_[0]); }
+
+ Config config_;
+
+ std::unique_ptr<uint8_t[]> out_buf_;
+ uint8_t* out_ = nullptr;
+ uint8_t* out_end_ = nullptr;
+
+ MessageTokenizer tokenizer_;
+ std::vector<StackState> stack_;
+
+ bool error_ = false;
+ bool track_field_usage_ = false;
+ std::unordered_map<std::string, int32_t> field_usage_;
+};
+
+} // namespace protozero
+
+#endif // SRC_PROTOZERO_FILTERING_MESSAGE_FILTER_H_
+/*
+ * Copyright (C) 2021 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "src/protozero/filtering/message_filter.h"
+
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+// gen_amalgamated expanded: #include "src/protozero/filtering/string_filter.h"
+
+namespace protozero {
+
+namespace {
+
+// Inline helpers to append proto fields in output. They are the equivalent of
+// the protozero::Message::AppendXXX() fields but don't require building and
+// maintaining a full protozero::Message object or dealing with scattered
+// output slices.
+// All these functions assume there is enough space in the output buffer, which
+// should be always the case assuming that we don't end up generating more
+// output than input.
+
+inline void AppendVarInt(uint32_t field_id, uint64_t value, uint8_t** out) {
+ *out = proto_utils::WriteVarInt(proto_utils::MakeTagVarInt(field_id), *out);
+ *out = proto_utils::WriteVarInt(value, *out);
+}
+
+// For fixed32 / fixed64.
+template <typename INT_T /* uint32_t | uint64_t*/>
+inline void AppendFixed(uint32_t field_id, INT_T value, uint8_t** out) {
+ *out = proto_utils::WriteVarInt(proto_utils::MakeTagFixed<INT_T>(field_id),
+ *out);
+ memcpy(*out, &value, sizeof(value));
+ *out += sizeof(value);
+}
+
+// For length-delimited (string, bytes) fields. Note: this function appends only
+// the proto preamble and the varint field that states the length of the payload
+// not the payload itself.
+// In the case of submessages, the caller needs to re-write the length at the
+// end in the in the returned memory area.
+// The problem here is that, because of filtering, the length of a submessage
+// might be < original length (the original length is still an upper-bound).
+// Returns a pair with: (1) the pointer where the final length should be written
+// into, (2) the length of the size field.
+// The caller must write a redundant varint to match the original size (i.e.
+// needs to use WriteRedundantVarInt()).
+inline std::pair<uint8_t*, uint32_t> AppendLenDelim(uint32_t field_id,
+ uint32_t len,
+ uint8_t** out) {
+ *out = proto_utils::WriteVarInt(proto_utils::MakeTagLengthDelimited(field_id),
+ *out);
+ uint8_t* size_field_start = *out;
+ *out = proto_utils::WriteVarInt(len, *out);
+ const size_t size_field_len = static_cast<size_t>(*out - size_field_start);
+ return std::make_pair(size_field_start, size_field_len);
+}
+} // namespace
+
+MessageFilter::MessageFilter(Config config) : config_(std::move(config)) {
+ // Push a state on the stack for the implicit root message.
+ stack_.emplace_back();
+}
+
+MessageFilter::MessageFilter() : MessageFilter(Config()) {}
+
+MessageFilter::~MessageFilter() = default;
+
+bool MessageFilter::Config::LoadFilterBytecode(const void* filter_data,
+ size_t len) {
+ return filter_.Load(filter_data, len);
+}
+
+bool MessageFilter::Config::SetFilterRoot(
+ std::initializer_list<uint32_t> field_ids) {
+ uint32_t root_msg_idx = 0;
+ for (uint32_t field_id : field_ids) {
+ auto res = filter_.Query(root_msg_idx, field_id);
+ if (!res.allowed || !res.nested_msg_field())
+ return false;
+ root_msg_idx = res.nested_msg_index;
+ }
+ root_msg_index_ = root_msg_idx;
+ return true;
+}
+
+MessageFilter::FilteredMessage MessageFilter::FilterMessageFragments(
+ const InputSlice* slices,
+ size_t num_slices) {
+ // First compute the upper bound for the output. The filtered message cannot
+ // be > the original message.
+ uint32_t total_len = 0;
+ for (size_t i = 0; i < num_slices; ++i)
+ total_len += slices[i].len;
+ out_buf_.reset(new uint8_t[total_len]);
+ out_ = out_buf_.get();
+ out_end_ = out_ + total_len;
+
+ // Reset the parser state.
+ tokenizer_ = MessageTokenizer();
+ error_ = false;
+ stack_.clear();
+ stack_.resize(2);
+ // stack_[0] is a sentinel and should never be hit in nominal cases. If we
+ // end up there we will just keep consuming the input stream and detecting
+ // at the end, without hurting the fastpath.
+ stack_[0].in_bytes_limit = UINT32_MAX;
+ stack_[0].eat_next_bytes = UINT32_MAX;
+ // stack_[1] is the actual root message.
+ stack_[1].in_bytes_limit = total_len;
+ stack_[1].msg_index = config_.root_msg_index();
+
+ // Process the input data and write the output.
+ for (size_t slice_idx = 0; slice_idx < num_slices; ++slice_idx) {
+ const InputSlice& slice = slices[slice_idx];
+ const uint8_t* data = static_cast<const uint8_t*>(slice.data);
+ for (size_t i = 0; i < slice.len; ++i)
+ FilterOneByte(data[i]);
+ }
+
+ // Construct the output object.
+ PERFETTO_CHECK(out_ >= out_buf_.get() && out_ <= out_end_);
+ auto used_size = static_cast<size_t>(out_ - out_buf_.get());
+ FilteredMessage res{std::move(out_buf_), used_size};
+ res.error = error_;
+ if (stack_.size() != 1 || !tokenizer_.idle() ||
+ stack_[0].in_bytes != total_len) {
+ res.error = true;
+ }
+ return res;
+}
+
+void MessageFilter::FilterOneByte(uint8_t octet) {
+ PERFETTO_DCHECK(!stack_.empty());
+
+ auto* state = &stack_.back();
+ StackState next_state{};
+ bool push_next_state = false;
+
+ if (state->eat_next_bytes > 0) {
+ // This is the case where the previous tokenizer_.Push() call returned a
+ // length delimited message which is NOT a submessage (a string or a bytes
+ // field). We just want to consume it, and pass it through/filter strings
+ // if the field was allowed.
+ --state->eat_next_bytes;
+ if (state->action == StackState::kPassthrough) {
+ *(out_++) = octet;
+ } else if (state->action == StackState::kFilterString) {
+ *(out_++) = octet;
+ if (state->eat_next_bytes == 0) {
+ config_.string_filter().MaybeFilter(
+ reinterpret_cast<char*>(state->filter_string_ptr),
+ static_cast<size_t>(out_ - state->filter_string_ptr));
+ }
+ }
+ } else {
+ MessageTokenizer::Token token = tokenizer_.Push(octet);
+ // |token| will not be valid() in most cases and this is WAI. When pushing
+ // a varint field, only the last byte yields a token, all the other bytes
+ // return an invalid token, they just update the internal tokenizer state.
+ if (token.valid()) {
+ auto filter = config_.filter().Query(state->msg_index, token.field_id);
+ switch (token.type) {
+ case proto_utils::ProtoWireType::kVarInt:
+ if (filter.allowed && filter.simple_field())
+ AppendVarInt(token.field_id, token.value, &out_);
+ break;
+ case proto_utils::ProtoWireType::kFixed32:
+ if (filter.allowed && filter.simple_field())
+ AppendFixed(token.field_id, static_cast<uint32_t>(token.value),
+ &out_);
+ break;
+ case proto_utils::ProtoWireType::kFixed64:
+ if (filter.allowed && filter.simple_field())
+ AppendFixed(token.field_id, static_cast<uint64_t>(token.value),
+ &out_);
+ break;
+ case proto_utils::ProtoWireType::kLengthDelimited:
+ // Here we have two cases:
+ // A. A simple string/bytes field: we just want to consume the next
+ // bytes (the string payload), optionally passing them through in
+ // output if the field is allowed.
+ // B. This is a nested submessage. In this case we want to recurse and
+ // push a new state on the stack.
+ // Note that we can't tell the difference between a
+ // "non-allowed string" and a "non-allowed submessage". But it doesn't
+ // matter because in both cases we just want to skip the next N bytes.
+ const auto submessage_len = static_cast<uint32_t>(token.value);
+ auto in_bytes_left = state->in_bytes_limit - state->in_bytes - 1;
+ if (PERFETTO_UNLIKELY(submessage_len > in_bytes_left)) {
+ // This is a malicious / malformed string/bytes/submessage that
+ // claims to be larger than the outer message that contains it.
+ return SetUnrecoverableErrorState();
+ }
+
+ if (filter.allowed && filter.nested_msg_field() &&
+ submessage_len > 0) {
+ // submessage_len == 0 is the edge case of a message with a 0-len
+ // (but present) submessage. In this case, if allowed, we don't want
+ // to push any further state (doing so would desync the FSM) but we
+ // still want to emit it.
+ // At this point |submessage_len| is only an upper bound. The
+ // final message written in output can be <= the one in input,
+ // only some of its fields might be allowed (also remember that
+ // this class implicitly removes redundancy varint encoding of
+ // len-delimited field lengths). The final length varint (the
+ // return value of AppendLenDelim()) will be filled when popping
+ // from |stack_|.
+ auto size_field =
+ AppendLenDelim(token.field_id, submessage_len, &out_);
+ push_next_state = true;
+ next_state.field_id = token.field_id;
+ next_state.msg_index = filter.nested_msg_index;
+ next_state.in_bytes_limit = submessage_len;
+ next_state.size_field = size_field.first;
+ next_state.size_field_len = size_field.second;
+ next_state.out_bytes_written_at_start = out_written();
+ } else {
+ // A string or bytes field, or a 0 length submessage.
+ state->eat_next_bytes = submessage_len;
+ if (filter.allowed && filter.filter_string_field()) {
+ state->action = StackState::kFilterString;
+ AppendLenDelim(token.field_id, submessage_len, &out_);
+ state->filter_string_ptr = out_;
+ } else if (filter.allowed) {
+ state->action = StackState::kPassthrough;
+ AppendLenDelim(token.field_id, submessage_len, &out_);
+ } else {
+ state->action = StackState::kDrop;
+ }
+ }
+ break;
+ } // switch(type)
+
+ if (PERFETTO_UNLIKELY(track_field_usage_)) {
+ IncrementCurrentFieldUsage(token.field_id, filter.allowed);
+ }
+ } // if (token.valid)
+ } // if (eat_next_bytes == 0)
+
+ ++state->in_bytes;
+ while (state->in_bytes >= state->in_bytes_limit) {
+ PERFETTO_DCHECK(state->in_bytes == state->in_bytes_limit);
+ push_next_state = false;
+
+ // We can't possibly write more than we read.
+ const uint32_t msg_bytes_written = static_cast<uint32_t>(
+ out_written() - state->out_bytes_written_at_start);
+ PERFETTO_DCHECK(msg_bytes_written <= state->in_bytes_limit);
+
+ // Backfill the length field of the
+ proto_utils::WriteRedundantVarInt(msg_bytes_written, state->size_field,
+ state->size_field_len);
+
+ const uint32_t in_bytes_processes_for_last_msg = state->in_bytes;
+ stack_.pop_back();
+ PERFETTO_CHECK(!stack_.empty());
+ state = &stack_.back();
+ state->in_bytes += in_bytes_processes_for_last_msg;
+ if (PERFETTO_UNLIKELY(!tokenizer_.idle())) {
+ // If we hit this case, it means that we got to the end of a submessage
+ // while decoding a field. We can't recover from this and we don't want to
+ // propagate a broken sub-message.
+ return SetUnrecoverableErrorState();
+ }
+ }
+
+ if (push_next_state) {
+ PERFETTO_DCHECK(tokenizer_.idle());
+ stack_.emplace_back(std::move(next_state));
+ state = &stack_.back();
+ }
+}
+
+void MessageFilter::SetUnrecoverableErrorState() {
+ error_ = true;
+ stack_.clear();
+ stack_.resize(1);
+ auto& state = stack_[0];
+ state.eat_next_bytes = UINT32_MAX;
+ state.in_bytes_limit = UINT32_MAX;
+ state.action = StackState::kDrop;
+ out_ = out_buf_.get(); // Reset the write pointer.
+}
+
+void MessageFilter::IncrementCurrentFieldUsage(uint32_t field_id,
+ bool allowed) {
+ // Slowpath. Used mainly in offline tools and tests to workout used fields in
+ // a proto.
+ PERFETTO_DCHECK(track_field_usage_);
+
+ // Field path contains a concatenation of varints, one for each nesting level.
+ // e.g. y in message Root { Sub x = 2; }; message Sub { SubSub y = 7; }
+ // is encoded as [varint(2) + varint(7)].
+ // We use varint to take the most out of SSO (small string opt). In most cases
+ // the path will fit in the on-stack 22 bytes, requiring no heap.
+ std::string field_path;
+
+ auto append_field_id = [&field_path](uint32_t id) {
+ uint8_t buf[10];
+ uint8_t* end = proto_utils::WriteVarInt(id, buf);
+ field_path.append(reinterpret_cast<char*>(buf),
+ static_cast<size_t>(end - buf));
+ };
+
+ // Append all the ancestors IDs from the state stack.
+ // The first entry of the stack has always ID 0 and we skip it (we don't know
+ // the ID of the root message itself).
+ PERFETTO_DCHECK(stack_.size() >= 2 && stack_[1].field_id == 0);
+ for (size_t i = 2; i < stack_.size(); ++i)
+ append_field_id(stack_[i].field_id);
+ // Append the id of the field in the current message.
+ append_field_id(field_id);
+ field_usage_[field_path] += allowed ? 1 : -1;
+}
+
+} // namespace protozero
+// gen_amalgamated begin source: src/tracing/service/metatrace_writer.cc
+// gen_amalgamated begin header: src/tracing/service/metatrace_writer.h
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef SRC_TRACING_SERVICE_METATRACE_WRITER_H_
+#define SRC_TRACING_SERVICE_METATRACE_WRITER_H_
+
+#include <functional>
+#include <memory>
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/metatrace.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/thread_checker.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/weak_ptr.h"
+
+namespace perfetto {
+
+namespace base {
+class TaskRunner;
+}
+
+class TraceWriter;
+
+// Complements the base::metatrace infrastructure.
+// It hooks a callback to metatrace::Enable() and writes metatrace events into
+// a TraceWriter whenever the metatrace ring buffer is half full.
+// It is safe to create and attempt to start multiple instances of this class,
+// however only the first one will succeed because the metatrace framework
+// doesn't support multiple instances.
+// This class is defined here (instead of directly in src/probes/) so it can
+// be reused by other components (e.g. heapprofd).
+class MetatraceWriter {
+ public:
+ static constexpr char kDataSourceName[] = "perfetto.metatrace";
+
+ MetatraceWriter();
+ ~MetatraceWriter();
+
+ MetatraceWriter(const MetatraceWriter&) = delete;
+ MetatraceWriter& operator=(const MetatraceWriter&) = delete;
+ MetatraceWriter(MetatraceWriter&&) = delete;
+ MetatraceWriter& operator=(MetatraceWriter&&) = delete;
+
+ void Enable(base::TaskRunner*, std::unique_ptr<TraceWriter>, uint32_t tags);
+ void Disable();
+ void WriteAllAndFlushTraceWriter(std::function<void()> callback);
+
+ private:
+ void WriteAllAvailableEvents();
+
+ bool started_ = false;
+ base::TaskRunner* task_runner_ = nullptr;
+ std::unique_ptr<TraceWriter> trace_writer_;
+ PERFETTO_THREAD_CHECKER(thread_checker_)
+ base::WeakPtrFactory<MetatraceWriter> weak_ptr_factory_; // Keep last.
+};
+
+} // namespace perfetto
+
+#endif // SRC_TRACING_SERVICE_METATRACE_WRITER_H_
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "src/tracing/service/metatrace_writer.h"
+
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/base/task_runner.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/trace_writer.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/core/data_source_descriptor.h"
+
+// gen_amalgamated expanded: #include "protos/perfetto/trace/perfetto/perfetto_metatrace.pbzero.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/trace_packet.pbzero.h"
+
+namespace perfetto {
+
+MetatraceWriter::MetatraceWriter() : weak_ptr_factory_(this) {}
+
+MetatraceWriter::~MetatraceWriter() {
+ Disable();
+}
+
+void MetatraceWriter::Enable(base::TaskRunner* task_runner,
+ std::unique_ptr<TraceWriter> trace_writer,
+ uint32_t tags) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ if (started_) {
+ PERFETTO_DFATAL_OR_ELOG("Metatrace already started from this instance");
+ return;
+ }
+ task_runner_ = task_runner;
+ trace_writer_ = std::move(trace_writer);
+ auto weak_ptr = weak_ptr_factory_.GetWeakPtr();
+ bool enabled = metatrace::Enable(
+ [weak_ptr] {
+ if (weak_ptr)
+ weak_ptr->WriteAllAvailableEvents();
+ },
+ task_runner, tags);
+ if (!enabled)
+ return;
+ started_ = true;
+}
+
+void MetatraceWriter::Disable() {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ if (!started_)
+ return;
+ metatrace::Disable();
+ started_ = false;
+ trace_writer_.reset();
+}
+
+void MetatraceWriter::WriteAllAvailableEvents() {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ if (!started_)
+ return;
+ for (auto it = metatrace::RingBuffer::GetReadIterator(); it; ++it) {
+ auto type_and_id = it->type_and_id.load(std::memory_order_acquire);
+ if (type_and_id == 0)
+ break; // Stop at the first incomplete event.
+
+ auto packet = trace_writer_->NewTracePacket();
+ packet->set_timestamp(it->timestamp_ns());
+ auto* evt = packet->set_perfetto_metatrace();
+ uint16_t type = type_and_id & metatrace::Record::kTypeMask;
+ uint16_t id = type_and_id & ~metatrace::Record::kTypeMask;
+ if (type == metatrace::Record::kTypeCounter) {
+ evt->set_counter_id(id);
+ evt->set_counter_value(it->counter_value);
+ } else {
+ evt->set_event_id(id);
+ evt->set_event_duration_ns(it->duration_ns);
+ }
+
+ evt->set_thread_id(static_cast<uint32_t>(it->thread_id));
+
+ if (metatrace::RingBuffer::has_overruns())
+ evt->set_has_overruns(true);
+ }
+ // The |it| destructor will automatically update the read index position in
+ // the meta-trace ring buffer.
+}
+
+void MetatraceWriter::WriteAllAndFlushTraceWriter(
+ std::function<void()> callback) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ if (!started_)
+ return;
+ WriteAllAvailableEvents();
+ trace_writer_->Flush(std::move(callback));
+}
+
+} // namespace perfetto
+// gen_amalgamated begin source: src/tracing/service/packet_stream_validator.cc
+// gen_amalgamated begin header: src/tracing/service/packet_stream_validator.h
+/*
+ * Copyright (C) 2018 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef SRC_TRACING_SERVICE_PACKET_STREAM_VALIDATOR_H_
+#define SRC_TRACING_SERVICE_PACKET_STREAM_VALIDATOR_H_
+
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/slice.h"
+
+namespace perfetto {
+
+// Checks that the stream of trace packets sent by the producer is well formed.
+// This includes:
+//
+// - Checking that the packets are not truncated.
+// - There are no dangling bytes left over in the packets.
+// - Any trusted fields (e.g., uid) are not set.
+//
+// Note that we only validate top-level fields in the trace proto; sub-messages
+// are simply skipped.
+class PacketStreamValidator {
+ public:
+ PacketStreamValidator() = delete;
+
+ static bool Validate(const Slices&);
+};
+
+} // namespace perfetto
+
+#endif // SRC_TRACING_SERVICE_PACKET_STREAM_VALIDATOR_H_
+/*
+ * Copyright (C) 2018 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "src/tracing/service/packet_stream_validator.h"
+
+#include <stddef.h>
+
+#include <cinttypes>
+
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/utils.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+// gen_amalgamated expanded: #include "protos/perfetto/trace/trace_packet.pbzero.h"
+
+namespace perfetto {
+
+namespace {
+
+using protozero::proto_utils::ProtoWireType;
+
+const uint32_t kReservedFieldIds[] = {
+ protos::pbzero::TracePacket::kTrustedUidFieldNumber,
+ protos::pbzero::TracePacket::kTrustedPacketSequenceIdFieldNumber,
+ protos::pbzero::TracePacket::kTraceConfigFieldNumber,
+ protos::pbzero::TracePacket::kTraceStatsFieldNumber,
+ protos::pbzero::TracePacket::kCompressedPacketsFieldNumber,
+ protos::pbzero::TracePacket::kSynchronizationMarkerFieldNumber,
+ protos::pbzero::TracePacket::kTrustedPidFieldNumber,
+ protos::pbzero::TracePacket::kMachineIdFieldNumber,
+};
+
+// This translation unit is quite subtle and perf-sensitive. Remember to check
+// BM_PacketStreamValidator in perfetto_benchmarks when making changes.
+
+// Checks that a packet, spread over several slices, is well-formed and doesn't
+// contain reserved top-level fields.
+// The checking logic is based on a state-machine that skips the fields' payload
+// and operates as follows:
+// +-------------------------------+ <-------------------------+
+// +----------> | Read field preamble (varint) | <----------------------+ |
+// | +-------------------------------+ | |
+// | | | | | |
+// | <Varint> <Fixed 32/64> <Length-delimited field> | |
+// | V | V | |
+// | +------------------+ | +--------------+ | |
+// | | Read field value | | | Read length | | |
+// | | (another varint) | | | (varint) | | |
+// | +------------------+ | +--------------+ | |
+// | | V V | |
+// +-----------+ +----------------+ +-----------------+ | |
+// | Skip 4/8 Bytes | | Skip $len Bytes |-------+ |
+// +----------------+ +-----------------+ |
+// | |
+// +------------------------------------------+
+class ProtoFieldParserFSM {
+ public:
+ // This method effectively continuously parses varints (either for the field
+ // preamble or the payload or the submessage length) and tells the caller
+ // (the Validate() method) how many bytes to skip until the next field.
+ size_t Push(uint8_t octet) {
+ varint_ |= static_cast<uint64_t>(octet & 0x7F) << varint_shift_;
+ if (octet & 0x80) {
+ varint_shift_ += 7;
+ if (varint_shift_ >= 64) {
+ // Do not invoke UB on next call.
+ varint_shift_ = 0;
+ state_ = kInvalidVarInt;
+ }
+ return 0;
+ }
+ uint64_t varint = varint_;
+ varint_ = 0;
+ varint_shift_ = 0;
+
+ switch (state_) {
+ case kFieldPreamble: {
+ uint64_t field_type = varint & 7; // 7 = 0..0111
+ auto field_id = static_cast<uint32_t>(varint >> 3);
+ // Check if the field id is reserved, go into an error state if it is.
+ for (size_t i = 0; i < base::ArraySize(kReservedFieldIds); ++i) {
+ if (field_id == kReservedFieldIds[i]) {
+ state_ = kWroteReservedField;
+ return 0;
+ }
+ }
+ // The field type is legit, now check it's well formed and within
+ // boundaries.
+ if (field_type == static_cast<uint64_t>(ProtoWireType::kVarInt)) {
+ state_ = kVarIntValue;
+ } else if (field_type ==
+ static_cast<uint64_t>(ProtoWireType::kFixed32)) {
+ return 4;
+ } else if (field_type ==
+ static_cast<uint64_t>(ProtoWireType::kFixed64)) {
+ return 8;
+ } else if (field_type ==
+ static_cast<uint64_t>(ProtoWireType::kLengthDelimited)) {
+ state_ = kLenDelimitedLen;
+ } else {
+ state_ = kUnknownFieldType;
+ }
+ return 0;
+ }
+
+ case kVarIntValue: {
+ // Consume the int field payload and go back to the next field.
+ state_ = kFieldPreamble;
+ return 0;
+ }
+
+ case kLenDelimitedLen: {
+ if (varint > protozero::proto_utils::kMaxMessageLength) {
+ state_ = kMessageTooBig;
+ return 0;
+ }
+ state_ = kFieldPreamble;
+ return static_cast<size_t>(varint);
+ }
+
+ case kWroteReservedField:
+ case kUnknownFieldType:
+ case kMessageTooBig:
+ case kInvalidVarInt:
+ // Persistent error states.
+ return 0;
+
+ } // switch(state_)
+ return 0; // To keep GCC happy.
+ }
+
+ // Queried at the end of the all payload. A message is well-formed only
+ // if the FSM is back to the state where it should parse the next field and
+ // hasn't started parsing any preamble.
+ bool valid() const { return state_ == kFieldPreamble && varint_shift_ == 0; }
+ int state() const { return static_cast<int>(state_); }
+
+ private:
+ enum State {
+ kFieldPreamble = 0, // Parsing the varint for the field preamble.
+ kVarIntValue, // Parsing the varint value for the field payload.
+ kLenDelimitedLen, // Parsing the length of the length-delimited field.
+
+ // Error states:
+ kWroteReservedField, // Tried to set a reserved field id.
+ kUnknownFieldType, // Encountered an invalid field type.
+ kMessageTooBig, // Size of the length delimited message was too big.
+ kInvalidVarInt, // VarInt larger than 64 bits.
+ };
+
+ State state_ = kFieldPreamble;
+ uint64_t varint_ = 0;
+ uint32_t varint_shift_ = 0;
+};
+
+} // namespace
+
+// static
+bool PacketStreamValidator::Validate(const Slices& slices) {
+ ProtoFieldParserFSM parser;
+ size_t skip_bytes = 0;
+ for (const Slice& slice : slices) {
+ for (size_t i = 0; i < slice.size;) {
+ const size_t skip_bytes_cur_slice = std::min(skip_bytes, slice.size - i);
+ if (skip_bytes_cur_slice > 0) {
+ i += skip_bytes_cur_slice;
+ skip_bytes -= skip_bytes_cur_slice;
+ } else {
+ uint8_t octet = *(reinterpret_cast<const uint8_t*>(slice.start) + i);
+ skip_bytes = parser.Push(octet);
+ i++;
+ }
+ }
+ }
+ if (skip_bytes == 0 && parser.valid())
+ return true;
+
+ PERFETTO_DLOG("Packet validation error (state %d, skip = %zu)",
+ parser.state(), skip_bytes);
+ return false;
+}
+
+} // namespace perfetto
+// gen_amalgamated begin source: src/tracing/service/trace_buffer.cc
+// gen_amalgamated begin header: src/tracing/service/trace_buffer.h
+// gen_amalgamated begin header: include/perfetto/ext/base/flat_hash_map.h
+/*
+ * Copyright (C) 2021 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_BASE_FLAT_HASH_MAP_H_
+#define INCLUDE_PERFETTO_EXT_BASE_FLAT_HASH_MAP_H_
+
+// gen_amalgamated expanded: #include "perfetto/base/compiler.h"
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/hash.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/utils.h"
+
+#include <algorithm>
+#include <functional>
+#include <limits>
+
+namespace perfetto {
+namespace base {
+
+// An open-addressing hashmap implementation.
+// Pointers are not stable, neither for keys nor values.
+// Has similar performances of a RobinHood hash (without the complications)
+// and 2x an unordered map.
+// Doc: http://go/perfetto-hashtables .
+//
+// When used to implement a string pool in TraceProcessor, the performance
+// characteristics obtained by replaying the set of strings seeen in a 4GB trace
+// (226M strings, 1M unique) are the following (see flat_hash_map_benchmark.cc):
+// This(Linear+AppendOnly) 879,383,676 ns 258.013M insertions/s
+// This(LinearProbe): 909,206,047 ns 249.546M insertions/s
+// This(QuadraticProbe): 1,083,844,388 ns 209.363M insertions/s
+// std::unordered_map: 6,203,351,870 ns 36.5811M insertions/s
+// tsl::robin_map: 931,403,397 ns 243.622M insertions/s
+// absl::flat_hash_map: 998,013,459 ns 227.379M insertions/s
+// FollyF14FastMap: 1,181,480,602 ns 192.074M insertions/s
+
+// The structs below define the probing algorithm used to probe slots upon a
+// collision. They are guaranteed to visit all slots as our table size is always
+// a power of two (see https://en.wikipedia.org/wiki/Quadratic_probing).
+
+// Linear probing can be faster if the hashing is well distributed and the load
+// is not high. For TraceProcessor's StringPool this is the fastest. It can
+// degenerate badly if the hashing doesn't spread (e.g., if using directly pids
+// as keys, with a no-op hashing function).
+struct LinearProbe {
+ static inline size_t Calc(size_t key_hash, size_t step, size_t capacity) {
+ return (key_hash + step) & (capacity - 1); // Linear probe
+ }
+};
+
+// Generates the sequence: 0, 3, 10, 21, 36, 55, ...
+// Can be a bit (~5%) slower than LinearProbe because it's less cache hot, but
+// avoids degenerating badly if the hash function is bad and causes clusters.
+// A good default choice unless benchmarks prove otherwise.
+struct QuadraticProbe {
+ static inline size_t Calc(size_t key_hash, size_t step, size_t capacity) {
+ return (key_hash + 2 * step * step + step) & (capacity - 1);
+ }
+};
+
+// Tends to perform in the middle between linear and quadratic.
+// It's a bit more cache-effective than the QuadraticProbe but can create more
+// clustering if the hash function doesn't spread well.
+// Generates the sequence: 0, 1, 3, 6, 10, 15, 21, ...
+struct QuadraticHalfProbe {
+ static inline size_t Calc(size_t key_hash, size_t step, size_t capacity) {
+ return (key_hash + (step * step + step) / 2) & (capacity - 1);
+ }
+};
+
+template <typename Key,
+ typename Value,
+ typename Hasher = base::Hash<Key>,
+ typename Probe = QuadraticProbe,
+ bool AppendOnly = false>
+class FlatHashMap {
+ public:
+ class Iterator {
+ public:
+ explicit Iterator(const FlatHashMap* map) : map_(map) { FindNextNonFree(); }
+ ~Iterator() = default;
+ Iterator(const Iterator&) = default;
+ Iterator& operator=(const Iterator&) = default;
+ Iterator(Iterator&&) noexcept = default;
+ Iterator& operator=(Iterator&&) noexcept = default;
+
+ Key& key() { return map_->keys_[idx_]; }
+ Value& value() { return map_->values_[idx_]; }
+ const Key& key() const { return map_->keys_[idx_]; }
+ const Value& value() const { return map_->values_[idx_]; }
+
+ explicit operator bool() const { return idx_ != kEnd; }
+ Iterator& operator++() {
+ PERFETTO_DCHECK(idx_ < map_->capacity_);
+ ++idx_;
+ FindNextNonFree();
+ return *this;
+ }
+
+ private:
+ static constexpr size_t kEnd = std::numeric_limits<size_t>::max();
+
+ void FindNextNonFree() {
+ const auto& tags = map_->tags_;
+ for (; idx_ < map_->capacity_; idx_++) {
+ if (tags[idx_] != kFreeSlot && (AppendOnly || tags[idx_] != kTombstone))
+ return;
+ }
+ idx_ = kEnd;
+ }
+
+ const FlatHashMap* map_ = nullptr;
+ size_t idx_ = 0;
+ }; // Iterator
+
+ static constexpr int kDefaultLoadLimitPct = 75;
+ explicit FlatHashMap(size_t initial_capacity = 0,
+ int load_limit_pct = kDefaultLoadLimitPct)
+ : load_limit_percent_(load_limit_pct) {
+ if (initial_capacity > 0)
+ Reset(initial_capacity);
+ }
+
+ // We are calling Clear() so that the destructors for the inserted entries are
+ // called (unless they are trivial, in which case it will be a no-op).
+ ~FlatHashMap() { Clear(); }
+
+ FlatHashMap(FlatHashMap&& other) noexcept {
+ tags_ = std::move(other.tags_);
+ keys_ = std::move(other.keys_);
+ values_ = std::move(other.values_);
+ capacity_ = other.capacity_;
+ size_ = other.size_;
+ max_probe_length_ = other.max_probe_length_;
+ load_limit_ = other.load_limit_;
+ load_limit_percent_ = other.load_limit_percent_;
+
+ new (&other) FlatHashMap();
+ }
+
+ FlatHashMap& operator=(FlatHashMap&& other) noexcept {
+ this->~FlatHashMap();
+ new (this) FlatHashMap(std::move(other));
+ return *this;
+ }
+
+ FlatHashMap(const FlatHashMap&) = delete;
+ FlatHashMap& operator=(const FlatHashMap&) = delete;
+
+ std::pair<Value*, bool> Insert(Key key, Value value) {
+ const size_t key_hash = Hasher{}(key);
+ const uint8_t tag = HashToTag(key_hash);
+ static constexpr size_t kSlotNotFound = std::numeric_limits<size_t>::max();
+
+ // This for loop does in reality at most two attempts:
+ // The first iteration either:
+ // - Early-returns, because the key exists already,
+ // - Finds an insertion slot and proceeds because the load is < limit.
+ // The second iteration is only hit in the unlikely case of this insertion
+ // bringing the table beyond the target |load_limit_| (or the edge case
+ // of the HT being full, if |load_limit_pct_| = 100).
+ // We cannot simply pre-grow the table before insertion, because we must
+ // guarantee that calling Insert() with a key that already exists doesn't
+ // invalidate iterators.
+ size_t insertion_slot;
+ size_t probe_len;
+ for (;;) {
+ PERFETTO_DCHECK((capacity_ & (capacity_ - 1)) == 0); // Must be a pow2.
+ insertion_slot = kSlotNotFound;
+ // Start the iteration at the desired slot (key_hash % capacity_)
+ // searching either for a free slot or a tombstone. In the worst case we
+ // might end up scanning the whole array of slots. The Probe functions are
+ // guaranteed to visit all the slots within |capacity_| steps. If we find
+ // a free slot, we can stop the search immediately (a free slot acts as an
+ // "end of chain for entries having the same hash". If we find a
+ // tombstones (a deleted slot) we remember its position, but have to keep
+ // searching until a free slot to make sure we don't insert a duplicate
+ // key.
+ for (probe_len = 0; probe_len < capacity_;) {
+ const size_t idx = Probe::Calc(key_hash, probe_len, capacity_);
+ PERFETTO_DCHECK(idx < capacity_);
+ const uint8_t tag_idx = tags_[idx];
+ ++probe_len;
+ if (tag_idx == kFreeSlot) {
+ // Rationale for "insertion_slot == kSlotNotFound": if we encountered
+ // a tombstone while iterating we should reuse that rather than
+ // taking another slot.
+ if (AppendOnly || insertion_slot == kSlotNotFound)
+ insertion_slot = idx;
+ break;
+ }
+ // We should never encounter tombstones in AppendOnly mode.
+ PERFETTO_DCHECK(!(tag_idx == kTombstone && AppendOnly));
+ if (!AppendOnly && tag_idx == kTombstone) {
+ insertion_slot = idx;
+ continue;
+ }
+ if (tag_idx == tag && keys_[idx] == key) {
+ // The key is already in the map.
+ return std::make_pair(&values_[idx], false);
+ }
+ } // for (idx)
+
+ // If we got to this point the key does not exist (otherwise we would have
+ // hit the return above) and we are going to insert a new entry.
+ // Before doing so, ensure we stay under the target load limit.
+ if (PERFETTO_UNLIKELY(size_ >= load_limit_)) {
+ MaybeGrowAndRehash(/*grow=*/true);
+ continue;
+ }
+ PERFETTO_DCHECK(insertion_slot != kSlotNotFound);
+ break;
+ } // for (attempt)
+
+ PERFETTO_CHECK(insertion_slot < capacity_);
+
+ // We found a free slot (or a tombstone). Proceed with the insertion.
+ Value* value_idx = &values_[insertion_slot];
+ new (&keys_[insertion_slot]) Key(std::move(key));
+ new (value_idx) Value(std::move(value));
+ tags_[insertion_slot] = tag;
+ PERFETTO_DCHECK(probe_len > 0 && probe_len <= capacity_);
+ max_probe_length_ = std::max(max_probe_length_, probe_len);
+ size_++;
+
+ return std::make_pair(value_idx, true);
+ }
+
+ Value* Find(const Key& key) const {
+ const size_t idx = FindInternal(key);
+ if (idx == kNotFound)
+ return nullptr;
+ return &values_[idx];
+ }
+
+ bool Erase(const Key& key) {
+ if (AppendOnly)
+ PERFETTO_FATAL("Erase() not supported because AppendOnly=true");
+ size_t idx = FindInternal(key);
+ if (idx == kNotFound)
+ return false;
+ EraseInternal(idx);
+ return true;
+ }
+
+ void Clear() {
+ // Avoid trivial heap operations on zero-capacity std::move()-d objects.
+ if (PERFETTO_UNLIKELY(capacity_ == 0))
+ return;
+
+ for (size_t i = 0; i < capacity_; ++i) {
+ const uint8_t tag = tags_[i];
+ if (tag != kFreeSlot && tag != kTombstone)
+ EraseInternal(i);
+ }
+ // Clear all tombstones. We really need to do this for AppendOnly.
+ MaybeGrowAndRehash(/*grow=*/false);
+ }
+
+ Value& operator[](Key key) {
+ auto it_and_inserted = Insert(std::move(key), Value{});
+ return *it_and_inserted.first;
+ }
+
+ Iterator GetIterator() { return Iterator(this); }
+ const Iterator GetIterator() const { return Iterator(this); }
+
+ size_t size() const { return size_; }
+ size_t capacity() const { return capacity_; }
+
+ // "protected" here is only for the flat_hash_map_benchmark.cc. Everything
+ // below is by all means private.
+ protected:
+ enum ReservedTags : uint8_t { kFreeSlot = 0, kTombstone = 1 };
+ static constexpr size_t kNotFound = std::numeric_limits<size_t>::max();
+
+ size_t FindInternal(const Key& key) const {
+ const size_t key_hash = Hasher{}(key);
+ const uint8_t tag = HashToTag(key_hash);
+ PERFETTO_DCHECK((capacity_ & (capacity_ - 1)) == 0); // Must be a pow2.
+ PERFETTO_DCHECK(max_probe_length_ <= capacity_);
+ for (size_t i = 0; i < max_probe_length_; ++i) {
+ const size_t idx = Probe::Calc(key_hash, i, capacity_);
+ const uint8_t tag_idx = tags_[idx];
+
+ if (tag_idx == kFreeSlot)
+ return kNotFound;
+ // HashToTag() never returns kTombstone, so the tag-check below cannot
+ // possibly match. Also we just want to skip tombstones.
+ if (tag_idx == tag && keys_[idx] == key) {
+ PERFETTO_DCHECK(tag_idx > kTombstone);
+ return idx;
+ }
+ } // for (idx)
+ return kNotFound;
+ }
+
+ void EraseInternal(size_t idx) {
+ PERFETTO_DCHECK(tags_[idx] > kTombstone);
+ PERFETTO_DCHECK(size_ > 0);
+ tags_[idx] = kTombstone;
+ keys_[idx].~Key();
+ values_[idx].~Value();
+ size_--;
+ }
+
+ PERFETTO_NO_INLINE void MaybeGrowAndRehash(bool grow) {
+ PERFETTO_DCHECK(size_ <= capacity_);
+ const size_t old_capacity = capacity_;
+
+ // Grow quickly up to 1MB, then chill.
+ const size_t old_size_bytes = old_capacity * (sizeof(Key) + sizeof(Value));
+ const size_t grow_factor = old_size_bytes < (1024u * 1024u) ? 8 : 2;
+ const size_t new_capacity =
+ grow ? std::max(old_capacity * grow_factor, size_t(1024))
+ : old_capacity;
+
+ auto old_tags(std::move(tags_));
+ auto old_keys(std::move(keys_));
+ auto old_values(std::move(values_));
+ size_t old_size = size_;
+
+ // This must be a CHECK (i.e. not just a DCHECK) to prevent UAF attacks on
+ // 32-bit archs that try to double the size of the table until wrapping.
+ PERFETTO_CHECK(new_capacity >= old_capacity);
+ Reset(new_capacity);
+
+ size_t new_size = 0; // Recompute the size.
+ for (size_t i = 0; i < old_capacity; ++i) {
+ const uint8_t old_tag = old_tags[i];
+ if (old_tag != kFreeSlot && old_tag != kTombstone) {
+ Insert(std::move(old_keys[i]), std::move(old_values[i]));
+ old_keys[i].~Key(); // Destroy the old objects.
+ old_values[i].~Value();
+ new_size++;
+ }
+ }
+ PERFETTO_DCHECK(new_size == old_size);
+ size_ = new_size;
+ }
+
+ // Doesn't call destructors. Use Clear() for that.
+ PERFETTO_NO_INLINE void Reset(size_t n) {
+ PERFETTO_DCHECK((n & (n - 1)) == 0); // Must be a pow2.
+
+ capacity_ = n;
+ max_probe_length_ = 0;
+ size_ = 0;
+ load_limit_ = n * static_cast<size_t>(load_limit_percent_) / 100;
+ load_limit_ = std::min(load_limit_, n);
+
+ tags_.reset(new uint8_t[n]);
+ memset(&tags_[0], 0, n); // Clear all tags.
+ keys_ = AlignedAllocTyped<Key[]>(n); // Deliberately not 0-initialized.
+ values_ = AlignedAllocTyped<Value[]>(n); // Deliberately not 0-initialized.
+ }
+
+ static inline uint8_t HashToTag(size_t full_hash) {
+ uint8_t tag = full_hash >> (sizeof(full_hash) * 8 - 8);
+ // Ensure the hash is always >= 2. We use 0, 1 for kFreeSlot and kTombstone.
+ tag += (tag <= kTombstone) << 1;
+ PERFETTO_DCHECK(tag > kTombstone);
+ return tag;
+ }
+
+ size_t capacity_ = 0;
+ size_t size_ = 0;
+ size_t max_probe_length_ = 0;
+ size_t load_limit_ = 0; // Updated every time |capacity_| changes.
+ int load_limit_percent_ =
+ kDefaultLoadLimitPct; // Load factor limit in % of |capacity_|.
+
+ // These arrays have always the |capacity_| elements.
+ // Note: AlignedUniquePtr just allocates memory, doesn't invoke any ctor/dtor.
+ std::unique_ptr<uint8_t[]> tags_;
+ AlignedUniquePtr<Key[]> keys_;
+ AlignedUniquePtr<Value[]> values_;
+};
+
+} // namespace base
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_BASE_FLAT_HASH_MAP_H_
+// gen_amalgamated begin header: include/perfetto/ext/tracing/core/client_identity.h
+/*
+ * Copyright (C) 2023 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_TRACING_CORE_CLIENT_IDENTITY_H_
+#define INCLUDE_PERFETTO_EXT_TRACING_CORE_CLIENT_IDENTITY_H_
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/sys_types.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/basic_types.h"
+
+namespace perfetto {
+
+// This class groups data fields of a connected client that can get passed in
+// the tracing core to be emitted to trace packets.
+class ClientIdentity {
+ public:
+ ClientIdentity() = default;
+ ClientIdentity(uid_t uid, pid_t pid, MachineID machine_id = kDefaultMachineID)
+ : uid_(uid), pid_(pid), machine_id_(machine_id) {}
+
+ bool has_uid() const { return uid_ != base::kInvalidUid; }
+ uid_t uid() const { return uid_; }
+
+ bool has_pid() const { return pid_ != base::kInvalidPid; }
+ pid_t pid() const { return pid_; }
+
+ bool has_non_default_machine_id() const {
+ return machine_id_ != kDefaultMachineID;
+ }
+ base::MachineID machine_id() const { return machine_id_; }
+
+ private:
+ uid_t uid_ = base::kInvalidUid;
+ pid_t pid_ = base::kInvalidPid;
+ MachineID machine_id_ = kDefaultMachineID;
+};
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_TRACING_CORE_CLIENT_IDENTITY_H_
+// gen_amalgamated begin header: src/tracing/service/histogram.h
+/*
+ * Copyright (C) 2023 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef SRC_TRACING_SERVICE_HISTOGRAM_H_
+#define SRC_TRACING_SERVICE_HISTOGRAM_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+#include <limits>
+
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+
+namespace perfetto {
+
+using HistValue = int64_t;
+
+// Usage:
+// Histogram<10, 100, 1000> h; // A histogram with 3 + 1 (overflow) bucket.
+// h.Add(value);
+// h.GetBucketSum(0); // Returns SUM(x) for 0 < x <= 10
+// h.GetBucketSum(1); // Returns SUM(x) for 10 < x <= 100
+// h.GetBucketSum(2); // Returns SUM(x) for 100 < x <= 1000
+// h.GetBucketSum(3); // Returns SUM(x) for x > 1000
+// Likewise h.GetBucketCount(x) returns the COUNT(x).
+template <HistValue... thresholds>
+class Histogram {
+ public:
+ // 1+ is for the overflow bucket (anything > the last threshold).
+ static constexpr size_t kNumBuckets = 1 + sizeof...(thresholds);
+
+ void Add(HistValue value) {
+ size_t bucket = BucketForValue(value);
+ bucket_sum_[bucket] += value;
+ ++bucket_count_[bucket];
+ }
+
+ static constexpr size_t num_buckets() { return kNumBuckets; }
+
+ HistValue GetBucketThres(size_t n) const {
+ PERFETTO_DCHECK(n < kNumBuckets);
+ return bucket_thres_[n];
+ }
+
+ uint64_t GetBucketCount(size_t n) const {
+ PERFETTO_DCHECK(n < kNumBuckets);
+ return bucket_count_[n];
+ }
+
+ HistValue GetBucketSum(size_t n) const {
+ PERFETTO_DCHECK(n < kNumBuckets);
+ return bucket_sum_[n];
+ }
+
+ void Merge(const Histogram& other) {
+ for (size_t i = 0; i < kNumBuckets; ++i) {
+ bucket_sum_[i] += other.bucket_sum_[i];
+ bucket_count_[i] += other.bucket_count_[i];
+ }
+ }
+
+ private:
+ static size_t BucketForValue(HistValue value) {
+ for (size_t i = 0; i < kNumBuckets - 1; i++) {
+ if (value <= bucket_thres_[i])
+ return i;
+ }
+ return kNumBuckets - 1;
+ }
+
+ static constexpr HistValue bucket_thres_[kNumBuckets]{
+ thresholds..., std::numeric_limits<HistValue>::max()};
+
+ HistValue bucket_sum_[kNumBuckets]{};
+ uint64_t bucket_count_[kNumBuckets]{};
+};
+
+} // namespace perfetto
+
+#endif // SRC_TRACING_SERVICE_HISTOGRAM_H_
+/*
+ * Copyright (C) 2018 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef SRC_TRACING_SERVICE_TRACE_BUFFER_H_
+#define SRC_TRACING_SERVICE_TRACE_BUFFER_H_
+
+#include <stdint.h>
+#include <string.h>
+
+#include <array>
+#include <limits>
+#include <map>
+#include <tuple>
+
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/flat_hash_map.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/paged_memory.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/thread_annotations.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/utils.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/basic_types.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/client_identity.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/slice.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/trace_stats.h"
+// gen_amalgamated expanded: #include "src/tracing/service/histogram.h"
+
+namespace perfetto {
+
+class TracePacket;
+
+// The main buffer, owned by the tracing service, where all the trace data is
+// ultimately stored into. The service will own several instances of this class,
+// at least one per active consumer (as defined in the |buffers| section of
+// trace_config.proto) and will copy chunks from the producer's shared memory
+// buffers into here when a CommitData IPC is received.
+//
+// Writing into the buffer
+// -----------------------
+// Data is copied from the SMB(s) using CopyChunkUntrusted(). The buffer will
+// hence contain data coming from different producers and different writer
+// sequences, more specifically:
+// - The service receives data by several producer(s), identified by their ID.
+// - Each producer writes several sequences identified by the same WriterID.
+// (they correspond to TraceWriter instances in the producer).
+// - Each Writer writes, in order, several chunks.
+// - Each chunk contains zero, one, or more TracePacket(s), or even just
+// fragments of packets (when they span across several chunks).
+//
+// So at any point in time, the buffer will contain a variable number of logical
+// sequences identified by the {ProducerID, WriterID} tuple. Any given chunk
+// will only contain packets (or fragments) belonging to the same sequence.
+//
+// The buffer operates by default as a ring buffer.
+// It has two overwrite policies:
+// 1. kOverwrite (default): if the write pointer reaches the read pointer, old
+// unread chunks will be overwritten by new chunks.
+// 2. kDiscard: if the write pointer reaches the read pointer, unread chunks
+// are preserved and the new chunks are discarded. Any future write becomes
+// a no-op, even if the reader manages to fully catch up. This is because
+// once a chunk is discarded, the sequence of packets is broken and trying
+// to recover would be too hard (also due to the fact that, at the same
+// time, we allow out-of-order commits and chunk re-writes).
+//
+// Chunks are (over)written in the same order of the CopyChunkUntrusted() calls.
+// When overwriting old content, entire chunks are overwritten or clobbered.
+// The buffer never leaves a partial chunk around. Chunks' payload is copied
+// as-is, but their header is not and is repacked in order to keep the
+// ProducerID around.
+//
+// Chunks are stored in the buffer next to each other. Each chunk is prefixed by
+// an inline header (ChunkRecord), which contains most of the fields of the
+// SharedMemoryABI ChunkHeader + the ProducerID + the size of the payload.
+// It's a conventional binary object stream essentially, where each ChunkRecord
+// tells where it ends and hence where to find the next one, like this:
+//
+// .-------------------------. 16 byte boundary
+// | ChunkRecord: 16 bytes |
+// | - chunk id: 4 bytes |
+// | - producer id: 2 bytes |
+// | - writer id: 2 bytes |
+// | - #fragments: 2 bytes |
+// +-----+ - record size: 2 bytes |
+// | | - flags+pad: 4 bytes |
+// | +-------------------------+
+// | | |
+// | : Chunk payload :
+// | | |
+// | +-------------------------+
+// | | Optional padding |
+// +---> +-------------------------+ 16 byte boundary
+// | ChunkRecord |
+// : :
+// Chunks stored in the buffer are always rounded up to 16 bytes (that is
+// sizeof(ChunkRecord)), in order to avoid further inner fragmentation.
+// Special "padding" chunks can be put in the buffer, e.g. in the case when we
+// try to write a chunk of size N while the write pointer is at the end of the
+// buffer, but the write pointer is < N bytes from the end (and hence needs to
+// wrap over).
+// Because of this, the buffer is self-describing: the contents of the buffer
+// can be reconstructed by just looking at the buffer content (this will be
+// quite useful in future to recover the buffer from crash reports).
+//
+// However, in order to keep some operations (patching and reading) fast, a
+// lookaside index is maintained (in |index_|), keeping each chunk in the buffer
+// indexed by their {ProducerID, WriterID, ChunkID} tuple.
+//
+// Patching data out-of-band
+// -------------------------
+// This buffer also supports patching chunks' payload out-of-band, after they
+// have been stored. This is to allow producers to backfill the "size" fields
+// of the protos that spawn across several chunks, when the previous chunks are
+// returned to the service. The MaybePatchChunkContents() deals with the fact
+// that a chunk might have been lost (because of wrapping) by the time the OOB
+// IPC comes.
+//
+// Reading from the buffer
+// -----------------------
+// This class supports one reader only (the consumer). Reads are NOT idempotent
+// as they move the read cursors around. Reading back the buffer is the most
+// conceptually complex part. The ReadNextTracePacket() method operates with
+// whole packet granularity. Packets are returned only when all their fragments
+// are available.
+// This class takes care of:
+// - Gluing packets within the same sequence, even if they are not stored
+// adjacently in the buffer.
+// - Re-ordering chunks within a sequence (using the ChunkID, which wraps).
+// - Detecting holes in packet fragments (because of loss of chunks).
+// Reads guarantee that packets for the same sequence are read in FIFO order
+// (according to their ChunkID), but don't give any guarantee about the read
+// order of packets from different sequences, see comments in
+// ReadNextTracePacket() below.
+class TraceBuffer {
+ public:
+ static const size_t InlineChunkHeaderSize; // For test/fake_packet.{cc,h}.
+
+ // See comment in the header above.
+ enum OverwritePolicy { kOverwrite, kDiscard };
+
+ // Argument for out-of-band patches applied through TryPatchChunkContents().
+ struct Patch {
+ // From SharedMemoryABI::kPacketHeaderSize.
+ static constexpr size_t kSize = 4;
+
+ size_t offset_untrusted;
+ std::array<uint8_t, kSize> data;
+ };
+
+ // Identifiers that are constant for a packet sequence.
+ struct PacketSequenceProperties {
+ ProducerID producer_id_trusted;
+ ClientIdentity client_identity_trusted;
+ WriterID writer_id;
+
+ uid_t producer_uid_trusted() const { return client_identity_trusted.uid(); }
+ pid_t producer_pid_trusted() const { return client_identity_trusted.pid(); }
+ };
+
+ // Holds the "used chunk" stats for each <Producer, Writer> tuple.
+ struct WriterStats {
+ Histogram<8, 32, 128, 512, 1024, 2048, 4096, 8192, 12288, 16384>
+ used_chunk_hist;
+ };
+
+ using WriterStatsMap = base::FlatHashMap<ProducerAndWriterID,
+ WriterStats,
+ std::hash<ProducerAndWriterID>,
+ base::QuadraticProbe,
+ /*AppendOnly=*/true>;
+
+ // Can return nullptr if the memory allocation fails.
+ static std::unique_ptr<TraceBuffer> Create(size_t size_in_bytes,
+ OverwritePolicy = kOverwrite);
+
+ ~TraceBuffer();
+
+ // Copies a Chunk from a producer Shared Memory Buffer into the trace buffer.
+ // |src| points to the first packet in the SharedMemoryABI's chunk shared with
+ // an untrusted producer. "untrusted" here means: the producer might be
+ // malicious and might change |src| concurrently while we read it (internally
+ // this method memcpy()-s first the chunk before processing it). None of the
+ // arguments should be trusted, unless otherwise stated. We can trust that
+ // |src| points to a valid memory area, but not its contents.
+ //
+ // This method may be called multiple times for the same chunk. In this case,
+ // the original chunk's payload will be overridden and its number of fragments
+ // and flags adjusted to match |num_fragments| and |chunk_flags|. The service
+ // may use this to insert partial chunks (|chunk_complete = false|) before the
+ // producer has committed them.
+ //
+ // If |chunk_complete| is |false|, the TraceBuffer will only consider the
+ // first |num_fragments - 1| packets to be complete, since the producer may
+ // not have finished writing the latest packet. Reading from a sequence will
+ // also not progress past any incomplete chunks until they were rewritten with
+ // |chunk_complete = true|, e.g. after a producer's commit.
+ //
+ // TODO(eseckler): Pass in a PacketStreamProperties instead of individual IDs.
+ void CopyChunkUntrusted(ProducerID producer_id_trusted,
+ const ClientIdentity& client_identity_trusted,
+
+ WriterID writer_id,
+ ChunkID chunk_id,
+ uint16_t num_fragments,
+ uint8_t chunk_flags,
+ bool chunk_complete,
+ const uint8_t* src,
+ size_t size);
+
+ // Applies a batch of |patches| to the given chunk, if the given chunk is
+ // still in the buffer. Does nothing if the given ChunkID is gone.
+ // Returns true if the chunk has been found and patched, false otherwise.
+ // |other_patches_pending| is used to determine whether this is the only
+ // batch of patches for the chunk or there is more.
+ // If |other_patches_pending| == false, the chunk is marked as ready to be
+ // consumed. If true, the state of the chunk is not altered.
+ //
+ // Note: If the producer is batching commits (see shared_memory_arbiter.h), it
+ // will also attempt to do patching locally. Namely, if nested messages are
+ // completed while the chunk on which they started is being batched (i.e.
+ // before it has been committed to the service), the producer will apply the
+ // respective patches to the batched chunk. These patches will not be sent to
+ // the service - i.e. only the patches that the producer did not manage to
+ // apply before committing the chunk will be applied here.
+ bool TryPatchChunkContents(ProducerID,
+ WriterID,
+ ChunkID,
+ const Patch* patches,
+ size_t patches_size,
+ bool other_patches_pending);
+
+ // To read the contents of the buffer the caller needs to:
+ // BeginRead()
+ // while (ReadNextTracePacket(packet_fragments)) { ... }
+ // No other calls to any other method should be interleaved between
+ // BeginRead() and ReadNextTracePacket().
+ // Reads in the TraceBuffer are NOT idempotent.
+ void BeginRead();
+
+ // Returns the next packet in the buffer, if any, and the producer_id,
+ // producer_uid, and writer_id of the producer/writer that wrote it (as passed
+ // in the CopyChunkUntrusted() call). Returns false if no packets can be read
+ // at this point. If a packet was read successfully,
+ // |previous_packet_on_sequence_dropped| is set to |true| if the previous
+ // packet on the sequence was dropped from the buffer before it could be read
+ // (e.g. because its chunk was overridden due to the ring buffer wrapping or
+ // due to an ABI violation), and to |false| otherwise.
+ //
+ // This function returns only complete packets. Specifically:
+ // When there is at least one complete packet in the buffer, this function
+ // returns true and populates the TracePacket argument with the boundaries of
+ // each fragment for one packet.
+ // TracePacket will have at least one slice when this function returns true.
+ // When there are no whole packets eligible to read (e.g. we are still missing
+ // fragments) this function returns false.
+ // This function guarantees also that packets for a given
+ // {ProducerID, WriterID} are read in FIFO order.
+ // This function does not guarantee any ordering w.r.t. packets belonging to
+ // different WriterID(s). For instance, given the following packets copied
+ // into the buffer:
+ // {ProducerID: 1, WriterID: 1}: P1 P2 P3
+ // {ProducerID: 1, WriterID: 2}: P4 P5 P6
+ // {ProducerID: 2, WriterID: 1}: P7 P8 P9
+ // The following read sequence is possible:
+ // P1, P4, P7, P2, P3, P5, P8, P9, P6
+ // But the following is guaranteed to NOT happen:
+ // P1, P5, P7, P4 (P4 cannot come after P5)
+ bool ReadNextTracePacket(TracePacket*,
+ PacketSequenceProperties* sequence_properties,
+ bool* previous_packet_on_sequence_dropped);
+
+ // Creates a read-only clone of the trace buffer. The read iterators of the
+ // new buffer will be reset, as if no Read() had been called. Calls to
+ // CopyChunkUntrusted() and TryPatchChunkContents() on the returned cloned
+ // TraceBuffer will CHECK().
+ std::unique_ptr<TraceBuffer> CloneReadOnly() const;
+
+ void set_read_only() { read_only_ = true; }
+ const WriterStatsMap& writer_stats() const { return writer_stats_; }
+ const TraceStats::BufferStats& stats() const { return stats_; }
+ size_t size() const { return size_; }
+ size_t used_size() const { return used_size_; }
+ OverwritePolicy overwrite_policy() const { return overwrite_policy_; }
+ bool has_data() const { return has_data_; }
+
+ private:
+ friend class TraceBufferTest;
+
+ // ChunkRecord is a Chunk header stored inline in the |data_| buffer, before
+ // the chunk payload (the packets' data). The |data_| buffer looks like this:
+ // +---------------+------------------++---------------+-----------------+
+ // | ChunkRecord 1 | Chunk payload 1 || ChunkRecord 2 | Chunk payload 2 | ...
+ // +---------------+------------------++---------------+-----------------+
+ // Most of the ChunkRecord fields are copied from SharedMemoryABI::ChunkHeader
+ // (the chunk header used in the shared memory buffers).
+ // A ChunkRecord can be a special "padding" record. In this case its payload
+ // should be ignored and the record should be just skipped.
+ //
+ // Full page move optimization:
+ // This struct has to be exactly (sizeof(PageHeader) + sizeof(ChunkHeader))
+ // (from shared_memory_abi.h) to allow full page move optimizations
+ // (TODO(primiano): not implemented yet). In the special case of moving a full
+ // 4k page that contains only one chunk, in fact, we can just ask the kernel
+ // to move the full SHM page (see SPLICE_F_{GIFT,MOVE}) and overlay the
+ // ChunkRecord on top of the moved SMB's header (page + chunk header).
+ // This special requirement is covered by static_assert(s) in the .cc file.
+ struct ChunkRecord {
+ explicit ChunkRecord(size_t sz) : flags{0}, is_padding{0} {
+ PERFETTO_DCHECK(sz >= sizeof(ChunkRecord) &&
+ sz % sizeof(ChunkRecord) == 0 && sz <= kMaxSize);
+ size = static_cast<decltype(size)>(sz);
+ }
+
+ bool is_valid() const { return size != 0; }
+
+ // Keep this structure packed and exactly 16 bytes (128 bits) big.
+
+ // [32 bits] Monotonic counter within the same writer_id.
+ ChunkID chunk_id = 0;
+
+ // [16 bits] ID of the Producer from which the Chunk was copied from.
+ ProducerID producer_id = 0;
+
+ // [16 bits] Unique per Producer (but not within the service).
+ // If writer_id == kWriterIdPadding the record should just be skipped.
+ WriterID writer_id = 0;
+
+ // Number of fragments contained in the chunk.
+ uint16_t num_fragments = 0;
+
+ // Size in bytes, including sizeof(ChunkRecord) itself.
+ uint16_t size;
+
+ uint8_t flags : 6; // See SharedMemoryABI::ChunkHeader::flags.
+ static constexpr size_t kFlagsBitMask = (1 << 6) - 1;
+
+ uint8_t is_padding : 1;
+ uint8_t unused_flag : 1;
+
+ // Not strictly needed, can be reused for more fields in the future. But
+ // right now helps to spot chunks in hex dumps.
+ char unused[3] = {'C', 'H', 'U'};
+
+ static constexpr size_t kMaxSize =
+ std::numeric_limits<decltype(size)>::max();
+ };
+
+ // Lookaside index entry. This serves two purposes:
+ // 1) Allow a fast lookup of ChunkRecord by their ID (the tuple
+ // {ProducerID, WriterID, ChunkID}). This is used when applying out-of-band
+ // patches to the contents of the chunks after they have been copied into
+ // the TraceBuffer.
+ // 2) keep the chunks ordered by their ID. This is used when reading back.
+ // 3) Keep metadata about the status of the chunk, e.g. whether the contents
+ // have been read already and should be skipped in a future read pass.
+ // This struct should not have any field that is essential for reconstructing
+ // the contents of the buffer from a crash dump.
+ struct ChunkMeta {
+ // Key used for sorting in the map.
+ struct Key {
+ Key(ProducerID p, WriterID w, ChunkID c)
+ : producer_id{p}, writer_id{w}, chunk_id{c} {}
+
+ Key(const Key&) noexcept = default;
+ Key& operator=(const Key&) = default;
+
+ explicit Key(const ChunkRecord& cr)
+ : Key(cr.producer_id, cr.writer_id, cr.chunk_id) {}
+
+ // Note that this sorting doesn't keep into account the fact that ChunkID
+ // will wrap over at some point. The extra logic in SequenceIterator deals
+ // with that.
+ bool operator<(const Key& other) const {
+ return std::tie(producer_id, writer_id, chunk_id) <
+ std::tie(other.producer_id, other.writer_id, other.chunk_id);
+ }
+
+ bool operator==(const Key& other) const {
+ return std::tie(producer_id, writer_id, chunk_id) ==
+ std::tie(other.producer_id, other.writer_id, other.chunk_id);
+ }
+
+ bool operator!=(const Key& other) const { return !(*this == other); }
+
+ // These fields should match at all times the corresponding fields in
+ // the |chunk_record|. They are copied here purely for efficiency to avoid
+ // dereferencing the buffer all the time.
+ ProducerID producer_id;
+ WriterID writer_id;
+ ChunkID chunk_id;
+ };
+
+ enum IndexFlags : uint8_t {
+ // If set, the chunk state was kChunkComplete at the time it was copied.
+ // If unset, the chunk was still kChunkBeingWritten while copied. When
+ // reading from the chunk's sequence, the sequence will not advance past
+ // this chunk until this flag is set.
+ kComplete = 1 << 0,
+
+ // If set, we skipped the last packet that we read from this chunk e.g.
+ // because we it was a continuation from a previous chunk that was dropped
+ // or due to an ABI violation.
+ kLastReadPacketSkipped = 1 << 1
+ };
+
+ ChunkMeta(uint32_t _record_off,
+ uint16_t _num_fragments,
+ bool complete,
+ uint8_t _flags,
+ const ClientIdentity& client_identity)
+ : record_off{_record_off},
+ client_identity_trusted(client_identity),
+ flags{_flags},
+ num_fragments{_num_fragments} {
+ if (complete)
+ index_flags = kComplete;
+ }
+
+ ChunkMeta(const ChunkMeta&) noexcept = default;
+
+ bool is_complete() const { return index_flags & kComplete; }
+
+ void set_complete(bool complete) {
+ if (complete) {
+ index_flags |= kComplete;
+ } else {
+ index_flags &= ~kComplete;
+ }
+ }
+
+ bool last_read_packet_skipped() const {
+ return index_flags & kLastReadPacketSkipped;
+ }
+
+ void set_last_read_packet_skipped(bool skipped) {
+ if (skipped) {
+ index_flags |= kLastReadPacketSkipped;
+ } else {
+ index_flags &= ~kLastReadPacketSkipped;
+ }
+ }
+
+ const uint32_t record_off; // Offset of ChunkRecord within |data_|.
+ const ClientIdentity client_identity_trusted;
+ // Flags set by TraceBuffer to track the state of the chunk in the index.
+ uint8_t index_flags = 0;
+
+ // Correspond to |chunk_record->flags| and |chunk_record->num_fragments|.
+ // Copied here for performance reasons (avoids having to dereference
+ // |chunk_record| while iterating over ChunkMeta) and to aid debugging in
+ // case the buffer gets corrupted.
+ uint8_t flags = 0; // See SharedMemoryABI::ChunkHeader::flags.
+ uint16_t num_fragments = 0; // Total number of packet fragments.
+
+ uint16_t num_fragments_read = 0; // Number of fragments already read.
+
+ // The start offset of the next fragment (the |num_fragments_read|-th) to be
+ // read. This is the offset in bytes from the beginning of the ChunkRecord's
+ // payload (the 1st fragment starts at |chunk_record| +
+ // sizeof(ChunkRecord)).
+ uint16_t cur_fragment_offset = 0;
+ };
+
+ using ChunkMap = std::map<ChunkMeta::Key, ChunkMeta>;
+
+ // Allows to iterate over a sub-sequence of |index_| for all keys belonging to
+ // the same {ProducerID,WriterID}. Furthermore takes into account the wrapping
+ // of ChunkID. Instances are valid only as long as the |index_| is not altered
+ // (can be used safely only between adjacent ReadNextTracePacket() calls).
+ // The order of the iteration will proceed in the following order:
+ // |wrapping_id| + 1 -> |seq_end|, |seq_begin| -> |wrapping_id|.
+ // Practical example:
+ // - Assume that kMaxChunkID == 7
+ // - Assume that we have all 8 chunks in the range (0..7).
+ // - Hence, |seq_begin| == c0, |seq_end| == c7
+ // - Assume |wrapping_id| = 4 (c4 is the last chunk copied over
+ // through a CopyChunkUntrusted()).
+ // The resulting iteration order will be: c5, c6, c7, c0, c1, c2, c3, c4.
+ struct SequenceIterator {
+ // Points to the 1st key (the one with the numerically min ChunkID).
+ ChunkMap::iterator seq_begin;
+
+ // Points one past the last key (the one with the numerically max ChunkID).
+ ChunkMap::iterator seq_end;
+
+ // Current iterator, always >= seq_begin && <= seq_end.
+ ChunkMap::iterator cur;
+
+ // The latest ChunkID written. Determines the start/end of the sequence.
+ ChunkID wrapping_id;
+
+ bool is_valid() const { return cur != seq_end; }
+
+ ProducerID producer_id() const {
+ PERFETTO_DCHECK(is_valid());
+ return cur->first.producer_id;
+ }
+
+ WriterID writer_id() const {
+ PERFETTO_DCHECK(is_valid());
+ return cur->first.writer_id;
+ }
+
+ ChunkID chunk_id() const {
+ PERFETTO_DCHECK(is_valid());
+ return cur->first.chunk_id;
+ }
+
+ ChunkMeta& operator*() {
+ PERFETTO_DCHECK(is_valid());
+ return cur->second;
+ }
+
+ // Moves |cur| to the next chunk in the index.
+ // is_valid() will become false after calling this, if this was the last
+ // entry of the sequence.
+ void MoveNext();
+
+ void MoveToEnd() { cur = seq_end; }
+ };
+
+ enum class ReadAheadResult {
+ kSucceededReturnSlices,
+ kFailedMoveToNextSequence,
+ kFailedStayOnSameSequence,
+ };
+
+ enum class ReadPacketResult {
+ kSucceeded,
+ kFailedInvalidPacket,
+ kFailedEmptyPacket,
+ };
+
+ explicit TraceBuffer(OverwritePolicy);
+ TraceBuffer(const TraceBuffer&) = delete;
+ TraceBuffer& operator=(const TraceBuffer&) = delete;
+
+ // Not using the implicit copy ctor to avoid unintended copies.
+ // This tagged ctor should be used only for Clone().
+ struct CloneCtor {};
+ TraceBuffer(CloneCtor, const TraceBuffer&);
+
+ bool Initialize(size_t size);
+
+ // Returns an object that allows to iterate over chunks in the |index_| that
+ // have the same {ProducerID, WriterID} of
+ // |seq_begin.first.{producer,writer}_id|. |seq_begin| must be an iterator to
+ // the first entry in the |index_| that has a different {ProducerID, WriterID}
+ // from the previous one. It is valid for |seq_begin| to be == index_.end()
+ // (i.e. if the index is empty). The iteration takes care of ChunkID wrapping,
+ // by using |last_chunk_id_|.
+ SequenceIterator GetReadIterForSequence(ChunkMap::iterator seq_begin);
+
+ // Used as a last resort when a buffer corruption is detected.
+ void ClearContentsAndResetRWCursors();
+
+ // Adds a padding record of the given size (must be a multiple of
+ // sizeof(ChunkRecord)).
+ void AddPaddingRecord(size_t);
+
+ // Look for contiguous fragment of the same packet starting from |read_iter_|.
+ // If a contiguous packet is found, all the fragments are pushed into
+ // TracePacket and the function returns kSucceededReturnSlices. If not, the
+ // function returns either kFailedMoveToNextSequence or
+ // kFailedStayOnSameSequence, telling the caller to continue looking for
+ // packets.
+ ReadAheadResult ReadAhead(TracePacket*);
+
+ // Deletes (by marking the record invalid and removing form the index) all
+ // chunks from |wptr_| to |wptr_| + |bytes_to_clear|.
+ // Returns:
+ // * The size of the gap left between the next valid Chunk and the end of
+ // the deletion range.
+ // * 0 if no next valid chunk exists (if the buffer is still zeroed).
+ // * -1 if the buffer |overwrite_policy_| == kDiscard and the deletion would
+ // cause unread chunks to be overwritten. In this case the buffer is left
+ // untouched.
+ // Graphically, assume the initial situation is the following (|wptr_| = 10).
+ // |0 |10 (wptr_) |30 |40 |60
+ // +---------+-----------------+---------+-------------------+---------+
+ // | Chunk 1 | Chunk 2 | Chunk 3 | Chunk 4 | Chunk 5 |
+ // +---------+-----------------+---------+-------------------+---------+
+ // |_________Deletion range_______|~~return value~~|
+ //
+ // A call to DeleteNextChunksFor(32) will remove chunks 2,3,4 and return 18
+ // (60 - 42), the distance between chunk 5 and the end of the deletion range.
+ ssize_t DeleteNextChunksFor(size_t bytes_to_clear);
+
+ // Decodes the boundaries of the next packet (or a fragment) pointed by
+ // ChunkMeta and pushes that into |TracePacket|. It also increments the
+ // |num_fragments_read| counter.
+ // TracePacket can be nullptr, in which case the read state is still advanced.
+ // When TracePacket is not nullptr, ProducerID must also be not null and will
+ // be updated with the ProducerID that originally wrote the chunk.
+ ReadPacketResult ReadNextPacketInChunk(ProducerAndWriterID,
+ ChunkMeta*,
+ TracePacket*);
+
+ void DcheckIsAlignedAndWithinBounds(const uint8_t* ptr) const {
+ PERFETTO_DCHECK(ptr >= begin() && ptr <= end() - sizeof(ChunkRecord));
+ PERFETTO_DCHECK(
+ (reinterpret_cast<uintptr_t>(ptr) & (alignof(ChunkRecord) - 1)) == 0);
+ }
+
+ ChunkRecord* GetChunkRecordAt(uint8_t* ptr) {
+ DcheckIsAlignedAndWithinBounds(ptr);
+ // We may be accessing a new (empty) record.
+ EnsureCommitted(static_cast<size_t>(ptr + sizeof(ChunkRecord) - begin()));
+ return reinterpret_cast<ChunkRecord*>(ptr);
+ }
+
+ void EnsureCommitted(size_t size) {
+ PERFETTO_DCHECK(size <= size_);
+ data_.EnsureCommitted(size);
+ used_size_ = std::max(used_size_, size);
+ }
+
+ void DiscardWrite();
+
+ // |src| can be nullptr (in which case |size| must be ==
+ // record.size - sizeof(ChunkRecord)), for the case of writing a padding
+ // record. |wptr_| is NOT advanced by this function, the caller must do that.
+ void WriteChunkRecord(uint8_t* wptr,
+ const ChunkRecord& record,
+ const uint8_t* src,
+ size_t size) {
+ // Note: |record.size| will be slightly bigger than |size| because of the
+ // ChunkRecord header and rounding, to ensure that all ChunkRecord(s) are
+ // multiple of sizeof(ChunkRecord). The invariant is:
+ // record.size >= |size| + sizeof(ChunkRecord) (== if no rounding).
+ PERFETTO_DCHECK(size <= ChunkRecord::kMaxSize);
+ PERFETTO_DCHECK(record.size >= sizeof(record));
+ PERFETTO_DCHECK(record.size % sizeof(record) == 0);
+ PERFETTO_DCHECK(record.size >= size + sizeof(record));
+ DcheckIsAlignedAndWithinBounds(wptr);
+
+ // We may be writing to this area for the first time.
+ EnsureCommitted(static_cast<size_t>(wptr + record.size - begin()));
+
+ // Deliberately not a *D*CHECK.
+ PERFETTO_CHECK(wptr + sizeof(record) + size <= end());
+ memcpy(wptr, &record, sizeof(record));
+ if (PERFETTO_LIKELY(src)) {
+ // If the producer modifies the data in the shared memory buffer while we
+ // are copying it to the central buffer, TSAN will (rightfully) flag that
+ // as a race. However the entire purpose of copying the data into the
+ // central buffer is that we can validate it without worrying that the
+ // producer changes it from under our feet, so this race is benign. The
+ // alternative would be to try computing which part of the buffer is safe
+ // to read (assuming a well-behaving client), but the risk of introducing
+ // a bug that way outweighs the benefit.
+ PERFETTO_ANNOTATE_BENIGN_RACE_SIZED(
+ src, size, "Benign race when copying chunk from shared memory.")
+ memcpy(wptr + sizeof(record), src, size);
+ } else {
+ PERFETTO_DCHECK(size == record.size - sizeof(record));
+ }
+ const size_t rounding_size = record.size - sizeof(record) - size;
+ memset(wptr + sizeof(record) + size, 0, rounding_size);
+ }
+
+ uint32_t GetOffset(const void* _addr) {
+ const uintptr_t addr = reinterpret_cast<uintptr_t>(_addr);
+ const uintptr_t buf_start = reinterpret_cast<uintptr_t>(begin());
+ PERFETTO_DCHECK(addr >= buf_start && addr < buf_start + size_);
+ return static_cast<uint32_t>(addr - buf_start);
+ }
+
+ uint8_t* begin() const { return reinterpret_cast<uint8_t*>(data_.Get()); }
+ uint8_t* end() const { return begin() + size_; }
+ size_t size_to_end() const { return static_cast<size_t>(end() - wptr_); }
+
+ base::PagedMemory data_;
+ size_t size_ = 0; // Size in bytes of |data_|.
+
+ // High watermark. The number of bytes (<= |size_|) written into the buffer
+ // before the first wraparound. This increases as data is written into the
+ // buffer and then saturates at |size_|. Used for CloneReadOnly().
+ size_t used_size_ = 0;
+
+ size_t max_chunk_size_ = 0; // Max size in bytes allowed for a chunk.
+ uint8_t* wptr_ = nullptr; // Write pointer.
+
+ // An index that keeps track of the positions and metadata of each
+ // ChunkRecord.
+ ChunkMap index_;
+
+ // Read iterator used for ReadNext(). It is reset by calling BeginRead().
+ // It becomes invalid after any call to methods that alters the |index_|.
+ SequenceIterator read_iter_;
+
+ // See comments at the top of the file.
+ OverwritePolicy overwrite_policy_ = kOverwrite;
+
+ // This buffer is a read-only snapshot obtained via Clone(). If this is true
+ // calls to CopyChunkUntrusted() and TryPatchChunkContents() will CHECK().
+ bool read_only_ = false;
+
+ // Only used when |overwrite_policy_ == kDiscard|. This is set the first time
+ // a write fails because it would overwrite unread chunks.
+ bool discard_writes_ = false;
+
+ // Keeps track of the highest ChunkID written for a given sequence, taking
+ // into account a potential overflow of ChunkIDs. In the case of overflow,
+ // stores the highest ChunkID written since the overflow.
+ //
+ // TODO(primiano): should clean up keys from this map. Right now it grows
+ // without bounds (although realistically is not a problem unless we have too
+ // many producers/writers within the same trace session).
+ std::map<std::pair<ProducerID, WriterID>, ChunkID> last_chunk_id_written_;
+
+ // Statistics about buffer usage.
+ TraceStats::BufferStats stats_;
+
+ // Per-{Producer, Writer} statistics.
+ WriterStatsMap writer_stats_;
+
+ // Set to true upon the very first call to CopyChunkUntrusted() and never
+ // cleared. This is used to tell if the buffer has never been used since its
+ // creation (which in turn is used to optimize `clear_before_clone`).
+ bool has_data_ = false;
+
+#if PERFETTO_DCHECK_IS_ON()
+ bool changed_since_last_read_ = false;
+#endif
+
+ // When true disable some DCHECKs that have been put in place to detect
+ // bugs in the producers. This is for tests that feed malicious inputs and
+ // hence mimic a buggy producer.
+ bool suppress_client_dchecks_for_testing_ = false;
+};
+
+} // namespace perfetto
+
+#endif // SRC_TRACING_SERVICE_TRACE_BUFFER_H_
+/*
+ * Copyright (C) 2018 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "src/tracing/service/trace_buffer.h"
+
+#include <limits>
+
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/utils.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/client_identity.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/shared_memory_abi.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/trace_packet.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+#define TRACE_BUFFER_VERBOSE_LOGGING() 0 // Set to 1 when debugging unittests.
+#if TRACE_BUFFER_VERBOSE_LOGGING()
+#define TRACE_BUFFER_DLOG PERFETTO_DLOG
+#else
+#define TRACE_BUFFER_DLOG(...) void()
+#endif
+
+namespace perfetto {
+
+namespace {
+constexpr uint8_t kFirstPacketContinuesFromPrevChunk =
+ SharedMemoryABI::ChunkHeader::kFirstPacketContinuesFromPrevChunk;
+constexpr uint8_t kLastPacketContinuesOnNextChunk =
+ SharedMemoryABI::ChunkHeader::kLastPacketContinuesOnNextChunk;
+constexpr uint8_t kChunkNeedsPatching =
+ SharedMemoryABI::ChunkHeader::kChunkNeedsPatching;
+} // namespace.
+
+const size_t TraceBuffer::InlineChunkHeaderSize = sizeof(ChunkRecord);
+
+// static
+std::unique_ptr<TraceBuffer> TraceBuffer::Create(size_t size_in_bytes,
+ OverwritePolicy pol) {
+ std::unique_ptr<TraceBuffer> trace_buffer(new TraceBuffer(pol));
+ if (!trace_buffer->Initialize(size_in_bytes))
+ return nullptr;
+ return trace_buffer;
+}
+
+TraceBuffer::TraceBuffer(OverwritePolicy pol) : overwrite_policy_(pol) {
+ // See comments in ChunkRecord for the rationale of this.
+ static_assert(sizeof(ChunkRecord) == sizeof(SharedMemoryABI::PageHeader) +
+ sizeof(SharedMemoryABI::ChunkHeader),
+ "ChunkRecord out of sync with the layout of SharedMemoryABI");
+}
+
+TraceBuffer::~TraceBuffer() = default;
+
+bool TraceBuffer::Initialize(size_t size) {
+ static_assert(
+ SharedMemoryABI::kMinPageSize % sizeof(ChunkRecord) == 0,
+ "sizeof(ChunkRecord) must be an integer divider of a page size");
+ auto max_size = std::numeric_limits<decltype(ChunkMeta::record_off)>::max();
+ PERFETTO_CHECK(size <= static_cast<size_t>(max_size));
+ data_ = base::PagedMemory::Allocate(
+ size, base::PagedMemory::kMayFail | base::PagedMemory::kDontCommit);
+ if (!data_.IsValid()) {
+ PERFETTO_ELOG("Trace buffer allocation failed (size: %zu)", size);
+ return false;
+ }
+ size_ = size;
+ used_size_ = 0;
+ stats_.set_buffer_size(size);
+ max_chunk_size_ = std::min(size, ChunkRecord::kMaxSize);
+ wptr_ = begin();
+ index_.clear();
+ last_chunk_id_written_.clear();
+ read_iter_ = GetReadIterForSequence(index_.end());
+ return true;
+}
+
+// Note: |src| points to a shmem region that is shared with the producer. Assume
+// that the producer is malicious and will change the content of |src|
+// while we execute here. Don't do any processing on it other than memcpy().
+void TraceBuffer::CopyChunkUntrusted(
+ ProducerID producer_id_trusted,
+ const ClientIdentity& client_identity_trusted,
+ WriterID writer_id,
+ ChunkID chunk_id,
+ uint16_t num_fragments,
+ uint8_t chunk_flags,
+ bool chunk_complete,
+ const uint8_t* src,
+ size_t size) {
+ PERFETTO_CHECK(!read_only_);
+
+ // |record_size| = |size| + sizeof(ChunkRecord), rounded up to avoid to end
+ // up in a fragmented state where size_to_end() < sizeof(ChunkRecord).
+ const size_t record_size =
+ base::AlignUp<sizeof(ChunkRecord)>(size + sizeof(ChunkRecord));
+ TRACE_BUFFER_DLOG("CopyChunk @ %" PRIdPTR ", size=%zu", wptr_ - begin(), record_size);
+ if (PERFETTO_UNLIKELY(record_size > max_chunk_size_)) {
+ stats_.set_abi_violations(stats_.abi_violations() + 1);
+ PERFETTO_DCHECK(suppress_client_dchecks_for_testing_);
+ return;
+ }
+
+ has_data_ = true;
+#if PERFETTO_DCHECK_IS_ON()
+ changed_since_last_read_ = true;
+#endif
+
+ // If the chunk hasn't been completed, we should only consider the first
+ // |num_fragments - 1| packets complete. For simplicity, we simply disregard
+ // the last one when we copy the chunk.
+ if (PERFETTO_UNLIKELY(!chunk_complete)) {
+ if (num_fragments > 0) {
+ num_fragments--;
+ // These flags should only affect the last packet in the chunk. We clear
+ // them, so that TraceBuffer is able to look at the remaining packets in
+ // this chunk.
+ chunk_flags &= ~kLastPacketContinuesOnNextChunk;
+ chunk_flags &= ~kChunkNeedsPatching;
+ }
+ }
+
+ ChunkRecord record(record_size);
+ record.producer_id = producer_id_trusted;
+ record.chunk_id = chunk_id;
+ record.writer_id = writer_id;
+ record.num_fragments = num_fragments;
+ record.flags = chunk_flags & ChunkRecord::kFlagsBitMask;
+ ChunkMeta::Key key(record);
+
+ // Check whether we have already copied the same chunk previously. This may
+ // happen if the service scrapes chunks in a potentially incomplete state
+ // before receiving commit requests for them from the producer. Note that the
+ // service may scrape and thus override chunks in arbitrary order since the
+ // chunks aren't ordered in the SMB.
+ const auto it = index_.find(key);
+ if (PERFETTO_UNLIKELY(it != index_.end())) {
+ ChunkMeta* record_meta = &it->second;
+ ChunkRecord* prev = GetChunkRecordAt(begin() + record_meta->record_off);
+
+ // Verify that the old chunk's metadata corresponds to the new one.
+ // Overridden chunks should never change size, since the page layout is
+ // fixed per writer. The number of fragments should also never decrease and
+ // flags should not be removed.
+ if (PERFETTO_UNLIKELY(ChunkMeta::Key(*prev) != key ||
+ prev->size != record_size ||
+ prev->num_fragments > num_fragments ||
+ (prev->flags & chunk_flags) != prev->flags)) {
+ stats_.set_abi_violations(stats_.abi_violations() + 1);
+ PERFETTO_DCHECK(suppress_client_dchecks_for_testing_);
+ return;
+ }
+
+ // If this chunk was previously copied with the same number of fragments and
+ // the number didn't change, there's no need to copy it again. If the
+ // previous chunk was complete already, this should always be the case.
+ PERFETTO_DCHECK(suppress_client_dchecks_for_testing_ ||
+ !record_meta->is_complete() ||
+ (chunk_complete && prev->num_fragments == num_fragments));
+ if (prev->num_fragments == num_fragments) {
+ TRACE_BUFFER_DLOG(" skipping recommit of identical chunk");
+ return;
+ }
+
+ // If we've already started reading from chunk N+1 following this chunk N,
+ // don't override chunk N. Otherwise we may end up reading a packet from
+ // chunk N after having read from chunk N+1, thereby violating sequential
+ // read of packets. This shouldn't happen if the producer is well-behaved,
+ // because it shouldn't start chunk N+1 before completing chunk N.
+ ChunkMeta::Key subsequent_key = key;
+ static_assert(std::numeric_limits<ChunkID>::max() == kMaxChunkID,
+ "ChunkID wraps");
+ subsequent_key.chunk_id++;
+ const auto subsequent_it = index_.find(subsequent_key);
+ if (subsequent_it != index_.end() &&
+ subsequent_it->second.num_fragments_read > 0) {
+ stats_.set_abi_violations(stats_.abi_violations() + 1);
+ PERFETTO_DCHECK(suppress_client_dchecks_for_testing_);
+ return;
+ }
+
+ // We should not have read past the last packet.
+ if (record_meta->num_fragments_read > prev->num_fragments) {
+ PERFETTO_ELOG(
+ "TraceBuffer read too many fragments from an incomplete chunk");
+ PERFETTO_DCHECK(suppress_client_dchecks_for_testing_);
+ return;
+ }
+
+ uint8_t* wptr = reinterpret_cast<uint8_t*>(prev);
+ TRACE_BUFFER_DLOG(" overriding chunk @ %" PRIdPTR ", size=%zu", wptr - begin(),
+ record_size);
+
+ // Update chunk meta data stored in the index, as it may have changed.
+ record_meta->num_fragments = num_fragments;
+ record_meta->flags = chunk_flags;
+ record_meta->set_complete(chunk_complete);
+
+ // Override the ChunkRecord contents at the original |wptr|.
+ TRACE_BUFFER_DLOG(" copying @ [%" PRIdPTR " - %" PRIdPTR "] %zu", wptr - begin(),
+ uintptr_t(wptr - begin()) + record_size, record_size);
+ WriteChunkRecord(wptr, record, src, size);
+ TRACE_BUFFER_DLOG("Chunk raw: %s",
+ base::HexDump(wptr, record_size).c_str());
+ stats_.set_chunks_rewritten(stats_.chunks_rewritten() + 1);
+ return;
+ }
+
+ if (PERFETTO_UNLIKELY(discard_writes_))
+ return DiscardWrite();
+
+ // If there isn't enough room from the given write position. Write a padding
+ // record to clear the end of the buffer and wrap back.
+ const size_t cached_size_to_end = size_to_end();
+ if (PERFETTO_UNLIKELY(record_size > cached_size_to_end)) {
+ ssize_t res = DeleteNextChunksFor(cached_size_to_end);
+ if (res == -1)
+ return DiscardWrite();
+ PERFETTO_DCHECK(static_cast<size_t>(res) <= cached_size_to_end);
+ AddPaddingRecord(cached_size_to_end);
+ wptr_ = begin();
+ stats_.set_write_wrap_count(stats_.write_wrap_count() + 1);
+ PERFETTO_DCHECK(size_to_end() >= record_size);
+ }
+
+ // At this point either |wptr_| points to an untouched part of the buffer
+ // (i.e. *wptr_ == 0) or we are about to overwrite one or more ChunkRecord(s).
+ // In the latter case we need to first figure out where the next valid
+ // ChunkRecord is (if it exists) and add padding between the new record.
+ // Example ((w) == write cursor):
+ //
+ // Initial state (wtpr_ == 0):
+ // |0 (w) |10 |30 |50
+ // +---------+-----------------+--------------------+--------------------+
+ // | Chunk 1 | Chunk 2 | Chunk 3 | Chunk 4 |
+ // +---------+-----------------+--------------------+--------------------+
+ //
+ // Let's assume we now want now write a 5th Chunk of size == 35. The final
+ // state should look like this:
+ // |0 |35 (w) |50
+ // +---------------------------------+---------------+--------------------+
+ // | Chunk 5 | Padding Chunk | Chunk 4 |
+ // +---------------------------------+---------------+--------------------+
+
+ // Deletes all chunks from |wptr_| to |wptr_| + |record_size|.
+ ssize_t del_res = DeleteNextChunksFor(record_size);
+ if (del_res == -1)
+ return DiscardWrite();
+ size_t padding_size = static_cast<size_t>(del_res);
+
+ // Now first insert the new chunk. At the end, if necessary, add the padding.
+ stats_.set_chunks_written(stats_.chunks_written() + 1);
+ stats_.set_bytes_written(stats_.bytes_written() + record_size);
+
+ uint32_t chunk_off = GetOffset(GetChunkRecordAt(wptr_));
+ auto it_and_inserted =
+ index_.emplace(key, ChunkMeta(chunk_off, num_fragments, chunk_complete,
+ chunk_flags, client_identity_trusted));
+ PERFETTO_DCHECK(it_and_inserted.second);
+ TRACE_BUFFER_DLOG(" copying @ [%" PRIdPTR " - %" PRIdPTR "] %zu", wptr_ - begin(),
+ uintptr_t(wptr_ - begin()) + record_size, record_size);
+ WriteChunkRecord(wptr_, record, src, size);
+ TRACE_BUFFER_DLOG("Chunk raw: %s", base::HexDump(wptr_, record_size).c_str());
+ wptr_ += record_size;
+ if (wptr_ >= end()) {
+ PERFETTO_DCHECK(padding_size == 0);
+ wptr_ = begin();
+ stats_.set_write_wrap_count(stats_.write_wrap_count() + 1);
+ }
+ DcheckIsAlignedAndWithinBounds(wptr_);
+
+ // Chunks may be received out of order, so only update last_chunk_id if the
+ // new chunk_id is larger. But take into account overflows by only selecting
+ // the new ID if its distance to the latest ID is smaller than half the number
+ // space.
+ //
+ // This accounts for both the case where the new ID has just overflown and
+ // last_chunk_id be updated even though it's smaller (e.g. |chunk_id| = 1 and
+ // |last_chunk_id| = kMaxChunkId; chunk_id - last_chunk_id = 0) and the case
+ // where the new ID is an out-of-order ID right after an overflow and
+ // last_chunk_id shouldn't be updated even though it's larger (e.g. |chunk_id|
+ // = kMaxChunkId and |last_chunk_id| = 1; chunk_id - last_chunk_id =
+ // kMaxChunkId - 1).
+ auto producer_and_writer_id = std::make_pair(producer_id_trusted, writer_id);
+ ChunkID& last_chunk_id = last_chunk_id_written_[producer_and_writer_id];
+ static_assert(std::numeric_limits<ChunkID>::max() == kMaxChunkID,
+ "This code assumes that ChunkID wraps at kMaxChunkID");
+ if (chunk_id - last_chunk_id < kMaxChunkID / 2) {
+ last_chunk_id = chunk_id;
+ } else {
+ stats_.set_chunks_committed_out_of_order(
+ stats_.chunks_committed_out_of_order() + 1);
+ }
+
+ if (padding_size)
+ AddPaddingRecord(padding_size);
+}
+
+ssize_t TraceBuffer::DeleteNextChunksFor(size_t bytes_to_clear) {
+ PERFETTO_CHECK(!discard_writes_);
+
+ // Find the position of the first chunk which begins at or after
+ // (|wptr_| + |bytes|). Note that such a chunk might not exist and we might
+ // either reach the end of the buffer or a zeroed region of the buffer.
+ uint8_t* next_chunk_ptr = wptr_;
+ uint8_t* search_end = wptr_ + bytes_to_clear;
+ TRACE_BUFFER_DLOG("Delete [%zu %zu]", wptr_ - begin(), search_end - begin());
+ DcheckIsAlignedAndWithinBounds(wptr_);
+ PERFETTO_DCHECK(search_end <= end());
+ std::vector<ChunkMap::iterator> index_delete;
+ uint64_t chunks_overwritten = stats_.chunks_overwritten();
+ uint64_t bytes_overwritten = stats_.bytes_overwritten();
+ uint64_t padding_bytes_cleared = stats_.padding_bytes_cleared();
+ while (next_chunk_ptr < search_end) {
+ const ChunkRecord& next_chunk = *GetChunkRecordAt(next_chunk_ptr);
+ TRACE_BUFFER_DLOG(
+ " scanning chunk [%zu %zu] (valid=%d)", next_chunk_ptr - begin(),
+ next_chunk_ptr - begin() + next_chunk.size, next_chunk.is_valid());
+
+ // We just reached the untouched part of the buffer, it's going to be all
+ // zeroes from here to end().
+ // Optimization: if during Initialize() we fill the buffer with padding
+ // records we could get rid of this branch.
+ if (PERFETTO_UNLIKELY(!next_chunk.is_valid())) {
+ // This should happen only at the first iteration. The zeroed area can
+ // only begin precisely at the |wptr_|, not after. Otherwise it means that
+ // we wrapped but screwed up the ChunkRecord chain.
+ PERFETTO_DCHECK(next_chunk_ptr == wptr_);
+ return 0;
+ }
+
+ // Remove |next_chunk| from the index, unless it's a padding record (padding
+ // records are not part of the index).
+ if (PERFETTO_LIKELY(!next_chunk.is_padding)) {
+ ChunkMeta::Key key(next_chunk);
+ auto it = index_.find(key);
+ bool will_remove = false;
+ if (PERFETTO_LIKELY(it != index_.end())) {
+ const ChunkMeta& meta = it->second;
+ if (PERFETTO_UNLIKELY(meta.num_fragments_read < meta.num_fragments)) {
+ if (overwrite_policy_ == kDiscard)
+ return -1;
+ chunks_overwritten++;
+ bytes_overwritten += next_chunk.size;
+ }
+ index_delete.push_back(it);
+ will_remove = true;
+ }
+ TRACE_BUFFER_DLOG(
+ " del index {%" PRIu32 ",%" PRIu32 ",%u} @ [%" PRIdPTR " - %" PRIdPTR "] %d",
+ key.producer_id, key.writer_id, key.chunk_id,
+ next_chunk_ptr - begin(), next_chunk_ptr - begin() + next_chunk.size,
+ will_remove);
+ PERFETTO_DCHECK(will_remove);
+ } else {
+ padding_bytes_cleared += next_chunk.size;
+ }
+
+ next_chunk_ptr += next_chunk.size;
+
+ // We should never hit this, unless we managed to screw up while writing
+ // to the buffer and breaking the ChunkRecord(s) chain.
+ // TODO(primiano): Write more meaningful logging with the status of the
+ // buffer, to get more actionable bugs in case we hit this.
+ PERFETTO_CHECK(next_chunk_ptr <= end());
+ }
+
+ // Remove from the index.
+ for (auto it : index_delete) {
+ index_.erase(it);
+ }
+ stats_.set_chunks_overwritten(chunks_overwritten);
+ stats_.set_bytes_overwritten(bytes_overwritten);
+ stats_.set_padding_bytes_cleared(padding_bytes_cleared);
+
+ PERFETTO_DCHECK(next_chunk_ptr >= search_end && next_chunk_ptr <= end());
+ return static_cast<ssize_t>(next_chunk_ptr - search_end);
+}
+
+void TraceBuffer::AddPaddingRecord(size_t size) {
+ PERFETTO_DCHECK(size >= sizeof(ChunkRecord) && size <= ChunkRecord::kMaxSize);
+ ChunkRecord record(size);
+ record.is_padding = 1;
+ TRACE_BUFFER_DLOG("AddPaddingRecord @ [%" PRIdPTR " - %" PRIdPTR "] %zu", wptr_ - begin(),
+ uintptr_t(wptr_ - begin()) + size, size);
+ WriteChunkRecord(wptr_, record, nullptr, size - sizeof(ChunkRecord));
+ stats_.set_padding_bytes_written(stats_.padding_bytes_written() + size);
+ // |wptr_| is deliberately not advanced when writing a padding record.
+}
+
+bool TraceBuffer::TryPatchChunkContents(ProducerID producer_id,
+ WriterID writer_id,
+ ChunkID chunk_id,
+ const Patch* patches,
+ size_t patches_size,
+ bool other_patches_pending) {
+ PERFETTO_CHECK(!read_only_);
+ ChunkMeta::Key key(producer_id, writer_id, chunk_id);
+ auto it = index_.find(key);
+ if (it == index_.end()) {
+ stats_.set_patches_failed(stats_.patches_failed() + 1);
+ return false;
+ }
+ ChunkMeta& chunk_meta = it->second;
+
+ // Check that the index is consistent with the actual ProducerID/WriterID
+ // stored in the ChunkRecord.
+
+ ChunkRecord* chunk_record = GetChunkRecordAt(begin() + chunk_meta.record_off);
+ PERFETTO_DCHECK(ChunkMeta::Key(*chunk_record) == key);
+ uint8_t* chunk_begin = reinterpret_cast<uint8_t*>(chunk_record);
+ PERFETTO_DCHECK(chunk_begin >= begin());
+ uint8_t* chunk_end = chunk_begin + chunk_record->size;
+ PERFETTO_DCHECK(chunk_end <= end());
+
+ static_assert(Patch::kSize == SharedMemoryABI::kPacketHeaderSize,
+ "Patch::kSize out of sync with SharedMemoryABI");
+
+ for (size_t i = 0; i < patches_size; i++) {
+ uint8_t* ptr =
+ chunk_begin + sizeof(ChunkRecord) + patches[i].offset_untrusted;
+ TRACE_BUFFER_DLOG("PatchChunk {%" PRIu32 ",%" PRIu32
+ ",%u} size=%zu @ %zu with {%02x %02x %02x %02x} cur "
+ "{%02x %02x %02x %02x}",
+ producer_id, writer_id, chunk_id, chunk_end - chunk_begin,
+ patches[i].offset_untrusted, patches[i].data[0],
+ patches[i].data[1], patches[i].data[2],
+ patches[i].data[3], ptr[0], ptr[1], ptr[2], ptr[3]);
+ if (ptr < chunk_begin + sizeof(ChunkRecord) ||
+ ptr > chunk_end - Patch::kSize) {
+ // Either the IPC was so slow and in the meantime the writer managed to
+ // wrap over |chunk_id| or the producer sent a malicious IPC.
+ stats_.set_patches_failed(stats_.patches_failed() + 1);
+ return false;
+ }
+
+ memcpy(ptr, &patches[i].data[0], Patch::kSize);
+ }
+ TRACE_BUFFER_DLOG("Chunk raw (after patch): %s",
+ base::HexDump(chunk_begin, chunk_record->size).c_str());
+
+ stats_.set_patches_succeeded(stats_.patches_succeeded() + patches_size);
+ if (!other_patches_pending) {
+ chunk_meta.flags &= ~kChunkNeedsPatching;
+ chunk_record->flags = chunk_meta.flags & ChunkRecord::kFlagsBitMask;
+ }
+ return true;
+}
+
+void TraceBuffer::BeginRead() {
+ read_iter_ = GetReadIterForSequence(index_.begin());
+#if PERFETTO_DCHECK_IS_ON()
+ changed_since_last_read_ = false;
+#endif
+}
+
+TraceBuffer::SequenceIterator TraceBuffer::GetReadIterForSequence(
+ ChunkMap::iterator seq_begin) {
+ SequenceIterator iter;
+ iter.seq_begin = seq_begin;
+ if (seq_begin == index_.end()) {
+ iter.cur = iter.seq_end = index_.end();
+ return iter;
+ }
+
+#if PERFETTO_DCHECK_IS_ON()
+ // Either |seq_begin| is == index_.begin() or the item immediately before must
+ // belong to a different {ProducerID, WriterID} sequence.
+ if (seq_begin != index_.begin() && seq_begin != index_.end()) {
+ auto prev_it = seq_begin;
+ prev_it--;
+ PERFETTO_DCHECK(
+ seq_begin == index_.begin() ||
+ std::tie(prev_it->first.producer_id, prev_it->first.writer_id) <
+ std::tie(seq_begin->first.producer_id, seq_begin->first.writer_id));
+ }
+#endif
+
+ // Find the first entry that has a greater {ProducerID, WriterID} (or just
+ // index_.end() if we reached the end).
+ ChunkMeta::Key key = seq_begin->first; // Deliberate copy.
+ key.chunk_id = kMaxChunkID;
+ iter.seq_end = index_.upper_bound(key);
+ PERFETTO_DCHECK(iter.seq_begin != iter.seq_end);
+
+ // Now find the first entry between [seq_begin, seq_end) that is
+ // > last_chunk_id_written_. This is where we the sequence will start (see
+ // notes about wrapping of IDs in the header).
+ auto producer_and_writer_id = std::make_pair(key.producer_id, key.writer_id);
+ PERFETTO_DCHECK(last_chunk_id_written_.count(producer_and_writer_id));
+ iter.wrapping_id = last_chunk_id_written_[producer_and_writer_id];
+ key.chunk_id = iter.wrapping_id;
+ iter.cur = index_.upper_bound(key);
+ if (iter.cur == iter.seq_end)
+ iter.cur = iter.seq_begin;
+ return iter;
+}
+
+void TraceBuffer::SequenceIterator::MoveNext() {
+ // Stop iterating when we reach the end of the sequence.
+ // Note: |seq_begin| might be == |seq_end|.
+ if (cur == seq_end || cur->first.chunk_id == wrapping_id) {
+ cur = seq_end;
+ return;
+ }
+
+ // If the current chunk wasn't completed yet, we shouldn't advance past it as
+ // it may be rewritten with additional packets.
+ if (!cur->second.is_complete()) {
+ cur = seq_end;
+ return;
+ }
+
+ ChunkID last_chunk_id = cur->first.chunk_id;
+ if (++cur == seq_end)
+ cur = seq_begin;
+
+ // There may be a missing chunk in the sequence of chunks, in which case the
+ // next chunk's ID won't follow the last one's. If so, skip the rest of the
+ // sequence. We'll return to it later once the hole is filled.
+ if (last_chunk_id + 1 != cur->first.chunk_id)
+ cur = seq_end;
+}
+
+bool TraceBuffer::ReadNextTracePacket(
+ TracePacket* packet,
+ PacketSequenceProperties* sequence_properties,
+ bool* previous_packet_on_sequence_dropped) {
+ // Note: MoveNext() moves only within the next chunk within the same
+ // {ProducerID, WriterID} sequence. Here we want to:
+ // - return the next patched+complete packet in the current sequence, if any.
+ // - return the first patched+complete packet in the next sequence, if any.
+ // - return false if none of the above is found.
+ TRACE_BUFFER_DLOG("ReadNextTracePacket()");
+
+ // Just in case we forget to initialize these below.
+ *sequence_properties = {0, ClientIdentity(), 0};
+ *previous_packet_on_sequence_dropped = false;
+
+ // At the start of each sequence iteration, we consider the last read packet
+ // dropped. While iterating over the chunks in the sequence, we update this
+ // flag based on our knowledge about the last packet that was read from each
+ // chunk (|last_read_packet_skipped| in ChunkMeta).
+ bool previous_packet_dropped = true;
+
+#if PERFETTO_DCHECK_IS_ON()
+ PERFETTO_DCHECK(!changed_since_last_read_);
+#endif
+ for (;; read_iter_.MoveNext()) {
+ if (PERFETTO_UNLIKELY(!read_iter_.is_valid())) {
+ // We ran out of chunks in the current {ProducerID, WriterID} sequence or
+ // we just reached the index_.end().
+
+ if (PERFETTO_UNLIKELY(read_iter_.seq_end == index_.end()))
+ return false;
+
+ // We reached the end of sequence, move to the next one.
+ // Note: ++read_iter_.seq_end might become index_.end(), but
+ // GetReadIterForSequence() knows how to deal with that.
+ read_iter_ = GetReadIterForSequence(read_iter_.seq_end);
+ PERFETTO_DCHECK(read_iter_.is_valid() && read_iter_.cur != index_.end());
+ previous_packet_dropped = true;
+ }
+
+ ChunkMeta* chunk_meta = &*read_iter_;
+
+ // If the chunk has holes that are awaiting to be patched out-of-band,
+ // skip the current sequence and move to the next one.
+ if (chunk_meta->flags & kChunkNeedsPatching) {
+ read_iter_.MoveToEnd();
+ continue;
+ }
+
+ const ProducerID trusted_producer_id = read_iter_.producer_id();
+ const WriterID writer_id = read_iter_.writer_id();
+ const ProducerAndWriterID producer_and_writer_id =
+ MkProducerAndWriterID(trusted_producer_id, writer_id);
+ const ClientIdentity& client_identity = chunk_meta->client_identity_trusted;
+
+ // At this point we have a chunk in |chunk_meta| that has not been fully
+ // read. We don't know yet whether we have enough data to read the full
+ // packet (in the case it's fragmented over several chunks) and we are about
+ // to find that out. Specifically:
+ // A) If the first fragment is unread and is a fragment continuing from a
+ // previous chunk, it means we have missed the previous ChunkID. In
+ // fact, if this wasn't the case, a previous call to ReadNext() shouldn't
+ // have moved the cursor to this chunk.
+ // B) Any fragment > 0 && < last is always readable. By definition an inner
+ // packet is never fragmented and hence doesn't require neither stitching
+ // nor any out-of-band patching. The same applies to the last packet
+ // iff it doesn't continue on the next chunk.
+ // C) If the last packet (which might be also the only packet in the chunk)
+ // is a fragment and continues on the next chunk, we peek at the next
+ // chunks and, if we have all of them, mark as read and move the cursor.
+ //
+ // +---------------+ +-------------------+ +---------------+
+ // | ChunkID: 1 | | ChunkID: 2 | | ChunkID: 3 |
+ // |---------------+ +-------------------+ +---------------+
+ // | Packet 1 | | | | ... Packet 3 |
+ // | Packet 2 | | ... Packet 3 ... | | Packet 4 |
+ // | Packet 3 ... | | | | Packet 5 ... |
+ // +---------------+ +-------------------+ +---------------+
+
+ PERFETTO_DCHECK(chunk_meta->num_fragments_read <=
+ chunk_meta->num_fragments);
+
+ // If we didn't read any packets from this chunk, the last packet was from
+ // the previous chunk we iterated over; so don't update
+ // |previous_packet_dropped| in this case.
+ if (chunk_meta->num_fragments_read > 0)
+ previous_packet_dropped = chunk_meta->last_read_packet_skipped();
+
+ while (chunk_meta->num_fragments_read < chunk_meta->num_fragments) {
+ enum { kSkip = 0, kReadOnePacket, kTryReadAhead } action;
+ if (chunk_meta->num_fragments_read == 0) {
+ if (chunk_meta->flags & kFirstPacketContinuesFromPrevChunk) {
+ action = kSkip; // Case A.
+ } else if (chunk_meta->num_fragments == 1 &&
+ (chunk_meta->flags & kLastPacketContinuesOnNextChunk)) {
+ action = kTryReadAhead; // Case C.
+ } else {
+ action = kReadOnePacket; // Case B.
+ }
+ } else if (chunk_meta->num_fragments_read <
+ chunk_meta->num_fragments - 1 ||
+ !(chunk_meta->flags & kLastPacketContinuesOnNextChunk)) {
+ action = kReadOnePacket; // Case B.
+ } else {
+ action = kTryReadAhead; // Case C.
+ }
+
+ TRACE_BUFFER_DLOG(" chunk %u, packet %hu of %hu, action=%d",
+ read_iter_.chunk_id(), chunk_meta->num_fragments_read,
+ chunk_meta->num_fragments, action);
+
+ if (action == kSkip) {
+ // This fragment will be skipped forever, not just in this ReadPacket()
+ // iteration. This happens by virtue of ReadNextPacketInChunk()
+ // incrementing the |num_fragments_read| and marking the fragment as
+ // read even if we didn't really.
+ ReadNextPacketInChunk(producer_and_writer_id, chunk_meta, nullptr);
+ chunk_meta->set_last_read_packet_skipped(true);
+ previous_packet_dropped = true;
+ continue;
+ }
+
+ if (action == kReadOnePacket) {
+ // The easy peasy case B.
+ ReadPacketResult result =
+ ReadNextPacketInChunk(producer_and_writer_id, chunk_meta, packet);
+
+ if (PERFETTO_LIKELY(result == ReadPacketResult::kSucceeded)) {
+ *sequence_properties = {trusted_producer_id, client_identity,
+ writer_id};
+ *previous_packet_on_sequence_dropped = previous_packet_dropped;
+ return true;
+ } else if (result == ReadPacketResult::kFailedEmptyPacket) {
+ // We can ignore and skip empty packets.
+ PERFETTO_DCHECK(packet->slices().empty());
+ continue;
+ }
+
+ // In extremely rare cases (producer bugged / malicious) the chunk might
+ // contain an invalid fragment. In such case we don't want to stall the
+ // sequence but just skip the chunk and move on. ReadNextPacketInChunk()
+ // marks the chunk as fully read, so we don't attempt to read from it
+ // again in a future call to ReadBuffers(). It also already records an
+ // abi violation for this.
+ PERFETTO_DCHECK(result == ReadPacketResult::kFailedInvalidPacket);
+ chunk_meta->set_last_read_packet_skipped(true);
+ previous_packet_dropped = true;
+ break;
+ }
+
+ PERFETTO_DCHECK(action == kTryReadAhead);
+ ReadAheadResult ra_res = ReadAhead(packet);
+ if (ra_res == ReadAheadResult::kSucceededReturnSlices) {
+ stats_.set_readaheads_succeeded(stats_.readaheads_succeeded() + 1);
+ *sequence_properties = {trusted_producer_id, client_identity,
+ writer_id};
+ *previous_packet_on_sequence_dropped = previous_packet_dropped;
+ return true;
+ }
+
+ if (ra_res == ReadAheadResult::kFailedMoveToNextSequence) {
+ // readahead didn't find a contiguous packet sequence. We'll try again
+ // on the next ReadPacket() call.
+ stats_.set_readaheads_failed(stats_.readaheads_failed() + 1);
+
+ // TODO(primiano): optimization: this MoveToEnd() is the reason why
+ // MoveNext() (that is called in the outer for(;;MoveNext)) needs to
+ // deal gracefully with the case of |cur|==|seq_end|. Maybe we can do
+ // something to avoid that check by reshuffling the code here?
+ read_iter_.MoveToEnd();
+
+ // This break will go back to beginning of the for(;;MoveNext()). That
+ // will move to the next sequence because we set the read iterator to
+ // its end.
+ break;
+ }
+
+ PERFETTO_DCHECK(ra_res == ReadAheadResult::kFailedStayOnSameSequence);
+
+ // In this case ReadAhead() might advance |read_iter_|, so we need to
+ // re-cache the |chunk_meta| pointer to point to the current chunk.
+ chunk_meta = &*read_iter_;
+ chunk_meta->set_last_read_packet_skipped(true);
+ previous_packet_dropped = true;
+ } // while(...) [iterate over packet fragments for the current chunk].
+ } // for(;;MoveNext()) [iterate over chunks].
+}
+
+TraceBuffer::ReadAheadResult TraceBuffer::ReadAhead(TracePacket* packet) {
+ static_assert(static_cast<ChunkID>(kMaxChunkID + 1) == 0,
+ "relying on kMaxChunkID to wrap naturally");
+ TRACE_BUFFER_DLOG(" readahead start @ chunk %u", read_iter_.chunk_id());
+ ChunkID next_chunk_id = read_iter_.chunk_id() + 1;
+ SequenceIterator it = read_iter_;
+ for (it.MoveNext(); it.is_valid(); it.MoveNext(), next_chunk_id++) {
+ // We should stay within the same sequence while iterating here.
+ PERFETTO_DCHECK(it.producer_id() == read_iter_.producer_id() &&
+ it.writer_id() == read_iter_.writer_id());
+
+ TRACE_BUFFER_DLOG(" expected chunk ID: %u, actual ID: %u", next_chunk_id,
+ it.chunk_id());
+
+ if (PERFETTO_UNLIKELY((*it).num_fragments == 0))
+ continue;
+
+ // If we miss the next chunk, stop looking in the current sequence and
+ // try another sequence. This chunk might come in the near future.
+ // The second condition is the edge case of a buggy/malicious
+ // producer. The ChunkID is contiguous but its flags don't make sense.
+ if (it.chunk_id() != next_chunk_id ||
+ PERFETTO_UNLIKELY(
+ !((*it).flags & kFirstPacketContinuesFromPrevChunk))) {
+ return ReadAheadResult::kFailedMoveToNextSequence;
+ }
+
+ // If the chunk is contiguous but has not been patched yet move to the next
+ // sequence and try coming back here on the next ReadNextTracePacket() call.
+ // TODO(primiano): add a test to cover this, it's a subtle case.
+ if ((*it).flags & kChunkNeedsPatching)
+ return ReadAheadResult::kFailedMoveToNextSequence;
+
+ // This is the case of an intermediate chunk which contains only one
+ // fragment which continues on the next chunk. This is the case for large
+ // packets, e.g.: [Packet0, Packet1(0)] [Packet1(1)] [Packet1(2), ...]
+ // (Packet1(X) := fragment X of Packet1).
+ if ((*it).num_fragments == 1 &&
+ ((*it).flags & kLastPacketContinuesOnNextChunk)) {
+ continue;
+ }
+
+ // We made it! We got all fragments for the packet without holes.
+ TRACE_BUFFER_DLOG(" readahead success @ chunk %u", it.chunk_id());
+ PERFETTO_DCHECK(((*it).num_fragments == 1 &&
+ !((*it).flags & kLastPacketContinuesOnNextChunk)) ||
+ (*it).num_fragments > 1);
+
+ // Now let's re-iterate over the [read_iter_, it] sequence and mark
+ // all the fragments as read.
+ bool packet_corruption = false;
+ for (;;) {
+ PERFETTO_DCHECK(read_iter_.is_valid());
+ TRACE_BUFFER_DLOG(" commit chunk %u", read_iter_.chunk_id());
+ if (PERFETTO_LIKELY((*read_iter_).num_fragments > 0)) {
+ // In the unlikely case of a corrupted packet (corrupted or empty
+ // fragment), invalidate the all stitching and move on to the next chunk
+ // in the same sequence, if any.
+ auto pw_id = MkProducerAndWriterID(it.producer_id(), it.writer_id());
+ packet_corruption |=
+ ReadNextPacketInChunk(pw_id, &*read_iter_, packet) ==
+ ReadPacketResult::kFailedInvalidPacket;
+ }
+ if (read_iter_.cur == it.cur)
+ break;
+ read_iter_.MoveNext();
+ } // for(;;)
+ PERFETTO_DCHECK(read_iter_.cur == it.cur);
+
+ if (PERFETTO_UNLIKELY(packet_corruption)) {
+ // ReadNextPacketInChunk() already records an abi violation for this case.
+ *packet = TracePacket(); // clear.
+ return ReadAheadResult::kFailedStayOnSameSequence;
+ }
+
+ return ReadAheadResult::kSucceededReturnSlices;
+ } // for(it...) [readahead loop]
+ return ReadAheadResult::kFailedMoveToNextSequence;
+}
+
+TraceBuffer::ReadPacketResult TraceBuffer::ReadNextPacketInChunk(
+ ProducerAndWriterID producer_and_writer_id,
+ ChunkMeta* const chunk_meta,
+ TracePacket* packet) {
+ PERFETTO_DCHECK(chunk_meta->num_fragments_read < chunk_meta->num_fragments);
+ PERFETTO_DCHECK(!(chunk_meta->flags & kChunkNeedsPatching));
+
+ const uint8_t* record_begin = begin() + chunk_meta->record_off;
+ DcheckIsAlignedAndWithinBounds(record_begin);
+ auto* chunk_record = reinterpret_cast<const ChunkRecord*>(record_begin);
+ const uint8_t* record_end = record_begin + chunk_record->size;
+ const uint8_t* packets_begin = record_begin + sizeof(ChunkRecord);
+ const uint8_t* packet_begin = packets_begin + chunk_meta->cur_fragment_offset;
+
+ if (PERFETTO_UNLIKELY(packet_begin < packets_begin ||
+ packet_begin >= record_end)) {
+ // The producer has a bug or is malicious and did declare that the chunk
+ // contains more packets beyond its boundaries.
+ stats_.set_abi_violations(stats_.abi_violations() + 1);
+ PERFETTO_DCHECK(suppress_client_dchecks_for_testing_);
+ chunk_meta->cur_fragment_offset = 0;
+ chunk_meta->num_fragments_read = chunk_meta->num_fragments;
+ if (PERFETTO_LIKELY(chunk_meta->is_complete())) {
+ stats_.set_chunks_read(stats_.chunks_read() + 1);
+ stats_.set_bytes_read(stats_.bytes_read() + chunk_record->size);
+ }
+ return ReadPacketResult::kFailedInvalidPacket;
+ }
+
+ // A packet (or a fragment) starts with a varint stating its size, followed
+ // by its content. The varint shouldn't be larger than 4 bytes (just in case
+ // the producer is using a redundant encoding)
+ uint64_t packet_size = 0;
+ const uint8_t* header_end =
+ std::min(packet_begin + protozero::proto_utils::kMessageLengthFieldSize,
+ record_end);
+ const uint8_t* packet_data = protozero::proto_utils::ParseVarInt(
+ packet_begin, header_end, &packet_size);
+
+ const uint8_t* next_packet = packet_data + packet_size;
+ if (PERFETTO_UNLIKELY(next_packet <= packet_begin ||
+ next_packet > record_end)) {
+ // In BufferExhaustedPolicy::kDrop mode, TraceWriter may abort a fragmented
+ // packet by writing an invalid size in the last fragment's header. We
+ // should handle this case without recording an ABI violation (since Android
+ // R).
+ if (packet_size != SharedMemoryABI::kPacketSizeDropPacket) {
+ stats_.set_abi_violations(stats_.abi_violations() + 1);
+ PERFETTO_DCHECK(suppress_client_dchecks_for_testing_);
+ } else {
+ stats_.set_trace_writer_packet_loss(stats_.trace_writer_packet_loss() +
+ 1);
+ }
+ chunk_meta->cur_fragment_offset = 0;
+ chunk_meta->num_fragments_read = chunk_meta->num_fragments;
+ if (PERFETTO_LIKELY(chunk_meta->is_complete())) {
+ stats_.set_chunks_read(stats_.chunks_read() + 1);
+ stats_.set_bytes_read(stats_.bytes_read() + chunk_record->size);
+ }
+ return ReadPacketResult::kFailedInvalidPacket;
+ }
+
+ chunk_meta->cur_fragment_offset =
+ static_cast<uint16_t>(next_packet - packets_begin);
+ chunk_meta->num_fragments_read++;
+
+ if (PERFETTO_UNLIKELY(chunk_meta->num_fragments_read ==
+ chunk_meta->num_fragments &&
+ chunk_meta->is_complete())) {
+ stats_.set_chunks_read(stats_.chunks_read() + 1);
+ stats_.set_bytes_read(stats_.bytes_read() + chunk_record->size);
+ auto* writer_stats = writer_stats_.Insert(producer_and_writer_id, {}).first;
+ writer_stats->used_chunk_hist.Add(chunk_meta->cur_fragment_offset);
+ } else {
+ // We have at least one more packet to parse. It should be within the chunk.
+ if (chunk_meta->cur_fragment_offset + sizeof(ChunkRecord) >=
+ chunk_record->size) {
+ PERFETTO_DCHECK(suppress_client_dchecks_for_testing_);
+ }
+ }
+
+ chunk_meta->set_last_read_packet_skipped(false);
+
+ if (PERFETTO_UNLIKELY(packet_size == 0))
+ return ReadPacketResult::kFailedEmptyPacket;
+
+ if (PERFETTO_LIKELY(packet))
+ packet->AddSlice(packet_data, static_cast<size_t>(packet_size));
+
+ return ReadPacketResult::kSucceeded;
+}
+
+void TraceBuffer::DiscardWrite() {
+ PERFETTO_DCHECK(overwrite_policy_ == kDiscard);
+ discard_writes_ = true;
+ stats_.set_chunks_discarded(stats_.chunks_discarded() + 1);
+ TRACE_BUFFER_DLOG(" discarding write");
+}
+
+std::unique_ptr<TraceBuffer> TraceBuffer::CloneReadOnly() const {
+ std::unique_ptr<TraceBuffer> buf(new TraceBuffer(CloneCtor(), *this));
+ if (!buf->data_.IsValid())
+ return nullptr; // PagedMemory::Allocate() failed. We are out of memory.
+ return buf;
+}
+
+TraceBuffer::TraceBuffer(CloneCtor, const TraceBuffer& src)
+ : overwrite_policy_(src.overwrite_policy_),
+ read_only_(true),
+ discard_writes_(src.discard_writes_) {
+ if (!Initialize(src.data_.size()))
+ return; // TraceBuffer::Clone() will check |data_| and return nullptr.
+
+ // The assignments below must be done after Initialize().
+
+ EnsureCommitted(src.used_size_);
+ memcpy(data_.Get(), src.data_.Get(), src.used_size_);
+ last_chunk_id_written_ = src.last_chunk_id_written_;
+
+ stats_ = src.stats_;
+ stats_.set_bytes_read(0);
+ stats_.set_chunks_read(0);
+ stats_.set_readaheads_failed(0);
+ stats_.set_readaheads_succeeded(0);
+
+ // Copy the index of chunk metadata and reset the read states.
+ index_ = ChunkMap(src.index_);
+ for (auto& kv : index_) {
+ ChunkMeta& chunk_meta = kv.second;
+ chunk_meta.num_fragments_read = 0;
+ chunk_meta.cur_fragment_offset = 0;
+ chunk_meta.set_last_read_packet_skipped(false);
+ }
+ read_iter_ = SequenceIterator();
+}
+
+} // namespace perfetto
+// gen_amalgamated begin source: src/tracing/service/tracing_service_impl.cc
+// gen_amalgamated begin header: src/tracing/service/tracing_service_impl.h
+// gen_amalgamated begin header: include/perfetto/ext/base/circular_queue.h
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_BASE_CIRCULAR_QUEUE_H_
+#define INCLUDE_PERFETTO_EXT_BASE_CIRCULAR_QUEUE_H_
+
+#include <stdint.h>
+#include <stdlib.h>
+
+#include <cstddef>
+#include <iterator>
+
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/utils.h"
+
+namespace perfetto {
+namespace base {
+
+// CircularQueue is a push-back-only / pop-front-only queue with the following
+// characteristics:
+// - The storage is based on a flat circular buffer. Beginning and end wrap
+// as necessary, to keep pushes and pops O(1) as long as capacity expansion is
+// not required.
+// - Capacity is automatically expanded like in a std::vector. Expansion has a
+// O(N) cost.
+// - It allows random access, allowing in-place std::sort.
+// - Iterators are not stable. Mutating the container invalidates all iterators.
+// - It doesn't bother with const-correctness.
+//
+// Implementation details:
+// Internally, |begin|, |end| and iterators use 64-bit monotonic indexes, which
+// are incremented as if the queue was backed by unlimited storage.
+// Even assuming that elements are inserted and removed every nanosecond, 64 bit
+// is enough for 584 years.
+// Wrapping happens only when addressing elements in the underlying circular
+// storage. This limits the complexity and avoiding dealing with modular
+// arithmetic all over the places.
+template <class T>
+class CircularQueue {
+ public:
+ class Iterator {
+ public:
+ using difference_type = ptrdiff_t;
+ using value_type = T;
+ using pointer = T*;
+ using reference = T&;
+ using iterator_category = std::random_access_iterator_tag;
+
+ Iterator(CircularQueue* queue, uint64_t pos, uint32_t generation)
+ : queue_(queue),
+ pos_(pos)
+#if PERFETTO_DCHECK_IS_ON()
+ ,
+ generation_(generation)
+#endif
+ {
+ ignore_result(generation);
+ }
+
+ Iterator(const Iterator&) noexcept = default;
+ Iterator& operator=(const Iterator&) noexcept = default;
+ Iterator(Iterator&&) noexcept = default;
+ Iterator& operator=(Iterator&&) noexcept = default;
+
+ T* operator->() const {
+#if PERFETTO_DCHECK_IS_ON()
+ PERFETTO_DCHECK(generation_ == queue_->generation());
+#endif
+ return queue_->Get(pos_);
+ }
+
+ T& operator*() const { return *(operator->()); }
+
+ value_type& operator[](difference_type i) { return *(*this + i); }
+
+ Iterator& operator++() {
+ Add(1);
+ return *this;
+ }
+
+ Iterator operator++(int) {
+ Iterator ret = *this;
+ Add(1);
+ return ret;
+ }
+
+ Iterator& operator--() {
+ Add(-1);
+ return *this;
+ }
+
+ Iterator operator--(int) {
+ Iterator ret = *this;
+ Add(-1);
+ return ret;
+ }
+
+ friend Iterator operator+(const Iterator& iter, difference_type offset) {
+ Iterator ret = iter;
+ ret.Add(offset);
+ return ret;
+ }
+
+ Iterator& operator+=(difference_type offset) {
+ Add(offset);
+ return *this;
+ }
+
+ friend Iterator operator-(const Iterator& iter, difference_type offset) {
+ Iterator ret = iter;
+ ret.Add(-offset);
+ return ret;
+ }
+
+ Iterator& operator-=(difference_type offset) {
+ Add(-offset);
+ return *this;
+ }
+
+ friend ptrdiff_t operator-(const Iterator& lhs, const Iterator& rhs) {
+ return static_cast<ptrdiff_t>(lhs.pos_) -
+ static_cast<ptrdiff_t>(rhs.pos_);
+ }
+
+ friend bool operator==(const Iterator& lhs, const Iterator& rhs) {
+ return lhs.pos_ == rhs.pos_;
+ }
+
+ friend bool operator!=(const Iterator& lhs, const Iterator& rhs) {
+ return lhs.pos_ != rhs.pos_;
+ }
+
+ friend bool operator<(const Iterator& lhs, const Iterator& rhs) {
+ return lhs.pos_ < rhs.pos_;
+ }
+
+ friend bool operator<=(const Iterator& lhs, const Iterator& rhs) {
+ return lhs.pos_ <= rhs.pos_;
+ }
+
+ friend bool operator>(const Iterator& lhs, const Iterator& rhs) {
+ return lhs.pos_ > rhs.pos_;
+ }
+
+ friend bool operator>=(const Iterator& lhs, const Iterator& rhs) {
+ return lhs.pos_ >= rhs.pos_;
+ }
+
+ private:
+ inline void Add(difference_type offset) {
+ pos_ = static_cast<uint64_t>(static_cast<difference_type>(pos_) + offset);
+ PERFETTO_DCHECK(pos_ <= queue_->end_);
+ }
+
+ CircularQueue* queue_;
+ uint64_t pos_;
+
+#if PERFETTO_DCHECK_IS_ON()
+ uint32_t generation_;
+#endif
+ };
+
+ explicit CircularQueue(size_t initial_capacity = 1024) {
+ Grow(initial_capacity);
+ }
+
+ CircularQueue(CircularQueue&& other) noexcept
+ : entries_(std::move(other.entries_)),
+ capacity_(other.capacity_),
+ begin_(other.begin_),
+ end_(other.end_) {
+ increment_generation();
+ new (&other) CircularQueue(); // Reset the old queue so it's still usable.
+ }
+
+ CircularQueue& operator=(CircularQueue&& other) noexcept {
+ this->~CircularQueue(); // Destroy the current state.
+ new (this) CircularQueue(std::move(other)); // Use the move ctor above.
+ return *this;
+ }
+
+ explicit CircularQueue(const CircularQueue& other) noexcept {
+ Grow(other.capacity());
+ for (const auto& e : const_cast<CircularQueue&>(other))
+ emplace_back(e);
+ PERFETTO_DCHECK(size() == other.size());
+ }
+
+ CircularQueue& operator=(const CircularQueue& other) noexcept {
+ this->~CircularQueue(); // Destroy the current state.
+ new (this) CircularQueue(other); // Use the copy ctor above.
+ return *this;
+ }
+
+ ~CircularQueue() {
+ if (!entries_) {
+ PERFETTO_DCHECK(empty());
+ return;
+ }
+ clear(); // Invoke destructors on all alive entries.
+ PERFETTO_DCHECK(empty());
+ }
+
+ template <typename... Args>
+ void emplace_back(Args&&... args) {
+ increment_generation();
+ if (PERFETTO_UNLIKELY(size() >= capacity_))
+ Grow();
+ T* slot = Get(end_++);
+ new (slot) T(std::forward<Args>(args)...);
+ }
+
+ void erase_front(size_t n) {
+ increment_generation();
+ for (; n && (begin_ < end_); --n) {
+ Get(begin_)->~T();
+ begin_++; // This needs to be its own statement, Get() checks begin_.
+ }
+ }
+
+ void pop_front() { erase_front(1); }
+
+ void clear() { erase_front(size()); }
+
+ void shrink_to_fit() {
+ // We only bother shrinking if we can fit in quarter of the capacity we are
+ // currently using. Moreover, don't bother shrinking below 4096 elements as
+ // that will cause a lot of reallocations for little benefit.
+ if (size() > capacity() / 2 || capacity() <= 4096) {
+ return;
+ }
+ ChangeCapacity(capacity() / 2);
+ }
+
+ T& at(size_t idx) {
+ PERFETTO_DCHECK(idx < size());
+ return *Get(begin_ + idx);
+ }
+
+ Iterator begin() { return Iterator(this, begin_, generation()); }
+ Iterator end() { return Iterator(this, end_, generation()); }
+ T& front() { return *begin(); }
+ T& back() { return *(end() - 1); }
+
+ bool empty() const { return size() == 0; }
+
+ size_t size() const {
+ PERFETTO_DCHECK(end_ - begin_ <= capacity_);
+ return static_cast<size_t>(end_ - begin_);
+ }
+
+ size_t capacity() const { return capacity_; }
+
+#if PERFETTO_DCHECK_IS_ON()
+ uint32_t generation() const { return generation_; }
+ void increment_generation() { ++generation_; }
+#else
+ uint32_t generation() const { return 0; }
+ void increment_generation() {}
+#endif
+
+ private:
+ void Grow(size_t new_capacity = 0) {
+ // Capacity must be always a power of two. This allows Get() to use a simple
+ // bitwise-AND for handling the wrapping instead of a full division.
+ new_capacity = new_capacity ? new_capacity : capacity_ * 2;
+ PERFETTO_CHECK((new_capacity & (new_capacity - 1)) == 0); // Must be pow2.
+
+ // On 32-bit systems this might hit the 4GB wall and overflow. We can't do
+ // anything other than crash in this case.
+ PERFETTO_CHECK(new_capacity > capacity_);
+
+ ChangeCapacity(new_capacity);
+ }
+
+ void ChangeCapacity(size_t new_capacity) {
+ // We should still have enough space to fit all the elements in the queue.
+ PERFETTO_CHECK(new_capacity >= size());
+
+ AlignedUniquePtr<T[]> new_vec = AlignedAllocTyped<T[]>(new_capacity);
+
+ // Move all elements in the expanded array.
+ size_t new_size = 0;
+ for (uint64_t i = begin_; i < end_; i++)
+ new (&new_vec[new_size++]) T(std::move(*Get(i))); // Placement move ctor.
+
+ // Even if all the elements are std::move()-d and likely empty, we are still
+ // required to call the dtor for them.
+ for (uint64_t i = begin_; i < end_; i++)
+ Get(i)->~T();
+
+ begin_ = 0;
+ end_ = new_size;
+ capacity_ = new_capacity;
+ entries_ = std::move(new_vec);
+ }
+
+ inline T* Get(uint64_t pos) {
+ PERFETTO_DCHECK(pos >= begin_ && pos < end_);
+ PERFETTO_DCHECK((capacity_ & (capacity_ - 1)) == 0); // Must be a pow2.
+ auto index = static_cast<size_t>(pos & (capacity_ - 1));
+ return &entries_[index];
+ }
+
+ // Underlying storage. It's raw malloc-ed rather than being a unique_ptr<T[]>
+ // to allow having uninitialized entries inside it.
+ AlignedUniquePtr<T[]> entries_;
+ size_t capacity_ = 0; // Number of allocated slots (NOT bytes) in |entries_|.
+
+ // The |begin_| and |end_| indexes are monotonic and never wrap. Modular arith
+ // is used only when dereferencing entries in the vector.
+ uint64_t begin_ = 0;
+ uint64_t end_ = 0;
+
+// Generation is used in debug builds only for checking iterator validity.
+#if PERFETTO_DCHECK_IS_ON()
+ uint32_t generation_ = 0;
+#endif
+};
+
+} // namespace base
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_BASE_CIRCULAR_QUEUE_H_
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef SRC_TRACING_SERVICE_TRACING_SERVICE_IMPL_H_
+#define SRC_TRACING_SERVICE_TRACING_SERVICE_IMPL_H_
+
+#include <algorithm>
+#include <functional>
+#include <map>
+#include <memory>
+#include <optional>
+#include <random>
+#include <set>
+#include <utility>
+#include <vector>
+
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/base/status.h"
+// gen_amalgamated expanded: #include "perfetto/base/time.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/circular_queue.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/periodic_task.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/uuid.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/weak_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/basic_types.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/client_identity.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/commit_data_request.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/observable_events.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/shared_memory_abi.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/trace_stats.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/tracing_service.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/core/data_source_config.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/core/data_source_descriptor.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/core/forward_decls.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/core/trace_config.h"
+// gen_amalgamated expanded: #include "src/android_stats/perfetto_atoms.h"
+// gen_amalgamated expanded: #include "src/tracing/core/id_allocator.h"
+
+namespace protozero {
+class MessageFilter;
+}
+
+namespace perfetto {
+
+namespace base {
+class TaskRunner;
+} // namespace base
+
+namespace protos {
+namespace gen {
+enum TraceStats_FinalFlushOutcome : int;
+}
+} // namespace protos
+
+class Consumer;
+class Producer;
+class SharedMemory;
+class SharedMemoryArbiterImpl;
+class TraceBuffer;
+class TracePacket;
+
+// The tracing service business logic.
+class TracingServiceImpl : public TracingService {
+ private:
+ struct DataSourceInstance;
+
+ public:
+ static constexpr size_t kMaxShmSize = 32 * 1024 * 1024ul;
+ static constexpr uint32_t kDataSourceStopTimeoutMs = 5000;
+ static constexpr uint8_t kSyncMarker[] = {0x82, 0x47, 0x7a, 0x76, 0xb2, 0x8d,
+ 0x42, 0xba, 0x81, 0xdc, 0x33, 0x32,
+ 0x6d, 0x57, 0xa0, 0x79};
+ static constexpr size_t kMaxTracePacketSliceSize =
+ 128 * 1024 - 512; // This is ipc::kIPCBufferSize - 512, see assertion in
+ // tracing_integration_test.cc and b/195065199
+
+ // This is a rough threshold to determine how many bytes to read from the
+ // buffers on each iteration when writing into a file. Since filtering and
+ // compression allocate memory, this effectively limits the amount of memory
+ // allocated.
+ static constexpr size_t kWriteIntoFileChunkSize = 1024 * 1024ul;
+
+ // The implementation behind the service endpoint exposed to each producer.
+ class ProducerEndpointImpl : public TracingService::ProducerEndpoint {
+ public:
+ ProducerEndpointImpl(ProducerID,
+ const ClientIdentity& client_identity,
+ TracingServiceImpl*,
+ base::TaskRunner*,
+ Producer*,
+ const std::string& producer_name,
+ const std::string& sdk_version,
+ bool in_process,
+ bool smb_scraping_enabled);
+ ~ProducerEndpointImpl() override;
+
+ // TracingService::ProducerEndpoint implementation.
+ void Disconnect() override;
+ void RegisterDataSource(const DataSourceDescriptor&) override;
+ void UpdateDataSource(const DataSourceDescriptor&) override;
+ void UnregisterDataSource(const std::string& name) override;
+ void RegisterTraceWriter(uint32_t writer_id,
+ uint32_t target_buffer) override;
+ void UnregisterTraceWriter(uint32_t writer_id) override;
+ void CommitData(const CommitDataRequest&, CommitDataCallback) override;
+ void SetupSharedMemory(std::unique_ptr<SharedMemory>,
+ size_t page_size_bytes,
+ bool provided_by_producer);
+ std::unique_ptr<TraceWriter> CreateTraceWriter(
+ BufferID,
+ BufferExhaustedPolicy) override;
+ SharedMemoryArbiter* MaybeSharedMemoryArbiter() override;
+ bool IsShmemProvidedByProducer() const override;
+ void NotifyFlushComplete(FlushRequestID) override;
+ void NotifyDataSourceStarted(DataSourceInstanceID) override;
+ void NotifyDataSourceStopped(DataSourceInstanceID) override;
+ SharedMemory* shared_memory() const override;
+ size_t shared_buffer_page_size_kb() const override;
+ void ActivateTriggers(const std::vector<std::string>&) override;
+ void Sync(std::function<void()> callback) override;
+
+ void OnTracingSetup();
+ void SetupDataSource(DataSourceInstanceID, const DataSourceConfig&);
+ void StartDataSource(DataSourceInstanceID, const DataSourceConfig&);
+ void StopDataSource(DataSourceInstanceID);
+ void Flush(FlushRequestID,
+ const std::vector<DataSourceInstanceID>&,
+ FlushFlags);
+ void OnFreeBuffers(const std::vector<BufferID>& target_buffers);
+ void ClearIncrementalState(const std::vector<DataSourceInstanceID>&);
+
+ bool is_allowed_target_buffer(BufferID buffer_id) const {
+ return allowed_target_buffers_.count(buffer_id);
+ }
+
+ std::optional<BufferID> buffer_id_for_writer(WriterID writer_id) const {
+ const auto it = writers_.find(writer_id);
+ if (it != writers_.end())
+ return it->second;
+ return std::nullopt;
+ }
+
+ uid_t uid() const { return client_identity_.uid(); }
+ pid_t pid() const { return client_identity_.pid(); }
+ const ClientIdentity& client_identity() const { return client_identity_; }
+
+ private:
+ friend class TracingServiceImpl;
+ friend class TracingServiceImplTest;
+ friend class TracingIntegrationTest;
+ ProducerEndpointImpl(const ProducerEndpointImpl&) = delete;
+ ProducerEndpointImpl& operator=(const ProducerEndpointImpl&) = delete;
+
+ ProducerID const id_;
+ ClientIdentity const client_identity_;
+ TracingServiceImpl* const service_;
+ base::TaskRunner* const task_runner_;
+ Producer* producer_;
+ std::unique_ptr<SharedMemory> shared_memory_;
+ size_t shared_buffer_page_size_kb_ = 0;
+ SharedMemoryABI shmem_abi_;
+ size_t shmem_size_hint_bytes_ = 0;
+ size_t shmem_page_size_hint_bytes_ = 0;
+ bool is_shmem_provided_by_producer_ = false;
+ const std::string name_;
+ std::string sdk_version_;
+ bool in_process_;
+ bool smb_scraping_enabled_;
+
+ // Set of the global target_buffer IDs that the producer is configured to
+ // write into in any active tracing session.
+ std::set<BufferID> allowed_target_buffers_;
+
+ // Maps registered TraceWriter IDs to their target buffers as registered by
+ // the producer. Note that producers aren't required to register their
+ // writers, so we may see commits of chunks with WriterIDs that aren't
+ // contained in this map. However, if a producer does register a writer, the
+ // service will prevent the writer from writing into any other buffer than
+ // the one associated with it here. The BufferIDs stored in this map are
+ // untrusted, so need to be verified against |allowed_target_buffers_|
+ // before use.
+ std::map<WriterID, BufferID> writers_;
+
+ // This is used only in in-process configurations.
+ // SharedMemoryArbiterImpl methods themselves are thread-safe.
+ std::unique_ptr<SharedMemoryArbiterImpl> inproc_shmem_arbiter_;
+
+ PERFETTO_THREAD_CHECKER(thread_checker_)
+ base::WeakPtrFactory<ProducerEndpointImpl> weak_ptr_factory_; // Keep last.
+ };
+
+ // The implementation behind the service endpoint exposed to each consumer.
+ class ConsumerEndpointImpl : public TracingService::ConsumerEndpoint {
+ public:
+ ConsumerEndpointImpl(TracingServiceImpl*,
+ base::TaskRunner*,
+ Consumer*,
+ uid_t uid);
+ ~ConsumerEndpointImpl() override;
+
+ void NotifyOnTracingDisabled(const std::string& error);
+ void NotifyCloneSnapshotTrigger();
+
+ // TracingService::ConsumerEndpoint implementation.
+ void EnableTracing(const TraceConfig&, base::ScopedFile) override;
+ void ChangeTraceConfig(const TraceConfig& cfg) override;
+ void StartTracing() override;
+ void DisableTracing() override;
+ void ReadBuffers() override;
+ void FreeBuffers() override;
+ void Flush(uint32_t timeout_ms, FlushCallback, FlushFlags) override;
+ void Detach(const std::string& key) override;
+ void Attach(const std::string& key) override;
+ void GetTraceStats() override;
+ void ObserveEvents(uint32_t enabled_event_types) override;
+ void QueryServiceState(QueryServiceStateArgs,
+ QueryServiceStateCallback) override;
+ void QueryCapabilities(QueryCapabilitiesCallback) override;
+ void SaveTraceForBugreport(SaveTraceForBugreportCallback) override;
+ void CloneSession(TracingSessionID, CloneSessionArgs) override;
+
+ // Will queue a task to notify the consumer about the state change.
+ void OnDataSourceInstanceStateChange(const ProducerEndpointImpl&,
+ const DataSourceInstance&);
+ void OnAllDataSourcesStarted();
+
+ base::WeakPtr<ConsumerEndpointImpl> GetWeakPtr() {
+ return weak_ptr_factory_.GetWeakPtr();
+ }
+
+ private:
+ friend class TracingServiceImpl;
+ ConsumerEndpointImpl(const ConsumerEndpointImpl&) = delete;
+ ConsumerEndpointImpl& operator=(const ConsumerEndpointImpl&) = delete;
+
+ // Returns a pointer to an ObservableEvents object that the caller can fill
+ // and schedules a task to send the ObservableEvents to the consumer.
+ ObservableEvents* AddObservableEvents();
+
+ base::TaskRunner* const task_runner_;
+ TracingServiceImpl* const service_;
+ Consumer* const consumer_;
+ uid_t const uid_;
+ TracingSessionID tracing_session_id_ = 0;
+
+ // Whether the consumer is interested in DataSourceInstance state change
+ // events.
+ uint32_t observable_events_mask_ = 0;
+
+ // ObservableEvents that will be sent to the consumer. If set, a task to
+ // flush the events to the consumer has been queued.
+ std::unique_ptr<ObservableEvents> observable_events_;
+
+ PERFETTO_THREAD_CHECKER(thread_checker_)
+ base::WeakPtrFactory<ConsumerEndpointImpl> weak_ptr_factory_; // Keep last.
+ };
+
+ class RelayEndpointImpl : public TracingService::RelayEndpoint {
+ public:
+ using SyncMode = RelayEndpoint::SyncMode;
+
+ struct SyncedClockSnapshots {
+ SyncedClockSnapshots(SyncMode _sync_mode,
+ ClockSnapshotVector _client_clocks,
+ ClockSnapshotVector _host_clocks)
+ : sync_mode(_sync_mode),
+ client_clocks(std::move(_client_clocks)),
+ host_clocks(std::move(_host_clocks)) {}
+ SyncMode sync_mode;
+ ClockSnapshotVector client_clocks;
+ ClockSnapshotVector host_clocks;
+ };
+
+ explicit RelayEndpointImpl(RelayClientID relay_client_id,
+ TracingServiceImpl* service);
+ ~RelayEndpointImpl() override;
+ void SyncClocks(SyncMode sync_mode,
+ ClockSnapshotVector client_clocks,
+ ClockSnapshotVector host_clocks) override;
+ void Disconnect() override;
+
+ MachineID machine_id() const { return relay_client_id_.first; }
+
+ base::CircularQueue<SyncedClockSnapshots>& synced_clocks() {
+ return synced_clocks_;
+ }
+
+ private:
+ RelayEndpointImpl(const RelayEndpointImpl&) = delete;
+ RelayEndpointImpl& operator=(const RelayEndpointImpl&) = delete;
+
+ RelayClientID relay_client_id_;
+ TracingServiceImpl* const service_;
+ base::CircularQueue<SyncedClockSnapshots> synced_clocks_;
+
+ PERFETTO_THREAD_CHECKER(thread_checker_)
+ };
+
+ explicit TracingServiceImpl(std::unique_ptr<SharedMemory::Factory>,
+ base::TaskRunner*,
+ InitOpts = {});
+ ~TracingServiceImpl() override;
+
+ // Called by ProducerEndpointImpl.
+ void DisconnectProducer(ProducerID);
+ void RegisterDataSource(ProducerID, const DataSourceDescriptor&);
+ void UpdateDataSource(ProducerID, const DataSourceDescriptor&);
+ void UnregisterDataSource(ProducerID, const std::string& name);
+ void CopyProducerPageIntoLogBuffer(ProducerID,
+ const ClientIdentity&,
+ WriterID,
+ ChunkID,
+ BufferID,
+ uint16_t num_fragments,
+ uint8_t chunk_flags,
+ bool chunk_complete,
+ const uint8_t* src,
+ size_t size);
+ void ApplyChunkPatches(ProducerID,
+ const std::vector<CommitDataRequest::ChunkToPatch>&);
+ void NotifyFlushDoneForProducer(ProducerID, FlushRequestID);
+ void NotifyDataSourceStarted(ProducerID, DataSourceInstanceID);
+ void NotifyDataSourceStopped(ProducerID, DataSourceInstanceID);
+ void ActivateTriggers(ProducerID, const std::vector<std::string>& triggers);
+
+ // Called by ConsumerEndpointImpl.
+ bool DetachConsumer(ConsumerEndpointImpl*, const std::string& key);
+ bool AttachConsumer(ConsumerEndpointImpl*, const std::string& key);
+ void DisconnectConsumer(ConsumerEndpointImpl*);
+ base::Status EnableTracing(ConsumerEndpointImpl*,
+ const TraceConfig&,
+ base::ScopedFile);
+ void ChangeTraceConfig(ConsumerEndpointImpl*, const TraceConfig&);
+
+ base::Status StartTracing(TracingSessionID);
+ void DisableTracing(TracingSessionID, bool disable_immediately = false);
+ void Flush(TracingSessionID tsid,
+ uint32_t timeout_ms,
+ ConsumerEndpoint::FlushCallback,
+ FlushFlags);
+ void FlushAndDisableTracing(TracingSessionID);
+ void FlushAndCloneSession(ConsumerEndpointImpl*,
+ TracingSessionID,
+ bool skip_filter,
+ bool for_bugreport);
+
+ // Starts reading the internal tracing buffers from the tracing session `tsid`
+ // and sends them to `*consumer` (which must be != nullptr).
+ //
+ // Only reads a limited amount of data in one call. If there's more data,
+ // immediately schedules itself on a PostTask.
+ //
+ // Returns false in case of error.
+ bool ReadBuffersIntoConsumer(TracingSessionID tsid,
+ ConsumerEndpointImpl* consumer);
+
+ // Reads all the tracing buffers from the tracing session `tsid` and writes
+ // them into the associated file.
+ //
+ // Reads all the data in the buffers (or until the file is full) before
+ // returning.
+ //
+ // If the tracing session write_period_ms is 0, the file is full or there has
+ // been an error, flushes the file and closes it. Otherwise, schedules itself
+ // to be executed after write_period_ms.
+ //
+ // Returns false in case of error.
+ bool ReadBuffersIntoFile(TracingSessionID);
+
+ void FreeBuffers(TracingSessionID);
+
+ // Service implementation.
+ std::unique_ptr<TracingService::ProducerEndpoint> ConnectProducer(
+ Producer*,
+ const ClientIdentity& client_identity,
+ const std::string& producer_name,
+ size_t shared_memory_size_hint_bytes = 0,
+ bool in_process = false,
+ ProducerSMBScrapingMode smb_scraping_mode =
+ ProducerSMBScrapingMode::kDefault,
+ size_t shared_memory_page_size_hint_bytes = 0,
+ std::unique_ptr<SharedMemory> shm = nullptr,
+ const std::string& sdk_version = {}) override;
+
+ std::unique_ptr<TracingService::ConsumerEndpoint> ConnectConsumer(
+ Consumer*,
+ uid_t) override;
+
+ std::unique_ptr<TracingService::RelayEndpoint> ConnectRelayClient(
+ RelayClientID) override;
+
+ void DisconnectRelayClient(RelayClientID);
+
+ // Set whether SMB scraping should be enabled by default or not. Producers can
+ // override this setting for their own SMBs.
+ void SetSMBScrapingEnabled(bool enabled) override {
+ smb_scraping_enabled_ = enabled;
+ }
+
+ // Exposed mainly for testing.
+ size_t num_producers() const { return producers_.size(); }
+ ProducerEndpointImpl* GetProducer(ProducerID) const;
+
+ private:
+ friend class TracingServiceImplTest;
+ friend class TracingIntegrationTest;
+
+ static constexpr int64_t kOneDayInNs = 24ll * 60 * 60 * 1000 * 1000 * 1000;
+
+ struct TriggerHistory {
+ int64_t timestamp_ns;
+ uint64_t name_hash;
+
+ bool operator<(const TriggerHistory& other) const {
+ return timestamp_ns < other.timestamp_ns;
+ }
+ };
+
+ struct RegisteredDataSource {
+ ProducerID producer_id;
+ DataSourceDescriptor descriptor;
+ };
+
+ // Represents an active data source for a tracing session.
+ struct DataSourceInstance {
+ DataSourceInstance(DataSourceInstanceID id,
+ const DataSourceConfig& cfg,
+ const std::string& ds_name,
+ bool notify_on_start,
+ bool notify_on_stop,
+ bool handles_incremental_state_invalidation,
+ bool no_flush_)
+ : instance_id(id),
+ config(cfg),
+ data_source_name(ds_name),
+ will_notify_on_start(notify_on_start),
+ will_notify_on_stop(notify_on_stop),
+ handles_incremental_state_clear(
+ handles_incremental_state_invalidation),
+ no_flush(no_flush_) {}
+ DataSourceInstance(const DataSourceInstance&) = delete;
+ DataSourceInstance& operator=(const DataSourceInstance&) = delete;
+
+ DataSourceInstanceID instance_id;
+ DataSourceConfig config;
+ std::string data_source_name;
+ bool will_notify_on_start;
+ bool will_notify_on_stop;
+ bool handles_incremental_state_clear;
+ bool no_flush;
+
+ enum DataSourceInstanceState {
+ CONFIGURED,
+ STARTING,
+ STARTED,
+ STOPPING,
+ STOPPED
+ };
+ DataSourceInstanceState state = CONFIGURED;
+ };
+
+ struct PendingFlush {
+ std::set<ProducerID> producers;
+ ConsumerEndpoint::FlushCallback callback;
+ explicit PendingFlush(decltype(callback) cb) : callback(std::move(cb)) {}
+ };
+
+ using PendingCloneID = uint64_t;
+
+ struct PendingClone {
+ size_t pending_flush_cnt = 0;
+ // This vector might not be populated all at once. Some buffers might be
+ // nullptr while flushing is not done.
+ std::vector<std::unique_ptr<TraceBuffer>> buffers;
+ bool flush_failed = false;
+ base::WeakPtr<ConsumerEndpointImpl> weak_consumer;
+ bool skip_trace_filter = false;
+ };
+
+ // Holds the state of a tracing session. A tracing session is uniquely bound
+ // a specific Consumer. Each Consumer can own one or more sessions.
+ struct TracingSession {
+ enum State {
+ DISABLED = 0,
+ CONFIGURED,
+ STARTED,
+ DISABLING_WAITING_STOP_ACKS,
+ CLONED_READ_ONLY,
+ };
+
+ TracingSession(TracingSessionID,
+ ConsumerEndpointImpl*,
+ const TraceConfig&,
+ base::TaskRunner*);
+ TracingSession(TracingSession&&) = delete;
+ TracingSession& operator=(TracingSession&&) = delete;
+
+ size_t num_buffers() const { return buffers_index.size(); }
+
+ uint32_t delay_to_next_write_period_ms() const {
+ PERFETTO_DCHECK(write_period_ms > 0);
+ return write_period_ms -
+ static_cast<uint32_t>(base::GetWallTimeMs().count() %
+ write_period_ms);
+ }
+
+ uint32_t flush_timeout_ms() {
+ uint32_t timeout_ms = config.flush_timeout_ms();
+ return timeout_ms ? timeout_ms : kDefaultFlushTimeoutMs;
+ }
+
+ uint32_t data_source_stop_timeout_ms() {
+ uint32_t timeout_ms = config.data_source_stop_timeout_ms();
+ return timeout_ms ? timeout_ms : kDataSourceStopTimeoutMs;
+ }
+
+ PacketSequenceID GetPacketSequenceID(MachineID machine_id,
+ ProducerID producer_id,
+ WriterID writer_id) {
+ auto key = std::make_tuple(machine_id, producer_id, writer_id);
+ auto it = packet_sequence_ids.find(key);
+ if (it != packet_sequence_ids.end())
+ return it->second;
+ // We shouldn't run out of sequence IDs (producer ID is 16 bit, writer IDs
+ // are limited to 1024).
+ static_assert(kMaxPacketSequenceID > kMaxProducerID * kMaxWriterID,
+ "PacketSequenceID value space doesn't cover service "
+ "sequence ID and all producer/writer ID combinations!");
+ PERFETTO_DCHECK(last_packet_sequence_id < kMaxPacketSequenceID);
+ PacketSequenceID sequence_id = ++last_packet_sequence_id;
+ packet_sequence_ids[key] = sequence_id;
+ return sequence_id;
+ }
+
+ DataSourceInstance* GetDataSourceInstance(
+ ProducerID producer_id,
+ DataSourceInstanceID instance_id) {
+ for (auto& inst_kv : data_source_instances) {
+ if (inst_kv.first != producer_id ||
+ inst_kv.second.instance_id != instance_id) {
+ continue;
+ }
+ return &inst_kv.second;
+ }
+ return nullptr;
+ }
+
+ bool AllDataSourceInstancesStarted() {
+ return std::all_of(
+ data_source_instances.begin(), data_source_instances.end(),
+ [](decltype(data_source_instances)::const_reference x) {
+ return x.second.state == DataSourceInstance::STARTED;
+ });
+ }
+
+ bool AllDataSourceInstancesStopped() {
+ return std::all_of(
+ data_source_instances.begin(), data_source_instances.end(),
+ [](decltype(data_source_instances)::const_reference x) {
+ return x.second.state == DataSourceInstance::STOPPED;
+ });
+ }
+
+ // Checks whether |clone_uid| is allowed to clone the current tracing
+ // session.
+ bool IsCloneAllowed(uid_t clone_uid) const;
+
+ const TracingSessionID id;
+
+ // The consumer that started the session.
+ // Can be nullptr if the consumer detached from the session.
+ ConsumerEndpointImpl* consumer_maybe_null;
+
+ // Unix uid of the consumer. This is valid even after the consumer detaches
+ // and does not change for the entire duration of the session. It is used to
+ // prevent that a consumer re-attaches to a session from a different uid.
+ uid_t const consumer_uid;
+
+ // The list of triggers this session received while alive and the time they
+ // were received at. This is used to insert 'fake' packets back to the
+ // consumer so they can tell when some event happened. The order matches the
+ // order they were received.
+ struct TriggerInfo {
+ uint64_t boot_time_ns;
+ std::string trigger_name;
+ std::string producer_name;
+ uid_t producer_uid;
+ };
+ std::vector<TriggerInfo> received_triggers;
+
+ // The trace config provided by the Consumer when calling
+ // EnableTracing(), plus any updates performed by ChangeTraceConfig.
+ TraceConfig config;
+
+ // List of data source instances that have been enabled on the various
+ // producers for this tracing session.
+ std::multimap<ProducerID, DataSourceInstance> data_source_instances;
+
+ // For each Flush(N) request, keeps track of the set of producers for which
+ // we are still awaiting a NotifyFlushComplete(N) ack.
+ std::map<FlushRequestID, PendingFlush> pending_flushes;
+
+ // For each Clone request, keeps track of the flushes acknowledgement that
+ // we are still waiting for.
+ std::map<PendingCloneID, PendingClone> pending_clones;
+
+ PendingCloneID last_pending_clone_id_ = 0;
+
+ // Maps a per-trace-session buffer index into the corresponding global
+ // BufferID (shared namespace amongst all consumers). This vector has as
+ // many entries as |config.buffers_size()|.
+ std::vector<BufferID> buffers_index;
+
+ std::map<std::tuple<MachineID, ProducerID, WriterID>, PacketSequenceID>
+ packet_sequence_ids;
+ PacketSequenceID last_packet_sequence_id = kServicePacketSequenceID;
+
+ // Whether we should emit the trace stats next time we reach EOF while
+ // performing ReadBuffers.
+ bool should_emit_stats = false;
+
+ // Whether we should emit the sync marker the next time ReadBuffers() is
+ // called.
+ bool should_emit_sync_marker = false;
+
+ // Whether we put the initial packets (trace config, system info,
+ // etc.) into the trace output yet.
+ bool did_emit_initial_packets = false;
+
+ // Whether we emitted clock offsets for relay clients yet.
+ bool did_emit_remote_clock_sync_ = false;
+
+ // Whether we should compress TracePackets after reading them.
+ bool compress_deflate = false;
+
+ // The number of received triggers we've emitted into the trace output.
+ size_t num_triggers_emitted_into_trace = 0;
+
+ // Packets that failed validation of the TrustedPacket.
+ uint64_t invalid_packets = 0;
+
+ // Flush() stats. See comments in trace_stats.proto for more.
+ uint64_t flushes_requested = 0;
+ uint64_t flushes_succeeded = 0;
+ uint64_t flushes_failed = 0;
+
+ // Outcome of the final Flush() done by FlushAndDisableTracing().
+ protos::gen::TraceStats_FinalFlushOutcome final_flush_outcome{};
+
+ // Set to true on the first call to MaybeNotifyAllDataSourcesStarted().
+ bool did_notify_all_data_source_started = false;
+
+ // Stores all lifecycle events of a particular type (i.e. associated with a
+ // single field id in the TracingServiceEvent proto).
+ struct LifecycleEvent {
+ LifecycleEvent(uint32_t f_id, uint32_t m_size = 1)
+ : field_id(f_id), max_size(m_size), timestamps(m_size) {}
+
+ // The field id of the event in the TracingServiceEvent proto.
+ uint32_t field_id;
+
+ // Stores the max size of |timestamps|. Set to 1 by default (in
+ // the constructor) but can be overriden in TraceSession constructor
+ // if a larger size is required.
+ uint32_t max_size;
+
+ // Stores the timestamps emitted for each event type (in nanoseconds).
+ // Emitted into the trace and cleared when the consumer next calls
+ // ReadBuffers.
+ base::CircularQueue<int64_t> timestamps;
+ };
+ std::vector<LifecycleEvent> lifecycle_events;
+
+ using ClockSnapshotData = ClockSnapshotVector;
+
+ // Initial clock snapshot, captured at trace start time (when state goes to
+ // TracingSession::STARTED). Emitted into the trace when the consumer first
+ // calls ReadBuffers().
+ ClockSnapshotData initial_clock_snapshot;
+
+ // Stores clock snapshots to emit into the trace as a ring buffer. This
+ // buffer is populated both periodically and when lifecycle events happen
+ // but only when significant clock drift is detected. Emitted into the trace
+ // and cleared when the consumer next calls ReadBuffers().
+ base::CircularQueue<ClockSnapshotData> clock_snapshot_ring_buffer;
+
+ State state = DISABLED;
+
+ // If the consumer detached the session, this variable defines the key used
+ // for identifying the session later when reattaching.
+ std::string detach_key;
+
+ // This is set when the Consumer calls sets |write_into_file| == true in the
+ // TraceConfig. In this case this represents the file we should stream the
+ // trace packets into, rather than returning it to the consumer via
+ // OnTraceData().
+ base::ScopedFile write_into_file;
+ uint32_t write_period_ms = 0;
+ uint64_t max_file_size_bytes = 0;
+ uint64_t bytes_written_into_file = 0;
+
+ // Periodic task for snapshotting service events (e.g. clocks, sync markers
+ // etc)
+ base::PeriodicTask snapshot_periodic_task;
+
+ // Deferred task that stops the trace when |duration_ms| expires. This is
+ // to handle the case of |prefer_suspend_clock_for_duration| which cannot
+ // use PostDelayedTask.
+ base::PeriodicTask timed_stop_task;
+
+ // When non-NULL the packets should be post-processed using the filter.
+ std::unique_ptr<protozero::MessageFilter> trace_filter;
+ uint64_t filter_input_packets = 0;
+ uint64_t filter_input_bytes = 0;
+ uint64_t filter_output_bytes = 0;
+ uint64_t filter_errors = 0;
+ uint64_t filter_time_taken_ns = 0;
+ std::vector<uint64_t> filter_bytes_discarded_per_buffer;
+
+ // A randomly generated trace identifier. Note that this does NOT always
+ // match the requested TraceConfig.trace_uuid_msb/lsb. Spcifically, it does
+ // until a gap-less snapshot is requested. Each snapshot re-generates the
+ // uuid to avoid emitting two different traces with the same uuid.
+ base::Uuid trace_uuid;
+
+ // NOTE: when adding new fields here consider whether that state should be
+ // copied over in DoCloneSession() or not. Ask yourself: is this a
+ // "runtime state" (e.g. active data sources) or a "trace (meta)data state"?
+ // If the latter, it should be handled by DoCloneSession()).
+ };
+
+ TracingServiceImpl(const TracingServiceImpl&) = delete;
+ TracingServiceImpl& operator=(const TracingServiceImpl&) = delete;
+
+ DataSourceInstance* SetupDataSource(const TraceConfig::DataSource&,
+ const TraceConfig::ProducerConfig&,
+ const RegisteredDataSource&,
+ TracingSession*);
+
+ // Returns the next available ProducerID that is not in |producers_|.
+ ProducerID GetNextProducerID();
+
+ // Returns a pointer to the |tracing_sessions_| entry or nullptr if the
+ // session doesn't exists.
+ TracingSession* GetTracingSession(TracingSessionID);
+
+ // Returns a pointer to the tracing session that has the highest
+ // TraceConfig.bugreport_score, if any, or nullptr.
+ TracingSession* FindTracingSessionWithMaxBugreportScore();
+
+ // Returns a pointer to the |tracing_sessions_| entry, matching the given
+ // uid and detach key, or nullptr if no such session exists.
+ TracingSession* GetDetachedSession(uid_t, const std::string& key);
+
+ // Update the memory guard rail by using the latest information from the
+ // shared memory and trace buffers.
+ void UpdateMemoryGuardrail();
+
+ void StartDataSourceInstance(ProducerEndpointImpl*,
+ TracingSession*,
+ DataSourceInstance*);
+ void StopDataSourceInstance(ProducerEndpointImpl*,
+ TracingSession*,
+ DataSourceInstance*,
+ bool disable_immediately);
+ void PeriodicSnapshotTask(TracingSessionID);
+ void MaybeSnapshotClocksIntoRingBuffer(TracingSession*);
+ bool SnapshotClocks(TracingSession::ClockSnapshotData*);
+ void SnapshotLifecyleEvent(TracingSession*,
+ uint32_t field_id,
+ bool snapshot_clocks);
+ void EmitClockSnapshot(TracingSession*,
+ TracingSession::ClockSnapshotData,
+ std::vector<TracePacket>*);
+ void EmitSyncMarker(std::vector<TracePacket>*);
+ void EmitStats(TracingSession*, std::vector<TracePacket>*);
+ TraceStats GetTraceStats(TracingSession*);
+ void EmitLifecycleEvents(TracingSession*, std::vector<TracePacket>*);
+ void EmitUuid(TracingSession*, std::vector<TracePacket>*);
+ void MaybeEmitTraceConfig(TracingSession*, std::vector<TracePacket>*);
+ void EmitSystemInfo(std::vector<TracePacket>*);
+ void MaybeEmitReceivedTriggers(TracingSession*, std::vector<TracePacket>*);
+ void MaybeEmitRemoteClockSync(TracingSession*, std::vector<TracePacket>*);
+ void MaybeNotifyAllDataSourcesStarted(TracingSession*);
+ void OnFlushTimeout(TracingSessionID, FlushRequestID);
+ void OnDisableTracingTimeout(TracingSessionID);
+ void DisableTracingNotifyConsumerAndFlushFile(TracingSession*);
+ void PeriodicFlushTask(TracingSessionID, bool post_next_only);
+ void CompleteFlush(TracingSessionID tsid,
+ ConsumerEndpoint::FlushCallback callback,
+ bool success);
+ void ScrapeSharedMemoryBuffers(TracingSession*, ProducerEndpointImpl*);
+ void PeriodicClearIncrementalStateTask(TracingSessionID, bool post_next_only);
+ TraceBuffer* GetBufferByID(BufferID);
+ void FlushDataSourceInstances(
+ TracingSession*,
+ uint32_t timeout_ms,
+ const std::map<ProducerID, std::vector<DataSourceInstanceID>>&,
+ ConsumerEndpoint::FlushCallback,
+ FlushFlags);
+ std::map<ProducerID, std::vector<DataSourceInstanceID>>
+ GetFlushableDataSourceInstancesForBuffers(TracingSession*,
+ const std::set<BufferID>&);
+ bool DoCloneBuffers(TracingSession*,
+ const std::set<BufferID>&,
+ std::vector<std::unique_ptr<TraceBuffer>>*);
+ base::Status FinishCloneSession(ConsumerEndpointImpl*,
+ TracingSessionID,
+ std::vector<std::unique_ptr<TraceBuffer>>,
+ bool skip_filter,
+ bool final_flush_outcome,
+ base::Uuid*);
+ void OnFlushDoneForClone(TracingSessionID src_tsid,
+ PendingCloneID clone_id,
+ const std::set<BufferID>& buf_ids,
+ bool final_flush_outcome);
+
+ // Returns true if `*tracing_session` is waiting for a trigger that hasn't
+ // happened.
+ static bool IsWaitingForTrigger(TracingSession* tracing_session);
+
+ // Reads the buffers from `*tracing_session` and returns them (along with some
+ // metadata packets).
+ //
+ // The function stops when the cumulative size of the return packets exceeds
+ // `threshold` (so it's not a strict upper bound) and sets `*has_more` to
+ // true, or when there are no more packets (and sets `*has_more` to false).
+ std::vector<TracePacket> ReadBuffers(TracingSession* tracing_session,
+ size_t threshold,
+ bool* has_more);
+
+ // If `*tracing_session` has a filter, applies it to `*packets`. Doesn't
+ // change the number of `*packets`, only their content.
+ void MaybeFilterPackets(TracingSession* tracing_session,
+ std::vector<TracePacket>* packets);
+
+ // If `*tracing_session` has compression enabled, compress `*packets`.
+ void MaybeCompressPackets(TracingSession* tracing_session,
+ std::vector<TracePacket>* packets);
+
+ // If `*tracing_session` is configured to write into a file, writes `packets`
+ // into the file.
+ //
+ // Returns true if the file should be closed (because it's full or there has
+ // been an error), false otherwise.
+ bool WriteIntoFile(TracingSession* tracing_session,
+ std::vector<TracePacket> packets);
+ void OnStartTriggersTimeout(TracingSessionID tsid);
+ void MaybeLogUploadEvent(const TraceConfig&,
+ const base::Uuid&,
+ PerfettoStatsdAtom atom,
+ const std::string& trigger_name = "");
+ void MaybeLogTriggerEvent(const TraceConfig&,
+ PerfettoTriggerAtom atom,
+ const std::string& trigger_name);
+ size_t PurgeExpiredAndCountTriggerInWindow(int64_t now_ns,
+ uint64_t trigger_name_hash);
+ static void StopOnDurationMsExpiry(base::WeakPtr<TracingServiceImpl>,
+ TracingSessionID);
+
+ base::TaskRunner* const task_runner_;
+ const InitOpts init_opts_;
+ std::unique_ptr<SharedMemory::Factory> shm_factory_;
+ ProducerID last_producer_id_ = 0;
+ DataSourceInstanceID last_data_source_instance_id_ = 0;
+ TracingSessionID last_tracing_session_id_ = 0;
+ FlushRequestID last_flush_request_id_ = 0;
+ uid_t uid_ = 0;
+
+ // Buffer IDs are global across all consumers (because a Producer can produce
+ // data for more than one trace session, hence more than one consumer).
+ IdAllocator<BufferID> buffer_ids_;
+
+ std::multimap<std::string /*name*/, RegisteredDataSource> data_sources_;
+ std::map<ProducerID, ProducerEndpointImpl*> producers_;
+ std::set<ConsumerEndpointImpl*> consumers_;
+ std::map<RelayClientID, RelayEndpointImpl*> relay_clients_;
+ std::map<TracingSessionID, TracingSession> tracing_sessions_;
+ std::map<BufferID, std::unique_ptr<TraceBuffer>> buffers_;
+ std::map<std::string, int64_t> session_to_last_trace_s_;
+
+ // Contains timestamps of triggers.
+ // The queue is sorted by timestamp and invocations older than
+ // |trigger_window_ns_| are purged when a trigger happens.
+ base::CircularQueue<TriggerHistory> trigger_history_;
+
+ bool smb_scraping_enabled_ = false;
+ bool lockdown_mode_ = false;
+ uint32_t min_write_period_ms_ = 100; // Overridable for testing.
+ int64_t trigger_window_ns_ = kOneDayInNs; // Overridable for testing.
+
+ std::minstd_rand trigger_probability_rand_;
+ std::uniform_real_distribution<> trigger_probability_dist_;
+ double trigger_rnd_override_for_testing_ = 0; // Overridable for testing.
+
+ uint8_t sync_marker_packet_[32]; // Lazily initialized.
+ size_t sync_marker_packet_size_ = 0;
+
+ // Stats.
+ uint64_t chunks_discarded_ = 0;
+ uint64_t patches_discarded_ = 0;
+
+ PERFETTO_THREAD_CHECKER(thread_checker_)
+
+ base::WeakPtrFactory<TracingServiceImpl>
+ weak_ptr_factory_; // Keep at the end.
+};
+
+} // namespace perfetto
+
+#endif // SRC_TRACING_SERVICE_TRACING_SERVICE_IMPL_H_
+// gen_amalgamated begin header: include/perfetto/tracing/core/tracing_service_capabilities.h
+/*
+ * Copyright (C) 2020 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_TRACING_CORE_TRACING_SERVICE_CAPABILITIES_H_
+#define INCLUDE_PERFETTO_TRACING_CORE_TRACING_SERVICE_CAPABILITIES_H_
+
+// Creates the aliases in the ::perfetto namespace, doing things like:
+// using ::perfetto::Foo = ::perfetto::protos::gen::Foo.
+// See comments in forward_decls.h for the historical reasons of this
+// indirection layer.
+// gen_amalgamated expanded: #include "perfetto/tracing/core/forward_decls.h"
+
+// gen_amalgamated expanded: #include "protos/perfetto/common/tracing_service_capabilities.gen.h"
+
+#endif // INCLUDE_PERFETTO_TRACING_CORE_TRACING_SERVICE_CAPABILITIES_H_
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "src/tracing/service/tracing_service_impl.h"
+
+#include <limits.h>
+#include <string.h>
+
+#include <cinttypes>
+#include <cstdint>
+#include <limits>
+#include <optional>
+#include <regex>
+#include <unordered_set>
+// gen_amalgamated expanded: #include "perfetto/base/time.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/client_identity.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/core/clock_snapshots.h"
+
+#if !PERFETTO_BUILDFLAG(PERFETTO_OS_WIN) && \
+ !PERFETTO_BUILDFLAG(PERFETTO_OS_NACL)
+#include <sys/uio.h>
+#include <sys/utsname.h>
+#include <unistd.h>
+#endif
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID) && \
+ PERFETTO_BUILDFLAG(PERFETTO_ANDROID_BUILD)
+// gen_amalgamated expanded: #include "src/android_internal/lazy_library_loader.h" // nogncheck
+// gen_amalgamated expanded: #include "src/android_internal/tracing_service_proxy.h" // nogncheck
+#endif
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_LINUX) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_APPLE)
+#define PERFETTO_HAS_CHMOD
+#include <sys/stat.h>
+#endif
+
+#include <algorithm>
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+// gen_amalgamated expanded: #include "perfetto/base/status.h"
+// gen_amalgamated expanded: #include "perfetto/base/task_runner.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/android_utils.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/file_utils.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/metatrace.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/string_utils.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/string_view.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/sys_types.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/utils.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/uuid.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/version.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/watchdog.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/basic_types.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/consumer.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/observable_events.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/producer.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/shared_memory.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/shared_memory_abi.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/trace_packet.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/trace_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/static_buffer.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/core/data_source_descriptor.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/core/tracing_service_capabilities.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/core/tracing_service_state.h"
+// gen_amalgamated expanded: #include "src/android_stats/statsd_logging_helper.h"
+// gen_amalgamated expanded: #include "src/protozero/filtering/message_filter.h"
+// gen_amalgamated expanded: #include "src/protozero/filtering/string_filter.h"
+// gen_amalgamated expanded: #include "src/tracing/core/shared_memory_arbiter_impl.h"
+// gen_amalgamated expanded: #include "src/tracing/service/packet_stream_validator.h"
+// gen_amalgamated expanded: #include "src/tracing/service/trace_buffer.h"
+
+// gen_amalgamated expanded: #include "protos/perfetto/common/builtin_clock.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/builtin_clock.pbzero.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/trace_stats.pbzero.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/trace_config.pbzero.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/clock_snapshot.pbzero.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/perfetto/tracing_service_event.pbzero.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/remote_clock_sync.pbzero.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/system_info.pbzero.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/trace_packet.pbzero.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/trace_uuid.pbzero.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/trigger.pbzero.h"
+
+// General note: this class must assume that Producers are malicious and will
+// try to crash / exploit this class. We can trust pointers because they come
+// from the IPC layer, but we should never assume that that the producer calls
+// come in the right order or their arguments are sane / within bounds.
+
+// This is a macro because we want the call-site line number for the ELOG.
+#define PERFETTO_SVC_ERR(...) \
+ (PERFETTO_ELOG(__VA_ARGS__), ::perfetto::base::ErrStatus(__VA_ARGS__))
+
+namespace perfetto {
+
+namespace {
+constexpr int kMaxBuffersPerConsumer = 128;
+constexpr uint32_t kDefaultSnapshotsIntervalMs = 10 * 1000;
+constexpr int kDefaultWriteIntoFilePeriodMs = 5000;
+constexpr int kMaxConcurrentTracingSessions = 15;
+constexpr int kMaxConcurrentTracingSessionsPerUid = 5;
+constexpr int kMaxConcurrentTracingSessionsForStatsdUid = 10;
+constexpr int64_t kMinSecondsBetweenTracesGuardrail = 5 * 60;
+
+constexpr uint32_t kMillisPerHour = 3600000;
+constexpr uint32_t kMillisPerDay = kMillisPerHour * 24;
+constexpr uint32_t kMaxTracingDurationMillis = 7 * 24 * kMillisPerHour;
+
+// These apply only if enable_extra_guardrails is true.
+constexpr uint32_t kGuardrailsMaxTracingBufferSizeKb = 128 * 1024;
+constexpr uint32_t kGuardrailsMaxTracingDurationMillis = 24 * kMillisPerHour;
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN) || PERFETTO_BUILDFLAG(PERFETTO_OS_NACL)
+struct iovec {
+ void* iov_base; // Address
+ size_t iov_len; // Block size
+};
+
+// Simple implementation of writev. Note that this does not give the atomicity
+// guarantees of a real writev, but we don't depend on these (we aren't writing
+// to the same file from another thread).
+ssize_t writev(int fd, const struct iovec* iov, int iovcnt) {
+ ssize_t total_size = 0;
+ for (int i = 0; i < iovcnt; ++i) {
+ ssize_t current_size = base::WriteAll(fd, iov[i].iov_base, iov[i].iov_len);
+ if (current_size != static_cast<ssize_t>(iov[i].iov_len))
+ return -1;
+ total_size += current_size;
+ }
+ return total_size;
+}
+
+#define IOV_MAX 1024 // Linux compatible limit.
+
+#endif // PERFETTO_BUILDFLAG(PERFETTO_OS_WIN) ||
+ // PERFETTO_BUILDFLAG(PERFETTO_OS_NACL)
+
+// Partially encodes a CommitDataRequest in an int32 for the purposes of
+// metatracing. Note that it encodes only the bottom 10 bits of the producer id
+// (which is technically 16 bits wide).
+//
+// Format (by bit range):
+// [ 31 ][ 30 ][ 29:20 ][ 19:10 ][ 9:0]
+// [unused][has flush id][num chunks to patch][num chunks to move][producer id]
+int32_t EncodeCommitDataRequest(ProducerID producer_id,
+ const CommitDataRequest& req_untrusted) {
+ uint32_t cmov = static_cast<uint32_t>(req_untrusted.chunks_to_move_size());
+ uint32_t cpatch = static_cast<uint32_t>(req_untrusted.chunks_to_patch_size());
+ uint32_t has_flush_id = req_untrusted.flush_request_id() != 0;
+
+ uint32_t mask = (1 << 10) - 1;
+ uint32_t acc = 0;
+ acc |= has_flush_id << 30;
+ acc |= (cpatch & mask) << 20;
+ acc |= (cmov & mask) << 10;
+ acc |= (producer_id & mask);
+ return static_cast<int32_t>(acc);
+}
+
+void SerializeAndAppendPacket(std::vector<TracePacket>* packets,
+ std::vector<uint8_t> packet) {
+ Slice slice = Slice::Allocate(packet.size());
+ memcpy(slice.own_data(), packet.data(), packet.size());
+ packets->emplace_back();
+ packets->back().AddSlice(std::move(slice));
+}
+
+std::tuple<size_t /*shm_size*/, size_t /*page_size*/> EnsureValidShmSizes(
+ size_t shm_size,
+ size_t page_size) {
+ // Theoretically the max page size supported by the ABI is 64KB.
+ // However, the current implementation of TraceBuffer (the non-shared
+ // userspace buffer where the service copies data) supports at most
+ // 32K. Setting 64K "works" from the producer<>consumer viewpoint
+ // but then causes the data to be discarded when copying it into
+ // TraceBuffer.
+ constexpr size_t kMaxPageSize = 32 * 1024;
+ static_assert(kMaxPageSize <= SharedMemoryABI::kMaxPageSize, "");
+
+ if (page_size == 0)
+ page_size = TracingServiceImpl::kDefaultShmPageSize;
+ if (shm_size == 0)
+ shm_size = TracingServiceImpl::kDefaultShmSize;
+
+ page_size = std::min<size_t>(page_size, kMaxPageSize);
+ shm_size = std::min<size_t>(shm_size, TracingServiceImpl::kMaxShmSize);
+
+ // The tracing page size has to be multiple of 4K. On some systems (e.g. Mac
+ // on Arm64) the system page size can be larger (e.g., 16K). That doesn't
+ // matter here, because the tracing page size is just a logical partitioning
+ // and does not have any dependencies on kernel mm syscalls (read: it's fine
+ // to have trace page sizes of 4K on a system where the kernel page size is
+ // 16K).
+ bool page_size_is_valid = page_size >= SharedMemoryABI::kMinPageSize;
+ page_size_is_valid &= page_size % SharedMemoryABI::kMinPageSize == 0;
+
+ // Only allow power of two numbers of pages, i.e. 1, 2, 4, 8 pages.
+ size_t num_pages = page_size / SharedMemoryABI::kMinPageSize;
+ page_size_is_valid &= (num_pages & (num_pages - 1)) == 0;
+
+ if (!page_size_is_valid || shm_size < page_size ||
+ shm_size % page_size != 0) {
+ return std::make_tuple(TracingServiceImpl::kDefaultShmSize,
+ TracingServiceImpl::kDefaultShmPageSize);
+ }
+ return std::make_tuple(shm_size, page_size);
+}
+
+bool NameMatchesFilter(const std::string& name,
+ const std::vector<std::string>& name_filter,
+ const std::vector<std::string>& name_regex_filter) {
+ bool filter_is_set = !name_filter.empty() || !name_regex_filter.empty();
+ if (!filter_is_set)
+ return true;
+ bool filter_matches = std::find(name_filter.begin(), name_filter.end(),
+ name) != name_filter.end();
+ bool filter_regex_matches =
+ std::find_if(name_regex_filter.begin(), name_regex_filter.end(),
+ [&](const std::string& regex) {
+ return std::regex_match(
+ name, std::regex(regex, std::regex::extended));
+ }) != name_regex_filter.end();
+ return filter_matches || filter_regex_matches;
+}
+
+// Used when TraceConfig.write_into_file == true and output_path is not empty.
+base::ScopedFile CreateTraceFile(const std::string& path, bool overwrite) {
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID) && \
+ PERFETTO_BUILDFLAG(PERFETTO_ANDROID_BUILD)
+ // This is NOT trying to preserve any security property, SELinux does that.
+ // It just improves the actionability of the error when people try to save the
+ // trace in a location that is not SELinux-allowed (a generic "permission
+ // denied" vs "don't put it here, put it there").
+ // These are the only SELinux approved dir for trace files that are created
+ // directly by traced.
+ static const char* kTraceDirBasePath = "/data/misc/perfetto-traces/";
+ if (!base::StartsWith(path, kTraceDirBasePath)) {
+ PERFETTO_ELOG("Invalid output_path %s. On Android it must be within %s.",
+ path.c_str(), kTraceDirBasePath);
+ return base::ScopedFile();
+ }
+#endif
+ // O_CREAT | O_EXCL will fail if the file exists already.
+ const int flags = O_RDWR | O_CREAT | (overwrite ? O_TRUNC : O_EXCL);
+ auto fd = base::OpenFile(path, flags, 0600);
+ if (fd) {
+#if defined(PERFETTO_HAS_CHMOD)
+ // Passing 0644 directly above won't work because of umask.
+ PERFETTO_CHECK(fchmod(*fd, 0644) == 0);
+#endif
+ } else {
+ PERFETTO_PLOG("Failed to create %s", path.c_str());
+ }
+ return fd;
+}
+
+bool ShouldLogEvent(const TraceConfig& cfg) {
+ switch (cfg.statsd_logging()) {
+ case TraceConfig::STATSD_LOGGING_ENABLED:
+ return true;
+ case TraceConfig::STATSD_LOGGING_DISABLED:
+ return false;
+ case TraceConfig::STATSD_LOGGING_UNSPECIFIED:
+ break;
+ }
+ // For backward compatibility with older versions of perfetto_cmd.
+ return cfg.enable_extra_guardrails();
+}
+
+// Appends `data` (which has `size` bytes), to `*packet`. Splits the data in
+// slices no larger than `max_slice_size`.
+void AppendOwnedSlicesToPacket(std::unique_ptr<uint8_t[]> data,
+ size_t size,
+ size_t max_slice_size,
+ perfetto::TracePacket* packet) {
+ if (size <= max_slice_size) {
+ packet->AddSlice(Slice::TakeOwnership(std::move(data), size));
+ return;
+ }
+ uint8_t* src_ptr = data.get();
+ for (size_t size_left = size; size_left > 0;) {
+ const size_t slice_size = std::min(size_left, max_slice_size);
+
+ Slice slice = Slice::Allocate(slice_size);
+ memcpy(slice.own_data(), src_ptr, slice_size);
+ packet->AddSlice(std::move(slice));
+
+ src_ptr += slice_size;
+ size_left -= slice_size;
+ }
+}
+
+using TraceFilter = protos::gen::TraceConfig::TraceFilter;
+std::optional<protozero::StringFilter::Policy> ConvertPolicy(
+ TraceFilter::StringFilterPolicy policy) {
+ switch (policy) {
+ case TraceFilter::SFP_UNSPECIFIED:
+ return std::nullopt;
+ case TraceFilter::SFP_MATCH_REDACT_GROUPS:
+ return protozero::StringFilter::Policy::kMatchRedactGroups;
+ case TraceFilter::SFP_ATRACE_MATCH_REDACT_GROUPS:
+ return protozero::StringFilter::Policy::kAtraceMatchRedactGroups;
+ case TraceFilter::SFP_MATCH_BREAK:
+ return protozero::StringFilter::Policy::kMatchBreak;
+ case TraceFilter::SFP_ATRACE_MATCH_BREAK:
+ return protozero::StringFilter::Policy::kAtraceMatchBreak;
+ case TraceFilter::SFP_ATRACE_REPEATED_SEARCH_REDACT_GROUPS:
+ return protozero::StringFilter::Policy::kAtraceRepeatedSearchRedactGroups;
+ }
+ return std::nullopt;
+}
+
+} // namespace
+
+// static
+std::unique_ptr<TracingService> TracingService::CreateInstance(
+ std::unique_ptr<SharedMemory::Factory> shm_factory,
+ base::TaskRunner* task_runner,
+ InitOpts init_opts) {
+ return std::unique_ptr<TracingService>(
+ new TracingServiceImpl(std::move(shm_factory), task_runner, init_opts));
+}
+
+TracingServiceImpl::TracingServiceImpl(
+ std::unique_ptr<SharedMemory::Factory> shm_factory,
+ base::TaskRunner* task_runner,
+ InitOpts init_opts)
+ : task_runner_(task_runner),
+ init_opts_(init_opts),
+ shm_factory_(std::move(shm_factory)),
+ uid_(base::GetCurrentUserId()),
+ buffer_ids_(kMaxTraceBufferID),
+ trigger_probability_rand_(
+ static_cast<uint32_t>(base::GetWallTimeNs().count())),
+ weak_ptr_factory_(this) {
+ PERFETTO_DCHECK(task_runner_);
+}
+
+TracingServiceImpl::~TracingServiceImpl() {
+ // TODO(fmayer): handle teardown of all Producer.
+}
+
+std::unique_ptr<TracingService::ProducerEndpoint>
+TracingServiceImpl::ConnectProducer(Producer* producer,
+ const ClientIdentity& client_identity,
+ const std::string& producer_name,
+ size_t shared_memory_size_hint_bytes,
+ bool in_process,
+ ProducerSMBScrapingMode smb_scraping_mode,
+ size_t shared_memory_page_size_hint_bytes,
+ std::unique_ptr<SharedMemory> shm,
+ const std::string& sdk_version) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+
+ auto uid = client_identity.uid();
+ if (lockdown_mode_ && uid != base::GetCurrentUserId()) {
+ PERFETTO_DLOG("Lockdown mode. Rejecting producer with UID %ld",
+ static_cast<unsigned long>(uid));
+ return nullptr;
+ }
+
+ if (producers_.size() >= kMaxProducerID) {
+ PERFETTO_DFATAL("Too many producers.");
+ return nullptr;
+ }
+ const ProducerID id = GetNextProducerID();
+ PERFETTO_DLOG("Producer %" PRIu16 " connected, uid=%d", id,
+ static_cast<int>(uid));
+ bool smb_scraping_enabled = smb_scraping_enabled_;
+ switch (smb_scraping_mode) {
+ case ProducerSMBScrapingMode::kDefault:
+ break;
+ case ProducerSMBScrapingMode::kEnabled:
+ smb_scraping_enabled = true;
+ break;
+ case ProducerSMBScrapingMode::kDisabled:
+ smb_scraping_enabled = false;
+ break;
+ }
+
+ std::unique_ptr<ProducerEndpointImpl> endpoint(new ProducerEndpointImpl(
+ id, client_identity, this, task_runner_, producer, producer_name,
+ sdk_version, in_process, smb_scraping_enabled));
+ auto it_and_inserted = producers_.emplace(id, endpoint.get());
+ PERFETTO_DCHECK(it_and_inserted.second);
+ endpoint->shmem_size_hint_bytes_ = shared_memory_size_hint_bytes;
+ endpoint->shmem_page_size_hint_bytes_ = shared_memory_page_size_hint_bytes;
+
+ // Producer::OnConnect() should run before Producer::OnTracingSetup(). The
+ // latter may be posted by SetupSharedMemory() below, so post OnConnect() now.
+ auto weak_ptr = endpoint->weak_ptr_factory_.GetWeakPtr();
+ task_runner_->PostTask([weak_ptr] {
+ if (weak_ptr)
+ weak_ptr->producer_->OnConnect();
+ });
+
+ if (shm) {
+ // The producer supplied an SMB. This is used only by Chrome; in the most
+ // common cases the SMB is created by the service and passed via
+ // OnTracingSetup(). Verify that it is correctly sized before we attempt to
+ // use it. The transport layer has to verify the integrity of the SMB (e.g.
+ // ensure that the producer can't resize if after the fact).
+ size_t shm_size, page_size;
+ std::tie(shm_size, page_size) =
+ EnsureValidShmSizes(shm->size(), endpoint->shmem_page_size_hint_bytes_);
+ if (shm_size == shm->size() &&
+ page_size == endpoint->shmem_page_size_hint_bytes_) {
+ PERFETTO_DLOG(
+ "Adopting producer-provided SMB of %zu kB for producer \"%s\"",
+ shm_size / 1024, endpoint->name_.c_str());
+ endpoint->SetupSharedMemory(std::move(shm), page_size,
+ /*provided_by_producer=*/true);
+ } else {
+ PERFETTO_LOG(
+ "Discarding incorrectly sized producer-provided SMB for producer "
+ "\"%s\", falling back to service-provided SMB. Requested sizes: %zu "
+ "B total, %zu B page size; suggested corrected sizes: %zu B total, "
+ "%zu B page size",
+ endpoint->name_.c_str(), shm->size(),
+ endpoint->shmem_page_size_hint_bytes_, shm_size, page_size);
+ shm.reset();
+ }
+ }
+
+ return std::unique_ptr<ProducerEndpoint>(std::move(endpoint));
+}
+
+void TracingServiceImpl::DisconnectProducer(ProducerID id) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ PERFETTO_DLOG("Producer %" PRIu16 " disconnected", id);
+ PERFETTO_DCHECK(producers_.count(id));
+
+ // Scrape remaining chunks for this producer to ensure we don't lose data.
+ if (auto* producer = GetProducer(id)) {
+ for (auto& session_id_and_session : tracing_sessions_)
+ ScrapeSharedMemoryBuffers(&session_id_and_session.second, producer);
+ }
+
+ for (auto it = data_sources_.begin(); it != data_sources_.end();) {
+ auto next = it;
+ next++;
+ if (it->second.producer_id == id)
+ UnregisterDataSource(id, it->second.descriptor.name());
+ it = next;
+ }
+
+ producers_.erase(id);
+ UpdateMemoryGuardrail();
+}
+
+TracingServiceImpl::ProducerEndpointImpl* TracingServiceImpl::GetProducer(
+ ProducerID id) const {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ auto it = producers_.find(id);
+ if (it == producers_.end())
+ return nullptr;
+ return it->second;
+}
+
+std::unique_ptr<TracingService::ConsumerEndpoint>
+TracingServiceImpl::ConnectConsumer(Consumer* consumer, uid_t uid) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ PERFETTO_DLOG("Consumer %p connected from UID %" PRIu64,
+ reinterpret_cast<void*>(consumer), static_cast<uint64_t>(uid));
+ std::unique_ptr<ConsumerEndpointImpl> endpoint(
+ new ConsumerEndpointImpl(this, task_runner_, consumer, uid));
+ auto it_and_inserted = consumers_.emplace(endpoint.get());
+ PERFETTO_DCHECK(it_and_inserted.second);
+ // Consumer might go away before we're able to send the connect notification,
+ // if that is the case just bail out.
+ auto weak_ptr = endpoint->weak_ptr_factory_.GetWeakPtr();
+ task_runner_->PostTask([weak_ptr] {
+ if (weak_ptr)
+ weak_ptr->consumer_->OnConnect();
+ });
+ return std::unique_ptr<ConsumerEndpoint>(std::move(endpoint));
+}
+
+void TracingServiceImpl::DisconnectConsumer(ConsumerEndpointImpl* consumer) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ PERFETTO_DLOG("Consumer %p disconnected", reinterpret_cast<void*>(consumer));
+ PERFETTO_DCHECK(consumers_.count(consumer));
+
+ // TODO(primiano) : Check that this is safe (what happens if there are
+ // ReadBuffers() calls posted in the meantime? They need to become noop).
+ if (consumer->tracing_session_id_)
+ FreeBuffers(consumer->tracing_session_id_); // Will also DisableTracing().
+ consumers_.erase(consumer);
+
+ // At this point no more pointers to |consumer| should be around.
+ PERFETTO_DCHECK(!std::any_of(
+ tracing_sessions_.begin(), tracing_sessions_.end(),
+ [consumer](const std::pair<const TracingSessionID, TracingSession>& kv) {
+ return kv.second.consumer_maybe_null == consumer;
+ }));
+}
+
+bool TracingServiceImpl::DetachConsumer(ConsumerEndpointImpl* consumer,
+ const std::string& key) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ PERFETTO_DLOG("Consumer %p detached", reinterpret_cast<void*>(consumer));
+ PERFETTO_DCHECK(consumers_.count(consumer));
+
+ TracingSessionID tsid = consumer->tracing_session_id_;
+ TracingSession* tracing_session;
+ if (!tsid || !(tracing_session = GetTracingSession(tsid)))
+ return false;
+
+ if (GetDetachedSession(consumer->uid_, key)) {
+ PERFETTO_ELOG("Another session has been detached with the same key \"%s\"",
+ key.c_str());
+ return false;
+ }
+
+ PERFETTO_DCHECK(tracing_session->consumer_maybe_null == consumer);
+ tracing_session->consumer_maybe_null = nullptr;
+ tracing_session->detach_key = key;
+ consumer->tracing_session_id_ = 0;
+ return true;
+}
+
+std::unique_ptr<TracingService::RelayEndpoint>
+TracingServiceImpl::ConnectRelayClient(RelayClientID relay_client_id) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+
+ auto endpoint = std::make_unique<RelayEndpointImpl>(relay_client_id, this);
+ relay_clients_[relay_client_id] = endpoint.get();
+
+ return std::move(endpoint);
+}
+
+void TracingServiceImpl::DisconnectRelayClient(RelayClientID relay_client_id) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+
+ if (relay_clients_.find(relay_client_id) == relay_clients_.end())
+ return;
+ relay_clients_.erase(relay_client_id);
+}
+
+bool TracingServiceImpl::AttachConsumer(ConsumerEndpointImpl* consumer,
+ const std::string& key) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ PERFETTO_DLOG("Consumer %p attaching to session %s",
+ reinterpret_cast<void*>(consumer), key.c_str());
+ PERFETTO_DCHECK(consumers_.count(consumer));
+
+ if (consumer->tracing_session_id_) {
+ PERFETTO_ELOG(
+ "Cannot reattach consumer to session %s"
+ " while it already attached tracing session ID %" PRIu64,
+ key.c_str(), consumer->tracing_session_id_);
+ return false;
+ }
+
+ auto* tracing_session = GetDetachedSession(consumer->uid_, key);
+ if (!tracing_session) {
+ PERFETTO_ELOG(
+ "Failed to attach consumer, session '%s' not found for uid %d",
+ key.c_str(), static_cast<int>(consumer->uid_));
+ return false;
+ }
+
+ consumer->tracing_session_id_ = tracing_session->id;
+ tracing_session->consumer_maybe_null = consumer;
+ tracing_session->detach_key.clear();
+ return true;
+}
+
+base::Status TracingServiceImpl::EnableTracing(ConsumerEndpointImpl* consumer,
+ const TraceConfig& cfg,
+ base::ScopedFile fd) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+
+ // If the producer is specifying a UUID, respect that (at least for the first
+ // snapshot). Otherwise generate a new UUID.
+ base::Uuid uuid(cfg.trace_uuid_lsb(), cfg.trace_uuid_msb());
+ if (!uuid)
+ uuid = base::Uuidv4();
+
+ PERFETTO_DLOG("Enabling tracing for consumer %p, UUID: %s",
+ reinterpret_cast<void*>(consumer),
+ uuid.ToPrettyString().c_str());
+ MaybeLogUploadEvent(cfg, uuid, PerfettoStatsdAtom::kTracedEnableTracing);
+ if (cfg.lockdown_mode() == TraceConfig::LOCKDOWN_SET)
+ lockdown_mode_ = true;
+ if (cfg.lockdown_mode() == TraceConfig::LOCKDOWN_CLEAR)
+ lockdown_mode_ = false;
+
+ // Scope |tracing_session| to this block to prevent accidental use of a null
+ // pointer later in this function.
+ {
+ TracingSession* tracing_session =
+ GetTracingSession(consumer->tracing_session_id_);
+ if (tracing_session) {
+ MaybeLogUploadEvent(
+ cfg, uuid,
+ PerfettoStatsdAtom::kTracedEnableTracingExistingTraceSession);
+ return PERFETTO_SVC_ERR(
+ "A Consumer is trying to EnableTracing() but another tracing "
+ "session is already active (forgot a call to FreeBuffers() ?)");
+ }
+ }
+
+ const uint32_t max_duration_ms = cfg.enable_extra_guardrails()
+ ? kGuardrailsMaxTracingDurationMillis
+ : kMaxTracingDurationMillis;
+ if (cfg.duration_ms() > max_duration_ms) {
+ MaybeLogUploadEvent(cfg, uuid,
+ PerfettoStatsdAtom::kTracedEnableTracingTooLongTrace);
+ return PERFETTO_SVC_ERR("Requested too long trace (%" PRIu32
+ "ms > %" PRIu32 " ms)",
+ cfg.duration_ms(), max_duration_ms);
+ }
+
+ const bool has_trigger_config =
+ GetTriggerMode(cfg) != TraceConfig::TriggerConfig::UNSPECIFIED;
+ if (has_trigger_config &&
+ (cfg.trigger_config().trigger_timeout_ms() == 0 ||
+ cfg.trigger_config().trigger_timeout_ms() > max_duration_ms)) {
+ MaybeLogUploadEvent(
+ cfg, uuid,
+ PerfettoStatsdAtom::kTracedEnableTracingInvalidTriggerTimeout);
+ return PERFETTO_SVC_ERR(
+ "Traces with START_TRACING triggers must provide a positive "
+ "trigger_timeout_ms < 7 days (received %" PRIu32 "ms)",
+ cfg.trigger_config().trigger_timeout_ms());
+ }
+
+ // This check has been introduced in May 2023 after finding b/274931668.
+ if (static_cast<int>(cfg.trigger_config().trigger_mode()) >
+ TraceConfig::TriggerConfig::TriggerMode_MAX) {
+ MaybeLogUploadEvent(
+ cfg, uuid, PerfettoStatsdAtom::kTracedEnableTracingInvalidTriggerMode);
+ return PERFETTO_SVC_ERR(
+ "The trace config specified an invalid trigger_mode");
+ }
+
+ if (cfg.trigger_config().use_clone_snapshot_if_available() &&
+ cfg.trigger_config().trigger_mode() !=
+ TraceConfig::TriggerConfig::STOP_TRACING) {
+ MaybeLogUploadEvent(
+ cfg, uuid, PerfettoStatsdAtom::kTracedEnableTracingInvalidTriggerMode);
+ return PERFETTO_SVC_ERR(
+ "trigger_mode must be STOP_TRACING when "
+ "use_clone_snapshot_if_available=true");
+ }
+
+ if (has_trigger_config && cfg.duration_ms() != 0) {
+ MaybeLogUploadEvent(
+ cfg, uuid, PerfettoStatsdAtom::kTracedEnableTracingDurationWithTrigger);
+ return PERFETTO_SVC_ERR(
+ "duration_ms was set, this must not be set for traces with triggers.");
+ }
+
+ for (char c : cfg.bugreport_filename()) {
+ if (!((c >= 'a' && c <= 'z') || (c >= 'A' && c <= 'Z') ||
+ (c >= '0' && c <= '9') || c == '-' || c == '_' || c == '.')) {
+ MaybeLogUploadEvent(
+ cfg, uuid, PerfettoStatsdAtom::kTracedEnableTracingInvalidBrFilename);
+ return PERFETTO_SVC_ERR(
+ "bugreport_filename contains invalid chars. Use [a-zA-Z0-9-_.]+");
+ }
+ }
+
+ if ((GetTriggerMode(cfg) == TraceConfig::TriggerConfig::STOP_TRACING ||
+ GetTriggerMode(cfg) == TraceConfig::TriggerConfig::CLONE_SNAPSHOT) &&
+ cfg.write_into_file()) {
+ // We don't support this usecase because there are subtle assumptions which
+ // break around TracingServiceEvents and windowed sorting (i.e. if we don't
+ // drain the events in ReadBuffersIntoFile because we are waiting for
+ // STOP_TRACING, we can end up queueing up a lot of TracingServiceEvents and
+ // emitting them wildy out of order breaking windowed sorting in trace
+ // processor).
+ MaybeLogUploadEvent(
+ cfg, uuid,
+ PerfettoStatsdAtom::kTracedEnableTracingStopTracingWriteIntoFile);
+ return PERFETTO_SVC_ERR(
+ "Specifying trigger mode STOP_TRACING/CLONE_SNAPSHOT and "
+ "write_into_file together is unsupported");
+ }
+
+ std::unordered_set<std::string> triggers;
+ for (const auto& trigger : cfg.trigger_config().triggers()) {
+ if (!triggers.insert(trigger.name()).second) {
+ MaybeLogUploadEvent(
+ cfg, uuid,
+ PerfettoStatsdAtom::kTracedEnableTracingDuplicateTriggerName);
+ return PERFETTO_SVC_ERR("Duplicate trigger name: %s",
+ trigger.name().c_str());
+ }
+ }
+
+ if (cfg.enable_extra_guardrails()) {
+ if (cfg.deferred_start()) {
+ MaybeLogUploadEvent(
+ cfg, uuid,
+ PerfettoStatsdAtom::kTracedEnableTracingInvalidDeferredStart);
+ return PERFETTO_SVC_ERR(
+ "deferred_start=true is not supported in unsupervised traces");
+ }
+ uint64_t buf_size_sum = 0;
+ for (const auto& buf : cfg.buffers()) {
+ if (buf.size_kb() % 4 != 0) {
+ MaybeLogUploadEvent(
+ cfg, uuid,
+ PerfettoStatsdAtom::kTracedEnableTracingInvalidBufferSize);
+ return PERFETTO_SVC_ERR(
+ "buffers.size_kb must be a multiple of 4, got %" PRIu32,
+ buf.size_kb());
+ }
+ buf_size_sum += buf.size_kb();
+ }
+
+ uint32_t max_tracing_buffer_size_kb =
+ std::max(kGuardrailsMaxTracingBufferSizeKb,
+ cfg.guardrail_overrides().max_tracing_buffer_size_kb());
+ if (buf_size_sum > max_tracing_buffer_size_kb) {
+ MaybeLogUploadEvent(
+ cfg, uuid,
+ PerfettoStatsdAtom::kTracedEnableTracingBufferSizeTooLarge);
+ return PERFETTO_SVC_ERR("Requested too large trace buffer (%" PRIu64
+ "kB > %" PRIu32 " kB)",
+ buf_size_sum, max_tracing_buffer_size_kb);
+ }
+ }
+
+ if (cfg.buffers_size() > kMaxBuffersPerConsumer) {
+ MaybeLogUploadEvent(cfg, uuid,
+ PerfettoStatsdAtom::kTracedEnableTracingTooManyBuffers);
+ return PERFETTO_SVC_ERR("Too many buffers configured (%d)",
+ cfg.buffers_size());
+ }
+ // Check that the config specifies all buffers for its data sources. This
+ // is also checked in SetupDataSource, but it is simpler to return a proper
+ // error to the consumer from here (and there will be less state to undo).
+ for (const TraceConfig::DataSource& cfg_data_source : cfg.data_sources()) {
+ size_t num_buffers = static_cast<size_t>(cfg.buffers_size());
+ size_t target_buffer = cfg_data_source.config().target_buffer();
+ if (target_buffer >= num_buffers) {
+ MaybeLogUploadEvent(
+ cfg, uuid, PerfettoStatsdAtom::kTracedEnableTracingOobTargetBuffer);
+ return PERFETTO_SVC_ERR(
+ "Data source \"%s\" specified an out of bounds target_buffer (%zu >= "
+ "%zu)",
+ cfg_data_source.config().name().c_str(), target_buffer, num_buffers);
+ }
+ }
+
+ if (!cfg.unique_session_name().empty()) {
+ const std::string& name = cfg.unique_session_name();
+ for (auto& kv : tracing_sessions_) {
+ if (kv.second.state == TracingSession::CLONED_READ_ONLY)
+ continue; // Don't consider cloned sessions in uniqueness checks.
+ if (kv.second.config.unique_session_name() == name) {
+ MaybeLogUploadEvent(
+ cfg, uuid,
+ PerfettoStatsdAtom::kTracedEnableTracingDuplicateSessionName);
+ static const char fmt[] =
+ "A trace with this unique session name (%s) already exists";
+ // This happens frequently, don't make it an "E"LOG.
+ PERFETTO_LOG(fmt, name.c_str());
+ return base::ErrStatus(fmt, name.c_str());
+ }
+ }
+ }
+
+ if (cfg.enable_extra_guardrails()) {
+ // unique_session_name can be empty
+ const std::string& name = cfg.unique_session_name();
+ int64_t now_s = base::GetBootTimeS().count();
+
+ // Remove any entries where the time limit has passed so this map doesn't
+ // grow indefinitely:
+ std::map<std::string, int64_t>& sessions = session_to_last_trace_s_;
+ for (auto it = sessions.cbegin(); it != sessions.cend();) {
+ if (now_s - it->second > kMinSecondsBetweenTracesGuardrail) {
+ it = sessions.erase(it);
+ } else {
+ ++it;
+ }
+ }
+
+ int64_t& previous_s = session_to_last_trace_s_[name];
+ if (previous_s == 0) {
+ previous_s = now_s;
+ } else {
+ MaybeLogUploadEvent(
+ cfg, uuid,
+ PerfettoStatsdAtom::kTracedEnableTracingSessionNameTooRecent);
+ return PERFETTO_SVC_ERR(
+ "A trace with unique session name \"%s\" began less than %" PRId64
+ "s ago (%" PRId64 "s)",
+ name.c_str(), kMinSecondsBetweenTracesGuardrail, now_s - previous_s);
+ }
+ }
+
+ const int sessions_for_uid = static_cast<int>(std::count_if(
+ tracing_sessions_.begin(), tracing_sessions_.end(),
+ [consumer](const decltype(tracing_sessions_)::value_type& s) {
+ return s.second.consumer_uid == consumer->uid_;
+ }));
+
+ int per_uid_limit = kMaxConcurrentTracingSessionsPerUid;
+ if (consumer->uid_ == 1066 /* AID_STATSD*/) {
+ per_uid_limit = kMaxConcurrentTracingSessionsForStatsdUid;
+ }
+ if (sessions_for_uid >= per_uid_limit) {
+ MaybeLogUploadEvent(
+ cfg, uuid,
+ PerfettoStatsdAtom::kTracedEnableTracingTooManySessionsForUid);
+ return PERFETTO_SVC_ERR(
+ "Too many concurrent tracing sesions (%d) for uid %d limit is %d",
+ sessions_for_uid, static_cast<int>(consumer->uid_), per_uid_limit);
+ }
+
+ // TODO(primiano): This is a workaround to prevent that a producer gets stuck
+ // in a state where it stalls by design by having more TraceWriterImpl
+ // instances than free pages in the buffer. This is really a bug in
+ // trace_probes and the way it handles stalls in the shmem buffer.
+ if (tracing_sessions_.size() >= kMaxConcurrentTracingSessions) {
+ MaybeLogUploadEvent(
+ cfg, uuid,
+ PerfettoStatsdAtom::kTracedEnableTracingTooManyConcurrentSessions);
+ return PERFETTO_SVC_ERR("Too many concurrent tracing sesions (%zu)",
+ tracing_sessions_.size());
+ }
+
+ // If the trace config provides a filter bytecode, setup the filter now.
+ // If the filter loading fails, abort the tracing session rather than running
+ // unfiltered.
+ std::unique_ptr<protozero::MessageFilter> trace_filter;
+ if (cfg.has_trace_filter()) {
+ const auto& filt = cfg.trace_filter();
+ trace_filter.reset(new protozero::MessageFilter());
+
+ protozero::StringFilter& string_filter = trace_filter->string_filter();
+ for (const auto& rule : filt.string_filter_chain().rules()) {
+ auto opt_policy = ConvertPolicy(rule.policy());
+ if (!opt_policy.has_value()) {
+ MaybeLogUploadEvent(
+ cfg, uuid, PerfettoStatsdAtom::kTracedEnableTracingInvalidFilter);
+ return PERFETTO_SVC_ERR(
+ "Trace filter has invalid string filtering rules, aborting");
+ }
+ string_filter.AddRule(*opt_policy, rule.regex_pattern(),
+ rule.atrace_payload_starts_with());
+ }
+
+ const std::string& bytecode_v1 = filt.bytecode();
+ const std::string& bytecode_v2 = filt.bytecode_v2();
+ const std::string& bytecode =
+ bytecode_v2.empty() ? bytecode_v1 : bytecode_v2;
+ if (!trace_filter->LoadFilterBytecode(bytecode.data(), bytecode.size())) {
+ MaybeLogUploadEvent(
+ cfg, uuid, PerfettoStatsdAtom::kTracedEnableTracingInvalidFilter);
+ return PERFETTO_SVC_ERR("Trace filter bytecode invalid, aborting");
+ }
+
+ // The filter is created using perfetto.protos.Trace as root message
+ // (because that makes it possible to play around with the `proto_filter`
+ // tool on actual traces). Here in the service, however, we deal with
+ // perfetto.protos.TracePacket(s), which are one level down (Trace.packet).
+ // The IPC client (or the write_into_filte logic in here) are responsible
+ // for pre-pending the packet preamble (See GetProtoPreamble() calls), but
+ // the preamble is not there at ReadBuffer time. Hence we change the root of
+ // the filtering to start at the Trace.packet level.
+ if (!trace_filter->SetFilterRoot({TracePacket::kPacketFieldNumber})) {
+ MaybeLogUploadEvent(
+ cfg, uuid, PerfettoStatsdAtom::kTracedEnableTracingInvalidFilter);
+ return PERFETTO_SVC_ERR("Failed to set filter root.");
+ }
+ }
+
+ const TracingSessionID tsid = ++last_tracing_session_id_;
+ TracingSession* tracing_session =
+ &tracing_sessions_
+ .emplace(std::piecewise_construct, std::forward_as_tuple(tsid),
+ std::forward_as_tuple(tsid, consumer, cfg, task_runner_))
+ .first->second;
+
+ tracing_session->trace_uuid = uuid;
+
+ if (trace_filter)
+ tracing_session->trace_filter = std::move(trace_filter);
+
+ if (cfg.write_into_file()) {
+ if (!fd ^ !cfg.output_path().empty()) {
+ MaybeLogUploadEvent(
+ tracing_session->config, uuid,
+ PerfettoStatsdAtom::kTracedEnableTracingInvalidFdOutputFile);
+ tracing_sessions_.erase(tsid);
+ return PERFETTO_SVC_ERR(
+ "When write_into_file==true either a FD needs to be passed or "
+ "output_path must be populated (but not both)");
+ }
+ if (!cfg.output_path().empty()) {
+ fd = CreateTraceFile(cfg.output_path(), /*overwrite=*/false);
+ if (!fd) {
+ MaybeLogUploadEvent(
+ tracing_session->config, uuid,
+ PerfettoStatsdAtom::kTracedEnableTracingFailedToCreateFile);
+ tracing_sessions_.erase(tsid);
+ return PERFETTO_SVC_ERR("Failed to create the trace file %s",
+ cfg.output_path().c_str());
+ }
+ }
+ tracing_session->write_into_file = std::move(fd);
+ uint32_t write_period_ms = cfg.file_write_period_ms();
+ if (write_period_ms == 0)
+ write_period_ms = kDefaultWriteIntoFilePeriodMs;
+ if (write_period_ms < min_write_period_ms_)
+ write_period_ms = min_write_period_ms_;
+ tracing_session->write_period_ms = write_period_ms;
+ tracing_session->max_file_size_bytes = cfg.max_file_size_bytes();
+ tracing_session->bytes_written_into_file = 0;
+ }
+
+ if (cfg.compression_type() == TraceConfig::COMPRESSION_TYPE_DEFLATE) {
+ if (init_opts_.compressor_fn) {
+ tracing_session->compress_deflate = true;
+ } else {
+ PERFETTO_LOG(
+ "COMPRESSION_TYPE_DEFLATE is not supported in the current build "
+ "configuration. Skipping compression");
+ }
+ }
+
+ // Initialize the log buffers.
+ bool did_allocate_all_buffers = true;
+ bool invalid_buffer_config = false;
+
+ // Allocate the trace buffers. Also create a map to translate a consumer
+ // relative index (TraceConfig.DataSourceConfig.target_buffer) into the
+ // corresponding BufferID, which is a global ID namespace for the service and
+ // all producers.
+ size_t total_buf_size_kb = 0;
+ const size_t num_buffers = static_cast<size_t>(cfg.buffers_size());
+ tracing_session->buffers_index.reserve(num_buffers);
+ for (size_t i = 0; i < num_buffers; i++) {
+ const TraceConfig::BufferConfig& buffer_cfg = cfg.buffers()[i];
+ BufferID global_id = buffer_ids_.Allocate();
+ if (!global_id) {
+ did_allocate_all_buffers = false; // We ran out of IDs.
+ break;
+ }
+ tracing_session->buffers_index.push_back(global_id);
+ // TraceBuffer size is limited to 32-bit.
+ const uint32_t buf_size_kb = buffer_cfg.size_kb();
+ const uint64_t buf_size_bytes = buf_size_kb * static_cast<uint64_t>(1024);
+ const size_t buf_size = static_cast<size_t>(buf_size_bytes);
+ if (buf_size_bytes == 0 ||
+ buf_size_bytes > std::numeric_limits<uint32_t>::max() ||
+ buf_size != buf_size_bytes) {
+ invalid_buffer_config = true;
+ did_allocate_all_buffers = false;
+ break;
+ }
+ total_buf_size_kb += buf_size_kb;
+ TraceBuffer::OverwritePolicy policy =
+ buffer_cfg.fill_policy() == TraceConfig::BufferConfig::DISCARD
+ ? TraceBuffer::kDiscard
+ : TraceBuffer::kOverwrite;
+ auto it_and_inserted =
+ buffers_.emplace(global_id, TraceBuffer::Create(buf_size, policy));
+ PERFETTO_DCHECK(it_and_inserted.second); // buffers_.count(global_id) == 0.
+ std::unique_ptr<TraceBuffer>& trace_buffer = it_and_inserted.first->second;
+ if (!trace_buffer) {
+ did_allocate_all_buffers = false;
+ break;
+ }
+ }
+
+ // This can happen if either:
+ // - All the kMaxTraceBufferID slots are taken.
+ // - OOM, or, more realistically, we exhausted virtual memory.
+ // - The buffer size in the config is invalid.
+ // In any case, free all the previously allocated buffers and abort.
+ if (!did_allocate_all_buffers) {
+ for (BufferID global_id : tracing_session->buffers_index) {
+ buffer_ids_.Free(global_id);
+ buffers_.erase(global_id);
+ }
+ MaybeLogUploadEvent(tracing_session->config, uuid,
+ PerfettoStatsdAtom::kTracedEnableTracingOom);
+ tracing_sessions_.erase(tsid);
+ if (invalid_buffer_config) {
+ return PERFETTO_SVC_ERR(
+ "Failed to allocate tracing buffers: Invalid buffer sizes");
+ }
+ return PERFETTO_SVC_ERR(
+ "Failed to allocate tracing buffers: OOM or too many buffers");
+ }
+
+ UpdateMemoryGuardrail();
+
+ consumer->tracing_session_id_ = tsid;
+
+ // Setup the data sources on the producers without starting them.
+ for (const TraceConfig::DataSource& cfg_data_source : cfg.data_sources()) {
+ // Scan all the registered data sources with a matching name.
+ auto range = data_sources_.equal_range(cfg_data_source.config().name());
+ for (auto it = range.first; it != range.second; it++) {
+ TraceConfig::ProducerConfig producer_config;
+ for (const auto& config : cfg.producers()) {
+ if (GetProducer(it->second.producer_id)->name_ ==
+ config.producer_name()) {
+ producer_config = config;
+ break;
+ }
+ }
+ SetupDataSource(cfg_data_source, producer_config, it->second,
+ tracing_session);
+ }
+ }
+
+ bool has_start_trigger = false;
+ auto weak_this = weak_ptr_factory_.GetWeakPtr();
+ switch (GetTriggerMode(cfg)) {
+ case TraceConfig::TriggerConfig::UNSPECIFIED:
+ // no triggers are specified so this isn't a trace that is using triggers.
+ PERFETTO_DCHECK(!has_trigger_config);
+ break;
+ case TraceConfig::TriggerConfig::START_TRACING:
+ // For traces which use START_TRACE triggers we need to ensure that the
+ // tracing session will be cleaned up when it times out.
+ has_start_trigger = true;
+ task_runner_->PostDelayedTask(
+ [weak_this, tsid]() {
+ if (weak_this)
+ weak_this->OnStartTriggersTimeout(tsid);
+ },
+ cfg.trigger_config().trigger_timeout_ms());
+ break;
+ case TraceConfig::TriggerConfig::STOP_TRACING:
+ case TraceConfig::TriggerConfig::CLONE_SNAPSHOT:
+ // Update the tracing_session's duration_ms to ensure that if no trigger
+ // is received the session will end and be cleaned up equal to the
+ // timeout.
+ //
+ // TODO(nuskos): Refactor this so that rather then modifying the config we
+ // have a field we look at on the tracing_session.
+ tracing_session->config.set_duration_ms(
+ cfg.trigger_config().trigger_timeout_ms());
+ break;
+
+ // The case of unknown modes (coming from future versions of the service)
+ // is handled few lines above (search for TriggerMode_MAX).
+ }
+
+ tracing_session->state = TracingSession::CONFIGURED;
+ PERFETTO_LOG(
+ "Configured tracing session %" PRIu64
+ ", #sources:%zu, duration:%d ms%s, #buffers:%d, total "
+ "buffer size:%zu KB, total sessions:%zu, uid:%d session name: \"%s\"",
+ tsid, cfg.data_sources().size(), tracing_session->config.duration_ms(),
+ tracing_session->config.prefer_suspend_clock_for_duration()
+ ? " (suspend_clock)"
+ : "",
+ cfg.buffers_size(), total_buf_size_kb, tracing_sessions_.size(),
+ static_cast<unsigned int>(consumer->uid_),
+ cfg.unique_session_name().c_str());
+
+ // Start the data sources, unless this is a case of early setup + fast
+ // triggering, either through TraceConfig.deferred_start or
+ // TraceConfig.trigger_config(). If both are specified which ever one occurs
+ // first will initiate the trace.
+ if (!cfg.deferred_start() && !has_start_trigger)
+ return StartTracing(tsid);
+
+ return base::OkStatus();
+}
+
+void TracingServiceImpl::ChangeTraceConfig(ConsumerEndpointImpl* consumer,
+ const TraceConfig& updated_cfg) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ TracingSession* tracing_session =
+ GetTracingSession(consumer->tracing_session_id_);
+ PERFETTO_DCHECK(tracing_session);
+
+ if ((tracing_session->state != TracingSession::STARTED) &&
+ (tracing_session->state != TracingSession::CONFIGURED)) {
+ PERFETTO_ELOG(
+ "ChangeTraceConfig() was called for a tracing session which isn't "
+ "running.");
+ return;
+ }
+
+ // We only support updating producer_name_{,regex}_filter (and pass-through
+ // configs) for now; null out any changeable fields and make sure the rest are
+ // identical.
+ TraceConfig new_config_copy(updated_cfg);
+ for (auto& ds_cfg : *new_config_copy.mutable_data_sources()) {
+ ds_cfg.clear_producer_name_filter();
+ ds_cfg.clear_producer_name_regex_filter();
+ }
+
+ TraceConfig current_config_copy(tracing_session->config);
+ for (auto& ds_cfg : *current_config_copy.mutable_data_sources()) {
+ ds_cfg.clear_producer_name_filter();
+ ds_cfg.clear_producer_name_regex_filter();
+ }
+
+ if (new_config_copy != current_config_copy) {
+ PERFETTO_LOG(
+ "ChangeTraceConfig() was called with a config containing unsupported "
+ "changes; only adding to the producer_name_{,regex}_filter is "
+ "currently supported and will have an effect.");
+ }
+
+ for (TraceConfig::DataSource& cfg_data_source :
+ *tracing_session->config.mutable_data_sources()) {
+ // Find the updated producer_filter in the new config.
+ std::vector<std::string> new_producer_name_filter;
+ std::vector<std::string> new_producer_name_regex_filter;
+ bool found_data_source = false;
+ for (const auto& it : updated_cfg.data_sources()) {
+ if (cfg_data_source.config().name() == it.config().name()) {
+ new_producer_name_filter = it.producer_name_filter();
+ new_producer_name_regex_filter = it.producer_name_regex_filter();
+ found_data_source = true;
+ break;
+ }
+ }
+
+ // Bail out if data source not present in the new config.
+ if (!found_data_source) {
+ PERFETTO_ELOG(
+ "ChangeTraceConfig() called without a current data source also "
+ "present in the new config: %s",
+ cfg_data_source.config().name().c_str());
+ continue;
+ }
+
+ // TODO(oysteine): Just replacing the filter means that if
+ // there are any filter entries which were present in the original config,
+ // but removed from the config passed to ChangeTraceConfig, any matching
+ // producers will keep producing but newly added producers after this
+ // point will never start.
+ *cfg_data_source.mutable_producer_name_filter() = new_producer_name_filter;
+ *cfg_data_source.mutable_producer_name_regex_filter() =
+ new_producer_name_regex_filter;
+
+ // Get the list of producers that are already set up.
+ std::unordered_set<uint16_t> set_up_producers;
+ auto& ds_instances = tracing_session->data_source_instances;
+ for (auto instance_it = ds_instances.begin();
+ instance_it != ds_instances.end(); ++instance_it) {
+ set_up_producers.insert(instance_it->first);
+ }
+
+ // Scan all the registered data sources with a matching name.
+ auto range = data_sources_.equal_range(cfg_data_source.config().name());
+ for (auto it = range.first; it != range.second; it++) {
+ ProducerEndpointImpl* producer = GetProducer(it->second.producer_id);
+ PERFETTO_DCHECK(producer);
+
+ // Check if the producer name of this data source is present
+ // in the name filters. We currently only support new filters, not
+ // removing old ones.
+ if (!NameMatchesFilter(producer->name_, new_producer_name_filter,
+ new_producer_name_regex_filter)) {
+ continue;
+ }
+
+ // If this producer is already set up, we assume that all datasources
+ // in it started already.
+ if (set_up_producers.count(it->second.producer_id))
+ continue;
+
+ // If it wasn't previously setup, set it up now.
+ // (The per-producer config is optional).
+ TraceConfig::ProducerConfig producer_config;
+ for (const auto& config : tracing_session->config.producers()) {
+ if (producer->name_ == config.producer_name()) {
+ producer_config = config;
+ break;
+ }
+ }
+
+ DataSourceInstance* ds_inst = SetupDataSource(
+ cfg_data_source, producer_config, it->second, tracing_session);
+
+ if (ds_inst && tracing_session->state == TracingSession::STARTED)
+ StartDataSourceInstance(producer, tracing_session, ds_inst);
+ }
+ }
+}
+
+base::Status TracingServiceImpl::StartTracing(TracingSessionID tsid) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+
+ auto weak_this = weak_ptr_factory_.GetWeakPtr();
+ TracingSession* tracing_session = GetTracingSession(tsid);
+ if (!tracing_session) {
+ return PERFETTO_SVC_ERR(
+ "StartTracing() failed, invalid session ID %" PRIu64, tsid);
+ }
+
+ MaybeLogUploadEvent(tracing_session->config, tracing_session->trace_uuid,
+ PerfettoStatsdAtom::kTracedStartTracing);
+
+ if (tracing_session->state != TracingSession::CONFIGURED) {
+ MaybeLogUploadEvent(
+ tracing_session->config, tracing_session->trace_uuid,
+ PerfettoStatsdAtom::kTracedStartTracingInvalidSessionState);
+ return PERFETTO_SVC_ERR("StartTracing() failed, invalid session state: %d",
+ tracing_session->state);
+ }
+
+ tracing_session->state = TracingSession::STARTED;
+
+ // We store the start of trace snapshot separately as it's important to make
+ // sure we can interpret all the data in the trace and storing it in the ring
+ // buffer means it could be overwritten by a later snapshot.
+ if (!tracing_session->config.builtin_data_sources()
+ .disable_clock_snapshotting()) {
+ SnapshotClocks(&tracing_session->initial_clock_snapshot);
+ }
+
+ // We don't snapshot the clocks here because we just did this above.
+ SnapshotLifecyleEvent(
+ tracing_session,
+ protos::pbzero::TracingServiceEvent::kTracingStartedFieldNumber,
+ false /* snapshot_clocks */);
+
+ // Periodically snapshot clocks, stats, sync markers while the trace is
+ // active. The snapshots are emitted on the future ReadBuffers() calls, which
+ // means that:
+ // (a) If we're streaming to a file (or to a consumer) while tracing, we
+ // write snapshots periodically into the trace.
+ // (b) If ReadBuffers() is only called after tracing ends, we emit the latest
+ // snapshot into the trace. For clock snapshots, we keep track of the
+ // snapshot recorded at the beginning of the session
+ // (initial_clock_snapshot above), as well as the most recent sampled
+ // snapshots that showed significant new drift between different clocks.
+ // The latter clock snapshots are sampled periodically and at lifecycle
+ // events.
+ base::PeriodicTask::Args snapshot_task_args;
+ snapshot_task_args.start_first_task_immediately = true;
+ snapshot_task_args.use_suspend_aware_timer =
+ tracing_session->config.builtin_data_sources()
+ .prefer_suspend_clock_for_snapshot();
+ snapshot_task_args.task = [weak_this, tsid] {
+ if (weak_this)
+ weak_this->PeriodicSnapshotTask(tsid);
+ };
+ snapshot_task_args.period_ms =
+ tracing_session->config.builtin_data_sources().snapshot_interval_ms();
+ if (!snapshot_task_args.period_ms)
+ snapshot_task_args.period_ms = kDefaultSnapshotsIntervalMs;
+ tracing_session->snapshot_periodic_task.Start(snapshot_task_args);
+
+ // Trigger delayed task if the trace is time limited.
+ const uint32_t trace_duration_ms = tracing_session->config.duration_ms();
+ if (trace_duration_ms > 0) {
+ auto stop_task =
+ std::bind(&TracingServiceImpl::StopOnDurationMsExpiry, weak_this, tsid);
+ if (tracing_session->config.prefer_suspend_clock_for_duration()) {
+ base::PeriodicTask::Args stop_args;
+ stop_args.use_suspend_aware_timer = true;
+ stop_args.period_ms = trace_duration_ms;
+ stop_args.one_shot = true;
+ stop_args.task = std::move(stop_task);
+ tracing_session->timed_stop_task.Start(stop_args);
+ } else {
+ task_runner_->PostDelayedTask(std::move(stop_task), trace_duration_ms);
+ }
+ } // if (trace_duration_ms > 0).
+
+ // Start the periodic drain tasks if we should to save the trace into a file.
+ if (tracing_session->config.write_into_file()) {
+ task_runner_->PostDelayedTask(
+ [weak_this, tsid] {
+ if (weak_this)
+ weak_this->ReadBuffersIntoFile(tsid);
+ },
+ tracing_session->delay_to_next_write_period_ms());
+ }
+
+ // Start the periodic flush tasks if the config specified a flush period.
+ if (tracing_session->config.flush_period_ms())
+ PeriodicFlushTask(tsid, /*post_next_only=*/true);
+
+ // Start the periodic incremental state clear tasks if the config specified a
+ // period.
+ if (tracing_session->config.incremental_state_config().clear_period_ms()) {
+ PeriodicClearIncrementalStateTask(tsid, /*post_next_only=*/true);
+ }
+
+ for (auto& [prod_id, data_source] : tracing_session->data_source_instances) {
+ ProducerEndpointImpl* producer = GetProducer(prod_id);
+ if (!producer) {
+ PERFETTO_DFATAL("Producer does not exist.");
+ continue;
+ }
+ StartDataSourceInstance(producer, tracing_session, &data_source);
+ }
+
+ MaybeNotifyAllDataSourcesStarted(tracing_session);
+ return base::OkStatus();
+}
+
+// static
+void TracingServiceImpl::StopOnDurationMsExpiry(
+ base::WeakPtr<TracingServiceImpl> weak_this,
+ TracingSessionID tsid) {
+ // Skip entirely the flush if the trace session doesn't exist anymore.
+ // This is to prevent misleading error messages to be logged.
+ if (!weak_this)
+ return;
+ auto* tracing_session_ptr = weak_this->GetTracingSession(tsid);
+ if (!tracing_session_ptr)
+ return;
+ // If this trace was using STOP_TRACING triggers and we've seen
+ // one, then the trigger overrides the normal timeout. In this
+ // case we just return and let the other task clean up this trace.
+ if (GetTriggerMode(tracing_session_ptr->config) ==
+ TraceConfig::TriggerConfig::STOP_TRACING &&
+ !tracing_session_ptr->received_triggers.empty())
+ return;
+ // In all other cases (START_TRACING or no triggers) we flush
+ // after |trace_duration_ms| unconditionally.
+ weak_this->FlushAndDisableTracing(tsid);
+}
+
+void TracingServiceImpl::StartDataSourceInstance(
+ ProducerEndpointImpl* producer,
+ TracingSession* tracing_session,
+ TracingServiceImpl::DataSourceInstance* instance) {
+ PERFETTO_DCHECK(instance->state == DataSourceInstance::CONFIGURED);
+ if (instance->will_notify_on_start) {
+ instance->state = DataSourceInstance::STARTING;
+ } else {
+ instance->state = DataSourceInstance::STARTED;
+ }
+ if (tracing_session->consumer_maybe_null) {
+ tracing_session->consumer_maybe_null->OnDataSourceInstanceStateChange(
+ *producer, *instance);
+ }
+ producer->StartDataSource(instance->instance_id, instance->config);
+
+ // If all data sources are started, notify the consumer.
+ if (instance->state == DataSourceInstance::STARTED)
+ MaybeNotifyAllDataSourcesStarted(tracing_session);
+}
+
+// DisableTracing just stops the data sources but doesn't free up any buffer.
+// This is to allow the consumer to freeze the buffers (by stopping the trace)
+// and then drain the buffers. The actual teardown of the TracingSession happens
+// in FreeBuffers().
+void TracingServiceImpl::DisableTracing(TracingSessionID tsid,
+ bool disable_immediately) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ TracingSession* tracing_session = GetTracingSession(tsid);
+ if (!tracing_session) {
+ // Can happen if the consumer calls this before EnableTracing() or after
+ // FreeBuffers().
+ PERFETTO_DLOG("DisableTracing() failed, invalid session ID %" PRIu64, tsid);
+ return;
+ }
+
+ MaybeLogUploadEvent(tracing_session->config, tracing_session->trace_uuid,
+ PerfettoStatsdAtom::kTracedDisableTracing);
+
+ switch (tracing_session->state) {
+ // Spurious call to DisableTracing() while already disabled, nothing to do.
+ case TracingSession::DISABLED:
+ PERFETTO_DCHECK(tracing_session->AllDataSourceInstancesStopped());
+ return;
+
+ case TracingSession::CLONED_READ_ONLY:
+ PERFETTO_DLOG("DisableTracing() cannot be called on a cloned session");
+ return;
+
+ // This is either:
+ // A) The case of a graceful DisableTracing() call followed by a call to
+ // FreeBuffers(), iff |disable_immediately| == true. In this case we want
+ // to forcefully transition in the disabled state without waiting for the
+ // outstanding acks because the buffers are going to be destroyed soon.
+ // B) A spurious call, iff |disable_immediately| == false, in which case
+ // there is nothing to do.
+ case TracingSession::DISABLING_WAITING_STOP_ACKS:
+ PERFETTO_DCHECK(!tracing_session->AllDataSourceInstancesStopped());
+ if (disable_immediately)
+ DisableTracingNotifyConsumerAndFlushFile(tracing_session);
+ return;
+
+ // Continues below.
+ case TracingSession::CONFIGURED:
+ // If the session didn't even start there is no need to orchestrate a
+ // graceful stop of data sources.
+ disable_immediately = true;
+ break;
+
+ // This is the nominal case, continues below.
+ case TracingSession::STARTED:
+ break;
+ }
+
+ for (auto& data_source_inst : tracing_session->data_source_instances) {
+ const ProducerID producer_id = data_source_inst.first;
+ DataSourceInstance& instance = data_source_inst.second;
+ ProducerEndpointImpl* producer = GetProducer(producer_id);
+ PERFETTO_DCHECK(producer);
+ PERFETTO_DCHECK(instance.state == DataSourceInstance::CONFIGURED ||
+ instance.state == DataSourceInstance::STARTING ||
+ instance.state == DataSourceInstance::STARTED);
+ StopDataSourceInstance(producer, tracing_session, &instance,
+ disable_immediately);
+ }
+
+ // If the periodic task is running, we can stop the periodic snapshot timer
+ // here instead of waiting until FreeBuffers to prevent useless snapshots
+ // which won't be read.
+ tracing_session->snapshot_periodic_task.Reset();
+
+ // Either this request is flagged with |disable_immediately| or there are no
+ // data sources that are requesting a final handshake. In both cases just mark
+ // the session as disabled immediately, notify the consumer and flush the
+ // trace file (if used).
+ if (tracing_session->AllDataSourceInstancesStopped())
+ return DisableTracingNotifyConsumerAndFlushFile(tracing_session);
+
+ tracing_session->state = TracingSession::DISABLING_WAITING_STOP_ACKS;
+ auto weak_this = weak_ptr_factory_.GetWeakPtr();
+ task_runner_->PostDelayedTask(
+ [weak_this, tsid] {
+ if (weak_this)
+ weak_this->OnDisableTracingTimeout(tsid);
+ },
+ tracing_session->data_source_stop_timeout_ms());
+
+ // Deliberately NOT removing the session from |tracing_session_|, it's still
+ // needed to call ReadBuffers(). FreeBuffers() will erase() the session.
+}
+
+void TracingServiceImpl::NotifyDataSourceStarted(
+ ProducerID producer_id,
+ DataSourceInstanceID instance_id) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ for (auto& kv : tracing_sessions_) {
+ TracingSession& tracing_session = kv.second;
+ DataSourceInstance* instance =
+ tracing_session.GetDataSourceInstance(producer_id, instance_id);
+
+ if (!instance)
+ continue;
+
+ // If the tracing session was already stopped, ignore this notification.
+ if (tracing_session.state != TracingSession::STARTED)
+ continue;
+
+ if (instance->state != DataSourceInstance::STARTING) {
+ PERFETTO_ELOG("Started data source instance in incorrect state: %d",
+ instance->state);
+ continue;
+ }
+
+ instance->state = DataSourceInstance::STARTED;
+
+ ProducerEndpointImpl* producer = GetProducer(producer_id);
+ PERFETTO_DCHECK(producer);
+ if (tracing_session.consumer_maybe_null) {
+ tracing_session.consumer_maybe_null->OnDataSourceInstanceStateChange(
+ *producer, *instance);
+ }
+
+ // If all data sources are started, notify the consumer.
+ MaybeNotifyAllDataSourcesStarted(&tracing_session);
+ } // for (tracing_session)
+}
+
+void TracingServiceImpl::MaybeNotifyAllDataSourcesStarted(
+ TracingSession* tracing_session) {
+ if (!tracing_session->consumer_maybe_null)
+ return;
+
+ if (!tracing_session->AllDataSourceInstancesStarted())
+ return;
+
+ // In some rare cases, we can get in this state more than once. Consider the
+ // following scenario: 3 data sources are registered -> trace starts ->
+ // all 3 data sources ack -> OnAllDataSourcesStarted() is called.
+ // Imagine now that a 4th data source registers while the trace is ongoing.
+ // This would hit the AllDataSourceInstancesStarted() condition again.
+ // In this case, however, we don't want to re-notify the consumer again.
+ // That would be unexpected (even if, perhaps, technically correct) and
+ // trigger bugs in the consumer.
+ if (tracing_session->did_notify_all_data_source_started)
+ return;
+
+ PERFETTO_DLOG("All data sources started");
+
+ SnapshotLifecyleEvent(
+ tracing_session,
+ protos::pbzero::TracingServiceEvent::kAllDataSourcesStartedFieldNumber,
+ true /* snapshot_clocks */);
+
+ tracing_session->did_notify_all_data_source_started = true;
+ tracing_session->consumer_maybe_null->OnAllDataSourcesStarted();
+}
+
+void TracingServiceImpl::NotifyDataSourceStopped(
+ ProducerID producer_id,
+ DataSourceInstanceID instance_id) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ for (auto& kv : tracing_sessions_) {
+ TracingSession& tracing_session = kv.second;
+ DataSourceInstance* instance =
+ tracing_session.GetDataSourceInstance(producer_id, instance_id);
+
+ if (!instance)
+ continue;
+
+ if (instance->state != DataSourceInstance::STOPPING) {
+ PERFETTO_ELOG("Stopped data source instance in incorrect state: %d",
+ instance->state);
+ continue;
+ }
+
+ instance->state = DataSourceInstance::STOPPED;
+
+ ProducerEndpointImpl* producer = GetProducer(producer_id);
+ PERFETTO_DCHECK(producer);
+ if (tracing_session.consumer_maybe_null) {
+ tracing_session.consumer_maybe_null->OnDataSourceInstanceStateChange(
+ *producer, *instance);
+ }
+
+ if (!tracing_session.AllDataSourceInstancesStopped())
+ continue;
+
+ if (tracing_session.state != TracingSession::DISABLING_WAITING_STOP_ACKS)
+ continue;
+
+ // All data sources acked the termination.
+ DisableTracingNotifyConsumerAndFlushFile(&tracing_session);
+ } // for (tracing_session)
+}
+
+void TracingServiceImpl::ActivateTriggers(
+ ProducerID producer_id,
+ const std::vector<std::string>& triggers) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ auto* producer = GetProducer(producer_id);
+ PERFETTO_DCHECK(producer);
+
+ int64_t now_ns = base::GetBootTimeNs().count();
+ for (const auto& trigger_name : triggers) {
+ PERFETTO_DLOG("Received ActivateTriggers request for \"%s\"",
+ trigger_name.c_str());
+ base::Hasher hash;
+ hash.Update(trigger_name.c_str(), trigger_name.size());
+ std::string triggered_session_name;
+ base::Uuid triggered_session_uuid;
+ TracingSessionID triggered_session_id = 0;
+ auto trigger_mode = TraceConfig::TriggerConfig::UNSPECIFIED;
+
+ uint64_t trigger_name_hash = hash.digest();
+ size_t count_in_window =
+ PurgeExpiredAndCountTriggerInWindow(now_ns, trigger_name_hash);
+
+ bool trigger_matched = false;
+ bool trigger_activated = false;
+ for (auto& id_and_tracing_session : tracing_sessions_) {
+ auto& tracing_session = id_and_tracing_session.second;
+ TracingSessionID tsid = id_and_tracing_session.first;
+ auto iter = std::find_if(
+ tracing_session.config.trigger_config().triggers().begin(),
+ tracing_session.config.trigger_config().triggers().end(),
+ [&trigger_name](const TraceConfig::TriggerConfig::Trigger& trigger) {
+ return trigger.name() == trigger_name;
+ });
+ if (iter == tracing_session.config.trigger_config().triggers().end())
+ continue;
+ if (tracing_session.state == TracingSession::CLONED_READ_ONLY)
+ continue;
+
+ // If this trigger requires a certain producer to have sent it
+ // (non-empty producer_name()) ensure the producer who sent this trigger
+ // matches.
+ if (!iter->producer_name_regex().empty() &&
+ !std::regex_match(
+ producer->name_,
+ std::regex(iter->producer_name_regex(), std::regex::extended))) {
+ continue;
+ }
+
+ // Use a random number between 0 and 1 to check if we should allow this
+ // trigger through or not.
+ double trigger_rnd =
+ trigger_rnd_override_for_testing_ > 0
+ ? trigger_rnd_override_for_testing_
+ : trigger_probability_dist_(trigger_probability_rand_);
+ PERFETTO_DCHECK(trigger_rnd >= 0 && trigger_rnd < 1);
+ if (trigger_rnd < iter->skip_probability()) {
+ MaybeLogTriggerEvent(tracing_session.config,
+ PerfettoTriggerAtom::kTracedLimitProbability,
+ trigger_name);
+ continue;
+ }
+
+ // If we already triggered more times than the limit, silently ignore
+ // this trigger.
+ if (iter->max_per_24_h() > 0 && count_in_window >= iter->max_per_24_h()) {
+ MaybeLogTriggerEvent(tracing_session.config,
+ PerfettoTriggerAtom::kTracedLimitMaxPer24h,
+ trigger_name);
+ continue;
+ }
+ trigger_matched = true;
+ triggered_session_id = tracing_session.id;
+ triggered_session_name = tracing_session.config.unique_session_name();
+ triggered_session_uuid.set_lsb_msb(tracing_session.trace_uuid.lsb(),
+ tracing_session.trace_uuid.msb());
+ trigger_mode = GetTriggerMode(tracing_session.config);
+
+ const bool triggers_already_received =
+ !tracing_session.received_triggers.empty();
+ tracing_session.received_triggers.push_back(
+ {static_cast<uint64_t>(now_ns), iter->name(), producer->name_,
+ producer->uid()});
+ auto weak_this = weak_ptr_factory_.GetWeakPtr();
+ switch (trigger_mode) {
+ case TraceConfig::TriggerConfig::START_TRACING:
+ // If the session has already been triggered and moved past
+ // CONFIGURED then we don't need to repeat StartTracing. This would
+ // work fine (StartTracing would return false) but would add error
+ // logs.
+ if (tracing_session.state != TracingSession::CONFIGURED)
+ break;
+
+ trigger_activated = true;
+ MaybeLogUploadEvent(
+ tracing_session.config, tracing_session.trace_uuid,
+ PerfettoStatsdAtom::kTracedTriggerStartTracing, iter->name());
+
+ // We override the trace duration to be the trigger's requested
+ // value, this ensures that the trace will end after this amount
+ // of time has passed.
+ tracing_session.config.set_duration_ms(iter->stop_delay_ms());
+ StartTracing(tsid);
+ break;
+ case TraceConfig::TriggerConfig::STOP_TRACING:
+ // Only stop the trace once to avoid confusing log messages. I.E.
+ // when we've already hit the first trigger we've already Posted the
+ // task to FlushAndDisable. So all future triggers will just break
+ // out.
+ if (triggers_already_received)
+ break;
+
+ trigger_activated = true;
+ MaybeLogUploadEvent(
+ tracing_session.config, tracing_session.trace_uuid,
+ PerfettoStatsdAtom::kTracedTriggerStopTracing, iter->name());
+
+ // Now that we've seen a trigger we need to stop, flush, and disable
+ // this session after the configured |stop_delay_ms|.
+ task_runner_->PostDelayedTask(
+ [weak_this, tsid] {
+ // Skip entirely the flush if the trace session doesn't exist
+ // anymore. This is to prevent misleading error messages to be
+ // logged.
+ if (weak_this && weak_this->GetTracingSession(tsid))
+ weak_this->FlushAndDisableTracing(tsid);
+ },
+ // If this trigger is zero this will immediately executable and
+ // will happen shortly.
+ iter->stop_delay_ms());
+ break;
+
+ case TraceConfig::TriggerConfig::CLONE_SNAPSHOT:
+ trigger_activated = true;
+ MaybeLogUploadEvent(
+ tracing_session.config, tracing_session.trace_uuid,
+ PerfettoStatsdAtom::kTracedTriggerCloneSnapshot, iter->name());
+ task_runner_->PostDelayedTask(
+ [weak_this, tsid] {
+ if (!weak_this)
+ return;
+ auto* tsess = weak_this->GetTracingSession(tsid);
+ if (!tsess || !tsess->consumer_maybe_null)
+ return;
+ tsess->consumer_maybe_null->NotifyCloneSnapshotTrigger();
+ },
+ iter->stop_delay_ms());
+ break;
+
+ case TraceConfig::TriggerConfig::UNSPECIFIED:
+ PERFETTO_ELOG("Trigger activated but trigger mode unspecified.");
+ break;
+ }
+ } // for (.. : tracing_sessions_)
+
+ if (trigger_matched) {
+ trigger_history_.emplace_back(TriggerHistory{now_ns, trigger_name_hash});
+ }
+
+ if (trigger_activated) {
+ // Log only the trigger that actually caused a trace stop/start, don't log
+ // the follow-up ones, even if they matched.
+ PERFETTO_LOG(
+ "Trace trigger activated: trigger_name=\"%s\" trigger_mode=%d "
+ "trace_name=\"%s\" trace_uuid=\"%s\" tsid=%" PRIu64,
+ trigger_name.c_str(), trigger_mode, triggered_session_name.c_str(),
+ triggered_session_uuid.ToPrettyString().c_str(),
+ triggered_session_id);
+ }
+ } // for (trigger_name : triggers)
+}
+
+// Always invoked TraceConfig.data_source_stop_timeout_ms (by default
+// kDataSourceStopTimeoutMs) after DisableTracing(). In nominal conditions all
+// data sources should have acked the stop and this will early out.
+void TracingServiceImpl::OnDisableTracingTimeout(TracingSessionID tsid) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ TracingSession* tracing_session = GetTracingSession(tsid);
+ if (!tracing_session ||
+ tracing_session->state != TracingSession::DISABLING_WAITING_STOP_ACKS) {
+ return; // Tracing session was successfully disabled.
+ }
+
+ PERFETTO_ILOG("Timeout while waiting for ACKs for tracing session %" PRIu64,
+ tsid);
+ PERFETTO_DCHECK(!tracing_session->AllDataSourceInstancesStopped());
+ DisableTracingNotifyConsumerAndFlushFile(tracing_session);
+}
+
+void TracingServiceImpl::DisableTracingNotifyConsumerAndFlushFile(
+ TracingSession* tracing_session) {
+ PERFETTO_DCHECK(tracing_session->state != TracingSession::DISABLED);
+ for (auto& inst_kv : tracing_session->data_source_instances) {
+ if (inst_kv.second.state == DataSourceInstance::STOPPED)
+ continue;
+ inst_kv.second.state = DataSourceInstance::STOPPED;
+ ProducerEndpointImpl* producer = GetProducer(inst_kv.first);
+ PERFETTO_DCHECK(producer);
+ if (tracing_session->consumer_maybe_null) {
+ tracing_session->consumer_maybe_null->OnDataSourceInstanceStateChange(
+ *producer, inst_kv.second);
+ }
+ }
+ tracing_session->state = TracingSession::DISABLED;
+
+ // Scrape any remaining chunks that weren't flushed by the producers.
+ for (auto& producer_id_and_producer : producers_)
+ ScrapeSharedMemoryBuffers(tracing_session, producer_id_and_producer.second);
+
+ SnapshotLifecyleEvent(
+ tracing_session,
+ protos::pbzero::TracingServiceEvent::kTracingDisabledFieldNumber,
+ true /* snapshot_clocks */);
+
+ if (tracing_session->write_into_file) {
+ tracing_session->write_period_ms = 0;
+ ReadBuffersIntoFile(tracing_session->id);
+ }
+
+ MaybeLogUploadEvent(tracing_session->config, tracing_session->trace_uuid,
+ PerfettoStatsdAtom::kTracedNotifyTracingDisabled);
+
+ if (tracing_session->consumer_maybe_null)
+ tracing_session->consumer_maybe_null->NotifyOnTracingDisabled("");
+}
+
+void TracingServiceImpl::Flush(TracingSessionID tsid,
+ uint32_t timeout_ms,
+ ConsumerEndpoint::FlushCallback callback,
+ FlushFlags flush_flags) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ TracingSession* tracing_session = GetTracingSession(tsid);
+ if (!tracing_session) {
+ PERFETTO_DLOG("Flush() failed, invalid session ID %" PRIu64, tsid);
+ return;
+ }
+
+ std::map<ProducerID, std::vector<DataSourceInstanceID>> data_source_instances;
+ for (const auto& [producer_id, ds_inst] :
+ tracing_session->data_source_instances) {
+ if (ds_inst.no_flush)
+ continue;
+ data_source_instances[producer_id].push_back(ds_inst.instance_id);
+ }
+ FlushDataSourceInstances(tracing_session, timeout_ms, data_source_instances,
+ std::move(callback), flush_flags);
+}
+
+void TracingServiceImpl::FlushDataSourceInstances(
+ TracingSession* tracing_session,
+ uint32_t timeout_ms,
+ const std::map<ProducerID, std::vector<DataSourceInstanceID>>&
+ data_source_instances,
+ ConsumerEndpoint::FlushCallback callback,
+ FlushFlags flush_flags) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ if (!timeout_ms)
+ timeout_ms = tracing_session->flush_timeout_ms();
+
+ if (tracing_session->pending_flushes.size() > 1000) {
+ PERFETTO_ELOG("Too many flushes (%zu) pending for the tracing session",
+ tracing_session->pending_flushes.size());
+ callback(false);
+ return;
+ }
+
+ if (tracing_session->state != TracingSession::STARTED) {
+ PERFETTO_LOG("Flush() called, but tracing has not been started");
+ callback(false);
+ return;
+ }
+
+ ++tracing_session->flushes_requested;
+ FlushRequestID flush_request_id = ++last_flush_request_id_;
+ PendingFlush& pending_flush =
+ tracing_session->pending_flushes
+ .emplace_hint(tracing_session->pending_flushes.end(),
+ flush_request_id, PendingFlush(std::move(callback)))
+ ->second;
+
+ // Send a flush request to each producer involved in the tracing session. In
+ // order to issue a flush request we have to build a map of all data source
+ // instance ids enabled for each producer.
+
+ for (const auto& [producer_id, data_sources] : data_source_instances) {
+ ProducerEndpointImpl* producer = GetProducer(producer_id);
+ producer->Flush(flush_request_id, data_sources, flush_flags);
+ pending_flush.producers.insert(producer_id);
+ }
+
+ // If there are no producers to flush (realistically this happens only in
+ // some tests) fire OnFlushTimeout() straight away, without waiting.
+ if (data_source_instances.empty())
+ timeout_ms = 0;
+
+ auto weak_this = weak_ptr_factory_.GetWeakPtr();
+ task_runner_->PostDelayedTask(
+ [weak_this, tsid = tracing_session->id, flush_request_id] {
+ if (weak_this)
+ weak_this->OnFlushTimeout(tsid, flush_request_id);
+ },
+ timeout_ms);
+}
+
+void TracingServiceImpl::NotifyFlushDoneForProducer(
+ ProducerID producer_id,
+ FlushRequestID flush_request_id) {
+ for (auto& kv : tracing_sessions_) {
+ // Remove all pending flushes <= |flush_request_id| for |producer_id|.
+ auto& pending_flushes = kv.second.pending_flushes;
+ auto end_it = pending_flushes.upper_bound(flush_request_id);
+ for (auto it = pending_flushes.begin(); it != end_it;) {
+ PendingFlush& pending_flush = it->second;
+ pending_flush.producers.erase(producer_id);
+ if (pending_flush.producers.empty()) {
+ auto weak_this = weak_ptr_factory_.GetWeakPtr();
+ TracingSessionID tsid = kv.first;
+ auto callback = std::move(pending_flush.callback);
+ task_runner_->PostTask([weak_this, tsid, callback]() {
+ if (weak_this) {
+ weak_this->CompleteFlush(tsid, std::move(callback),
+ /*success=*/true);
+ }
+ });
+ it = pending_flushes.erase(it);
+ } else {
+ it++;
+ }
+ } // for (pending_flushes)
+ } // for (tracing_session)
+}
+
+void TracingServiceImpl::OnFlushTimeout(TracingSessionID tsid,
+ FlushRequestID flush_request_id) {
+ TracingSession* tracing_session = GetTracingSession(tsid);
+ if (!tracing_session)
+ return;
+ auto it = tracing_session->pending_flushes.find(flush_request_id);
+ if (it == tracing_session->pending_flushes.end())
+ return; // Nominal case: flush was completed and acked on time.
+
+ // If there were no producers to flush, consider it a success.
+ bool success = it->second.producers.empty();
+ auto callback = std::move(it->second.callback);
+ tracing_session->pending_flushes.erase(it);
+ CompleteFlush(tsid, std::move(callback), success);
+}
+
+void TracingServiceImpl::CompleteFlush(TracingSessionID tsid,
+ ConsumerEndpoint::FlushCallback callback,
+ bool success) {
+ TracingSession* tracing_session = GetTracingSession(tsid);
+ if (!tracing_session) {
+ callback(false);
+ return;
+ }
+ // Producers may not have been able to flush all their data, even if they
+ // indicated flush completion. If possible, also collect uncommitted chunks
+ // to make sure we have everything they wrote so far.
+ for (auto& producer_id_and_producer : producers_) {
+ ScrapeSharedMemoryBuffers(tracing_session, producer_id_and_producer.second);
+ }
+ SnapshotLifecyleEvent(
+ tracing_session,
+ protos::pbzero::TracingServiceEvent::kAllDataSourcesFlushedFieldNumber,
+ true /* snapshot_clocks */);
+
+ tracing_session->flushes_succeeded += success ? 1 : 0;
+ tracing_session->flushes_failed += success ? 0 : 1;
+ callback(success);
+}
+
+void TracingServiceImpl::ScrapeSharedMemoryBuffers(
+ TracingSession* tracing_session,
+ ProducerEndpointImpl* producer) {
+ if (!producer->smb_scraping_enabled_)
+ return;
+
+ // Can't copy chunks if we don't know about any trace writers.
+ if (producer->writers_.empty())
+ return;
+
+ // Performance optimization: On flush or session disconnect, this method is
+ // called for each producer. If the producer doesn't participate in the
+ // session, there's no need to scape its chunks right now. We can tell if a
+ // producer participates in the session by checking if the producer is allowed
+ // to write into the session's log buffers.
+ const auto& session_buffers = tracing_session->buffers_index;
+ bool producer_in_session =
+ std::any_of(session_buffers.begin(), session_buffers.end(),
+ [producer](BufferID buffer_id) {
+ return producer->allowed_target_buffers_.count(buffer_id);
+ });
+ if (!producer_in_session)
+ return;
+
+ PERFETTO_DLOG("Scraping SMB for producer %" PRIu16, producer->id_);
+
+ // Find and copy any uncommitted chunks from the SMB.
+ //
+ // In nominal conditions, the page layout of the used SMB pages should never
+ // change because the service is the only one who is supposed to modify used
+ // pages (to make them free again).
+ //
+ // However, the code here needs to deal with the case of a malicious producer
+ // altering the SMB in unpredictable ways. Thankfully the SMB size is
+ // immutable, so a chunk will always point to some valid memory, even if the
+ // producer alters the intended layout and chunk header concurrently.
+ // Ultimately a malicious producer altering the SMB's chunk layout while we
+ // are iterating in this function is not any different from the case of a
+ // malicious producer asking to commit a chunk made of random data, which is
+ // something this class has to deal with regardless.
+ //
+ // The only legitimate mutations that can happen from sane producers,
+ // concurrently to this function, are:
+ // A. free pages being partitioned,
+ // B. free chunks being migrated to kChunkBeingWritten,
+ // C. kChunkBeingWritten chunks being migrated to kChunkCompleted.
+
+ SharedMemoryABI* abi = &producer->shmem_abi_;
+ // num_pages() is immutable after the SMB is initialized and cannot be changed
+ // even by a producer even if malicious.
+ for (size_t page_idx = 0; page_idx < abi->num_pages(); page_idx++) {
+ uint32_t layout = abi->GetPageLayout(page_idx);
+
+ uint32_t used_chunks = abi->GetUsedChunks(layout); // Returns a bitmap.
+ // Skip empty pages.
+ if (used_chunks == 0)
+ continue;
+
+ // Scrape the chunks that are currently used. These should be either in
+ // state kChunkBeingWritten or kChunkComplete.
+ for (uint32_t chunk_idx = 0; used_chunks; chunk_idx++, used_chunks >>= 1) {
+ if (!(used_chunks & 1))
+ continue;
+
+ SharedMemoryABI::ChunkState state =
+ SharedMemoryABI::GetChunkStateFromLayout(layout, chunk_idx);
+ PERFETTO_DCHECK(state == SharedMemoryABI::kChunkBeingWritten ||
+ state == SharedMemoryABI::kChunkComplete);
+ bool chunk_complete = state == SharedMemoryABI::kChunkComplete;
+
+ SharedMemoryABI::Chunk chunk =
+ abi->GetChunkUnchecked(page_idx, layout, chunk_idx);
+
+ uint16_t packet_count;
+ uint8_t flags;
+ // GetPacketCountAndFlags has acquire_load semantics.
+ std::tie(packet_count, flags) = chunk.GetPacketCountAndFlags();
+
+ // It only makes sense to copy an incomplete chunk if there's at least
+ // one full packet available. (The producer may not have completed the
+ // last packet in it yet, so we need at least 2.)
+ if (!chunk_complete && packet_count < 2)
+ continue;
+
+ // At this point, it is safe to access the remaining header fields of
+ // the chunk. Even if the chunk was only just transferred from
+ // kChunkFree into kChunkBeingWritten state, the header should be
+ // written completely once the packet count increased above 1 (it was
+ // reset to 0 by the service when the chunk was freed).
+
+ WriterID writer_id = chunk.writer_id();
+ std::optional<BufferID> target_buffer_id =
+ producer->buffer_id_for_writer(writer_id);
+
+ // We can only scrape this chunk if we know which log buffer to copy it
+ // into.
+ if (!target_buffer_id)
+ continue;
+
+ // Skip chunks that don't belong to the requested tracing session.
+ bool target_buffer_belongs_to_session =
+ std::find(session_buffers.begin(), session_buffers.end(),
+ *target_buffer_id) != session_buffers.end();
+ if (!target_buffer_belongs_to_session)
+ continue;
+
+ uint32_t chunk_id =
+ chunk.header()->chunk_id.load(std::memory_order_relaxed);
+
+ CopyProducerPageIntoLogBuffer(
+ producer->id_, producer->client_identity_, writer_id, chunk_id,
+ *target_buffer_id, packet_count, flags, chunk_complete,
+ chunk.payload_begin(), chunk.payload_size());
+ }
+ }
+}
+
+void TracingServiceImpl::FlushAndDisableTracing(TracingSessionID tsid) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ PERFETTO_DLOG("Triggering final flush for %" PRIu64, tsid);
+ auto weak_this = weak_ptr_factory_.GetWeakPtr();
+ Flush(
+ tsid, 0,
+ [weak_this, tsid](bool success) {
+ // This was a DLOG up to Jun 2021 (v16, Android S).
+ PERFETTO_LOG("FlushAndDisableTracing(%" PRIu64 ") done, success=%d",
+ tsid, success);
+ if (!weak_this)
+ return;
+ TracingSession* session = weak_this->GetTracingSession(tsid);
+ if (!session) {
+ return;
+ }
+ session->final_flush_outcome = success
+ ? TraceStats::FINAL_FLUSH_SUCCEEDED
+ : TraceStats::FINAL_FLUSH_FAILED;
+ if (session->consumer_maybe_null) {
+ // If the consumer is still attached, just disable the session but
+ // give it a chance to read the contents.
+ weak_this->DisableTracing(tsid);
+ } else {
+ // If the consumer detached, destroy the session. If the consumer did
+ // start the session in long-tracing mode, the service will have saved
+ // the contents to the passed file. If not, the contents will be
+ // destroyed.
+ weak_this->FreeBuffers(tsid);
+ }
+ },
+ FlushFlags(FlushFlags::Initiator::kTraced,
+ FlushFlags::Reason::kTraceStop));
+}
+
+void TracingServiceImpl::PeriodicFlushTask(TracingSessionID tsid,
+ bool post_next_only) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ TracingSession* tracing_session = GetTracingSession(tsid);
+ if (!tracing_session || tracing_session->state != TracingSession::STARTED)
+ return;
+
+ uint32_t flush_period_ms = tracing_session->config.flush_period_ms();
+ auto weak_this = weak_ptr_factory_.GetWeakPtr();
+ task_runner_->PostDelayedTask(
+ [weak_this, tsid] {
+ if (weak_this)
+ weak_this->PeriodicFlushTask(tsid, /*post_next_only=*/false);
+ },
+ flush_period_ms - static_cast<uint32_t>(base::GetWallTimeMs().count() %
+ flush_period_ms));
+
+ if (post_next_only)
+ return;
+
+ PERFETTO_DLOG("Triggering periodic flush for trace session %" PRIu64, tsid);
+ Flush(
+ tsid, 0,
+ [](bool success) {
+ if (!success)
+ PERFETTO_ELOG("Periodic flush timed out");
+ },
+ FlushFlags(FlushFlags::Initiator::kTraced,
+ FlushFlags::Reason::kPeriodic));
+}
+
+void TracingServiceImpl::PeriodicClearIncrementalStateTask(
+ TracingSessionID tsid,
+ bool post_next_only) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ TracingSession* tracing_session = GetTracingSession(tsid);
+ if (!tracing_session || tracing_session->state != TracingSession::STARTED)
+ return;
+
+ uint32_t clear_period_ms =
+ tracing_session->config.incremental_state_config().clear_period_ms();
+ auto weak_this = weak_ptr_factory_.GetWeakPtr();
+ task_runner_->PostDelayedTask(
+ [weak_this, tsid] {
+ if (weak_this)
+ weak_this->PeriodicClearIncrementalStateTask(
+ tsid, /*post_next_only=*/false);
+ },
+ clear_period_ms - static_cast<uint32_t>(base::GetWallTimeMs().count() %
+ clear_period_ms));
+
+ if (post_next_only)
+ return;
+
+ PERFETTO_DLOG(
+ "Performing periodic incremental state clear for trace session %" PRIu64,
+ tsid);
+
+ // Queue the IPCs to producers with active data sources that opted in.
+ std::map<ProducerID, std::vector<DataSourceInstanceID>> clear_map;
+ for (const auto& kv : tracing_session->data_source_instances) {
+ ProducerID producer_id = kv.first;
+ const DataSourceInstance& data_source = kv.second;
+ if (data_source.handles_incremental_state_clear) {
+ clear_map[producer_id].push_back(data_source.instance_id);
+ }
+ }
+
+ for (const auto& kv : clear_map) {
+ ProducerID producer_id = kv.first;
+ const std::vector<DataSourceInstanceID>& data_sources = kv.second;
+ ProducerEndpointImpl* producer = GetProducer(producer_id);
+ if (!producer) {
+ PERFETTO_DFATAL("Producer does not exist.");
+ continue;
+ }
+ producer->ClearIncrementalState(data_sources);
+ }
+}
+
+bool TracingServiceImpl::ReadBuffersIntoConsumer(
+ TracingSessionID tsid,
+ ConsumerEndpointImpl* consumer) {
+ PERFETTO_DCHECK(consumer);
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ TracingSession* tracing_session = GetTracingSession(tsid);
+ if (!tracing_session) {
+ PERFETTO_DLOG(
+ "Cannot ReadBuffersIntoConsumer(): no tracing session is active");
+ return false;
+ }
+
+ if (tracing_session->write_into_file) {
+ // If the consumer enabled tracing and asked to save the contents into the
+ // passed file makes little sense to also try to read the buffers over IPC,
+ // as that would just steal data from the periodic draining task.
+ PERFETTO_ELOG("Consumer trying to read from write_into_file session.");
+ return false;
+ }
+
+ if (IsWaitingForTrigger(tracing_session))
+ return false;
+
+ // This is a rough threshold to determine how much to read from the buffer in
+ // each task. This is to avoid executing a single huge sending task for too
+ // long and risk to hit the watchdog. This is *not* an upper bound: we just
+ // stop accumulating new packets and PostTask *after* we cross this threshold.
+ // This constant essentially balances the PostTask and IPC overhead vs the
+ // responsiveness of the service. An extremely small value will cause one IPC
+ // and one PostTask for each slice but will keep the service extremely
+ // responsive. An extremely large value will batch the send for the full
+ // buffer in one large task, will hit the blocking send() once the socket
+ // buffers are full and hang the service for a bit (until the consumer
+ // catches up).
+ static constexpr size_t kApproxBytesPerTask = 32768;
+ bool has_more;
+ std::vector<TracePacket> packets =
+ ReadBuffers(tracing_session, kApproxBytesPerTask, &has_more);
+
+ if (has_more) {
+ auto weak_consumer = consumer->weak_ptr_factory_.GetWeakPtr();
+ auto weak_this = weak_ptr_factory_.GetWeakPtr();
+ task_runner_->PostTask([weak_this, weak_consumer, tsid] {
+ if (!weak_this || !weak_consumer)
+ return;
+ weak_this->ReadBuffersIntoConsumer(tsid, weak_consumer.get());
+ });
+ }
+
+ // Keep this as tail call, just in case the consumer re-enters.
+ consumer->consumer_->OnTraceData(std::move(packets), has_more);
+ return true;
+}
+
+bool TracingServiceImpl::ReadBuffersIntoFile(TracingSessionID tsid) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ TracingSession* tracing_session = GetTracingSession(tsid);
+ if (!tracing_session) {
+ // This will be hit systematically from the PostDelayedTask. Avoid logging,
+ // it would be just spam.
+ return false;
+ }
+
+ // This can happen if the file is closed by a previous task because it reaches
+ // |max_file_size_bytes|.
+ if (!tracing_session->write_into_file)
+ return false;
+
+ if (IsWaitingForTrigger(tracing_session))
+ return false;
+
+ // ReadBuffers() can allocate memory internally, for filtering. By limiting
+ // the data that ReadBuffers() reads to kWriteIntoChunksSize per iteration,
+ // we limit the amount of memory used on each iteration.
+ //
+ // It would be tempting to split this into multiple tasks like in
+ // ReadBuffersIntoConsumer, but that's not currently possible.
+ // ReadBuffersIntoFile has to read the whole available data before returning,
+ // to support the disable_immediately=true code paths.
+ bool has_more = true;
+ bool stop_writing_into_file = false;
+ do {
+ std::vector<TracePacket> packets =
+ ReadBuffers(tracing_session, kWriteIntoFileChunkSize, &has_more);
+
+ stop_writing_into_file = WriteIntoFile(tracing_session, std::move(packets));
+ } while (has_more && !stop_writing_into_file);
+
+ if (stop_writing_into_file || tracing_session->write_period_ms == 0) {
+ // Ensure all data was written to the file before we close it.
+ base::FlushFile(tracing_session->write_into_file.get());
+ tracing_session->write_into_file.reset();
+ tracing_session->write_period_ms = 0;
+ if (tracing_session->state == TracingSession::STARTED)
+ DisableTracing(tsid);
+ return true;
+ }
+
+ auto weak_this = weak_ptr_factory_.GetWeakPtr();
+ task_runner_->PostDelayedTask(
+ [weak_this, tsid] {
+ if (weak_this)
+ weak_this->ReadBuffersIntoFile(tsid);
+ },
+ tracing_session->delay_to_next_write_period_ms());
+ return true;
+}
+
+bool TracingServiceImpl::IsWaitingForTrigger(TracingSession* tracing_session) {
+ // Ignore the logic below for cloned tracing sessions. In this case we
+ // actually want to read the (cloned) trace buffers even if no trigger was
+ // hit.
+ if (tracing_session->state == TracingSession::CLONED_READ_ONLY) {
+ return false;
+ }
+
+ // When a tracing session is waiting for a trigger, it is considered empty. If
+ // a tracing session finishes and moves into DISABLED without ever receiving a
+ // trigger, the trace should never return any data. This includes the
+ // synthetic packets like TraceConfig and Clock snapshots. So we bail out
+ // early and let the consumer know there is no data.
+ if (!tracing_session->config.trigger_config().triggers().empty() &&
+ tracing_session->received_triggers.empty()) {
+ PERFETTO_DLOG(
+ "ReadBuffers(): tracing session has not received a trigger yet.");
+ return true;
+ }
+
+ // Traces with CLONE_SNAPSHOT triggers are a special case of the above. They
+ // can be read only via a CloneSession() request. This is to keep the
+ // behavior consistent with the STOP_TRACING+triggers case and avoid periodic
+ // finalizations and uploads of the main CLONE_SNAPSHOT triggers.
+ if (GetTriggerMode(tracing_session->config) ==
+ TraceConfig::TriggerConfig::CLONE_SNAPSHOT) {
+ PERFETTO_DLOG(
+ "ReadBuffers(): skipping because the tracing session has "
+ "CLONE_SNAPSHOT triggers defined");
+ return true;
+ }
+
+ return false;
+}
+
+std::vector<TracePacket> TracingServiceImpl::ReadBuffers(
+ TracingSession* tracing_session,
+ size_t threshold,
+ bool* has_more) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ PERFETTO_DCHECK(tracing_session);
+ *has_more = false;
+
+ std::vector<TracePacket> packets;
+ packets.reserve(1024); // Just an educated guess to avoid trivial expansions.
+
+ if (!tracing_session->initial_clock_snapshot.empty()) {
+ EmitClockSnapshot(tracing_session,
+ std::move(tracing_session->initial_clock_snapshot),
+ &packets);
+ }
+
+ for (auto& snapshot : tracing_session->clock_snapshot_ring_buffer) {
+ PERFETTO_DCHECK(!snapshot.empty());
+ EmitClockSnapshot(tracing_session, std::move(snapshot), &packets);
+ }
+ tracing_session->clock_snapshot_ring_buffer.clear();
+
+ if (tracing_session->should_emit_sync_marker) {
+ EmitSyncMarker(&packets);
+ tracing_session->should_emit_sync_marker = false;
+ }
+
+ if (!tracing_session->config.builtin_data_sources().disable_trace_config()) {
+ MaybeEmitTraceConfig(tracing_session, &packets);
+ MaybeEmitReceivedTriggers(tracing_session, &packets);
+ }
+ if (!tracing_session->did_emit_initial_packets) {
+ EmitUuid(tracing_session, &packets);
+ if (!tracing_session->config.builtin_data_sources().disable_system_info())
+ EmitSystemInfo(&packets);
+ }
+ tracing_session->did_emit_initial_packets = true;
+
+ // Note that in the proto comment, we guarantee that the tracing_started
+ // lifecycle event will be emitted before any data packets so make sure to
+ // keep this before reading the tracing buffers.
+ if (!tracing_session->config.builtin_data_sources().disable_service_events())
+ EmitLifecycleEvents(tracing_session, &packets);
+
+ // In a multi-machine tracing session, emit clock synchronization messages for
+ // remote machines.
+ if (!relay_clients_.empty())
+ MaybeEmitRemoteClockSync(tracing_session, &packets);
+
+ size_t packets_bytes = 0; // SUM(slice.size() for each slice in |packets|).
+
+ // Add up size for packets added by the Maybe* calls above.
+ for (const TracePacket& packet : packets) {
+ packets_bytes += packet.size();
+ }
+
+ bool did_hit_threshold = false;
+
+ for (size_t buf_idx = 0;
+ buf_idx < tracing_session->num_buffers() && !did_hit_threshold;
+ buf_idx++) {
+ auto tbuf_iter = buffers_.find(tracing_session->buffers_index[buf_idx]);
+ if (tbuf_iter == buffers_.end()) {
+ PERFETTO_DFATAL("Buffer not found.");
+ continue;
+ }
+ TraceBuffer& tbuf = *tbuf_iter->second;
+ tbuf.BeginRead();
+ while (!did_hit_threshold) {
+ TracePacket packet;
+ TraceBuffer::PacketSequenceProperties sequence_properties{};
+ bool previous_packet_dropped;
+ if (!tbuf.ReadNextTracePacket(&packet, &sequence_properties,
+ &previous_packet_dropped)) {
+ break;
+ }
+ packet.set_buffer_index_for_stats(static_cast<uint32_t>(buf_idx));
+ PERFETTO_DCHECK(sequence_properties.producer_id_trusted != 0);
+ PERFETTO_DCHECK(sequence_properties.writer_id != 0);
+ PERFETTO_DCHECK(sequence_properties.client_identity_trusted.has_uid());
+ // Not checking sequence_properties.client_identity_trusted.has_pid():
+ // it is false if the platform doesn't support it.
+
+ PERFETTO_DCHECK(packet.size() > 0);
+ if (!PacketStreamValidator::Validate(packet.slices())) {
+ tracing_session->invalid_packets++;
+ PERFETTO_DLOG("Dropping invalid packet");
+ continue;
+ }
+
+ // Append a slice with the trusted field data. This can't be spoofed
+ // because above we validated that the existing slices don't contain any
+ // trusted fields. For added safety we append instead of prepending
+ // because according to protobuf semantics, if the same field is
+ // encountered multiple times the last instance takes priority. Note that
+ // truncated packets are also rejected, so the producer can't give us a
+ // partial packet (e.g., a truncated string) which only becomes valid when
+ // the trusted data is appended here.
+ Slice slice = Slice::Allocate(32);
+ protozero::StaticBuffered<protos::pbzero::TracePacket> trusted_packet(
+ slice.own_data(), slice.size);
+ const auto& client_identity_trusted =
+ sequence_properties.client_identity_trusted;
+ trusted_packet->set_trusted_uid(
+ static_cast<int32_t>(client_identity_trusted.uid()));
+ trusted_packet->set_trusted_packet_sequence_id(
+ tracing_session->GetPacketSequenceID(
+ client_identity_trusted.machine_id(),
+ sequence_properties.producer_id_trusted,
+ sequence_properties.writer_id));
+ if (client_identity_trusted.has_pid()) {
+ // Not supported on all platforms.
+ trusted_packet->set_trusted_pid(
+ static_cast<int32_t>(client_identity_trusted.pid()));
+ }
+ if (client_identity_trusted.has_non_default_machine_id()) {
+ trusted_packet->set_machine_id(client_identity_trusted.machine_id());
+ }
+ if (previous_packet_dropped)
+ trusted_packet->set_previous_packet_dropped(previous_packet_dropped);
+ slice.size = trusted_packet.Finalize();
+ packet.AddSlice(std::move(slice));
+
+ // Append the packet (inclusive of the trusted uid) to |packets|.
+ packets_bytes += packet.size();
+ did_hit_threshold = packets_bytes >= threshold;
+ packets.emplace_back(std::move(packet));
+ } // for(packets...)
+ } // for(buffers...)
+
+ *has_more = did_hit_threshold;
+
+ // Only emit the "read complete" lifetime event when there is no more trace
+ // data available to read. These events are used as safe points to limit
+ // sorting in trace processor: the code shouldn't emit the event unless the
+ // buffers are empty.
+ if (!*has_more && !tracing_session->config.builtin_data_sources()
+ .disable_service_events()) {
+ // We don't bother snapshotting clocks here because we wouldn't be able to
+ // emit it and we shouldn't have significant drift from the last snapshot in
+ // any case.
+ SnapshotLifecyleEvent(tracing_session,
+ protos::pbzero::TracingServiceEvent::
+ kReadTracingBuffersCompletedFieldNumber,
+ false /* snapshot_clocks */);
+ EmitLifecycleEvents(tracing_session, &packets);
+ }
+
+ // Only emit the stats when there is no more trace data is available to read.
+ // That way, any problems that occur while reading from the buffers are
+ // reflected in the emitted stats. This is particularly important for use
+ // cases where ReadBuffers is only ever called after the tracing session is
+ // stopped.
+ if (!*has_more && tracing_session->should_emit_stats) {
+ EmitStats(tracing_session, &packets);
+ tracing_session->should_emit_stats = false;
+ }
+
+ MaybeFilterPackets(tracing_session, &packets);
+
+ MaybeCompressPackets(tracing_session, &packets);
+
+ if (!*has_more) {
+ // We've observed some extremely high memory usage by scudo after
+ // MaybeFilterPackets in the past. The original bug (b/195145848) is fixed
+ // now, but this code asks scudo to release memory just in case.
+ base::MaybeReleaseAllocatorMemToOS();
+ }
+
+ return packets;
+}
+
+void TracingServiceImpl::MaybeFilterPackets(TracingSession* tracing_session,
+ std::vector<TracePacket>* packets) {
+ // If the tracing session specified a filter, run all packets through the
+ // filter and replace them with the filter results.
+ // The process below mantains the cardinality of input packets. Even if an
+ // entire packet is filtered out, we emit a zero-sized TracePacket proto. That
+ // makes debugging and reasoning about the trace stats easier.
+ // This place swaps the contents of each |packets| entry in place.
+ if (!tracing_session->trace_filter) {
+ return;
+ }
+ protozero::MessageFilter& trace_filter = *tracing_session->trace_filter;
+ // The filter root should be reset from protos.Trace to protos.TracePacket
+ // by the earlier call to SetFilterRoot() in EnableTracing().
+ PERFETTO_DCHECK(trace_filter.config().root_msg_index() != 0);
+ std::vector<protozero::MessageFilter::InputSlice> filter_input;
+ auto start = base::GetWallTimeNs();
+ for (TracePacket& packet : *packets) {
+ const auto& packet_slices = packet.slices();
+ const size_t input_packet_size = packet.size();
+ filter_input.clear();
+ filter_input.resize(packet_slices.size());
+ ++tracing_session->filter_input_packets;
+ tracing_session->filter_input_bytes += input_packet_size;
+ for (size_t i = 0; i < packet_slices.size(); ++i)
+ filter_input[i] = {packet_slices[i].start, packet_slices[i].size};
+ auto filtered_packet = trace_filter.FilterMessageFragments(
+ &filter_input[0], filter_input.size());
+
+ // Replace the packet in-place with the filtered one (unless failed).
+ std::optional<uint32_t> maybe_buffer_idx = packet.buffer_index_for_stats();
+ packet = TracePacket();
+ if (filtered_packet.error) {
+ ++tracing_session->filter_errors;
+ PERFETTO_DLOG("Trace packet filtering failed @ packet %" PRIu64,
+ tracing_session->filter_input_packets);
+ continue;
+ }
+ tracing_session->filter_output_bytes += filtered_packet.size;
+ if (maybe_buffer_idx.has_value()) {
+ // Keep the per-buffer stats updated. Also propagate the
+ // buffer_index_for_stats in the output packet to allow accounting by
+ // other parts of the ReadBuffer pipeline.
+ uint32_t buffer_idx = maybe_buffer_idx.value();
+ packet.set_buffer_index_for_stats(buffer_idx);
+ auto& vec = tracing_session->filter_bytes_discarded_per_buffer;
+ if (static_cast<size_t>(buffer_idx) >= vec.size())
+ vec.resize(buffer_idx + 1);
+ PERFETTO_DCHECK(input_packet_size >= filtered_packet.size);
+ size_t bytes_filtered_out = input_packet_size - filtered_packet.size;
+ vec[buffer_idx] += bytes_filtered_out;
+ }
+ AppendOwnedSlicesToPacket(std::move(filtered_packet.data),
+ filtered_packet.size, kMaxTracePacketSliceSize,
+ &packet);
+ }
+ auto end = base::GetWallTimeNs();
+ tracing_session->filter_time_taken_ns +=
+ static_cast<uint64_t>((end - start).count());
+}
+
+void TracingServiceImpl::MaybeCompressPackets(
+ TracingSession* tracing_session,
+ std::vector<TracePacket>* packets) {
+ if (!tracing_session->compress_deflate) {
+ return;
+ }
+
+ init_opts_.compressor_fn(packets);
+}
+
+bool TracingServiceImpl::WriteIntoFile(TracingSession* tracing_session,
+ std::vector<TracePacket> packets) {
+ if (!tracing_session->write_into_file) {
+ return false;
+ }
+ const uint64_t max_size = tracing_session->max_file_size_bytes
+ ? tracing_session->max_file_size_bytes
+ : std::numeric_limits<size_t>::max();
+
+ size_t total_slices = 0;
+ for (const TracePacket& packet : packets) {
+ total_slices += packet.slices().size();
+ }
+ // When writing into a file, the file should look like a root trace.proto
+ // message. Each packet should be prepended with a proto preamble stating
+ // its field id (within trace.proto) and size. Hence the addition below.
+ const size_t max_iovecs = total_slices + packets.size();
+
+ size_t num_iovecs = 0;
+ bool stop_writing_into_file = false;
+ std::unique_ptr<struct iovec[]> iovecs(new struct iovec[max_iovecs]);
+ size_t num_iovecs_at_last_packet = 0;
+ uint64_t bytes_about_to_be_written = 0;
+ for (TracePacket& packet : packets) {
+ std::tie(iovecs[num_iovecs].iov_base, iovecs[num_iovecs].iov_len) =
+ packet.GetProtoPreamble();
+ bytes_about_to_be_written += iovecs[num_iovecs].iov_len;
+ num_iovecs++;
+ for (const Slice& slice : packet.slices()) {
+ // writev() doesn't change the passed pointer. However, struct iovec
+ // take a non-const ptr because it's the same struct used by readv().
+ // Hence the const_cast here.
+ char* start = static_cast<char*>(const_cast<void*>(slice.start));
+ bytes_about_to_be_written += slice.size;
+ iovecs[num_iovecs++] = {start, slice.size};
+ }
+
+ if (tracing_session->bytes_written_into_file + bytes_about_to_be_written >=
+ max_size) {
+ stop_writing_into_file = true;
+ num_iovecs = num_iovecs_at_last_packet;
+ break;
+ }
+
+ num_iovecs_at_last_packet = num_iovecs;
+ }
+ PERFETTO_DCHECK(num_iovecs <= max_iovecs);
+ int fd = *tracing_session->write_into_file;
+
+ uint64_t total_wr_size = 0;
+
+ // writev() can take at most IOV_MAX entries per call. Batch them.
+ constexpr size_t kIOVMax = IOV_MAX;
+ for (size_t i = 0; i < num_iovecs; i += kIOVMax) {
+ int iov_batch_size = static_cast<int>(std::min(num_iovecs - i, kIOVMax));
+ ssize_t wr_size = PERFETTO_EINTR(writev(fd, &iovecs[i], iov_batch_size));
+ if (wr_size <= 0) {
+ PERFETTO_PLOG("writev() failed");
+ stop_writing_into_file = true;
+ break;
+ }
+ total_wr_size += static_cast<size_t>(wr_size);
+ }
+
+ tracing_session->bytes_written_into_file += total_wr_size;
+
+ PERFETTO_DLOG("Draining into file, written: %" PRIu64 " KB, stop: %d",
+ (total_wr_size + 1023) / 1024, stop_writing_into_file);
+ return stop_writing_into_file;
+}
+
+void TracingServiceImpl::FreeBuffers(TracingSessionID tsid) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ PERFETTO_DLOG("Freeing buffers for session %" PRIu64, tsid);
+ TracingSession* tracing_session = GetTracingSession(tsid);
+ if (!tracing_session) {
+ PERFETTO_DLOG("FreeBuffers() failed, invalid session ID %" PRIu64, tsid);
+ return; // TODO(primiano): signal failure?
+ }
+ DisableTracing(tsid, /*disable_immediately=*/true);
+
+ PERFETTO_DCHECK(tracing_session->AllDataSourceInstancesStopped());
+ tracing_session->data_source_instances.clear();
+
+ for (auto& producer_entry : producers_) {
+ ProducerEndpointImpl* producer = producer_entry.second;
+ producer->OnFreeBuffers(tracing_session->buffers_index);
+ }
+
+ for (BufferID buffer_id : tracing_session->buffers_index) {
+ buffer_ids_.Free(buffer_id);
+ PERFETTO_DCHECK(buffers_.count(buffer_id) == 1);
+ buffers_.erase(buffer_id);
+ }
+ bool notify_traceur =
+ tracing_session->config.notify_traceur() &&
+ tracing_session->state != TracingSession::CLONED_READ_ONLY;
+ bool is_long_trace =
+ (tracing_session->config.write_into_file() &&
+ tracing_session->config.file_write_period_ms() < kMillisPerDay);
+ tracing_sessions_.erase(tsid);
+ tracing_session = nullptr;
+ UpdateMemoryGuardrail();
+
+ PERFETTO_LOG("Tracing session %" PRIu64 " ended, total sessions:%zu", tsid,
+ tracing_sessions_.size());
+#if PERFETTO_BUILDFLAG(PERFETTO_ANDROID_BUILD) && \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID)
+ if (notify_traceur && is_long_trace) {
+ PERFETTO_LAZY_LOAD(android_internal::NotifyTraceSessionEnded, notify_fn);
+ if (!notify_fn || !notify_fn(/*session_stolen=*/false))
+ PERFETTO_ELOG("Failed to notify Traceur long tracing has ended");
+ }
+#else
+ base::ignore_result(notify_traceur);
+ base::ignore_result(is_long_trace);
+#endif
+}
+
+void TracingServiceImpl::RegisterDataSource(ProducerID producer_id,
+ const DataSourceDescriptor& desc) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ if (desc.name().empty()) {
+ PERFETTO_DLOG("Received RegisterDataSource() with empty name");
+ return;
+ }
+
+ ProducerEndpointImpl* producer = GetProducer(producer_id);
+ if (!producer) {
+ PERFETTO_DFATAL("Producer not found.");
+ return;
+ }
+
+ // Check that the producer doesn't register two data sources with the same ID.
+ // Note that we tolerate |id| == 0 because until Android T / v22 the |id|
+ // field didn't exist.
+ for (const auto& kv : data_sources_) {
+ if (desc.id() && kv.second.producer_id == producer_id &&
+ kv.second.descriptor.id() == desc.id()) {
+ PERFETTO_ELOG(
+ "Failed to register data source \"%s\". A data source with the same "
+ "id %" PRIu64 " (name=\"%s\") is already registered for producer %d",
+ desc.name().c_str(), desc.id(), kv.second.descriptor.name().c_str(),
+ producer_id);
+ return;
+ }
+ }
+
+ PERFETTO_DLOG("Producer %" PRIu16 " registered data source \"%s\"",
+ producer_id, desc.name().c_str());
+
+ auto reg_ds = data_sources_.emplace(desc.name(),
+ RegisteredDataSource{producer_id, desc});
+
+ // If there are existing tracing sessions, we need to check if the new
+ // data source is enabled by any of them.
+ for (auto& iter : tracing_sessions_) {
+ TracingSession& tracing_session = iter.second;
+ if (tracing_session.state != TracingSession::STARTED &&
+ tracing_session.state != TracingSession::CONFIGURED) {
+ continue;
+ }
+
+ TraceConfig::ProducerConfig producer_config;
+ for (const auto& config : tracing_session.config.producers()) {
+ if (producer->name_ == config.producer_name()) {
+ producer_config = config;
+ break;
+ }
+ }
+ for (const TraceConfig::DataSource& cfg_data_source :
+ tracing_session.config.data_sources()) {
+ if (cfg_data_source.config().name() != desc.name())
+ continue;
+ DataSourceInstance* ds_inst = SetupDataSource(
+ cfg_data_source, producer_config, reg_ds->second, &tracing_session);
+ if (ds_inst && tracing_session.state == TracingSession::STARTED)
+ StartDataSourceInstance(producer, &tracing_session, ds_inst);
+ }
+ } // for(iter : tracing_sessions_)
+}
+
+void TracingServiceImpl::UpdateDataSource(
+ ProducerID producer_id,
+ const DataSourceDescriptor& new_desc) {
+ if (new_desc.id() == 0) {
+ PERFETTO_ELOG("UpdateDataSource() must have a non-zero id");
+ return;
+ }
+
+ // If this producer has already registered a matching descriptor name and id,
+ // just update the descriptor.
+ RegisteredDataSource* data_source = nullptr;
+ auto range = data_sources_.equal_range(new_desc.name());
+ for (auto it = range.first; it != range.second; ++it) {
+ if (it->second.producer_id == producer_id &&
+ it->second.descriptor.id() == new_desc.id()) {
+ data_source = &it->second;
+ break;
+ }
+ }
+
+ if (!data_source) {
+ PERFETTO_ELOG(
+ "UpdateDataSource() failed, could not find an existing data source "
+ "with name=\"%s\" id=%" PRIu64,
+ new_desc.name().c_str(), new_desc.id());
+ return;
+ }
+
+ data_source->descriptor = new_desc;
+}
+
+void TracingServiceImpl::StopDataSourceInstance(ProducerEndpointImpl* producer,
+ TracingSession* tracing_session,
+ DataSourceInstance* instance,
+ bool disable_immediately) {
+ const DataSourceInstanceID ds_inst_id = instance->instance_id;
+ if (instance->will_notify_on_stop && !disable_immediately) {
+ instance->state = DataSourceInstance::STOPPING;
+ } else {
+ instance->state = DataSourceInstance::STOPPED;
+ }
+ if (tracing_session->consumer_maybe_null) {
+ tracing_session->consumer_maybe_null->OnDataSourceInstanceStateChange(
+ *producer, *instance);
+ }
+ producer->StopDataSource(ds_inst_id);
+}
+
+void TracingServiceImpl::UnregisterDataSource(ProducerID producer_id,
+ const std::string& name) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ PERFETTO_DLOG("Producer %" PRIu16 " unregistered data source \"%s\"",
+ producer_id, name.c_str());
+ PERFETTO_CHECK(producer_id);
+ ProducerEndpointImpl* producer = GetProducer(producer_id);
+ PERFETTO_DCHECK(producer);
+ for (auto& kv : tracing_sessions_) {
+ auto& ds_instances = kv.second.data_source_instances;
+ bool removed = false;
+ for (auto it = ds_instances.begin(); it != ds_instances.end();) {
+ if (it->first == producer_id && it->second.data_source_name == name) {
+ DataSourceInstanceID ds_inst_id = it->second.instance_id;
+ if (it->second.state != DataSourceInstance::STOPPED) {
+ if (it->second.state != DataSourceInstance::STOPPING) {
+ StopDataSourceInstance(producer, &kv.second, &it->second,
+ /* disable_immediately = */ false);
+ }
+
+ // Mark the instance as stopped immediately, since we are
+ // unregistering it below.
+ //
+ // The StopDataSourceInstance above might have set the state to
+ // STOPPING so this condition isn't an else.
+ if (it->second.state == DataSourceInstance::STOPPING)
+ NotifyDataSourceStopped(producer_id, ds_inst_id);
+ }
+ it = ds_instances.erase(it);
+ removed = true;
+ } else {
+ ++it;
+ }
+ } // for (data_source_instances)
+ if (removed)
+ MaybeNotifyAllDataSourcesStarted(&kv.second);
+ } // for (tracing_session)
+
+ for (auto it = data_sources_.begin(); it != data_sources_.end(); ++it) {
+ if (it->second.producer_id == producer_id &&
+ it->second.descriptor.name() == name) {
+ data_sources_.erase(it);
+ return;
+ }
+ }
+
+ PERFETTO_DFATAL(
+ "Tried to unregister a non-existent data source \"%s\" for "
+ "producer %" PRIu16,
+ name.c_str(), producer_id);
+}
+
+TracingServiceImpl::DataSourceInstance* TracingServiceImpl::SetupDataSource(
+ const TraceConfig::DataSource& cfg_data_source,
+ const TraceConfig::ProducerConfig& producer_config,
+ const RegisteredDataSource& data_source,
+ TracingSession* tracing_session) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ ProducerEndpointImpl* producer = GetProducer(data_source.producer_id);
+ PERFETTO_DCHECK(producer);
+ // An existing producer that is not ftrace could have registered itself as
+ // ftrace, we must not enable it in that case.
+ if (lockdown_mode_ && producer->uid() != uid_) {
+ PERFETTO_DLOG("Lockdown mode: not enabling producer %hu", producer->id_);
+ return nullptr;
+ }
+ // TODO(primiano): Add tests for registration ordering (data sources vs
+ // consumers).
+ if (!NameMatchesFilter(producer->name_,
+ cfg_data_source.producer_name_filter(),
+ cfg_data_source.producer_name_regex_filter())) {
+ PERFETTO_DLOG("Data source: %s is filtered out for producer: %s",
+ cfg_data_source.config().name().c_str(),
+ producer->name_.c_str());
+ return nullptr;
+ }
+
+ auto relative_buffer_id = cfg_data_source.config().target_buffer();
+ if (relative_buffer_id >= tracing_session->num_buffers()) {
+ PERFETTO_LOG(
+ "The TraceConfig for DataSource %s specified a target_buffer out of "
+ "bound (%d). Skipping it.",
+ cfg_data_source.config().name().c_str(), relative_buffer_id);
+ return nullptr;
+ }
+
+ // Create a copy of the DataSourceConfig specified in the trace config. This
+ // will be passed to the producer after translating the |target_buffer| id.
+ // The |target_buffer| parameter passed by the consumer in the trace config is
+ // relative to the buffers declared in the same trace config. This has to be
+ // translated to the global BufferID before passing it to the producers, which
+ // don't know anything about tracing sessions and consumers.
+
+ DataSourceInstanceID inst_id = ++last_data_source_instance_id_;
+ auto insert_iter = tracing_session->data_source_instances.emplace(
+ std::piecewise_construct, //
+ std::forward_as_tuple(producer->id_),
+ std::forward_as_tuple(
+ inst_id,
+ cfg_data_source.config(), // Deliberate copy.
+ data_source.descriptor.name(),
+ data_source.descriptor.will_notify_on_start(),
+ data_source.descriptor.will_notify_on_stop(),
+ data_source.descriptor.handles_incremental_state_clear(),
+ data_source.descriptor.no_flush()));
+ DataSourceInstance* ds_instance = &insert_iter->second;
+
+ // New data source instance starts out in CONFIGURED state.
+ if (tracing_session->consumer_maybe_null) {
+ tracing_session->consumer_maybe_null->OnDataSourceInstanceStateChange(
+ *producer, *ds_instance);
+ }
+
+ DataSourceConfig& ds_config = ds_instance->config;
+ ds_config.set_trace_duration_ms(tracing_session->config.duration_ms());
+
+ // Rationale for `if (prefer) set_prefer(true)`, rather than `set(prefer)`:
+ // ComputeStartupConfigHash() in tracing_muxer_impl.cc compares hashes of the
+ // DataSourceConfig and expects to know (and clear) the fields generated by
+ // the tracing service. Unconditionally adding a new field breaks backward
+ // compatibility of startup tracing with older SDKs, because the serialization
+ // also propagates unkonwn fields, breaking the hash matching check.
+ if (tracing_session->config.prefer_suspend_clock_for_duration())
+ ds_config.set_prefer_suspend_clock_for_duration(true);
+
+ ds_config.set_stop_timeout_ms(tracing_session->data_source_stop_timeout_ms());
+ ds_config.set_enable_extra_guardrails(
+ tracing_session->config.enable_extra_guardrails());
+ if (tracing_session->consumer_uid == 1066 /* AID_STATSD */ &&
+ tracing_session->config.statsd_metadata().triggering_config_uid() !=
+ 2000 /* AID_SHELL */
+ && tracing_session->config.statsd_metadata().triggering_config_uid() !=
+ 0 /* AID_ROOT */) {
+ // StatsD can be triggered either by shell, root or an app that has DUMP and
+ // USAGE_STATS permission. When triggered by shell or root, we do not want
+ // to consider the trace a trusted system trace, as it was initiated by the
+ // user. Otherwise, it has to come from an app with DUMP and
+ // PACKAGE_USAGE_STATS, which has to be preinstalled and trusted by the
+ // system.
+ // Check for shell / root: https://bit.ly/3b7oZNi
+ // Check for DUMP or PACKAGE_USAGE_STATS: https://bit.ly/3ep0NrR
+ ds_config.set_session_initiator(
+ DataSourceConfig::SESSION_INITIATOR_TRUSTED_SYSTEM);
+ } else {
+ // Unset in case the consumer set it.
+ // We need to be able to trust this field.
+ ds_config.set_session_initiator(
+ DataSourceConfig::SESSION_INITIATOR_UNSPECIFIED);
+ }
+ ds_config.set_tracing_session_id(tracing_session->id);
+ BufferID global_id = tracing_session->buffers_index[relative_buffer_id];
+ PERFETTO_DCHECK(global_id);
+ ds_config.set_target_buffer(global_id);
+
+ PERFETTO_DLOG("Setting up data source %s with target buffer %" PRIu16,
+ ds_config.name().c_str(), global_id);
+ if (!producer->shared_memory()) {
+ // Determine the SMB page size. Must be an integer multiple of 4k.
+ // As for the SMB size below, the decision tree is as follows:
+ // 1. Give priority to what is defined in the trace config.
+ // 2. If unset give priority to the hint passed by the producer.
+ // 3. Keep within bounds and ensure it's a multiple of 4k.
+ size_t page_size = producer_config.page_size_kb() * 1024;
+ if (page_size == 0)
+ page_size = producer->shmem_page_size_hint_bytes_;
+
+ // Determine the SMB size. Must be an integer multiple of the SMB page size.
+ // The decision tree is as follows:
+ // 1. Give priority to what defined in the trace config.
+ // 2. If unset give priority to the hint passed by the producer.
+ // 3. Keep within bounds and ensure it's a multiple of the page size.
+ size_t shm_size = producer_config.shm_size_kb() * 1024;
+ if (shm_size == 0)
+ shm_size = producer->shmem_size_hint_bytes_;
+
+ auto valid_sizes = EnsureValidShmSizes(shm_size, page_size);
+ if (valid_sizes != std::tie(shm_size, page_size)) {
+ PERFETTO_DLOG(
+ "Invalid configured SMB sizes: shm_size %zu page_size %zu. Falling "
+ "back to shm_size %zu page_size %zu.",
+ shm_size, page_size, std::get<0>(valid_sizes),
+ std::get<1>(valid_sizes));
+ }
+ std::tie(shm_size, page_size) = valid_sizes;
+
+ // TODO(primiano): right now Create() will suicide in case of OOM if the
+ // mmap fails. We should instead gracefully fail the request and tell the
+ // client to go away.
+ PERFETTO_DLOG("Creating SMB of %zu KB for producer \"%s\"", shm_size / 1024,
+ producer->name_.c_str());
+ auto shared_memory = shm_factory_->CreateSharedMemory(shm_size);
+ producer->SetupSharedMemory(std::move(shared_memory), page_size,
+ /*provided_by_producer=*/false);
+ }
+ producer->SetupDataSource(inst_id, ds_config);
+ return ds_instance;
+}
+
+// Note: all the fields % *_trusted ones are untrusted, as in, the Producer
+// might be lying / returning garbage contents. |src| and |size| can be trusted
+// in terms of being a valid pointer, but not the contents.
+void TracingServiceImpl::CopyProducerPageIntoLogBuffer(
+ ProducerID producer_id_trusted,
+ const ClientIdentity& client_identity_trusted,
+ WriterID writer_id,
+ ChunkID chunk_id,
+ BufferID buffer_id,
+ uint16_t num_fragments,
+ uint8_t chunk_flags,
+ bool chunk_complete,
+ const uint8_t* src,
+ size_t size) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+
+ ProducerEndpointImpl* producer = GetProducer(producer_id_trusted);
+ if (!producer) {
+ PERFETTO_DFATAL("Producer not found.");
+ chunks_discarded_++;
+ return;
+ }
+
+ TraceBuffer* buf = GetBufferByID(buffer_id);
+ if (!buf) {
+ PERFETTO_DLOG("Could not find target buffer %" PRIu16
+ " for producer %" PRIu16,
+ buffer_id, producer_id_trusted);
+ chunks_discarded_++;
+ return;
+ }
+
+ // Verify that the producer is actually allowed to write into the target
+ // buffer specified in the request. This prevents a malicious producer from
+ // injecting data into a log buffer that belongs to a tracing session the
+ // producer is not part of.
+ if (!producer->is_allowed_target_buffer(buffer_id)) {
+ PERFETTO_ELOG("Producer %" PRIu16
+ " tried to write into forbidden target buffer %" PRIu16,
+ producer_id_trusted, buffer_id);
+ PERFETTO_DFATAL("Forbidden target buffer");
+ chunks_discarded_++;
+ return;
+ }
+
+ // If the writer was registered by the producer, it should only write into the
+ // buffer it was registered with.
+ std::optional<BufferID> associated_buffer =
+ producer->buffer_id_for_writer(writer_id);
+ if (associated_buffer && *associated_buffer != buffer_id) {
+ PERFETTO_ELOG("Writer %" PRIu16 " of producer %" PRIu16
+ " was registered to write into target buffer %" PRIu16
+ ", but tried to write into buffer %" PRIu16,
+ writer_id, producer_id_trusted, *associated_buffer,
+ buffer_id);
+ PERFETTO_DFATAL("Wrong target buffer");
+ chunks_discarded_++;
+ return;
+ }
+
+ buf->CopyChunkUntrusted(producer_id_trusted, client_identity_trusted,
+ writer_id, chunk_id, num_fragments, chunk_flags,
+ chunk_complete, src, size);
+}
+
+void TracingServiceImpl::ApplyChunkPatches(
+ ProducerID producer_id_trusted,
+ const std::vector<CommitDataRequest::ChunkToPatch>& chunks_to_patch) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+
+ for (const auto& chunk : chunks_to_patch) {
+ const ChunkID chunk_id = static_cast<ChunkID>(chunk.chunk_id());
+ const WriterID writer_id = static_cast<WriterID>(chunk.writer_id());
+ TraceBuffer* buf =
+ GetBufferByID(static_cast<BufferID>(chunk.target_buffer()));
+ static_assert(std::numeric_limits<ChunkID>::max() == kMaxChunkID,
+ "Add a '|| chunk_id > kMaxChunkID' below if this fails");
+ if (!writer_id || writer_id > kMaxWriterID || !buf) {
+ // This can genuinely happen when the trace is stopped. The producers
+ // might see the stop signal with some delay and try to keep sending
+ // patches left soon after.
+ PERFETTO_DLOG(
+ "Received invalid chunks_to_patch request from Producer: %" PRIu16
+ ", BufferID: %" PRIu32 " ChunkdID: %" PRIu32 " WriterID: %" PRIu16,
+ producer_id_trusted, chunk.target_buffer(), chunk_id, writer_id);
+ patches_discarded_ += static_cast<uint64_t>(chunk.patches_size());
+ continue;
+ }
+
+ // Note, there's no need to validate that the producer is allowed to write
+ // to the specified buffer ID (or that it's the correct buffer ID for a
+ // registered TraceWriter). That's because TraceBuffer uses the producer ID
+ // and writer ID to look up the chunk to patch. If the producer specifies an
+ // incorrect buffer, this lookup will fail and TraceBuffer will ignore the
+ // patches. Because the producer ID is trusted, there's also no way for a
+ // malicious producer to patch another producer's data.
+
+ // Speculate on the fact that there are going to be a limited amount of
+ // patches per request, so we can allocate the |patches| array on the stack.
+ std::array<TraceBuffer::Patch, 1024> patches; // Uninitialized.
+ if (chunk.patches().size() > patches.size()) {
+ PERFETTO_ELOG("Too many patches (%zu) batched in the same request",
+ patches.size());
+ PERFETTO_DFATAL("Too many patches");
+ patches_discarded_ += static_cast<uint64_t>(chunk.patches_size());
+ continue;
+ }
+
+ size_t i = 0;
+ for (const auto& patch : chunk.patches()) {
+ const std::string& patch_data = patch.data();
+ if (patch_data.size() != patches[i].data.size()) {
+ PERFETTO_ELOG("Received patch from producer: %" PRIu16
+ " of unexpected size %zu",
+ producer_id_trusted, patch_data.size());
+ patches_discarded_++;
+ continue;
+ }
+ patches[i].offset_untrusted = patch.offset();
+ memcpy(&patches[i].data[0], patch_data.data(), patches[i].data.size());
+ i++;
+ }
+ buf->TryPatchChunkContents(producer_id_trusted, writer_id, chunk_id,
+ &patches[0], i, chunk.has_more_patches());
+ }
+}
+
+TracingServiceImpl::TracingSession* TracingServiceImpl::GetDetachedSession(
+ uid_t uid,
+ const std::string& key) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ for (auto& kv : tracing_sessions_) {
+ TracingSession* session = &kv.second;
+ if (session->consumer_uid == uid && session->detach_key == key) {
+ PERFETTO_DCHECK(session->consumer_maybe_null == nullptr);
+ return session;
+ }
+ }
+ return nullptr;
+}
+
+TracingServiceImpl::TracingSession* TracingServiceImpl::GetTracingSession(
+ TracingSessionID tsid) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ auto it = tsid ? tracing_sessions_.find(tsid) : tracing_sessions_.end();
+ if (it == tracing_sessions_.end())
+ return nullptr;
+ return &it->second;
+}
+
+TracingServiceImpl::TracingSession*
+TracingServiceImpl::FindTracingSessionWithMaxBugreportScore() {
+ TracingSession* max_session = nullptr;
+ for (auto& session_id_and_session : tracing_sessions_) {
+ auto& session = session_id_and_session.second;
+ const int32_t score = session.config.bugreport_score();
+ // Exclude sessions with 0 (or below) score. By default tracing sessions
+ // should NOT be eligible to be attached to bugreports.
+ if (score <= 0 || session.state != TracingSession::STARTED)
+ continue;
+
+ if (!max_session || score > max_session->config.bugreport_score())
+ max_session = &session;
+ }
+ return max_session;
+}
+
+ProducerID TracingServiceImpl::GetNextProducerID() {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ PERFETTO_CHECK(producers_.size() < kMaxProducerID);
+ do {
+ ++last_producer_id_;
+ } while (producers_.count(last_producer_id_) || last_producer_id_ == 0);
+ PERFETTO_DCHECK(last_producer_id_ > 0 && last_producer_id_ <= kMaxProducerID);
+ return last_producer_id_;
+}
+
+TraceBuffer* TracingServiceImpl::GetBufferByID(BufferID buffer_id) {
+ auto buf_iter = buffers_.find(buffer_id);
+ if (buf_iter == buffers_.end())
+ return nullptr;
+ return &*buf_iter->second;
+}
+
+void TracingServiceImpl::OnStartTriggersTimeout(TracingSessionID tsid) {
+ // Skip entirely the flush if the trace session doesn't exist anymore.
+ // This is to prevent misleading error messages to be logged.
+ //
+ // if the trace has started from the trigger we rely on
+ // the |stop_delay_ms| from the trigger so don't flush and
+ // disable if we've moved beyond a CONFIGURED state
+ auto* tracing_session_ptr = GetTracingSession(tsid);
+ if (tracing_session_ptr &&
+ tracing_session_ptr->state == TracingSession::CONFIGURED) {
+ PERFETTO_DLOG("Disabling TracingSession %" PRIu64
+ " since no triggers activated.",
+ tsid);
+ // No data should be returned from ReadBuffers() regardless of if we
+ // call FreeBuffers() or DisableTracing(). This is because in
+ // STOP_TRACING we need this promise in either case, and using
+ // DisableTracing() allows a graceful shutdown. Consumers can follow
+ // their normal path and check the buffers through ReadBuffers() and
+ // the code won't hang because the tracing session will still be
+ // alive just disabled.
+ DisableTracing(tsid);
+ }
+}
+
+void TracingServiceImpl::UpdateMemoryGuardrail() {
+#if PERFETTO_BUILDFLAG(PERFETTO_WATCHDOG)
+ uint64_t total_buffer_bytes = 0;
+
+ // Sum up all the shared memory buffers.
+ for (const auto& id_to_producer : producers_) {
+ if (id_to_producer.second->shared_memory())
+ total_buffer_bytes += id_to_producer.second->shared_memory()->size();
+ }
+
+ // Sum up all the trace buffers.
+ for (const auto& id_to_buffer : buffers_) {
+ total_buffer_bytes += id_to_buffer.second->size();
+ }
+
+ // Sum up all the cloned traced buffers.
+ for (const auto& id_to_ts : tracing_sessions_) {
+ const TracingSession& ts = id_to_ts.second;
+ for (const auto& id_to_pending_clone : ts.pending_clones) {
+ const PendingClone& pending_clone = id_to_pending_clone.second;
+ for (const std::unique_ptr<TraceBuffer>& buf : pending_clone.buffers) {
+ if (buf) {
+ total_buffer_bytes += buf->size();
+ }
+ }
+ }
+ }
+
+ // Set the guard rail to 32MB + the sum of all the buffers over a 30 second
+ // interval.
+ uint64_t guardrail = base::kWatchdogDefaultMemorySlack + total_buffer_bytes;
+ base::Watchdog::GetInstance()->SetMemoryLimit(guardrail, 30 * 1000);
+#endif
+}
+
+void TracingServiceImpl::PeriodicSnapshotTask(TracingSessionID tsid) {
+ auto* tracing_session = GetTracingSession(tsid);
+ if (!tracing_session)
+ return;
+ if (tracing_session->state != TracingSession::STARTED)
+ return;
+ tracing_session->should_emit_sync_marker = true;
+ tracing_session->should_emit_stats = true;
+ MaybeSnapshotClocksIntoRingBuffer(tracing_session);
+}
+
+void TracingServiceImpl::SnapshotLifecyleEvent(TracingSession* tracing_session,
+ uint32_t field_id,
+ bool snapshot_clocks) {
+ // field_id should be an id of a field in TracingServiceEvent.
+ auto& lifecycle_events = tracing_session->lifecycle_events;
+ auto event_it =
+ std::find_if(lifecycle_events.begin(), lifecycle_events.end(),
+ [field_id](const TracingSession::LifecycleEvent& event) {
+ return event.field_id == field_id;
+ });
+
+ TracingSession::LifecycleEvent* event;
+ if (event_it == lifecycle_events.end()) {
+ lifecycle_events.emplace_back(field_id);
+ event = &lifecycle_events.back();
+ } else {
+ event = &*event_it;
+ }
+
+ // Snapshot the clocks before capturing the timestamp for the event so we can
+ // use this snapshot to resolve the event timestamp if necessary.
+ if (snapshot_clocks)
+ MaybeSnapshotClocksIntoRingBuffer(tracing_session);
+
+ // Erase before emplacing to prevent a unncessary doubling of memory if
+ // not needed.
+ if (event->timestamps.size() >= event->max_size) {
+ event->timestamps.erase_front(1 + event->timestamps.size() -
+ event->max_size);
+ }
+ event->timestamps.emplace_back(base::GetBootTimeNs().count());
+}
+
+void TracingServiceImpl::MaybeSnapshotClocksIntoRingBuffer(
+ TracingSession* tracing_session) {
+ if (tracing_session->config.builtin_data_sources()
+ .disable_clock_snapshotting()) {
+ return;
+ }
+
+ // We are making an explicit copy of the latest snapshot (if it exists)
+ // because SnapshotClocks reads this data and computes the drift based on its
+ // content. If the clock drift is high enough, it will update the contents of
+ // |snapshot| and return true. Otherwise, it will return false.
+ TracingSession::ClockSnapshotData snapshot =
+ tracing_session->clock_snapshot_ring_buffer.empty()
+ ? TracingSession::ClockSnapshotData()
+ : tracing_session->clock_snapshot_ring_buffer.back();
+ bool did_update = SnapshotClocks(&snapshot);
+ if (did_update) {
+ // This means clocks drifted enough since last snapshot. See the comment
+ // in SnapshotClocks.
+ auto* snapshot_buffer = &tracing_session->clock_snapshot_ring_buffer;
+
+ // Erase before emplacing to prevent a unncessary doubling of memory if
+ // not needed.
+ static constexpr uint32_t kClockSnapshotRingBufferSize = 16;
+ if (snapshot_buffer->size() >= kClockSnapshotRingBufferSize) {
+ snapshot_buffer->erase_front(1 + snapshot_buffer->size() -
+ kClockSnapshotRingBufferSize);
+ }
+ snapshot_buffer->emplace_back(std::move(snapshot));
+ }
+}
+
+// Returns true when the data in |snapshot_data| is updated with the new state
+// of the clocks and false otherwise.
+bool TracingServiceImpl::SnapshotClocks(
+ TracingSession::ClockSnapshotData* snapshot_data) {
+ // Minimum drift that justifies replacing a prior clock snapshot that hasn't
+ // been emitted into the trace yet (see comment below).
+ static constexpr int64_t kSignificantDriftNs = 10 * 1000 * 1000; // 10 ms
+
+ TracingSession::ClockSnapshotData new_snapshot_data = CaptureClockSnapshots();
+ // If we're about to update a session's latest clock snapshot that hasn't been
+ // emitted into the trace yet, check whether the clocks have drifted enough to
+ // warrant overriding the current snapshot values. The older snapshot would be
+ // valid for a larger part of the currently buffered trace data because the
+ // clock sync protocol in trace processor uses the latest clock <= timestamp
+ // to translate times (see https://perfetto.dev/docs/concepts/clock-sync), so
+ // we try to keep it if we can.
+ if (!snapshot_data->empty()) {
+ PERFETTO_DCHECK(snapshot_data->size() == new_snapshot_data.size());
+ PERFETTO_DCHECK((*snapshot_data)[0].clock_id ==
+ protos::gen::BUILTIN_CLOCK_BOOTTIME);
+
+ bool update_snapshot = false;
+ uint64_t old_boot_ns = (*snapshot_data)[0].timestamp;
+ uint64_t new_boot_ns = new_snapshot_data[0].timestamp;
+ int64_t boot_diff =
+ static_cast<int64_t>(new_boot_ns) - static_cast<int64_t>(old_boot_ns);
+
+ for (size_t i = 1; i < snapshot_data->size(); i++) {
+ uint64_t old_ns = (*snapshot_data)[i].timestamp;
+ uint64_t new_ns = new_snapshot_data[i].timestamp;
+
+ int64_t diff =
+ static_cast<int64_t>(new_ns) - static_cast<int64_t>(old_ns);
+
+ // Compare the boottime delta against the delta of this clock.
+ if (std::abs(boot_diff - diff) >= kSignificantDriftNs) {
+ update_snapshot = true;
+ break;
+ }
+ }
+ if (!update_snapshot)
+ return false;
+ snapshot_data->clear();
+ }
+
+ *snapshot_data = std::move(new_snapshot_data);
+ return true;
+}
+
+void TracingServiceImpl::EmitClockSnapshot(
+ TracingSession* tracing_session,
+ TracingSession::ClockSnapshotData snapshot_data,
+ std::vector<TracePacket>* packets) {
+ PERFETTO_DCHECK(!tracing_session->config.builtin_data_sources()
+ .disable_clock_snapshotting());
+
+ protozero::HeapBuffered<protos::pbzero::TracePacket> packet;
+ auto* snapshot = packet->set_clock_snapshot();
+
+ protos::gen::BuiltinClock trace_clock =
+ tracing_session->config.builtin_data_sources().primary_trace_clock();
+ if (!trace_clock)
+ trace_clock = protos::gen::BUILTIN_CLOCK_BOOTTIME;
+ snapshot->set_primary_trace_clock(
+ static_cast<protos::pbzero::BuiltinClock>(trace_clock));
+
+ for (auto& clock_id_and_ts : snapshot_data) {
+ auto* c = snapshot->add_clocks();
+ c->set_clock_id(clock_id_and_ts.clock_id);
+ c->set_timestamp(clock_id_and_ts.timestamp);
+ }
+
+ packet->set_trusted_uid(static_cast<int32_t>(uid_));
+ packet->set_trusted_packet_sequence_id(kServicePacketSequenceID);
+ SerializeAndAppendPacket(packets, packet.SerializeAsArray());
+}
+
+void TracingServiceImpl::EmitSyncMarker(std::vector<TracePacket>* packets) {
+ // The sync marks are used to tokenize large traces efficiently.
+ // See description in trace_packet.proto.
+ if (sync_marker_packet_size_ == 0) {
+ // The marker ABI expects that the marker is written after the uid.
+ // Protozero guarantees that fields are written in the same order of the
+ // calls. The ResynchronizeTraceStreamUsingSyncMarker test verifies the ABI.
+ protozero::StaticBuffered<protos::pbzero::TracePacket> packet(
+ &sync_marker_packet_[0], sizeof(sync_marker_packet_));
+ packet->set_trusted_uid(static_cast<int32_t>(uid_));
+ packet->set_trusted_packet_sequence_id(kServicePacketSequenceID);
+
+ // Keep this last.
+ packet->set_synchronization_marker(kSyncMarker, sizeof(kSyncMarker));
+ sync_marker_packet_size_ = packet.Finalize();
+ }
+ packets->emplace_back();
+ packets->back().AddSlice(&sync_marker_packet_[0], sync_marker_packet_size_);
+}
+
+void TracingServiceImpl::EmitStats(TracingSession* tracing_session,
+ std::vector<TracePacket>* packets) {
+ protozero::HeapBuffered<protos::pbzero::TracePacket> packet;
+ packet->set_trusted_uid(static_cast<int32_t>(uid_));
+ packet->set_trusted_packet_sequence_id(kServicePacketSequenceID);
+ GetTraceStats(tracing_session).Serialize(packet->set_trace_stats());
+ SerializeAndAppendPacket(packets, packet.SerializeAsArray());
+}
+
+TraceStats TracingServiceImpl::GetTraceStats(TracingSession* tracing_session) {
+ TraceStats trace_stats;
+ trace_stats.set_producers_connected(static_cast<uint32_t>(producers_.size()));
+ trace_stats.set_producers_seen(last_producer_id_);
+ trace_stats.set_data_sources_registered(
+ static_cast<uint32_t>(data_sources_.size()));
+ trace_stats.set_data_sources_seen(last_data_source_instance_id_);
+ trace_stats.set_tracing_sessions(
+ static_cast<uint32_t>(tracing_sessions_.size()));
+ trace_stats.set_total_buffers(static_cast<uint32_t>(buffers_.size()));
+ trace_stats.set_chunks_discarded(chunks_discarded_);
+ trace_stats.set_patches_discarded(patches_discarded_);
+ trace_stats.set_invalid_packets(tracing_session->invalid_packets);
+ trace_stats.set_flushes_requested(tracing_session->flushes_requested);
+ trace_stats.set_flushes_succeeded(tracing_session->flushes_succeeded);
+ trace_stats.set_flushes_failed(tracing_session->flushes_failed);
+ trace_stats.set_final_flush_outcome(tracing_session->final_flush_outcome);
+
+ if (tracing_session->trace_filter) {
+ auto* filt_stats = trace_stats.mutable_filter_stats();
+ filt_stats->set_input_packets(tracing_session->filter_input_packets);
+ filt_stats->set_input_bytes(tracing_session->filter_input_bytes);
+ filt_stats->set_output_bytes(tracing_session->filter_output_bytes);
+ filt_stats->set_errors(tracing_session->filter_errors);
+ filt_stats->set_time_taken_ns(tracing_session->filter_time_taken_ns);
+ for (uint64_t value : tracing_session->filter_bytes_discarded_per_buffer)
+ filt_stats->add_bytes_discarded_per_buffer(value);
+ }
+
+ for (BufferID buf_id : tracing_session->buffers_index) {
+ TraceBuffer* buf = GetBufferByID(buf_id);
+ if (!buf) {
+ PERFETTO_DFATAL("Buffer not found.");
+ continue;
+ }
+ *trace_stats.add_buffer_stats() = buf->stats();
+ } // for (buf in session).
+
+ if (!tracing_session->config.builtin_data_sources()
+ .disable_chunk_usage_histograms()) {
+ // Emit chunk usage stats broken down by sequence ID (i.e. by trace-writer).
+ // Writer stats are updated by each TraceBuffer object at ReadBuffers time,
+ // and there can be >1 buffer per session. A trace writer never writes to
+ // more than one buffer (it's technically allowed but doesn't happen in the
+ // current impl of the tracing SDK).
+
+ bool has_written_bucket_definition = false;
+ uint32_t buf_idx = static_cast<uint32_t>(-1);
+ for (const BufferID buf_id : tracing_session->buffers_index) {
+ ++buf_idx;
+ const TraceBuffer* buf = GetBufferByID(buf_id);
+ if (!buf)
+ continue;
+ for (auto it = buf->writer_stats().GetIterator(); it; ++it) {
+ const auto& hist = it.value().used_chunk_hist;
+ ProducerID p;
+ WriterID w;
+ GetProducerAndWriterID(it.key(), &p, &w);
+ if (!has_written_bucket_definition) {
+ // Serialize one-off the histogram bucket definition, which is the
+ // same for all entries in the map.
+ has_written_bucket_definition = true;
+ // The -1 in the loop below is to skip the implicit overflow bucket.
+ for (size_t i = 0; i < hist.num_buckets() - 1; ++i) {
+ trace_stats.add_chunk_payload_histogram_def(hist.GetBucketThres(i));
+ }
+ } // if(!has_written_bucket_definition)
+ auto* wri_stats = trace_stats.add_writer_stats();
+ wri_stats->set_sequence_id(
+ tracing_session->GetPacketSequenceID(kDefaultMachineID, p, w));
+ wri_stats->set_buffer(buf_idx);
+ for (size_t i = 0; i < hist.num_buckets(); ++i) {
+ wri_stats->add_chunk_payload_histogram_counts(hist.GetBucketCount(i));
+ wri_stats->add_chunk_payload_histogram_sum(hist.GetBucketSum(i));
+ }
+ } // for each sequence (writer).
+ } // for each buffer.
+ } // if (!disable_chunk_usage_histograms)
+
+ return trace_stats;
+}
+
+void TracingServiceImpl::EmitUuid(TracingSession* tracing_session,
+ std::vector<TracePacket>* packets) {
+ protozero::HeapBuffered<protos::pbzero::TracePacket> packet;
+ packet->set_trusted_uid(static_cast<int32_t>(uid_));
+ packet->set_trusted_packet_sequence_id(kServicePacketSequenceID);
+ auto* uuid = packet->set_trace_uuid();
+ uuid->set_lsb(tracing_session->trace_uuid.lsb());
+ uuid->set_msb(tracing_session->trace_uuid.msb());
+ SerializeAndAppendPacket(packets, packet.SerializeAsArray());
+}
+
+void TracingServiceImpl::MaybeEmitTraceConfig(
+ TracingSession* tracing_session,
+ std::vector<TracePacket>* packets) {
+ if (tracing_session->did_emit_initial_packets)
+ return;
+ protozero::HeapBuffered<protos::pbzero::TracePacket> packet;
+ packet->set_trusted_uid(static_cast<int32_t>(uid_));
+ packet->set_trusted_packet_sequence_id(kServicePacketSequenceID);
+ tracing_session->config.Serialize(packet->set_trace_config());
+ SerializeAndAppendPacket(packets, packet.SerializeAsArray());
+}
+
+void TracingServiceImpl::EmitSystemInfo(std::vector<TracePacket>* packets) {
+ protozero::HeapBuffered<protos::pbzero::TracePacket> packet;
+ auto* info = packet->set_system_info();
+ info->set_tracing_service_version(base::GetVersionString());
+
+ std::optional<int32_t> tzoff = base::GetTimezoneOffsetMins();
+ if (tzoff.has_value())
+ info->set_timezone_off_mins(*tzoff);
+
+#if !PERFETTO_BUILDFLAG(PERFETTO_OS_WIN) && \
+ !PERFETTO_BUILDFLAG(PERFETTO_OS_NACL)
+ struct utsname uname_info;
+ if (uname(&uname_info) == 0) {
+ auto* utsname_info = info->set_utsname();
+ utsname_info->set_sysname(uname_info.sysname);
+ utsname_info->set_version(uname_info.version);
+ utsname_info->set_machine(uname_info.machine);
+ utsname_info->set_release(uname_info.release);
+ }
+ info->set_page_size(static_cast<uint32_t>(sysconf(_SC_PAGESIZE)));
+ info->set_num_cpus(static_cast<uint32_t>(sysconf(_SC_NPROCESSORS_CONF)));
+#endif // !PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID)
+ std::string fingerprint_value = base::GetAndroidProp("ro.build.fingerprint");
+ if (!fingerprint_value.empty()) {
+ info->set_android_build_fingerprint(fingerprint_value);
+ } else {
+ PERFETTO_ELOG("Unable to read ro.build.fingerprint");
+ }
+
+ std::string sdk_str_value = base::GetAndroidProp("ro.build.version.sdk");
+ std::optional<uint64_t> sdk_value = base::StringToUInt64(sdk_str_value);
+ if (sdk_value.has_value()) {
+ info->set_android_sdk_version(*sdk_value);
+ } else {
+ PERFETTO_ELOG("Unable to read ro.build.version.sdk");
+ }
+#endif // PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID)
+ packet->set_trusted_uid(static_cast<int32_t>(uid_));
+ packet->set_trusted_packet_sequence_id(kServicePacketSequenceID);
+ SerializeAndAppendPacket(packets, packet.SerializeAsArray());
+}
+
+void TracingServiceImpl::EmitLifecycleEvents(
+ TracingSession* tracing_session,
+ std::vector<TracePacket>* packets) {
+ using TimestampedPacket =
+ std::pair<int64_t /* ts */, std::vector<uint8_t> /* serialized packet */>;
+
+ std::vector<TimestampedPacket> timestamped_packets;
+ for (auto& event : tracing_session->lifecycle_events) {
+ for (int64_t ts : event.timestamps) {
+ protozero::HeapBuffered<protos::pbzero::TracePacket> packet;
+ packet->set_timestamp(static_cast<uint64_t>(ts));
+ packet->set_trusted_uid(static_cast<int32_t>(uid_));
+ packet->set_trusted_packet_sequence_id(kServicePacketSequenceID);
+
+ auto* service_event = packet->set_service_event();
+ service_event->AppendVarInt(event.field_id, 1);
+ timestamped_packets.emplace_back(ts, packet.SerializeAsArray());
+ }
+ event.timestamps.clear();
+ }
+
+ // We sort by timestamp here to ensure that the "sequence" of lifecycle
+ // packets has monotonic timestamps like other sequences in the trace.
+ // Note that these events could still be out of order with respect to other
+ // events on the service packet sequence (e.g. trigger received packets).
+ std::sort(timestamped_packets.begin(), timestamped_packets.end(),
+ [](const TimestampedPacket& a, const TimestampedPacket& b) {
+ return a.first < b.first;
+ });
+
+ for (auto& pair : timestamped_packets)
+ SerializeAndAppendPacket(packets, std::move(pair.second));
+}
+
+void TracingServiceImpl::MaybeEmitRemoteClockSync(
+ TracingSession* tracing_session,
+ std::vector<TracePacket>* packets) {
+ if (tracing_session->did_emit_remote_clock_sync_)
+ return;
+
+ std::unordered_set<MachineID> did_emit_machines;
+ for (const auto& id_and_relay_client : relay_clients_) {
+ const auto& relay_client = id_and_relay_client.second;
+ auto machine_id = relay_client->machine_id();
+ if (did_emit_machines.find(machine_id) != did_emit_machines.end())
+ continue; // Already emitted for the machine (e.g. multiple clients).
+
+ auto& sync_clock_snapshots = relay_client->synced_clocks();
+ if (sync_clock_snapshots.empty()) {
+ PERFETTO_DLOG("Clock not synchronized for machine ID = %" PRIu32,
+ machine_id);
+ continue;
+ }
+
+ // Don't emit twice for the same machine.
+ did_emit_machines.insert(machine_id);
+
+ protozero::HeapBuffered<protos::pbzero::TracePacket> sync_packet;
+ sync_packet->set_machine_id(machine_id);
+ sync_packet->set_trusted_uid(static_cast<int32_t>(uid_));
+ auto* remote_clock_sync = sync_packet->set_remote_clock_sync();
+ for (const auto& sync_exchange : relay_client->synced_clocks()) {
+ auto* sync_exchange_msg = remote_clock_sync->add_synced_clocks();
+
+ auto* client_snapshots = sync_exchange_msg->set_client_clocks();
+ for (const auto& client_clock : sync_exchange.client_clocks) {
+ auto* clock = client_snapshots->add_clocks();
+ clock->set_clock_id(client_clock.clock_id);
+ clock->set_timestamp(client_clock.timestamp);
+ }
+
+ auto* host_snapshots = sync_exchange_msg->set_host_clocks();
+ for (const auto& host_clock : sync_exchange.host_clocks) {
+ auto* clock = host_snapshots->add_clocks();
+ clock->set_clock_id(host_clock.clock_id);
+ clock->set_timestamp(host_clock.timestamp);
+ }
+ }
+
+ SerializeAndAppendPacket(packets, sync_packet.SerializeAsArray());
+ }
+
+ tracing_session->did_emit_remote_clock_sync_ = true;
+}
+
+void TracingServiceImpl::MaybeEmitReceivedTriggers(
+ TracingSession* tracing_session,
+ std::vector<TracePacket>* packets) {
+ PERFETTO_DCHECK(tracing_session->num_triggers_emitted_into_trace <=
+ tracing_session->received_triggers.size());
+ for (size_t i = tracing_session->num_triggers_emitted_into_trace;
+ i < tracing_session->received_triggers.size(); ++i) {
+ const auto& info = tracing_session->received_triggers[i];
+ protozero::HeapBuffered<protos::pbzero::TracePacket> packet;
+ auto* trigger = packet->set_trigger();
+ trigger->set_trigger_name(info.trigger_name);
+ trigger->set_producer_name(info.producer_name);
+ trigger->set_trusted_producer_uid(static_cast<int32_t>(info.producer_uid));
+
+ packet->set_timestamp(info.boot_time_ns);
+ packet->set_trusted_uid(static_cast<int32_t>(uid_));
+ packet->set_trusted_packet_sequence_id(kServicePacketSequenceID);
+ SerializeAndAppendPacket(packets, packet.SerializeAsArray());
+ ++tracing_session->num_triggers_emitted_into_trace;
+ }
+}
+
+void TracingServiceImpl::MaybeLogUploadEvent(const TraceConfig& cfg,
+ const base::Uuid& uuid,
+ PerfettoStatsdAtom atom,
+ const std::string& trigger_name) {
+ if (!ShouldLogEvent(cfg))
+ return;
+
+ PERFETTO_DCHECK(uuid); // The UUID must be set at this point.
+ android_stats::MaybeLogUploadEvent(atom, uuid.lsb(), uuid.msb(),
+ trigger_name);
+}
+
+void TracingServiceImpl::MaybeLogTriggerEvent(const TraceConfig& cfg,
+ PerfettoTriggerAtom atom,
+ const std::string& trigger_name) {
+ if (!ShouldLogEvent(cfg))
+ return;
+ android_stats::MaybeLogTriggerEvent(atom, trigger_name);
+}
+
+size_t TracingServiceImpl::PurgeExpiredAndCountTriggerInWindow(
+ int64_t now_ns,
+ uint64_t trigger_name_hash) {
+ PERFETTO_DCHECK(
+ std::is_sorted(trigger_history_.begin(), trigger_history_.end()));
+ size_t remove_count = 0;
+ size_t trigger_count = 0;
+ for (const TriggerHistory& h : trigger_history_) {
+ if (h.timestamp_ns < now_ns - trigger_window_ns_) {
+ remove_count++;
+ } else if (h.name_hash == trigger_name_hash) {
+ trigger_count++;
+ }
+ }
+ trigger_history_.erase_front(remove_count);
+ return trigger_count;
+}
+
+void TracingServiceImpl::FlushAndCloneSession(ConsumerEndpointImpl* consumer,
+ TracingSessionID tsid,
+ bool skip_trace_filter,
+ bool for_bugreport) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ auto clone_target = FlushFlags::CloneTarget::kUnknown;
+
+ if (tsid == kBugreportSessionId) {
+ // This branch is only here to support the legacy protocol where we could
+ // clone only a single session using the magic ID kBugreportSessionId.
+ // The newer perfetto --clone-all-for-bugreport first queries the existing
+ // sessions and then issues individual clone requests specifying real
+ // session IDs, setting args.{for_bugreport,skip_trace_filter}=true.
+ PERFETTO_LOG("Looking for sessions for bugreport");
+ TracingSession* session = FindTracingSessionWithMaxBugreportScore();
+ if (!session) {
+ consumer->consumer_->OnSessionCloned(
+ {false, "No tracing sessions eligible for bugreport found", {}});
+ return;
+ }
+ tsid = session->id;
+ clone_target = FlushFlags::CloneTarget::kBugreport;
+ skip_trace_filter = true;
+ for_bugreport = true;
+ } else if (for_bugreport) {
+ clone_target = FlushFlags::CloneTarget::kBugreport;
+ }
+
+ TracingSession* session = GetTracingSession(tsid);
+ if (!session) {
+ consumer->consumer_->OnSessionCloned(
+ {false, "Tracing session not found", {}});
+ return;
+ }
+
+ // If any of the buffers are marked as clear_before_clone, reset them before
+ // issuing the Flush(kCloneReason).
+ size_t buf_idx = 0;
+ for (BufferID src_buf_id : session->buffers_index) {
+ if (!session->config.buffers()[buf_idx++].clear_before_clone())
+ continue;
+ auto buf_iter = buffers_.find(src_buf_id);
+ PERFETTO_CHECK(buf_iter != buffers_.end());
+ std::unique_ptr<TraceBuffer>& buf = buf_iter->second;
+
+ // No need to reset the buffer if nothing has been written into it yet.
+ // This is the canonical case if producers behive nicely and don't timeout
+ // the handling of writes during the flush.
+ // This check avoids a useless re-mmap upon every Clone() if the buffer is
+ // already empty (when used in combination with `transfer_on_clone`).
+ if (!buf->has_data())
+ continue;
+
+ // Some leftover data was left in the buffer. Recreate it to empty it.
+ const auto buf_policy = buf->overwrite_policy();
+ const auto buf_size = buf->size();
+ std::unique_ptr<TraceBuffer> old_buf = std::move(buf);
+ buf = TraceBuffer::Create(buf_size, buf_policy);
+ if (!buf) {
+ // This is extremely rare but could happen on 32-bit. If the new buffer
+ // allocation failed, put back the buffer where it was and fail the clone.
+ // We cannot leave the original tracing session buffer-less as it would
+ // cause crashes when data sources commit new data.
+ buf = std::move(old_buf);
+ consumer->consumer_->OnSessionCloned(
+ {false, "Buffer allocation failed while attempting to clone", {}});
+ return;
+ }
+ }
+
+ auto weak_this = weak_ptr_factory_.GetWeakPtr();
+ auto weak_consumer = consumer->GetWeakPtr();
+
+ const PendingCloneID clone_id = session->last_pending_clone_id_++;
+
+ auto& clone_op = session->pending_clones[clone_id];
+ clone_op.pending_flush_cnt = 0;
+ clone_op.buffers =
+ std::vector<std::unique_ptr<TraceBuffer>>(session->buffers_index.size());
+ clone_op.weak_consumer = weak_consumer;
+ clone_op.skip_trace_filter = skip_trace_filter;
+
+ // Issue separate flush requests for separate buffer groups. The buffer marked
+ // as transfer_on_clone will be flushed and cloned separately: even if they're
+ // slower (like in the case of Winscope tracing), they will not delay the
+ // snapshot of the other buffers.
+ //
+ // In the future we might want to split the buffer into more groups and maybe
+ // allow this to be configurable.
+ std::array<std::set<BufferID>, 2> bufs_groups;
+ for (size_t i = 0; i < session->buffers_index.size(); i++) {
+ if (session->config.buffers()[i].transfer_on_clone()) {
+ bufs_groups[0].insert(session->buffers_index[i]);
+ } else {
+ bufs_groups[1].insert(session->buffers_index[i]);
+ }
+ }
+
+ clone_op.pending_flush_cnt = bufs_groups.size();
+ for (const std::set<BufferID>& buf_group : bufs_groups) {
+ FlushDataSourceInstances(
+ session, 0,
+ GetFlushableDataSourceInstancesForBuffers(session, buf_group),
+ [tsid, clone_id, buf_group, weak_this](bool final_flush) {
+ if (!weak_this)
+ return;
+ weak_this->OnFlushDoneForClone(tsid, clone_id, buf_group,
+ final_flush);
+ },
+ FlushFlags(FlushFlags::Initiator::kTraced,
+ FlushFlags::Reason::kTraceClone, clone_target));
+ }
+}
+
+std::map<ProducerID, std::vector<DataSourceInstanceID>>
+TracingServiceImpl::GetFlushableDataSourceInstancesForBuffers(
+ TracingSession* session,
+ const std::set<BufferID>& bufs) {
+ std::map<ProducerID, std::vector<DataSourceInstanceID>> data_source_instances;
+
+ for (const auto& [producer_id, ds_inst] : session->data_source_instances) {
+ // TODO(ddiproietto): Consider if we should skip instances if ds_inst.state
+ // != DataSourceInstance::STARTED
+ if (ds_inst.no_flush) {
+ continue;
+ }
+ if (!bufs.count(static_cast<BufferID>(ds_inst.config.target_buffer()))) {
+ continue;
+ }
+ data_source_instances[producer_id].push_back(ds_inst.instance_id);
+ }
+
+ return data_source_instances;
+}
+
+void TracingServiceImpl::OnFlushDoneForClone(TracingSessionID tsid,
+ PendingCloneID clone_id,
+ const std::set<BufferID>& buf_ids,
+ bool final_flush_outcome) {
+ TracingSession* src = GetTracingSession(tsid);
+ // The session might be gone by the time we try to clone it.
+ if (!src) {
+ return;
+ }
+
+ auto it = src->pending_clones.find(clone_id);
+ if (it == src->pending_clones.end()) {
+ return;
+ }
+ auto& clone_op = it->second;
+
+ if (final_flush_outcome == false) {
+ clone_op.flush_failed = true;
+ }
+
+ base::Status result;
+ base::Uuid uuid;
+
+ // First clone the flushed TraceBuffer(s). This can fail because of ENOMEM. If
+ // it happens bail out early before creating any session.
+ if (!DoCloneBuffers(src, buf_ids, &clone_op.buffers)) {
+ result = PERFETTO_SVC_ERR("Buffer allocation failed");
+ }
+
+ if (result.ok()) {
+ UpdateMemoryGuardrail();
+
+ if (--clone_op.pending_flush_cnt != 0) {
+ // Wait for more pending flushes.
+ return;
+ }
+
+ PERFETTO_LOG("FlushAndCloneSession(%" PRIu64 ") started, success=%d", tsid,
+ final_flush_outcome);
+
+ if (clone_op.weak_consumer) {
+ result = FinishCloneSession(
+ &*clone_op.weak_consumer, tsid, std::move(clone_op.buffers),
+ clone_op.skip_trace_filter, !clone_op.flush_failed, &uuid);
+ }
+ } // if (result.ok())
+
+ if (clone_op.weak_consumer) {
+ clone_op.weak_consumer->consumer_->OnSessionCloned(
+ {result.ok(), result.message(), uuid});
+ }
+
+ src->pending_clones.erase(it);
+ UpdateMemoryGuardrail();
+}
+
+bool TracingServiceImpl::DoCloneBuffers(
+ TracingSession* src,
+ const std::set<BufferID>& buf_ids,
+ std::vector<std::unique_ptr<TraceBuffer>>* buf_snaps) {
+ PERFETTO_DCHECK(src->num_buffers() == src->config.buffers().size());
+ buf_snaps->resize(src->buffers_index.size());
+
+ for (size_t buf_idx = 0; buf_idx < src->buffers_index.size(); buf_idx++) {
+ BufferID src_buf_id = src->buffers_index[buf_idx];
+ if (buf_ids.count(src_buf_id) == 0)
+ continue;
+ auto buf_iter = buffers_.find(src_buf_id);
+ PERFETTO_CHECK(buf_iter != buffers_.end());
+ std::unique_ptr<TraceBuffer>& src_buf = buf_iter->second;
+ std::unique_ptr<TraceBuffer> new_buf;
+ if (src->config.buffers()[buf_idx].transfer_on_clone()) {
+ const auto buf_policy = src_buf->overwrite_policy();
+ const auto buf_size = src_buf->size();
+ new_buf = std::move(src_buf);
+ src_buf = TraceBuffer::Create(buf_size, buf_policy);
+ if (!src_buf) {
+ // If the allocation fails put the buffer back and let the code below
+ // handle the failure gracefully.
+ src_buf = std::move(new_buf);
+ }
+ } else {
+ new_buf = src_buf->CloneReadOnly();
+ }
+ if (!new_buf.get()) {
+ return false;
+ }
+ (*buf_snaps)[buf_idx] = std::move(new_buf);
+ }
+ return true;
+}
+
+base::Status TracingServiceImpl::FinishCloneSession(
+ ConsumerEndpointImpl* consumer,
+ TracingSessionID src_tsid,
+ std::vector<std::unique_ptr<TraceBuffer>> buf_snaps,
+ bool skip_trace_filter,
+ bool final_flush_outcome,
+ base::Uuid* new_uuid) {
+ PERFETTO_DLOG("CloneSession(%" PRIu64
+ ", skip_trace_filter=%d) started, consumer uid: %d",
+ src_tsid, skip_trace_filter, static_cast<int>(consumer->uid_));
+
+ TracingSession* src = GetTracingSession(src_tsid);
+
+ // The session might be gone by the time we try to clone it.
+ if (!src)
+ return PERFETTO_SVC_ERR("session not found");
+
+ if (consumer->tracing_session_id_) {
+ return PERFETTO_SVC_ERR(
+ "The consumer is already attached to another tracing session");
+ }
+
+ // Skip the UID check for sessions marked with a bugreport_score > 0.
+ // Those sessions, by design, can be stolen by any other consumer for the
+ // sake of creating snapshots for bugreports.
+ if (!src->IsCloneAllowed(consumer->uid_)) {
+ return PERFETTO_SVC_ERR("Not allowed to clone a session from another UID");
+ }
+
+ std::vector<BufferID> buf_ids =
+ buffer_ids_.AllocateMultiple(buf_snaps.size());
+ if (buf_ids.size() != buf_snaps.size()) {
+ return PERFETTO_SVC_ERR("Buffer id allocation failed");
+ }
+
+ PERFETTO_CHECK(std::none_of(
+ buf_snaps.begin(), buf_snaps.end(),
+ [](const std::unique_ptr<TraceBuffer>& buf) { return buf == nullptr; }));
+
+ const TracingSessionID tsid = ++last_tracing_session_id_;
+ TracingSession* cloned_session =
+ &tracing_sessions_
+ .emplace(
+ std::piecewise_construct, std::forward_as_tuple(tsid),
+ std::forward_as_tuple(tsid, consumer, src->config, task_runner_))
+ .first->second;
+
+ // Generate a new UUID for the cloned session, but preserve the LSB. In some
+ // contexts the LSB is used to tie the trace back to the statsd subscription
+ // that triggered it. See the corresponding code in perfetto_cmd.cc which
+ // reads at triggering_subscription_id().
+ const int64_t orig_uuid_lsb = src->trace_uuid.lsb();
+ cloned_session->state = TracingSession::CLONED_READ_ONLY;
+ cloned_session->trace_uuid = base::Uuidv4();
+ cloned_session->trace_uuid.set_lsb(orig_uuid_lsb);
+ *new_uuid = cloned_session->trace_uuid;
+
+ for (size_t i = 0; i < buf_snaps.size(); i++) {
+ BufferID buf_global_id = buf_ids[i];
+ std::unique_ptr<TraceBuffer>& buf = buf_snaps[i];
+ // This is only needed for transfer_on_clone. Other buffers are already
+ // marked as read-only by CloneReadOnly(). We cannot do this early because
+ // in case of an allocation failure we will put std::move() the original
+ // buffer back in its place and in that case should not be made read-only.
+ buf->set_read_only();
+ buffers_.emplace(buf_global_id, std::move(buf));
+ cloned_session->buffers_index.emplace_back(buf_global_id);
+ }
+ UpdateMemoryGuardrail();
+
+ // Copy over relevant state that we want to persist in the cloned session.
+ // Mostly stats and metadata that is emitted in the trace file by the service.
+ // Also clear the received trigger list in the main tracing session. A
+ // CLONE_SNAPSHOT session can go in ring buffer mode for several hours and get
+ // snapshotted several times. This causes two issues with `received_triggers`:
+ // 1. Adding noise in the cloned trace emitting triggers that happened too
+ // far back (see b/290799105).
+ // 2. Bloating memory (see b/290798988).
+ cloned_session->should_emit_stats = true;
+ cloned_session->received_triggers = std::move(src->received_triggers);
+ src->received_triggers.clear();
+ src->num_triggers_emitted_into_trace = 0;
+ cloned_session->lifecycle_events =
+ std::vector<TracingSession::LifecycleEvent>(src->lifecycle_events);
+ cloned_session->initial_clock_snapshot = src->initial_clock_snapshot;
+ cloned_session->clock_snapshot_ring_buffer = src->clock_snapshot_ring_buffer;
+ cloned_session->invalid_packets = src->invalid_packets;
+ cloned_session->flushes_requested = src->flushes_requested;
+ cloned_session->flushes_succeeded = src->flushes_succeeded;
+ cloned_session->flushes_failed = src->flushes_failed;
+ cloned_session->compress_deflate = src->compress_deflate;
+ if (src->trace_filter && !skip_trace_filter) {
+ // Copy the trace filter, unless it's a clone-for-bugreport (b/317065412).
+ cloned_session->trace_filter.reset(
+ new protozero::MessageFilter(src->trace_filter->config()));
+ }
+
+ SnapshotLifecyleEvent(
+ cloned_session,
+ protos::pbzero::TracingServiceEvent::kTracingDisabledFieldNumber,
+ true /* snapshot_clocks */);
+
+ PERFETTO_DLOG("Consumer (uid:%d) cloned tracing session %" PRIu64
+ " -> %" PRIu64,
+ static_cast<int>(consumer->uid_), src_tsid, tsid);
+
+ consumer->tracing_session_id_ = tsid;
+ cloned_session->final_flush_outcome = final_flush_outcome
+ ? TraceStats::FINAL_FLUSH_SUCCEEDED
+ : TraceStats::FINAL_FLUSH_FAILED;
+ return base::OkStatus();
+}
+
+bool TracingServiceImpl::TracingSession::IsCloneAllowed(uid_t clone_uid) const {
+ if (clone_uid == 0)
+ return true; // Root is always allowed to clone everything.
+ if (clone_uid == this->consumer_uid)
+ return true; // Allow cloning if the uids match.
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID)
+ // On Android allow shell to clone sessions marked as exported for bugreport.
+ // Dumpstate (invoked by adb bugreport) invokes commands as shell.
+ if (clone_uid == AID_SHELL && this->config.bugreport_score() > 0)
+ return true;
+#endif
+ return false;
+}
+
+////////////////////////////////////////////////////////////////////////////////
+// TracingServiceImpl::ConsumerEndpointImpl implementation
+////////////////////////////////////////////////////////////////////////////////
+
+TracingServiceImpl::ConsumerEndpointImpl::ConsumerEndpointImpl(
+ TracingServiceImpl* service,
+ base::TaskRunner* task_runner,
+ Consumer* consumer,
+ uid_t uid)
+ : task_runner_(task_runner),
+ service_(service),
+ consumer_(consumer),
+ uid_(uid),
+ weak_ptr_factory_(this) {}
+
+TracingServiceImpl::ConsumerEndpointImpl::~ConsumerEndpointImpl() {
+ service_->DisconnectConsumer(this);
+ consumer_->OnDisconnect();
+}
+
+void TracingServiceImpl::ConsumerEndpointImpl::NotifyOnTracingDisabled(
+ const std::string& error) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ auto weak_this = weak_ptr_factory_.GetWeakPtr();
+ task_runner_->PostTask([weak_this, error /* deliberate copy */] {
+ if (weak_this)
+ weak_this->consumer_->OnTracingDisabled(error);
+ });
+}
+
+void TracingServiceImpl::ConsumerEndpointImpl::EnableTracing(
+ const TraceConfig& cfg,
+ base::ScopedFile fd) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ auto status = service_->EnableTracing(this, cfg, std::move(fd));
+ if (!status.ok())
+ NotifyOnTracingDisabled(status.message());
+}
+
+void TracingServiceImpl::ConsumerEndpointImpl::ChangeTraceConfig(
+ const TraceConfig& cfg) {
+ if (!tracing_session_id_) {
+ PERFETTO_LOG(
+ "Consumer called ChangeTraceConfig() but tracing was "
+ "not active");
+ return;
+ }
+ service_->ChangeTraceConfig(this, cfg);
+}
+
+void TracingServiceImpl::ConsumerEndpointImpl::StartTracing() {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ if (!tracing_session_id_) {
+ PERFETTO_LOG("Consumer called StartTracing() but tracing was not active");
+ return;
+ }
+ service_->StartTracing(tracing_session_id_);
+}
+
+void TracingServiceImpl::ConsumerEndpointImpl::DisableTracing() {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ if (!tracing_session_id_) {
+ PERFETTO_LOG("Consumer called DisableTracing() but tracing was not active");
+ return;
+ }
+ service_->DisableTracing(tracing_session_id_);
+}
+
+void TracingServiceImpl::ConsumerEndpointImpl::ReadBuffers() {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ if (!tracing_session_id_) {
+ PERFETTO_LOG("Consumer called ReadBuffers() but tracing was not active");
+ consumer_->OnTraceData({}, /* has_more = */ false);
+ return;
+ }
+ if (!service_->ReadBuffersIntoConsumer(tracing_session_id_, this)) {
+ consumer_->OnTraceData({}, /* has_more = */ false);
+ }
+}
+
+void TracingServiceImpl::ConsumerEndpointImpl::FreeBuffers() {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ if (!tracing_session_id_) {
+ PERFETTO_LOG("Consumer called FreeBuffers() but tracing was not active");
+ return;
+ }
+ service_->FreeBuffers(tracing_session_id_);
+ tracing_session_id_ = 0;
+}
+
+void TracingServiceImpl::ConsumerEndpointImpl::Flush(uint32_t timeout_ms,
+ FlushCallback callback,
+ FlushFlags flush_flags) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ if (!tracing_session_id_) {
+ PERFETTO_LOG("Consumer called Flush() but tracing was not active");
+ return;
+ }
+ service_->Flush(tracing_session_id_, timeout_ms, callback, flush_flags);
+}
+
+void TracingServiceImpl::ConsumerEndpointImpl::Detach(const std::string& key) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ bool success = service_->DetachConsumer(this, key);
+ auto weak_this = weak_ptr_factory_.GetWeakPtr();
+ task_runner_->PostTask([weak_this, success] {
+ if (weak_this)
+ weak_this->consumer_->OnDetach(success);
+ });
+}
+
+void TracingServiceImpl::ConsumerEndpointImpl::Attach(const std::string& key) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ bool success = service_->AttachConsumer(this, key);
+ auto weak_this = weak_ptr_factory_.GetWeakPtr();
+ task_runner_->PostTask([weak_this, success] {
+ if (!weak_this)
+ return;
+ Consumer* consumer = weak_this->consumer_;
+ TracingSession* session =
+ weak_this->service_->GetTracingSession(weak_this->tracing_session_id_);
+ if (!session) {
+ consumer->OnAttach(false, TraceConfig());
+ return;
+ }
+ consumer->OnAttach(success, session->config);
+ });
+}
+
+void TracingServiceImpl::ConsumerEndpointImpl::GetTraceStats() {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ bool success = false;
+ TraceStats stats;
+ TracingSession* session = service_->GetTracingSession(tracing_session_id_);
+ if (session) {
+ success = true;
+ stats = service_->GetTraceStats(session);
+ }
+ auto weak_this = weak_ptr_factory_.GetWeakPtr();
+ task_runner_->PostTask([weak_this, success, stats] {
+ if (weak_this)
+ weak_this->consumer_->OnTraceStats(success, stats);
+ });
+}
+
+void TracingServiceImpl::ConsumerEndpointImpl::ObserveEvents(
+ uint32_t events_mask) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ observable_events_mask_ = events_mask;
+ TracingSession* session = service_->GetTracingSession(tracing_session_id_);
+ if (!session)
+ return;
+
+ if (observable_events_mask_ & ObservableEvents::TYPE_DATA_SOURCES_INSTANCES) {
+ // Issue initial states.
+ for (const auto& kv : session->data_source_instances) {
+ ProducerEndpointImpl* producer = service_->GetProducer(kv.first);
+ PERFETTO_DCHECK(producer);
+ OnDataSourceInstanceStateChange(*producer, kv.second);
+ }
+ }
+
+ // If the ObserveEvents() call happens after data sources have acked already
+ // notify immediately.
+ if (observable_events_mask_ &
+ ObservableEvents::TYPE_ALL_DATA_SOURCES_STARTED) {
+ service_->MaybeNotifyAllDataSourcesStarted(session);
+ }
+}
+
+void TracingServiceImpl::ConsumerEndpointImpl::OnDataSourceInstanceStateChange(
+ const ProducerEndpointImpl& producer,
+ const DataSourceInstance& instance) {
+ if (!(observable_events_mask_ &
+ ObservableEvents::TYPE_DATA_SOURCES_INSTANCES)) {
+ return;
+ }
+
+ if (instance.state != DataSourceInstance::CONFIGURED &&
+ instance.state != DataSourceInstance::STARTED &&
+ instance.state != DataSourceInstance::STOPPED) {
+ return;
+ }
+
+ auto* observable_events = AddObservableEvents();
+ auto* change = observable_events->add_instance_state_changes();
+ change->set_producer_name(producer.name_);
+ change->set_data_source_name(instance.data_source_name);
+ if (instance.state == DataSourceInstance::STARTED) {
+ change->set_state(ObservableEvents::DATA_SOURCE_INSTANCE_STATE_STARTED);
+ } else {
+ change->set_state(ObservableEvents::DATA_SOURCE_INSTANCE_STATE_STOPPED);
+ }
+}
+
+void TracingServiceImpl::ConsumerEndpointImpl::OnAllDataSourcesStarted() {
+ if (!(observable_events_mask_ &
+ ObservableEvents::TYPE_ALL_DATA_SOURCES_STARTED)) {
+ return;
+ }
+ auto* observable_events = AddObservableEvents();
+ observable_events->set_all_data_sources_started(true);
+}
+
+void TracingServiceImpl::ConsumerEndpointImpl::NotifyCloneSnapshotTrigger() {
+ if (!(observable_events_mask_ & ObservableEvents::TYPE_CLONE_TRIGGER_HIT)) {
+ return;
+ }
+ auto* observable_events = AddObservableEvents();
+ auto* clone_trig = observable_events->mutable_clone_trigger_hit();
+ clone_trig->set_tracing_session_id(static_cast<int64_t>(tracing_session_id_));
+}
+
+ObservableEvents*
+TracingServiceImpl::ConsumerEndpointImpl::AddObservableEvents() {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ if (!observable_events_) {
+ observable_events_.reset(new ObservableEvents());
+ auto weak_this = weak_ptr_factory_.GetWeakPtr();
+ task_runner_->PostTask([weak_this] {
+ if (!weak_this)
+ return;
+
+ // Move into a temporary to allow reentrancy in OnObservableEvents.
+ auto observable_events = std::move(weak_this->observable_events_);
+ weak_this->consumer_->OnObservableEvents(*observable_events);
+ });
+ }
+ return observable_events_.get();
+}
+
+void TracingServiceImpl::ConsumerEndpointImpl::QueryServiceState(
+ QueryServiceStateArgs args,
+ QueryServiceStateCallback callback) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ TracingServiceState svc_state;
+
+ const auto& sessions = service_->tracing_sessions_;
+ svc_state.set_tracing_service_version(base::GetVersionString());
+ svc_state.set_num_sessions(static_cast<int>(sessions.size()));
+
+ int num_started = 0;
+ for (const auto& kv : sessions)
+ num_started += kv.second.state == TracingSession::State::STARTED ? 1 : 0;
+ svc_state.set_num_sessions_started(num_started);
+
+ for (const auto& kv : service_->producers_) {
+ if (args.sessions_only)
+ break;
+ auto* producer = svc_state.add_producers();
+ producer->set_id(static_cast<int>(kv.first));
+ producer->set_name(kv.second->name_);
+ producer->set_sdk_version(kv.second->sdk_version_);
+ producer->set_uid(static_cast<int32_t>(kv.second->uid()));
+ producer->set_pid(static_cast<int32_t>(kv.second->pid()));
+ }
+
+ for (const auto& kv : service_->data_sources_) {
+ if (args.sessions_only)
+ break;
+ const auto& registered_data_source = kv.second;
+ auto* data_source = svc_state.add_data_sources();
+ *data_source->mutable_ds_descriptor() = registered_data_source.descriptor;
+ data_source->set_producer_id(
+ static_cast<int>(registered_data_source.producer_id));
+ }
+
+ svc_state.set_supports_tracing_sessions(true);
+ for (const auto& kv : service_->tracing_sessions_) {
+ const TracingSession& s = kv.second;
+ if (!s.IsCloneAllowed(uid_))
+ continue;
+ auto* session = svc_state.add_tracing_sessions();
+ session->set_id(s.id);
+ session->set_consumer_uid(static_cast<int>(s.consumer_uid));
+ session->set_duration_ms(s.config.duration_ms());
+ session->set_num_data_sources(
+ static_cast<uint32_t>(s.data_source_instances.size()));
+ session->set_unique_session_name(s.config.unique_session_name());
+ if (s.config.has_bugreport_score())
+ session->set_bugreport_score(s.config.bugreport_score());
+ if (s.config.has_bugreport_filename())
+ session->set_bugreport_filename(s.config.bugreport_filename());
+ for (const auto& snap_kv : s.initial_clock_snapshot) {
+ if (snap_kv.clock_id == protos::pbzero::BUILTIN_CLOCK_REALTIME)
+ session->set_start_realtime_ns(static_cast<int64_t>(snap_kv.timestamp));
+ }
+ for (const auto& buf : s.config.buffers())
+ session->add_buffer_size_kb(buf.size_kb());
+
+ switch (s.state) {
+ case TracingSession::State::DISABLED:
+ session->set_state("DISABLED");
+ break;
+ case TracingSession::State::CONFIGURED:
+ session->set_state("CONFIGURED");
+ break;
+ case TracingSession::State::STARTED:
+ session->set_is_started(true);
+ session->set_state("STARTED");
+ break;
+ case TracingSession::State::DISABLING_WAITING_STOP_ACKS:
+ session->set_state("STOP_WAIT");
+ break;
+ case TracingSession::State::CLONED_READ_ONLY:
+ session->set_state("CLONED_READ_ONLY");
+ break;
+ }
+ }
+ callback(/*success=*/true, svc_state);
+}
+
+void TracingServiceImpl::ConsumerEndpointImpl::QueryCapabilities(
+ QueryCapabilitiesCallback callback) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ TracingServiceCapabilities caps;
+ caps.set_has_query_capabilities(true);
+ caps.set_has_trace_config_output_path(true);
+ caps.set_has_clone_session(true);
+ caps.add_observable_events(ObservableEvents::TYPE_DATA_SOURCES_INSTANCES);
+ caps.add_observable_events(ObservableEvents::TYPE_ALL_DATA_SOURCES_STARTED);
+ caps.add_observable_events(ObservableEvents::TYPE_CLONE_TRIGGER_HIT);
+ static_assert(
+ ObservableEvents::Type_MAX == ObservableEvents::TYPE_CLONE_TRIGGER_HIT,
+ "");
+ callback(caps);
+}
+
+void TracingServiceImpl::ConsumerEndpointImpl::SaveTraceForBugreport(
+ SaveTraceForBugreportCallback consumer_callback) {
+ consumer_callback(false,
+ "SaveTraceForBugreport is deprecated. Use "
+ "CloneSession(kBugreportSessionId) instead.");
+}
+
+void TracingServiceImpl::ConsumerEndpointImpl::CloneSession(
+ TracingSessionID tsid,
+ CloneSessionArgs args) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ // FlushAndCloneSession will call OnSessionCloned after the async flush.
+ service_->FlushAndCloneSession(this, tsid, args.skip_trace_filter,
+ args.for_bugreport);
+}
+
+////////////////////////////////////////////////////////////////////////////////
+// TracingServiceImpl::ProducerEndpointImpl implementation
+////////////////////////////////////////////////////////////////////////////////
+
+TracingServiceImpl::ProducerEndpointImpl::ProducerEndpointImpl(
+ ProducerID id,
+ const ClientIdentity& client_identity,
+ TracingServiceImpl* service,
+ base::TaskRunner* task_runner,
+ Producer* producer,
+ const std::string& producer_name,
+ const std::string& sdk_version,
+ bool in_process,
+ bool smb_scraping_enabled)
+ : id_(id),
+ client_identity_(client_identity),
+ service_(service),
+ task_runner_(task_runner),
+ producer_(producer),
+ name_(producer_name),
+ sdk_version_(sdk_version),
+ in_process_(in_process),
+ smb_scraping_enabled_(smb_scraping_enabled),
+ weak_ptr_factory_(this) {}
+
+TracingServiceImpl::ProducerEndpointImpl::~ProducerEndpointImpl() {
+ service_->DisconnectProducer(id_);
+ producer_->OnDisconnect();
+}
+
+void TracingServiceImpl::ProducerEndpointImpl::Disconnect() {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ // Disconnection is only supported via destroying the ProducerEndpoint.
+ PERFETTO_FATAL("Not supported");
+}
+
+void TracingServiceImpl::ProducerEndpointImpl::RegisterDataSource(
+ const DataSourceDescriptor& desc) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ service_->RegisterDataSource(id_, desc);
+}
+
+void TracingServiceImpl::ProducerEndpointImpl::UpdateDataSource(
+ const DataSourceDescriptor& desc) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ service_->UpdateDataSource(id_, desc);
+}
+
+void TracingServiceImpl::ProducerEndpointImpl::UnregisterDataSource(
+ const std::string& name) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ service_->UnregisterDataSource(id_, name);
+}
+
+void TracingServiceImpl::ProducerEndpointImpl::RegisterTraceWriter(
+ uint32_t writer_id,
+ uint32_t target_buffer) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ writers_[static_cast<WriterID>(writer_id)] =
+ static_cast<BufferID>(target_buffer);
+}
+
+void TracingServiceImpl::ProducerEndpointImpl::UnregisterTraceWriter(
+ uint32_t writer_id) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ writers_.erase(static_cast<WriterID>(writer_id));
+}
+
+void TracingServiceImpl::ProducerEndpointImpl::CommitData(
+ const CommitDataRequest& req_untrusted,
+ CommitDataCallback callback) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+
+ if (metatrace::IsEnabled(metatrace::TAG_TRACE_SERVICE)) {
+ PERFETTO_METATRACE_COUNTER(TAG_TRACE_SERVICE, TRACE_SERVICE_COMMIT_DATA,
+ EncodeCommitDataRequest(id_, req_untrusted));
+ }
+
+ if (!shared_memory_) {
+ PERFETTO_DLOG(
+ "Attempted to commit data before the shared memory was allocated.");
+ return;
+ }
+ PERFETTO_DCHECK(shmem_abi_.is_valid());
+ for (const auto& entry : req_untrusted.chunks_to_move()) {
+ const uint32_t page_idx = entry.page();
+ if (page_idx >= shmem_abi_.num_pages())
+ continue; // A buggy or malicious producer.
+
+ SharedMemoryABI::Chunk chunk;
+ bool commit_data_over_ipc = entry.has_data();
+ if (PERFETTO_UNLIKELY(commit_data_over_ipc)) {
+ // Chunk data is passed over the wire. Create a chunk using the serialized
+ // protobuf message.
+ const std::string& data = entry.data();
+ if (data.size() > SharedMemoryABI::Chunk::kMaxSize) {
+ PERFETTO_DFATAL("IPC data commit too large: %zu", data.size());
+ continue; // A malicious or buggy producer
+ }
+ // |data| is not altered, but we need to const_cast becasue Chunk data
+ // members are non-const.
+ chunk = SharedMemoryABI::MakeChunkFromSerializedData(
+ reinterpret_cast<uint8_t*>(const_cast<char*>(data.data())),
+ static_cast<uint16_t>(entry.data().size()),
+ static_cast<uint8_t>(entry.chunk()));
+ } else
+ chunk = shmem_abi_.TryAcquireChunkForReading(page_idx, entry.chunk());
+ if (!chunk.is_valid()) {
+ PERFETTO_DLOG("Asked to move chunk %d:%d, but it's not complete",
+ entry.page(), entry.chunk());
+ continue;
+ }
+
+ // TryAcquireChunkForReading() has load-acquire semantics. Once acquired,
+ // the ABI contract expects the producer to not touch the chunk anymore
+ // (until the service marks that as free). This is why all the reads below
+ // are just memory_order_relaxed. Also, the code here assumes that all this
+ // data can be malicious and just gives up if anything is malformed.
+ BufferID buffer_id = static_cast<BufferID>(entry.target_buffer());
+ const SharedMemoryABI::ChunkHeader& chunk_header = *chunk.header();
+ WriterID writer_id = chunk_header.writer_id.load(std::memory_order_relaxed);
+ ChunkID chunk_id = chunk_header.chunk_id.load(std::memory_order_relaxed);
+ auto packets = chunk_header.packets.load(std::memory_order_relaxed);
+ uint16_t num_fragments = packets.count;
+ uint8_t chunk_flags = packets.flags;
+
+ service_->CopyProducerPageIntoLogBuffer(
+ id_, client_identity_, writer_id, chunk_id, buffer_id, num_fragments,
+ chunk_flags,
+ /*chunk_complete=*/true, chunk.payload_begin(), chunk.payload_size());
+
+ if (!commit_data_over_ipc) {
+ // This one has release-store semantics.
+ shmem_abi_.ReleaseChunkAsFree(std::move(chunk));
+ }
+ } // for(chunks_to_move)
+
+ service_->ApplyChunkPatches(id_, req_untrusted.chunks_to_patch());
+
+ if (req_untrusted.flush_request_id()) {
+ service_->NotifyFlushDoneForProducer(id_, req_untrusted.flush_request_id());
+ }
+
+ // Keep this invocation last. ProducerIPCService::CommitData() relies on this
+ // callback being invoked within the same callstack and not posted. If this
+ // changes, the code there needs to be changed accordingly.
+ if (callback)
+ callback();
+}
+
+void TracingServiceImpl::ProducerEndpointImpl::SetupSharedMemory(
+ std::unique_ptr<SharedMemory> shared_memory,
+ size_t page_size_bytes,
+ bool provided_by_producer) {
+ PERFETTO_DCHECK(!shared_memory_ && !shmem_abi_.is_valid());
+ PERFETTO_DCHECK(page_size_bytes % 1024 == 0);
+
+ shared_memory_ = std::move(shared_memory);
+ shared_buffer_page_size_kb_ = page_size_bytes / 1024;
+ is_shmem_provided_by_producer_ = provided_by_producer;
+
+ shmem_abi_.Initialize(reinterpret_cast<uint8_t*>(shared_memory_->start()),
+ shared_memory_->size(),
+ shared_buffer_page_size_kb() * 1024,
+ SharedMemoryABI::ShmemMode::kDefault);
+ if (in_process_) {
+ inproc_shmem_arbiter_.reset(new SharedMemoryArbiterImpl(
+ shared_memory_->start(), shared_memory_->size(),
+ SharedMemoryABI::ShmemMode::kDefault,
+ shared_buffer_page_size_kb_ * 1024, this, task_runner_));
+ inproc_shmem_arbiter_->SetDirectSMBPatchingSupportedByService();
+ }
+
+ OnTracingSetup();
+ service_->UpdateMemoryGuardrail();
+}
+
+SharedMemory* TracingServiceImpl::ProducerEndpointImpl::shared_memory() const {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ return shared_memory_.get();
+}
+
+size_t TracingServiceImpl::ProducerEndpointImpl::shared_buffer_page_size_kb()
+ const {
+ return shared_buffer_page_size_kb_;
+}
+
+void TracingServiceImpl::ProducerEndpointImpl::ActivateTriggers(
+ const std::vector<std::string>& triggers) {
+ service_->ActivateTriggers(id_, triggers);
+}
+
+void TracingServiceImpl::ProducerEndpointImpl::StopDataSource(
+ DataSourceInstanceID ds_inst_id) {
+ // TODO(primiano): When we'll support tearing down the SMB, at this point we
+ // should send the Producer a TearDownTracing if all its data sources have
+ // been disabled (see b/77532839 and aosp/655179 PS1).
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ auto weak_this = weak_ptr_factory_.GetWeakPtr();
+ task_runner_->PostTask([weak_this, ds_inst_id] {
+ if (weak_this)
+ weak_this->producer_->StopDataSource(ds_inst_id);
+ });
+}
+
+SharedMemoryArbiter*
+TracingServiceImpl::ProducerEndpointImpl::MaybeSharedMemoryArbiter() {
+ if (!inproc_shmem_arbiter_) {
+ PERFETTO_FATAL(
+ "The in-process SharedMemoryArbiter can only be used when "
+ "CreateProducer has been called with in_process=true and after tracing "
+ "has started.");
+ }
+
+ PERFETTO_DCHECK(in_process_);
+ return inproc_shmem_arbiter_.get();
+}
+
+bool TracingServiceImpl::ProducerEndpointImpl::IsShmemProvidedByProducer()
+ const {
+ return is_shmem_provided_by_producer_;
+}
+
+// Can be called on any thread.
+std::unique_ptr<TraceWriter>
+TracingServiceImpl::ProducerEndpointImpl::CreateTraceWriter(
+ BufferID buf_id,
+ BufferExhaustedPolicy buffer_exhausted_policy) {
+ PERFETTO_DCHECK(MaybeSharedMemoryArbiter());
+ return MaybeSharedMemoryArbiter()->CreateTraceWriter(buf_id,
+ buffer_exhausted_policy);
+}
+
+void TracingServiceImpl::ProducerEndpointImpl::NotifyFlushComplete(
+ FlushRequestID id) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ PERFETTO_DCHECK(MaybeSharedMemoryArbiter());
+ return MaybeSharedMemoryArbiter()->NotifyFlushComplete(id);
+}
+
+void TracingServiceImpl::ProducerEndpointImpl::OnTracingSetup() {
+ auto weak_this = weak_ptr_factory_.GetWeakPtr();
+ task_runner_->PostTask([weak_this] {
+ if (weak_this)
+ weak_this->producer_->OnTracingSetup();
+ });
+}
+
+void TracingServiceImpl::ProducerEndpointImpl::Flush(
+ FlushRequestID flush_request_id,
+ const std::vector<DataSourceInstanceID>& data_sources,
+ FlushFlags flush_flags) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ auto weak_this = weak_ptr_factory_.GetWeakPtr();
+ task_runner_->PostTask(
+ [weak_this, flush_request_id, data_sources, flush_flags] {
+ if (weak_this) {
+ weak_this->producer_->Flush(flush_request_id, data_sources.data(),
+ data_sources.size(), flush_flags);
+ }
+ });
+}
+
+void TracingServiceImpl::ProducerEndpointImpl::SetupDataSource(
+ DataSourceInstanceID ds_id,
+ const DataSourceConfig& config) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ allowed_target_buffers_.insert(static_cast<BufferID>(config.target_buffer()));
+ auto weak_this = weak_ptr_factory_.GetWeakPtr();
+ task_runner_->PostTask([weak_this, ds_id, config] {
+ if (weak_this)
+ weak_this->producer_->SetupDataSource(ds_id, std::move(config));
+ });
+}
+
+void TracingServiceImpl::ProducerEndpointImpl::StartDataSource(
+ DataSourceInstanceID ds_id,
+ const DataSourceConfig& config) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ auto weak_this = weak_ptr_factory_.GetWeakPtr();
+ task_runner_->PostTask([weak_this, ds_id, config] {
+ if (weak_this)
+ weak_this->producer_->StartDataSource(ds_id, std::move(config));
+ });
+}
+
+void TracingServiceImpl::ProducerEndpointImpl::NotifyDataSourceStarted(
+ DataSourceInstanceID data_source_id) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ service_->NotifyDataSourceStarted(id_, data_source_id);
+}
+
+void TracingServiceImpl::ProducerEndpointImpl::NotifyDataSourceStopped(
+ DataSourceInstanceID data_source_id) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ service_->NotifyDataSourceStopped(id_, data_source_id);
+}
+
+void TracingServiceImpl::ProducerEndpointImpl::OnFreeBuffers(
+ const std::vector<BufferID>& target_buffers) {
+ if (allowed_target_buffers_.empty())
+ return;
+ for (BufferID buffer : target_buffers)
+ allowed_target_buffers_.erase(buffer);
+}
+
+void TracingServiceImpl::ProducerEndpointImpl::ClearIncrementalState(
+ const std::vector<DataSourceInstanceID>& data_sources) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ auto weak_this = weak_ptr_factory_.GetWeakPtr();
+ task_runner_->PostTask([weak_this, data_sources] {
+ if (weak_this) {
+ base::StringView producer_name(weak_this->name_);
+ weak_this->producer_->ClearIncrementalState(data_sources.data(),
+ data_sources.size());
+ }
+ });
+}
+
+void TracingServiceImpl::ProducerEndpointImpl::Sync(
+ std::function<void()> callback) {
+ task_runner_->PostTask(callback);
+}
+
+////////////////////////////////////////////////////////////////////////////////
+// TracingServiceImpl::TracingSession implementation
+////////////////////////////////////////////////////////////////////////////////
+
+TracingServiceImpl::TracingSession::TracingSession(
+ TracingSessionID session_id,
+ ConsumerEndpointImpl* consumer,
+ const TraceConfig& new_config,
+ base::TaskRunner* task_runner)
+ : id(session_id),
+ consumer_maybe_null(consumer),
+ consumer_uid(consumer->uid_),
+ config(new_config),
+ snapshot_periodic_task(task_runner),
+ timed_stop_task(task_runner) {
+ // all_data_sources_flushed is special because we store up to 64 events of
+ // this type. Other events will go through the default case in
+ // SnapshotLifecycleEvent() where they will be given a max history of 1.
+ lifecycle_events.emplace_back(
+ protos::pbzero::TracingServiceEvent::kAllDataSourcesFlushedFieldNumber,
+ 64 /* max_size */);
+}
+
+////////////////////////////////////////////////////////////////////////////////
+// TracingServiceImpl::RelayEndpointImpl implementation
+////////////////////////////////////////////////////////////////////////////////
+TracingServiceImpl::RelayEndpointImpl::RelayEndpointImpl(
+ RelayClientID relay_client_id,
+ TracingServiceImpl* service)
+ : relay_client_id_(relay_client_id), service_(service) {}
+TracingServiceImpl::RelayEndpointImpl::~RelayEndpointImpl() = default;
+
+void TracingServiceImpl::RelayEndpointImpl::SyncClocks(
+ SyncMode sync_mode,
+ ClockSnapshotVector client_clocks,
+ ClockSnapshotVector host_clocks) {
+ // We keep only the most recent 5 clock sync snapshots.
+ static constexpr size_t kNumSyncClocks = 5;
+ if (synced_clocks_.size() >= kNumSyncClocks)
+ synced_clocks_.pop_front();
+
+ synced_clocks_.emplace_back(sync_mode, std::move(client_clocks),
+ std::move(host_clocks));
+}
+
+void TracingServiceImpl::RelayEndpointImpl::Disconnect() {
+ service_->DisconnectRelayClient(relay_client_id_);
+}
+
+} // namespace perfetto
+// gen_amalgamated begin source: src/tracing/internal/in_process_tracing_backend.cc
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/tracing/internal/in_process_tracing_backend.h"
+
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/base/task_runner.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/paged_memory.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/client_identity.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/shared_memory.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/tracing_service.h"
+
+// gen_amalgamated expanded: #include "src/tracing/core/in_process_shared_memory.h"
+
+// TODO(primiano): When the in-process backend is used, we should never end up
+// in a situation where the thread where the TracingService and Producer live
+// writes a packet and hence can get into the GetNewChunk() stall.
+// This would happen only if the API client code calls Trace() from one of the
+// callbacks it receives (e.g. OnStart(), OnStop()). We should either cause a
+// hard crash or ignore traces from that thread if that happens, because it
+// will deadlock (the Service will never free up the SMB because won't ever get
+// to run the task).
+
+namespace perfetto {
+namespace internal {
+
+// static
+TracingBackend* InProcessTracingBackend::GetInstance() {
+ static auto* instance = new InProcessTracingBackend();
+ return instance;
+}
+
+InProcessTracingBackend::InProcessTracingBackend() = default;
+InProcessTracingBackend::~InProcessTracingBackend() = default;
+
+std::unique_ptr<ProducerEndpoint> InProcessTracingBackend::ConnectProducer(
+ const ConnectProducerArgs& args) {
+ PERFETTO_DCHECK(args.task_runner->RunsTasksOnCurrentThread());
+ return GetOrCreateService(args.task_runner)
+ ->ConnectProducer(args.producer, ClientIdentity(/*uid=*/0, /*pid=*/0),
+ args.producer_name, args.shmem_size_hint_bytes,
+ /*in_process=*/true,
+ TracingService::ProducerSMBScrapingMode::kEnabled,
+ args.shmem_page_size_hint_bytes);
+}
+
+std::unique_ptr<ConsumerEndpoint> InProcessTracingBackend::ConnectConsumer(
+ const ConnectConsumerArgs& args) {
+ return GetOrCreateService(args.task_runner)
+ ->ConnectConsumer(args.consumer, /*uid=*/0);
+}
+
+TracingService* InProcessTracingBackend::GetOrCreateService(
+ base::TaskRunner* task_runner) {
+ if (!service_) {
+ std::unique_ptr<InProcessSharedMemory::Factory> shm(
+ new InProcessSharedMemory::Factory());
+ service_ = TracingService::CreateInstance(std::move(shm), task_runner);
+ service_->SetSMBScrapingEnabled(true);
+ }
+ return service_.get();
+}
+
+} // namespace internal
+} // namespace perfetto
+// gen_amalgamated begin source: gen/protos/perfetto/ipc/consumer_port.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/ipc/consumer_port.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/trace_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/data_source_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/system_info/system_info.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/track_event/track_event_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/test_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/sys_stats/sys_stats_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/sys_stats_counters.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/profiling/perf_event_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/perf_events.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/profiling/java_hprof_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/profiling/heapprofd_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/process_stats/process_stats_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/statsd/statsd_tracing_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/statsd/atom_ids.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/power/android_power_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/interceptor_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/interceptors/console_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/inode_file/inode_file_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/gpu/vulkan_memory_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/gpu/gpu_counter_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/ftrace/ftrace_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/etw/etw_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/chrome/v8_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/chrome/chrome_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/surfaceflinger_transactions_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/surfaceflinger_layers_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/protolog_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/protolog_common.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/packages_list_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/network_trace_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/android_sdk_sysprop_guard_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/android_system_property_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/android_polled_state_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/android_log_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/android_log_constants.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/android_input_event_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/android_game_intervention_list_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/builtin_clock.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/trace_stats.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/tracing_service_capabilities.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/observable_events.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/tracing_service_state.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/data_source_descriptor.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/track_event_descriptor.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/gpu_counter_descriptor.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/ftrace_descriptor.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/observable_events.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+CloneSessionResponse::CloneSessionResponse() = default;
+CloneSessionResponse::~CloneSessionResponse() = default;
+CloneSessionResponse::CloneSessionResponse(const CloneSessionResponse&) = default;
+CloneSessionResponse& CloneSessionResponse::operator=(const CloneSessionResponse&) = default;
+CloneSessionResponse::CloneSessionResponse(CloneSessionResponse&&) noexcept = default;
+CloneSessionResponse& CloneSessionResponse::operator=(CloneSessionResponse&&) = default;
+
+bool CloneSessionResponse::operator==(const CloneSessionResponse& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(success_, other.success_)
+ && ::protozero::internal::gen_helpers::EqualsField(error_, other.error_)
+ && ::protozero::internal::gen_helpers::EqualsField(uuid_msb_, other.uuid_msb_)
+ && ::protozero::internal::gen_helpers::EqualsField(uuid_lsb_, other.uuid_lsb_);
+}
+
+bool CloneSessionResponse::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* success */:
+ field.get(&success_);
+ break;
+ case 2 /* error */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &error_);
+ break;
+ case 3 /* uuid_msb */:
+ field.get(&uuid_msb_);
+ break;
+ case 4 /* uuid_lsb */:
+ field.get(&uuid_lsb_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string CloneSessionResponse::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> CloneSessionResponse::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void CloneSessionResponse::Serialize(::protozero::Message* msg) const {
+ // Field 1: success
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(1, success_, msg);
+ }
+
+ // Field 2: error
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeString(2, error_, msg);
+ }
+
+ // Field 3: uuid_msb
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(3, uuid_msb_, msg);
+ }
+
+ // Field 4: uuid_lsb
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(4, uuid_lsb_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+CloneSessionRequest::CloneSessionRequest() = default;
+CloneSessionRequest::~CloneSessionRequest() = default;
+CloneSessionRequest::CloneSessionRequest(const CloneSessionRequest&) = default;
+CloneSessionRequest& CloneSessionRequest::operator=(const CloneSessionRequest&) = default;
+CloneSessionRequest::CloneSessionRequest(CloneSessionRequest&&) noexcept = default;
+CloneSessionRequest& CloneSessionRequest::operator=(CloneSessionRequest&&) = default;
+
+bool CloneSessionRequest::operator==(const CloneSessionRequest& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(session_id_, other.session_id_)
+ && ::protozero::internal::gen_helpers::EqualsField(skip_trace_filter_, other.skip_trace_filter_)
+ && ::protozero::internal::gen_helpers::EqualsField(for_bugreport_, other.for_bugreport_);
+}
+
+bool CloneSessionRequest::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* session_id */:
+ field.get(&session_id_);
+ break;
+ case 2 /* skip_trace_filter */:
+ field.get(&skip_trace_filter_);
+ break;
+ case 3 /* for_bugreport */:
+ field.get(&for_bugreport_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string CloneSessionRequest::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> CloneSessionRequest::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void CloneSessionRequest::Serialize(::protozero::Message* msg) const {
+ // Field 1: session_id
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, session_id_, msg);
+ }
+
+ // Field 2: skip_trace_filter
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(2, skip_trace_filter_, msg);
+ }
+
+ // Field 3: for_bugreport
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(3, for_bugreport_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+SaveTraceForBugreportResponse::SaveTraceForBugreportResponse() = default;
+SaveTraceForBugreportResponse::~SaveTraceForBugreportResponse() = default;
+SaveTraceForBugreportResponse::SaveTraceForBugreportResponse(const SaveTraceForBugreportResponse&) = default;
+SaveTraceForBugreportResponse& SaveTraceForBugreportResponse::operator=(const SaveTraceForBugreportResponse&) = default;
+SaveTraceForBugreportResponse::SaveTraceForBugreportResponse(SaveTraceForBugreportResponse&&) noexcept = default;
+SaveTraceForBugreportResponse& SaveTraceForBugreportResponse::operator=(SaveTraceForBugreportResponse&&) = default;
+
+bool SaveTraceForBugreportResponse::operator==(const SaveTraceForBugreportResponse& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(success_, other.success_)
+ && ::protozero::internal::gen_helpers::EqualsField(msg_, other.msg_);
+}
+
+bool SaveTraceForBugreportResponse::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* success */:
+ field.get(&success_);
+ break;
+ case 2 /* msg */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &msg_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string SaveTraceForBugreportResponse::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> SaveTraceForBugreportResponse::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void SaveTraceForBugreportResponse::Serialize(::protozero::Message* msg) const {
+ // Field 1: success
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(1, success_, msg);
+ }
+
+ // Field 2: msg
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeString(2, msg_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+SaveTraceForBugreportRequest::SaveTraceForBugreportRequest() = default;
+SaveTraceForBugreportRequest::~SaveTraceForBugreportRequest() = default;
+SaveTraceForBugreportRequest::SaveTraceForBugreportRequest(const SaveTraceForBugreportRequest&) = default;
+SaveTraceForBugreportRequest& SaveTraceForBugreportRequest::operator=(const SaveTraceForBugreportRequest&) = default;
+SaveTraceForBugreportRequest::SaveTraceForBugreportRequest(SaveTraceForBugreportRequest&&) noexcept = default;
+SaveTraceForBugreportRequest& SaveTraceForBugreportRequest::operator=(SaveTraceForBugreportRequest&&) = default;
+
+bool SaveTraceForBugreportRequest::operator==(const SaveTraceForBugreportRequest& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_);
+}
+
+bool SaveTraceForBugreportRequest::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string SaveTraceForBugreportRequest::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> SaveTraceForBugreportRequest::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void SaveTraceForBugreportRequest::Serialize(::protozero::Message* msg) const {
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+QueryCapabilitiesResponse::QueryCapabilitiesResponse() = default;
+QueryCapabilitiesResponse::~QueryCapabilitiesResponse() = default;
+QueryCapabilitiesResponse::QueryCapabilitiesResponse(const QueryCapabilitiesResponse&) = default;
+QueryCapabilitiesResponse& QueryCapabilitiesResponse::operator=(const QueryCapabilitiesResponse&) = default;
+QueryCapabilitiesResponse::QueryCapabilitiesResponse(QueryCapabilitiesResponse&&) noexcept = default;
+QueryCapabilitiesResponse& QueryCapabilitiesResponse::operator=(QueryCapabilitiesResponse&&) = default;
+
+bool QueryCapabilitiesResponse::operator==(const QueryCapabilitiesResponse& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(capabilities_, other.capabilities_);
+}
+
+bool QueryCapabilitiesResponse::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* capabilities */:
+ (*capabilities_).ParseFromArray(field.data(), field.size());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string QueryCapabilitiesResponse::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> QueryCapabilitiesResponse::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void QueryCapabilitiesResponse::Serialize(::protozero::Message* msg) const {
+ // Field 1: capabilities
+ if (_has_field_[1]) {
+ (*capabilities_).Serialize(msg->BeginNestedMessage<::protozero::Message>(1));
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+QueryCapabilitiesRequest::QueryCapabilitiesRequest() = default;
+QueryCapabilitiesRequest::~QueryCapabilitiesRequest() = default;
+QueryCapabilitiesRequest::QueryCapabilitiesRequest(const QueryCapabilitiesRequest&) = default;
+QueryCapabilitiesRequest& QueryCapabilitiesRequest::operator=(const QueryCapabilitiesRequest&) = default;
+QueryCapabilitiesRequest::QueryCapabilitiesRequest(QueryCapabilitiesRequest&&) noexcept = default;
+QueryCapabilitiesRequest& QueryCapabilitiesRequest::operator=(QueryCapabilitiesRequest&&) = default;
+
+bool QueryCapabilitiesRequest::operator==(const QueryCapabilitiesRequest& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_);
+}
+
+bool QueryCapabilitiesRequest::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string QueryCapabilitiesRequest::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> QueryCapabilitiesRequest::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void QueryCapabilitiesRequest::Serialize(::protozero::Message* msg) const {
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+QueryServiceStateResponse::QueryServiceStateResponse() = default;
+QueryServiceStateResponse::~QueryServiceStateResponse() = default;
+QueryServiceStateResponse::QueryServiceStateResponse(const QueryServiceStateResponse&) = default;
+QueryServiceStateResponse& QueryServiceStateResponse::operator=(const QueryServiceStateResponse&) = default;
+QueryServiceStateResponse::QueryServiceStateResponse(QueryServiceStateResponse&&) noexcept = default;
+QueryServiceStateResponse& QueryServiceStateResponse::operator=(QueryServiceStateResponse&&) = default;
+
+bool QueryServiceStateResponse::operator==(const QueryServiceStateResponse& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(service_state_, other.service_state_);
+}
+
+bool QueryServiceStateResponse::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* service_state */:
+ (*service_state_).ParseFromArray(field.data(), field.size());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string QueryServiceStateResponse::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> QueryServiceStateResponse::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void QueryServiceStateResponse::Serialize(::protozero::Message* msg) const {
+ // Field 1: service_state
+ if (_has_field_[1]) {
+ (*service_state_).Serialize(msg->BeginNestedMessage<::protozero::Message>(1));
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+QueryServiceStateRequest::QueryServiceStateRequest() = default;
+QueryServiceStateRequest::~QueryServiceStateRequest() = default;
+QueryServiceStateRequest::QueryServiceStateRequest(const QueryServiceStateRequest&) = default;
+QueryServiceStateRequest& QueryServiceStateRequest::operator=(const QueryServiceStateRequest&) = default;
+QueryServiceStateRequest::QueryServiceStateRequest(QueryServiceStateRequest&&) noexcept = default;
+QueryServiceStateRequest& QueryServiceStateRequest::operator=(QueryServiceStateRequest&&) = default;
+
+bool QueryServiceStateRequest::operator==(const QueryServiceStateRequest& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(sessions_only_, other.sessions_only_);
+}
+
+bool QueryServiceStateRequest::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* sessions_only */:
+ field.get(&sessions_only_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string QueryServiceStateRequest::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> QueryServiceStateRequest::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void QueryServiceStateRequest::Serialize(::protozero::Message* msg) const {
+ // Field 1: sessions_only
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(1, sessions_only_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+ObserveEventsResponse::ObserveEventsResponse() = default;
+ObserveEventsResponse::~ObserveEventsResponse() = default;
+ObserveEventsResponse::ObserveEventsResponse(const ObserveEventsResponse&) = default;
+ObserveEventsResponse& ObserveEventsResponse::operator=(const ObserveEventsResponse&) = default;
+ObserveEventsResponse::ObserveEventsResponse(ObserveEventsResponse&&) noexcept = default;
+ObserveEventsResponse& ObserveEventsResponse::operator=(ObserveEventsResponse&&) = default;
+
+bool ObserveEventsResponse::operator==(const ObserveEventsResponse& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(events_, other.events_);
+}
+
+bool ObserveEventsResponse::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* events */:
+ (*events_).ParseFromArray(field.data(), field.size());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string ObserveEventsResponse::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> ObserveEventsResponse::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void ObserveEventsResponse::Serialize(::protozero::Message* msg) const {
+ // Field 1: events
+ if (_has_field_[1]) {
+ (*events_).Serialize(msg->BeginNestedMessage<::protozero::Message>(1));
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+ObserveEventsRequest::ObserveEventsRequest() = default;
+ObserveEventsRequest::~ObserveEventsRequest() = default;
+ObserveEventsRequest::ObserveEventsRequest(const ObserveEventsRequest&) = default;
+ObserveEventsRequest& ObserveEventsRequest::operator=(const ObserveEventsRequest&) = default;
+ObserveEventsRequest::ObserveEventsRequest(ObserveEventsRequest&&) noexcept = default;
+ObserveEventsRequest& ObserveEventsRequest::operator=(ObserveEventsRequest&&) = default;
+
+bool ObserveEventsRequest::operator==(const ObserveEventsRequest& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(events_to_observe_, other.events_to_observe_);
+}
+
+bool ObserveEventsRequest::ParseFromArray(const void* raw, size_t size) {
+ events_to_observe_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* events_to_observe */:
+ events_to_observe_.emplace_back();
+ field.get(&events_to_observe_.back());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string ObserveEventsRequest::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> ObserveEventsRequest::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void ObserveEventsRequest::Serialize(::protozero::Message* msg) const {
+ // Field 1: events_to_observe
+ for (auto& it : events_to_observe_) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, it, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+GetTraceStatsResponse::GetTraceStatsResponse() = default;
+GetTraceStatsResponse::~GetTraceStatsResponse() = default;
+GetTraceStatsResponse::GetTraceStatsResponse(const GetTraceStatsResponse&) = default;
+GetTraceStatsResponse& GetTraceStatsResponse::operator=(const GetTraceStatsResponse&) = default;
+GetTraceStatsResponse::GetTraceStatsResponse(GetTraceStatsResponse&&) noexcept = default;
+GetTraceStatsResponse& GetTraceStatsResponse::operator=(GetTraceStatsResponse&&) = default;
+
+bool GetTraceStatsResponse::operator==(const GetTraceStatsResponse& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(trace_stats_, other.trace_stats_);
+}
+
+bool GetTraceStatsResponse::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* trace_stats */:
+ (*trace_stats_).ParseFromArray(field.data(), field.size());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string GetTraceStatsResponse::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> GetTraceStatsResponse::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void GetTraceStatsResponse::Serialize(::protozero::Message* msg) const {
+ // Field 1: trace_stats
+ if (_has_field_[1]) {
+ (*trace_stats_).Serialize(msg->BeginNestedMessage<::protozero::Message>(1));
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+GetTraceStatsRequest::GetTraceStatsRequest() = default;
+GetTraceStatsRequest::~GetTraceStatsRequest() = default;
+GetTraceStatsRequest::GetTraceStatsRequest(const GetTraceStatsRequest&) = default;
+GetTraceStatsRequest& GetTraceStatsRequest::operator=(const GetTraceStatsRequest&) = default;
+GetTraceStatsRequest::GetTraceStatsRequest(GetTraceStatsRequest&&) noexcept = default;
+GetTraceStatsRequest& GetTraceStatsRequest::operator=(GetTraceStatsRequest&&) = default;
+
+bool GetTraceStatsRequest::operator==(const GetTraceStatsRequest& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_);
+}
+
+bool GetTraceStatsRequest::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string GetTraceStatsRequest::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> GetTraceStatsRequest::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void GetTraceStatsRequest::Serialize(::protozero::Message* msg) const {
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+AttachResponse::AttachResponse() = default;
+AttachResponse::~AttachResponse() = default;
+AttachResponse::AttachResponse(const AttachResponse&) = default;
+AttachResponse& AttachResponse::operator=(const AttachResponse&) = default;
+AttachResponse::AttachResponse(AttachResponse&&) noexcept = default;
+AttachResponse& AttachResponse::operator=(AttachResponse&&) = default;
+
+bool AttachResponse::operator==(const AttachResponse& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(trace_config_, other.trace_config_);
+}
+
+bool AttachResponse::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* trace_config */:
+ (*trace_config_).ParseFromArray(field.data(), field.size());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string AttachResponse::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> AttachResponse::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void AttachResponse::Serialize(::protozero::Message* msg) const {
+ // Field 1: trace_config
+ if (_has_field_[1]) {
+ (*trace_config_).Serialize(msg->BeginNestedMessage<::protozero::Message>(1));
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+AttachRequest::AttachRequest() = default;
+AttachRequest::~AttachRequest() = default;
+AttachRequest::AttachRequest(const AttachRequest&) = default;
+AttachRequest& AttachRequest::operator=(const AttachRequest&) = default;
+AttachRequest::AttachRequest(AttachRequest&&) noexcept = default;
+AttachRequest& AttachRequest::operator=(AttachRequest&&) = default;
+
+bool AttachRequest::operator==(const AttachRequest& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(key_, other.key_);
+}
+
+bool AttachRequest::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* key */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &key_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string AttachRequest::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> AttachRequest::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void AttachRequest::Serialize(::protozero::Message* msg) const {
+ // Field 1: key
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeString(1, key_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+DetachResponse::DetachResponse() = default;
+DetachResponse::~DetachResponse() = default;
+DetachResponse::DetachResponse(const DetachResponse&) = default;
+DetachResponse& DetachResponse::operator=(const DetachResponse&) = default;
+DetachResponse::DetachResponse(DetachResponse&&) noexcept = default;
+DetachResponse& DetachResponse::operator=(DetachResponse&&) = default;
+
+bool DetachResponse::operator==(const DetachResponse& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_);
+}
+
+bool DetachResponse::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string DetachResponse::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> DetachResponse::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void DetachResponse::Serialize(::protozero::Message* msg) const {
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+DetachRequest::DetachRequest() = default;
+DetachRequest::~DetachRequest() = default;
+DetachRequest::DetachRequest(const DetachRequest&) = default;
+DetachRequest& DetachRequest::operator=(const DetachRequest&) = default;
+DetachRequest::DetachRequest(DetachRequest&&) noexcept = default;
+DetachRequest& DetachRequest::operator=(DetachRequest&&) = default;
+
+bool DetachRequest::operator==(const DetachRequest& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(key_, other.key_);
+}
+
+bool DetachRequest::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* key */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &key_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string DetachRequest::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> DetachRequest::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void DetachRequest::Serialize(::protozero::Message* msg) const {
+ // Field 1: key
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeString(1, key_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+FlushResponse::FlushResponse() = default;
+FlushResponse::~FlushResponse() = default;
+FlushResponse::FlushResponse(const FlushResponse&) = default;
+FlushResponse& FlushResponse::operator=(const FlushResponse&) = default;
+FlushResponse::FlushResponse(FlushResponse&&) noexcept = default;
+FlushResponse& FlushResponse::operator=(FlushResponse&&) = default;
+
+bool FlushResponse::operator==(const FlushResponse& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_);
+}
+
+bool FlushResponse::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string FlushResponse::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> FlushResponse::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void FlushResponse::Serialize(::protozero::Message* msg) const {
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+FlushRequest::FlushRequest() = default;
+FlushRequest::~FlushRequest() = default;
+FlushRequest::FlushRequest(const FlushRequest&) = default;
+FlushRequest& FlushRequest::operator=(const FlushRequest&) = default;
+FlushRequest::FlushRequest(FlushRequest&&) noexcept = default;
+FlushRequest& FlushRequest::operator=(FlushRequest&&) = default;
+
+bool FlushRequest::operator==(const FlushRequest& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(timeout_ms_, other.timeout_ms_)
+ && ::protozero::internal::gen_helpers::EqualsField(flags_, other.flags_);
+}
+
+bool FlushRequest::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* timeout_ms */:
+ field.get(&timeout_ms_);
+ break;
+ case 2 /* flags */:
+ field.get(&flags_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string FlushRequest::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> FlushRequest::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void FlushRequest::Serialize(::protozero::Message* msg) const {
+ // Field 1: timeout_ms
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, timeout_ms_, msg);
+ }
+
+ // Field 2: flags
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, flags_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+FreeBuffersResponse::FreeBuffersResponse() = default;
+FreeBuffersResponse::~FreeBuffersResponse() = default;
+FreeBuffersResponse::FreeBuffersResponse(const FreeBuffersResponse&) = default;
+FreeBuffersResponse& FreeBuffersResponse::operator=(const FreeBuffersResponse&) = default;
+FreeBuffersResponse::FreeBuffersResponse(FreeBuffersResponse&&) noexcept = default;
+FreeBuffersResponse& FreeBuffersResponse::operator=(FreeBuffersResponse&&) = default;
+
+bool FreeBuffersResponse::operator==(const FreeBuffersResponse& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_);
+}
+
+bool FreeBuffersResponse::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string FreeBuffersResponse::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> FreeBuffersResponse::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void FreeBuffersResponse::Serialize(::protozero::Message* msg) const {
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+FreeBuffersRequest::FreeBuffersRequest() = default;
+FreeBuffersRequest::~FreeBuffersRequest() = default;
+FreeBuffersRequest::FreeBuffersRequest(const FreeBuffersRequest&) = default;
+FreeBuffersRequest& FreeBuffersRequest::operator=(const FreeBuffersRequest&) = default;
+FreeBuffersRequest::FreeBuffersRequest(FreeBuffersRequest&&) noexcept = default;
+FreeBuffersRequest& FreeBuffersRequest::operator=(FreeBuffersRequest&&) = default;
+
+bool FreeBuffersRequest::operator==(const FreeBuffersRequest& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(buffer_ids_, other.buffer_ids_);
+}
+
+bool FreeBuffersRequest::ParseFromArray(const void* raw, size_t size) {
+ buffer_ids_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* buffer_ids */:
+ buffer_ids_.emplace_back();
+ field.get(&buffer_ids_.back());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string FreeBuffersRequest::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> FreeBuffersRequest::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void FreeBuffersRequest::Serialize(::protozero::Message* msg) const {
+ // Field 1: buffer_ids
+ for (auto& it : buffer_ids_) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, it, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+ReadBuffersResponse::ReadBuffersResponse() = default;
+ReadBuffersResponse::~ReadBuffersResponse() = default;
+ReadBuffersResponse::ReadBuffersResponse(const ReadBuffersResponse&) = default;
+ReadBuffersResponse& ReadBuffersResponse::operator=(const ReadBuffersResponse&) = default;
+ReadBuffersResponse::ReadBuffersResponse(ReadBuffersResponse&&) noexcept = default;
+ReadBuffersResponse& ReadBuffersResponse::operator=(ReadBuffersResponse&&) = default;
+
+bool ReadBuffersResponse::operator==(const ReadBuffersResponse& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(slices_, other.slices_);
+}
+
+int ReadBuffersResponse::slices_size() const { return static_cast<int>(slices_.size()); }
+void ReadBuffersResponse::clear_slices() { slices_.clear(); }
+ReadBuffersResponse_Slice* ReadBuffersResponse::add_slices() { slices_.emplace_back(); return &slices_.back(); }
+bool ReadBuffersResponse::ParseFromArray(const void* raw, size_t size) {
+ slices_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 2 /* slices */:
+ slices_.emplace_back();
+ slices_.back().ParseFromArray(field.data(), field.size());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string ReadBuffersResponse::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> ReadBuffersResponse::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void ReadBuffersResponse::Serialize(::protozero::Message* msg) const {
+ // Field 2: slices
+ for (auto& it : slices_) {
+ it.Serialize(msg->BeginNestedMessage<::protozero::Message>(2));
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+ReadBuffersResponse_Slice::ReadBuffersResponse_Slice() = default;
+ReadBuffersResponse_Slice::~ReadBuffersResponse_Slice() = default;
+ReadBuffersResponse_Slice::ReadBuffersResponse_Slice(const ReadBuffersResponse_Slice&) = default;
+ReadBuffersResponse_Slice& ReadBuffersResponse_Slice::operator=(const ReadBuffersResponse_Slice&) = default;
+ReadBuffersResponse_Slice::ReadBuffersResponse_Slice(ReadBuffersResponse_Slice&&) noexcept = default;
+ReadBuffersResponse_Slice& ReadBuffersResponse_Slice::operator=(ReadBuffersResponse_Slice&&) = default;
+
+bool ReadBuffersResponse_Slice::operator==(const ReadBuffersResponse_Slice& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(data_, other.data_)
+ && ::protozero::internal::gen_helpers::EqualsField(last_slice_for_packet_, other.last_slice_for_packet_);
+}
+
+bool ReadBuffersResponse_Slice::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* data */:
+ field.get(&data_);
+ break;
+ case 2 /* last_slice_for_packet */:
+ field.get(&last_slice_for_packet_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string ReadBuffersResponse_Slice::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> ReadBuffersResponse_Slice::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void ReadBuffersResponse_Slice::Serialize(::protozero::Message* msg) const {
+ // Field 1: data
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeString(1, data_, msg);
+ }
+
+ // Field 2: last_slice_for_packet
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(2, last_slice_for_packet_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+ReadBuffersRequest::ReadBuffersRequest() = default;
+ReadBuffersRequest::~ReadBuffersRequest() = default;
+ReadBuffersRequest::ReadBuffersRequest(const ReadBuffersRequest&) = default;
+ReadBuffersRequest& ReadBuffersRequest::operator=(const ReadBuffersRequest&) = default;
+ReadBuffersRequest::ReadBuffersRequest(ReadBuffersRequest&&) noexcept = default;
+ReadBuffersRequest& ReadBuffersRequest::operator=(ReadBuffersRequest&&) = default;
+
+bool ReadBuffersRequest::operator==(const ReadBuffersRequest& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_);
+}
+
+bool ReadBuffersRequest::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string ReadBuffersRequest::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> ReadBuffersRequest::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void ReadBuffersRequest::Serialize(::protozero::Message* msg) const {
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+DisableTracingResponse::DisableTracingResponse() = default;
+DisableTracingResponse::~DisableTracingResponse() = default;
+DisableTracingResponse::DisableTracingResponse(const DisableTracingResponse&) = default;
+DisableTracingResponse& DisableTracingResponse::operator=(const DisableTracingResponse&) = default;
+DisableTracingResponse::DisableTracingResponse(DisableTracingResponse&&) noexcept = default;
+DisableTracingResponse& DisableTracingResponse::operator=(DisableTracingResponse&&) = default;
+
+bool DisableTracingResponse::operator==(const DisableTracingResponse& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_);
+}
+
+bool DisableTracingResponse::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string DisableTracingResponse::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> DisableTracingResponse::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void DisableTracingResponse::Serialize(::protozero::Message* msg) const {
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+DisableTracingRequest::DisableTracingRequest() = default;
+DisableTracingRequest::~DisableTracingRequest() = default;
+DisableTracingRequest::DisableTracingRequest(const DisableTracingRequest&) = default;
+DisableTracingRequest& DisableTracingRequest::operator=(const DisableTracingRequest&) = default;
+DisableTracingRequest::DisableTracingRequest(DisableTracingRequest&&) noexcept = default;
+DisableTracingRequest& DisableTracingRequest::operator=(DisableTracingRequest&&) = default;
+
+bool DisableTracingRequest::operator==(const DisableTracingRequest& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_);
+}
+
+bool DisableTracingRequest::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string DisableTracingRequest::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> DisableTracingRequest::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void DisableTracingRequest::Serialize(::protozero::Message* msg) const {
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+ChangeTraceConfigResponse::ChangeTraceConfigResponse() = default;
+ChangeTraceConfigResponse::~ChangeTraceConfigResponse() = default;
+ChangeTraceConfigResponse::ChangeTraceConfigResponse(const ChangeTraceConfigResponse&) = default;
+ChangeTraceConfigResponse& ChangeTraceConfigResponse::operator=(const ChangeTraceConfigResponse&) = default;
+ChangeTraceConfigResponse::ChangeTraceConfigResponse(ChangeTraceConfigResponse&&) noexcept = default;
+ChangeTraceConfigResponse& ChangeTraceConfigResponse::operator=(ChangeTraceConfigResponse&&) = default;
+
+bool ChangeTraceConfigResponse::operator==(const ChangeTraceConfigResponse& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_);
+}
+
+bool ChangeTraceConfigResponse::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string ChangeTraceConfigResponse::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> ChangeTraceConfigResponse::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void ChangeTraceConfigResponse::Serialize(::protozero::Message* msg) const {
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+ChangeTraceConfigRequest::ChangeTraceConfigRequest() = default;
+ChangeTraceConfigRequest::~ChangeTraceConfigRequest() = default;
+ChangeTraceConfigRequest::ChangeTraceConfigRequest(const ChangeTraceConfigRequest&) = default;
+ChangeTraceConfigRequest& ChangeTraceConfigRequest::operator=(const ChangeTraceConfigRequest&) = default;
+ChangeTraceConfigRequest::ChangeTraceConfigRequest(ChangeTraceConfigRequest&&) noexcept = default;
+ChangeTraceConfigRequest& ChangeTraceConfigRequest::operator=(ChangeTraceConfigRequest&&) = default;
+
+bool ChangeTraceConfigRequest::operator==(const ChangeTraceConfigRequest& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(trace_config_, other.trace_config_);
+}
+
+bool ChangeTraceConfigRequest::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* trace_config */:
+ (*trace_config_).ParseFromArray(field.data(), field.size());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string ChangeTraceConfigRequest::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> ChangeTraceConfigRequest::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void ChangeTraceConfigRequest::Serialize(::protozero::Message* msg) const {
+ // Field 1: trace_config
+ if (_has_field_[1]) {
+ (*trace_config_).Serialize(msg->BeginNestedMessage<::protozero::Message>(1));
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+StartTracingResponse::StartTracingResponse() = default;
+StartTracingResponse::~StartTracingResponse() = default;
+StartTracingResponse::StartTracingResponse(const StartTracingResponse&) = default;
+StartTracingResponse& StartTracingResponse::operator=(const StartTracingResponse&) = default;
+StartTracingResponse::StartTracingResponse(StartTracingResponse&&) noexcept = default;
+StartTracingResponse& StartTracingResponse::operator=(StartTracingResponse&&) = default;
+
+bool StartTracingResponse::operator==(const StartTracingResponse& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_);
+}
+
+bool StartTracingResponse::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string StartTracingResponse::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> StartTracingResponse::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void StartTracingResponse::Serialize(::protozero::Message* msg) const {
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+StartTracingRequest::StartTracingRequest() = default;
+StartTracingRequest::~StartTracingRequest() = default;
+StartTracingRequest::StartTracingRequest(const StartTracingRequest&) = default;
+StartTracingRequest& StartTracingRequest::operator=(const StartTracingRequest&) = default;
+StartTracingRequest::StartTracingRequest(StartTracingRequest&&) noexcept = default;
+StartTracingRequest& StartTracingRequest::operator=(StartTracingRequest&&) = default;
+
+bool StartTracingRequest::operator==(const StartTracingRequest& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_);
+}
+
+bool StartTracingRequest::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string StartTracingRequest::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> StartTracingRequest::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void StartTracingRequest::Serialize(::protozero::Message* msg) const {
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+EnableTracingResponse::EnableTracingResponse() = default;
+EnableTracingResponse::~EnableTracingResponse() = default;
+EnableTracingResponse::EnableTracingResponse(const EnableTracingResponse&) = default;
+EnableTracingResponse& EnableTracingResponse::operator=(const EnableTracingResponse&) = default;
+EnableTracingResponse::EnableTracingResponse(EnableTracingResponse&&) noexcept = default;
+EnableTracingResponse& EnableTracingResponse::operator=(EnableTracingResponse&&) = default;
+
+bool EnableTracingResponse::operator==(const EnableTracingResponse& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(disabled_, other.disabled_)
+ && ::protozero::internal::gen_helpers::EqualsField(error_, other.error_);
+}
+
+bool EnableTracingResponse::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* disabled */:
+ field.get(&disabled_);
+ break;
+ case 3 /* error */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &error_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string EnableTracingResponse::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> EnableTracingResponse::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void EnableTracingResponse::Serialize(::protozero::Message* msg) const {
+ // Field 1: disabled
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(1, disabled_, msg);
+ }
+
+ // Field 3: error
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeString(3, error_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+EnableTracingRequest::EnableTracingRequest() = default;
+EnableTracingRequest::~EnableTracingRequest() = default;
+EnableTracingRequest::EnableTracingRequest(const EnableTracingRequest&) = default;
+EnableTracingRequest& EnableTracingRequest::operator=(const EnableTracingRequest&) = default;
+EnableTracingRequest::EnableTracingRequest(EnableTracingRequest&&) noexcept = default;
+EnableTracingRequest& EnableTracingRequest::operator=(EnableTracingRequest&&) = default;
+
+bool EnableTracingRequest::operator==(const EnableTracingRequest& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(trace_config_, other.trace_config_)
+ && ::protozero::internal::gen_helpers::EqualsField(attach_notification_only_, other.attach_notification_only_);
+}
+
+bool EnableTracingRequest::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* trace_config */:
+ (*trace_config_).ParseFromArray(field.data(), field.size());
+ break;
+ case 2 /* attach_notification_only */:
+ field.get(&attach_notification_only_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string EnableTracingRequest::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> EnableTracingRequest::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void EnableTracingRequest::Serialize(::protozero::Message* msg) const {
+ // Field 1: trace_config
+ if (_has_field_[1]) {
+ (*trace_config_).Serialize(msg->BeginNestedMessage<::protozero::Message>(1));
+ }
+
+ // Field 2: attach_notification_only
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(2, attach_notification_only_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/ipc/producer_port.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/ipc/producer_port.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/data_source_descriptor.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/track_event_descriptor.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/gpu_counter_descriptor.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/ftrace_descriptor.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/data_source_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/system_info/system_info.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/track_event/track_event_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/test_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/sys_stats/sys_stats_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/sys_stats_counters.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/profiling/perf_event_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/perf_events.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/profiling/java_hprof_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/profiling/heapprofd_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/process_stats/process_stats_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/statsd/statsd_tracing_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/statsd/atom_ids.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/power/android_power_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/interceptor_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/interceptors/console_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/inode_file/inode_file_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/gpu/vulkan_memory_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/gpu/gpu_counter_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/ftrace/ftrace_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/etw/etw_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/chrome/v8_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/chrome/chrome_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/surfaceflinger_transactions_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/surfaceflinger_layers_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/protolog_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/protolog_common.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/packages_list_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/network_trace_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/android_sdk_sysprop_guard_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/android_system_property_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/android_polled_state_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/android_log_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/android_log_constants.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/android_input_event_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/android/android_game_intervention_list_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/commit_data_request.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+SyncResponse::SyncResponse() = default;
+SyncResponse::~SyncResponse() = default;
+SyncResponse::SyncResponse(const SyncResponse&) = default;
+SyncResponse& SyncResponse::operator=(const SyncResponse&) = default;
+SyncResponse::SyncResponse(SyncResponse&&) noexcept = default;
+SyncResponse& SyncResponse::operator=(SyncResponse&&) = default;
+
+bool SyncResponse::operator==(const SyncResponse& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_);
+}
+
+bool SyncResponse::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string SyncResponse::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> SyncResponse::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void SyncResponse::Serialize(::protozero::Message* msg) const {
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+SyncRequest::SyncRequest() = default;
+SyncRequest::~SyncRequest() = default;
+SyncRequest::SyncRequest(const SyncRequest&) = default;
+SyncRequest& SyncRequest::operator=(const SyncRequest&) = default;
+SyncRequest::SyncRequest(SyncRequest&&) noexcept = default;
+SyncRequest& SyncRequest::operator=(SyncRequest&&) = default;
+
+bool SyncRequest::operator==(const SyncRequest& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_);
+}
+
+bool SyncRequest::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string SyncRequest::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> SyncRequest::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void SyncRequest::Serialize(::protozero::Message* msg) const {
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+GetAsyncCommandResponse::GetAsyncCommandResponse() = default;
+GetAsyncCommandResponse::~GetAsyncCommandResponse() = default;
+GetAsyncCommandResponse::GetAsyncCommandResponse(const GetAsyncCommandResponse&) = default;
+GetAsyncCommandResponse& GetAsyncCommandResponse::operator=(const GetAsyncCommandResponse&) = default;
+GetAsyncCommandResponse::GetAsyncCommandResponse(GetAsyncCommandResponse&&) noexcept = default;
+GetAsyncCommandResponse& GetAsyncCommandResponse::operator=(GetAsyncCommandResponse&&) = default;
+
+bool GetAsyncCommandResponse::operator==(const GetAsyncCommandResponse& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(setup_tracing_, other.setup_tracing_)
+ && ::protozero::internal::gen_helpers::EqualsField(setup_data_source_, other.setup_data_source_)
+ && ::protozero::internal::gen_helpers::EqualsField(start_data_source_, other.start_data_source_)
+ && ::protozero::internal::gen_helpers::EqualsField(stop_data_source_, other.stop_data_source_)
+ && ::protozero::internal::gen_helpers::EqualsField(flush_, other.flush_)
+ && ::protozero::internal::gen_helpers::EqualsField(clear_incremental_state_, other.clear_incremental_state_);
+}
+
+bool GetAsyncCommandResponse::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 3 /* setup_tracing */:
+ (*setup_tracing_).ParseFromArray(field.data(), field.size());
+ break;
+ case 6 /* setup_data_source */:
+ (*setup_data_source_).ParseFromArray(field.data(), field.size());
+ break;
+ case 1 /* start_data_source */:
+ (*start_data_source_).ParseFromArray(field.data(), field.size());
+ break;
+ case 2 /* stop_data_source */:
+ (*stop_data_source_).ParseFromArray(field.data(), field.size());
+ break;
+ case 5 /* flush */:
+ (*flush_).ParseFromArray(field.data(), field.size());
+ break;
+ case 7 /* clear_incremental_state */:
+ (*clear_incremental_state_).ParseFromArray(field.data(), field.size());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string GetAsyncCommandResponse::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> GetAsyncCommandResponse::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void GetAsyncCommandResponse::Serialize(::protozero::Message* msg) const {
+ // Field 3: setup_tracing
+ if (_has_field_[3]) {
+ (*setup_tracing_).Serialize(msg->BeginNestedMessage<::protozero::Message>(3));
+ }
+
+ // Field 6: setup_data_source
+ if (_has_field_[6]) {
+ (*setup_data_source_).Serialize(msg->BeginNestedMessage<::protozero::Message>(6));
+ }
+
+ // Field 1: start_data_source
+ if (_has_field_[1]) {
+ (*start_data_source_).Serialize(msg->BeginNestedMessage<::protozero::Message>(1));
+ }
+
+ // Field 2: stop_data_source
+ if (_has_field_[2]) {
+ (*stop_data_source_).Serialize(msg->BeginNestedMessage<::protozero::Message>(2));
+ }
+
+ // Field 5: flush
+ if (_has_field_[5]) {
+ (*flush_).Serialize(msg->BeginNestedMessage<::protozero::Message>(5));
+ }
+
+ // Field 7: clear_incremental_state
+ if (_has_field_[7]) {
+ (*clear_incremental_state_).Serialize(msg->BeginNestedMessage<::protozero::Message>(7));
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+GetAsyncCommandResponse_ClearIncrementalState::GetAsyncCommandResponse_ClearIncrementalState() = default;
+GetAsyncCommandResponse_ClearIncrementalState::~GetAsyncCommandResponse_ClearIncrementalState() = default;
+GetAsyncCommandResponse_ClearIncrementalState::GetAsyncCommandResponse_ClearIncrementalState(const GetAsyncCommandResponse_ClearIncrementalState&) = default;
+GetAsyncCommandResponse_ClearIncrementalState& GetAsyncCommandResponse_ClearIncrementalState::operator=(const GetAsyncCommandResponse_ClearIncrementalState&) = default;
+GetAsyncCommandResponse_ClearIncrementalState::GetAsyncCommandResponse_ClearIncrementalState(GetAsyncCommandResponse_ClearIncrementalState&&) noexcept = default;
+GetAsyncCommandResponse_ClearIncrementalState& GetAsyncCommandResponse_ClearIncrementalState::operator=(GetAsyncCommandResponse_ClearIncrementalState&&) = default;
+
+bool GetAsyncCommandResponse_ClearIncrementalState::operator==(const GetAsyncCommandResponse_ClearIncrementalState& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(data_source_ids_, other.data_source_ids_);
+}
+
+bool GetAsyncCommandResponse_ClearIncrementalState::ParseFromArray(const void* raw, size_t size) {
+ data_source_ids_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* data_source_ids */:
+ data_source_ids_.emplace_back();
+ field.get(&data_source_ids_.back());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string GetAsyncCommandResponse_ClearIncrementalState::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> GetAsyncCommandResponse_ClearIncrementalState::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void GetAsyncCommandResponse_ClearIncrementalState::Serialize(::protozero::Message* msg) const {
+ // Field 1: data_source_ids
+ for (auto& it : data_source_ids_) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, it, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+GetAsyncCommandResponse_Flush::GetAsyncCommandResponse_Flush() = default;
+GetAsyncCommandResponse_Flush::~GetAsyncCommandResponse_Flush() = default;
+GetAsyncCommandResponse_Flush::GetAsyncCommandResponse_Flush(const GetAsyncCommandResponse_Flush&) = default;
+GetAsyncCommandResponse_Flush& GetAsyncCommandResponse_Flush::operator=(const GetAsyncCommandResponse_Flush&) = default;
+GetAsyncCommandResponse_Flush::GetAsyncCommandResponse_Flush(GetAsyncCommandResponse_Flush&&) noexcept = default;
+GetAsyncCommandResponse_Flush& GetAsyncCommandResponse_Flush::operator=(GetAsyncCommandResponse_Flush&&) = default;
+
+bool GetAsyncCommandResponse_Flush::operator==(const GetAsyncCommandResponse_Flush& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(data_source_ids_, other.data_source_ids_)
+ && ::protozero::internal::gen_helpers::EqualsField(request_id_, other.request_id_)
+ && ::protozero::internal::gen_helpers::EqualsField(flags_, other.flags_);
+}
+
+bool GetAsyncCommandResponse_Flush::ParseFromArray(const void* raw, size_t size) {
+ data_source_ids_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* data_source_ids */:
+ data_source_ids_.emplace_back();
+ field.get(&data_source_ids_.back());
+ break;
+ case 2 /* request_id */:
+ field.get(&request_id_);
+ break;
+ case 3 /* flags */:
+ field.get(&flags_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string GetAsyncCommandResponse_Flush::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> GetAsyncCommandResponse_Flush::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void GetAsyncCommandResponse_Flush::Serialize(::protozero::Message* msg) const {
+ // Field 1: data_source_ids
+ for (auto& it : data_source_ids_) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, it, msg);
+ }
+
+ // Field 2: request_id
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, request_id_, msg);
+ }
+
+ // Field 3: flags
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(3, flags_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+GetAsyncCommandResponse_StopDataSource::GetAsyncCommandResponse_StopDataSource() = default;
+GetAsyncCommandResponse_StopDataSource::~GetAsyncCommandResponse_StopDataSource() = default;
+GetAsyncCommandResponse_StopDataSource::GetAsyncCommandResponse_StopDataSource(const GetAsyncCommandResponse_StopDataSource&) = default;
+GetAsyncCommandResponse_StopDataSource& GetAsyncCommandResponse_StopDataSource::operator=(const GetAsyncCommandResponse_StopDataSource&) = default;
+GetAsyncCommandResponse_StopDataSource::GetAsyncCommandResponse_StopDataSource(GetAsyncCommandResponse_StopDataSource&&) noexcept = default;
+GetAsyncCommandResponse_StopDataSource& GetAsyncCommandResponse_StopDataSource::operator=(GetAsyncCommandResponse_StopDataSource&&) = default;
+
+bool GetAsyncCommandResponse_StopDataSource::operator==(const GetAsyncCommandResponse_StopDataSource& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(instance_id_, other.instance_id_);
+}
+
+bool GetAsyncCommandResponse_StopDataSource::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* instance_id */:
+ field.get(&instance_id_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string GetAsyncCommandResponse_StopDataSource::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> GetAsyncCommandResponse_StopDataSource::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void GetAsyncCommandResponse_StopDataSource::Serialize(::protozero::Message* msg) const {
+ // Field 1: instance_id
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, instance_id_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+GetAsyncCommandResponse_StartDataSource::GetAsyncCommandResponse_StartDataSource() = default;
+GetAsyncCommandResponse_StartDataSource::~GetAsyncCommandResponse_StartDataSource() = default;
+GetAsyncCommandResponse_StartDataSource::GetAsyncCommandResponse_StartDataSource(const GetAsyncCommandResponse_StartDataSource&) = default;
+GetAsyncCommandResponse_StartDataSource& GetAsyncCommandResponse_StartDataSource::operator=(const GetAsyncCommandResponse_StartDataSource&) = default;
+GetAsyncCommandResponse_StartDataSource::GetAsyncCommandResponse_StartDataSource(GetAsyncCommandResponse_StartDataSource&&) noexcept = default;
+GetAsyncCommandResponse_StartDataSource& GetAsyncCommandResponse_StartDataSource::operator=(GetAsyncCommandResponse_StartDataSource&&) = default;
+
+bool GetAsyncCommandResponse_StartDataSource::operator==(const GetAsyncCommandResponse_StartDataSource& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(new_instance_id_, other.new_instance_id_)
+ && ::protozero::internal::gen_helpers::EqualsField(config_, other.config_);
+}
+
+bool GetAsyncCommandResponse_StartDataSource::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* new_instance_id */:
+ field.get(&new_instance_id_);
+ break;
+ case 2 /* config */:
+ (*config_).ParseFromArray(field.data(), field.size());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string GetAsyncCommandResponse_StartDataSource::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> GetAsyncCommandResponse_StartDataSource::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void GetAsyncCommandResponse_StartDataSource::Serialize(::protozero::Message* msg) const {
+ // Field 1: new_instance_id
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, new_instance_id_, msg);
+ }
+
+ // Field 2: config
+ if (_has_field_[2]) {
+ (*config_).Serialize(msg->BeginNestedMessage<::protozero::Message>(2));
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+GetAsyncCommandResponse_SetupDataSource::GetAsyncCommandResponse_SetupDataSource() = default;
+GetAsyncCommandResponse_SetupDataSource::~GetAsyncCommandResponse_SetupDataSource() = default;
+GetAsyncCommandResponse_SetupDataSource::GetAsyncCommandResponse_SetupDataSource(const GetAsyncCommandResponse_SetupDataSource&) = default;
+GetAsyncCommandResponse_SetupDataSource& GetAsyncCommandResponse_SetupDataSource::operator=(const GetAsyncCommandResponse_SetupDataSource&) = default;
+GetAsyncCommandResponse_SetupDataSource::GetAsyncCommandResponse_SetupDataSource(GetAsyncCommandResponse_SetupDataSource&&) noexcept = default;
+GetAsyncCommandResponse_SetupDataSource& GetAsyncCommandResponse_SetupDataSource::operator=(GetAsyncCommandResponse_SetupDataSource&&) = default;
+
+bool GetAsyncCommandResponse_SetupDataSource::operator==(const GetAsyncCommandResponse_SetupDataSource& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(new_instance_id_, other.new_instance_id_)
+ && ::protozero::internal::gen_helpers::EqualsField(config_, other.config_);
+}
+
+bool GetAsyncCommandResponse_SetupDataSource::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* new_instance_id */:
+ field.get(&new_instance_id_);
+ break;
+ case 2 /* config */:
+ (*config_).ParseFromArray(field.data(), field.size());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string GetAsyncCommandResponse_SetupDataSource::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> GetAsyncCommandResponse_SetupDataSource::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void GetAsyncCommandResponse_SetupDataSource::Serialize(::protozero::Message* msg) const {
+ // Field 1: new_instance_id
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, new_instance_id_, msg);
+ }
+
+ // Field 2: config
+ if (_has_field_[2]) {
+ (*config_).Serialize(msg->BeginNestedMessage<::protozero::Message>(2));
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+GetAsyncCommandResponse_SetupTracing::GetAsyncCommandResponse_SetupTracing() = default;
+GetAsyncCommandResponse_SetupTracing::~GetAsyncCommandResponse_SetupTracing() = default;
+GetAsyncCommandResponse_SetupTracing::GetAsyncCommandResponse_SetupTracing(const GetAsyncCommandResponse_SetupTracing&) = default;
+GetAsyncCommandResponse_SetupTracing& GetAsyncCommandResponse_SetupTracing::operator=(const GetAsyncCommandResponse_SetupTracing&) = default;
+GetAsyncCommandResponse_SetupTracing::GetAsyncCommandResponse_SetupTracing(GetAsyncCommandResponse_SetupTracing&&) noexcept = default;
+GetAsyncCommandResponse_SetupTracing& GetAsyncCommandResponse_SetupTracing::operator=(GetAsyncCommandResponse_SetupTracing&&) = default;
+
+bool GetAsyncCommandResponse_SetupTracing::operator==(const GetAsyncCommandResponse_SetupTracing& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(shared_buffer_page_size_kb_, other.shared_buffer_page_size_kb_)
+ && ::protozero::internal::gen_helpers::EqualsField(shm_key_windows_, other.shm_key_windows_);
+}
+
+bool GetAsyncCommandResponse_SetupTracing::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* shared_buffer_page_size_kb */:
+ field.get(&shared_buffer_page_size_kb_);
+ break;
+ case 2 /* shm_key_windows */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &shm_key_windows_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string GetAsyncCommandResponse_SetupTracing::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> GetAsyncCommandResponse_SetupTracing::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void GetAsyncCommandResponse_SetupTracing::Serialize(::protozero::Message* msg) const {
+ // Field 1: shared_buffer_page_size_kb
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, shared_buffer_page_size_kb_, msg);
+ }
+
+ // Field 2: shm_key_windows
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeString(2, shm_key_windows_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+GetAsyncCommandRequest::GetAsyncCommandRequest() = default;
+GetAsyncCommandRequest::~GetAsyncCommandRequest() = default;
+GetAsyncCommandRequest::GetAsyncCommandRequest(const GetAsyncCommandRequest&) = default;
+GetAsyncCommandRequest& GetAsyncCommandRequest::operator=(const GetAsyncCommandRequest&) = default;
+GetAsyncCommandRequest::GetAsyncCommandRequest(GetAsyncCommandRequest&&) noexcept = default;
+GetAsyncCommandRequest& GetAsyncCommandRequest::operator=(GetAsyncCommandRequest&&) = default;
+
+bool GetAsyncCommandRequest::operator==(const GetAsyncCommandRequest& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_);
+}
+
+bool GetAsyncCommandRequest::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string GetAsyncCommandRequest::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> GetAsyncCommandRequest::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void GetAsyncCommandRequest::Serialize(::protozero::Message* msg) const {
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+ActivateTriggersResponse::ActivateTriggersResponse() = default;
+ActivateTriggersResponse::~ActivateTriggersResponse() = default;
+ActivateTriggersResponse::ActivateTriggersResponse(const ActivateTriggersResponse&) = default;
+ActivateTriggersResponse& ActivateTriggersResponse::operator=(const ActivateTriggersResponse&) = default;
+ActivateTriggersResponse::ActivateTriggersResponse(ActivateTriggersResponse&&) noexcept = default;
+ActivateTriggersResponse& ActivateTriggersResponse::operator=(ActivateTriggersResponse&&) = default;
+
+bool ActivateTriggersResponse::operator==(const ActivateTriggersResponse& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_);
+}
+
+bool ActivateTriggersResponse::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string ActivateTriggersResponse::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> ActivateTriggersResponse::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void ActivateTriggersResponse::Serialize(::protozero::Message* msg) const {
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+ActivateTriggersRequest::ActivateTriggersRequest() = default;
+ActivateTriggersRequest::~ActivateTriggersRequest() = default;
+ActivateTriggersRequest::ActivateTriggersRequest(const ActivateTriggersRequest&) = default;
+ActivateTriggersRequest& ActivateTriggersRequest::operator=(const ActivateTriggersRequest&) = default;
+ActivateTriggersRequest::ActivateTriggersRequest(ActivateTriggersRequest&&) noexcept = default;
+ActivateTriggersRequest& ActivateTriggersRequest::operator=(ActivateTriggersRequest&&) = default;
+
+bool ActivateTriggersRequest::operator==(const ActivateTriggersRequest& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(trigger_names_, other.trigger_names_);
+}
+
+bool ActivateTriggersRequest::ParseFromArray(const void* raw, size_t size) {
+ trigger_names_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* trigger_names */:
+ trigger_names_.emplace_back();
+ ::protozero::internal::gen_helpers::DeserializeString(field, &trigger_names_.back());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string ActivateTriggersRequest::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> ActivateTriggersRequest::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void ActivateTriggersRequest::Serialize(::protozero::Message* msg) const {
+ // Field 1: trigger_names
+ for (auto& it : trigger_names_) {
+ ::protozero::internal::gen_helpers::SerializeString(1, it, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+NotifyDataSourceStoppedResponse::NotifyDataSourceStoppedResponse() = default;
+NotifyDataSourceStoppedResponse::~NotifyDataSourceStoppedResponse() = default;
+NotifyDataSourceStoppedResponse::NotifyDataSourceStoppedResponse(const NotifyDataSourceStoppedResponse&) = default;
+NotifyDataSourceStoppedResponse& NotifyDataSourceStoppedResponse::operator=(const NotifyDataSourceStoppedResponse&) = default;
+NotifyDataSourceStoppedResponse::NotifyDataSourceStoppedResponse(NotifyDataSourceStoppedResponse&&) noexcept = default;
+NotifyDataSourceStoppedResponse& NotifyDataSourceStoppedResponse::operator=(NotifyDataSourceStoppedResponse&&) = default;
+
+bool NotifyDataSourceStoppedResponse::operator==(const NotifyDataSourceStoppedResponse& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_);
+}
+
+bool NotifyDataSourceStoppedResponse::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string NotifyDataSourceStoppedResponse::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> NotifyDataSourceStoppedResponse::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void NotifyDataSourceStoppedResponse::Serialize(::protozero::Message* msg) const {
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+NotifyDataSourceStoppedRequest::NotifyDataSourceStoppedRequest() = default;
+NotifyDataSourceStoppedRequest::~NotifyDataSourceStoppedRequest() = default;
+NotifyDataSourceStoppedRequest::NotifyDataSourceStoppedRequest(const NotifyDataSourceStoppedRequest&) = default;
+NotifyDataSourceStoppedRequest& NotifyDataSourceStoppedRequest::operator=(const NotifyDataSourceStoppedRequest&) = default;
+NotifyDataSourceStoppedRequest::NotifyDataSourceStoppedRequest(NotifyDataSourceStoppedRequest&&) noexcept = default;
+NotifyDataSourceStoppedRequest& NotifyDataSourceStoppedRequest::operator=(NotifyDataSourceStoppedRequest&&) = default;
+
+bool NotifyDataSourceStoppedRequest::operator==(const NotifyDataSourceStoppedRequest& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(data_source_id_, other.data_source_id_);
+}
+
+bool NotifyDataSourceStoppedRequest::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* data_source_id */:
+ field.get(&data_source_id_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string NotifyDataSourceStoppedRequest::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> NotifyDataSourceStoppedRequest::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void NotifyDataSourceStoppedRequest::Serialize(::protozero::Message* msg) const {
+ // Field 1: data_source_id
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, data_source_id_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+NotifyDataSourceStartedResponse::NotifyDataSourceStartedResponse() = default;
+NotifyDataSourceStartedResponse::~NotifyDataSourceStartedResponse() = default;
+NotifyDataSourceStartedResponse::NotifyDataSourceStartedResponse(const NotifyDataSourceStartedResponse&) = default;
+NotifyDataSourceStartedResponse& NotifyDataSourceStartedResponse::operator=(const NotifyDataSourceStartedResponse&) = default;
+NotifyDataSourceStartedResponse::NotifyDataSourceStartedResponse(NotifyDataSourceStartedResponse&&) noexcept = default;
+NotifyDataSourceStartedResponse& NotifyDataSourceStartedResponse::operator=(NotifyDataSourceStartedResponse&&) = default;
+
+bool NotifyDataSourceStartedResponse::operator==(const NotifyDataSourceStartedResponse& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_);
+}
+
+bool NotifyDataSourceStartedResponse::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string NotifyDataSourceStartedResponse::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> NotifyDataSourceStartedResponse::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void NotifyDataSourceStartedResponse::Serialize(::protozero::Message* msg) const {
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+NotifyDataSourceStartedRequest::NotifyDataSourceStartedRequest() = default;
+NotifyDataSourceStartedRequest::~NotifyDataSourceStartedRequest() = default;
+NotifyDataSourceStartedRequest::NotifyDataSourceStartedRequest(const NotifyDataSourceStartedRequest&) = default;
+NotifyDataSourceStartedRequest& NotifyDataSourceStartedRequest::operator=(const NotifyDataSourceStartedRequest&) = default;
+NotifyDataSourceStartedRequest::NotifyDataSourceStartedRequest(NotifyDataSourceStartedRequest&&) noexcept = default;
+NotifyDataSourceStartedRequest& NotifyDataSourceStartedRequest::operator=(NotifyDataSourceStartedRequest&&) = default;
+
+bool NotifyDataSourceStartedRequest::operator==(const NotifyDataSourceStartedRequest& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(data_source_id_, other.data_source_id_);
+}
+
+bool NotifyDataSourceStartedRequest::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* data_source_id */:
+ field.get(&data_source_id_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string NotifyDataSourceStartedRequest::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> NotifyDataSourceStartedRequest::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void NotifyDataSourceStartedRequest::Serialize(::protozero::Message* msg) const {
+ // Field 1: data_source_id
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, data_source_id_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+CommitDataResponse::CommitDataResponse() = default;
+CommitDataResponse::~CommitDataResponse() = default;
+CommitDataResponse::CommitDataResponse(const CommitDataResponse&) = default;
+CommitDataResponse& CommitDataResponse::operator=(const CommitDataResponse&) = default;
+CommitDataResponse::CommitDataResponse(CommitDataResponse&&) noexcept = default;
+CommitDataResponse& CommitDataResponse::operator=(CommitDataResponse&&) = default;
+
+bool CommitDataResponse::operator==(const CommitDataResponse& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_);
+}
+
+bool CommitDataResponse::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string CommitDataResponse::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> CommitDataResponse::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void CommitDataResponse::Serialize(::protozero::Message* msg) const {
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+UnregisterTraceWriterResponse::UnregisterTraceWriterResponse() = default;
+UnregisterTraceWriterResponse::~UnregisterTraceWriterResponse() = default;
+UnregisterTraceWriterResponse::UnregisterTraceWriterResponse(const UnregisterTraceWriterResponse&) = default;
+UnregisterTraceWriterResponse& UnregisterTraceWriterResponse::operator=(const UnregisterTraceWriterResponse&) = default;
+UnregisterTraceWriterResponse::UnregisterTraceWriterResponse(UnregisterTraceWriterResponse&&) noexcept = default;
+UnregisterTraceWriterResponse& UnregisterTraceWriterResponse::operator=(UnregisterTraceWriterResponse&&) = default;
+
+bool UnregisterTraceWriterResponse::operator==(const UnregisterTraceWriterResponse& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_);
+}
+
+bool UnregisterTraceWriterResponse::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string UnregisterTraceWriterResponse::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> UnregisterTraceWriterResponse::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void UnregisterTraceWriterResponse::Serialize(::protozero::Message* msg) const {
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+UnregisterTraceWriterRequest::UnregisterTraceWriterRequest() = default;
+UnregisterTraceWriterRequest::~UnregisterTraceWriterRequest() = default;
+UnregisterTraceWriterRequest::UnregisterTraceWriterRequest(const UnregisterTraceWriterRequest&) = default;
+UnregisterTraceWriterRequest& UnregisterTraceWriterRequest::operator=(const UnregisterTraceWriterRequest&) = default;
+UnregisterTraceWriterRequest::UnregisterTraceWriterRequest(UnregisterTraceWriterRequest&&) noexcept = default;
+UnregisterTraceWriterRequest& UnregisterTraceWriterRequest::operator=(UnregisterTraceWriterRequest&&) = default;
+
+bool UnregisterTraceWriterRequest::operator==(const UnregisterTraceWriterRequest& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(trace_writer_id_, other.trace_writer_id_);
+}
+
+bool UnregisterTraceWriterRequest::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* trace_writer_id */:
+ field.get(&trace_writer_id_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string UnregisterTraceWriterRequest::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> UnregisterTraceWriterRequest::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void UnregisterTraceWriterRequest::Serialize(::protozero::Message* msg) const {
+ // Field 1: trace_writer_id
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, trace_writer_id_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+RegisterTraceWriterResponse::RegisterTraceWriterResponse() = default;
+RegisterTraceWriterResponse::~RegisterTraceWriterResponse() = default;
+RegisterTraceWriterResponse::RegisterTraceWriterResponse(const RegisterTraceWriterResponse&) = default;
+RegisterTraceWriterResponse& RegisterTraceWriterResponse::operator=(const RegisterTraceWriterResponse&) = default;
+RegisterTraceWriterResponse::RegisterTraceWriterResponse(RegisterTraceWriterResponse&&) noexcept = default;
+RegisterTraceWriterResponse& RegisterTraceWriterResponse::operator=(RegisterTraceWriterResponse&&) = default;
+
+bool RegisterTraceWriterResponse::operator==(const RegisterTraceWriterResponse& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_);
+}
+
+bool RegisterTraceWriterResponse::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string RegisterTraceWriterResponse::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> RegisterTraceWriterResponse::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void RegisterTraceWriterResponse::Serialize(::protozero::Message* msg) const {
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+RegisterTraceWriterRequest::RegisterTraceWriterRequest() = default;
+RegisterTraceWriterRequest::~RegisterTraceWriterRequest() = default;
+RegisterTraceWriterRequest::RegisterTraceWriterRequest(const RegisterTraceWriterRequest&) = default;
+RegisterTraceWriterRequest& RegisterTraceWriterRequest::operator=(const RegisterTraceWriterRequest&) = default;
+RegisterTraceWriterRequest::RegisterTraceWriterRequest(RegisterTraceWriterRequest&&) noexcept = default;
+RegisterTraceWriterRequest& RegisterTraceWriterRequest::operator=(RegisterTraceWriterRequest&&) = default;
+
+bool RegisterTraceWriterRequest::operator==(const RegisterTraceWriterRequest& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(trace_writer_id_, other.trace_writer_id_)
+ && ::protozero::internal::gen_helpers::EqualsField(target_buffer_, other.target_buffer_);
+}
+
+bool RegisterTraceWriterRequest::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* trace_writer_id */:
+ field.get(&trace_writer_id_);
+ break;
+ case 2 /* target_buffer */:
+ field.get(&target_buffer_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string RegisterTraceWriterRequest::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> RegisterTraceWriterRequest::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void RegisterTraceWriterRequest::Serialize(::protozero::Message* msg) const {
+ // Field 1: trace_writer_id
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, trace_writer_id_, msg);
+ }
+
+ // Field 2: target_buffer
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, target_buffer_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+UnregisterDataSourceResponse::UnregisterDataSourceResponse() = default;
+UnregisterDataSourceResponse::~UnregisterDataSourceResponse() = default;
+UnregisterDataSourceResponse::UnregisterDataSourceResponse(const UnregisterDataSourceResponse&) = default;
+UnregisterDataSourceResponse& UnregisterDataSourceResponse::operator=(const UnregisterDataSourceResponse&) = default;
+UnregisterDataSourceResponse::UnregisterDataSourceResponse(UnregisterDataSourceResponse&&) noexcept = default;
+UnregisterDataSourceResponse& UnregisterDataSourceResponse::operator=(UnregisterDataSourceResponse&&) = default;
+
+bool UnregisterDataSourceResponse::operator==(const UnregisterDataSourceResponse& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_);
+}
+
+bool UnregisterDataSourceResponse::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string UnregisterDataSourceResponse::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> UnregisterDataSourceResponse::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void UnregisterDataSourceResponse::Serialize(::protozero::Message* msg) const {
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+UnregisterDataSourceRequest::UnregisterDataSourceRequest() = default;
+UnregisterDataSourceRequest::~UnregisterDataSourceRequest() = default;
+UnregisterDataSourceRequest::UnregisterDataSourceRequest(const UnregisterDataSourceRequest&) = default;
+UnregisterDataSourceRequest& UnregisterDataSourceRequest::operator=(const UnregisterDataSourceRequest&) = default;
+UnregisterDataSourceRequest::UnregisterDataSourceRequest(UnregisterDataSourceRequest&&) noexcept = default;
+UnregisterDataSourceRequest& UnregisterDataSourceRequest::operator=(UnregisterDataSourceRequest&&) = default;
+
+bool UnregisterDataSourceRequest::operator==(const UnregisterDataSourceRequest& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(data_source_name_, other.data_source_name_);
+}
+
+bool UnregisterDataSourceRequest::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* data_source_name */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &data_source_name_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string UnregisterDataSourceRequest::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> UnregisterDataSourceRequest::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void UnregisterDataSourceRequest::Serialize(::protozero::Message* msg) const {
+ // Field 1: data_source_name
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeString(1, data_source_name_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+UpdateDataSourceResponse::UpdateDataSourceResponse() = default;
+UpdateDataSourceResponse::~UpdateDataSourceResponse() = default;
+UpdateDataSourceResponse::UpdateDataSourceResponse(const UpdateDataSourceResponse&) = default;
+UpdateDataSourceResponse& UpdateDataSourceResponse::operator=(const UpdateDataSourceResponse&) = default;
+UpdateDataSourceResponse::UpdateDataSourceResponse(UpdateDataSourceResponse&&) noexcept = default;
+UpdateDataSourceResponse& UpdateDataSourceResponse::operator=(UpdateDataSourceResponse&&) = default;
+
+bool UpdateDataSourceResponse::operator==(const UpdateDataSourceResponse& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_);
+}
+
+bool UpdateDataSourceResponse::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string UpdateDataSourceResponse::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> UpdateDataSourceResponse::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void UpdateDataSourceResponse::Serialize(::protozero::Message* msg) const {
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+UpdateDataSourceRequest::UpdateDataSourceRequest() = default;
+UpdateDataSourceRequest::~UpdateDataSourceRequest() = default;
+UpdateDataSourceRequest::UpdateDataSourceRequest(const UpdateDataSourceRequest&) = default;
+UpdateDataSourceRequest& UpdateDataSourceRequest::operator=(const UpdateDataSourceRequest&) = default;
+UpdateDataSourceRequest::UpdateDataSourceRequest(UpdateDataSourceRequest&&) noexcept = default;
+UpdateDataSourceRequest& UpdateDataSourceRequest::operator=(UpdateDataSourceRequest&&) = default;
+
+bool UpdateDataSourceRequest::operator==(const UpdateDataSourceRequest& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(data_source_descriptor_, other.data_source_descriptor_);
+}
+
+bool UpdateDataSourceRequest::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* data_source_descriptor */:
+ (*data_source_descriptor_).ParseFromArray(field.data(), field.size());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string UpdateDataSourceRequest::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> UpdateDataSourceRequest::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void UpdateDataSourceRequest::Serialize(::protozero::Message* msg) const {
+ // Field 1: data_source_descriptor
+ if (_has_field_[1]) {
+ (*data_source_descriptor_).Serialize(msg->BeginNestedMessage<::protozero::Message>(1));
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+RegisterDataSourceResponse::RegisterDataSourceResponse() = default;
+RegisterDataSourceResponse::~RegisterDataSourceResponse() = default;
+RegisterDataSourceResponse::RegisterDataSourceResponse(const RegisterDataSourceResponse&) = default;
+RegisterDataSourceResponse& RegisterDataSourceResponse::operator=(const RegisterDataSourceResponse&) = default;
+RegisterDataSourceResponse::RegisterDataSourceResponse(RegisterDataSourceResponse&&) noexcept = default;
+RegisterDataSourceResponse& RegisterDataSourceResponse::operator=(RegisterDataSourceResponse&&) = default;
+
+bool RegisterDataSourceResponse::operator==(const RegisterDataSourceResponse& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(error_, other.error_);
+}
+
+bool RegisterDataSourceResponse::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* error */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &error_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string RegisterDataSourceResponse::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> RegisterDataSourceResponse::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void RegisterDataSourceResponse::Serialize(::protozero::Message* msg) const {
+ // Field 1: error
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeString(1, error_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+RegisterDataSourceRequest::RegisterDataSourceRequest() = default;
+RegisterDataSourceRequest::~RegisterDataSourceRequest() = default;
+RegisterDataSourceRequest::RegisterDataSourceRequest(const RegisterDataSourceRequest&) = default;
+RegisterDataSourceRequest& RegisterDataSourceRequest::operator=(const RegisterDataSourceRequest&) = default;
+RegisterDataSourceRequest::RegisterDataSourceRequest(RegisterDataSourceRequest&&) noexcept = default;
+RegisterDataSourceRequest& RegisterDataSourceRequest::operator=(RegisterDataSourceRequest&&) = default;
+
+bool RegisterDataSourceRequest::operator==(const RegisterDataSourceRequest& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(data_source_descriptor_, other.data_source_descriptor_);
+}
+
+bool RegisterDataSourceRequest::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* data_source_descriptor */:
+ (*data_source_descriptor_).ParseFromArray(field.data(), field.size());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string RegisterDataSourceRequest::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> RegisterDataSourceRequest::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void RegisterDataSourceRequest::Serialize(::protozero::Message* msg) const {
+ // Field 1: data_source_descriptor
+ if (_has_field_[1]) {
+ (*data_source_descriptor_).Serialize(msg->BeginNestedMessage<::protozero::Message>(1));
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+InitializeConnectionResponse::InitializeConnectionResponse() = default;
+InitializeConnectionResponse::~InitializeConnectionResponse() = default;
+InitializeConnectionResponse::InitializeConnectionResponse(const InitializeConnectionResponse&) = default;
+InitializeConnectionResponse& InitializeConnectionResponse::operator=(const InitializeConnectionResponse&) = default;
+InitializeConnectionResponse::InitializeConnectionResponse(InitializeConnectionResponse&&) noexcept = default;
+InitializeConnectionResponse& InitializeConnectionResponse::operator=(InitializeConnectionResponse&&) = default;
+
+bool InitializeConnectionResponse::operator==(const InitializeConnectionResponse& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(using_shmem_provided_by_producer_, other.using_shmem_provided_by_producer_)
+ && ::protozero::internal::gen_helpers::EqualsField(direct_smb_patching_supported_, other.direct_smb_patching_supported_)
+ && ::protozero::internal::gen_helpers::EqualsField(use_shmem_emulation_, other.use_shmem_emulation_);
+}
+
+bool InitializeConnectionResponse::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* using_shmem_provided_by_producer */:
+ field.get(&using_shmem_provided_by_producer_);
+ break;
+ case 2 /* direct_smb_patching_supported */:
+ field.get(&direct_smb_patching_supported_);
+ break;
+ case 3 /* use_shmem_emulation */:
+ field.get(&use_shmem_emulation_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string InitializeConnectionResponse::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> InitializeConnectionResponse::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void InitializeConnectionResponse::Serialize(::protozero::Message* msg) const {
+ // Field 1: using_shmem_provided_by_producer
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(1, using_shmem_provided_by_producer_, msg);
+ }
+
+ // Field 2: direct_smb_patching_supported
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(2, direct_smb_patching_supported_, msg);
+ }
+
+ // Field 3: use_shmem_emulation
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(3, use_shmem_emulation_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+InitializeConnectionRequest::InitializeConnectionRequest() = default;
+InitializeConnectionRequest::~InitializeConnectionRequest() = default;
+InitializeConnectionRequest::InitializeConnectionRequest(const InitializeConnectionRequest&) = default;
+InitializeConnectionRequest& InitializeConnectionRequest::operator=(const InitializeConnectionRequest&) = default;
+InitializeConnectionRequest::InitializeConnectionRequest(InitializeConnectionRequest&&) noexcept = default;
+InitializeConnectionRequest& InitializeConnectionRequest::operator=(InitializeConnectionRequest&&) = default;
+
+bool InitializeConnectionRequest::operator==(const InitializeConnectionRequest& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(shared_memory_page_size_hint_bytes_, other.shared_memory_page_size_hint_bytes_)
+ && ::protozero::internal::gen_helpers::EqualsField(shared_memory_size_hint_bytes_, other.shared_memory_size_hint_bytes_)
+ && ::protozero::internal::gen_helpers::EqualsField(producer_name_, other.producer_name_)
+ && ::protozero::internal::gen_helpers::EqualsField(smb_scraping_mode_, other.smb_scraping_mode_)
+ && ::protozero::internal::gen_helpers::EqualsField(producer_provided_shmem_, other.producer_provided_shmem_)
+ && ::protozero::internal::gen_helpers::EqualsField(sdk_version_, other.sdk_version_)
+ && ::protozero::internal::gen_helpers::EqualsField(shm_key_windows_, other.shm_key_windows_);
+}
+
+bool InitializeConnectionRequest::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* shared_memory_page_size_hint_bytes */:
+ field.get(&shared_memory_page_size_hint_bytes_);
+ break;
+ case 2 /* shared_memory_size_hint_bytes */:
+ field.get(&shared_memory_size_hint_bytes_);
+ break;
+ case 3 /* producer_name */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &producer_name_);
+ break;
+ case 4 /* smb_scraping_mode */:
+ field.get(&smb_scraping_mode_);
+ break;
+ case 6 /* producer_provided_shmem */:
+ field.get(&producer_provided_shmem_);
+ break;
+ case 8 /* sdk_version */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &sdk_version_);
+ break;
+ case 7 /* shm_key_windows */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &shm_key_windows_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string InitializeConnectionRequest::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> InitializeConnectionRequest::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void InitializeConnectionRequest::Serialize(::protozero::Message* msg) const {
+ // Field 1: shared_memory_page_size_hint_bytes
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, shared_memory_page_size_hint_bytes_, msg);
+ }
+
+ // Field 2: shared_memory_size_hint_bytes
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, shared_memory_size_hint_bytes_, msg);
+ }
+
+ // Field 3: producer_name
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeString(3, producer_name_, msg);
+ }
+
+ // Field 4: smb_scraping_mode
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(4, smb_scraping_mode_, msg);
+ }
+
+ // Field 6: producer_provided_shmem
+ if (_has_field_[6]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(6, producer_provided_shmem_, msg);
+ }
+
+ // Field 8: sdk_version
+ if (_has_field_[8]) {
+ ::protozero::internal::gen_helpers::SerializeString(8, sdk_version_, msg);
+ }
+
+ // Field 7: shm_key_windows
+ if (_has_field_[7]) {
+ ::protozero::internal::gen_helpers::SerializeString(7, shm_key_windows_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/ipc/relay_port.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/ipc/relay_port.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+SyncClockResponse::SyncClockResponse() = default;
+SyncClockResponse::~SyncClockResponse() = default;
+SyncClockResponse::SyncClockResponse(const SyncClockResponse&) = default;
+SyncClockResponse& SyncClockResponse::operator=(const SyncClockResponse&) = default;
+SyncClockResponse::SyncClockResponse(SyncClockResponse&&) noexcept = default;
+SyncClockResponse& SyncClockResponse::operator=(SyncClockResponse&&) = default;
+
+bool SyncClockResponse::operator==(const SyncClockResponse& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_);
+}
+
+bool SyncClockResponse::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string SyncClockResponse::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> SyncClockResponse::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void SyncClockResponse::Serialize(::protozero::Message* msg) const {
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+SyncClockRequest::SyncClockRequest() = default;
+SyncClockRequest::~SyncClockRequest() = default;
+SyncClockRequest::SyncClockRequest(const SyncClockRequest&) = default;
+SyncClockRequest& SyncClockRequest::operator=(const SyncClockRequest&) = default;
+SyncClockRequest::SyncClockRequest(SyncClockRequest&&) noexcept = default;
+SyncClockRequest& SyncClockRequest::operator=(SyncClockRequest&&) = default;
+
+bool SyncClockRequest::operator==(const SyncClockRequest& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(phase_, other.phase_)
+ && ::protozero::internal::gen_helpers::EqualsField(clocks_, other.clocks_);
+}
+
+int SyncClockRequest::clocks_size() const { return static_cast<int>(clocks_.size()); }
+void SyncClockRequest::clear_clocks() { clocks_.clear(); }
+SyncClockRequest_Clock* SyncClockRequest::add_clocks() { clocks_.emplace_back(); return &clocks_.back(); }
+bool SyncClockRequest::ParseFromArray(const void* raw, size_t size) {
+ clocks_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* phase */:
+ field.get(&phase_);
+ break;
+ case 2 /* clocks */:
+ clocks_.emplace_back();
+ clocks_.back().ParseFromArray(field.data(), field.size());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string SyncClockRequest::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> SyncClockRequest::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void SyncClockRequest::Serialize(::protozero::Message* msg) const {
+ // Field 1: phase
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, phase_, msg);
+ }
+
+ // Field 2: clocks
+ for (auto& it : clocks_) {
+ it.Serialize(msg->BeginNestedMessage<::protozero::Message>(2));
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+SyncClockRequest_Clock::SyncClockRequest_Clock() = default;
+SyncClockRequest_Clock::~SyncClockRequest_Clock() = default;
+SyncClockRequest_Clock::SyncClockRequest_Clock(const SyncClockRequest_Clock&) = default;
+SyncClockRequest_Clock& SyncClockRequest_Clock::operator=(const SyncClockRequest_Clock&) = default;
+SyncClockRequest_Clock::SyncClockRequest_Clock(SyncClockRequest_Clock&&) noexcept = default;
+SyncClockRequest_Clock& SyncClockRequest_Clock::operator=(SyncClockRequest_Clock&&) = default;
+
+bool SyncClockRequest_Clock::operator==(const SyncClockRequest_Clock& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(clock_id_, other.clock_id_)
+ && ::protozero::internal::gen_helpers::EqualsField(timestamp_, other.timestamp_);
+}
+
+bool SyncClockRequest_Clock::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* clock_id */:
+ field.get(&clock_id_);
+ break;
+ case 2 /* timestamp */:
+ field.get(&timestamp_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string SyncClockRequest_Clock::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> SyncClockRequest_Clock::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void SyncClockRequest_Clock::Serialize(::protozero::Message* msg) const {
+ // Field 1: clock_id
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, clock_id_, msg);
+ }
+
+ // Field 2: timestamp
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, timestamp_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: gen/protos/perfetto/ipc/wire_protocol.gen.cc
+// gen_amalgamated expanded: #include "perfetto/protozero/gen_field_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wfloat-equal"
+#endif
+// gen_amalgamated expanded: #include "protos/perfetto/ipc/wire_protocol.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+IPCFrame::IPCFrame() = default;
+IPCFrame::~IPCFrame() = default;
+IPCFrame::IPCFrame(const IPCFrame&) = default;
+IPCFrame& IPCFrame::operator=(const IPCFrame&) = default;
+IPCFrame::IPCFrame(IPCFrame&&) noexcept = default;
+IPCFrame& IPCFrame::operator=(IPCFrame&&) = default;
+
+bool IPCFrame::operator==(const IPCFrame& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(request_id_, other.request_id_)
+ && ::protozero::internal::gen_helpers::EqualsField(msg_bind_service_, other.msg_bind_service_)
+ && ::protozero::internal::gen_helpers::EqualsField(msg_bind_service_reply_, other.msg_bind_service_reply_)
+ && ::protozero::internal::gen_helpers::EqualsField(msg_invoke_method_, other.msg_invoke_method_)
+ && ::protozero::internal::gen_helpers::EqualsField(msg_invoke_method_reply_, other.msg_invoke_method_reply_)
+ && ::protozero::internal::gen_helpers::EqualsField(msg_request_error_, other.msg_request_error_)
+ && ::protozero::internal::gen_helpers::EqualsField(set_peer_identity_, other.set_peer_identity_)
+ && ::protozero::internal::gen_helpers::EqualsField(data_for_testing_, other.data_for_testing_);
+}
+
+bool IPCFrame::ParseFromArray(const void* raw, size_t size) {
+ data_for_testing_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 2 /* request_id */:
+ field.get(&request_id_);
+ break;
+ case 3 /* msg_bind_service */:
+ (*msg_bind_service_).ParseFromArray(field.data(), field.size());
+ break;
+ case 4 /* msg_bind_service_reply */:
+ (*msg_bind_service_reply_).ParseFromArray(field.data(), field.size());
+ break;
+ case 5 /* msg_invoke_method */:
+ (*msg_invoke_method_).ParseFromArray(field.data(), field.size());
+ break;
+ case 6 /* msg_invoke_method_reply */:
+ (*msg_invoke_method_reply_).ParseFromArray(field.data(), field.size());
+ break;
+ case 7 /* msg_request_error */:
+ (*msg_request_error_).ParseFromArray(field.data(), field.size());
+ break;
+ case 8 /* set_peer_identity */:
+ (*set_peer_identity_).ParseFromArray(field.data(), field.size());
+ break;
+ case 1 /* data_for_testing */:
+ data_for_testing_.emplace_back();
+ field.get(&data_for_testing_.back());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string IPCFrame::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> IPCFrame::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void IPCFrame::Serialize(::protozero::Message* msg) const {
+ // Field 2: request_id
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, request_id_, msg);
+ }
+
+ // Field 3: msg_bind_service
+ if (_has_field_[3]) {
+ (*msg_bind_service_).Serialize(msg->BeginNestedMessage<::protozero::Message>(3));
+ }
+
+ // Field 4: msg_bind_service_reply
+ if (_has_field_[4]) {
+ (*msg_bind_service_reply_).Serialize(msg->BeginNestedMessage<::protozero::Message>(4));
+ }
+
+ // Field 5: msg_invoke_method
+ if (_has_field_[5]) {
+ (*msg_invoke_method_).Serialize(msg->BeginNestedMessage<::protozero::Message>(5));
+ }
+
+ // Field 6: msg_invoke_method_reply
+ if (_has_field_[6]) {
+ (*msg_invoke_method_reply_).Serialize(msg->BeginNestedMessage<::protozero::Message>(6));
+ }
+
+ // Field 7: msg_request_error
+ if (_has_field_[7]) {
+ (*msg_request_error_).Serialize(msg->BeginNestedMessage<::protozero::Message>(7));
+ }
+
+ // Field 8: set_peer_identity
+ if (_has_field_[8]) {
+ (*set_peer_identity_).Serialize(msg->BeginNestedMessage<::protozero::Message>(8));
+ }
+
+ // Field 1: data_for_testing
+ for (auto& it : data_for_testing_) {
+ ::protozero::internal::gen_helpers::SerializeString(1, it, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+IPCFrame_SetPeerIdentity::IPCFrame_SetPeerIdentity() = default;
+IPCFrame_SetPeerIdentity::~IPCFrame_SetPeerIdentity() = default;
+IPCFrame_SetPeerIdentity::IPCFrame_SetPeerIdentity(const IPCFrame_SetPeerIdentity&) = default;
+IPCFrame_SetPeerIdentity& IPCFrame_SetPeerIdentity::operator=(const IPCFrame_SetPeerIdentity&) = default;
+IPCFrame_SetPeerIdentity::IPCFrame_SetPeerIdentity(IPCFrame_SetPeerIdentity&&) noexcept = default;
+IPCFrame_SetPeerIdentity& IPCFrame_SetPeerIdentity::operator=(IPCFrame_SetPeerIdentity&&) = default;
+
+bool IPCFrame_SetPeerIdentity::operator==(const IPCFrame_SetPeerIdentity& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(pid_, other.pid_)
+ && ::protozero::internal::gen_helpers::EqualsField(uid_, other.uid_)
+ && ::protozero::internal::gen_helpers::EqualsField(machine_id_hint_, other.machine_id_hint_);
+}
+
+bool IPCFrame_SetPeerIdentity::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* pid */:
+ field.get(&pid_);
+ break;
+ case 2 /* uid */:
+ field.get(&uid_);
+ break;
+ case 3 /* machine_id_hint */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &machine_id_hint_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string IPCFrame_SetPeerIdentity::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> IPCFrame_SetPeerIdentity::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void IPCFrame_SetPeerIdentity::Serialize(::protozero::Message* msg) const {
+ // Field 1: pid
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, pid_, msg);
+ }
+
+ // Field 2: uid
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, uid_, msg);
+ }
+
+ // Field 3: machine_id_hint
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeString(3, machine_id_hint_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+IPCFrame_RequestError::IPCFrame_RequestError() = default;
+IPCFrame_RequestError::~IPCFrame_RequestError() = default;
+IPCFrame_RequestError::IPCFrame_RequestError(const IPCFrame_RequestError&) = default;
+IPCFrame_RequestError& IPCFrame_RequestError::operator=(const IPCFrame_RequestError&) = default;
+IPCFrame_RequestError::IPCFrame_RequestError(IPCFrame_RequestError&&) noexcept = default;
+IPCFrame_RequestError& IPCFrame_RequestError::operator=(IPCFrame_RequestError&&) = default;
+
+bool IPCFrame_RequestError::operator==(const IPCFrame_RequestError& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(error_, other.error_);
+}
+
+bool IPCFrame_RequestError::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* error */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &error_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string IPCFrame_RequestError::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> IPCFrame_RequestError::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void IPCFrame_RequestError::Serialize(::protozero::Message* msg) const {
+ // Field 1: error
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeString(1, error_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+IPCFrame_InvokeMethodReply::IPCFrame_InvokeMethodReply() = default;
+IPCFrame_InvokeMethodReply::~IPCFrame_InvokeMethodReply() = default;
+IPCFrame_InvokeMethodReply::IPCFrame_InvokeMethodReply(const IPCFrame_InvokeMethodReply&) = default;
+IPCFrame_InvokeMethodReply& IPCFrame_InvokeMethodReply::operator=(const IPCFrame_InvokeMethodReply&) = default;
+IPCFrame_InvokeMethodReply::IPCFrame_InvokeMethodReply(IPCFrame_InvokeMethodReply&&) noexcept = default;
+IPCFrame_InvokeMethodReply& IPCFrame_InvokeMethodReply::operator=(IPCFrame_InvokeMethodReply&&) = default;
+
+bool IPCFrame_InvokeMethodReply::operator==(const IPCFrame_InvokeMethodReply& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(success_, other.success_)
+ && ::protozero::internal::gen_helpers::EqualsField(has_more_, other.has_more_)
+ && ::protozero::internal::gen_helpers::EqualsField(reply_proto_, other.reply_proto_);
+}
+
+bool IPCFrame_InvokeMethodReply::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* success */:
+ field.get(&success_);
+ break;
+ case 2 /* has_more */:
+ field.get(&has_more_);
+ break;
+ case 3 /* reply_proto */:
+ field.get(&reply_proto_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string IPCFrame_InvokeMethodReply::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> IPCFrame_InvokeMethodReply::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void IPCFrame_InvokeMethodReply::Serialize(::protozero::Message* msg) const {
+ // Field 1: success
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(1, success_, msg);
+ }
+
+ // Field 2: has_more
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(2, has_more_, msg);
+ }
+
+ // Field 3: reply_proto
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeString(3, reply_proto_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+IPCFrame_InvokeMethod::IPCFrame_InvokeMethod() = default;
+IPCFrame_InvokeMethod::~IPCFrame_InvokeMethod() = default;
+IPCFrame_InvokeMethod::IPCFrame_InvokeMethod(const IPCFrame_InvokeMethod&) = default;
+IPCFrame_InvokeMethod& IPCFrame_InvokeMethod::operator=(const IPCFrame_InvokeMethod&) = default;
+IPCFrame_InvokeMethod::IPCFrame_InvokeMethod(IPCFrame_InvokeMethod&&) noexcept = default;
+IPCFrame_InvokeMethod& IPCFrame_InvokeMethod::operator=(IPCFrame_InvokeMethod&&) = default;
+
+bool IPCFrame_InvokeMethod::operator==(const IPCFrame_InvokeMethod& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(service_id_, other.service_id_)
+ && ::protozero::internal::gen_helpers::EqualsField(method_id_, other.method_id_)
+ && ::protozero::internal::gen_helpers::EqualsField(args_proto_, other.args_proto_)
+ && ::protozero::internal::gen_helpers::EqualsField(drop_reply_, other.drop_reply_);
+}
+
+bool IPCFrame_InvokeMethod::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* service_id */:
+ field.get(&service_id_);
+ break;
+ case 2 /* method_id */:
+ field.get(&method_id_);
+ break;
+ case 3 /* args_proto */:
+ field.get(&args_proto_);
+ break;
+ case 4 /* drop_reply */:
+ field.get(&drop_reply_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string IPCFrame_InvokeMethod::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> IPCFrame_InvokeMethod::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void IPCFrame_InvokeMethod::Serialize(::protozero::Message* msg) const {
+ // Field 1: service_id
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, service_id_, msg);
+ }
+
+ // Field 2: method_id
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, method_id_, msg);
+ }
+
+ // Field 3: args_proto
+ if (_has_field_[3]) {
+ ::protozero::internal::gen_helpers::SerializeString(3, args_proto_, msg);
+ }
+
+ // Field 4: drop_reply
+ if (_has_field_[4]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(4, drop_reply_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+IPCFrame_BindServiceReply::IPCFrame_BindServiceReply() = default;
+IPCFrame_BindServiceReply::~IPCFrame_BindServiceReply() = default;
+IPCFrame_BindServiceReply::IPCFrame_BindServiceReply(const IPCFrame_BindServiceReply&) = default;
+IPCFrame_BindServiceReply& IPCFrame_BindServiceReply::operator=(const IPCFrame_BindServiceReply&) = default;
+IPCFrame_BindServiceReply::IPCFrame_BindServiceReply(IPCFrame_BindServiceReply&&) noexcept = default;
+IPCFrame_BindServiceReply& IPCFrame_BindServiceReply::operator=(IPCFrame_BindServiceReply&&) = default;
+
+bool IPCFrame_BindServiceReply::operator==(const IPCFrame_BindServiceReply& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(success_, other.success_)
+ && ::protozero::internal::gen_helpers::EqualsField(service_id_, other.service_id_)
+ && ::protozero::internal::gen_helpers::EqualsField(methods_, other.methods_);
+}
+
+int IPCFrame_BindServiceReply::methods_size() const { return static_cast<int>(methods_.size()); }
+void IPCFrame_BindServiceReply::clear_methods() { methods_.clear(); }
+IPCFrame_BindServiceReply_MethodInfo* IPCFrame_BindServiceReply::add_methods() { methods_.emplace_back(); return &methods_.back(); }
+bool IPCFrame_BindServiceReply::ParseFromArray(const void* raw, size_t size) {
+ methods_.clear();
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* success */:
+ field.get(&success_);
+ break;
+ case 2 /* service_id */:
+ field.get(&service_id_);
+ break;
+ case 3 /* methods */:
+ methods_.emplace_back();
+ methods_.back().ParseFromArray(field.data(), field.size());
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string IPCFrame_BindServiceReply::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> IPCFrame_BindServiceReply::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void IPCFrame_BindServiceReply::Serialize(::protozero::Message* msg) const {
+ // Field 1: success
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeTinyVarInt(1, success_, msg);
+ }
+
+ // Field 2: service_id
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(2, service_id_, msg);
+ }
+
+ // Field 3: methods
+ for (auto& it : methods_) {
+ it.Serialize(msg->BeginNestedMessage<::protozero::Message>(3));
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+IPCFrame_BindServiceReply_MethodInfo::IPCFrame_BindServiceReply_MethodInfo() = default;
+IPCFrame_BindServiceReply_MethodInfo::~IPCFrame_BindServiceReply_MethodInfo() = default;
+IPCFrame_BindServiceReply_MethodInfo::IPCFrame_BindServiceReply_MethodInfo(const IPCFrame_BindServiceReply_MethodInfo&) = default;
+IPCFrame_BindServiceReply_MethodInfo& IPCFrame_BindServiceReply_MethodInfo::operator=(const IPCFrame_BindServiceReply_MethodInfo&) = default;
+IPCFrame_BindServiceReply_MethodInfo::IPCFrame_BindServiceReply_MethodInfo(IPCFrame_BindServiceReply_MethodInfo&&) noexcept = default;
+IPCFrame_BindServiceReply_MethodInfo& IPCFrame_BindServiceReply_MethodInfo::operator=(IPCFrame_BindServiceReply_MethodInfo&&) = default;
+
+bool IPCFrame_BindServiceReply_MethodInfo::operator==(const IPCFrame_BindServiceReply_MethodInfo& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(id_, other.id_)
+ && ::protozero::internal::gen_helpers::EqualsField(name_, other.name_);
+}
+
+bool IPCFrame_BindServiceReply_MethodInfo::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* id */:
+ field.get(&id_);
+ break;
+ case 2 /* name */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &name_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string IPCFrame_BindServiceReply_MethodInfo::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> IPCFrame_BindServiceReply_MethodInfo::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void IPCFrame_BindServiceReply_MethodInfo::Serialize(::protozero::Message* msg) const {
+ // Field 1: id
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeVarInt(1, id_, msg);
+ }
+
+ // Field 2: name
+ if (_has_field_[2]) {
+ ::protozero::internal::gen_helpers::SerializeString(2, name_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+
+IPCFrame_BindService::IPCFrame_BindService() = default;
+IPCFrame_BindService::~IPCFrame_BindService() = default;
+IPCFrame_BindService::IPCFrame_BindService(const IPCFrame_BindService&) = default;
+IPCFrame_BindService& IPCFrame_BindService::operator=(const IPCFrame_BindService&) = default;
+IPCFrame_BindService::IPCFrame_BindService(IPCFrame_BindService&&) noexcept = default;
+IPCFrame_BindService& IPCFrame_BindService::operator=(IPCFrame_BindService&&) = default;
+
+bool IPCFrame_BindService::operator==(const IPCFrame_BindService& other) const {
+ return ::protozero::internal::gen_helpers::EqualsField(unknown_fields_, other.unknown_fields_)
+ && ::protozero::internal::gen_helpers::EqualsField(service_name_, other.service_name_);
+}
+
+bool IPCFrame_BindService::ParseFromArray(const void* raw, size_t size) {
+ unknown_fields_.clear();
+ bool packed_error = false;
+
+ ::protozero::ProtoDecoder dec(raw, size);
+ for (auto field = dec.ReadField(); field.valid(); field = dec.ReadField()) {
+ if (field.id() < _has_field_.size()) {
+ _has_field_.set(field.id());
+ }
+ switch (field.id()) {
+ case 1 /* service_name */:
+ ::protozero::internal::gen_helpers::DeserializeString(field, &service_name_);
+ break;
+ default:
+ field.SerializeAndAppendTo(&unknown_fields_);
+ break;
+ }
+ }
+ return !packed_error && !dec.bytes_left();
+}
+
+std::string IPCFrame_BindService::SerializeAsString() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsString();
+}
+
+std::vector<uint8_t> IPCFrame_BindService::SerializeAsArray() const {
+ ::protozero::internal::gen_helpers::MessageSerializer msg;
+ Serialize(msg.get());
+ return msg.SerializeAsArray();
+}
+
+void IPCFrame_BindService::Serialize(::protozero::Message* msg) const {
+ // Field 1: service_name
+ if (_has_field_[1]) {
+ ::protozero::internal::gen_helpers::SerializeString(1, service_name_, msg);
+ }
+
+ protozero::internal::gen_helpers::SerializeUnknownFields(unknown_fields_, msg);
+}
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC diagnostic pop
+#endif
+// gen_amalgamated begin source: src/base/unix_socket.cc
+// gen_amalgamated begin header: include/perfetto/ext/base/unix_socket.h
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_BASE_UNIX_SOCKET_H_
+#define INCLUDE_PERFETTO_EXT_BASE_UNIX_SOCKET_H_
+
+#include <stdint.h>
+#include <sys/types.h>
+
+#include <memory>
+#include <string>
+#include <utility>
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+// gen_amalgamated expanded: #include "perfetto/base/compiler.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/base/platform_handle.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/scoped_file.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/utils.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/weak_ptr.h"
+
+struct msghdr;
+
+namespace perfetto {
+namespace base {
+
+// Define the ScopedSocketHandle type.
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+int CloseSocket(SocketHandle); // A wrapper around ::closesocket().
+using ScopedSocketHandle =
+ ScopedResource<SocketHandle, CloseSocket, static_cast<SocketHandle>(-1)>;
+#else
+using ScopedSocketHandle = ScopedFile;
+#endif
+
+class TaskRunner;
+
+// Use arbitrarily high values to avoid that some code accidentally ends up
+// assuming that these enum values match the sysroot's SOCK_xxx defines rather
+// than using MkSockType() / MkSockFamily().
+enum class SockType { kStream = 100, kDgram, kSeqPacket };
+enum class SockFamily { kUnspec = 0, kUnix = 200, kInet, kInet6, kVsock };
+
+// Controls the getsockopt(SO_PEERCRED) behavior, which allows to obtain the
+// peer credentials.
+enum class SockPeerCredMode {
+ // Obtain the peer credentials immediately after connection and cache them.
+ kReadOnConnect = 0,
+
+ // Don't read peer credentials at all. Calls to peer_uid()/peer_pid() will
+ // hit a DCHECK and return kInvalidUid/Pid in release builds.
+ kIgnore = 1,
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_FUCHSIA)
+ kDefault = kIgnore,
+#else
+ kDefault = kReadOnConnect,
+#endif
+};
+
+// Returns the socket family from the full addres that perfetto uses.
+// Addr can be:
+// - /path/to/socket : for linked AF_UNIX sockets.
+// - @abstract_name : for abstract AF_UNIX sockets.
+// - 1.2.3.4:8080 : for Inet sockets.
+// - [::1]:8080 : for Inet6 sockets.
+// - vsock://-1:3000 : for VM sockets.
+SockFamily GetSockFamily(const char* addr);
+
+// Returns whether inter-process shared memory is supported for the socket.
+inline bool SockShmemSupported(SockFamily sock_family) {
+#if !PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ return sock_family == SockFamily::kUnix;
+#else
+ base::ignore_result(sock_family);
+ // On Windows shm is negotiated by sharing an unguessable token
+ // over TCP sockets. In theory works on any socket type, in practice
+ // we need to tell the difference between a local and a remote
+ // connection. For now we assume everything is local.
+ // See comments on r.android.com/2951909 .
+ return true;
+#endif
+}
+inline bool SockShmemSupported(const char* addr) {
+ return SockShmemSupported(GetSockFamily(addr));
+}
+
+// UnixSocketRaw is a basic wrapper around sockets. It exposes wrapper
+// methods that take care of most common pitfalls (e.g., marking fd as
+// O_CLOEXEC, avoiding SIGPIPE, properly handling partial writes). It is used as
+// a building block for the more sophisticated UnixSocket class which depends
+// on base::TaskRunner.
+class UnixSocketRaw {
+ public:
+ // Creates a new unconnected unix socket.
+ static UnixSocketRaw CreateMayFail(SockFamily family, SockType type);
+
+#if !PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ // Crates a pair of connected sockets.
+ static std::pair<UnixSocketRaw, UnixSocketRaw> CreatePairPosix(SockFamily,
+ SockType);
+#endif
+
+ // Creates an uninitialized unix socket.
+ UnixSocketRaw();
+
+ // Creates a unix socket adopting an existing file descriptor. This is
+ // typically used to inherit fds from init via environment variables.
+ UnixSocketRaw(ScopedSocketHandle, SockFamily, SockType);
+
+ ~UnixSocketRaw() = default;
+ UnixSocketRaw(UnixSocketRaw&&) noexcept = default;
+ UnixSocketRaw& operator=(UnixSocketRaw&&) = default;
+
+ bool Bind(const std::string& socket_name);
+ bool Listen();
+ bool Connect(const std::string& socket_name);
+ bool SetTxTimeout(uint32_t timeout_ms);
+ bool SetRxTimeout(uint32_t timeout_ms);
+ void Shutdown();
+ void SetBlocking(bool);
+ void DcheckIsBlocking(bool expected) const; // No-op on release and Win.
+ void SetRetainOnExec(bool retain);
+ std::string GetSockAddr() const;
+ SockType type() const { return type_; }
+ SockFamily family() const { return family_; }
+ SocketHandle fd() const { return *fd_; }
+ explicit operator bool() const { return !!fd_; }
+
+ // This is the handle that passed to TaskRunner.AddFileDescriptorWatch().
+ // On UNIX this is just the socket FD. On Windows, we need to create a
+ // dedicated event object.
+ PlatformHandle watch_handle() const {
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ return *event_handle_;
+#else
+ return *fd_;
+#endif
+ }
+
+ ScopedSocketHandle ReleaseFd() { return std::move(fd_); }
+
+ // |send_fds| and |num_fds| are ignored on Windows.
+ ssize_t Send(const void* msg,
+ size_t len,
+ const int* send_fds = nullptr,
+ size_t num_fds = 0);
+
+ ssize_t SendStr(const std::string& str) {
+ return Send(str.data(), str.size());
+ }
+
+ // |fd_vec| and |max_files| are ignored on Windows.
+ ssize_t Receive(void* msg,
+ size_t len,
+ ScopedFile* fd_vec = nullptr,
+ size_t max_files = 0);
+
+#if !PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ // UNIX-specific helpers to deal with SCM_RIGHTS.
+
+ // Re-enter sendmsg until all the data has been sent or an error occurs.
+ // TODO(fmayer): Figure out how to do timeouts here for heapprofd.
+ ssize_t SendMsgAllPosix(struct msghdr* msg);
+
+ // Exposed for testing only.
+ // Update msghdr so subsequent sendmsg will send data that remains after n
+ // bytes have already been sent.
+ static void ShiftMsgHdrPosix(size_t n, struct msghdr* msg);
+#endif
+
+ private:
+ UnixSocketRaw(SockFamily, SockType);
+
+ UnixSocketRaw(const UnixSocketRaw&) = delete;
+ UnixSocketRaw& operator=(const UnixSocketRaw&) = delete;
+
+ ScopedSocketHandle fd_;
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ ScopedPlatformHandle event_handle_;
+#endif
+ SockFamily family_ = SockFamily::kUnix;
+ SockType type_ = SockType::kStream;
+ uint32_t tx_timeout_ms_ = 0;
+};
+
+// A non-blocking UNIX domain socket. Allows also to transfer file descriptors.
+// None of the methods in this class are blocking.
+// The main design goal is making strong guarantees on the EventListener
+// callbacks, in order to avoid ending in some undefined state.
+// In case of any error it will aggressively just shut down the socket and
+// notify the failure with OnConnect(false) or OnDisconnect() depending on the
+// state of the socket (see below).
+// EventListener callbacks stop happening as soon as the instance is destroyed.
+//
+// Lifecycle of a client socket:
+//
+// Connect()
+// |
+// +------------------+------------------+
+// | (success) | (failure or Shutdown())
+// V V
+// OnConnect(true) OnConnect(false)
+// |
+// V
+// OnDataAvailable()
+// |
+// V
+// OnDisconnect() (failure or shutdown)
+//
+//
+// Lifecycle of a server socket:
+//
+// Listen() --> returns false in case of errors.
+// |
+// V
+// OnNewIncomingConnection(new_socket)
+//
+// (|new_socket| inherits the same EventListener)
+// |
+// V
+// OnDataAvailable()
+// | (failure or Shutdown())
+// V
+// OnDisconnect()
+class PERFETTO_EXPORT_COMPONENT UnixSocket {
+ public:
+ class EventListener {
+ public:
+ EventListener() = default;
+ virtual ~EventListener();
+
+ EventListener(const EventListener&) = delete;
+ EventListener& operator=(const EventListener&) = delete;
+
+ EventListener(EventListener&&) noexcept = default;
+ EventListener& operator=(EventListener&&) noexcept = default;
+
+ // After Listen().
+ // |self| may be null if the connection was not accepted via a listen
+ // socket.
+ virtual void OnNewIncomingConnection(
+ UnixSocket* self,
+ std::unique_ptr<UnixSocket> new_connection);
+
+ // After Connect(), whether successful or not.
+ virtual void OnConnect(UnixSocket* self, bool connected);
+
+ // After a successful Connect() or OnNewIncomingConnection(). Either the
+ // other endpoint did disconnect or some other error happened.
+ virtual void OnDisconnect(UnixSocket* self);
+
+ // Whenever there is data available to Receive(). Note that spurious FD
+ // watch events are possible, so it is possible that Receive() soon after
+ // OnDataAvailable() returns 0 (just ignore those).
+ virtual void OnDataAvailable(UnixSocket* self);
+ };
+
+ enum class State {
+ kDisconnected = 0, // Failed connection, peer disconnection or Shutdown().
+ kConnecting, // Soon after Connect(), before it either succeeds or fails.
+ kConnected, // After a successful Connect().
+ kListening // After Listen(), until Shutdown().
+ };
+
+ // Creates a socket and starts listening. If SockFamily::kUnix and
+ // |socket_name| starts with a '@', an abstract UNIX dmoain socket will be
+ // created instead of a filesystem-linked UNIX socket (Linux/Android only).
+ // If SockFamily::kInet, |socket_name| is host:port (e.g., "1.2.3.4:8000").
+ // If SockFamily::kInet6, |socket_name| is [host]:port (e.g., "[::1]:8000").
+ // Returns nullptr if the socket creation or bind fails. If listening fails,
+ // (e.g. if another socket with the same name is already listening) the
+ // returned socket will have is_listening() == false.
+ static std::unique_ptr<UnixSocket> Listen(const std::string& socket_name,
+ EventListener*,
+ TaskRunner*,
+ SockFamily,
+ SockType);
+
+ // Attaches to a pre-existing socket. The socket must have been created in
+ // SOCK_STREAM mode and the caller must have called bind() on it.
+ static std::unique_ptr<UnixSocket> Listen(ScopedSocketHandle,
+ EventListener*,
+ TaskRunner*,
+ SockFamily,
+ SockType);
+
+ // Creates a Unix domain socket and connects to the listening endpoint.
+ // Returns always an instance. EventListener::OnConnect(bool success) will
+ // be called always, whether the connection succeeded or not.
+ static std::unique_ptr<UnixSocket> Connect(
+ const std::string& socket_name,
+ EventListener*,
+ TaskRunner*,
+ SockFamily,
+ SockType,
+ SockPeerCredMode = SockPeerCredMode::kDefault);
+
+ // Constructs a UnixSocket using the given connected socket.
+ static std::unique_ptr<UnixSocket> AdoptConnected(
+ ScopedSocketHandle,
+ EventListener*,
+ TaskRunner*,
+ SockFamily,
+ SockType,
+ SockPeerCredMode = SockPeerCredMode::kDefault);
+
+ UnixSocket(const UnixSocket&) = delete;
+ UnixSocket& operator=(const UnixSocket&) = delete;
+ // Cannot be easily moved because of tasks from the FileDescriptorWatch.
+ UnixSocket(UnixSocket&&) = delete;
+ UnixSocket& operator=(UnixSocket&&) = delete;
+
+ // This class gives the hard guarantee that no callback is called on the
+ // passed EventListener immediately after the object has been destroyed.
+ // Any queued callback will be silently dropped.
+ ~UnixSocket();
+
+ // Shuts down the current connection, if any. If the socket was Listen()-ing,
+ // stops listening. The socket goes back to kNotInitialized state, so it can
+ // be reused with Listen() or Connect().
+ void Shutdown(bool notify);
+
+ void SetTxTimeout(uint32_t timeout_ms) {
+ PERFETTO_CHECK(sock_raw_.SetTxTimeout(timeout_ms));
+ }
+ void SetRxTimeout(uint32_t timeout_ms) {
+ PERFETTO_CHECK(sock_raw_.SetRxTimeout(timeout_ms));
+ }
+
+ std::string GetSockAddr() const { return sock_raw_.GetSockAddr(); }
+
+ // Returns true is the message was queued, false if there was no space in the
+ // output buffer, in which case the client should retry or give up.
+ // If any other error happens the socket will be shutdown and
+ // EventListener::OnDisconnect() will be called.
+ // If the socket is not connected, Send() will just return false.
+ // Does not append a null string terminator to msg in any case.
+ bool Send(const void* msg, size_t len, const int* send_fds, size_t num_fds);
+
+ inline bool Send(const void* msg, size_t len, int send_fd = -1) {
+ if (send_fd != -1)
+ return Send(msg, len, &send_fd, 1);
+ return Send(msg, len, nullptr, 0);
+ }
+
+ inline bool SendStr(const std::string& msg) {
+ return Send(msg.data(), msg.size(), -1);
+ }
+
+ // Returns the number of bytes (<= |len|) written in |msg| or 0 if there
+ // is no data in the buffer to read or an error occurs (in which case a
+ // EventListener::OnDisconnect() will follow).
+ // If the ScopedFile pointer is not null and a FD is received, it moves the
+ // received FD into that. If a FD is received but the ScopedFile pointer is
+ // null, the FD will be automatically closed.
+ size_t Receive(void* msg, size_t len, ScopedFile*, size_t max_files = 1);
+
+ inline size_t Receive(void* msg, size_t len) {
+ return Receive(msg, len, nullptr, 0);
+ }
+
+ // Only for tests. This is slower than Receive() as it requires a heap
+ // allocation and a copy for the std::string. Guarantees that the returned
+ // string is null terminated even if the underlying message sent by the peer
+ // is not.
+ std::string ReceiveString(size_t max_length = 1024);
+
+ bool is_connected() const { return state_ == State::kConnected; }
+ bool is_listening() const { return state_ == State::kListening; }
+ SocketHandle fd() const { return sock_raw_.fd(); }
+ SockFamily family() const { return sock_raw_.family(); }
+
+ // User ID of the peer, as returned by the kernel. If the client disconnects
+ // and the socket goes into the kDisconnected state, it retains the uid of
+ // the last peer.
+#if !PERFETTO_BUILDFLAG(PERFETTO_OS_WIN) && \
+ !PERFETTO_BUILDFLAG(PERFETTO_OS_FUCHSIA)
+ uid_t peer_uid_posix(bool skip_check_for_testing = false) const {
+ PERFETTO_DCHECK((!is_listening() && peer_uid_ != kInvalidUid) ||
+ skip_check_for_testing);
+
+ return peer_uid_;
+ }
+#endif
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_LINUX) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID)
+ // Process ID of the peer, as returned by the kernel. If the client
+ // disconnects and the socket goes into the kDisconnected state, it
+ // retains the pid of the last peer.
+ //
+ // This is only available on Linux / Android.
+ pid_t peer_pid_linux(bool skip_check_for_testing = false) const {
+ PERFETTO_DCHECK((!is_listening() && peer_pid_ != kInvalidPid) ||
+ skip_check_for_testing);
+ return peer_pid_;
+ }
+#endif
+
+ // This makes the UnixSocket unusable.
+ UnixSocketRaw ReleaseSocket();
+
+ private:
+ UnixSocket(EventListener*,
+ TaskRunner*,
+ SockFamily,
+ SockType,
+ SockPeerCredMode);
+ UnixSocket(EventListener*,
+ TaskRunner*,
+ ScopedSocketHandle,
+ State,
+ SockFamily,
+ SockType,
+ SockPeerCredMode);
+
+ // Called once by the corresponding public static factory methods.
+ void DoConnect(const std::string& socket_name);
+
+#if !PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ void ReadPeerCredentialsPosix();
+#endif
+
+ void OnEvent();
+ void NotifyConnectionState(bool success);
+
+ UnixSocketRaw sock_raw_;
+ State state_ = State::kDisconnected;
+ SockPeerCredMode peer_cred_mode_ = SockPeerCredMode::kDefault;
+
+#if !PERFETTO_BUILDFLAG(PERFETTO_OS_WIN) && \
+ !PERFETTO_BUILDFLAG(PERFETTO_OS_FUCHSIA)
+ uid_t peer_uid_ = kInvalidUid;
+#endif
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_LINUX) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID)
+ pid_t peer_pid_ = kInvalidPid;
+#endif
+ EventListener* const event_listener_;
+ TaskRunner* const task_runner_;
+ WeakPtrFactory<UnixSocket> weak_ptr_factory_; // Keep last.
+};
+
+} // namespace base
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_BASE_UNIX_SOCKET_H_
+// gen_amalgamated begin header: src/base/vm_sockets.h
+/*
+ * Copyright (C) 2023 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef SRC_BASE_VM_SOCKETS_H_
+#define SRC_BASE_VM_SOCKETS_H_
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_LINUX) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID)
+
+#include <sys/socket.h>
+
+#ifdef AF_VSOCK
+// Use system vm_socket.h if avaialbe.
+#include <linux/vm_sockets.h>
+#else // defined(AF_SOCK)
+// Fallback and use the stripped copy from the UAPI vm_sockets.h.
+
+#include <stdint.h> // For uint8_t.
+
+#define AF_VSOCK 40
+
+struct sockaddr_vm {
+ sa_family_t svm_family;
+ unsigned short svm_reserved1;
+ unsigned int svm_port;
+ unsigned int svm_cid;
+ uint8_t svm_flags;
+ unsigned char svm_zero[sizeof(struct sockaddr) - sizeof(sa_family_t) -
+ sizeof(unsigned short) - sizeof(unsigned int) -
+ sizeof(unsigned int) - sizeof(uint8_t)];
+};
+
+#endif // defined(AF_SOCK)
+
+#endif // PERFETTO_BUILDFLAG(PERFETTO_OS_LINUX) ||
+ // PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID)
+
+#endif // SRC_BASE_VM_SOCKETS_H_
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/unix_socket.h"
+
+#include <errno.h>
+#include <fcntl.h>
+#include <stdlib.h>
+#include <string.h>
+#include <sys/stat.h>
+#include <sys/types.h>
+// gen_amalgamated expanded: #include "perfetto/base/compiler.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/string_utils.h"
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+// The include order matters on these three Windows header groups.
+#include <Windows.h>
+
+#include <WS2tcpip.h>
+#include <WinSock2.h>
+
+#include <afunix.h>
+#else
+#include <arpa/inet.h>
+#include <netdb.h>
+#include <netinet/in.h>
+#include <netinet/tcp.h>
+#include <poll.h>
+#include <sys/socket.h>
+#include <sys/un.h>
+#include <unistd.h>
+#endif
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_APPLE)
+#include <sys/ucred.h>
+#endif
+
+#include <algorithm>
+#include <memory>
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/base/task_runner.h"
+// gen_amalgamated expanded: #include "perfetto/base/time.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/string_utils.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/utils.h"
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_LINUX) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID)
+// Use a local stripped copy of vm_sockets.h from UAPI.
+// gen_amalgamated expanded: #include "src/base/vm_sockets.h"
+#endif
+
+namespace perfetto {
+namespace base {
+
+// The CMSG_* macros use NULL instead of nullptr.
+// Note: MSVC doesn't have #pragma GCC diagnostic, hence the if __GNUC__.
+#if defined(__GNUC__) && !PERFETTO_BUILDFLAG(PERFETTO_OS_APPLE)
+#pragma GCC diagnostic push
+#pragma GCC diagnostic ignored "-Wzero-as-null-pointer-constant"
+#endif
+
+namespace {
+
+// Android takes an int instead of socklen_t for the control buffer size.
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID)
+using CBufLenType = size_t;
+#else
+using CBufLenType = socklen_t;
+#endif
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_LINUX) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID)
+constexpr char kVsockNamePrefix[] = "vsock://";
+#endif
+
+// A wrapper around variable-size sockaddr structs.
+// This is solving the following problem: when calling connect() or bind(), the
+// caller needs to take care to allocate the right struct (sockaddr_un for
+// AF_UNIX, sockaddr_in for AF_INET). Those structs have different sizes and,
+// more importantly, are bigger than the base struct sockaddr.
+struct SockaddrAny {
+ SockaddrAny() : size() {}
+ SockaddrAny(const void* addr, socklen_t sz)
+ : data(new char[static_cast<size_t>(sz)]), size(sz) {
+ memcpy(data.get(), addr, static_cast<size_t>(size));
+ }
+
+ const struct sockaddr* addr() const {
+ return reinterpret_cast<const struct sockaddr*>(data.get());
+ }
+
+ std::unique_ptr<char[]> data;
+ socklen_t size;
+};
+
+inline int MkSockFamily(SockFamily family) {
+ switch (family) {
+ case SockFamily::kUnix:
+ return AF_UNIX;
+ case SockFamily::kInet:
+ return AF_INET;
+ case SockFamily::kInet6:
+ return AF_INET6;
+ case SockFamily::kVsock:
+#ifdef AF_VSOCK
+ return AF_VSOCK;
+#else
+ return AF_UNSPEC; // Return AF_UNSPEC on unsupported platforms.
+#endif
+ case SockFamily::kUnspec:
+ return AF_UNSPEC;
+ }
+ PERFETTO_CHECK(false); // For GCC.
+}
+
+inline int MkSockType(SockType type) {
+#if defined(SOCK_CLOEXEC)
+ constexpr int kSockCloExec = SOCK_CLOEXEC;
+#else
+ constexpr int kSockCloExec = 0;
+#endif
+ switch (type) {
+ case SockType::kStream:
+ return SOCK_STREAM | kSockCloExec;
+ case SockType::kDgram:
+ return SOCK_DGRAM | kSockCloExec;
+ case SockType::kSeqPacket:
+ return SOCK_SEQPACKET | kSockCloExec;
+ }
+ PERFETTO_CHECK(false); // For GCC.
+}
+
+SockaddrAny MakeSockAddr(SockFamily family, const std::string& socket_name) {
+ switch (family) {
+ case SockFamily::kUnix: {
+ struct sockaddr_un saddr {};
+ const size_t name_len = socket_name.size();
+ if (name_len + 1 /* for trailing \0 */ >= sizeof(saddr.sun_path)) {
+ errno = ENAMETOOLONG;
+ return SockaddrAny();
+ }
+ memcpy(saddr.sun_path, socket_name.data(), name_len);
+ if (saddr.sun_path[0] == '@') {
+ saddr.sun_path[0] = '\0';
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ // The MSDN blog claims that abstract (non-filesystem based) AF_UNIX
+ // socket are supported, but that doesn't seem true.
+ PERFETTO_ELOG(
+ "Abstract AF_UNIX sockets are not supported on Windows, see "
+ "https://github.com/microsoft/WSL/issues/4240");
+ return SockaddrAny();
+#endif
+ }
+ saddr.sun_family = AF_UNIX;
+ auto size = static_cast<socklen_t>(
+ __builtin_offsetof(sockaddr_un, sun_path) + name_len + 1);
+
+ // Abstract sockets do NOT require a trailing null terminator (which is
+ // instad mandatory for filesystem sockets). Any byte up to `size`,
+ // including '\0' will become part of the socket name.
+ if (saddr.sun_path[0] == '\0')
+ --size;
+ PERFETTO_CHECK(static_cast<size_t>(size) <= sizeof(saddr));
+ return SockaddrAny(&saddr, size);
+ }
+ case SockFamily::kInet: {
+ auto parts = SplitString(socket_name, ":");
+ PERFETTO_CHECK(parts.size() == 2);
+ struct addrinfo* addr_info = nullptr;
+ struct addrinfo hints {};
+ hints.ai_family = AF_INET;
+ PERFETTO_CHECK(getaddrinfo(parts[0].c_str(), parts[1].c_str(), &hints,
+ &addr_info) == 0);
+ PERFETTO_CHECK(addr_info->ai_family == AF_INET);
+ SockaddrAny res(addr_info->ai_addr,
+ static_cast<socklen_t>(addr_info->ai_addrlen));
+ freeaddrinfo(addr_info);
+ return res;
+ }
+ case SockFamily::kInet6: {
+ auto parts = SplitString(socket_name, "]");
+ PERFETTO_CHECK(parts.size() == 2);
+ auto address = SplitString(parts[0], "[");
+ PERFETTO_CHECK(address.size() == 1);
+ auto port = SplitString(parts[1], ":");
+ PERFETTO_CHECK(port.size() == 1);
+ struct addrinfo* addr_info = nullptr;
+ struct addrinfo hints {};
+ hints.ai_family = AF_INET6;
+ PERFETTO_CHECK(getaddrinfo(address[0].c_str(), port[0].c_str(), &hints,
+ &addr_info) == 0);
+ PERFETTO_CHECK(addr_info->ai_family == AF_INET6);
+ SockaddrAny res(addr_info->ai_addr,
+ static_cast<socklen_t>(addr_info->ai_addrlen));
+ freeaddrinfo(addr_info);
+ return res;
+ }
+ case SockFamily::kVsock: {
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_LINUX) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID)
+ PERFETTO_CHECK(StartsWith(socket_name, kVsockNamePrefix));
+ auto address_port = StripPrefix(socket_name, kVsockNamePrefix);
+ auto parts = SplitString(address_port, ":");
+ PERFETTO_CHECK(parts.size() == 2);
+ sockaddr_vm addr;
+ memset(&addr, 0, sizeof(addr));
+ addr.svm_family = AF_VSOCK;
+ addr.svm_cid = *base::StringToUInt32(parts[0]);
+ addr.svm_port = *base::StringToUInt32(parts[1]);
+ SockaddrAny res(&addr, sizeof(addr));
+ return res;
+#else
+ errno = ENOTSOCK;
+ return SockaddrAny();
+#endif
+ }
+ case SockFamily::kUnspec:
+ errno = ENOTSOCK;
+ return SockaddrAny();
+ }
+ PERFETTO_CHECK(false); // For GCC.
+}
+
+ScopedSocketHandle CreateSocketHandle(SockFamily family, SockType type) {
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ static bool init_winsock_once = [] {
+ WSADATA ignored{};
+ return WSAStartup(MAKEWORD(2, 2), &ignored) == 0;
+ }();
+ PERFETTO_CHECK(init_winsock_once);
+#endif
+ return ScopedSocketHandle(socket(MkSockFamily(family), MkSockType(type), 0));
+}
+
+} // namespace
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+int CloseSocket(SocketHandle s) {
+ return ::closesocket(s);
+}
+#endif
+
+SockFamily GetSockFamily(const char* addr) {
+ if (strlen(addr) == 0)
+ return SockFamily::kUnspec;
+
+ if (addr[0] == '@')
+ return SockFamily::kUnix; // Abstract AF_UNIX sockets.
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_LINUX) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID)
+ // Vsock address starts with vsock://.
+ if (strncmp(addr, kVsockNamePrefix, strlen(kVsockNamePrefix)) == 0)
+ return SockFamily::kVsock;
+#endif
+
+ // If `addr` ends in :NNNN it's either a kInet or kInet6 socket.
+ const char* col = strrchr(addr, ':');
+ if (col && CStringToInt32(col + 1).has_value()) {
+ return addr[0] == '[' ? SockFamily::kInet6 : SockFamily::kInet;
+ }
+
+ return SockFamily::kUnix; // For anything else assume it's a linked AF_UNIX.
+}
+
+// +-----------------------+
+// | UnixSocketRaw methods |
+// +-----------------------+
+
+#if !PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+// static
+void UnixSocketRaw::ShiftMsgHdrPosix(size_t n, struct msghdr* msg) {
+ using LenType = decltype(msg->msg_iovlen); // Mac and Linux don't agree.
+ for (LenType i = 0; i < msg->msg_iovlen; ++i) {
+ struct iovec* vec = &msg->msg_iov[i];
+ if (n < vec->iov_len) {
+ // We sent a part of this iovec.
+ vec->iov_base = reinterpret_cast<char*>(vec->iov_base) + n;
+ vec->iov_len -= n;
+ msg->msg_iov = vec;
+ msg->msg_iovlen -= i;
+ return;
+ }
+ // We sent the whole iovec.
+ n -= vec->iov_len;
+ }
+ // We sent all the iovecs.
+ PERFETTO_CHECK(n == 0);
+ msg->msg_iovlen = 0;
+ msg->msg_iov = nullptr;
+}
+
+// static
+std::pair<UnixSocketRaw, UnixSocketRaw> UnixSocketRaw::CreatePairPosix(
+ SockFamily family,
+ SockType type) {
+ int fds[2];
+ if (socketpair(MkSockFamily(family), MkSockType(type), 0, fds) != 0) {
+ return std::make_pair(UnixSocketRaw(), UnixSocketRaw());
+ }
+ return std::make_pair(UnixSocketRaw(ScopedFile(fds[0]), family, type),
+ UnixSocketRaw(ScopedFile(fds[1]), family, type));
+}
+#endif
+
+// static
+UnixSocketRaw UnixSocketRaw::CreateMayFail(SockFamily family, SockType type) {
+ auto fd = CreateSocketHandle(family, type);
+ if (!fd)
+ return UnixSocketRaw();
+ return UnixSocketRaw(std::move(fd), family, type);
+}
+
+UnixSocketRaw::UnixSocketRaw() = default;
+
+UnixSocketRaw::UnixSocketRaw(SockFamily family, SockType type)
+ : UnixSocketRaw(CreateSocketHandle(family, type), family, type) {}
+
+UnixSocketRaw::UnixSocketRaw(ScopedSocketHandle fd,
+ SockFamily family,
+ SockType type)
+ : fd_(std::move(fd)), family_(family), type_(type) {
+ PERFETTO_CHECK(fd_);
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_APPLE)
+ const int no_sigpipe = 1;
+ setsockopt(*fd_, SOL_SOCKET, SO_NOSIGPIPE, &no_sigpipe, sizeof(no_sigpipe));
+#endif
+
+ if (family == SockFamily::kInet || family == SockFamily::kInet6 ||
+ family == SockFamily::kVsock) {
+ int flag = 1;
+ // The reinterpret_cast<const char*> is needed for Windows, where the 4th
+ // arg is a const char* (on other POSIX system is a const void*).
+ PERFETTO_CHECK(!setsockopt(*fd_, SOL_SOCKET, SO_REUSEADDR,
+ reinterpret_cast<const char*>(&flag),
+ sizeof(flag)));
+ }
+
+ if (family == SockFamily::kInet || family == SockFamily::kInet6) {
+ int flag = 1;
+ // Disable Nagle's algorithm, optimize for low-latency.
+ // See https://github.com/google/perfetto/issues/70.
+ setsockopt(*fd_, IPPROTO_TCP, TCP_NODELAY,
+ reinterpret_cast<const char*>(&flag), sizeof(flag));
+ }
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ // We use one event handle for all socket events, to stay consistent to what
+ // we do on UNIX with the base::TaskRunner's poll().
+ event_handle_.reset(WSACreateEvent());
+ PERFETTO_CHECK(event_handle_);
+#else
+ // There is no reason why a socket should outlive the process in case of
+ // exec() by default, this is just working around a broken unix design.
+ SetRetainOnExec(false);
+#endif
+}
+
+void UnixSocketRaw::SetBlocking(bool is_blocking) {
+ PERFETTO_DCHECK(fd_);
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ unsigned long flag = is_blocking ? 0 : 1; // FIONBIO has reverse logic.
+ if (is_blocking) {
+ // When switching between non-blocking -> blocking mode, we need to reset
+ // the event handle registration, otherwise the call will fail.
+ PERFETTO_CHECK(WSAEventSelect(*fd_, *event_handle_, 0) == 0);
+ }
+ PERFETTO_CHECK(ioctlsocket(*fd_, static_cast<long>(FIONBIO), &flag) == 0);
+ if (!is_blocking) {
+ PERFETTO_CHECK(
+ WSAEventSelect(*fd_, *event_handle_,
+ FD_ACCEPT | FD_CONNECT | FD_READ | FD_CLOSE) == 0);
+ }
+#else
+ int flags = fcntl(*fd_, F_GETFL, 0);
+ if (!is_blocking) {
+ flags |= O_NONBLOCK;
+ } else {
+ flags &= ~static_cast<int>(O_NONBLOCK);
+ }
+ int fcntl_res = fcntl(*fd_, F_SETFL, flags);
+ PERFETTO_CHECK(fcntl_res == 0);
+#endif
+}
+
+void UnixSocketRaw::SetRetainOnExec(bool retain) {
+#if !PERFETTO_BUILDFLAG(PERFETTO_OS_WIN) && \
+ !PERFETTO_BUILDFLAG(PERFETTO_OS_FUCHSIA)
+ PERFETTO_DCHECK(fd_);
+ int flags = fcntl(*fd_, F_GETFD, 0);
+ if (retain) {
+ flags &= ~static_cast<int>(FD_CLOEXEC);
+ } else {
+ flags |= FD_CLOEXEC;
+ }
+ int fcntl_res = fcntl(*fd_, F_SETFD, flags);
+ PERFETTO_CHECK(fcntl_res == 0);
+#else
+ ignore_result(retain);
+#endif
+}
+
+void UnixSocketRaw::DcheckIsBlocking(bool expected) const {
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ ignore_result(expected);
+#else
+ PERFETTO_DCHECK(fd_);
+ bool is_blocking = (fcntl(*fd_, F_GETFL, 0) & O_NONBLOCK) == 0;
+ PERFETTO_DCHECK(is_blocking == expected);
+#endif
+}
+
+bool UnixSocketRaw::Bind(const std::string& socket_name) {
+ PERFETTO_DCHECK(fd_);
+ SockaddrAny addr = MakeSockAddr(family_, socket_name);
+ if (addr.size == 0)
+ return false;
+
+ if (bind(*fd_, addr.addr(), addr.size)) {
+ PERFETTO_DPLOG("bind(%s)", socket_name.c_str());
+ return false;
+ }
+
+ return true;
+}
+
+bool UnixSocketRaw::Listen() {
+ PERFETTO_DCHECK(fd_);
+ PERFETTO_DCHECK(type_ == SockType::kStream || type_ == SockType::kSeqPacket);
+ return listen(*fd_, SOMAXCONN) == 0;
+}
+
+bool UnixSocketRaw::Connect(const std::string& socket_name) {
+ PERFETTO_DCHECK(fd_);
+ SockaddrAny addr = MakeSockAddr(family_, socket_name);
+ if (addr.size == 0)
+ return false;
+
+ int res = PERFETTO_EINTR(connect(*fd_, addr.addr(), addr.size));
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ bool continue_async = WSAGetLastError() == WSAEWOULDBLOCK;
+#else
+ bool continue_async = errno == EINPROGRESS;
+#endif
+ if (res && !continue_async)
+ return false;
+
+ return true;
+}
+
+void UnixSocketRaw::Shutdown() {
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ // Somebody felt very strongly about the naming of this constant.
+ shutdown(*fd_, SD_BOTH);
+#else
+ shutdown(*fd_, SHUT_RDWR);
+#endif
+ fd_.reset();
+}
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+
+ssize_t UnixSocketRaw::Send(const void* msg,
+ size_t len,
+ const int* /*send_fds*/,
+ size_t num_fds) {
+ PERFETTO_DCHECK(num_fds == 0);
+ return sendto(*fd_, static_cast<const char*>(msg), static_cast<int>(len), 0,
+ nullptr, 0);
+}
+
+ssize_t UnixSocketRaw::Receive(void* msg,
+ size_t len,
+ ScopedFile* /*fd_vec*/,
+ size_t /*max_files*/) {
+ return recv(*fd_, static_cast<char*>(msg), static_cast<int>(len), 0);
+}
+
+#else
+// For the interested reader, Linux kernel dive to verify this is not only a
+// theoretical possibility: sock_stream_sendmsg, if sock_alloc_send_pskb returns
+// NULL [1] (which it does when it gets interrupted [2]), returns early with the
+// amount of bytes already sent.
+//
+// [1]:
+// https://elixir.bootlin.com/linux/v4.18.10/source/net/unix/af_unix.c#L1872
+// [2]: https://elixir.bootlin.com/linux/v4.18.10/source/net/core/sock.c#L2101
+ssize_t UnixSocketRaw::SendMsgAllPosix(struct msghdr* msg) {
+ // This does not make sense on non-blocking sockets.
+ PERFETTO_DCHECK(fd_);
+
+ const bool is_blocking_with_timeout =
+ tx_timeout_ms_ > 0 && ((fcntl(*fd_, F_GETFL, 0) & O_NONBLOCK) == 0);
+ const int64_t start_ms = GetWallTimeMs().count();
+
+ // Waits until some space is available in the tx buffer.
+ // Returns true if some buffer space is available, false if times out.
+ auto poll_or_timeout = [&] {
+ PERFETTO_DCHECK(is_blocking_with_timeout);
+ const int64_t deadline = start_ms + tx_timeout_ms_;
+ const int64_t now_ms = GetWallTimeMs().count();
+ if (now_ms >= deadline)
+ return false; // Timed out
+ const int timeout_ms = static_cast<int>(deadline - now_ms);
+ pollfd pfd{*fd_, POLLOUT, 0};
+ return PERFETTO_EINTR(poll(&pfd, 1, timeout_ms)) > 0;
+ };
+
+// We implement blocking sends that require a timeout as non-blocking + poll.
+// This is because SO_SNDTIMEO doesn't work as expected (b/193234818). On linux
+// we can just pass MSG_DONTWAIT to force the send to be non-blocking. On Mac,
+// instead we need to flip the O_NONBLOCK flag back and forth.
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_APPLE)
+ // MSG_NOSIGNAL is not supported on Mac OS X, but in that case the socket is
+ // created with SO_NOSIGPIPE (See InitializeSocket()).
+ int send_flags = 0;
+
+ if (is_blocking_with_timeout)
+ SetBlocking(false);
+
+ auto reset_nonblock_on_exit = OnScopeExit([&] {
+ if (is_blocking_with_timeout)
+ SetBlocking(true);
+ });
+#else
+ int send_flags = MSG_NOSIGNAL | (is_blocking_with_timeout ? MSG_DONTWAIT : 0);
+#endif
+
+ ssize_t total_sent = 0;
+ while (msg->msg_iov) {
+ ssize_t send_res = PERFETTO_EINTR(sendmsg(*fd_, msg, send_flags));
+ if (send_res == -1 && IsAgain(errno)) {
+ if (is_blocking_with_timeout && poll_or_timeout()) {
+ continue; // Tx buffer unblocked, repeat the loop.
+ }
+ return total_sent;
+ } else if (send_res <= 0) {
+ return send_res; // An error occurred.
+ } else {
+ total_sent += send_res;
+ ShiftMsgHdrPosix(static_cast<size_t>(send_res), msg);
+ // Only send the ancillary data with the first sendmsg call.
+ msg->msg_control = nullptr;
+ msg->msg_controllen = 0;
+ }
+ }
+ return total_sent;
+}
+
+ssize_t UnixSocketRaw::Send(const void* msg,
+ size_t len,
+ const int* send_fds,
+ size_t num_fds) {
+ PERFETTO_DCHECK(fd_);
+ msghdr msg_hdr = {};
+ iovec iov = {const_cast<void*>(msg), len};
+ msg_hdr.msg_iov = &iov;
+ msg_hdr.msg_iovlen = 1;
+ alignas(cmsghdr) char control_buf[256];
+
+ if (num_fds > 0) {
+ const auto raw_ctl_data_sz = num_fds * sizeof(int);
+ const CBufLenType control_buf_len =
+ static_cast<CBufLenType>(CMSG_SPACE(raw_ctl_data_sz));
+ PERFETTO_CHECK(control_buf_len <= sizeof(control_buf));
+ memset(control_buf, 0, sizeof(control_buf));
+ msg_hdr.msg_control = control_buf;
+ msg_hdr.msg_controllen = control_buf_len; // used by CMSG_FIRSTHDR
+ struct cmsghdr* cmsg = CMSG_FIRSTHDR(&msg_hdr);
+ cmsg->cmsg_level = SOL_SOCKET;
+ cmsg->cmsg_type = SCM_RIGHTS;
+ cmsg->cmsg_len = static_cast<CBufLenType>(CMSG_LEN(raw_ctl_data_sz));
+ memcpy(CMSG_DATA(cmsg), send_fds, num_fds * sizeof(int));
+ // note: if we were to send multiple cmsghdr structures, then
+ // msg_hdr.msg_controllen would need to be adjusted, see "man 3 cmsg".
+ }
+
+ return SendMsgAllPosix(&msg_hdr);
+}
+
+ssize_t UnixSocketRaw::Receive(void* msg,
+ size_t len,
+ ScopedFile* fd_vec,
+ size_t max_files) {
+ PERFETTO_DCHECK(fd_);
+ msghdr msg_hdr = {};
+ iovec iov = {msg, len};
+ msg_hdr.msg_iov = &iov;
+ msg_hdr.msg_iovlen = 1;
+ alignas(cmsghdr) char control_buf[256];
+
+ if (max_files > 0) {
+ msg_hdr.msg_control = control_buf;
+ msg_hdr.msg_controllen =
+ static_cast<CBufLenType>(CMSG_SPACE(max_files * sizeof(int)));
+ PERFETTO_CHECK(msg_hdr.msg_controllen <= sizeof(control_buf));
+ }
+ const ssize_t sz = PERFETTO_EINTR(recvmsg(*fd_, &msg_hdr, 0));
+ if (sz <= 0) {
+ return sz;
+ }
+ PERFETTO_CHECK(static_cast<size_t>(sz) <= len);
+
+ int* fds = nullptr;
+ uint32_t fds_len = 0;
+
+ if (max_files > 0) {
+ for (cmsghdr* cmsg = CMSG_FIRSTHDR(&msg_hdr); cmsg;
+ cmsg = CMSG_NXTHDR(&msg_hdr, cmsg)) {
+ const size_t payload_len = cmsg->cmsg_len - CMSG_LEN(0);
+ if (cmsg->cmsg_level == SOL_SOCKET && cmsg->cmsg_type == SCM_RIGHTS) {
+ PERFETTO_DCHECK(payload_len % sizeof(int) == 0u);
+ PERFETTO_CHECK(fds == nullptr);
+ fds = reinterpret_cast<int*>(CMSG_DATA(cmsg));
+ fds_len = static_cast<uint32_t>(payload_len / sizeof(int));
+ }
+ }
+ }
+
+ if (msg_hdr.msg_flags & MSG_TRUNC || msg_hdr.msg_flags & MSG_CTRUNC) {
+ for (size_t i = 0; fds && i < fds_len; ++i)
+ close(fds[i]);
+ PERFETTO_ELOG(
+ "Socket message truncated. This might be due to a SELinux denial on "
+ "fd:use.");
+ errno = EMSGSIZE;
+ return -1;
+ }
+
+ for (size_t i = 0; fds && i < fds_len; ++i) {
+ if (i < max_files)
+ fd_vec[i].reset(fds[i]);
+ else
+ close(fds[i]);
+ }
+
+ return sz;
+}
+#endif // OS_WIN
+
+bool UnixSocketRaw::SetTxTimeout(uint32_t timeout_ms) {
+ PERFETTO_DCHECK(fd_);
+ // On Unix-based systems, SO_SNDTIMEO isn't used for Send() because it's
+ // unreliable (b/193234818). Instead we use non-blocking sendmsg() + poll().
+ // See SendMsgAllPosix(). We still make the setsockopt call because
+ // SO_SNDTIMEO also affects connect().
+ tx_timeout_ms_ = timeout_ms;
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ DWORD timeout = timeout_ms;
+ ignore_result(tx_timeout_ms_);
+#else
+ struct timeval timeout {};
+ uint32_t timeout_sec = timeout_ms / 1000;
+ timeout.tv_sec = static_cast<decltype(timeout.tv_sec)>(timeout_sec);
+ timeout.tv_usec = static_cast<decltype(timeout.tv_usec)>(
+ (timeout_ms - (timeout_sec * 1000)) * 1000);
+#endif
+ return setsockopt(*fd_, SOL_SOCKET, SO_SNDTIMEO,
+ reinterpret_cast<const char*>(&timeout),
+ sizeof(timeout)) == 0;
+}
+
+bool UnixSocketRaw::SetRxTimeout(uint32_t timeout_ms) {
+ PERFETTO_DCHECK(fd_);
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ DWORD timeout = timeout_ms;
+#else
+ struct timeval timeout {};
+ uint32_t timeout_sec = timeout_ms / 1000;
+ timeout.tv_sec = static_cast<decltype(timeout.tv_sec)>(timeout_sec);
+ timeout.tv_usec = static_cast<decltype(timeout.tv_usec)>(
+ (timeout_ms - (timeout_sec * 1000)) * 1000);
+#endif
+ return setsockopt(*fd_, SOL_SOCKET, SO_RCVTIMEO,
+ reinterpret_cast<const char*>(&timeout),
+ sizeof(timeout)) == 0;
+}
+
+std::string UnixSocketRaw::GetSockAddr() const {
+ struct sockaddr_storage stg {};
+ socklen_t slen = sizeof(stg);
+ PERFETTO_CHECK(
+ getsockname(*fd_, reinterpret_cast<struct sockaddr*>(&stg), &slen) == 0);
+ char addr[255]{};
+
+ if (stg.ss_family == AF_UNIX) {
+ auto* saddr = reinterpret_cast<struct sockaddr_un*>(&stg);
+ static_assert(sizeof(addr) >= sizeof(saddr->sun_path), "addr too small");
+ memcpy(addr, saddr->sun_path, sizeof(saddr->sun_path));
+ addr[0] = addr[0] == '\0' ? '@' : addr[0];
+ addr[sizeof(saddr->sun_path) - 1] = '\0';
+ return std::string(addr);
+ }
+
+ if (stg.ss_family == AF_INET) {
+ auto* saddr = reinterpret_cast<struct sockaddr_in*>(&stg);
+ PERFETTO_CHECK(inet_ntop(AF_INET, &saddr->sin_addr, addr, sizeof(addr)));
+ uint16_t port = ntohs(saddr->sin_port);
+ base::StackString<255> addr_and_port("%s:%" PRIu16, addr, port);
+ return addr_and_port.ToStdString();
+ }
+
+ if (stg.ss_family == AF_INET6) {
+ auto* saddr = reinterpret_cast<struct sockaddr_in6*>(&stg);
+ PERFETTO_CHECK(inet_ntop(AF_INET6, &saddr->sin6_addr, addr, sizeof(addr)));
+ auto port = ntohs(saddr->sin6_port);
+ base::StackString<255> addr_and_port("[%s]:%" PRIu16, addr, port);
+ return addr_and_port.ToStdString();
+ }
+
+#if defined(AF_VSOCK) && (PERFETTO_BUILDFLAG(PERFETTO_OS_LINUX) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID))
+ if (stg.ss_family == AF_VSOCK) {
+ auto* saddr = reinterpret_cast<struct sockaddr_vm*>(&stg);
+ base::StackString<255> addr_and_port("%s%d:%d", kVsockNamePrefix,
+ saddr->svm_cid, saddr->svm_port);
+ return addr_and_port.ToStdString();
+ }
+#endif
+
+ PERFETTO_FATAL("GetSockAddr() unsupported on family %d", stg.ss_family);
+}
+
+#if defined(__GNUC__) && !PERFETTO_BUILDFLAG(PERFETTO_OS_APPLE)
+#pragma GCC diagnostic pop
+#endif
+
+// +--------------------+
+// | UnixSocket methods |
+// +--------------------+
+
+// TODO(primiano): Add ThreadChecker to methods of this class.
+
+// static
+std::unique_ptr<UnixSocket> UnixSocket::Listen(const std::string& socket_name,
+ EventListener* event_listener,
+ TaskRunner* task_runner,
+ SockFamily sock_family,
+ SockType sock_type) {
+ auto sock_raw = UnixSocketRaw::CreateMayFail(sock_family, sock_type);
+ if (!sock_raw || !sock_raw.Bind(socket_name))
+ return nullptr;
+
+ // Forward the call to the Listen() overload below.
+ return Listen(sock_raw.ReleaseFd(), event_listener, task_runner, sock_family,
+ sock_type);
+}
+
+// static
+std::unique_ptr<UnixSocket> UnixSocket::Listen(ScopedSocketHandle fd,
+ EventListener* event_listener,
+ TaskRunner* task_runner,
+ SockFamily sock_family,
+ SockType sock_type) {
+ return std::unique_ptr<UnixSocket>(new UnixSocket(
+ event_listener, task_runner, std::move(fd), State::kListening,
+ sock_family, sock_type, SockPeerCredMode::kDefault));
+}
+
+// static
+std::unique_ptr<UnixSocket> UnixSocket::Connect(
+ const std::string& socket_name,
+ EventListener* event_listener,
+ TaskRunner* task_runner,
+ SockFamily sock_family,
+ SockType sock_type,
+ SockPeerCredMode peer_cred_mode) {
+ std::unique_ptr<UnixSocket> sock(new UnixSocket(
+ event_listener, task_runner, sock_family, sock_type, peer_cred_mode));
+ sock->DoConnect(socket_name);
+ return sock;
+}
+
+// static
+std::unique_ptr<UnixSocket> UnixSocket::AdoptConnected(
+ ScopedSocketHandle fd,
+ EventListener* event_listener,
+ TaskRunner* task_runner,
+ SockFamily sock_family,
+ SockType sock_type,
+ SockPeerCredMode peer_cred_mode) {
+ return std::unique_ptr<UnixSocket>(new UnixSocket(
+ event_listener, task_runner, std::move(fd), State::kConnected,
+ sock_family, sock_type, peer_cred_mode));
+}
+
+UnixSocket::UnixSocket(EventListener* event_listener,
+ TaskRunner* task_runner,
+ SockFamily sock_family,
+ SockType sock_type,
+ SockPeerCredMode peer_cred_mode)
+ : UnixSocket(event_listener,
+ task_runner,
+ ScopedSocketHandle(),
+ State::kDisconnected,
+ sock_family,
+ sock_type,
+ peer_cred_mode) {}
+
+UnixSocket::UnixSocket(EventListener* event_listener,
+ TaskRunner* task_runner,
+ ScopedSocketHandle adopt_fd,
+ State adopt_state,
+ SockFamily sock_family,
+ SockType sock_type,
+ SockPeerCredMode peer_cred_mode)
+ : peer_cred_mode_(peer_cred_mode),
+ event_listener_(event_listener),
+ task_runner_(task_runner),
+ weak_ptr_factory_(this) {
+ state_ = State::kDisconnected;
+ if (adopt_state == State::kDisconnected) {
+ PERFETTO_DCHECK(!adopt_fd);
+ sock_raw_ = UnixSocketRaw::CreateMayFail(sock_family, sock_type);
+ if (!sock_raw_)
+ return;
+ } else if (adopt_state == State::kConnected) {
+ PERFETTO_DCHECK(adopt_fd);
+ sock_raw_ = UnixSocketRaw(std::move(adopt_fd), sock_family, sock_type);
+ state_ = State::kConnected;
+#if !PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ if (peer_cred_mode_ == SockPeerCredMode::kReadOnConnect)
+ ReadPeerCredentialsPosix();
+#endif
+ } else if (adopt_state == State::kListening) {
+ // We get here from Listen().
+
+ // |adopt_fd| might genuinely be invalid if the bind() failed.
+ if (!adopt_fd)
+ return;
+
+ sock_raw_ = UnixSocketRaw(std::move(adopt_fd), sock_family, sock_type);
+ if (!sock_raw_.Listen()) {
+ PERFETTO_DPLOG("listen() failed");
+ return;
+ }
+ state_ = State::kListening;
+ } else {
+ PERFETTO_FATAL("Unexpected adopt_state"); // Unfeasible.
+ }
+
+ PERFETTO_CHECK(sock_raw_);
+
+ sock_raw_.SetBlocking(false);
+
+ WeakPtr<UnixSocket> weak_ptr = weak_ptr_factory_.GetWeakPtr();
+
+ task_runner_->AddFileDescriptorWatch(sock_raw_.watch_handle(), [weak_ptr] {
+ if (weak_ptr)
+ weak_ptr->OnEvent();
+ });
+}
+
+UnixSocket::~UnixSocket() {
+ // The implicit dtor of |weak_ptr_factory_| will no-op pending callbacks.
+ Shutdown(true);
+}
+
+UnixSocketRaw UnixSocket::ReleaseSocket() {
+ // This will invalidate any pending calls to OnEvent.
+ state_ = State::kDisconnected;
+ if (sock_raw_)
+ task_runner_->RemoveFileDescriptorWatch(sock_raw_.watch_handle());
+
+ return std::move(sock_raw_);
+}
+
+// Called only by the Connect() static constructor.
+void UnixSocket::DoConnect(const std::string& socket_name) {
+ PERFETTO_DCHECK(state_ == State::kDisconnected);
+
+ // This is the only thing that can gracefully fail in the ctor.
+ if (!sock_raw_)
+ return NotifyConnectionState(false);
+
+ if (!sock_raw_.Connect(socket_name))
+ return NotifyConnectionState(false);
+
+ // At this point either connect() succeeded or started asynchronously
+ // (errno = EINPROGRESS).
+ state_ = State::kConnecting;
+
+ // Even if the socket is non-blocking, connecting to a UNIX socket can be
+ // acknowledged straight away rather than returning EINPROGRESS.
+ // The decision here is to deal with the two cases uniformly, at the cost of
+ // delaying the straight-away-connect() case by one task, to avoid depending
+ // on implementation details of UNIX socket on the various OSes.
+ // Posting the OnEvent() below emulates a wakeup of the FD watch. OnEvent(),
+ // which knows how to deal with spurious wakeups, will poll the SO_ERROR and
+ // evolve, if necessary, the state into either kConnected or kDisconnected.
+ WeakPtr<UnixSocket> weak_ptr = weak_ptr_factory_.GetWeakPtr();
+ task_runner_->PostTask([weak_ptr] {
+ if (weak_ptr)
+ weak_ptr->OnEvent();
+ });
+}
+
+#if !PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+void UnixSocket::ReadPeerCredentialsPosix() {
+ // Peer credentials are supported only on AF_UNIX sockets.
+ if (sock_raw_.family() != SockFamily::kUnix)
+ return;
+ PERFETTO_CHECK(peer_cred_mode_ != SockPeerCredMode::kIgnore);
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_LINUX) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID)
+ struct ucred user_cred;
+ socklen_t len = sizeof(user_cred);
+ int fd = sock_raw_.fd();
+ int res = getsockopt(fd, SOL_SOCKET, SO_PEERCRED, &user_cred, &len);
+ PERFETTO_CHECK(res == 0);
+ peer_uid_ = user_cred.uid;
+ peer_pid_ = user_cred.pid;
+#elif PERFETTO_BUILDFLAG(PERFETTO_OS_APPLE)
+ struct xucred user_cred;
+ socklen_t len = sizeof(user_cred);
+ int res = getsockopt(sock_raw_.fd(), 0, LOCAL_PEERCRED, &user_cred, &len);
+ PERFETTO_CHECK(res == 0 && user_cred.cr_version == XUCRED_VERSION);
+ peer_uid_ = static_cast<uid_t>(user_cred.cr_uid);
+ // There is no pid in the LOCAL_PEERCREDS for MacOS / FreeBSD.
+#endif
+}
+#endif // !OS_WIN
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+void UnixSocket::OnEvent() {
+ WSANETWORKEVENTS evts{};
+ PERFETTO_CHECK(WSAEnumNetworkEvents(sock_raw_.fd(), sock_raw_.watch_handle(),
+ &evts) == 0);
+ if (state_ == State::kDisconnected)
+ return; // Some spurious event, typically queued just before Shutdown().
+
+ if (state_ == State::kConnecting && (evts.lNetworkEvents & FD_CONNECT)) {
+ PERFETTO_DCHECK(sock_raw_);
+ int err = evts.iErrorCode[FD_CONNECT_BIT];
+ if (err) {
+ PERFETTO_DPLOG("Connection error: %d", err);
+ Shutdown(false);
+ event_listener_->OnConnect(this, false /* connected */);
+ return;
+ }
+
+ // kReadOnConnect is not supported on Windows.
+ PERFETTO_DCHECK(peer_cred_mode_ != SockPeerCredMode::kReadOnConnect);
+ state_ = State::kConnected;
+ event_listener_->OnConnect(this, true /* connected */);
+ }
+
+ // This is deliberately NOT an else-if. When a client socket connects and
+ // there is already data queued, the following will happen within the same
+ // OnEvent() call:
+ // 1. The block above will transition kConnecting -> kConnected.
+ // 2. This block will cause an OnDataAvailable() call.
+ // Unlike UNIX, where poll() keeps signalling the event until the client
+ // does a recv(), Windows is more picky and stops signalling the event until
+ // the next call to recv() is made. In other words, in Windows we cannot
+ // miss an OnDataAvailable() call or the event pump will stop.
+ if (state_ == State::kConnected) {
+ if (evts.lNetworkEvents & FD_READ) {
+ event_listener_->OnDataAvailable(this);
+ // TODO(primiano): I am very conflicted here. Because of the behavior
+ // described above, if the event listener doesn't do a Recv() call in
+ // the OnDataAvailable() callback, WinSock won't notify the event ever
+ // again. On one side, I don't see any reason why a client should decide
+ // to not do a Recv() in OnDataAvailable. On the other side, the
+ // behavior here diverges from UNIX, where OnDataAvailable() would be
+ // re-posted immediately. In both cases, not doing a Recv() in
+ // OnDataAvailable, leads to something bad (getting stuck on Windows,
+ // getting in a hot loop on Linux), so doesn't feel we should worry too
+ // much about this. If we wanted to keep the behavrior consistent, here
+ // we should do something like: `if (sock_raw_)
+ // sock_raw_.SetBlocking(false)` (Note that the socket might be closed
+ // by the time we come back here, hence the if part).
+ return;
+ }
+ // Could read EOF and disconnect here.
+ if (evts.lNetworkEvents & FD_CLOSE) {
+ Shutdown(true);
+ return;
+ }
+ }
+
+ // New incoming connection.
+ if (state_ == State::kListening && (evts.lNetworkEvents & FD_ACCEPT)) {
+ // There could be more than one incoming connection behind each FD watch
+ // notification. Drain'em all.
+ for (;;) {
+ // Note: right now we don't need the remote endpoint, hence we pass
+ // nullptr to |addr| and |addrlen|. If we ever need to do so, be
+ // extremely careful. Windows' WinSock API will happily write more than
+ // |addrlen| (hence corrupt the stack) if the |addr| argument passed is
+ // not big enough (e.g. passing a struct sockaddr_in to a AF_UNIX
+ // socket, where sizeof(sockaddr_un) is >> sizef(sockaddr_in)). It seems
+ // a Windows / CRT bug in the AF_UNIX implementation.
+ ScopedSocketHandle new_fd(accept(sock_raw_.fd(), nullptr, nullptr));
+ if (!new_fd)
+ return;
+ std::unique_ptr<UnixSocket> new_sock(new UnixSocket(
+ event_listener_, task_runner_, std::move(new_fd), State::kConnected,
+ sock_raw_.family(), sock_raw_.type(), peer_cred_mode_));
+ event_listener_->OnNewIncomingConnection(this, std::move(new_sock));
+ }
+ }
+}
+#else
+void UnixSocket::OnEvent() {
+ if (state_ == State::kDisconnected)
+ return; // Some spurious event, typically queued just before Shutdown().
+
+ if (state_ == State::kConnected)
+ return event_listener_->OnDataAvailable(this);
+
+ if (state_ == State::kConnecting) {
+ PERFETTO_DCHECK(sock_raw_);
+ int sock_err = EINVAL;
+ socklen_t err_len = sizeof(sock_err);
+ int res =
+ getsockopt(sock_raw_.fd(), SOL_SOCKET, SO_ERROR, &sock_err, &err_len);
+
+ if (res == 0 && sock_err == EINPROGRESS)
+ return; // Not connected yet, just a spurious FD watch wakeup.
+ if (res == 0 && sock_err == 0) {
+ if (peer_cred_mode_ == SockPeerCredMode::kReadOnConnect)
+ ReadPeerCredentialsPosix();
+ state_ = State::kConnected;
+ return event_listener_->OnConnect(this, true /* connected */);
+ }
+ PERFETTO_DLOG("Connection error: %s", strerror(sock_err));
+ Shutdown(false);
+ return event_listener_->OnConnect(this, false /* connected */);
+ }
+
+ // New incoming connection.
+ if (state_ == State::kListening) {
+ // There could be more than one incoming connection behind each FD watch
+ // notification. Drain'em all.
+ for (;;) {
+ ScopedFile new_fd(
+ PERFETTO_EINTR(accept(sock_raw_.fd(), nullptr, nullptr)));
+ if (!new_fd)
+ return;
+ std::unique_ptr<UnixSocket> new_sock(new UnixSocket(
+ event_listener_, task_runner_, std::move(new_fd), State::kConnected,
+ sock_raw_.family(), sock_raw_.type(), peer_cred_mode_));
+ event_listener_->OnNewIncomingConnection(this, std::move(new_sock));
+ }
+ }
+}
+#endif
+
+bool UnixSocket::Send(const void* msg,
+ size_t len,
+ const int* send_fds,
+ size_t num_fds) {
+ if (state_ != State::kConnected) {
+ errno = ENOTCONN;
+ return false;
+ }
+
+ sock_raw_.SetBlocking(true);
+ const ssize_t sz = sock_raw_.Send(msg, len, send_fds, num_fds);
+ sock_raw_.SetBlocking(false);
+
+ if (sz == static_cast<ssize_t>(len)) {
+ return true;
+ }
+
+ // If we ever decide to support non-blocking sends again, here we should
+ // watch for both EAGAIN and EWOULDBLOCK (see base::IsAgain()).
+
+ // If sendmsg() succeeds but the returned size is >= 0 and < |len| it means
+ // that the endpoint disconnected in the middle of the read, and we managed
+ // to send only a portion of the buffer.
+ // If sz < 0, either the other endpoint disconnected (ECONNRESET) or some
+ // other error happened. In both cases we should just give up.
+ PERFETTO_DPLOG("sendmsg() failed");
+ Shutdown(true);
+ return false;
+}
+
+void UnixSocket::Shutdown(bool notify) {
+ WeakPtr<UnixSocket> weak_ptr = weak_ptr_factory_.GetWeakPtr();
+ if (notify) {
+ if (state_ == State::kConnected) {
+ task_runner_->PostTask([weak_ptr] {
+ if (weak_ptr)
+ weak_ptr->event_listener_->OnDisconnect(weak_ptr.get());
+ });
+ } else if (state_ == State::kConnecting) {
+ task_runner_->PostTask([weak_ptr] {
+ if (weak_ptr)
+ weak_ptr->event_listener_->OnConnect(weak_ptr.get(), false);
+ });
+ }
+ }
+
+ if (sock_raw_) {
+ task_runner_->RemoveFileDescriptorWatch(sock_raw_.watch_handle());
+ sock_raw_.Shutdown();
+ }
+ state_ = State::kDisconnected;
+}
+
+size_t UnixSocket::Receive(void* msg,
+ size_t len,
+ ScopedFile* fd_vec,
+ size_t max_files) {
+ if (state_ != State::kConnected)
+ return 0;
+
+ const ssize_t sz = sock_raw_.Receive(msg, len, fd_vec, max_files);
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ bool async_would_block = WSAGetLastError() == WSAEWOULDBLOCK;
+#else
+ bool async_would_block = IsAgain(errno);
+#endif
+ if (sz < 0 && async_would_block)
+ return 0;
+
+ if (sz <= 0) {
+ Shutdown(true);
+ return 0;
+ }
+ PERFETTO_CHECK(static_cast<size_t>(sz) <= len);
+ return static_cast<size_t>(sz);
+}
+
+std::string UnixSocket::ReceiveString(size_t max_length) {
+ std::unique_ptr<char[]> buf(new char[max_length + 1]);
+ size_t rsize = Receive(buf.get(), max_length);
+ PERFETTO_CHECK(rsize <= max_length);
+ buf[rsize] = '\0';
+ return std::string(buf.get());
+}
+
+void UnixSocket::NotifyConnectionState(bool success) {
+ if (!success)
+ Shutdown(false);
+
+ WeakPtr<UnixSocket> weak_ptr = weak_ptr_factory_.GetWeakPtr();
+ task_runner_->PostTask([weak_ptr, success] {
+ if (weak_ptr)
+ weak_ptr->event_listener_->OnConnect(weak_ptr.get(), success);
+ });
+}
+
+UnixSocket::EventListener::~EventListener() {}
+void UnixSocket::EventListener::OnNewIncomingConnection(
+ UnixSocket*,
+ std::unique_ptr<UnixSocket>) {}
+void UnixSocket::EventListener::OnConnect(UnixSocket*, bool) {}
+void UnixSocket::EventListener::OnDisconnect(UnixSocket*) {}
+void UnixSocket::EventListener::OnDataAvailable(UnixSocket*) {}
+
+} // namespace base
+} // namespace perfetto
+// gen_amalgamated begin source: src/ipc/buffered_frame_deserializer.cc
+// gen_amalgamated begin header: src/ipc/buffered_frame_deserializer.h
+// gen_amalgamated begin header: include/perfetto/ext/ipc/basic_types.h
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_IPC_BASIC_TYPES_H_
+#define INCLUDE_PERFETTO_EXT_IPC_BASIC_TYPES_H_
+
+#include <stddef.h>
+#include <stdint.h>
+#include <sys/types.h>
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/utils.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+
+namespace perfetto {
+namespace ipc {
+
+using ProtoMessage = ::protozero::CppMessageObj;
+using ServiceID = uint32_t;
+using MethodID = uint32_t;
+using ClientID = uint64_t;
+using RequestID = uint64_t;
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+// AF_UNIX on Windows is supported only on Windows 10 from build 17063.
+// Also it doesn't bring major advantages compared to a TCP socket.
+// See go/perfetto-win .
+constexpr bool kUseTCPSocket = true;
+#else
+// Android, Linux, Mac, Fuchsia use local sockets.
+constexpr bool kUseTCPSocket = false;
+#endif
+
+// This determines the maximum size allowed for an IPC message. Trying to send
+// or receive a larger message will hit DCHECK(s) and auto-disconnect.
+constexpr size_t kIPCBufferSize = 128 * 1024;
+
+constexpr uid_t kInvalidUid = static_cast<uid_t>(-1);
+
+} // namespace ipc
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_IPC_BASIC_TYPES_H_
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef SRC_IPC_BUFFERED_FRAME_DESERIALIZER_H_
+#define SRC_IPC_BUFFERED_FRAME_DESERIALIZER_H_
+
+#include <stddef.h>
+
+#include <list>
+#include <memory>
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/paged_memory.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/utils.h"
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/basic_types.h"
+
+namespace perfetto {
+
+namespace protos {
+namespace gen {
+class IPCFrame;
+} // namespace gen
+} // namespace protos
+
+namespace ipc {
+
+using Frame = ::perfetto::protos::gen::IPCFrame;
+
+// Deserializes incoming frames, taking care of buffering and tokenization.
+// Used by both host and client to decode incoming frames.
+//
+// Which problem does it solve?
+// ----------------------------
+// The wire protocol is as follows:
+// [32-bit frame size][proto-encoded Frame], e.g:
+// [06 00 00 00][00 11 22 33 44 55 66]
+// [02 00 00 00][AA BB]
+// [04 00 00 00][CC DD EE FF]
+// However, given that the socket works in SOCK_STREAM mode, the recv() calls
+// might see the following:
+// 06 00 00
+// 00 00 11 22 33 44 55
+// 66 02 00 00 00 ...
+// This class takes care of buffering efficiently the data received, without
+// making any assumption on how the incoming data will be chunked by the socket.
+// For instance, it is possible that a recv() doesn't produce any frame (because
+// it received only a part of the frame) or produces more than one frame.
+//
+// Usage
+// -----
+// Both host and client use this as follows:
+//
+// auto buf = rpc_frame_decoder.BeginReceive();
+// size_t rsize = socket.recv(buf.first, buf.second);
+// rpc_frame_decoder.EndReceive(rsize);
+// while (Frame frame = rpc_frame_decoder.PopNextFrame()) {
+// ... process |frame|
+// }
+//
+// Design goals:
+// -------------
+// - Optimize for the realistic case of each recv() receiving one or more
+// whole frames. In this case no memmove is performed.
+// - Guarantee that frames lay in a virtually contiguous memory area.
+// This allows to use the protobuf-lite deserialization API (scattered
+// deserialization is supported only by libprotobuf-full).
+// - Put a hard boundary to the size of the incoming buffer. This is to prevent
+// that a malicious sends an abnormally large frame and OOMs us.
+// - Simplicity: just use a linear mmap region. No reallocations or scattering.
+// Takes care of madvise()-ing unused memory.
+
+class BufferedFrameDeserializer {
+ public:
+ struct ReceiveBuffer {
+ char* data;
+ size_t size;
+ };
+
+ // |max_capacity| is overridable only for tests.
+ explicit BufferedFrameDeserializer(size_t max_capacity = kIPCBufferSize);
+ ~BufferedFrameDeserializer();
+
+ // This function doesn't really belong here as it does Serialization, unlike
+ // the rest of this class. However it is so small and has so many dependencies
+ // in common that doesn't justify having its own class.
+ static std::string Serialize(const Frame&);
+
+ // Returns a buffer that can be passed to recv(). The buffer is deliberately
+ // not initialized.
+ ReceiveBuffer BeginReceive();
+
+ // Must be called soon after BeginReceive().
+ // |recv_size| is the number of valid bytes that have been written into the
+ // buffer previously returned by BeginReceive() (the return value of recv()).
+ // Returns false if a header > |max_capacity| is received, in which case the
+ // caller is expected to shutdown the socket and terminate the ipc.
+ bool EndReceive(size_t recv_size) PERFETTO_WARN_UNUSED_RESULT;
+
+ // Decodes and returns the next decoded frame in the buffer if any, nullptr
+ // if no further frames have been decoded.
+ std::unique_ptr<Frame> PopNextFrame();
+
+ size_t capacity() const { return capacity_; }
+ size_t size() const { return size_; }
+
+ private:
+ BufferedFrameDeserializer(const BufferedFrameDeserializer&) = delete;
+ BufferedFrameDeserializer& operator=(const BufferedFrameDeserializer&) =
+ delete;
+
+ // If a valid frame is decoded it is added to |decoded_frames_|.
+ void DecodeFrame(const char*, size_t);
+
+ char* buf() { return reinterpret_cast<char*>(buf_.Get()); }
+
+ base::PagedMemory buf_;
+ const size_t capacity_ = 0; // sizeof(|buf_|).
+
+ // THe number of bytes in |buf_| that contain valid data (as a result of
+ // EndReceive()). This is always <= |capacity_|.
+ size_t size_ = 0;
+
+ std::list<std::unique_ptr<Frame>> decoded_frames_;
+};
+
+} // namespace ipc
+} // namespace perfetto
+
+#endif // SRC_IPC_BUFFERED_FRAME_DESERIALIZER_H_
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "src/ipc/buffered_frame_deserializer.h"
+
+#include <algorithm>
+#include <cinttypes>
+#include <type_traits>
+#include <utility>
+
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/utils.h"
+
+// gen_amalgamated expanded: #include "protos/perfetto/ipc/wire_protocol.gen.h"
+
+namespace perfetto {
+namespace ipc {
+
+namespace {
+
+// The header is just the number of bytes of the Frame protobuf message.
+constexpr size_t kHeaderSize = sizeof(uint32_t);
+} // namespace
+
+BufferedFrameDeserializer::BufferedFrameDeserializer(size_t max_capacity)
+ : capacity_(max_capacity) {
+ PERFETTO_CHECK(max_capacity % base::GetSysPageSize() == 0);
+ PERFETTO_CHECK(max_capacity >= base::GetSysPageSize());
+}
+
+BufferedFrameDeserializer::~BufferedFrameDeserializer() = default;
+
+BufferedFrameDeserializer::ReceiveBuffer
+BufferedFrameDeserializer::BeginReceive() {
+ // Upon the first recv initialize the buffer to the max message size but
+ // release the physical memory for all but the first page. The kernel will
+ // automatically give us physical pages back as soon as we page-fault on them.
+ if (!buf_.IsValid()) {
+ PERFETTO_DCHECK(size_ == 0);
+ // TODO(eseckler): Don't commit all of the buffer at once on Windows.
+ buf_ = base::PagedMemory::Allocate(capacity_);
+
+ // Surely we are going to use at least the first page, but we may not need
+ // the rest for a bit.
+ const auto page_size = base::GetSysPageSize();
+ buf_.AdviseDontNeed(buf() + page_size, capacity_ - page_size);
+ }
+
+ PERFETTO_CHECK(capacity_ > size_);
+ return ReceiveBuffer{buf() + size_, capacity_ - size_};
+}
+
+bool BufferedFrameDeserializer::EndReceive(size_t recv_size) {
+ const auto page_size = base::GetSysPageSize();
+ PERFETTO_CHECK(recv_size + size_ <= capacity_);
+ size_ += recv_size;
+
+ // At this point the contents buf_ can contain:
+ // A) Only a fragment of the header (the size of the frame). E.g.,
+ // 03 00 00 (the header is 4 bytes, one is missing).
+ //
+ // B) A header and a part of the frame. E.g.,
+ // 05 00 00 00 11 22 33
+ // [ header, size=5 ] [ Partial frame ]
+ //
+ // C) One or more complete header+frame. E.g.,
+ // 05 00 00 00 11 22 33 44 55 03 00 00 00 AA BB CC
+ // [ header, size=5 ] [ Whole frame ] [ header, size=3 ] [ Whole frame ]
+ //
+ // D) Some complete header+frame(s) and a partial header or frame (C + A/B).
+ //
+ // C Is the more likely case and the one we are optimizing for. A, B, D can
+ // happen because of the streaming nature of the socket.
+ // The invariant of this function is that, when it returns, buf_ is either
+ // empty (we drained all the complete frames) or starts with the header of the
+ // next, still incomplete, frame.
+
+ size_t consumed_size = 0;
+ for (;;) {
+ if (size_ < consumed_size + kHeaderSize)
+ break; // Case A, not enough data to read even the header.
+
+ // Read the header into |payload_size|.
+ uint32_t payload_size = 0;
+ const char* rd_ptr = buf() + consumed_size;
+ memcpy(base::AssumeLittleEndian(&payload_size), rd_ptr, kHeaderSize);
+
+ // Saturate the |payload_size| to prevent overflows. The > capacity_ check
+ // below will abort the parsing.
+ size_t next_frame_size =
+ std::min(static_cast<size_t>(payload_size), capacity_);
+ next_frame_size += kHeaderSize;
+ rd_ptr += kHeaderSize;
+
+ if (size_ < consumed_size + next_frame_size) {
+ // Case B. We got the header but not the whole frame.
+ if (next_frame_size > capacity_) {
+ // The caller is expected to shut down the socket and give up at this
+ // point. If it doesn't do that and insists going on at some point it
+ // will hit the capacity check in BeginReceive().
+ PERFETTO_LOG("IPC Frame too large (size %zu)", next_frame_size);
+ return false;
+ }
+ break;
+ }
+
+ // Case C. We got at least one header and whole frame.
+ DecodeFrame(rd_ptr, payload_size);
+ consumed_size += next_frame_size;
+ }
+
+ PERFETTO_DCHECK(consumed_size <= size_);
+ if (consumed_size > 0) {
+ // Shift out the consumed data from the buffer. In the typical case (C)
+ // there is nothing to shift really, just setting size_ = 0 is enough.
+ // Shifting is only for the (unlikely) case D.
+ size_ -= consumed_size;
+ if (size_ > 0) {
+ // Case D. We consumed some frames but there is a leftover at the end of
+ // the buffer. Shift out the consumed bytes, so that on the next round
+ // |buf_| starts with the header of the next unconsumed frame.
+ const char* move_begin = buf() + consumed_size;
+ PERFETTO_CHECK(move_begin > buf());
+ PERFETTO_CHECK(move_begin + size_ <= buf() + capacity_);
+ memmove(buf(), move_begin, size_);
+ }
+ // If we just finished decoding a large frame that used more than one page,
+ // release the extra memory in the buffer. Large frames should be quite
+ // rare.
+ if (consumed_size > page_size) {
+ size_t size_rounded_up = (size_ / page_size + 1) * page_size;
+ if (size_rounded_up < capacity_) {
+ char* madvise_begin = buf() + size_rounded_up;
+ const size_t madvise_size = capacity_ - size_rounded_up;
+ PERFETTO_CHECK(madvise_begin > buf() + size_);
+ PERFETTO_CHECK(madvise_begin + madvise_size <= buf() + capacity_);
+ buf_.AdviseDontNeed(madvise_begin, madvise_size);
+ }
+ }
+ }
+ // At this point |size_| == 0 for case C, > 0 for cases A, B, D.
+ return true;
+}
+
+std::unique_ptr<Frame> BufferedFrameDeserializer::PopNextFrame() {
+ if (decoded_frames_.empty())
+ return nullptr;
+ std::unique_ptr<Frame> frame = std::move(decoded_frames_.front());
+ decoded_frames_.pop_front();
+ return frame;
+}
+
+void BufferedFrameDeserializer::DecodeFrame(const char* data, size_t size) {
+ if (size == 0)
+ return;
+ std::unique_ptr<Frame> frame(new Frame);
+ if (frame->ParseFromArray(data, size))
+ decoded_frames_.push_back(std::move(frame));
+}
+
+// static
+std::string BufferedFrameDeserializer::Serialize(const Frame& frame) {
+ std::vector<uint8_t> payload = frame.SerializeAsArray();
+ const uint32_t payload_size = static_cast<uint32_t>(payload.size());
+ std::string buf;
+ buf.resize(kHeaderSize + payload_size);
+ memcpy(&buf[0], base::AssumeLittleEndian(&payload_size), kHeaderSize);
+ memcpy(&buf[kHeaderSize], payload.data(), payload.size());
+ return buf;
+}
+
+} // namespace ipc
+} // namespace perfetto
+// gen_amalgamated begin source: src/ipc/deferred.cc
+// gen_amalgamated begin header: include/perfetto/ext/ipc/deferred.h
+// gen_amalgamated begin header: include/perfetto/ext/ipc/async_result.h
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_IPC_ASYNC_RESULT_H_
+#define INCLUDE_PERFETTO_EXT_IPC_ASYNC_RESULT_H_
+
+#include <memory>
+#include <type_traits>
+#include <utility>
+
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/basic_types.h"
+
+namespace perfetto {
+namespace ipc {
+
+// Wraps the result of an asynchronous invocation. This is the equivalent of a
+// std::pair<unique_ptr<T>, bool> with syntactic sugar. It is used as callback
+// argument by Deferred<T>. T is a ProtoMessage subclass (i.e. generated .pb.h).
+template <typename T>
+class AsyncResult {
+ public:
+ static AsyncResult Create() {
+ return AsyncResult(std::unique_ptr<T>(new T()));
+ }
+
+ AsyncResult(std::unique_ptr<T> msg = nullptr,
+ bool has_more = false,
+ int fd = -1)
+ : msg_(std::move(msg)), has_more_(has_more), fd_(fd) {
+ static_assert(std::is_base_of<ProtoMessage, T>::value, "T->ProtoMessage");
+ }
+ AsyncResult(AsyncResult&&) noexcept = default;
+ AsyncResult& operator=(AsyncResult&&) = default;
+
+ bool success() const { return !!msg_; }
+ explicit operator bool() const { return success(); }
+
+ bool has_more() const { return has_more_; }
+ void set_has_more(bool has_more) { has_more_ = has_more; }
+
+ void set_msg(std::unique_ptr<T> msg) { msg_ = std::move(msg); }
+ T* release_msg() { return msg_.release(); }
+ T* operator->() { return msg_.get(); }
+ T& operator*() { return *msg_; }
+
+ void set_fd(int fd) { fd_ = fd; }
+ int fd() const { return fd_; }
+
+ private:
+ std::unique_ptr<T> msg_;
+ bool has_more_ = false;
+
+ // Optional. Only for messages that convey a file descriptor, for sharing
+ // memory across processes.
+ int fd_ = -1;
+};
+
+} // namespace ipc
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_IPC_ASYNC_RESULT_H_
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_IPC_DEFERRED_H_
+#define INCLUDE_PERFETTO_EXT_IPC_DEFERRED_H_
+
+#include <functional>
+#include <memory>
+#include <utility>
+
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/async_result.h"
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/basic_types.h"
+
+namespace perfetto {
+namespace ipc {
+
+// This class is a wrapper for a callback handling async results.
+// The problem this is solving is the following: For each result argument of the
+// methods generated from the .proto file:
+// - The client wants to see something on which it can Bind() a callback, which
+// is invoked asynchronously once reply is received from the host.
+// - The host wants to expose something to user code that implements the IPC
+// methods to allow them to provide an asynchronous reply back to the client.
+// Eventually even more than once, for the case streaming replies.
+//
+// In both cases we want to make sure that callbacks don't get lost along the
+// way. To address this, this class will automatically reject the callbacks
+// if they are not resolved at destructor time (or the object is std::move()'d).
+//
+// The client is supposed to use this class as follows:
+// class GreeterProxy {
+// void SayHello(const HelloRequest&, Deferred<HelloReply> reply)
+// }
+// ...
+// Deferred<HelloReply> reply;
+// reply.Bind([] (AsyncResult<HelloReply> reply) {
+// std::cout << reply.success() ? reply->message : "failure";
+// });
+// host_proxy_instance.SayHello(req, std::move(reply));
+//
+// The host instead is supposed to use this as follows:
+// class GreeterImpl : public Greeter {
+// void SayHello(const HelloRequest& req, Deferred<HelloReply> reply) {
+// AsyncResult<HelloReply> reply = AsyncResult<HelloReply>::Create();
+// reply->set_greeting("Hello " + req.name)
+// reply.Resolve(std::move(reply));
+// }
+// }
+// Or for more complex cases, the deferred object can be std::move()'d outside
+// and the reply can continue asynchronously later.
+
+template <typename T>
+class Deferred;
+
+class DeferredBase {
+ public:
+ explicit DeferredBase(
+ std::function<void(AsyncResult<ProtoMessage>)> callback = nullptr);
+
+ ~DeferredBase();
+ DeferredBase(DeferredBase&&) noexcept;
+ DeferredBase& operator=(DeferredBase&&);
+ void Bind(std::function<void(AsyncResult<ProtoMessage>)> callback);
+ bool IsBound() const;
+ void Resolve(AsyncResult<ProtoMessage>);
+ void Reject();
+
+ protected:
+ template <typename T>
+ friend class Deferred;
+ void Move(DeferredBase&);
+
+ std::function<void(AsyncResult<ProtoMessage>)> callback_;
+};
+
+template <typename T> // T : ProtoMessage subclass
+class Deferred : public DeferredBase {
+ public:
+ explicit Deferred(std::function<void(AsyncResult<T>)> callback = nullptr) {
+ Bind(std::move(callback));
+ }
+
+ // This move constructor (and the similar one in DeferredBase) is meant to be
+ // called only by the autogenerated code. The caller has to guarantee that the
+ // moved-from and moved-to types match. The behavior is otherwise undefined.
+ explicit Deferred(DeferredBase&& other) {
+ callback_ = std::move(other.callback_);
+ other.callback_ = nullptr;
+ }
+
+ void Bind(std::function<void(AsyncResult<T>)> callback) {
+ if (!callback)
+ return;
+
+ // Here we need a callback adapter to downcast the callback to a generic
+ // callback that takes an AsyncResult<ProtoMessage>, so that it can be
+ // stored in the base class |callback_|.
+ auto callback_adapter = [callback](
+ AsyncResult<ProtoMessage> async_result_base) {
+ // Upcast the async_result from <ProtoMessage> -> <T : ProtoMessage>.
+ static_assert(std::is_base_of<ProtoMessage, T>::value, "T:ProtoMessage");
+ AsyncResult<T> async_result(
+ std::unique_ptr<T>(static_cast<T*>(async_result_base.release_msg())),
+ async_result_base.has_more(), async_result_base.fd());
+ callback(std::move(async_result));
+ };
+ DeferredBase::Bind(callback_adapter);
+ }
+
+ // If no more messages are expected, |callback_| is released.
+ void Resolve(AsyncResult<T> async_result) {
+ // Convert the |async_result| to the generic base one (T -> ProtoMessage).
+ AsyncResult<ProtoMessage> async_result_base(
+ std::unique_ptr<ProtoMessage>(async_result.release_msg()),
+ async_result.has_more(), async_result.fd());
+ DeferredBase::Resolve(std::move(async_result_base));
+ }
+};
+
+} // namespace ipc
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_IPC_DEFERRED_H_
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/deferred.h"
+
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/utils.h"
+
+namespace perfetto {
+namespace ipc {
+
+DeferredBase::DeferredBase(
+ std::function<void(AsyncResult<ProtoMessage>)> callback)
+ : callback_(std::move(callback)) {}
+
+DeferredBase::~DeferredBase() {
+ if (callback_)
+ Reject();
+}
+
+// Can't just use "= default" here because the default move operator for
+// std::function doesn't necessarily swap and hence can leave a copy of the
+// bind state around, which is undesirable.
+DeferredBase::DeferredBase(DeferredBase&& other) noexcept {
+ Move(other);
+}
+
+DeferredBase& DeferredBase::operator=(DeferredBase&& other) {
+ if (callback_)
+ Reject();
+ Move(other);
+ return *this;
+}
+
+void DeferredBase::Move(DeferredBase& other) {
+ callback_ = std::move(other.callback_);
+ other.callback_ = nullptr;
+}
+
+void DeferredBase::Bind(
+ std::function<void(AsyncResult<ProtoMessage>)> callback) {
+ callback_ = std::move(callback);
+}
+
+bool DeferredBase::IsBound() const {
+ return !!callback_;
+}
+
+void DeferredBase::Resolve(AsyncResult<ProtoMessage> async_result) {
+ if (!callback_) {
+ PERFETTO_DFATAL("No callback set.");
+ return;
+ }
+ bool has_more = async_result.has_more();
+ callback_(std::move(async_result));
+ if (!has_more)
+ callback_ = nullptr;
+}
+
+// Resolves with a nullptr |msg_|, signalling failure to |callback_|.
+void DeferredBase::Reject() {
+ Resolve(AsyncResult<ProtoMessage>());
+}
+
+} // namespace ipc
+} // namespace perfetto
+// gen_amalgamated begin source: src/ipc/virtual_destructors.cc
+// gen_amalgamated begin header: include/perfetto/ext/ipc/client.h
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_IPC_CLIENT_H_
+#define INCLUDE_PERFETTO_EXT_IPC_CLIENT_H_
+
+#include <functional>
+#include <memory>
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/scoped_file.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/unix_socket.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/weak_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/basic_types.h"
+
+namespace perfetto {
+
+namespace base {
+class TaskRunner;
+} // namespace base
+
+namespace ipc {
+class ServiceProxy;
+
+// The client-side class that talks to the host over the socket and multiplexes
+// requests coming from the various autogenerated ServiceProxy stubs.
+// This is meant to be used by the user code as follows:
+// auto client = Client::CreateInstance("socket_name", task_runner);
+// std::unique_ptr<GreeterService> svc(new GreeterService());
+// client.BindService(svc);
+// svc.OnConnect([] () {
+// svc.SayHello(..., ...);
+// });
+class Client {
+ public:
+ // struct ConnArgs is used for creating a client in 2 connection modes:
+ // 1. Connect using a socket name with the option to retry the connection on
+ // connection failure.
+ // 2. Adopt a connected socket.
+ struct ConnArgs {
+ ConnArgs(const char* sock_name, bool sock_retry)
+ : socket_name(sock_name), retry(sock_retry) {}
+ explicit ConnArgs(base::ScopedSocketHandle sock_fd)
+ : socket_fd(std::move(sock_fd)) {}
+
+ // Disallow copy. Only supports move.
+ ConnArgs(const ConnArgs& other) = delete;
+ ConnArgs(ConnArgs&& other) = default;
+
+ base::ScopedSocketHandle socket_fd;
+ const char* socket_name = nullptr;
+ bool retry = false; // Only for connecting with |socket_name|.
+ std::function<int(void)> receive_shmem_fd_cb_fuchsia;
+ };
+
+ static std::unique_ptr<Client> CreateInstance(ConnArgs, base::TaskRunner*);
+ virtual ~Client();
+
+ virtual void BindService(base::WeakPtr<ServiceProxy>) = 0;
+
+ // There is no need to call this method explicitly. Destroying the
+ // ServiceProxy instance is sufficient and will automatically unbind it. This
+ // method is exposed only for the ServiceProxy destructor.
+ virtual void UnbindService(ServiceID) = 0;
+
+ // Returns (with move semantics) the last file descriptor received on the IPC
+ // channel. No buffering is performed: if a service sends two file descriptors
+ // and the caller doesn't read them immediately, the first one will be
+ // automatically closed when the second is received (and will hit a DCHECK in
+ // debug builds).
+ virtual base::ScopedFile TakeReceivedFD() = 0;
+};
+
+} // namespace ipc
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_IPC_CLIENT_H_
+// gen_amalgamated begin header: include/perfetto/ext/ipc/host.h
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_IPC_HOST_H_
+#define INCLUDE_PERFETTO_EXT_IPC_HOST_H_
+
+#include <memory>
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/scoped_file.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/unix_socket.h"
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/basic_types.h"
+
+namespace perfetto {
+
+namespace base {
+class TaskRunner;
+} // namespace base
+
+namespace ipc {
+
+class Service;
+
+// The host-side of the IPC layer. This class acts as a registry and request
+// dispatcher. It listen on the UnixSocket |socket_name| for incoming requests
+// (coming Client instances) and dispatches their requests to the various
+// Services exposed.
+class Host {
+ public:
+ // Creates an instance and starts listening on the given |socket_name|.
+ // Returns nullptr if listening on the socket fails.
+ static std::unique_ptr<Host> CreateInstance(const char* socket_name,
+ base::TaskRunner*);
+
+ // Like the above but takes a file descriptor to a pre-bound unix socket.
+ // Returns nullptr if listening on the socket fails.
+ static std::unique_ptr<Host> CreateInstance(base::ScopedSocketHandle,
+ base::TaskRunner*);
+
+ // Creates a Host which is not backed by a POSIX listening socket.
+ // Instead, it accepts sockets passed in via AdoptConnectedSocket_Fuchsia().
+ // See go/fuchsetto for more details.
+ static std::unique_ptr<Host> CreateInstance_Fuchsia(base::TaskRunner*);
+
+ virtual ~Host();
+
+ // Registers a new service and makes it available to remote IPC peers.
+ // All the exposed Service instances will be destroyed when destroying the
+ // Host instance if ExposeService succeeds and returns true, or immediately
+ // after the call in case of failure.
+ // Returns true if the register has been successfully registered, false in
+ // case of errors (e.g., another service with the same name is already
+ // registered).
+ virtual bool ExposeService(std::unique_ptr<Service>) = 0;
+
+ // Accepts a pre-connected socket handle and a callback used to send a
+ // shared memory FD to the remote client.
+ // The callback returns false if the FD could not be sent.
+ // Should only be used in conjunction with CreateInstance_Fuchsia().
+ virtual void AdoptConnectedSocket_Fuchsia(
+ base::ScopedSocketHandle,
+ std::function<bool(int)> send_fd_cb) = 0;
+
+ // Overrides the default send timeout for the per-connection sockets.
+ virtual void SetSocketSendTimeoutMs(uint32_t timeout_ms) = 0;
+};
+
+} // namespace ipc
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_IPC_HOST_H_
+// gen_amalgamated begin header: include/perfetto/ext/ipc/service.h
+// gen_amalgamated begin header: include/perfetto/ext/ipc/client_info.h
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_IPC_CLIENT_INFO_H_
+#define INCLUDE_PERFETTO_EXT_IPC_CLIENT_INFO_H_
+
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/sys_types.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/utils.h"
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/basic_types.h"
+
+namespace perfetto {
+namespace ipc {
+
+// Passed to Service(s) to identify remote clients.
+class ClientInfo {
+ public:
+ ClientInfo() = default;
+ ClientInfo(ClientID client_id,
+ uid_t uid,
+ pid_t pid,
+ base::MachineID machine_id)
+ : client_id_(client_id), uid_(uid), pid_(pid), machine_id_(machine_id) {}
+
+ bool operator==(const ClientInfo& other) const {
+ return std::tie(client_id_, uid_, pid_, machine_id_) ==
+ std::tie(other.client_id_, other.uid_, other.pid_,
+ other.machine_id_);
+ }
+ bool operator!=(const ClientInfo& other) const { return !(*this == other); }
+
+ // For map<> and other sorted containers.
+ bool operator<(const ClientInfo& other) const {
+ PERFETTO_DCHECK(client_id_ != other.client_id_ || *this == other);
+ return client_id_ < other.client_id_;
+ }
+
+ bool is_valid() const { return client_id_ != 0; }
+
+ // A monotonic counter.
+ ClientID client_id() const { return client_id_; }
+
+ // Posix User ID. Comes from the kernel, can be trusted.
+ uid_t uid() const { return uid_; }
+
+ // Posix process ID. Comes from the kernel and can be trusted.
+ int32_t pid() const { return pid_; }
+
+ // An integral ID that identifies the machine the client is on.
+ base::MachineID machine_id() const { return machine_id_; }
+
+ private:
+ ClientID client_id_ = 0;
+ // The following fields are emitted to trace packets and should be kept in
+ // sync with perfetto::ClientIdentity.
+ uid_t uid_ = kInvalidUid;
+ pid_t pid_ = base::kInvalidPid;
+ base::MachineID machine_id_ = base::kDefaultMachineID;
+};
+
+} // namespace ipc
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_IPC_CLIENT_INFO_H_
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_IPC_SERVICE_H_
+#define INCLUDE_PERFETTO_EXT_IPC_SERVICE_H_
+
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/scoped_file.h"
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/client_info.h"
+
+namespace perfetto {
+namespace ipc {
+
+class ServiceDescriptor;
+
+// The base class for all the autogenerated host-side service interfaces.
+class Service {
+ public:
+ virtual ~Service();
+
+ // Overridden by the auto-generated class. Provides the list of methods and
+ // the protobuf (de)serialization functions for their arguments.
+ virtual const ServiceDescriptor& GetDescriptor() = 0;
+
+ // Invoked when a remote client disconnects. Use client_info() to obtain
+ // details about the client that disconnected.
+ virtual void OnClientDisconnected() {}
+
+ // Returns the ClientInfo for the current IPC request. Returns an invalid
+ // ClientInfo if called outside the scope of an IPC method.
+ const ClientInfo& client_info() {
+ PERFETTO_DCHECK(client_info_.is_valid());
+ return client_info_;
+ }
+
+ base::ScopedFile TakeReceivedFD() {
+ if (received_fd_)
+ return std::move(*received_fd_);
+ return base::ScopedFile();
+ }
+
+ bool use_shmem_emulation() { return use_shmem_emulation_; }
+
+ private:
+ friend class HostImpl;
+ ClientInfo client_info_;
+ // This is a pointer because the received fd needs to remain owned by the
+ // ClientConnection, as we will provide it to all method invocations
+ // for that client until one of them calls Service::TakeReceivedFD.
+ //
+ // Different clients might have sent different FDs so this cannot be owned
+ // here.
+ //
+ // Note that this means that there can always only be one outstanding
+ // invocation per client that supplies an FD and the client needs to
+ // wait for this one to return before calling another one.
+ base::ScopedFile* received_fd_;
+
+ // Whether the socket needs to emulate shared memory buffer. Set by HostImpl
+ // when the service is exposed.
+ bool use_shmem_emulation_ = false;
+};
+
+} // namespace ipc
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_IPC_SERVICE_H_
+// gen_amalgamated begin header: include/perfetto/ext/ipc/service_proxy.h
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_IPC_SERVICE_PROXY_H_
+#define INCLUDE_PERFETTO_EXT_IPC_SERVICE_PROXY_H_
+
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/basic_types.h"
+
+#include <assert.h>
+
+#include <functional>
+#include <map>
+#include <memory>
+#include <string>
+
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/weak_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/deferred.h"
+
+namespace perfetto {
+namespace ipc {
+
+class Client;
+class ServiceDescriptor;
+
+// The base class for the client-side autogenerated stubs that forward method
+// invocations to the host. All the methods of this class are meant to be called
+// only by the autogenerated code.
+class PERFETTO_EXPORT_COMPONENT ServiceProxy {
+ public:
+ class EventListener {
+ public:
+ virtual ~EventListener();
+
+ // Called once after Client::BindService() if the ServiceProxy has been
+ // successfully bound to the host. It is possible to start sending IPC
+ // requests soon after this.
+ virtual void OnConnect() {}
+
+ // Called if the connection fails to be established or drops after having
+ // been established.
+ virtual void OnDisconnect() {}
+ };
+
+ // Guarantees that no callback will happen after this object has been
+ // destroyed. The caller has to guarantee that the |event_listener| stays
+ // alive at least as long as the ServiceProxy instance.
+ explicit ServiceProxy(EventListener*);
+ virtual ~ServiceProxy();
+
+ void InitializeBinding(base::WeakPtr<Client>,
+ ServiceID,
+ std::map<std::string, MethodID>);
+
+ // Called by the IPC methods in the autogenerated classes.
+ void BeginInvoke(const std::string& method_name,
+ const ProtoMessage& request,
+ DeferredBase reply,
+ int fd = -1);
+
+ // Called by ClientImpl.
+ // |reply_args| == nullptr means request failure.
+ void EndInvoke(RequestID,
+ std::unique_ptr<ProtoMessage> reply_arg,
+ bool has_more);
+
+ // Called by ClientImpl.
+ void OnConnect(bool success);
+ void OnDisconnect();
+ bool connected() const { return service_id_ != 0; }
+
+ base::WeakPtr<ServiceProxy> GetWeakPtr() const;
+
+ // Implemented by the autogenerated class.
+ virtual const ServiceDescriptor& GetDescriptor() = 0;
+
+ private:
+ base::WeakPtr<Client> client_;
+ ServiceID service_id_ = 0;
+ std::map<std::string, MethodID> remote_method_ids_;
+ std::map<RequestID, DeferredBase> pending_callbacks_;
+ EventListener* const event_listener_;
+ base::WeakPtrFactory<ServiceProxy> weak_ptr_factory_; // Keep last.
+};
+
+} // namespace ipc
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_IPC_SERVICE_PROXY_H_
+/*
+ * Copyright (C) 2018 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/client.h"
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/host.h"
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/service.h"
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/service_proxy.h"
+
+// This translation unit contains the definitions for the destructor of pure
+// virtual interfaces for the current build target. The alternative would be
+// introducing a one-liner .cc file for each pure virtual interface, which is
+// overkill. This is for compliance with -Wweak-vtables.
+
+namespace perfetto {
+namespace ipc {
+
+Client::~Client() = default;
+Host::~Host() = default;
+Service::~Service() = default;
+ServiceProxy::EventListener::~EventListener() = default;
+
+} // namespace ipc
+} // namespace perfetto
+// gen_amalgamated begin source: src/ipc/client_impl.cc
+// gen_amalgamated begin header: src/ipc/client_impl.h
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef SRC_IPC_CLIENT_IMPL_H_
+#define SRC_IPC_CLIENT_IMPL_H_
+
+#include <list>
+#include <map>
+#include <memory>
+
+// gen_amalgamated expanded: #include "perfetto/base/task_runner.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/scoped_file.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/unix_socket.h"
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/client.h"
+// gen_amalgamated expanded: #include "src/ipc/buffered_frame_deserializer.h"
+
+namespace perfetto {
+
+namespace protos {
+namespace gen {
+class IPCFrame_BindServiceReply;
+class IPCFrame_InvokeMethodReply;
+} // namespace gen
+} // namespace protos
+
+namespace base {
+class TaskRunner;
+} // namespace base
+
+namespace ipc {
+
+class ServiceDescriptor;
+
+class ClientImpl : public Client, public base::UnixSocket::EventListener {
+ public:
+ ClientImpl(ConnArgs, base::TaskRunner*);
+ ~ClientImpl() override;
+
+ // Client implementation.
+ void BindService(base::WeakPtr<ServiceProxy>) override;
+ void UnbindService(ServiceID) override;
+ base::ScopedFile TakeReceivedFD() override;
+
+ // base::UnixSocket::EventListener implementation.
+ void OnConnect(base::UnixSocket*, bool connected) override;
+ void OnDisconnect(base::UnixSocket*) override;
+ void OnDataAvailable(base::UnixSocket*) override;
+
+ RequestID BeginInvoke(ServiceID,
+ const std::string& method_name,
+ MethodID remote_method_id,
+ const ProtoMessage& method_args,
+ bool drop_reply,
+ base::WeakPtr<ServiceProxy>,
+ int fd = -1);
+
+ base::UnixSocket* GetUnixSocketForTesting() { return sock_.get(); }
+
+ private:
+ struct QueuedRequest {
+ QueuedRequest();
+ int type = 0; // From Frame::msg_case(), see wire_protocol.proto.
+ RequestID request_id = 0;
+ base::WeakPtr<ServiceProxy> service_proxy;
+
+ // Only for type == kMsgInvokeMethod.
+ std::string method_name;
+ };
+
+ ClientImpl(const ClientImpl&) = delete;
+ ClientImpl& operator=(const ClientImpl&) = delete;
+
+ void TryConnect();
+ bool SendFrame(const Frame&, int fd = -1);
+ void OnFrameReceived(const Frame&);
+ void OnBindServiceReply(QueuedRequest,
+ const protos::gen::IPCFrame_BindServiceReply&);
+ void OnInvokeMethodReply(QueuedRequest,
+ const protos::gen::IPCFrame_InvokeMethodReply&);
+
+ bool invoking_method_reply_ = false;
+ const char* socket_name_ = nullptr;
+ bool socket_retry_ = false;
+ uint32_t socket_backoff_ms_ = 0;
+ std::unique_ptr<base::UnixSocket> sock_;
+ base::TaskRunner* const task_runner_;
+ RequestID last_request_id_ = 0;
+ BufferedFrameDeserializer frame_deserializer_;
+ base::ScopedFile received_fd_;
+ std::map<RequestID, QueuedRequest> queued_requests_;
+ std::map<ServiceID, base::WeakPtr<ServiceProxy>> service_bindings_;
+
+ // Queue of calls to BindService() that happened before the socket connected.
+ std::list<base::WeakPtr<ServiceProxy>> queued_bindings_;
+
+ base::WeakPtrFactory<Client> weak_ptr_factory_; // Keep last.
+};
+
+} // namespace ipc
+} // namespace perfetto
+
+#endif // SRC_IPC_CLIENT_IMPL_H_
+// gen_amalgamated begin header: include/perfetto/ext/ipc/service_descriptor.h
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_IPC_SERVICE_DESCRIPTOR_H_
+#define INCLUDE_PERFETTO_EXT_IPC_SERVICE_DESCRIPTOR_H_
+
+#include <functional>
+#include <string>
+#include <utility>
+#include <vector>
+
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/basic_types.h"
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/deferred.h"
+
+namespace perfetto {
+namespace ipc {
+
+class Service;
+
+// This is a pure data structure which holds factory methods and strings for the
+// services and their methods that get generated in the .h/.cc files.
+// Each autogenerated class has a GetDescriptor() method that returns one
+// instance of these and allows both client and hosts to map service and method
+// names to IDs and provide function pointers to the protobuf decoder fuctions.
+class ServiceDescriptor {
+ public:
+ struct Method {
+ const char* name;
+
+ // DecoderFunc is pointer to a function that takes a string in input
+ // containing protobuf encoded data and returns a decoded protobuf message.
+ using DecoderFunc = std::unique_ptr<ProtoMessage> (*)(const std::string&);
+
+ // Function pointer to decode the request argument of the method.
+ DecoderFunc request_proto_decoder;
+
+ // Function pointer to decoded the reply argument of the method.
+ DecoderFunc reply_proto_decoder;
+
+ // Function pointer that dispatches the generic request to the corresponding
+ // method implementation.
+ using InvokerFunc = void (*)(Service*,
+ const ProtoMessage& /* request_args */,
+ DeferredBase /* deferred_reply */);
+ InvokerFunc invoker;
+ };
+
+ const char* service_name = nullptr;
+
+ // Note that methods order is not stable. Client and Host might have different
+ // method indexes, depending on their versions. The Client can't just rely
+ // on the indexes and has to keep a [string -> remote index] translation map.
+ std::vector<Method> methods;
+};
+
+} // namespace ipc
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_IPC_SERVICE_DESCRIPTOR_H_
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "src/ipc/client_impl.h"
+
+#include <fcntl.h>
+
+#include <cinttypes>
+#include <utility>
+
+// gen_amalgamated expanded: #include "perfetto/base/task_runner.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/unix_socket.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/utils.h"
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/service_descriptor.h"
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/service_proxy.h"
+
+// gen_amalgamated expanded: #include "protos/perfetto/ipc/wire_protocol.gen.h"
+
+// TODO(primiano): Add ThreadChecker everywhere.
+
+// TODO(primiano): Add timeouts.
+
+namespace perfetto {
+namespace ipc {
+
+namespace {
+constexpr base::SockFamily kClientSockFamily =
+ kUseTCPSocket ? base::SockFamily::kInet : base::SockFamily::kUnix;
+} // namespace
+
+// static
+std::unique_ptr<Client> Client::CreateInstance(ConnArgs conn_args,
+ base::TaskRunner* task_runner) {
+ std::unique_ptr<Client> client(
+ new ClientImpl(std::move(conn_args), task_runner));
+ return client;
+}
+
+ClientImpl::ClientImpl(ConnArgs conn_args, base::TaskRunner* task_runner)
+ : socket_name_(conn_args.socket_name),
+ socket_retry_(conn_args.retry),
+ task_runner_(task_runner),
+ weak_ptr_factory_(this) {
+ if (conn_args.socket_fd) {
+ // Create the client using a connected socket. This code path will never hit
+ // OnConnect().
+ sock_ = base::UnixSocket::AdoptConnected(
+ std::move(conn_args.socket_fd), this, task_runner_, kClientSockFamily,
+ base::SockType::kStream, base::SockPeerCredMode::kIgnore);
+ } else {
+ // Connect using the socket name.
+ TryConnect();
+ }
+}
+
+ClientImpl::~ClientImpl() {
+ // Ensure we are not destroyed in the middle of invoking a reply.
+ PERFETTO_DCHECK(!invoking_method_reply_);
+ OnDisconnect(
+ nullptr); // The base::UnixSocket* ptr is not used in OnDisconnect().
+}
+
+void ClientImpl::TryConnect() {
+ PERFETTO_DCHECK(socket_name_);
+ sock_ = base::UnixSocket::Connect(
+ socket_name_, this, task_runner_, base::GetSockFamily(socket_name_),
+ base::SockType::kStream, base::SockPeerCredMode::kIgnore);
+}
+
+void ClientImpl::BindService(base::WeakPtr<ServiceProxy> service_proxy) {
+ if (!service_proxy)
+ return;
+ if (!sock_->is_connected()) {
+ queued_bindings_.emplace_back(service_proxy);
+ return;
+ }
+ RequestID request_id = ++last_request_id_;
+ Frame frame;
+ frame.set_request_id(request_id);
+ Frame::BindService* req = frame.mutable_msg_bind_service();
+ const char* const service_name = service_proxy->GetDescriptor().service_name;
+ req->set_service_name(service_name);
+ if (!SendFrame(frame)) {
+ PERFETTO_DLOG("BindService(%s) failed", service_name);
+ return service_proxy->OnConnect(false /* success */);
+ }
+ QueuedRequest qr;
+ qr.type = Frame::kMsgBindServiceFieldNumber;
+ qr.request_id = request_id;
+ qr.service_proxy = service_proxy;
+ queued_requests_.emplace(request_id, std::move(qr));
+}
+
+void ClientImpl::UnbindService(ServiceID service_id) {
+ service_bindings_.erase(service_id);
+}
+
+RequestID ClientImpl::BeginInvoke(ServiceID service_id,
+ const std::string& method_name,
+ MethodID remote_method_id,
+ const ProtoMessage& method_args,
+ bool drop_reply,
+ base::WeakPtr<ServiceProxy> service_proxy,
+ int fd) {
+ RequestID request_id = ++last_request_id_;
+ Frame frame;
+ frame.set_request_id(request_id);
+ Frame::InvokeMethod* req = frame.mutable_msg_invoke_method();
+ req->set_service_id(service_id);
+ req->set_method_id(remote_method_id);
+ req->set_drop_reply(drop_reply);
+ req->set_args_proto(method_args.SerializeAsString());
+ if (!SendFrame(frame, fd)) {
+ PERFETTO_DLOG("BeginInvoke() failed while sending the frame");
+ return 0;
+ }
+ if (drop_reply)
+ return 0;
+ QueuedRequest qr;
+ qr.type = Frame::kMsgInvokeMethodFieldNumber;
+ qr.request_id = request_id;
+ qr.method_name = method_name;
+ qr.service_proxy = std::move(service_proxy);
+ queued_requests_.emplace(request_id, std::move(qr));
+ return request_id;
+}
+
+bool ClientImpl::SendFrame(const Frame& frame, int fd) {
+ // Serialize the frame into protobuf, add the size header, and send it.
+ std::string buf = BufferedFrameDeserializer::Serialize(frame);
+
+ // TODO(primiano): this should do non-blocking I/O. But then what if the
+ // socket buffer is full? We might want to either drop the request or throttle
+ // the send and PostTask the reply later? Right now we are making Send()
+ // blocking as a workaround. Propagate bakpressure to the caller instead.
+ bool res = sock_->Send(buf.data(), buf.size(), fd);
+ PERFETTO_CHECK(res || !sock_->is_connected());
+ return res;
+}
+
+void ClientImpl::OnConnect(base::UnixSocket*, bool connected) {
+ if (!connected && socket_retry_) {
+ socket_backoff_ms_ =
+ (socket_backoff_ms_ < 10000) ? socket_backoff_ms_ + 1000 : 30000;
+ PERFETTO_DLOG(
+ "Connection to traced's UNIX socket failed, retrying in %u seconds",
+ socket_backoff_ms_ / 1000);
+ auto weak_this = weak_ptr_factory_.GetWeakPtr();
+ task_runner_->PostDelayedTask(
+ [weak_this] {
+ if (weak_this)
+ static_cast<ClientImpl&>(*weak_this).TryConnect();
+ },
+ socket_backoff_ms_);
+ return;
+ }
+
+ // Drain the BindService() calls that were queued before establishing the
+ // connection with the host. Note that if we got disconnected, the call to
+ // OnConnect below might delete |this|, so move everything on the stack first.
+ auto queued_bindings = std::move(queued_bindings_);
+ queued_bindings_.clear();
+ for (base::WeakPtr<ServiceProxy>& service_proxy : queued_bindings) {
+ if (connected) {
+ BindService(service_proxy);
+ } else if (service_proxy) {
+ service_proxy->OnConnect(false /* success */);
+ }
+ }
+ // Don't access |this| below here.
+}
+
+void ClientImpl::OnDisconnect(base::UnixSocket*) {
+ for (const auto& it : service_bindings_) {
+ base::WeakPtr<ServiceProxy> service_proxy = it.second;
+ task_runner_->PostTask([service_proxy] {
+ if (service_proxy)
+ service_proxy->OnDisconnect();
+ });
+ }
+ for (const auto& it : queued_requests_) {
+ const QueuedRequest& queued_request = it.second;
+ if (queued_request.type != Frame::kMsgBindServiceFieldNumber) {
+ continue;
+ }
+ base::WeakPtr<ServiceProxy> service_proxy = queued_request.service_proxy;
+ task_runner_->PostTask([service_proxy] {
+ if (service_proxy)
+ service_proxy->OnConnect(false);
+ });
+ }
+ service_bindings_.clear();
+ queued_bindings_.clear();
+}
+
+void ClientImpl::OnDataAvailable(base::UnixSocket*) {
+ size_t rsize;
+ do {
+ auto buf = frame_deserializer_.BeginReceive();
+ base::ScopedFile fd;
+ rsize = sock_->Receive(buf.data, buf.size, &fd);
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ PERFETTO_DCHECK(!fd);
+#else
+ if (fd) {
+ PERFETTO_DCHECK(!received_fd_);
+ int res = fcntl(*fd, F_SETFD, FD_CLOEXEC);
+ PERFETTO_DCHECK(res == 0);
+ received_fd_ = std::move(fd);
+ }
+#endif
+ if (!frame_deserializer_.EndReceive(rsize)) {
+ // The endpoint tried to send a frame that is way too large.
+ return sock_->Shutdown(true); // In turn will trigger an OnDisconnect().
+ // TODO(fmayer): check this.
+ }
+ } while (rsize > 0);
+
+ while (std::unique_ptr<Frame> frame = frame_deserializer_.PopNextFrame())
+ OnFrameReceived(*frame);
+}
+
+void ClientImpl::OnFrameReceived(const Frame& frame) {
+ auto queued_requests_it = queued_requests_.find(frame.request_id());
+ if (queued_requests_it == queued_requests_.end()) {
+ PERFETTO_DLOG("OnFrameReceived(): got invalid request_id=%" PRIu64,
+ static_cast<uint64_t>(frame.request_id()));
+ return;
+ }
+ QueuedRequest req = std::move(queued_requests_it->second);
+ queued_requests_.erase(queued_requests_it);
+
+ if (req.type == Frame::kMsgBindServiceFieldNumber &&
+ frame.has_msg_bind_service_reply()) {
+ return OnBindServiceReply(std::move(req), frame.msg_bind_service_reply());
+ }
+ if (req.type == Frame::kMsgInvokeMethodFieldNumber &&
+ frame.has_msg_invoke_method_reply()) {
+ return OnInvokeMethodReply(std::move(req), frame.msg_invoke_method_reply());
+ }
+ if (frame.has_msg_request_error()) {
+ PERFETTO_DLOG("Host error: %s", frame.msg_request_error().error().c_str());
+ return;
+ }
+
+ PERFETTO_DLOG(
+ "OnFrameReceived() request type=%d, received unknown frame in reply to "
+ "request_id=%" PRIu64,
+ req.type, static_cast<uint64_t>(frame.request_id()));
+}
+
+void ClientImpl::OnBindServiceReply(QueuedRequest req,
+ const Frame::BindServiceReply& reply) {
+ base::WeakPtr<ServiceProxy>& service_proxy = req.service_proxy;
+ if (!service_proxy)
+ return;
+ const char* svc_name = service_proxy->GetDescriptor().service_name;
+ if (!reply.success()) {
+ PERFETTO_DLOG("BindService(): unknown service_name=\"%s\"", svc_name);
+ return service_proxy->OnConnect(false /* success */);
+ }
+
+ auto prev_service = service_bindings_.find(reply.service_id());
+ if (prev_service != service_bindings_.end() && prev_service->second.get()) {
+ PERFETTO_DLOG(
+ "BindService(): Trying to bind service \"%s\" but another service "
+ "named \"%s\" is already bound with the same ID.",
+ svc_name, prev_service->second->GetDescriptor().service_name);
+ return service_proxy->OnConnect(false /* success */);
+ }
+
+ // Build the method [name] -> [remote_id] map.
+ std::map<std::string, MethodID> methods;
+ for (const auto& method : reply.methods()) {
+ if (method.name().empty() || method.id() <= 0) {
+ PERFETTO_DLOG("OnBindServiceReply(): invalid method \"%s\" -> %" PRIu64,
+ method.name().c_str(), static_cast<uint64_t>(method.id()));
+ continue;
+ }
+ methods[method.name()] = method.id();
+ }
+ service_proxy->InitializeBinding(weak_ptr_factory_.GetWeakPtr(),
+ reply.service_id(), std::move(methods));
+ service_bindings_[reply.service_id()] = service_proxy;
+ service_proxy->OnConnect(true /* success */);
+}
+
+void ClientImpl::OnInvokeMethodReply(QueuedRequest req,
+ const Frame::InvokeMethodReply& reply) {
+ base::WeakPtr<ServiceProxy> service_proxy = req.service_proxy;
+ if (!service_proxy)
+ return;
+ std::unique_ptr<ProtoMessage> decoded_reply;
+ if (reply.success()) {
+ // If this becomes a hotspot, optimize by maintaining a dedicated hashtable.
+ for (const auto& method : service_proxy->GetDescriptor().methods) {
+ if (req.method_name == method.name) {
+ decoded_reply = method.reply_proto_decoder(reply.reply_proto());
+ break;
+ }
+ }
+ }
+ const RequestID request_id = req.request_id;
+ invoking_method_reply_ = true;
+ service_proxy->EndInvoke(request_id, std::move(decoded_reply),
+ reply.has_more());
+ invoking_method_reply_ = false;
+
+ // If this is a streaming method and future replies will be resolved, put back
+ // the |req| with the callback into the set of active requests.
+ if (reply.has_more())
+ queued_requests_.emplace(request_id, std::move(req));
+}
+
+ClientImpl::QueuedRequest::QueuedRequest() = default;
+
+base::ScopedFile ClientImpl::TakeReceivedFD() {
+ return std::move(received_fd_);
+}
+
+} // namespace ipc
+} // namespace perfetto
+// gen_amalgamated begin source: src/ipc/service_proxy.cc
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/service_proxy.h"
+
+#include <utility>
+
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/weak_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/service_descriptor.h"
+// gen_amalgamated expanded: #include "src/ipc/client_impl.h"
+
+// gen_amalgamated expanded: #include "protos/perfetto/ipc/wire_protocol.gen.h"
+
+namespace perfetto {
+namespace ipc {
+
+ServiceProxy::ServiceProxy(EventListener* event_listener)
+ : event_listener_(event_listener), weak_ptr_factory_(this) {}
+
+ServiceProxy::~ServiceProxy() {
+ if (client_ && connected())
+ client_->UnbindService(service_id_);
+}
+
+void ServiceProxy::InitializeBinding(
+ base::WeakPtr<Client> client,
+ ServiceID service_id,
+ std::map<std::string, MethodID> remote_method_ids) {
+ client_ = std::move(client);
+ service_id_ = service_id;
+ remote_method_ids_ = std::move(remote_method_ids);
+}
+
+void ServiceProxy::BeginInvoke(const std::string& method_name,
+ const ProtoMessage& request,
+ DeferredBase reply,
+ int fd) {
+ // |reply| will auto-resolve if it gets out of scope early.
+ if (!connected()) {
+ PERFETTO_DFATAL("Not connected.");
+ return;
+ }
+ if (!client_)
+ return; // The Client object has been destroyed in the meantime.
+
+ auto remote_method_it = remote_method_ids_.find(method_name);
+ RequestID request_id = 0;
+ const bool drop_reply = !reply.IsBound();
+ if (remote_method_it != remote_method_ids_.end()) {
+ request_id =
+ static_cast<ClientImpl*>(client_.get())
+ ->BeginInvoke(service_id_, method_name, remote_method_it->second,
+ request, drop_reply, weak_ptr_factory_.GetWeakPtr(),
+ fd);
+ } else {
+ PERFETTO_DLOG("Cannot find method \"%s\" on the host", method_name.c_str());
+ }
+
+ // When passing |drop_reply| == true, the returned |request_id| should be 0.
+ PERFETTO_DCHECK(!drop_reply || !request_id);
+
+ if (!request_id)
+ return;
+ PERFETTO_DCHECK(pending_callbacks_.count(request_id) == 0);
+ pending_callbacks_.emplace(request_id, std::move(reply));
+}
+
+void ServiceProxy::EndInvoke(RequestID request_id,
+ std::unique_ptr<ProtoMessage> result,
+ bool has_more) {
+ auto callback_it = pending_callbacks_.find(request_id);
+ if (callback_it == pending_callbacks_.end()) {
+ // Either we are getting a reply for a method we never invoked, or we are
+ // getting a reply to a method marked drop_reply (that has been invoked
+ // without binding any callback in the Defererd response object).
+ PERFETTO_DFATAL("Unexpected reply received.");
+ return;
+ }
+ DeferredBase& reply_callback = callback_it->second;
+ AsyncResult<ProtoMessage> reply(std::move(result), has_more);
+ reply_callback.Resolve(std::move(reply));
+ if (!has_more)
+ pending_callbacks_.erase(callback_it);
+}
+
+void ServiceProxy::OnConnect(bool success) {
+ if (success) {
+ PERFETTO_DCHECK(service_id_);
+ return event_listener_->OnConnect();
+ }
+ return event_listener_->OnDisconnect();
+}
+
+void ServiceProxy::OnDisconnect() {
+ pending_callbacks_.clear(); // Will Reject() all the pending callbacks.
+ event_listener_->OnDisconnect();
+}
+
+base::WeakPtr<ServiceProxy> ServiceProxy::GetWeakPtr() const {
+ return weak_ptr_factory_.GetWeakPtr();
+}
+
+} // namespace ipc
+} // namespace perfetto
+// gen_amalgamated begin source: src/ipc/host_impl.cc
+// gen_amalgamated begin header: src/ipc/host_impl.h
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef SRC_IPC_HOST_IMPL_H_
+#define SRC_IPC_HOST_IMPL_H_
+
+#include <map>
+#include <set>
+#include <string>
+#include <vector>
+
+// gen_amalgamated expanded: #include "perfetto/base/task_runner.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/scoped_file.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/sys_types.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/thread_checker.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/unix_socket.h"
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/deferred.h"
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/host.h"
+// gen_amalgamated expanded: #include "src/ipc/buffered_frame_deserializer.h"
+
+namespace perfetto {
+namespace ipc {
+
+constexpr uint32_t kDefaultIpcTxTimeoutMs = 10000;
+
+class HostImpl : public Host, public base::UnixSocket::EventListener {
+ public:
+ HostImpl(const char* socket_name, base::TaskRunner*);
+ HostImpl(base::ScopedSocketHandle, base::TaskRunner*);
+ HostImpl(base::TaskRunner* task_runner);
+ ~HostImpl() override;
+
+ // Host implementation.
+ bool ExposeService(std::unique_ptr<Service>) override;
+ void AdoptConnectedSocket_Fuchsia(
+ base::ScopedSocketHandle,
+ std::function<bool(int)> send_fd_cb) override;
+ void SetSocketSendTimeoutMs(uint32_t timeout_ms) override;
+
+ // base::UnixSocket::EventListener implementation.
+ void OnNewIncomingConnection(base::UnixSocket*,
+ std::unique_ptr<base::UnixSocket>) override;
+ void OnDisconnect(base::UnixSocket*) override;
+ void OnDataAvailable(base::UnixSocket*) override;
+
+ const base::UnixSocket* sock() const { return sock_.get(); }
+
+ private:
+ // Owns the per-client receive buffer (BufferedFrameDeserializer).
+ struct ClientConnection {
+ ~ClientConnection();
+ ClientID id;
+ std::unique_ptr<base::UnixSocket> sock;
+ BufferedFrameDeserializer frame_deserializer;
+ base::ScopedFile received_fd;
+ std::function<bool(int)> send_fd_cb_fuchsia;
+ // Peer identity set using IPCFrame sent by the client. These 3 fields
+ // should be used only for non-AF_UNIX connections AF_UNIX connections
+ // should only rely on the peer identity obtained from the socket.
+ uid_t uid_override = base::kInvalidUid;
+ pid_t pid_override = base::kInvalidPid;
+
+ // |machine_id| is mapped from machine_id_hint (or socket hostname if
+ // |the client doesn't support machine_id_hint).
+ base::MachineID machine_id = base::kDefaultMachineID;
+
+ pid_t GetLinuxPeerPid() const;
+ uid_t GetPosixPeerUid() const;
+ base::MachineID GetMachineID() const { return machine_id; }
+ };
+ struct ExposedService {
+ ExposedService(ServiceID, const std::string&, std::unique_ptr<Service>);
+ ~ExposedService();
+ ExposedService(ExposedService&&) noexcept;
+ ExposedService& operator=(ExposedService&&);
+
+ ServiceID id;
+ std::string name;
+ std::unique_ptr<Service> instance;
+ };
+
+ HostImpl(const HostImpl&) = delete;
+ HostImpl& operator=(const HostImpl&) = delete;
+
+ bool Initialize(const char* socket_name);
+ void OnReceivedFrame(ClientConnection*, const Frame&);
+ void OnBindService(ClientConnection*, const Frame&);
+ void OnInvokeMethod(ClientConnection*, const Frame&);
+ void OnSetPeerIdentity(ClientConnection*, const Frame&);
+
+ void ReplyToMethodInvocation(ClientID, RequestID, AsyncResult<ProtoMessage>);
+ const ExposedService* GetServiceByName(const std::string&);
+
+ static void SendFrame(ClientConnection*, const Frame&, int fd = -1);
+
+ base::TaskRunner* const task_runner_;
+ std::map<ServiceID, ExposedService> services_;
+ std::unique_ptr<base::UnixSocket> sock_; // The listening socket.
+ std::map<ClientID, std::unique_ptr<ClientConnection>> clients_;
+ std::map<base::UnixSocket*, ClientConnection*> clients_by_socket_;
+ ServiceID last_service_id_ = 0;
+ ClientID last_client_id_ = 0;
+ uint32_t socket_tx_timeout_ms_ = kDefaultIpcTxTimeoutMs;
+ PERFETTO_THREAD_CHECKER(thread_checker_)
+ base::WeakPtrFactory<HostImpl> weak_ptr_factory_; // Keep last.
+};
+
+} // namespace ipc
+} // namespace perfetto
+
+#endif // SRC_IPC_HOST_IMPL_H_
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "src/ipc/host_impl.h"
+
+#include <algorithm>
+#include <cinttypes>
+#include <utility>
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+// gen_amalgamated expanded: #include "perfetto/base/compiler.h"
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/base/task_runner.h"
+// gen_amalgamated expanded: #include "perfetto/base/time.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/crash_keys.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/sys_types.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/unix_socket.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/utils.h"
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/service.h"
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/service_descriptor.h"
+
+// gen_amalgamated expanded: #include "protos/perfetto/ipc/wire_protocol.gen.h"
+
+// TODO(primiano): put limits on #connections/uid and req. queue (b/69093705).
+
+namespace perfetto {
+namespace ipc {
+
+namespace {
+
+constexpr base::SockFamily kHostSockFamily =
+ kUseTCPSocket ? base::SockFamily::kInet : base::SockFamily::kUnix;
+
+base::CrashKey g_crash_key_uid("ipc_uid");
+
+base::MachineID GenerateMachineID(base::UnixSocket* sock,
+ const std::string& machine_id_hint) {
+ // The special value of base::kDefaultMachineID is reserved for local
+ // producers.
+ if (!sock->is_connected() || sock->family() == base::SockFamily::kUnix)
+ return base::kDefaultMachineID;
+
+ base::Hasher hasher;
+ // Use the hint from the client, or fallback to hostname if the client
+ // doesn't provide a hint.
+ if (!machine_id_hint.empty()) {
+ hasher.Update(machine_id_hint);
+ } else {
+ // Use the socket address without the port number part as the hint.
+ auto host_id = sock->GetSockAddr();
+ auto pos = std::string::npos;
+ switch (sock->family()) {
+ case base::SockFamily::kInet:
+ PERFETTO_FALLTHROUGH;
+ case base::SockFamily::kInet6:
+ PERFETTO_FALLTHROUGH;
+ case base::SockFamily::kVsock:
+ pos = host_id.rfind(":");
+ if (pos != std::string::npos)
+ host_id.resize(pos);
+ break;
+ case base::SockFamily::kUnspec:
+ PERFETTO_FALLTHROUGH;
+ case base::SockFamily::kUnix:
+ PERFETTO_DFATAL("Should be unreachable.");
+ return base::kDefaultMachineID;
+ }
+ hasher.Update(host_id);
+ }
+
+ // Take the lower 32-bit from the hash.
+ uint32_t digest = static_cast<uint32_t>(hasher.digest());
+ // Avoid the extremely unlikely case that the hasher digest happens to be 0.
+ return digest == base::kDefaultMachineID ? 1 : digest;
+}
+} // namespace
+
+uid_t HostImpl::ClientConnection::GetPosixPeerUid() const {
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_LINUX) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_APPLE)
+ if (sock->family() == base::SockFamily::kUnix)
+ return sock->peer_uid_posix();
+#endif
+
+ // For non-unix sockets, check if the UID is set in OnSetPeerIdentity().
+ if (uid_override != base::kInvalidUid)
+ return uid_override;
+ // Must be != kInvalidUid or the PacketValidator will fail.
+ return 0;
+}
+
+pid_t HostImpl::ClientConnection::GetLinuxPeerPid() const {
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_LINUX) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID)
+ if (sock->family() == base::SockFamily::kUnix)
+ return sock->peer_pid_linux();
+#endif
+
+ // For non-unix sockets, return the PID set in OnSetPeerIdentity().
+ return pid_override;
+}
+
+// static
+std::unique_ptr<Host> Host::CreateInstance(const char* socket_name,
+ base::TaskRunner* task_runner) {
+ std::unique_ptr<HostImpl> host(new HostImpl(socket_name, task_runner));
+ if (!host->sock() || !host->sock()->is_listening())
+ return nullptr;
+ return std::unique_ptr<Host>(std::move(host));
+}
+
+// static
+std::unique_ptr<Host> Host::CreateInstance(base::ScopedSocketHandle socket_fd,
+ base::TaskRunner* task_runner) {
+ std::unique_ptr<HostImpl> host(
+ new HostImpl(std::move(socket_fd), task_runner));
+ if (!host->sock() || !host->sock()->is_listening())
+ return nullptr;
+ return std::unique_ptr<Host>(std::move(host));
+}
+
+// static
+std::unique_ptr<Host> Host::CreateInstance_Fuchsia(
+ base::TaskRunner* task_runner) {
+ return std::unique_ptr<HostImpl>(new HostImpl(task_runner));
+}
+
+HostImpl::HostImpl(base::ScopedSocketHandle socket_fd,
+ base::TaskRunner* task_runner)
+ : task_runner_(task_runner), weak_ptr_factory_(this) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ sock_ = base::UnixSocket::Listen(std::move(socket_fd), this, task_runner_,
+ kHostSockFamily, base::SockType::kStream);
+}
+
+HostImpl::HostImpl(const char* socket_name, base::TaskRunner* task_runner)
+ : task_runner_(task_runner), weak_ptr_factory_(this) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ sock_ = base::UnixSocket::Listen(socket_name, this, task_runner_,
+ base::GetSockFamily(socket_name),
+ base::SockType::kStream);
+ if (!sock_) {
+ PERFETTO_PLOG("Failed to create %s", socket_name);
+ }
+}
+
+HostImpl::HostImpl(base::TaskRunner* task_runner)
+ : task_runner_(task_runner), weak_ptr_factory_(this) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+}
+
+HostImpl::~HostImpl() = default;
+
+bool HostImpl::ExposeService(std::unique_ptr<Service> service) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ const std::string& service_name = service->GetDescriptor().service_name;
+ if (GetServiceByName(service_name)) {
+ PERFETTO_DLOG("Duplicate ExposeService(): %s", service_name.c_str());
+ return false;
+ }
+ service->use_shmem_emulation_ =
+ sock() && !base::SockShmemSupported(sock()->family());
+ ServiceID sid = ++last_service_id_;
+ ExposedService exposed_service(sid, service_name, std::move(service));
+ services_.emplace(sid, std::move(exposed_service));
+ return true;
+}
+
+void HostImpl::AdoptConnectedSocket_Fuchsia(
+ base::ScopedSocketHandle connected_socket,
+ std::function<bool(int)> send_fd_cb) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ PERFETTO_DCHECK(connected_socket);
+ // Should not be used in conjunction with listen sockets.
+ PERFETTO_DCHECK(!sock_);
+
+ auto unix_socket = base::UnixSocket::AdoptConnected(
+ std::move(connected_socket), this, task_runner_, kHostSockFamily,
+ base::SockType::kStream);
+
+ auto* unix_socket_ptr = unix_socket.get();
+ OnNewIncomingConnection(nullptr, std::move(unix_socket));
+ ClientConnection* client_connection = clients_by_socket_[unix_socket_ptr];
+ client_connection->send_fd_cb_fuchsia = std::move(send_fd_cb);
+ PERFETTO_DCHECK(client_connection->send_fd_cb_fuchsia);
+}
+
+void HostImpl::SetSocketSendTimeoutMs(uint32_t timeout_ms) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ // Should be less than the watchdog period (30s).
+ socket_tx_timeout_ms_ = timeout_ms;
+}
+
+void HostImpl::OnNewIncomingConnection(
+ base::UnixSocket*,
+ std::unique_ptr<base::UnixSocket> new_conn) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ std::unique_ptr<ClientConnection> client(new ClientConnection());
+ ClientID client_id = ++last_client_id_;
+ clients_by_socket_[new_conn.get()] = client.get();
+ client->id = client_id;
+ client->sock = std::move(new_conn);
+ client->sock->SetTxTimeout(socket_tx_timeout_ms_);
+ clients_[client_id] = std::move(client);
+}
+
+void HostImpl::OnDataAvailable(base::UnixSocket* sock) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ auto it = clients_by_socket_.find(sock);
+ if (it == clients_by_socket_.end())
+ return;
+ ClientConnection* client = it->second;
+ BufferedFrameDeserializer& frame_deserializer = client->frame_deserializer;
+
+ auto peer_uid = client->GetPosixPeerUid();
+ auto scoped_key = g_crash_key_uid.SetScoped(static_cast<int64_t>(peer_uid));
+
+ size_t rsize;
+ do {
+ auto buf = frame_deserializer.BeginReceive();
+ base::ScopedFile fd;
+ rsize = client->sock->Receive(buf.data, buf.size, &fd);
+ if (fd) {
+ PERFETTO_DCHECK(!client->received_fd);
+ client->received_fd = std::move(fd);
+ }
+ if (!frame_deserializer.EndReceive(rsize))
+ return OnDisconnect(client->sock.get());
+ } while (rsize > 0);
+
+ for (;;) {
+ std::unique_ptr<Frame> frame = frame_deserializer.PopNextFrame();
+ if (!frame)
+ break;
+ OnReceivedFrame(client, *frame);
+ }
+}
+
+void HostImpl::OnReceivedFrame(ClientConnection* client,
+ const Frame& req_frame) {
+ if (req_frame.has_msg_bind_service())
+ return OnBindService(client, req_frame);
+ if (req_frame.has_msg_invoke_method())
+ return OnInvokeMethod(client, req_frame);
+ if (req_frame.has_set_peer_identity())
+ return OnSetPeerIdentity(client, req_frame);
+
+ PERFETTO_DLOG("Received invalid RPC frame from client %" PRIu64, client->id);
+ Frame reply_frame;
+ reply_frame.set_request_id(req_frame.request_id());
+ reply_frame.mutable_msg_request_error()->set_error("unknown request");
+ SendFrame(client, reply_frame);
+}
+
+void HostImpl::OnBindService(ClientConnection* client, const Frame& req_frame) {
+ // Binding a service doesn't do anything major. It just returns back the
+ // service id and its method map.
+ const Frame::BindService& req = req_frame.msg_bind_service();
+ Frame reply_frame;
+ reply_frame.set_request_id(req_frame.request_id());
+ auto* reply = reply_frame.mutable_msg_bind_service_reply();
+ const ExposedService* service = GetServiceByName(req.service_name());
+ if (service) {
+ reply->set_success(true);
+ reply->set_service_id(service->id);
+ uint32_t method_id = 1; // method ids start at index 1.
+ for (const auto& desc_method : service->instance->GetDescriptor().methods) {
+ Frame::BindServiceReply::MethodInfo* method_info = reply->add_methods();
+ method_info->set_name(desc_method.name);
+ method_info->set_id(method_id++);
+ }
+ }
+ SendFrame(client, reply_frame);
+}
+
+void HostImpl::OnInvokeMethod(ClientConnection* client,
+ const Frame& req_frame) {
+ const Frame::InvokeMethod& req = req_frame.msg_invoke_method();
+ Frame reply_frame;
+ RequestID request_id = req_frame.request_id();
+ reply_frame.set_request_id(request_id);
+ reply_frame.mutable_msg_invoke_method_reply()->set_success(false);
+ auto svc_it = services_.find(req.service_id());
+ if (svc_it == services_.end())
+ return SendFrame(client, reply_frame); // |success| == false by default.
+
+ Service* service = svc_it->second.instance.get();
+ const ServiceDescriptor& svc = service->GetDescriptor();
+ const auto& methods = svc.methods;
+ const uint32_t method_id = req.method_id();
+ if (method_id == 0 || method_id > methods.size())
+ return SendFrame(client, reply_frame);
+
+ const ServiceDescriptor::Method& method = methods[method_id - 1];
+ std::unique_ptr<ProtoMessage> decoded_req_args(
+ method.request_proto_decoder(req.args_proto()));
+ if (!decoded_req_args)
+ return SendFrame(client, reply_frame);
+
+ Deferred<ProtoMessage> deferred_reply;
+ base::WeakPtr<HostImpl> host_weak_ptr = weak_ptr_factory_.GetWeakPtr();
+ ClientID client_id = client->id;
+
+ if (!req.drop_reply()) {
+ deferred_reply.Bind([host_weak_ptr, client_id,
+ request_id](AsyncResult<ProtoMessage> reply) {
+ if (!host_weak_ptr)
+ return; // The reply came too late, the HostImpl has gone.
+ host_weak_ptr->ReplyToMethodInvocation(client_id, request_id,
+ std::move(reply));
+ });
+ }
+
+ auto peer_uid = client->GetPosixPeerUid();
+ auto scoped_key = g_crash_key_uid.SetScoped(static_cast<int64_t>(peer_uid));
+ service->client_info_ = ClientInfo(
+ client->id, peer_uid, client->GetLinuxPeerPid(), client->GetMachineID());
+ service->received_fd_ = &client->received_fd;
+ method.invoker(service, *decoded_req_args, std::move(deferred_reply));
+ service->received_fd_ = nullptr;
+ service->client_info_ = ClientInfo();
+}
+
+void HostImpl::OnSetPeerIdentity(ClientConnection* client,
+ const Frame& req_frame) {
+ if (client->sock->family() == base::SockFamily::kUnix) {
+ PERFETTO_DLOG("SetPeerIdentity is ignored for unix socket connections.");
+ return;
+ }
+
+ // This is can only be set once by the relay service.
+ if (client->pid_override != base::kInvalidPid ||
+ client->uid_override != base::kInvalidUid) {
+ PERFETTO_DLOG("Already received SetPeerIdentity.");
+ return;
+ }
+
+ const auto& set_peer_identity = req_frame.set_peer_identity();
+ client->pid_override = set_peer_identity.pid();
+ client->uid_override = static_cast<uid_t>(set_peer_identity.uid());
+
+ client->machine_id = GenerateMachineID(client->sock.get(),
+ set_peer_identity.machine_id_hint());
+}
+
+void HostImpl::ReplyToMethodInvocation(ClientID client_id,
+ RequestID request_id,
+ AsyncResult<ProtoMessage> reply) {
+ auto client_iter = clients_.find(client_id);
+ if (client_iter == clients_.end())
+ return; // client has disconnected by the time we got the async reply.
+
+ ClientConnection* client = client_iter->second.get();
+ Frame reply_frame;
+ reply_frame.set_request_id(request_id);
+
+ // TODO(fmayer): add a test to guarantee that the reply is consumed within the
+ // same call stack and not kept around. ConsumerIPCService::OnTraceData()
+ // relies on this behavior.
+ auto* reply_frame_data = reply_frame.mutable_msg_invoke_method_reply();
+ reply_frame_data->set_has_more(reply.has_more());
+ if (reply.success()) {
+ std::string reply_proto = reply->SerializeAsString();
+ reply_frame_data->set_reply_proto(reply_proto);
+ reply_frame_data->set_success(true);
+ }
+ SendFrame(client, reply_frame, reply.fd());
+}
+
+// static
+void HostImpl::SendFrame(ClientConnection* client, const Frame& frame, int fd) {
+ auto peer_uid = client->GetPosixPeerUid();
+ auto scoped_key = g_crash_key_uid.SetScoped(static_cast<int64_t>(peer_uid));
+
+ std::string buf = BufferedFrameDeserializer::Serialize(frame);
+
+ // On Fuchsia, |send_fd_cb_fuchsia_| is used to send the FD to the client
+ // and therefore must be set.
+ PERFETTO_DCHECK(!PERFETTO_BUILDFLAG(PERFETTO_OS_FUCHSIA) ||
+ client->send_fd_cb_fuchsia);
+ if (client->send_fd_cb_fuchsia && fd != base::ScopedFile::kInvalid) {
+ if (!client->send_fd_cb_fuchsia(fd)) {
+ client->sock->Shutdown(true);
+ return;
+ }
+ fd = base::ScopedFile::kInvalid;
+ }
+
+ // When a new Client connects in OnNewClientConnection we set a timeout on
+ // Send (see call to SetTxTimeout).
+ //
+ // The old behaviour was to do a blocking I/O call, which caused crashes from
+ // misbehaving producers (see b/169051440).
+ bool res = client->sock->Send(buf.data(), buf.size(), fd);
+ // If we timeout |res| will be false, but the UnixSocket will have called
+ // UnixSocket::ShutDown() and thus |is_connected()| is false.
+ PERFETTO_CHECK(res || !client->sock->is_connected());
+}
+
+void HostImpl::OnDisconnect(base::UnixSocket* sock) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ auto it = clients_by_socket_.find(sock);
+ if (it == clients_by_socket_.end())
+ return;
+ auto* client = it->second;
+ ClientID client_id = client->id;
+
+ ClientInfo client_info(client_id, client->GetPosixPeerUid(),
+ client->GetLinuxPeerPid(), client->GetMachineID());
+
+ clients_by_socket_.erase(it);
+ PERFETTO_DCHECK(clients_.count(client_id));
+ clients_.erase(client_id);
+
+ for (const auto& service_it : services_) {
+ Service& service = *service_it.second.instance;
+ service.client_info_ = client_info;
+ service.OnClientDisconnected();
+ service.client_info_ = ClientInfo();
+ }
+}
+
+const HostImpl::ExposedService* HostImpl::GetServiceByName(
+ const std::string& name) {
+ // This could be optimized by using another map<name,ServiceID>. However this
+ // is used only by Bind/ExposeService that are quite rare (once per client
+ // connection and once per service instance), not worth it.
+ for (const auto& it : services_) {
+ if (it.second.name == name)
+ return &it.second;
+ }
+ return nullptr;
+}
+
+HostImpl::ExposedService::ExposedService(ServiceID id_,
+ const std::string& name_,
+ std::unique_ptr<Service> instance_)
+ : id(id_), name(name_), instance(std::move(instance_)) {}
+
+HostImpl::ExposedService::ExposedService(ExposedService&&) noexcept = default;
+HostImpl::ExposedService& HostImpl::ExposedService::operator=(
+ HostImpl::ExposedService&&) = default;
+HostImpl::ExposedService::~ExposedService() = default;
+
+HostImpl::ClientConnection::~ClientConnection() = default;
+
+} // namespace ipc
+} // namespace perfetto
+// gen_amalgamated begin source: gen/protos/perfetto/ipc/consumer_port.ipc.cc
+// gen_amalgamated begin header: gen/protos/perfetto/ipc/consumer_port.ipc.h
+// DO NOT EDIT. Autogenerated by Perfetto IPC
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_IPC_CONSUMER_PORT_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_IPC_CONSUMER_PORT_PROTO_H_
+
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/deferred.h"
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/service.h"
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/service_descriptor.h"
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/service_proxy.h"
+
+// gen_amalgamated expanded: #include "protos/perfetto/ipc/consumer_port.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/observable_events.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/tracing_service_state.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/tracing_service_capabilities.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/trace_stats.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/trace_config.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+class ConsumerPort : public ::perfetto::ipc::Service {
+ private:
+ static ::perfetto::ipc::ServiceDescriptor* NewDescriptor();
+
+ public:
+ ~ConsumerPort() override;
+
+ static const ::perfetto::ipc::ServiceDescriptor& GetDescriptorStatic();
+
+ // Service implementation.
+ const ::perfetto::ipc::ServiceDescriptor& GetDescriptor() override;
+
+ // Methods from the .proto file
+ using DeferredEnableTracingResponse = ::perfetto::ipc::Deferred<EnableTracingResponse>;
+ virtual void EnableTracing(const EnableTracingRequest&, DeferredEnableTracingResponse) = 0;
+
+ using DeferredDisableTracingResponse = ::perfetto::ipc::Deferred<DisableTracingResponse>;
+ virtual void DisableTracing(const DisableTracingRequest&, DeferredDisableTracingResponse) = 0;
+
+ using DeferredReadBuffersResponse = ::perfetto::ipc::Deferred<ReadBuffersResponse>;
+ virtual void ReadBuffers(const ReadBuffersRequest&, DeferredReadBuffersResponse) = 0;
+
+ using DeferredFreeBuffersResponse = ::perfetto::ipc::Deferred<FreeBuffersResponse>;
+ virtual void FreeBuffers(const FreeBuffersRequest&, DeferredFreeBuffersResponse) = 0;
+
+ using DeferredFlushResponse = ::perfetto::ipc::Deferred<FlushResponse>;
+ virtual void Flush(const FlushRequest&, DeferredFlushResponse) = 0;
+
+ using DeferredStartTracingResponse = ::perfetto::ipc::Deferred<StartTracingResponse>;
+ virtual void StartTracing(const StartTracingRequest&, DeferredStartTracingResponse) = 0;
+
+ using DeferredChangeTraceConfigResponse = ::perfetto::ipc::Deferred<ChangeTraceConfigResponse>;
+ virtual void ChangeTraceConfig(const ChangeTraceConfigRequest&, DeferredChangeTraceConfigResponse) = 0;
+
+ using DeferredDetachResponse = ::perfetto::ipc::Deferred<DetachResponse>;
+ virtual void Detach(const DetachRequest&, DeferredDetachResponse) = 0;
+
+ using DeferredAttachResponse = ::perfetto::ipc::Deferred<AttachResponse>;
+ virtual void Attach(const AttachRequest&, DeferredAttachResponse) = 0;
+
+ using DeferredGetTraceStatsResponse = ::perfetto::ipc::Deferred<GetTraceStatsResponse>;
+ virtual void GetTraceStats(const GetTraceStatsRequest&, DeferredGetTraceStatsResponse) = 0;
+
+ using DeferredObserveEventsResponse = ::perfetto::ipc::Deferred<ObserveEventsResponse>;
+ virtual void ObserveEvents(const ObserveEventsRequest&, DeferredObserveEventsResponse) = 0;
+
+ using DeferredQueryServiceStateResponse = ::perfetto::ipc::Deferred<QueryServiceStateResponse>;
+ virtual void QueryServiceState(const QueryServiceStateRequest&, DeferredQueryServiceStateResponse) = 0;
+
+ using DeferredQueryCapabilitiesResponse = ::perfetto::ipc::Deferred<QueryCapabilitiesResponse>;
+ virtual void QueryCapabilities(const QueryCapabilitiesRequest&, DeferredQueryCapabilitiesResponse) = 0;
+
+ using DeferredSaveTraceForBugreportResponse = ::perfetto::ipc::Deferred<SaveTraceForBugreportResponse>;
+ virtual void SaveTraceForBugreport(const SaveTraceForBugreportRequest&, DeferredSaveTraceForBugreportResponse) = 0;
+
+ using DeferredCloneSessionResponse = ::perfetto::ipc::Deferred<CloneSessionResponse>;
+ virtual void CloneSession(const CloneSessionRequest&, DeferredCloneSessionResponse) = 0;
+
+};
+
+
+class ConsumerPortProxy : public ::perfetto::ipc::ServiceProxy {
+ public:
+ explicit ConsumerPortProxy(::perfetto::ipc::ServiceProxy::EventListener*);
+ ~ConsumerPortProxy() override;
+
+ // ServiceProxy implementation.
+ const ::perfetto::ipc::ServiceDescriptor& GetDescriptor() override;
+
+ // Methods from the .proto file
+ using DeferredEnableTracingResponse = ::perfetto::ipc::Deferred<EnableTracingResponse>;
+ void EnableTracing(const EnableTracingRequest&, DeferredEnableTracingResponse, int fd = -1);
+
+ using DeferredDisableTracingResponse = ::perfetto::ipc::Deferred<DisableTracingResponse>;
+ void DisableTracing(const DisableTracingRequest&, DeferredDisableTracingResponse, int fd = -1);
+
+ using DeferredReadBuffersResponse = ::perfetto::ipc::Deferred<ReadBuffersResponse>;
+ void ReadBuffers(const ReadBuffersRequest&, DeferredReadBuffersResponse, int fd = -1);
+
+ using DeferredFreeBuffersResponse = ::perfetto::ipc::Deferred<FreeBuffersResponse>;
+ void FreeBuffers(const FreeBuffersRequest&, DeferredFreeBuffersResponse, int fd = -1);
+
+ using DeferredFlushResponse = ::perfetto::ipc::Deferred<FlushResponse>;
+ void Flush(const FlushRequest&, DeferredFlushResponse, int fd = -1);
+
+ using DeferredStartTracingResponse = ::perfetto::ipc::Deferred<StartTracingResponse>;
+ void StartTracing(const StartTracingRequest&, DeferredStartTracingResponse, int fd = -1);
+
+ using DeferredChangeTraceConfigResponse = ::perfetto::ipc::Deferred<ChangeTraceConfigResponse>;
+ void ChangeTraceConfig(const ChangeTraceConfigRequest&, DeferredChangeTraceConfigResponse, int fd = -1);
+
+ using DeferredDetachResponse = ::perfetto::ipc::Deferred<DetachResponse>;
+ void Detach(const DetachRequest&, DeferredDetachResponse, int fd = -1);
+
+ using DeferredAttachResponse = ::perfetto::ipc::Deferred<AttachResponse>;
+ void Attach(const AttachRequest&, DeferredAttachResponse, int fd = -1);
+
+ using DeferredGetTraceStatsResponse = ::perfetto::ipc::Deferred<GetTraceStatsResponse>;
+ void GetTraceStats(const GetTraceStatsRequest&, DeferredGetTraceStatsResponse, int fd = -1);
+
+ using DeferredObserveEventsResponse = ::perfetto::ipc::Deferred<ObserveEventsResponse>;
+ void ObserveEvents(const ObserveEventsRequest&, DeferredObserveEventsResponse, int fd = -1);
+
+ using DeferredQueryServiceStateResponse = ::perfetto::ipc::Deferred<QueryServiceStateResponse>;
+ void QueryServiceState(const QueryServiceStateRequest&, DeferredQueryServiceStateResponse, int fd = -1);
+
+ using DeferredQueryCapabilitiesResponse = ::perfetto::ipc::Deferred<QueryCapabilitiesResponse>;
+ void QueryCapabilities(const QueryCapabilitiesRequest&, DeferredQueryCapabilitiesResponse, int fd = -1);
+
+ using DeferredSaveTraceForBugreportResponse = ::perfetto::ipc::Deferred<SaveTraceForBugreportResponse>;
+ void SaveTraceForBugreport(const SaveTraceForBugreportRequest&, DeferredSaveTraceForBugreportResponse, int fd = -1);
+
+ using DeferredCloneSessionResponse = ::perfetto::ipc::Deferred<CloneSessionResponse>;
+ void CloneSession(const CloneSessionRequest&, DeferredCloneSessionResponse, int fd = -1);
+
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_IPC_CONSUMER_PORT_PROTO_H_
+// gen_amalgamated begin header: include/perfetto/ext/ipc/codegen_helpers.h
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// This file is only meant to be included in autogenerated .cc files.
+
+#ifndef INCLUDE_PERFETTO_EXT_IPC_CODEGEN_HELPERS_H_
+#define INCLUDE_PERFETTO_EXT_IPC_CODEGEN_HELPERS_H_
+
+#include <memory>
+
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/basic_types.h"
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/deferred.h"
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/service.h"
+
+// A templated protobuf message decoder. Returns nullptr in case of failure.
+template <typename T>
+::std::unique_ptr<::perfetto::ipc::ProtoMessage> _IPC_Decoder(
+ const std::string& proto_data) {
+ ::std::unique_ptr<::perfetto::ipc::ProtoMessage> msg(new T());
+ if (msg->ParseFromString(proto_data))
+ return msg;
+ return nullptr;
+}
+
+// Templated method dispatcher. Used to obtain a function pointer to a given
+// IPC method (Method) of a given service (TSvc) that can be invoked by the
+// host-side machinery starting from a generic Service pointer and a generic
+// ProtoMessage request argument.
+template <typename TSvc, // Type of the actual Service subclass.
+ typename TReq, // Type of the request argument.
+ typename TReply, // Type of the reply argument.
+ void (TSvc::*Method)(const TReq&, ::perfetto::ipc::Deferred<TReply>)>
+void _IPC_Invoker(::perfetto::ipc::Service* s,
+ const ::perfetto::ipc::ProtoMessage& req,
+ ::perfetto::ipc::DeferredBase reply) {
+ (*static_cast<TSvc*>(s).*Method)(
+ static_cast<const TReq&>(req),
+ ::perfetto::ipc::Deferred<TReply>(::std::move(reply)));
+}
+
+#endif // INCLUDE_PERFETTO_EXT_IPC_CODEGEN_HELPERS_H_
+// DO NOT EDIT. Autogenerated by Perfetto IPC
+// gen_amalgamated expanded: #include "protos/perfetto/ipc/consumer_port.ipc.h"
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/codegen_helpers.h"
+
+#include <memory>
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+::perfetto::ipc::ServiceDescriptor* ConsumerPort::NewDescriptor() {
+ auto* desc = new ::perfetto::ipc::ServiceDescriptor();
+ desc->service_name = "ConsumerPort";
+
+ desc->methods.emplace_back(::perfetto::ipc::ServiceDescriptor::Method{
+ "EnableTracing",
+ &_IPC_Decoder<EnableTracingRequest>,
+ &_IPC_Decoder<EnableTracingResponse>,
+ &_IPC_Invoker<ConsumerPort, EnableTracingRequest, EnableTracingResponse, &ConsumerPort::EnableTracing>});
+
+ desc->methods.emplace_back(::perfetto::ipc::ServiceDescriptor::Method{
+ "DisableTracing",
+ &_IPC_Decoder<DisableTracingRequest>,
+ &_IPC_Decoder<DisableTracingResponse>,
+ &_IPC_Invoker<ConsumerPort, DisableTracingRequest, DisableTracingResponse, &ConsumerPort::DisableTracing>});
+
+ desc->methods.emplace_back(::perfetto::ipc::ServiceDescriptor::Method{
+ "ReadBuffers",
+ &_IPC_Decoder<ReadBuffersRequest>,
+ &_IPC_Decoder<ReadBuffersResponse>,
+ &_IPC_Invoker<ConsumerPort, ReadBuffersRequest, ReadBuffersResponse, &ConsumerPort::ReadBuffers>});
+
+ desc->methods.emplace_back(::perfetto::ipc::ServiceDescriptor::Method{
+ "FreeBuffers",
+ &_IPC_Decoder<FreeBuffersRequest>,
+ &_IPC_Decoder<FreeBuffersResponse>,
+ &_IPC_Invoker<ConsumerPort, FreeBuffersRequest, FreeBuffersResponse, &ConsumerPort::FreeBuffers>});
+
+ desc->methods.emplace_back(::perfetto::ipc::ServiceDescriptor::Method{
+ "Flush",
+ &_IPC_Decoder<FlushRequest>,
+ &_IPC_Decoder<FlushResponse>,
+ &_IPC_Invoker<ConsumerPort, FlushRequest, FlushResponse, &ConsumerPort::Flush>});
+
+ desc->methods.emplace_back(::perfetto::ipc::ServiceDescriptor::Method{
+ "StartTracing",
+ &_IPC_Decoder<StartTracingRequest>,
+ &_IPC_Decoder<StartTracingResponse>,
+ &_IPC_Invoker<ConsumerPort, StartTracingRequest, StartTracingResponse, &ConsumerPort::StartTracing>});
+
+ desc->methods.emplace_back(::perfetto::ipc::ServiceDescriptor::Method{
+ "ChangeTraceConfig",
+ &_IPC_Decoder<ChangeTraceConfigRequest>,
+ &_IPC_Decoder<ChangeTraceConfigResponse>,
+ &_IPC_Invoker<ConsumerPort, ChangeTraceConfigRequest, ChangeTraceConfigResponse, &ConsumerPort::ChangeTraceConfig>});
+
+ desc->methods.emplace_back(::perfetto::ipc::ServiceDescriptor::Method{
+ "Detach",
+ &_IPC_Decoder<DetachRequest>,
+ &_IPC_Decoder<DetachResponse>,
+ &_IPC_Invoker<ConsumerPort, DetachRequest, DetachResponse, &ConsumerPort::Detach>});
+
+ desc->methods.emplace_back(::perfetto::ipc::ServiceDescriptor::Method{
+ "Attach",
+ &_IPC_Decoder<AttachRequest>,
+ &_IPC_Decoder<AttachResponse>,
+ &_IPC_Invoker<ConsumerPort, AttachRequest, AttachResponse, &ConsumerPort::Attach>});
+
+ desc->methods.emplace_back(::perfetto::ipc::ServiceDescriptor::Method{
+ "GetTraceStats",
+ &_IPC_Decoder<GetTraceStatsRequest>,
+ &_IPC_Decoder<GetTraceStatsResponse>,
+ &_IPC_Invoker<ConsumerPort, GetTraceStatsRequest, GetTraceStatsResponse, &ConsumerPort::GetTraceStats>});
+
+ desc->methods.emplace_back(::perfetto::ipc::ServiceDescriptor::Method{
+ "ObserveEvents",
+ &_IPC_Decoder<ObserveEventsRequest>,
+ &_IPC_Decoder<ObserveEventsResponse>,
+ &_IPC_Invoker<ConsumerPort, ObserveEventsRequest, ObserveEventsResponse, &ConsumerPort::ObserveEvents>});
+
+ desc->methods.emplace_back(::perfetto::ipc::ServiceDescriptor::Method{
+ "QueryServiceState",
+ &_IPC_Decoder<QueryServiceStateRequest>,
+ &_IPC_Decoder<QueryServiceStateResponse>,
+ &_IPC_Invoker<ConsumerPort, QueryServiceStateRequest, QueryServiceStateResponse, &ConsumerPort::QueryServiceState>});
+
+ desc->methods.emplace_back(::perfetto::ipc::ServiceDescriptor::Method{
+ "QueryCapabilities",
+ &_IPC_Decoder<QueryCapabilitiesRequest>,
+ &_IPC_Decoder<QueryCapabilitiesResponse>,
+ &_IPC_Invoker<ConsumerPort, QueryCapabilitiesRequest, QueryCapabilitiesResponse, &ConsumerPort::QueryCapabilities>});
+
+ desc->methods.emplace_back(::perfetto::ipc::ServiceDescriptor::Method{
+ "SaveTraceForBugreport",
+ &_IPC_Decoder<SaveTraceForBugreportRequest>,
+ &_IPC_Decoder<SaveTraceForBugreportResponse>,
+ &_IPC_Invoker<ConsumerPort, SaveTraceForBugreportRequest, SaveTraceForBugreportResponse, &ConsumerPort::SaveTraceForBugreport>});
+
+ desc->methods.emplace_back(::perfetto::ipc::ServiceDescriptor::Method{
+ "CloneSession",
+ &_IPC_Decoder<CloneSessionRequest>,
+ &_IPC_Decoder<CloneSessionResponse>,
+ &_IPC_Invoker<ConsumerPort, CloneSessionRequest, CloneSessionResponse, &ConsumerPort::CloneSession>});
+ desc->methods.shrink_to_fit();
+ return desc;
+}
+
+
+const ::perfetto::ipc::ServiceDescriptor& ConsumerPort::GetDescriptorStatic() {
+ static auto* instance = NewDescriptor();
+ return *instance;
+}
+
+// Host-side definitions.
+ConsumerPort::~ConsumerPort() = default;
+
+const ::perfetto::ipc::ServiceDescriptor& ConsumerPort::GetDescriptor() {
+ return GetDescriptorStatic();
+}
+
+// Client-side definitions.
+ConsumerPortProxy::ConsumerPortProxy(::perfetto::ipc::ServiceProxy::EventListener* event_listener)
+ : ::perfetto::ipc::ServiceProxy(event_listener) {}
+
+ConsumerPortProxy::~ConsumerPortProxy() = default;
+
+const ::perfetto::ipc::ServiceDescriptor& ConsumerPortProxy::GetDescriptor() {
+ return ConsumerPort::GetDescriptorStatic();
+}
+
+void ConsumerPortProxy::EnableTracing(const EnableTracingRequest& request, DeferredEnableTracingResponse reply, int fd) {
+ BeginInvoke("EnableTracing", request, ::perfetto::ipc::DeferredBase(std::move(reply)),
+ fd);
+}
+
+void ConsumerPortProxy::DisableTracing(const DisableTracingRequest& request, DeferredDisableTracingResponse reply, int fd) {
+ BeginInvoke("DisableTracing", request, ::perfetto::ipc::DeferredBase(std::move(reply)),
+ fd);
+}
+
+void ConsumerPortProxy::ReadBuffers(const ReadBuffersRequest& request, DeferredReadBuffersResponse reply, int fd) {
+ BeginInvoke("ReadBuffers", request, ::perfetto::ipc::DeferredBase(std::move(reply)),
+ fd);
+}
+
+void ConsumerPortProxy::FreeBuffers(const FreeBuffersRequest& request, DeferredFreeBuffersResponse reply, int fd) {
+ BeginInvoke("FreeBuffers", request, ::perfetto::ipc::DeferredBase(std::move(reply)),
+ fd);
+}
+
+void ConsumerPortProxy::Flush(const FlushRequest& request, DeferredFlushResponse reply, int fd) {
+ BeginInvoke("Flush", request, ::perfetto::ipc::DeferredBase(std::move(reply)),
+ fd);
+}
+
+void ConsumerPortProxy::StartTracing(const StartTracingRequest& request, DeferredStartTracingResponse reply, int fd) {
+ BeginInvoke("StartTracing", request, ::perfetto::ipc::DeferredBase(std::move(reply)),
+ fd);
+}
+
+void ConsumerPortProxy::ChangeTraceConfig(const ChangeTraceConfigRequest& request, DeferredChangeTraceConfigResponse reply, int fd) {
+ BeginInvoke("ChangeTraceConfig", request, ::perfetto::ipc::DeferredBase(std::move(reply)),
+ fd);
+}
+
+void ConsumerPortProxy::Detach(const DetachRequest& request, DeferredDetachResponse reply, int fd) {
+ BeginInvoke("Detach", request, ::perfetto::ipc::DeferredBase(std::move(reply)),
+ fd);
+}
+
+void ConsumerPortProxy::Attach(const AttachRequest& request, DeferredAttachResponse reply, int fd) {
+ BeginInvoke("Attach", request, ::perfetto::ipc::DeferredBase(std::move(reply)),
+ fd);
+}
+
+void ConsumerPortProxy::GetTraceStats(const GetTraceStatsRequest& request, DeferredGetTraceStatsResponse reply, int fd) {
+ BeginInvoke("GetTraceStats", request, ::perfetto::ipc::DeferredBase(std::move(reply)),
+ fd);
+}
+
+void ConsumerPortProxy::ObserveEvents(const ObserveEventsRequest& request, DeferredObserveEventsResponse reply, int fd) {
+ BeginInvoke("ObserveEvents", request, ::perfetto::ipc::DeferredBase(std::move(reply)),
+ fd);
+}
+
+void ConsumerPortProxy::QueryServiceState(const QueryServiceStateRequest& request, DeferredQueryServiceStateResponse reply, int fd) {
+ BeginInvoke("QueryServiceState", request, ::perfetto::ipc::DeferredBase(std::move(reply)),
+ fd);
+}
+
+void ConsumerPortProxy::QueryCapabilities(const QueryCapabilitiesRequest& request, DeferredQueryCapabilitiesResponse reply, int fd) {
+ BeginInvoke("QueryCapabilities", request, ::perfetto::ipc::DeferredBase(std::move(reply)),
+ fd);
+}
+
+void ConsumerPortProxy::SaveTraceForBugreport(const SaveTraceForBugreportRequest& request, DeferredSaveTraceForBugreportResponse reply, int fd) {
+ BeginInvoke("SaveTraceForBugreport", request, ::perfetto::ipc::DeferredBase(std::move(reply)),
+ fd);
+}
+
+void ConsumerPortProxy::CloneSession(const CloneSessionRequest& request, DeferredCloneSessionResponse reply, int fd) {
+ BeginInvoke("CloneSession", request, ::perfetto::ipc::DeferredBase(std::move(reply)),
+ fd);
+}
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+// gen_amalgamated begin source: gen/protos/perfetto/ipc/producer_port.ipc.cc
+// gen_amalgamated begin header: gen/protos/perfetto/ipc/producer_port.ipc.h
+// DO NOT EDIT. Autogenerated by Perfetto IPC
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_IPC_PRODUCER_PORT_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_IPC_PRODUCER_PORT_PROTO_H_
+
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/deferred.h"
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/service.h"
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/service_descriptor.h"
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/service_proxy.h"
+
+// gen_amalgamated expanded: #include "protos/perfetto/ipc/producer_port.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/commit_data_request.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/data_source_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/data_source_descriptor.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+class ProducerPort : public ::perfetto::ipc::Service {
+ private:
+ static ::perfetto::ipc::ServiceDescriptor* NewDescriptor();
+
+ public:
+ ~ProducerPort() override;
+
+ static const ::perfetto::ipc::ServiceDescriptor& GetDescriptorStatic();
+
+ // Service implementation.
+ const ::perfetto::ipc::ServiceDescriptor& GetDescriptor() override;
+
+ // Methods from the .proto file
+ using DeferredInitializeConnectionResponse = ::perfetto::ipc::Deferred<InitializeConnectionResponse>;
+ virtual void InitializeConnection(const InitializeConnectionRequest&, DeferredInitializeConnectionResponse) = 0;
+
+ using DeferredRegisterDataSourceResponse = ::perfetto::ipc::Deferred<RegisterDataSourceResponse>;
+ virtual void RegisterDataSource(const RegisterDataSourceRequest&, DeferredRegisterDataSourceResponse) = 0;
+
+ using DeferredUnregisterDataSourceResponse = ::perfetto::ipc::Deferred<UnregisterDataSourceResponse>;
+ virtual void UnregisterDataSource(const UnregisterDataSourceRequest&, DeferredUnregisterDataSourceResponse) = 0;
+
+ using DeferredCommitDataResponse = ::perfetto::ipc::Deferred<CommitDataResponse>;
+ virtual void CommitData(const CommitDataRequest&, DeferredCommitDataResponse) = 0;
+
+ using DeferredGetAsyncCommandResponse = ::perfetto::ipc::Deferred<GetAsyncCommandResponse>;
+ virtual void GetAsyncCommand(const GetAsyncCommandRequest&, DeferredGetAsyncCommandResponse) = 0;
+
+ using DeferredRegisterTraceWriterResponse = ::perfetto::ipc::Deferred<RegisterTraceWriterResponse>;
+ virtual void RegisterTraceWriter(const RegisterTraceWriterRequest&, DeferredRegisterTraceWriterResponse) = 0;
+
+ using DeferredUnregisterTraceWriterResponse = ::perfetto::ipc::Deferred<UnregisterTraceWriterResponse>;
+ virtual void UnregisterTraceWriter(const UnregisterTraceWriterRequest&, DeferredUnregisterTraceWriterResponse) = 0;
+
+ using DeferredNotifyDataSourceStartedResponse = ::perfetto::ipc::Deferred<NotifyDataSourceStartedResponse>;
+ virtual void NotifyDataSourceStarted(const NotifyDataSourceStartedRequest&, DeferredNotifyDataSourceStartedResponse) = 0;
+
+ using DeferredNotifyDataSourceStoppedResponse = ::perfetto::ipc::Deferred<NotifyDataSourceStoppedResponse>;
+ virtual void NotifyDataSourceStopped(const NotifyDataSourceStoppedRequest&, DeferredNotifyDataSourceStoppedResponse) = 0;
+
+ using DeferredActivateTriggersResponse = ::perfetto::ipc::Deferred<ActivateTriggersResponse>;
+ virtual void ActivateTriggers(const ActivateTriggersRequest&, DeferredActivateTriggersResponse) = 0;
+
+ using DeferredSyncResponse = ::perfetto::ipc::Deferred<SyncResponse>;
+ virtual void Sync(const SyncRequest&, DeferredSyncResponse) = 0;
+
+ using DeferredUpdateDataSourceResponse = ::perfetto::ipc::Deferred<UpdateDataSourceResponse>;
+ virtual void UpdateDataSource(const UpdateDataSourceRequest&, DeferredUpdateDataSourceResponse) = 0;
+
+};
+
+
+class ProducerPortProxy : public ::perfetto::ipc::ServiceProxy {
+ public:
+ explicit ProducerPortProxy(::perfetto::ipc::ServiceProxy::EventListener*);
+ ~ProducerPortProxy() override;
+
+ // ServiceProxy implementation.
+ const ::perfetto::ipc::ServiceDescriptor& GetDescriptor() override;
+
+ // Methods from the .proto file
+ using DeferredInitializeConnectionResponse = ::perfetto::ipc::Deferred<InitializeConnectionResponse>;
+ void InitializeConnection(const InitializeConnectionRequest&, DeferredInitializeConnectionResponse, int fd = -1);
+
+ using DeferredRegisterDataSourceResponse = ::perfetto::ipc::Deferred<RegisterDataSourceResponse>;
+ void RegisterDataSource(const RegisterDataSourceRequest&, DeferredRegisterDataSourceResponse, int fd = -1);
+
+ using DeferredUnregisterDataSourceResponse = ::perfetto::ipc::Deferred<UnregisterDataSourceResponse>;
+ void UnregisterDataSource(const UnregisterDataSourceRequest&, DeferredUnregisterDataSourceResponse, int fd = -1);
+
+ using DeferredCommitDataResponse = ::perfetto::ipc::Deferred<CommitDataResponse>;
+ void CommitData(const CommitDataRequest&, DeferredCommitDataResponse, int fd = -1);
+
+ using DeferredGetAsyncCommandResponse = ::perfetto::ipc::Deferred<GetAsyncCommandResponse>;
+ void GetAsyncCommand(const GetAsyncCommandRequest&, DeferredGetAsyncCommandResponse, int fd = -1);
+
+ using DeferredRegisterTraceWriterResponse = ::perfetto::ipc::Deferred<RegisterTraceWriterResponse>;
+ void RegisterTraceWriter(const RegisterTraceWriterRequest&, DeferredRegisterTraceWriterResponse, int fd = -1);
+
+ using DeferredUnregisterTraceWriterResponse = ::perfetto::ipc::Deferred<UnregisterTraceWriterResponse>;
+ void UnregisterTraceWriter(const UnregisterTraceWriterRequest&, DeferredUnregisterTraceWriterResponse, int fd = -1);
+
+ using DeferredNotifyDataSourceStartedResponse = ::perfetto::ipc::Deferred<NotifyDataSourceStartedResponse>;
+ void NotifyDataSourceStarted(const NotifyDataSourceStartedRequest&, DeferredNotifyDataSourceStartedResponse, int fd = -1);
+
+ using DeferredNotifyDataSourceStoppedResponse = ::perfetto::ipc::Deferred<NotifyDataSourceStoppedResponse>;
+ void NotifyDataSourceStopped(const NotifyDataSourceStoppedRequest&, DeferredNotifyDataSourceStoppedResponse, int fd = -1);
+
+ using DeferredActivateTriggersResponse = ::perfetto::ipc::Deferred<ActivateTriggersResponse>;
+ void ActivateTriggers(const ActivateTriggersRequest&, DeferredActivateTriggersResponse, int fd = -1);
+
+ using DeferredSyncResponse = ::perfetto::ipc::Deferred<SyncResponse>;
+ void Sync(const SyncRequest&, DeferredSyncResponse, int fd = -1);
+
+ using DeferredUpdateDataSourceResponse = ::perfetto::ipc::Deferred<UpdateDataSourceResponse>;
+ void UpdateDataSource(const UpdateDataSourceRequest&, DeferredUpdateDataSourceResponse, int fd = -1);
+
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_IPC_PRODUCER_PORT_PROTO_H_
+// DO NOT EDIT. Autogenerated by Perfetto IPC
+// gen_amalgamated expanded: #include "protos/perfetto/ipc/producer_port.ipc.h"
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/codegen_helpers.h"
+
+#include <memory>
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+::perfetto::ipc::ServiceDescriptor* ProducerPort::NewDescriptor() {
+ auto* desc = new ::perfetto::ipc::ServiceDescriptor();
+ desc->service_name = "ProducerPort";
+
+ desc->methods.emplace_back(::perfetto::ipc::ServiceDescriptor::Method{
+ "InitializeConnection",
+ &_IPC_Decoder<InitializeConnectionRequest>,
+ &_IPC_Decoder<InitializeConnectionResponse>,
+ &_IPC_Invoker<ProducerPort, InitializeConnectionRequest, InitializeConnectionResponse, &ProducerPort::InitializeConnection>});
+
+ desc->methods.emplace_back(::perfetto::ipc::ServiceDescriptor::Method{
+ "RegisterDataSource",
+ &_IPC_Decoder<RegisterDataSourceRequest>,
+ &_IPC_Decoder<RegisterDataSourceResponse>,
+ &_IPC_Invoker<ProducerPort, RegisterDataSourceRequest, RegisterDataSourceResponse, &ProducerPort::RegisterDataSource>});
+
+ desc->methods.emplace_back(::perfetto::ipc::ServiceDescriptor::Method{
+ "UnregisterDataSource",
+ &_IPC_Decoder<UnregisterDataSourceRequest>,
+ &_IPC_Decoder<UnregisterDataSourceResponse>,
+ &_IPC_Invoker<ProducerPort, UnregisterDataSourceRequest, UnregisterDataSourceResponse, &ProducerPort::UnregisterDataSource>});
+
+ desc->methods.emplace_back(::perfetto::ipc::ServiceDescriptor::Method{
+ "CommitData",
+ &_IPC_Decoder<CommitDataRequest>,
+ &_IPC_Decoder<CommitDataResponse>,
+ &_IPC_Invoker<ProducerPort, CommitDataRequest, CommitDataResponse, &ProducerPort::CommitData>});
+
+ desc->methods.emplace_back(::perfetto::ipc::ServiceDescriptor::Method{
+ "GetAsyncCommand",
+ &_IPC_Decoder<GetAsyncCommandRequest>,
+ &_IPC_Decoder<GetAsyncCommandResponse>,
+ &_IPC_Invoker<ProducerPort, GetAsyncCommandRequest, GetAsyncCommandResponse, &ProducerPort::GetAsyncCommand>});
+
+ desc->methods.emplace_back(::perfetto::ipc::ServiceDescriptor::Method{
+ "RegisterTraceWriter",
+ &_IPC_Decoder<RegisterTraceWriterRequest>,
+ &_IPC_Decoder<RegisterTraceWriterResponse>,
+ &_IPC_Invoker<ProducerPort, RegisterTraceWriterRequest, RegisterTraceWriterResponse, &ProducerPort::RegisterTraceWriter>});
+
+ desc->methods.emplace_back(::perfetto::ipc::ServiceDescriptor::Method{
+ "UnregisterTraceWriter",
+ &_IPC_Decoder<UnregisterTraceWriterRequest>,
+ &_IPC_Decoder<UnregisterTraceWriterResponse>,
+ &_IPC_Invoker<ProducerPort, UnregisterTraceWriterRequest, UnregisterTraceWriterResponse, &ProducerPort::UnregisterTraceWriter>});
+
+ desc->methods.emplace_back(::perfetto::ipc::ServiceDescriptor::Method{
+ "NotifyDataSourceStarted",
+ &_IPC_Decoder<NotifyDataSourceStartedRequest>,
+ &_IPC_Decoder<NotifyDataSourceStartedResponse>,
+ &_IPC_Invoker<ProducerPort, NotifyDataSourceStartedRequest, NotifyDataSourceStartedResponse, &ProducerPort::NotifyDataSourceStarted>});
+
+ desc->methods.emplace_back(::perfetto::ipc::ServiceDescriptor::Method{
+ "NotifyDataSourceStopped",
+ &_IPC_Decoder<NotifyDataSourceStoppedRequest>,
+ &_IPC_Decoder<NotifyDataSourceStoppedResponse>,
+ &_IPC_Invoker<ProducerPort, NotifyDataSourceStoppedRequest, NotifyDataSourceStoppedResponse, &ProducerPort::NotifyDataSourceStopped>});
+
+ desc->methods.emplace_back(::perfetto::ipc::ServiceDescriptor::Method{
+ "ActivateTriggers",
+ &_IPC_Decoder<ActivateTriggersRequest>,
+ &_IPC_Decoder<ActivateTriggersResponse>,
+ &_IPC_Invoker<ProducerPort, ActivateTriggersRequest, ActivateTriggersResponse, &ProducerPort::ActivateTriggers>});
+
+ desc->methods.emplace_back(::perfetto::ipc::ServiceDescriptor::Method{
+ "Sync",
+ &_IPC_Decoder<SyncRequest>,
+ &_IPC_Decoder<SyncResponse>,
+ &_IPC_Invoker<ProducerPort, SyncRequest, SyncResponse, &ProducerPort::Sync>});
+
+ desc->methods.emplace_back(::perfetto::ipc::ServiceDescriptor::Method{
+ "UpdateDataSource",
+ &_IPC_Decoder<UpdateDataSourceRequest>,
+ &_IPC_Decoder<UpdateDataSourceResponse>,
+ &_IPC_Invoker<ProducerPort, UpdateDataSourceRequest, UpdateDataSourceResponse, &ProducerPort::UpdateDataSource>});
+ desc->methods.shrink_to_fit();
+ return desc;
+}
+
+
+const ::perfetto::ipc::ServiceDescriptor& ProducerPort::GetDescriptorStatic() {
+ static auto* instance = NewDescriptor();
+ return *instance;
+}
+
+// Host-side definitions.
+ProducerPort::~ProducerPort() = default;
+
+const ::perfetto::ipc::ServiceDescriptor& ProducerPort::GetDescriptor() {
+ return GetDescriptorStatic();
+}
+
+// Client-side definitions.
+ProducerPortProxy::ProducerPortProxy(::perfetto::ipc::ServiceProxy::EventListener* event_listener)
+ : ::perfetto::ipc::ServiceProxy(event_listener) {}
+
+ProducerPortProxy::~ProducerPortProxy() = default;
+
+const ::perfetto::ipc::ServiceDescriptor& ProducerPortProxy::GetDescriptor() {
+ return ProducerPort::GetDescriptorStatic();
+}
+
+void ProducerPortProxy::InitializeConnection(const InitializeConnectionRequest& request, DeferredInitializeConnectionResponse reply, int fd) {
+ BeginInvoke("InitializeConnection", request, ::perfetto::ipc::DeferredBase(std::move(reply)),
+ fd);
+}
+
+void ProducerPortProxy::RegisterDataSource(const RegisterDataSourceRequest& request, DeferredRegisterDataSourceResponse reply, int fd) {
+ BeginInvoke("RegisterDataSource", request, ::perfetto::ipc::DeferredBase(std::move(reply)),
+ fd);
+}
+
+void ProducerPortProxy::UnregisterDataSource(const UnregisterDataSourceRequest& request, DeferredUnregisterDataSourceResponse reply, int fd) {
+ BeginInvoke("UnregisterDataSource", request, ::perfetto::ipc::DeferredBase(std::move(reply)),
+ fd);
+}
+
+void ProducerPortProxy::CommitData(const CommitDataRequest& request, DeferredCommitDataResponse reply, int fd) {
+ BeginInvoke("CommitData", request, ::perfetto::ipc::DeferredBase(std::move(reply)),
+ fd);
+}
+
+void ProducerPortProxy::GetAsyncCommand(const GetAsyncCommandRequest& request, DeferredGetAsyncCommandResponse reply, int fd) {
+ BeginInvoke("GetAsyncCommand", request, ::perfetto::ipc::DeferredBase(std::move(reply)),
+ fd);
+}
+
+void ProducerPortProxy::RegisterTraceWriter(const RegisterTraceWriterRequest& request, DeferredRegisterTraceWriterResponse reply, int fd) {
+ BeginInvoke("RegisterTraceWriter", request, ::perfetto::ipc::DeferredBase(std::move(reply)),
+ fd);
+}
+
+void ProducerPortProxy::UnregisterTraceWriter(const UnregisterTraceWriterRequest& request, DeferredUnregisterTraceWriterResponse reply, int fd) {
+ BeginInvoke("UnregisterTraceWriter", request, ::perfetto::ipc::DeferredBase(std::move(reply)),
+ fd);
+}
+
+void ProducerPortProxy::NotifyDataSourceStarted(const NotifyDataSourceStartedRequest& request, DeferredNotifyDataSourceStartedResponse reply, int fd) {
+ BeginInvoke("NotifyDataSourceStarted", request, ::perfetto::ipc::DeferredBase(std::move(reply)),
+ fd);
+}
+
+void ProducerPortProxy::NotifyDataSourceStopped(const NotifyDataSourceStoppedRequest& request, DeferredNotifyDataSourceStoppedResponse reply, int fd) {
+ BeginInvoke("NotifyDataSourceStopped", request, ::perfetto::ipc::DeferredBase(std::move(reply)),
+ fd);
+}
+
+void ProducerPortProxy::ActivateTriggers(const ActivateTriggersRequest& request, DeferredActivateTriggersResponse reply, int fd) {
+ BeginInvoke("ActivateTriggers", request, ::perfetto::ipc::DeferredBase(std::move(reply)),
+ fd);
+}
+
+void ProducerPortProxy::Sync(const SyncRequest& request, DeferredSyncResponse reply, int fd) {
+ BeginInvoke("Sync", request, ::perfetto::ipc::DeferredBase(std::move(reply)),
+ fd);
+}
+
+void ProducerPortProxy::UpdateDataSource(const UpdateDataSourceRequest& request, DeferredUpdateDataSourceResponse reply, int fd) {
+ BeginInvoke("UpdateDataSource", request, ::perfetto::ipc::DeferredBase(std::move(reply)),
+ fd);
+}
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+// gen_amalgamated begin source: gen/protos/perfetto/ipc/relay_port.ipc.cc
+// gen_amalgamated begin header: gen/protos/perfetto/ipc/relay_port.ipc.h
+// DO NOT EDIT. Autogenerated by Perfetto IPC
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_IPC_RELAY_PORT_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_IPC_RELAY_PORT_PROTO_H_
+
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/deferred.h"
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/service.h"
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/service_descriptor.h"
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/service_proxy.h"
+
+// gen_amalgamated expanded: #include "protos/perfetto/ipc/relay_port.gen.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+class RelayPort : public ::perfetto::ipc::Service {
+ private:
+ static ::perfetto::ipc::ServiceDescriptor* NewDescriptor();
+
+ public:
+ ~RelayPort() override;
+
+ static const ::perfetto::ipc::ServiceDescriptor& GetDescriptorStatic();
+
+ // Service implementation.
+ const ::perfetto::ipc::ServiceDescriptor& GetDescriptor() override;
+
+ // Methods from the .proto file
+ using DeferredSyncClockResponse = ::perfetto::ipc::Deferred<SyncClockResponse>;
+ virtual void SyncClock(const SyncClockRequest&, DeferredSyncClockResponse) = 0;
+
+};
+
+
+class RelayPortProxy : public ::perfetto::ipc::ServiceProxy {
+ public:
+ explicit RelayPortProxy(::perfetto::ipc::ServiceProxy::EventListener*);
+ ~RelayPortProxy() override;
+
+ // ServiceProxy implementation.
+ const ::perfetto::ipc::ServiceDescriptor& GetDescriptor() override;
+
+ // Methods from the .proto file
+ using DeferredSyncClockResponse = ::perfetto::ipc::Deferred<SyncClockResponse>;
+ void SyncClock(const SyncClockRequest&, DeferredSyncClockResponse, int fd = -1);
+
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_IPC_RELAY_PORT_PROTO_H_
+// DO NOT EDIT. Autogenerated by Perfetto IPC
+// gen_amalgamated expanded: #include "protos/perfetto/ipc/relay_port.ipc.h"
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/codegen_helpers.h"
+
+#include <memory>
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+::perfetto::ipc::ServiceDescriptor* RelayPort::NewDescriptor() {
+ auto* desc = new ::perfetto::ipc::ServiceDescriptor();
+ desc->service_name = "RelayPort";
+
+ desc->methods.emplace_back(::perfetto::ipc::ServiceDescriptor::Method{
+ "SyncClock",
+ &_IPC_Decoder<SyncClockRequest>,
+ &_IPC_Decoder<SyncClockResponse>,
+ &_IPC_Invoker<RelayPort, SyncClockRequest, SyncClockResponse, &RelayPort::SyncClock>});
+ desc->methods.shrink_to_fit();
+ return desc;
+}
+
+
+const ::perfetto::ipc::ServiceDescriptor& RelayPort::GetDescriptorStatic() {
+ static auto* instance = NewDescriptor();
+ return *instance;
+}
+
+// Host-side definitions.
+RelayPort::~RelayPort() = default;
+
+const ::perfetto::ipc::ServiceDescriptor& RelayPort::GetDescriptor() {
+ return GetDescriptorStatic();
+}
+
+// Client-side definitions.
+RelayPortProxy::RelayPortProxy(::perfetto::ipc::ServiceProxy::EventListener* event_listener)
+ : ::perfetto::ipc::ServiceProxy(event_listener) {}
+
+RelayPortProxy::~RelayPortProxy() = default;
+
+const ::perfetto::ipc::ServiceDescriptor& RelayPortProxy::GetDescriptor() {
+ return RelayPort::GetDescriptorStatic();
+}
+
+void RelayPortProxy::SyncClock(const SyncClockRequest& request, DeferredSyncClockResponse reply, int fd) {
+ BeginInvoke("SyncClock", request, ::perfetto::ipc::DeferredBase(std::move(reply)),
+ fd);
+}
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+// gen_amalgamated begin source: src/tracing/ipc/default_socket.cc
+/*
+ * Copyright (C) 2018 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/tracing/default_socket.h"
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/string_utils.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/utils.h"
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/basic_types.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/basic_types.h"
+
+#include <stdlib.h>
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_LINUX) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_APPLE)
+#include <unistd.h>
+#endif
+
+namespace perfetto {
+namespace {
+
+const char* kRunPerfettoBaseDir = "/run/perfetto/";
+
+// On Linux and CrOS, check /run/perfetto/ before using /tmp/ as the socket
+// base directory.
+bool UseRunPerfettoBaseDir() {
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_LINUX)
+ // Note that the trailing / in |kRunPerfettoBaseDir| ensures we are checking
+ // against a directory, not a file.
+ int res = PERFETTO_EINTR(access(kRunPerfettoBaseDir, X_OK));
+ if (!res)
+ return true;
+
+ // If the path doesn't exist (ENOENT), fail silently to the caller. Otherwise,
+ // fail with an explicit error message.
+ if (errno != ENOENT
+#if PERFETTO_BUILDFLAG(PERFETTO_CHROMIUM_BUILD)
+ // access(2) won't return EPERM, but Chromium sandbox returns EPERM if the
+ // sandbox doesn't allow the call (e.g. in the child processes).
+ && errno != EPERM
+#endif
+ ) {
+ PERFETTO_PLOG("%s exists but cannot be accessed. Falling back on /tmp/ ",
+ kRunPerfettoBaseDir);
+ }
+ return false;
+#else
+ base::ignore_result(kRunPerfettoBaseDir);
+ return false;
+#endif
+}
+
+} // anonymous namespace
+
+const char* GetProducerSocket() {
+ const char* name = getenv("PERFETTO_PRODUCER_SOCK_NAME");
+ if (name == nullptr) {
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ name = "127.0.0.1:32278";
+#elif PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID)
+ name = "/dev/socket/traced_producer";
+#else
+ // Use /run/perfetto if it exists. Then fallback to /tmp.
+ static const char* producer_socket =
+ UseRunPerfettoBaseDir() ? "/run/perfetto/traced-producer.sock"
+ : "/tmp/perfetto-producer";
+ name = producer_socket;
+#endif
+ }
+ base::ignore_result(UseRunPerfettoBaseDir); // Silence unused func warnings.
+ return name;
+}
+
+const char* GetRelaySocket() {
+ // The relay socket is optional and is connected only when the env var is set.
+ return getenv("PERFETTO_RELAY_SOCK_NAME");
+}
+
+std::vector<std::string> TokenizeProducerSockets(
+ const char* producer_socket_names) {
+ return base::SplitString(producer_socket_names, ",");
+}
+
+const char* GetConsumerSocket() {
+ const char* name = getenv("PERFETTO_CONSUMER_SOCK_NAME");
+ if (name == nullptr) {
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ name = "127.0.0.1:32279";
+#elif PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID)
+ name = "/dev/socket/traced_consumer";
+#else
+ // Use /run/perfetto if it exists. Then fallback to /tmp.
+ static const char* consumer_socket =
+ UseRunPerfettoBaseDir() ? "/run/perfetto/traced-consumer.sock"
+ : "/tmp/perfetto-consumer";
+ name = consumer_socket;
+#endif
+ }
+ return name;
+}
+
+} // namespace perfetto
+// gen_amalgamated begin source: src/tracing/ipc/memfd.cc
+// gen_amalgamated begin header: src/tracing/ipc/memfd.h
+/*
+ * Copyright (C) 2020 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef SRC_TRACING_IPC_MEMFD_H_
+#define SRC_TRACING_IPC_MEMFD_H_
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/scoped_file.h"
+
+// Some android build bots use a sysroot that doesn't support memfd when
+// compiling for the host, so we define the flags we need ourselves.
+
+// from memfd.h
+#ifndef MFD_CLOEXEC
+#define MFD_CLOEXEC 0x0001U
+#define MFD_ALLOW_SEALING 0x0002U
+#endif
+
+// from fcntl.h
+#ifndef F_ADD_SEALS
+#define F_ADD_SEALS 1033
+#define F_GET_SEALS 1034
+#define F_SEAL_SEAL 0x0001
+#define F_SEAL_SHRINK 0x0002
+#define F_SEAL_GROW 0x0004
+#define F_SEAL_WRITE 0x0008
+#endif
+
+namespace perfetto {
+
+// Whether the operating system supports memfd.
+bool HasMemfdSupport();
+
+// Call memfd(2) if available on platform and return the fd as result. This call
+// also makes a kernel version check for safety on older kernels (b/116769556).
+// Returns an invalid ScopedFile on failure.
+base::ScopedFile CreateMemfd(const char* name, unsigned int flags);
+
+} // namespace perfetto
+
+#endif // SRC_TRACING_IPC_MEMFD_H_
+/*
+ * Copyright (C) 2020 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "src/tracing/ipc/memfd.h"
+
+#include <errno.h>
+
+#define PERFETTO_MEMFD_ENABLED() \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_LINUX)
+
+#if PERFETTO_MEMFD_ENABLED()
+
+#include <stdio.h>
+#include <string.h>
+#include <sys/syscall.h>
+#include <sys/utsname.h>
+#include <unistd.h>
+
+// Some android build bots use a sysroot that doesn't support memfd when
+// compiling for the host, so we redefine it if necessary.
+#if !defined(__NR_memfd_create)
+#if defined(__x86_64__)
+#define __NR_memfd_create 319
+#elif defined(__i386__)
+#define __NR_memfd_create 356
+#elif defined(__aarch64__)
+#define __NR_memfd_create 279
+#elif defined(__arm__)
+#define __NR_memfd_create 385
+#else
+#error "unsupported sysroot without memfd support"
+#endif
+#endif // !defined(__NR_memfd_create)
+
+namespace perfetto {
+bool HasMemfdSupport() {
+ static bool kSupportsMemfd = [] {
+ // Check kernel version supports memfd_create(). Some older kernels segfault
+ // executing memfd_create() rather than returning ENOSYS (b/116769556).
+ static constexpr int kRequiredMajor = 3;
+ static constexpr int kRequiredMinor = 17;
+ struct utsname uts;
+ int major, minor;
+ if (uname(&uts) == 0 && strcmp(uts.sysname, "Linux") == 0 &&
+ sscanf(uts.release, "%d.%d", &major, &minor) == 2 &&
+ ((major < kRequiredMajor ||
+ (major == kRequiredMajor && minor < kRequiredMinor)))) {
+ return false;
+ }
+
+ base::ScopedFile fd;
+ fd.reset(static_cast<int>(syscall(__NR_memfd_create, "perfetto_shmem",
+ MFD_CLOEXEC | MFD_ALLOW_SEALING)));
+ return !!fd;
+ }();
+ return kSupportsMemfd;
+}
+
+base::ScopedFile CreateMemfd(const char* name, unsigned int flags) {
+ if (!HasMemfdSupport()) {
+ errno = ENOSYS;
+ return base::ScopedFile();
+ }
+ return base::ScopedFile(
+ static_cast<int>(syscall(__NR_memfd_create, name, flags)));
+}
+} // namespace perfetto
+
+#else // PERFETTO_MEMFD_ENABLED()
+
+namespace perfetto {
+bool HasMemfdSupport() {
+ return false;
+}
+base::ScopedFile CreateMemfd(const char*, unsigned int) {
+ errno = ENOSYS;
+ return base::ScopedFile();
+}
+} // namespace perfetto
+
+#endif // PERFETTO_MEMFD_ENABLED()
+// gen_amalgamated begin source: src/tracing/ipc/posix_shared_memory.cc
+// gen_amalgamated begin header: src/tracing/ipc/posix_shared_memory.h
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef SRC_TRACING_IPC_POSIX_SHARED_MEMORY_H_
+#define SRC_TRACING_IPC_POSIX_SHARED_MEMORY_H_
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_LINUX) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_APPLE) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_FUCHSIA) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_WASM)
+
+#include <stddef.h>
+
+#include <memory>
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/scoped_file.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/shared_memory.h"
+
+namespace perfetto {
+
+// Implements the SharedMemory and its factory for the posix-based transport.
+class PosixSharedMemory : public SharedMemory {
+ public:
+ class Factory : public SharedMemory::Factory {
+ public:
+ ~Factory() override;
+ std::unique_ptr<SharedMemory> CreateSharedMemory(size_t) override;
+ };
+
+ // Create a brand new SHM region.
+ static std::unique_ptr<PosixSharedMemory> Create(size_t size);
+
+ // Mmaps a file descriptor to an existing SHM region. If
+ // |require_seals_if_supported| is true and the system supports
+ // memfd_create(), the FD is required to be a sealed memfd with F_SEAL_SEAL,
+ // F_SEAL_GROW, and F_SEAL_SHRINK seals set (otherwise, nullptr is returned).
+ // May also return nullptr if mapping fails for another reason (e.g. OOM).
+ static std::unique_ptr<PosixSharedMemory> AttachToFd(
+ base::ScopedFile,
+ bool require_seals_if_supported = true);
+
+ ~PosixSharedMemory() override;
+
+ int fd() const { return fd_.get(); }
+
+ // SharedMemory implementation.
+ void* start() const override { return start_; }
+ size_t size() const override { return size_; }
+
+ private:
+ static std::unique_ptr<PosixSharedMemory> MapFD(base::ScopedFile, size_t);
+
+ PosixSharedMemory(void* start, size_t size, base::ScopedFile);
+ PosixSharedMemory(const PosixSharedMemory&) = delete;
+ PosixSharedMemory& operator=(const PosixSharedMemory&) = delete;
+
+ void* const start_;
+ const size_t size_;
+ base::ScopedFile fd_;
+};
+
+} // namespace perfetto
+
+#endif // OS_LINUX || OS_ANDROID || OS_APPLE
+#endif // SRC_TRACING_IPC_POSIX_SHARED_MEMORY_H_
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "src/tracing/ipc/posix_shared_memory.h"
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_LINUX) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_APPLE) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_FUCHSIA) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_WASM)
+
+#include <fcntl.h>
+#include <stdint.h>
+#include <stdio.h>
+#include <stdlib.h>
+#include <sys/mman.h>
+#include <sys/stat.h>
+#include <unistd.h>
+
+#include <memory>
+#include <utility>
+
+// gen_amalgamated expanded: #include "perfetto/base/compiler.h"
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/temp_file.h"
+// gen_amalgamated expanded: #include "src/tracing/ipc/memfd.h"
+
+namespace perfetto {
+
+namespace {
+int kFileSeals = F_SEAL_SHRINK | F_SEAL_GROW | F_SEAL_SEAL;
+} // namespace
+
+// static
+std::unique_ptr<PosixSharedMemory> PosixSharedMemory::Create(size_t size) {
+ base::ScopedFile fd =
+ CreateMemfd("perfetto_shmem", MFD_CLOEXEC | MFD_ALLOW_SEALING);
+ bool is_memfd = !!fd;
+
+ // In-tree builds only allow mem_fd, so we can inspect the seals to verify the
+ // fd is appropriately sealed. We'll crash in the PERFETTO_CHECK(fd) below if
+ // memfd_create failed.
+#if !PERFETTO_BUILDFLAG(PERFETTO_ANDROID_BUILD)
+ if (!fd) {
+ // TODO: if this fails on Android we should fall back on ashmem.
+ PERFETTO_DPLOG("memfd_create() failed");
+ fd = base::TempFile::CreateUnlinked().ReleaseFD();
+ }
+#endif
+
+ PERFETTO_CHECK(fd);
+ int res = ftruncate(fd.get(), static_cast<off_t>(size));
+ PERFETTO_CHECK(res == 0);
+
+ if (is_memfd) {
+ // When memfd is supported, file seals should be, too.
+ res = fcntl(*fd, F_ADD_SEALS, kFileSeals);
+ PERFETTO_DCHECK(res == 0);
+ }
+
+ return MapFD(std::move(fd), size);
+}
+
+// static
+std::unique_ptr<PosixSharedMemory> PosixSharedMemory::AttachToFd(
+ base::ScopedFile fd,
+ bool require_seals_if_supported) {
+ bool requires_seals = require_seals_if_supported;
+
+#if PERFETTO_BUILDFLAG(PERFETTO_ANDROID_BUILD)
+ // In-tree kernels all support memfd.
+ PERFETTO_CHECK(HasMemfdSupport());
+#else
+ // In out-of-tree builds, we only require seals if the kernel supports memfd.
+ if (requires_seals)
+ requires_seals = HasMemfdSupport();
+#endif
+
+ if (requires_seals) {
+ // If the system supports memfd, we require a sealed memfd.
+ int res = fcntl(*fd, F_GET_SEALS);
+ if (res == -1 || (res & kFileSeals) != kFileSeals) {
+ PERFETTO_PLOG("Couldn't verify file seals on shmem FD");
+ return nullptr;
+ }
+ }
+
+ struct stat stat_buf = {};
+ int res = fstat(fd.get(), &stat_buf);
+ PERFETTO_CHECK(res == 0 && stat_buf.st_size > 0);
+ return MapFD(std::move(fd), static_cast<size_t>(stat_buf.st_size));
+}
+
+// static
+std::unique_ptr<PosixSharedMemory> PosixSharedMemory::MapFD(base::ScopedFile fd,
+ size_t size) {
+ PERFETTO_DCHECK(fd);
+ PERFETTO_DCHECK(size > 0);
+ void* start =
+ mmap(nullptr, size, PROT_READ | PROT_WRITE, MAP_SHARED, fd.get(), 0);
+ PERFETTO_CHECK(start != MAP_FAILED);
+ return std::unique_ptr<PosixSharedMemory>(
+ new PosixSharedMemory(start, size, std::move(fd)));
+}
+
+PosixSharedMemory::PosixSharedMemory(void* start,
+ size_t size,
+ base::ScopedFile fd)
+ : start_(start), size_(size), fd_(std::move(fd)) {}
+
+PosixSharedMemory::~PosixSharedMemory() {
+ munmap(start(), size());
+}
+
+PosixSharedMemory::Factory::~Factory() {}
+
+std::unique_ptr<SharedMemory> PosixSharedMemory::Factory::CreateSharedMemory(
+ size_t size) {
+ return PosixSharedMemory::Create(size);
+}
+
+} // namespace perfetto
+
+#endif // OS_LINUX || OS_ANDROID || OS_APPLE
+// gen_amalgamated begin source: src/tracing/ipc/shared_memory_windows.cc
+// gen_amalgamated begin header: src/tracing/ipc/shared_memory_windows.h
+/*
+ * Copyright (C) 2021 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef SRC_TRACING_IPC_SHARED_MEMORY_WINDOWS_H_
+#define SRC_TRACING_IPC_SHARED_MEMORY_WINDOWS_H_
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+
+#include <string>
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/scoped_file.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/shared_memory.h"
+
+namespace perfetto {
+
+// Implements the SharedMemory and its factory for the Windows IPC transport.
+// This used only for standalone builds and NOT in chromium, which instead uses
+// a custom Mojo wrapper (MojoSharedMemory in chromium's //services/tracing/).
+class SharedMemoryWindows : public SharedMemory {
+ public:
+ class Factory : public SharedMemory::Factory {
+ public:
+ ~Factory() override;
+ std::unique_ptr<SharedMemory> CreateSharedMemory(size_t) override;
+ };
+
+ // Create a brand new SHM region.
+ enum Flags { kNone = 0, kInheritableHandles };
+ static std::unique_ptr<SharedMemoryWindows> Create(
+ size_t size, Flags flags=Flags::kNone);
+ static std::unique_ptr<SharedMemoryWindows> Attach(const std::string& key);
+ static std::unique_ptr<SharedMemoryWindows> AttachToHandleWithKey(
+ base::ScopedPlatformHandle fd, const std::string& key);
+ ~SharedMemoryWindows() override;
+ const std::string& key() const { return key_; }
+ const base::ScopedPlatformHandle& handle() const { return handle_; }
+
+ // SharedMemory implementation.
+ void* start() const override { return start_; }
+ size_t size() const override { return size_; }
+
+ private:
+ SharedMemoryWindows(void* start,
+ size_t size,
+ std::string,
+ base::ScopedPlatformHandle);
+ SharedMemoryWindows(const SharedMemoryWindows&) = delete;
+ SharedMemoryWindows& operator=(const SharedMemoryWindows&) = delete;
+
+ void* const start_;
+ const size_t size_;
+ std::string key_;
+ base::ScopedPlatformHandle handle_;
+};
+
+} // namespace perfetto
+
+#endif // OS_WIN
+
+#endif // SRC_TRACING_IPC_SHARED_MEMORY_WINDOWS_H_
+/*
+ * Copyright (C) 2021 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "src/tracing/ipc/shared_memory_windows.h"
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+
+#include <memory>
+#include <random>
+
+#include <Windows.h>
+
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/string_utils.h"
+
+namespace perfetto {
+
+// static
+std::unique_ptr<SharedMemoryWindows> SharedMemoryWindows::Create(
+ size_t size, Flags flags) {
+ base::ScopedPlatformHandle shmem_handle;
+ std::random_device rnd_dev;
+ uint64_t rnd_key = (static_cast<uint64_t>(rnd_dev()) << 32) | rnd_dev();
+ std::string key = "perfetto_shm_" + base::Uint64ToHexStringNoPrefix(rnd_key);
+
+ SECURITY_ATTRIBUTES security_attributes = {};
+ security_attributes.nLength = sizeof(SECURITY_ATTRIBUTES);
+ if (flags & Flags::kInheritableHandles)
+ security_attributes.bInheritHandle = TRUE;
+
+ shmem_handle.reset(CreateFileMappingA(
+ INVALID_HANDLE_VALUE, // Use paging file.
+ &security_attributes,
+ PAGE_READWRITE,
+ static_cast<DWORD>(size >> 32), // maximum object size (high-order DWORD)
+ static_cast<DWORD>(size), // maximum object size (low-order DWORD)
+ key.c_str()));
+
+ if (!shmem_handle) {
+ PERFETTO_PLOG("CreateFileMapping() call failed");
+ return nullptr;
+ }
+ void* start =
+ MapViewOfFile(*shmem_handle, FILE_MAP_ALL_ACCESS, /*offsetHigh=*/0,
+ /*offsetLow=*/0, size);
+ if (!start) {
+ PERFETTO_PLOG("MapViewOfFile() failed");
+ return nullptr;
+ }
+
+ return std::unique_ptr<SharedMemoryWindows>(new SharedMemoryWindows(
+ start, size, std::move(key), std::move(shmem_handle)));
+}
+
+// static
+std::unique_ptr<SharedMemoryWindows> SharedMemoryWindows::Attach(
+ const std::string& key) {
+ base::ScopedPlatformHandle shmem_handle;
+ shmem_handle.reset(
+ OpenFileMappingA(FILE_MAP_ALL_ACCESS, /*inherit=*/false, key.c_str()));
+ if (!shmem_handle) {
+ PERFETTO_PLOG("Failed to OpenFileMapping()");
+ return nullptr;
+ }
+
+ void* start =
+ MapViewOfFile(*shmem_handle, FILE_MAP_ALL_ACCESS, /*offsetHigh=*/0,
+ /*offsetLow=*/0, /*dwNumberOfBytesToMap=*/0);
+ if (!start) {
+ PERFETTO_PLOG("MapViewOfFile() failed");
+ return nullptr;
+ }
+
+ MEMORY_BASIC_INFORMATION info{};
+ if (!VirtualQuery(start, &info, sizeof(info))) {
+ PERFETTO_PLOG("VirtualQuery() failed");
+ return nullptr;
+ }
+ size_t size = info.RegionSize;
+ return std::unique_ptr<SharedMemoryWindows>(
+ new SharedMemoryWindows(start, size, key, std::move(shmem_handle)));
+}
+
+// static
+std::unique_ptr<SharedMemoryWindows> SharedMemoryWindows::AttachToHandleWithKey(
+ base::ScopedPlatformHandle shmem_handle, const std::string& key) {
+ void* start =
+ MapViewOfFile(*shmem_handle, FILE_MAP_ALL_ACCESS, /*offsetHigh=*/0,
+ /*offsetLow=*/0, /*dwNumberOfBytesToMap=*/0);
+ if (!start) {
+ PERFETTO_PLOG("MapViewOfFile() failed");
+ return nullptr;
+ }
+
+ MEMORY_BASIC_INFORMATION info{};
+ if (!VirtualQuery(start, &info, sizeof(info))) {
+ PERFETTO_PLOG("VirtualQuery() failed");
+ return nullptr;
+ }
+ size_t size = info.RegionSize;
+
+ return std::unique_ptr<SharedMemoryWindows>(
+ new SharedMemoryWindows(start, size, key, std::move(shmem_handle)));
+}
+
+SharedMemoryWindows::SharedMemoryWindows(void* start,
+ size_t size,
+ std::string key,
+ base::ScopedPlatformHandle handle)
+ : start_(start),
+ size_(size),
+ key_(std::move(key)),
+ handle_(std::move(handle)) {}
+
+SharedMemoryWindows::~SharedMemoryWindows() {
+ if (start_)
+ UnmapViewOfFile(start_);
+}
+
+SharedMemoryWindows::Factory::~Factory() = default;
+
+std::unique_ptr<SharedMemory> SharedMemoryWindows::Factory::CreateSharedMemory(
+ size_t size) {
+ return SharedMemoryWindows::Create(size);
+}
+
+} // namespace perfetto
+
+#endif // !OS_WIN
+// gen_amalgamated begin source: src/tracing/ipc/consumer/consumer_ipc_client_impl.cc
+// gen_amalgamated begin header: src/tracing/ipc/consumer/consumer_ipc_client_impl.h
+// gen_amalgamated begin header: include/perfetto/ext/tracing/ipc/consumer_ipc_client.h
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_TRACING_IPC_CONSUMER_IPC_CLIENT_H_
+#define INCLUDE_PERFETTO_EXT_TRACING_IPC_CONSUMER_IPC_CLIENT_H_
+
+#include <memory>
+#include <string>
+
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/tracing_service.h"
+
+namespace perfetto {
+
+class Consumer;
+
+// Allows to connect to a remote Service through a UNIX domain socket.
+// Exposed to:
+// Consumer(s) of the tracing library.
+// Implemented in:
+// src/tracing/ipc/consumer/consumer_ipc_client_impl.cc
+class PERFETTO_EXPORT_COMPONENT ConsumerIPCClient {
+ public:
+ // Connects to the producer port of the Service listening on the given
+ // |service_sock_name|. If the connection is successful, the OnConnect()
+ // method will be invoked asynchronously on the passed Consumer interface.
+ // If the connection fails, OnDisconnect() will be invoked instead.
+ // The returned ConsumerEndpoint serves also to delimit the scope of the
+ // callbacks invoked on the Consumer interface: no more Consumer callbacks are
+ // invoked immediately after its destruction and any pending callback will be
+ // dropped.
+ static std::unique_ptr<TracingService::ConsumerEndpoint>
+ Connect(const char* service_sock_name, Consumer*, base::TaskRunner*);
+
+ protected:
+ ConsumerIPCClient() = delete;
+};
+
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_TRACING_IPC_CONSUMER_IPC_CLIENT_H_
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef SRC_TRACING_IPC_CONSUMER_CONSUMER_IPC_CLIENT_IMPL_H_
+#define SRC_TRACING_IPC_CONSUMER_CONSUMER_IPC_CLIENT_IMPL_H_
+
+#include <stdint.h>
+
+#include <list>
+#include <vector>
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/scoped_file.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/weak_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/service_proxy.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/basic_types.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/trace_packet.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/tracing_service.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/ipc/consumer_ipc_client.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/core/forward_decls.h"
+
+// gen_amalgamated expanded: #include "protos/perfetto/ipc/consumer_port.ipc.h"
+
+namespace perfetto {
+
+namespace base {
+class TaskRunner;
+} // namespace base
+
+namespace ipc {
+class Client;
+} // namespace ipc
+
+class Consumer;
+
+// Exposes a Service endpoint to Consumer(s), proxying all requests through a
+// IPC channel to the remote Service. This class is the glue layer between the
+// generic Service interface exposed to the clients of the library and the
+// actual IPC transport.
+class ConsumerIPCClientImpl : public TracingService::ConsumerEndpoint,
+ public ipc::ServiceProxy::EventListener {
+ public:
+ ConsumerIPCClientImpl(const char* service_sock_name,
+ Consumer*,
+ base::TaskRunner*);
+ ~ConsumerIPCClientImpl() override;
+
+ // TracingService::ConsumerEndpoint implementation.
+ // These methods are invoked by the actual Consumer(s) code by clients of the
+ // tracing library, which know nothing about the IPC transport.
+ void EnableTracing(const TraceConfig&, base::ScopedFile) override;
+ void StartTracing() override;
+ void ChangeTraceConfig(const TraceConfig&) override;
+ void DisableTracing() override;
+ void ReadBuffers() override;
+ void FreeBuffers() override;
+ void Flush(uint32_t timeout_ms, FlushCallback, FlushFlags) override;
+ void Detach(const std::string& key) override;
+ void Attach(const std::string& key) override;
+ void GetTraceStats() override;
+ void ObserveEvents(uint32_t enabled_event_types) override;
+ void QueryServiceState(QueryServiceStateArgs,
+ QueryServiceStateCallback) override;
+ void QueryCapabilities(QueryCapabilitiesCallback) override;
+ void SaveTraceForBugreport(SaveTraceForBugreportCallback) override;
+ void CloneSession(TracingSessionID, CloneSessionArgs) override;
+
+ // ipc::ServiceProxy::EventListener implementation.
+ // These methods are invoked by the IPC layer, which knows nothing about
+ // tracing, consumers and consumers.
+ void OnConnect() override;
+ void OnDisconnect() override;
+
+ private:
+ struct PendingQueryServiceRequest {
+ QueryServiceStateCallback callback;
+
+ // All the replies will be appended here until |has_more| == false.
+ std::vector<uint8_t> merged_resp;
+ };
+
+ // List because we need stable iterators.
+ using PendingQueryServiceRequests = std::list<PendingQueryServiceRequest>;
+
+ void OnReadBuffersResponse(
+ ipc::AsyncResult<protos::gen::ReadBuffersResponse>);
+ void OnEnableTracingResponse(
+ ipc::AsyncResult<protos::gen::EnableTracingResponse>);
+ void OnQueryServiceStateResponse(
+ ipc::AsyncResult<protos::gen::QueryServiceStateResponse>,
+ PendingQueryServiceRequests::iterator);
+
+ // TODO(primiano): think to dtor order, do we rely on any specific sequence?
+ Consumer* const consumer_;
+
+ // The object that owns the client socket and takes care of IPC traffic.
+ std::unique_ptr<ipc::Client> ipc_channel_;
+
+ // The proxy interface for the consumer port of the service. It is bound
+ // to |ipc_channel_| and (de)serializes method invocations over the wire.
+ protos::gen::ConsumerPortProxy consumer_port_;
+
+ bool connected_ = false;
+
+ PendingQueryServiceRequests pending_query_svc_reqs_;
+
+ // When a packet is too big to fit into a ReadBuffersResponse IPC, the service
+ // will chunk it into several IPCs, each containing few slices of the packet
+ // (a packet's slice is always guaranteed to be << kIPCBufferSize). When
+ // chunking happens this field accumulates the slices received until the
+ // one with |last_slice_for_packet| == true is received.
+ TracePacket partial_packet_;
+
+ // Keep last.
+ base::WeakPtrFactory<ConsumerIPCClientImpl> weak_ptr_factory_;
+};
+
+} // namespace perfetto
+
+#endif // SRC_TRACING_IPC_CONSUMER_CONSUMER_IPC_CLIENT_IMPL_H_
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "src/tracing/ipc/consumer/consumer_ipc_client_impl.h"
+
+#include <string.h>
+
+#include <cinttypes>
+
+// gen_amalgamated expanded: #include "perfetto/base/task_runner.h"
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/client.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/consumer.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/observable_events.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/trace_stats.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/core/trace_config.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/core/tracing_service_state.h"
+
+// TODO(fmayer): Add a test to check to what happens when ConsumerIPCClientImpl
+// gets destroyed w.r.t. the Consumer pointer. Also think to lifetime of the
+// Consumer* during the callbacks.
+
+namespace perfetto {
+
+// static. (Declared in include/tracing/ipc/consumer_ipc_client.h).
+std::unique_ptr<TracingService::ConsumerEndpoint> ConsumerIPCClient::Connect(
+ const char* service_sock_name,
+ Consumer* consumer,
+ base::TaskRunner* task_runner) {
+ return std::unique_ptr<TracingService::ConsumerEndpoint>(
+ new ConsumerIPCClientImpl(service_sock_name, consumer, task_runner));
+}
+
+ConsumerIPCClientImpl::ConsumerIPCClientImpl(const char* service_sock_name,
+ Consumer* consumer,
+ base::TaskRunner* task_runner)
+ : consumer_(consumer),
+ ipc_channel_(
+ ipc::Client::CreateInstance({service_sock_name, /*sock_retry=*/false},
+ task_runner)),
+ consumer_port_(this /* event_listener */),
+ weak_ptr_factory_(this) {
+ ipc_channel_->BindService(consumer_port_.GetWeakPtr());
+}
+
+ConsumerIPCClientImpl::~ConsumerIPCClientImpl() = default;
+
+// Called by the IPC layer if the BindService() succeeds.
+void ConsumerIPCClientImpl::OnConnect() {
+ connected_ = true;
+ consumer_->OnConnect();
+}
+
+void ConsumerIPCClientImpl::OnDisconnect() {
+ PERFETTO_DLOG("Tracing service connection failure");
+ connected_ = false;
+ consumer_->OnDisconnect(); // Note: may delete |this|.
+}
+
+void ConsumerIPCClientImpl::EnableTracing(const TraceConfig& trace_config,
+ base::ScopedFile fd) {
+ if (!connected_) {
+ PERFETTO_DLOG("Cannot EnableTracing(), not connected to tracing service");
+ return;
+ }
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ if (fd) {
+ consumer_->OnTracingDisabled(
+ "Passing FDs for write_into_file is not supported on Windows");
+ return;
+ }
+#endif
+
+ protos::gen::EnableTracingRequest req;
+ *req.mutable_trace_config() = trace_config;
+ ipc::Deferred<protos::gen::EnableTracingResponse> async_response;
+ auto weak_this = weak_ptr_factory_.GetWeakPtr();
+ async_response.Bind(
+ [weak_this](
+ ipc::AsyncResult<protos::gen::EnableTracingResponse> response) {
+ if (weak_this)
+ weak_this->OnEnableTracingResponse(std::move(response));
+ });
+
+ // |fd| will be closed when this function returns, but it's fine because the
+ // IPC layer dup()'s it when sending the IPC.
+ consumer_port_.EnableTracing(req, std::move(async_response), *fd);
+}
+
+void ConsumerIPCClientImpl::ChangeTraceConfig(const TraceConfig& trace_config) {
+ if (!connected_) {
+ PERFETTO_DLOG(
+ "Cannot ChangeTraceConfig(), not connected to tracing service");
+ return;
+ }
+
+ ipc::Deferred<protos::gen::ChangeTraceConfigResponse> async_response;
+ async_response.Bind(
+ [](ipc::AsyncResult<protos::gen::ChangeTraceConfigResponse> response) {
+ if (!response)
+ PERFETTO_DLOG("ChangeTraceConfig() failed");
+ });
+ protos::gen::ChangeTraceConfigRequest req;
+ *req.mutable_trace_config() = trace_config;
+ consumer_port_.ChangeTraceConfig(req, std::move(async_response));
+}
+
+void ConsumerIPCClientImpl::StartTracing() {
+ if (!connected_) {
+ PERFETTO_DLOG("Cannot StartTracing(), not connected to tracing service");
+ return;
+ }
+
+ ipc::Deferred<protos::gen::StartTracingResponse> async_response;
+ async_response.Bind(
+ [](ipc::AsyncResult<protos::gen::StartTracingResponse> response) {
+ if (!response)
+ PERFETTO_DLOG("StartTracing() failed");
+ });
+ protos::gen::StartTracingRequest req;
+ consumer_port_.StartTracing(req, std::move(async_response));
+}
+
+void ConsumerIPCClientImpl::DisableTracing() {
+ if (!connected_) {
+ PERFETTO_DLOG("Cannot DisableTracing(), not connected to tracing service");
+ return;
+ }
+
+ ipc::Deferred<protos::gen::DisableTracingResponse> async_response;
+ async_response.Bind(
+ [](ipc::AsyncResult<protos::gen::DisableTracingResponse> response) {
+ if (!response)
+ PERFETTO_DLOG("DisableTracing() failed");
+ });
+ consumer_port_.DisableTracing(protos::gen::DisableTracingRequest(),
+ std::move(async_response));
+}
+
+void ConsumerIPCClientImpl::ReadBuffers() {
+ if (!connected_) {
+ PERFETTO_DLOG("Cannot ReadBuffers(), not connected to tracing service");
+ return;
+ }
+
+ ipc::Deferred<protos::gen::ReadBuffersResponse> async_response;
+
+ // The IPC layer guarantees that callbacks are destroyed after this object
+ // is destroyed (by virtue of destroying the |consumer_port_|). In turn the
+ // contract of this class expects the caller to not destroy the Consumer class
+ // before having destroyed this class. Hence binding |this| here is safe.
+ async_response.Bind(
+ [this](ipc::AsyncResult<protos::gen::ReadBuffersResponse> response) {
+ OnReadBuffersResponse(std::move(response));
+ });
+ consumer_port_.ReadBuffers(protos::gen::ReadBuffersRequest(),
+ std::move(async_response));
+}
+
+void ConsumerIPCClientImpl::OnReadBuffersResponse(
+ ipc::AsyncResult<protos::gen::ReadBuffersResponse> response) {
+ if (!response) {
+ PERFETTO_DLOG("ReadBuffers() failed");
+ return;
+ }
+ std::vector<TracePacket> trace_packets;
+ for (auto& resp_slice : response->slices()) {
+ const std::string& slice_data = resp_slice.data();
+ Slice slice = Slice::Allocate(slice_data.size());
+ memcpy(slice.own_data(), slice_data.data(), slice.size);
+ partial_packet_.AddSlice(std::move(slice));
+ if (resp_slice.last_slice_for_packet())
+ trace_packets.emplace_back(std::move(partial_packet_));
+ }
+ if (!trace_packets.empty() || !response.has_more())
+ consumer_->OnTraceData(std::move(trace_packets), response.has_more());
+}
+
+void ConsumerIPCClientImpl::OnEnableTracingResponse(
+ ipc::AsyncResult<protos::gen::EnableTracingResponse> response) {
+ std::string error;
+ // |response| might be empty when the request gets rejected (if the connection
+ // with the service is dropped all outstanding requests are auto-rejected).
+ if (!response) {
+ error =
+ "EnableTracing IPC request rejected. This is likely due to a loss of "
+ "the traced connection";
+ } else {
+ error = response->error();
+ }
+ if (!response || response->disabled())
+ consumer_->OnTracingDisabled(error);
+}
+
+void ConsumerIPCClientImpl::FreeBuffers() {
+ if (!connected_) {
+ PERFETTO_DLOG("Cannot FreeBuffers(), not connected to tracing service");
+ return;
+ }
+
+ protos::gen::FreeBuffersRequest req;
+ ipc::Deferred<protos::gen::FreeBuffersResponse> async_response;
+ async_response.Bind(
+ [](ipc::AsyncResult<protos::gen::FreeBuffersResponse> response) {
+ if (!response)
+ PERFETTO_DLOG("FreeBuffers() failed");
+ });
+ consumer_port_.FreeBuffers(req, std::move(async_response));
+}
+
+void ConsumerIPCClientImpl::Flush(uint32_t timeout_ms,
+ FlushCallback callback,
+ FlushFlags flush_flags) {
+ if (!connected_) {
+ PERFETTO_DLOG("Cannot Flush(), not connected to tracing service");
+ return callback(/*success=*/false);
+ }
+
+ protos::gen::FlushRequest req;
+ req.set_timeout_ms(static_cast<uint32_t>(timeout_ms));
+ req.set_flags(flush_flags.flags());
+ ipc::Deferred<protos::gen::FlushResponse> async_response;
+ async_response.Bind(
+ [callback](ipc::AsyncResult<protos::gen::FlushResponse> response) {
+ callback(!!response);
+ });
+ consumer_port_.Flush(req, std::move(async_response));
+}
+
+void ConsumerIPCClientImpl::Detach(const std::string& key) {
+ if (!connected_) {
+ PERFETTO_DLOG("Cannot Detach(), not connected to tracing service");
+ return;
+ }
+
+ protos::gen::DetachRequest req;
+ req.set_key(key);
+ ipc::Deferred<protos::gen::DetachResponse> async_response;
+ auto weak_this = weak_ptr_factory_.GetWeakPtr();
+
+ async_response.Bind(
+ [weak_this](ipc::AsyncResult<protos::gen::DetachResponse> response) {
+ if (weak_this)
+ weak_this->consumer_->OnDetach(!!response);
+ });
+ consumer_port_.Detach(req, std::move(async_response));
+}
+
+void ConsumerIPCClientImpl::Attach(const std::string& key) {
+ if (!connected_) {
+ PERFETTO_DLOG("Cannot Attach(), not connected to tracing service");
+ return;
+ }
+
+ {
+ protos::gen::AttachRequest req;
+ req.set_key(key);
+ ipc::Deferred<protos::gen::AttachResponse> async_response;
+ auto weak_this = weak_ptr_factory_.GetWeakPtr();
+
+ async_response.Bind(
+ [weak_this](ipc::AsyncResult<protos::gen::AttachResponse> response) {
+ if (!weak_this)
+ return;
+ if (!response) {
+ weak_this->consumer_->OnAttach(/*success=*/false, TraceConfig());
+ return;
+ }
+ const TraceConfig& trace_config = response->trace_config();
+
+ // If attached successfully, also attach to the end-of-trace
+ // notificaton callback, via EnableTracing(attach_notification_only).
+ protos::gen::EnableTracingRequest enable_req;
+ enable_req.set_attach_notification_only(true);
+ ipc::Deferred<protos::gen::EnableTracingResponse> enable_resp;
+ enable_resp.Bind(
+ [weak_this](
+ ipc::AsyncResult<protos::gen::EnableTracingResponse> resp) {
+ if (weak_this)
+ weak_this->OnEnableTracingResponse(std::move(resp));
+ });
+ weak_this->consumer_port_.EnableTracing(enable_req,
+ std::move(enable_resp));
+
+ weak_this->consumer_->OnAttach(/*success=*/true, trace_config);
+ });
+ consumer_port_.Attach(req, std::move(async_response));
+ }
+}
+
+void ConsumerIPCClientImpl::GetTraceStats() {
+ if (!connected_) {
+ PERFETTO_DLOG("Cannot GetTraceStats(), not connected to tracing service");
+ return;
+ }
+
+ protos::gen::GetTraceStatsRequest req;
+ ipc::Deferred<protos::gen::GetTraceStatsResponse> async_response;
+
+ // The IPC layer guarantees that callbacks are destroyed after this object
+ // is destroyed (by virtue of destroying the |consumer_port_|). In turn the
+ // contract of this class expects the caller to not destroy the Consumer class
+ // before having destroyed this class. Hence binding |this| here is safe.
+ async_response.Bind(
+ [this](ipc::AsyncResult<protos::gen::GetTraceStatsResponse> response) {
+ if (!response) {
+ consumer_->OnTraceStats(/*success=*/false, TraceStats());
+ return;
+ }
+ consumer_->OnTraceStats(/*success=*/true, response->trace_stats());
+ });
+ consumer_port_.GetTraceStats(req, std::move(async_response));
+}
+
+void ConsumerIPCClientImpl::ObserveEvents(uint32_t enabled_event_types) {
+ if (!connected_) {
+ PERFETTO_DLOG("Cannot ObserveEvents(), not connected to tracing service");
+ return;
+ }
+
+ protos::gen::ObserveEventsRequest req;
+ for (uint32_t i = 0; i < 32; i++) {
+ const uint32_t event_id = 1u << i;
+ if (enabled_event_types & event_id)
+ req.add_events_to_observe(static_cast<ObservableEvents::Type>(event_id));
+ }
+
+ ipc::Deferred<protos::gen::ObserveEventsResponse> async_response;
+ // The IPC layer guarantees that callbacks are destroyed after this object
+ // is destroyed (by virtue of destroying the |consumer_port_|). In turn the
+ // contract of this class expects the caller to not destroy the Consumer class
+ // before having destroyed this class. Hence binding |this| here is safe.
+ async_response.Bind(
+ [this](ipc::AsyncResult<protos::gen::ObserveEventsResponse> response) {
+ // Skip empty response, which the service sends to close the stream.
+ if (!response.has_more()) {
+ PERFETTO_DCHECK(!response.success());
+ return;
+ }
+ consumer_->OnObservableEvents(response->events());
+ });
+ consumer_port_.ObserveEvents(req, std::move(async_response));
+}
+
+void ConsumerIPCClientImpl::QueryServiceState(
+ QueryServiceStateArgs args,
+ QueryServiceStateCallback callback) {
+ if (!connected_) {
+ PERFETTO_DLOG(
+ "Cannot QueryServiceState(), not connected to tracing service");
+ return;
+ }
+
+ auto it = pending_query_svc_reqs_.insert(pending_query_svc_reqs_.end(),
+ {std::move(callback), {}});
+ protos::gen::QueryServiceStateRequest req;
+ req.set_sessions_only(args.sessions_only);
+ ipc::Deferred<protos::gen::QueryServiceStateResponse> async_response;
+ auto weak_this = weak_ptr_factory_.GetWeakPtr();
+ async_response.Bind(
+ [weak_this,
+ it](ipc::AsyncResult<protos::gen::QueryServiceStateResponse> response) {
+ if (weak_this)
+ weak_this->OnQueryServiceStateResponse(std::move(response), it);
+ });
+ consumer_port_.QueryServiceState(req, std::move(async_response));
+}
+
+void ConsumerIPCClientImpl::OnQueryServiceStateResponse(
+ ipc::AsyncResult<protos::gen::QueryServiceStateResponse> response,
+ PendingQueryServiceRequests::iterator req_it) {
+ PERFETTO_DCHECK(req_it->callback);
+
+ if (!response) {
+ auto callback = std::move(req_it->callback);
+ pending_query_svc_reqs_.erase(req_it);
+ callback(false, TracingServiceState());
+ return;
+ }
+
+ // The QueryServiceState response can be split in several chunks if the
+ // service has several data sources. The client is supposed to merge all the
+ // replies. The easiest way to achieve this is to re-serialize the partial
+ // response and then re-decode the merged result in one shot.
+ std::vector<uint8_t>& merged_resp = req_it->merged_resp;
+ std::vector<uint8_t> part = response->service_state().SerializeAsArray();
+ merged_resp.insert(merged_resp.end(), part.begin(), part.end());
+
+ if (response.has_more())
+ return;
+
+ // All replies have been received. Decode the merged result and reply to the
+ // callback.
+ protos::gen::TracingServiceState svc_state;
+ bool ok = svc_state.ParseFromArray(merged_resp.data(), merged_resp.size());
+ if (!ok)
+ PERFETTO_ELOG("Failed to decode merged QueryServiceStateResponse");
+ auto callback = std::move(req_it->callback);
+ pending_query_svc_reqs_.erase(req_it);
+ callback(ok, std::move(svc_state));
+}
+
+void ConsumerIPCClientImpl::QueryCapabilities(
+ QueryCapabilitiesCallback callback) {
+ if (!connected_) {
+ PERFETTO_DLOG(
+ "Cannot QueryCapabilities(), not connected to tracing service");
+ return;
+ }
+
+ protos::gen::QueryCapabilitiesRequest req;
+ ipc::Deferred<protos::gen::QueryCapabilitiesResponse> async_response;
+ async_response.Bind(
+ [callback](
+ ipc::AsyncResult<protos::gen::QueryCapabilitiesResponse> response) {
+ if (!response) {
+ // If the IPC fails, we are talking to an older version of the service
+ // that didn't support QueryCapabilities at all. In this case return
+ // an empty capabilities message.
+ callback(TracingServiceCapabilities());
+ } else {
+ callback(response->capabilities());
+ }
+ });
+ consumer_port_.QueryCapabilities(req, std::move(async_response));
+}
+
+void ConsumerIPCClientImpl::SaveTraceForBugreport(
+ SaveTraceForBugreportCallback callback) {
+ if (!connected_) {
+ PERFETTO_DLOG(
+ "Cannot SaveTraceForBugreport(), not connected to tracing service");
+ return;
+ }
+
+ protos::gen::SaveTraceForBugreportRequest req;
+ ipc::Deferred<protos::gen::SaveTraceForBugreportResponse> async_response;
+ async_response.Bind(
+ [callback](ipc::AsyncResult<protos::gen::SaveTraceForBugreportResponse>
+ response) {
+ if (!response) {
+ // If the IPC fails, we are talking to an older version of the service
+ // that didn't support SaveTraceForBugreport at all.
+ callback(
+ false,
+ "The tracing service doesn't support SaveTraceForBugreport()");
+ } else {
+ callback(response->success(), response->msg());
+ }
+ });
+ consumer_port_.SaveTraceForBugreport(req, std::move(async_response));
+}
+
+void ConsumerIPCClientImpl::CloneSession(TracingSessionID tsid,
+ CloneSessionArgs args) {
+ if (!connected_) {
+ PERFETTO_DLOG("Cannot CloneSession(), not connected to tracing service");
+ return;
+ }
+
+ protos::gen::CloneSessionRequest req;
+ req.set_session_id(tsid);
+ req.set_skip_trace_filter(args.skip_trace_filter);
+ req.set_for_bugreport(args.for_bugreport);
+ ipc::Deferred<protos::gen::CloneSessionResponse> async_response;
+ auto weak_this = weak_ptr_factory_.GetWeakPtr();
+
+ async_response.Bind(
+ [weak_this](
+ ipc::AsyncResult<protos::gen::CloneSessionResponse> response) {
+ if (!weak_this)
+ return;
+ if (!response) {
+ // If the IPC fails, we are talking to an older version of the service
+ // that didn't support CloneSession at all.
+ weak_this->consumer_->OnSessionCloned(
+ {false, "CloneSession IPC not supported", {}});
+ } else {
+ base::Uuid uuid(response->uuid_lsb(), response->uuid_msb());
+ weak_this->consumer_->OnSessionCloned(
+ {response->success(), response->error(), uuid});
+ }
+ });
+ consumer_port_.CloneSession(req, std::move(async_response));
+}
+} // namespace perfetto
+// gen_amalgamated begin source: src/tracing/ipc/producer/producer_ipc_client_impl.cc
+// gen_amalgamated begin header: src/tracing/ipc/producer/producer_ipc_client_impl.h
+// gen_amalgamated begin header: include/perfetto/ext/tracing/ipc/producer_ipc_client.h
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_TRACING_IPC_PRODUCER_IPC_CLIENT_H_
+#define INCLUDE_PERFETTO_EXT_TRACING_IPC_PRODUCER_IPC_CLIENT_H_
+
+#include <memory>
+#include <string>
+
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/client.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/shared_memory.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/shared_memory_arbiter.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/tracing_service.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/tracing_backend.h"
+
+namespace perfetto {
+
+class Producer;
+
+// Allows to connect to a remote Service through a UNIX domain socket.
+// Exposed to:
+// Producer(s) of the tracing library.
+// Implemented in:
+// src/tracing/ipc/producer/producer_ipc_client_impl.cc
+class PERFETTO_EXPORT_COMPONENT ProducerIPCClient {
+ public:
+ enum class ConnectionFlags {
+ // Fails immediately with OnConnect(false) if the service connection cannot
+ // be established.
+ kDefault = 0,
+
+ // Keeps retrying with exponential backoff indefinitely. The caller will
+ // never see an OnConnect(false).
+ kRetryIfUnreachable = 1,
+ };
+
+ // Connects to the producer port of the Service listening on the given
+ // |service_sock_name|. If the connection is successful, the OnConnect()
+ // method will be invoked asynchronously on the passed Producer interface. If
+ // the connection fails, OnDisconnect() will be invoked instead. The returned
+ // ProducerEndpoint serves also to delimit the scope of the callbacks invoked
+ // on the Producer interface: no more Producer callbacks are invoked
+ // immediately after its destruction and any pending callback will be dropped.
+ // To provide a producer-allocated shared memory buffer, both |shm| and
+ // |shm_arbiter| should be set. |shm_arbiter| should be an unbound
+ // SharedMemoryArbiter instance. When |shm| and |shm_arbiter| are provided,
+ // the service will attempt to adopt the provided SMB. If this fails, the
+ // ProducerEndpoint will disconnect, but the SMB and arbiter will remain valid
+ // until the client is destroyed.
+ //
+ // TODO(eseckler): Support adoption failure more gracefully.
+ // TODO(primiano): move all the existing use cases to the Connect(ConnArgs)
+ // below. Also move the functionality of ConnectionFlags into ConnArgs.
+ static std::unique_ptr<TracingService::ProducerEndpoint> Connect(
+ const char* service_sock_name,
+ Producer*,
+ const std::string& producer_name,
+ base::TaskRunner*,
+ TracingService::ProducerSMBScrapingMode smb_scraping_mode =
+ TracingService::ProducerSMBScrapingMode::kDefault,
+ size_t shared_memory_size_hint_bytes = 0,
+ size_t shared_memory_page_size_hint_bytes = 0,
+ std::unique_ptr<SharedMemory> shm = nullptr,
+ std::unique_ptr<SharedMemoryArbiter> shm_arbiter = nullptr,
+ ConnectionFlags = ConnectionFlags::kDefault);
+
+ // Overload of Connect() to support adopting a connected socket using
+ // ipc::Client::ConnArgs.
+ static std::unique_ptr<TracingService::ProducerEndpoint> Connect(
+ ipc::Client::ConnArgs,
+ Producer*,
+ const std::string& producer_name,
+ base::TaskRunner*,
+ TracingService::ProducerSMBScrapingMode smb_scraping_mode =
+ TracingService::ProducerSMBScrapingMode::kDefault,
+ size_t shared_memory_size_hint_bytes = 0,
+ size_t shared_memory_page_size_hint_bytes = 0,
+ std::unique_ptr<SharedMemory> shm = nullptr,
+ std::unique_ptr<SharedMemoryArbiter> shm_arbiter = nullptr,
+ CreateSocketAsync create_socket_async = nullptr);
+
+ protected:
+ ProducerIPCClient() = delete;
+};
+
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_TRACING_IPC_PRODUCER_IPC_CLIENT_H_
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef SRC_TRACING_IPC_PRODUCER_PRODUCER_IPC_CLIENT_IMPL_H_
+#define SRC_TRACING_IPC_PRODUCER_PRODUCER_IPC_CLIENT_IMPL_H_
+
+#include <stdint.h>
+
+#include <set>
+#include <vector>
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/thread_checker.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/weak_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/client.h"
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/service_proxy.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/basic_types.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/shared_memory.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/tracing_service.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/ipc/producer_ipc_client.h"
+
+// gen_amalgamated expanded: #include "protos/perfetto/ipc/producer_port.ipc.h"
+
+namespace perfetto {
+
+namespace base {
+class TaskRunner;
+} // namespace base
+
+class Producer;
+class SharedMemoryArbiter;
+
+// Exposes a Service endpoint to Producer(s), proxying all requests through a
+// IPC channel to the remote Service. This class is the glue layer between the
+// generic Service interface exposed to the clients of the library and the
+// actual IPC transport.
+// If create_socket_async is set, it will be called to create and connect to a
+// socket to the service. If unset, the producer will create and connect itself.
+class ProducerIPCClientImpl : public TracingService::ProducerEndpoint,
+ public ipc::ServiceProxy::EventListener {
+ public:
+ ProducerIPCClientImpl(ipc::Client::ConnArgs,
+ Producer*,
+ const std::string& producer_name,
+ base::TaskRunner*,
+ TracingService::ProducerSMBScrapingMode,
+ size_t shared_memory_size_hint_bytes,
+ size_t shared_memory_page_size_hint_bytes,
+ std::unique_ptr<SharedMemory> shm,
+ std::unique_ptr<SharedMemoryArbiter> shm_arbiter,
+ CreateSocketAsync create_socket_async);
+ ~ProducerIPCClientImpl() override;
+
+ // TracingService::ProducerEndpoint implementation.
+ // These methods are invoked by the actual Producer(s) code by clients of the
+ // tracing library, which know nothing about the IPC transport.
+ void Disconnect() override;
+ void RegisterDataSource(const DataSourceDescriptor&) override;
+ void UpdateDataSource(const DataSourceDescriptor&) override;
+ void UnregisterDataSource(const std::string& name) override;
+ void RegisterTraceWriter(uint32_t writer_id, uint32_t target_buffer) override;
+ void UnregisterTraceWriter(uint32_t writer_id) override;
+ void CommitData(const CommitDataRequest&, CommitDataCallback) override;
+ void NotifyDataSourceStarted(DataSourceInstanceID) override;
+ void NotifyDataSourceStopped(DataSourceInstanceID) override;
+ void ActivateTriggers(const std::vector<std::string>&) override;
+ void Sync(std::function<void()> callback) override;
+
+ std::unique_ptr<TraceWriter> CreateTraceWriter(
+ BufferID target_buffer,
+ BufferExhaustedPolicy) override;
+ SharedMemoryArbiter* MaybeSharedMemoryArbiter() override;
+ bool IsShmemProvidedByProducer() const override;
+ void NotifyFlushComplete(FlushRequestID) override;
+ SharedMemory* shared_memory() const override;
+ size_t shared_buffer_page_size_kb() const override;
+
+ // ipc::ServiceProxy::EventListener implementation.
+ // These methods are invoked by the IPC layer, which knows nothing about
+ // tracing, producers and consumers.
+ void OnConnect() override;
+ void OnDisconnect() override;
+
+ ipc::Client* GetClientForTesting() { return ipc_channel_.get(); }
+
+ private:
+ // Drops the provider connection if a protocol error was detected while
+ // processing an IPC command.
+ void ScheduleDisconnect();
+
+ // Invoked soon after having established the connection with the service.
+ void OnConnectionInitialized(bool connection_succeeded,
+ bool using_shmem_provided_by_producer,
+ bool direct_smb_patching_supported,
+ bool use_shmem_emulation);
+
+ // Invoked when the remote Service sends an IPC to tell us to do something
+ // (e.g. start/stop a data source).
+ void OnServiceRequest(const protos::gen::GetAsyncCommandResponse&);
+
+ // TODO think to destruction order, do we rely on any specific dtor sequence?
+ Producer* const producer_;
+ base::TaskRunner* const task_runner_;
+
+ // A callback used to receive the shmem region out of band of the socket.
+ std::function<int(void)> receive_shmem_fd_cb_fuchsia_;
+
+ // The object that owns the client socket and takes care of IPC traffic.
+ std::unique_ptr<ipc::Client> ipc_channel_;
+
+ // The proxy interface for the producer port of the service. It is bound
+ // to |ipc_channel_| and (de)serializes method invocations over the wire.
+ std::unique_ptr<protos::gen::ProducerPortProxy> producer_port_;
+
+ std::unique_ptr<SharedMemory> shared_memory_;
+ std::unique_ptr<SharedMemoryArbiter> shared_memory_arbiter_;
+ size_t shared_buffer_page_size_kb_ = 0;
+ std::set<DataSourceInstanceID> data_sources_setup_;
+ bool connected_ = false;
+ std::string const name_;
+ size_t shared_memory_page_size_hint_bytes_ = 0;
+ size_t shared_memory_size_hint_bytes_ = 0;
+ TracingService::ProducerSMBScrapingMode const smb_scraping_mode_;
+ bool is_shmem_provided_by_producer_ = false;
+ bool direct_smb_patching_supported_ = false;
+ bool use_shmem_emulation_ = false;
+ std::vector<std::function<void()>> pending_sync_reqs_;
+ base::WeakPtrFactory<ProducerIPCClientImpl> weak_factory_{this};
+ PERFETTO_THREAD_CHECKER(thread_checker_)
+};
+
+} // namespace perfetto
+
+#endif // SRC_TRACING_IPC_PRODUCER_PRODUCER_IPC_CLIENT_IMPL_H_
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "src/tracing/ipc/producer/producer_ipc_client_impl.h"
+
+#include <cinttypes>
+
+#include <string.h>
+
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/base/task_runner.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/unix_socket.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/version.h"
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/client.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/commit_data_request.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/producer.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/shared_memory_abi.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/shared_memory_arbiter.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/trace_writer.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/core/data_source_config.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/core/data_source_descriptor.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/core/trace_config.h"
+// gen_amalgamated expanded: #include "src/tracing/core/in_process_shared_memory.h"
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+// gen_amalgamated expanded: #include "src/tracing/ipc/shared_memory_windows.h"
+#else
+// gen_amalgamated expanded: #include "src/tracing/ipc/posix_shared_memory.h"
+#endif
+
+// TODO(fmayer): think to what happens when ProducerIPCClientImpl gets destroyed
+// w.r.t. the Producer pointer. Also think to lifetime of the Producer* during
+// the callbacks.
+
+namespace perfetto {
+
+// static. (Declared in include/tracing/ipc/producer_ipc_client.h).
+std::unique_ptr<TracingService::ProducerEndpoint> ProducerIPCClient::Connect(
+ const char* service_sock_name,
+ Producer* producer,
+ const std::string& producer_name,
+ base::TaskRunner* task_runner,
+ TracingService::ProducerSMBScrapingMode smb_scraping_mode,
+ size_t shared_memory_size_hint_bytes,
+ size_t shared_memory_page_size_hint_bytes,
+ std::unique_ptr<SharedMemory> shm,
+ std::unique_ptr<SharedMemoryArbiter> shm_arbiter,
+ ConnectionFlags conn_flags) {
+ return std::unique_ptr<TracingService::ProducerEndpoint>(
+ new ProducerIPCClientImpl(
+ {service_sock_name,
+ conn_flags ==
+ ProducerIPCClient::ConnectionFlags::kRetryIfUnreachable},
+ producer, producer_name, task_runner, smb_scraping_mode,
+ shared_memory_size_hint_bytes, shared_memory_page_size_hint_bytes,
+ std::move(shm), std::move(shm_arbiter), nullptr));
+}
+
+// static. (Declared in include/tracing/ipc/producer_ipc_client.h).
+std::unique_ptr<TracingService::ProducerEndpoint> ProducerIPCClient::Connect(
+ ipc::Client::ConnArgs conn_args,
+ Producer* producer,
+ const std::string& producer_name,
+ base::TaskRunner* task_runner,
+ TracingService::ProducerSMBScrapingMode smb_scraping_mode,
+ size_t shared_memory_size_hint_bytes,
+ size_t shared_memory_page_size_hint_bytes,
+ std::unique_ptr<SharedMemory> shm,
+ std::unique_ptr<SharedMemoryArbiter> shm_arbiter,
+ CreateSocketAsync create_socket_async) {
+ return std::unique_ptr<TracingService::ProducerEndpoint>(
+ new ProducerIPCClientImpl(
+ std::move(conn_args), producer, producer_name, task_runner,
+ smb_scraping_mode, shared_memory_size_hint_bytes,
+ shared_memory_page_size_hint_bytes, std::move(shm),
+ std::move(shm_arbiter), create_socket_async));
+}
+
+ProducerIPCClientImpl::ProducerIPCClientImpl(
+ ipc::Client::ConnArgs conn_args,
+ Producer* producer,
+ const std::string& producer_name,
+ base::TaskRunner* task_runner,
+ TracingService::ProducerSMBScrapingMode smb_scraping_mode,
+ size_t shared_memory_size_hint_bytes,
+ size_t shared_memory_page_size_hint_bytes,
+ std::unique_ptr<SharedMemory> shm,
+ std::unique_ptr<SharedMemoryArbiter> shm_arbiter,
+ CreateSocketAsync create_socket_async)
+ : producer_(producer),
+ task_runner_(task_runner),
+ receive_shmem_fd_cb_fuchsia_(
+ std::move(conn_args.receive_shmem_fd_cb_fuchsia)),
+ producer_port_(
+ new protos::gen::ProducerPortProxy(this /* event_listener */)),
+ shared_memory_(std::move(shm)),
+ shared_memory_arbiter_(std::move(shm_arbiter)),
+ name_(producer_name),
+ shared_memory_page_size_hint_bytes_(shared_memory_page_size_hint_bytes),
+ shared_memory_size_hint_bytes_(shared_memory_size_hint_bytes),
+ smb_scraping_mode_(smb_scraping_mode) {
+ // Check for producer-provided SMB (used by Chrome for startup tracing).
+ if (shared_memory_) {
+ // We also expect a valid (unbound) arbiter. Bind it to this endpoint now.
+ PERFETTO_CHECK(shared_memory_arbiter_);
+ shared_memory_arbiter_->BindToProducerEndpoint(this, task_runner_);
+
+ // If the service accepts our SMB, then it must match our requested page
+ // layout. The protocol doesn't allow the service to change the size and
+ // layout when the SMB is provided by the producer.
+ shared_buffer_page_size_kb_ = shared_memory_page_size_hint_bytes_ / 1024;
+ }
+
+ if (create_socket_async) {
+ PERFETTO_DCHECK(conn_args.socket_name);
+ auto weak_this = weak_factory_.GetWeakPtr();
+ create_socket_async(
+ [weak_this, task_runner = task_runner_](base::SocketHandle fd) {
+ task_runner->PostTask([weak_this, fd] {
+ base::ScopedSocketHandle handle(fd);
+ if (!weak_this) {
+ return;
+ }
+ ipc::Client::ConnArgs args(std::move(handle));
+ weak_this->ipc_channel_ = ipc::Client::CreateInstance(
+ std::move(args), weak_this->task_runner_);
+ weak_this->ipc_channel_->BindService(
+ weak_this->producer_port_->GetWeakPtr());
+ });
+ });
+ } else {
+ ipc_channel_ =
+ ipc::Client::CreateInstance(std::move(conn_args), task_runner);
+ ipc_channel_->BindService(producer_port_->GetWeakPtr());
+ }
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+}
+
+ProducerIPCClientImpl::~ProducerIPCClientImpl() {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+}
+
+void ProducerIPCClientImpl::Disconnect() {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ if (!producer_port_)
+ return;
+ // Reset the producer port so that no further IPCs are received and IPC
+ // callbacks are no longer executed. Also reset the IPC channel so that the
+ // service is notified of the disconnection.
+ producer_port_.reset();
+ ipc_channel_.reset();
+ // Perform disconnect synchronously.
+ OnDisconnect();
+}
+
+// Called by the IPC layer if the BindService() succeeds.
+void ProducerIPCClientImpl::OnConnect() {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ connected_ = true;
+
+ // The IPC layer guarantees that any outstanding callback will be dropped on
+ // the floor if producer_port_ is destroyed between the request and the reply.
+ // Binding |this| is hence safe.
+ ipc::Deferred<protos::gen::InitializeConnectionResponse> on_init;
+ on_init.Bind(
+ [this](ipc::AsyncResult<protos::gen::InitializeConnectionResponse> resp) {
+ OnConnectionInitialized(
+ resp.success(),
+ resp.success() ? resp->using_shmem_provided_by_producer() : false,
+ resp.success() ? resp->direct_smb_patching_supported() : false,
+ resp.success() ? resp->use_shmem_emulation() : false);
+ });
+ protos::gen::InitializeConnectionRequest req;
+ req.set_producer_name(name_);
+ req.set_shared_memory_size_hint_bytes(
+ static_cast<uint32_t>(shared_memory_size_hint_bytes_));
+ req.set_shared_memory_page_size_hint_bytes(
+ static_cast<uint32_t>(shared_memory_page_size_hint_bytes_));
+ switch (smb_scraping_mode_) {
+ case TracingService::ProducerSMBScrapingMode::kDefault:
+ // No need to set the mode, it defaults to use the service default if
+ // unspecified.
+ break;
+ case TracingService::ProducerSMBScrapingMode::kEnabled:
+ req.set_smb_scraping_mode(
+ protos::gen::InitializeConnectionRequest::SMB_SCRAPING_ENABLED);
+ break;
+ case TracingService::ProducerSMBScrapingMode::kDisabled:
+ req.set_smb_scraping_mode(
+ protos::gen::InitializeConnectionRequest::SMB_SCRAPING_DISABLED);
+ break;
+ }
+
+ int shm_fd = -1;
+ if (shared_memory_) {
+ req.set_producer_provided_shmem(true);
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ auto key = static_cast<SharedMemoryWindows*>(shared_memory_.get())->key();
+ req.set_shm_key_windows(key);
+#else
+ shm_fd = static_cast<PosixSharedMemory*>(shared_memory_.get())->fd();
+#endif
+ }
+
+ req.set_sdk_version(base::GetVersionString());
+ producer_port_->InitializeConnection(req, std::move(on_init), shm_fd);
+
+ // Create the back channel to receive commands from the Service.
+ ipc::Deferred<protos::gen::GetAsyncCommandResponse> on_cmd;
+ on_cmd.Bind(
+ [this](ipc::AsyncResult<protos::gen::GetAsyncCommandResponse> resp) {
+ if (!resp)
+ return; // The IPC channel was closed and |resp| was auto-rejected.
+ OnServiceRequest(*resp);
+ });
+ producer_port_->GetAsyncCommand(protos::gen::GetAsyncCommandRequest(),
+ std::move(on_cmd));
+
+ // If there are pending Sync() requests, send them now.
+ for (const auto& pending_sync : pending_sync_reqs_)
+ Sync(std::move(pending_sync));
+ pending_sync_reqs_.clear();
+}
+
+void ProducerIPCClientImpl::OnDisconnect() {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ PERFETTO_DLOG("Tracing service connection failure");
+ connected_ = false;
+ data_sources_setup_.clear();
+ producer_->OnDisconnect(); // Note: may delete |this|.
+}
+
+void ProducerIPCClientImpl::ScheduleDisconnect() {
+ // |ipc_channel| doesn't allow disconnection in the middle of handling
+ // an IPC call, so the connection drop must take place over two phases.
+
+ // First, synchronously drop the |producer_port_| so that no more IPC
+ // messages are handled.
+ producer_port_.reset();
+
+ // Then schedule an async task for performing the remainder of the
+ // disconnection operations outside the context of the IPC method handler.
+ auto weak_this = weak_factory_.GetWeakPtr();
+ task_runner_->PostTask([weak_this]() {
+ if (weak_this) {
+ weak_this->Disconnect();
+ }
+ });
+}
+
+void ProducerIPCClientImpl::OnConnectionInitialized(
+ bool connection_succeeded,
+ bool using_shmem_provided_by_producer,
+ bool direct_smb_patching_supported,
+ bool use_shmem_emulation) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ // If connection_succeeded == false, the OnDisconnect() call will follow next
+ // and there we'll notify the |producer_|. TODO: add a test for this.
+ if (!connection_succeeded)
+ return;
+ is_shmem_provided_by_producer_ = using_shmem_provided_by_producer;
+ direct_smb_patching_supported_ = direct_smb_patching_supported;
+ // The tracing service may reject using shared memory and tell the client to
+ // commit data over the socket. This can happen when the client connects to
+ // the service via a relay service:
+ // client <-Unix socket-> relay service <- vsock -> tracing service.
+ use_shmem_emulation_ = use_shmem_emulation;
+ producer_->OnConnect();
+
+ // Bail out if the service failed to adopt our producer-allocated SMB.
+ // TODO(eseckler): Handle adoption failure more gracefully.
+ if (shared_memory_ && !is_shmem_provided_by_producer_) {
+ PERFETTO_DLOG("Service failed adopt producer-provided SMB, disconnecting.");
+ Disconnect();
+ return;
+ }
+}
+
+void ProducerIPCClientImpl::OnServiceRequest(
+ const protos::gen::GetAsyncCommandResponse& cmd) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+
+ // This message is sent only when connecting to a service running Android Q+.
+ // See comment below in kStartDataSource.
+ if (cmd.has_setup_data_source()) {
+ const auto& req = cmd.setup_data_source();
+ const DataSourceInstanceID dsid = req.new_instance_id();
+ data_sources_setup_.insert(dsid);
+ producer_->SetupDataSource(dsid, req.config());
+ return;
+ }
+
+ if (cmd.has_start_data_source()) {
+ const auto& req = cmd.start_data_source();
+ const DataSourceInstanceID dsid = req.new_instance_id();
+ const DataSourceConfig& cfg = req.config();
+ if (!data_sources_setup_.count(dsid)) {
+ // When connecting with an older (Android P) service, the service will not
+ // send a SetupDataSource message. We synthesize it here in that case.
+ producer_->SetupDataSource(dsid, cfg);
+ }
+ producer_->StartDataSource(dsid, cfg);
+ return;
+ }
+
+ if (cmd.has_stop_data_source()) {
+ const DataSourceInstanceID dsid = cmd.stop_data_source().instance_id();
+ producer_->StopDataSource(dsid);
+ data_sources_setup_.erase(dsid);
+ return;
+ }
+
+ if (cmd.has_setup_tracing()) {
+ std::unique_ptr<SharedMemory> ipc_shared_memory;
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ const std::string& shm_key = cmd.setup_tracing().shm_key_windows();
+ if (!shm_key.empty())
+ ipc_shared_memory = SharedMemoryWindows::Attach(shm_key);
+#elif PERFETTO_BUILDFLAG(PERFETTO_OS_FUCHSIA)
+ // On Fuchsia, the embedder is responsible for routing the shared memory
+ // FD, which is provided to this code via a blocking callback.
+ PERFETTO_CHECK(receive_shmem_fd_cb_fuchsia_);
+
+ base::ScopedFile shmem_fd(receive_shmem_fd_cb_fuchsia_());
+ if (!shmem_fd) {
+ // Failure to get a shared memory buffer is a protocol violation and
+ // therefore we should drop the Protocol connection.
+ PERFETTO_ELOG("Could not get shared memory FD from embedder.");
+ ScheduleDisconnect();
+ return;
+ }
+
+ ipc_shared_memory =
+ PosixSharedMemory::AttachToFd(std::move(shmem_fd),
+ /*require_seals_if_supported=*/false);
+#else
+ base::ScopedFile shmem_fd = ipc_channel_->TakeReceivedFD();
+ if (shmem_fd) {
+ // TODO(primiano): handle mmap failure in case of OOM.
+ ipc_shared_memory =
+ PosixSharedMemory::AttachToFd(std::move(shmem_fd),
+ /*require_seals_if_supported=*/false);
+ }
+#endif
+ if (use_shmem_emulation_) {
+ PERFETTO_CHECK(!ipc_shared_memory);
+ // Need to create an emulated shmem buffer when the transport deosn't
+ // support it.
+ // TODO(chinglinyu): Let the tracing service decide on the shmem size and
+ // propagate the size in InitializeConnectionResponse.
+ ipc_shared_memory = InProcessSharedMemory::Create(
+ /*size=*/InProcessSharedMemory::kDefaultSize);
+ }
+ if (ipc_shared_memory) {
+ auto shmem_mode = use_shmem_emulation_
+ ? SharedMemoryABI::ShmemMode::kShmemEmulation
+ : SharedMemoryABI::ShmemMode::kDefault;
+ // This is the nominal case used in most configurations, where the service
+ // provides the SMB.
+ PERFETTO_CHECK(!is_shmem_provided_by_producer_ && !shared_memory_);
+ shared_memory_ = std::move(ipc_shared_memory);
+ shared_buffer_page_size_kb_ =
+ cmd.setup_tracing().shared_buffer_page_size_kb();
+ shared_memory_arbiter_ = SharedMemoryArbiter::CreateInstance(
+ shared_memory_.get(), shared_buffer_page_size_kb_ * 1024, shmem_mode,
+ this, task_runner_);
+ if (direct_smb_patching_supported_)
+ shared_memory_arbiter_->SetDirectSMBPatchingSupportedByService();
+ } else {
+ // Producer-provided SMB (used by Chrome for startup tracing).
+ PERFETTO_CHECK(is_shmem_provided_by_producer_ && shared_memory_ &&
+ shared_memory_arbiter_);
+ }
+ producer_->OnTracingSetup();
+ return;
+ }
+
+ if (cmd.has_flush()) {
+ // This cast boilerplate is required only because protobuf uses its own
+ // uint64 and not stdint's uint64_t. On some 64 bit archs they differ on the
+ // type (long vs long long) even though they have the same size.
+ const auto* data_source_ids = cmd.flush().data_source_ids().data();
+ static_assert(sizeof(data_source_ids[0]) == sizeof(DataSourceInstanceID),
+ "data_source_ids should be 64-bit");
+
+ FlushFlags flags(cmd.flush().flags());
+ producer_->Flush(
+ cmd.flush().request_id(),
+ reinterpret_cast<const DataSourceInstanceID*>(data_source_ids),
+ static_cast<size_t>(cmd.flush().data_source_ids().size()), flags);
+ return;
+ }
+
+ if (cmd.has_clear_incremental_state()) {
+ const auto* data_source_ids =
+ cmd.clear_incremental_state().data_source_ids().data();
+ static_assert(sizeof(data_source_ids[0]) == sizeof(DataSourceInstanceID),
+ "data_source_ids should be 64-bit");
+ producer_->ClearIncrementalState(
+ reinterpret_cast<const DataSourceInstanceID*>(data_source_ids),
+ static_cast<size_t>(
+ cmd.clear_incremental_state().data_source_ids().size()));
+ return;
+ }
+
+ PERFETTO_DFATAL("Unknown async request received from tracing service");
+}
+
+void ProducerIPCClientImpl::RegisterDataSource(
+ const DataSourceDescriptor& descriptor) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ if (!connected_) {
+ PERFETTO_DLOG(
+ "Cannot RegisterDataSource(), not connected to tracing service");
+ }
+ protos::gen::RegisterDataSourceRequest req;
+ *req.mutable_data_source_descriptor() = descriptor;
+ ipc::Deferred<protos::gen::RegisterDataSourceResponse> async_response;
+ async_response.Bind(
+ [](ipc::AsyncResult<protos::gen::RegisterDataSourceResponse> response) {
+ if (!response)
+ PERFETTO_DLOG("RegisterDataSource() failed: connection reset");
+ });
+ producer_port_->RegisterDataSource(req, std::move(async_response));
+}
+
+void ProducerIPCClientImpl::UpdateDataSource(
+ const DataSourceDescriptor& descriptor) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ if (!connected_) {
+ PERFETTO_DLOG(
+ "Cannot UpdateDataSource(), not connected to tracing service");
+ }
+ protos::gen::UpdateDataSourceRequest req;
+ *req.mutable_data_source_descriptor() = descriptor;
+ ipc::Deferred<protos::gen::UpdateDataSourceResponse> async_response;
+ async_response.Bind(
+ [](ipc::AsyncResult<protos::gen::UpdateDataSourceResponse> response) {
+ if (!response)
+ PERFETTO_DLOG("UpdateDataSource() failed: connection reset");
+ });
+ producer_port_->UpdateDataSource(req, std::move(async_response));
+}
+
+void ProducerIPCClientImpl::UnregisterDataSource(const std::string& name) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ if (!connected_) {
+ PERFETTO_DLOG(
+ "Cannot UnregisterDataSource(), not connected to tracing service");
+ return;
+ }
+ protos::gen::UnregisterDataSourceRequest req;
+ req.set_data_source_name(name);
+ producer_port_->UnregisterDataSource(
+ req, ipc::Deferred<protos::gen::UnregisterDataSourceResponse>());
+}
+
+void ProducerIPCClientImpl::RegisterTraceWriter(uint32_t writer_id,
+ uint32_t target_buffer) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ if (!connected_) {
+ PERFETTO_DLOG(
+ "Cannot RegisterTraceWriter(), not connected to tracing service");
+ return;
+ }
+ protos::gen::RegisterTraceWriterRequest req;
+ req.set_trace_writer_id(writer_id);
+ req.set_target_buffer(target_buffer);
+ producer_port_->RegisterTraceWriter(
+ req, ipc::Deferred<protos::gen::RegisterTraceWriterResponse>());
+}
+
+void ProducerIPCClientImpl::UnregisterTraceWriter(uint32_t writer_id) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ if (!connected_) {
+ PERFETTO_DLOG(
+ "Cannot UnregisterTraceWriter(), not connected to tracing service");
+ return;
+ }
+ protos::gen::UnregisterTraceWriterRequest req;
+ req.set_trace_writer_id(writer_id);
+ producer_port_->UnregisterTraceWriter(
+ req, ipc::Deferred<protos::gen::UnregisterTraceWriterResponse>());
+}
+
+void ProducerIPCClientImpl::CommitData(const CommitDataRequest& req,
+ CommitDataCallback callback) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ if (!connected_) {
+ PERFETTO_DLOG("Cannot CommitData(), not connected to tracing service");
+ return;
+ }
+ ipc::Deferred<protos::gen::CommitDataResponse> async_response;
+ // TODO(primiano): add a test that destroys ProducerIPCClientImpl soon after
+ // this call and checks that the callback is dropped.
+ if (callback) {
+ async_response.Bind(
+ [callback](ipc::AsyncResult<protos::gen::CommitDataResponse> response) {
+ if (!response) {
+ PERFETTO_DLOG("CommitData() failed: connection reset");
+ return;
+ }
+ callback();
+ });
+ }
+ producer_port_->CommitData(req, std::move(async_response));
+}
+
+void ProducerIPCClientImpl::NotifyDataSourceStarted(DataSourceInstanceID id) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ if (!connected_) {
+ PERFETTO_DLOG(
+ "Cannot NotifyDataSourceStarted(), not connected to tracing service");
+ return;
+ }
+ protos::gen::NotifyDataSourceStartedRequest req;
+ req.set_data_source_id(id);
+ producer_port_->NotifyDataSourceStarted(
+ req, ipc::Deferred<protos::gen::NotifyDataSourceStartedResponse>());
+}
+
+void ProducerIPCClientImpl::NotifyDataSourceStopped(DataSourceInstanceID id) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ if (!connected_) {
+ PERFETTO_DLOG(
+ "Cannot NotifyDataSourceStopped(), not connected to tracing service");
+ return;
+ }
+ protos::gen::NotifyDataSourceStoppedRequest req;
+ req.set_data_source_id(id);
+ producer_port_->NotifyDataSourceStopped(
+ req, ipc::Deferred<protos::gen::NotifyDataSourceStoppedResponse>());
+}
+
+void ProducerIPCClientImpl::ActivateTriggers(
+ const std::vector<std::string>& triggers) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ if (!connected_) {
+ PERFETTO_DLOG(
+ "Cannot ActivateTriggers(), not connected to tracing service");
+ return;
+ }
+ protos::gen::ActivateTriggersRequest proto_req;
+ for (const auto& name : triggers) {
+ *proto_req.add_trigger_names() = name;
+ }
+ producer_port_->ActivateTriggers(
+ proto_req, ipc::Deferred<protos::gen::ActivateTriggersResponse>());
+}
+
+void ProducerIPCClientImpl::Sync(std::function<void()> callback) {
+ PERFETTO_DCHECK_THREAD(thread_checker_);
+ if (!connected_) {
+ pending_sync_reqs_.emplace_back(std::move(callback));
+ return;
+ }
+ ipc::Deferred<protos::gen::SyncResponse> resp;
+ resp.Bind([callback](ipc::AsyncResult<protos::gen::SyncResponse>) {
+ // Here we ACK the callback even if the service replies with a failure
+ // (i.e. the service is too old and doesn't understand Sync()). In that
+ // case the service has still seen the request, the IPC roundtrip is
+ // still a (weaker) linearization fence.
+ callback();
+ });
+ producer_port_->Sync(protos::gen::SyncRequest(), std::move(resp));
+}
+
+std::unique_ptr<TraceWriter> ProducerIPCClientImpl::CreateTraceWriter(
+ BufferID target_buffer,
+ BufferExhaustedPolicy buffer_exhausted_policy) {
+ // This method can be called by different threads. |shared_memory_arbiter_| is
+ // thread-safe but be aware of accessing any other state in this function.
+ return shared_memory_arbiter_->CreateTraceWriter(target_buffer,
+ buffer_exhausted_policy);
+}
+
+SharedMemoryArbiter* ProducerIPCClientImpl::MaybeSharedMemoryArbiter() {
+ return shared_memory_arbiter_.get();
+}
+
+bool ProducerIPCClientImpl::IsShmemProvidedByProducer() const {
+ return is_shmem_provided_by_producer_;
+}
+
+void ProducerIPCClientImpl::NotifyFlushComplete(FlushRequestID req_id) {
+ return shared_memory_arbiter_->NotifyFlushComplete(req_id);
+}
+
+SharedMemory* ProducerIPCClientImpl::shared_memory() const {
+ return shared_memory_.get();
+}
+
+size_t ProducerIPCClientImpl::shared_buffer_page_size_kb() const {
+ return shared_buffer_page_size_kb_;
+}
+
+} // namespace perfetto
+// gen_amalgamated begin source: src/tracing/ipc/service/consumer_ipc_service.cc
+// gen_amalgamated begin header: src/tracing/ipc/service/consumer_ipc_service.h
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef SRC_TRACING_IPC_SERVICE_CONSUMER_IPC_SERVICE_H_
+#define SRC_TRACING_IPC_SERVICE_CONSUMER_IPC_SERVICE_H_
+
+#include <list>
+#include <map>
+#include <memory>
+#include <string>
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/weak_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/basic_types.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/consumer.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/tracing_service.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/core/forward_decls.h"
+// gen_amalgamated expanded: #include "protos/perfetto/ipc/consumer_port.ipc.h"
+
+namespace perfetto {
+
+namespace ipc {
+class Host;
+} // namespace ipc
+
+// Implements the Consumer port of the IPC service. This class proxies requests
+// and responses between the core service logic (|svc_|) and remote Consumer(s)
+// on the IPC socket, through the methods overriddden from ConsumerPort.
+class ConsumerIPCService : public protos::gen::ConsumerPort {
+ public:
+ explicit ConsumerIPCService(TracingService* core_service);
+ ~ConsumerIPCService() override;
+
+ // ConsumerPort implementation (from .proto IPC definition).
+ void EnableTracing(const protos::gen::EnableTracingRequest&,
+ DeferredEnableTracingResponse) override;
+ void StartTracing(const protos::gen::StartTracingRequest&,
+ DeferredStartTracingResponse) override;
+ void ChangeTraceConfig(const protos::gen::ChangeTraceConfigRequest&,
+ DeferredChangeTraceConfigResponse) override;
+ void DisableTracing(const protos::gen::DisableTracingRequest&,
+ DeferredDisableTracingResponse) override;
+ void ReadBuffers(const protos::gen::ReadBuffersRequest&,
+ DeferredReadBuffersResponse) override;
+ void FreeBuffers(const protos::gen::FreeBuffersRequest&,
+ DeferredFreeBuffersResponse) override;
+ void Flush(const protos::gen::FlushRequest&, DeferredFlushResponse) override;
+ void Detach(const protos::gen::DetachRequest&,
+ DeferredDetachResponse) override;
+ void Attach(const protos::gen::AttachRequest&,
+ DeferredAttachResponse) override;
+ void GetTraceStats(const protos::gen::GetTraceStatsRequest&,
+ DeferredGetTraceStatsResponse) override;
+ void ObserveEvents(const protos::gen::ObserveEventsRequest&,
+ DeferredObserveEventsResponse) override;
+ void QueryServiceState(const protos::gen::QueryServiceStateRequest&,
+ DeferredQueryServiceStateResponse) override;
+ void QueryCapabilities(const protos::gen::QueryCapabilitiesRequest&,
+ DeferredQueryCapabilitiesResponse) override;
+ void SaveTraceForBugreport(const protos::gen::SaveTraceForBugreportRequest&,
+ DeferredSaveTraceForBugreportResponse) override;
+ void CloneSession(const protos::gen::CloneSessionRequest&,
+ DeferredCloneSessionResponse) override;
+ void OnClientDisconnected() override;
+
+ private:
+ // Acts like a Consumer with the core Service business logic (which doesn't
+ // know anything about the remote transport), but all it does is proxying
+ // methods to the remote Consumer on the other side of the IPC channel.
+ class RemoteConsumer : public Consumer {
+ public:
+ RemoteConsumer();
+ ~RemoteConsumer() override;
+
+ // These methods are called by the |core_service_| business logic. There is
+ // no connection here, these methods are posted straight away.
+ void OnConnect() override;
+ void OnDisconnect() override;
+ void OnTracingDisabled(const std::string& error) override;
+ void OnTraceData(std::vector<TracePacket>, bool has_more) override;
+ void OnDetach(bool) override;
+ void OnAttach(bool, const TraceConfig&) override;
+ void OnTraceStats(bool, const TraceStats&) override;
+ void OnObservableEvents(const ObservableEvents&) override;
+ void OnSessionCloned(const OnSessionClonedArgs&) override;
+
+ void CloseObserveEventsResponseStream();
+
+ // The interface obtained from the core service business logic through
+ // TracingService::ConnectConsumer(this). This allows to invoke methods for
+ // a specific Consumer on the Service business logic.
+ std::unique_ptr<TracingService::ConsumerEndpoint> service_endpoint;
+
+ // After ReadBuffers() is invoked, this binds the async callback that
+ // allows to stream trace packets back to the client.
+ DeferredReadBuffersResponse read_buffers_response;
+
+ // After EnableTracing() is invoked, this binds the async callback that
+ // allows to send the OnTracingDisabled notification.
+ DeferredEnableTracingResponse enable_tracing_response;
+
+ // After Detach() is invoked, this binds the async callback that allows to
+ // send the session id to the consumer.
+ DeferredDetachResponse detach_response;
+
+ // As above, but for the Attach() case.
+ DeferredAttachResponse attach_response;
+
+ // As above, but for GetTraceStats().
+ DeferredGetTraceStatsResponse get_trace_stats_response;
+
+ // As above, but for CloneSession().
+ DeferredCloneSessionResponse clone_session_response;
+
+ // After ObserveEvents() is invoked, this binds the async callback that
+ // allows to stream ObservableEvents back to the client.
+ DeferredObserveEventsResponse observe_events_response;
+ };
+
+ // This has to be a container that doesn't invalidate iterators.
+ using PendingFlushResponses = std::list<DeferredFlushResponse>;
+ using PendingQuerySvcResponses = std::list<DeferredQueryServiceStateResponse>;
+ using PendingQueryCapabilitiesResponses =
+ std::list<DeferredQueryCapabilitiesResponse>;
+ using PendingSaveTraceForBugreportResponses =
+ std::list<DeferredSaveTraceForBugreportResponse>;
+
+ ConsumerIPCService(const ConsumerIPCService&) = delete;
+ ConsumerIPCService& operator=(const ConsumerIPCService&) = delete;
+
+ // Returns the ConsumerEndpoint in the core business logic that corresponds to
+ // the current IPC request.
+ RemoteConsumer* GetConsumerForCurrentRequest();
+
+ void OnFlushCallback(bool success, PendingFlushResponses::iterator);
+ void OnQueryServiceCallback(bool success,
+ const TracingServiceState&,
+ PendingQuerySvcResponses::iterator);
+ void OnQueryCapabilitiesCallback(const TracingServiceCapabilities&,
+ PendingQueryCapabilitiesResponses::iterator);
+ void OnSaveTraceForBugreportCallback(
+ bool success,
+ const std::string& msg,
+ PendingSaveTraceForBugreportResponses::iterator);
+
+ TracingService* const core_service_;
+
+ // Maps IPC clients to ConsumerEndpoint instances registered on the
+ // |core_service_| business logic.
+ std::map<ipc::ClientID, std::unique_ptr<RemoteConsumer>> consumers_;
+
+ PendingFlushResponses pending_flush_responses_;
+ PendingQuerySvcResponses pending_query_service_responses_;
+ PendingQueryCapabilitiesResponses pending_query_capabilities_responses_;
+ PendingSaveTraceForBugreportResponses pending_bugreport_responses_;
+
+ base::WeakPtrFactory<ConsumerIPCService> weak_ptr_factory_; // Keep last.
+};
+
+} // namespace perfetto
+
+#endif // SRC_TRACING_IPC_SERVICE_CONSUMER_IPC_SERVICE_H_
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "src/tracing/ipc/service/consumer_ipc_service.h"
+
+#include <cinttypes>
+
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/base/task_runner.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/scoped_file.h"
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/basic_types.h"
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/host.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/shared_memory_abi.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/slice.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/trace_packet.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/trace_stats.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/tracing_service.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/core/trace_config.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/core/tracing_service_capabilities.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/core/tracing_service_state.h"
+
+namespace perfetto {
+
+ConsumerIPCService::ConsumerIPCService(TracingService* core_service)
+ : core_service_(core_service), weak_ptr_factory_(this) {}
+
+ConsumerIPCService::~ConsumerIPCService() = default;
+
+ConsumerIPCService::RemoteConsumer*
+ConsumerIPCService::GetConsumerForCurrentRequest() {
+ const ipc::ClientID ipc_client_id = ipc::Service::client_info().client_id();
+ const uid_t uid = ipc::Service::client_info().uid();
+ PERFETTO_CHECK(ipc_client_id);
+ auto it = consumers_.find(ipc_client_id);
+ if (it == consumers_.end()) {
+ auto* remote_consumer = new RemoteConsumer();
+ consumers_[ipc_client_id].reset(remote_consumer);
+ remote_consumer->service_endpoint =
+ core_service_->ConnectConsumer(remote_consumer, uid);
+ return remote_consumer;
+ }
+ return it->second.get();
+}
+
+// Called by the IPC layer.
+void ConsumerIPCService::OnClientDisconnected() {
+ ipc::ClientID client_id = ipc::Service::client_info().client_id();
+ consumers_.erase(client_id);
+}
+
+// Called by the IPC layer.
+void ConsumerIPCService::EnableTracing(
+ const protos::gen::EnableTracingRequest& req,
+ DeferredEnableTracingResponse resp) {
+ RemoteConsumer* remote_consumer = GetConsumerForCurrentRequest();
+ if (req.attach_notification_only()) {
+ remote_consumer->enable_tracing_response = std::move(resp);
+ return;
+ }
+ const TraceConfig& trace_config = req.trace_config();
+ base::ScopedFile fd;
+ if (trace_config.write_into_file() && trace_config.output_path().empty())
+ fd = ipc::Service::TakeReceivedFD();
+ remote_consumer->service_endpoint->EnableTracing(trace_config, std::move(fd));
+ remote_consumer->enable_tracing_response = std::move(resp);
+}
+
+// Called by the IPC layer.
+void ConsumerIPCService::StartTracing(const protos::gen::StartTracingRequest&,
+ DeferredStartTracingResponse resp) {
+ RemoteConsumer* remote_consumer = GetConsumerForCurrentRequest();
+ remote_consumer->service_endpoint->StartTracing();
+ resp.Resolve(ipc::AsyncResult<protos::gen::StartTracingResponse>::Create());
+}
+
+// Called by the IPC layer.
+void ConsumerIPCService::ChangeTraceConfig(
+ const protos::gen::ChangeTraceConfigRequest& req,
+ DeferredChangeTraceConfigResponse resp) {
+ RemoteConsumer* remote_consumer = GetConsumerForCurrentRequest();
+ remote_consumer->service_endpoint->ChangeTraceConfig(req.trace_config());
+ resp.Resolve(
+ ipc::AsyncResult<protos::gen::ChangeTraceConfigResponse>::Create());
+}
+
+// Called by the IPC layer.
+void ConsumerIPCService::DisableTracing(
+ const protos::gen::DisableTracingRequest&,
+ DeferredDisableTracingResponse resp) {
+ GetConsumerForCurrentRequest()->service_endpoint->DisableTracing();
+ resp.Resolve(ipc::AsyncResult<protos::gen::DisableTracingResponse>::Create());
+}
+
+// Called by the IPC layer.
+void ConsumerIPCService::ReadBuffers(const protos::gen::ReadBuffersRequest&,
+ DeferredReadBuffersResponse resp) {
+ RemoteConsumer* remote_consumer = GetConsumerForCurrentRequest();
+ remote_consumer->read_buffers_response = std::move(resp);
+ remote_consumer->service_endpoint->ReadBuffers();
+}
+
+// Called by the IPC layer.
+void ConsumerIPCService::FreeBuffers(const protos::gen::FreeBuffersRequest&,
+ DeferredFreeBuffersResponse resp) {
+ GetConsumerForCurrentRequest()->service_endpoint->FreeBuffers();
+ resp.Resolve(ipc::AsyncResult<protos::gen::FreeBuffersResponse>::Create());
+}
+
+// Called by the IPC layer.
+void ConsumerIPCService::Flush(const protos::gen::FlushRequest& req,
+ DeferredFlushResponse resp) {
+ auto it = pending_flush_responses_.insert(pending_flush_responses_.end(),
+ std::move(resp));
+ auto weak_this = weak_ptr_factory_.GetWeakPtr();
+ auto callback = [weak_this, it](bool success) {
+ if (weak_this)
+ weak_this->OnFlushCallback(success, std::move(it));
+ };
+ FlushFlags flags(req.flags());
+ GetConsumerForCurrentRequest()->service_endpoint->Flush(
+ req.timeout_ms(), std::move(callback), flags);
+}
+
+// Called by the IPC layer.
+void ConsumerIPCService::Detach(const protos::gen::DetachRequest& req,
+ DeferredDetachResponse resp) {
+ // OnDetach() will resolve the |detach_response|.
+ RemoteConsumer* remote_consumer = GetConsumerForCurrentRequest();
+ remote_consumer->detach_response = std::move(resp);
+ remote_consumer->service_endpoint->Detach(req.key());
+}
+
+// Called by the IPC layer.
+void ConsumerIPCService::Attach(const protos::gen::AttachRequest& req,
+ DeferredAttachResponse resp) {
+ // OnAttach() will resolve the |attach_response|.
+ RemoteConsumer* remote_consumer = GetConsumerForCurrentRequest();
+ remote_consumer->attach_response = std::move(resp);
+ remote_consumer->service_endpoint->Attach(req.key());
+}
+
+// Called by the IPC layer.
+void ConsumerIPCService::GetTraceStats(const protos::gen::GetTraceStatsRequest&,
+ DeferredGetTraceStatsResponse resp) {
+ // OnTraceStats() will resolve the |get_trace_stats_response|.
+ RemoteConsumer* remote_consumer = GetConsumerForCurrentRequest();
+ remote_consumer->get_trace_stats_response = std::move(resp);
+ remote_consumer->service_endpoint->GetTraceStats();
+}
+
+// Called by the IPC layer.
+void ConsumerIPCService::ObserveEvents(
+ const protos::gen::ObserveEventsRequest& req,
+ DeferredObserveEventsResponse resp) {
+ RemoteConsumer* remote_consumer = GetConsumerForCurrentRequest();
+
+ // If there's a prior stream, close it so that client can clean it up.
+ remote_consumer->CloseObserveEventsResponseStream();
+
+ remote_consumer->observe_events_response = std::move(resp);
+
+ uint32_t events_mask = 0;
+ for (const auto& type : req.events_to_observe()) {
+ events_mask |= static_cast<uint32_t>(type);
+ }
+ remote_consumer->service_endpoint->ObserveEvents(events_mask);
+
+ // If no events are to be observed, close the stream immediately so that the
+ // client can clean up.
+ if (events_mask == 0)
+ remote_consumer->CloseObserveEventsResponseStream();
+}
+
+// Called by the IPC layer.
+void ConsumerIPCService::QueryServiceState(
+ const protos::gen::QueryServiceStateRequest& req,
+ DeferredQueryServiceStateResponse resp) {
+ RemoteConsumer* remote_consumer = GetConsumerForCurrentRequest();
+ auto it = pending_query_service_responses_.insert(
+ pending_query_service_responses_.end(), std::move(resp));
+ auto weak_this = weak_ptr_factory_.GetWeakPtr();
+ auto callback = [weak_this, it](bool success,
+ const TracingServiceState& svc_state) {
+ if (weak_this)
+ weak_this->OnQueryServiceCallback(success, svc_state, std::move(it));
+ };
+ ConsumerEndpoint::QueryServiceStateArgs args;
+ args.sessions_only = req.sessions_only();
+ remote_consumer->service_endpoint->QueryServiceState(args, callback);
+}
+
+// Called by the service in response to service_endpoint->QueryServiceState().
+void ConsumerIPCService::OnQueryServiceCallback(
+ bool success,
+ const TracingServiceState& svc_state,
+ PendingQuerySvcResponses::iterator pending_response_it) {
+ DeferredQueryServiceStateResponse response(std::move(*pending_response_it));
+ pending_query_service_responses_.erase(pending_response_it);
+ if (!success) {
+ response.Reject();
+ return;
+ }
+
+ // The TracingServiceState object might be too big to fit into a single IPC
+ // message because it contains the DataSourceDescriptor of each data source.
+ // Here we split it in chunks to fit in the IPC limit, observing the
+ // following rule: each chunk must be invididually a valid TracingServiceState
+ // message; all the chunks concatenated together must form the original
+ // message. This is to deal with the legacy API that was just sending one
+ // whole message (failing in presence of too many data sources, b/153142114).
+ // The message is split as follows: we take the whole TracingServiceState,
+ // take out the data sources section (which is a top-level repeated field)
+ // and re-add them one-by-one. If, in the process of appending, the IPC msg
+ // size is reached, a new chunk is created. This assumes that the rest of
+ // TracingServiceState fits in one IPC message and each DataSourceDescriptor
+ // fits in the worst case in a dedicated message (which is true, because
+ // otherwise the RegisterDataSource() which passes the descriptor in the first
+ // place would fail).
+
+ std::vector<uint8_t> chunked_reply;
+
+ // Transmits the current chunk and starts a new one.
+ bool sent_eof = false;
+ auto send_chunked_reply = [&chunked_reply, &response,
+ &sent_eof](bool has_more) {
+ PERFETTO_CHECK(!sent_eof);
+ sent_eof = !has_more;
+ auto resp =
+ ipc::AsyncResult<protos::gen::QueryServiceStateResponse>::Create();
+ resp.set_has_more(has_more);
+ PERFETTO_CHECK(resp->mutable_service_state()->ParseFromArray(
+ chunked_reply.data(), chunked_reply.size()));
+ chunked_reply.clear();
+ response.Resolve(std::move(resp));
+ };
+
+ // Create a copy of the whole response and cut away the data_sources section.
+ protos::gen::TracingServiceState svc_state_copy = svc_state;
+ auto data_sources = std::move(*svc_state_copy.mutable_data_sources());
+ chunked_reply = svc_state_copy.SerializeAsArray();
+
+ // Now re-add them fitting within the IPC message limits (- some margin for
+ // the outer IPC frame).
+ constexpr size_t kMaxMsgSize = ipc::kIPCBufferSize - 128;
+ for (const auto& data_source : data_sources) {
+ protos::gen::TracingServiceState tmp;
+ tmp.mutable_data_sources()->emplace_back(std::move(data_source));
+ std::vector<uint8_t> chunk = tmp.SerializeAsArray();
+ if (chunked_reply.size() + chunk.size() < kMaxMsgSize) {
+ chunked_reply.insert(chunked_reply.end(), chunk.begin(), chunk.end());
+ } else {
+ send_chunked_reply(/*has_more=*/true);
+ chunked_reply = std::move(chunk);
+ }
+ }
+
+ PERFETTO_DCHECK(!chunked_reply.empty());
+ send_chunked_reply(/*has_more=*/false);
+ PERFETTO_CHECK(sent_eof);
+}
+
+// Called by the service in response to a service_endpoint->Flush() request.
+void ConsumerIPCService::OnFlushCallback(
+ bool success,
+ PendingFlushResponses::iterator pending_response_it) {
+ DeferredFlushResponse response(std::move(*pending_response_it));
+ pending_flush_responses_.erase(pending_response_it);
+ if (success) {
+ response.Resolve(ipc::AsyncResult<protos::gen::FlushResponse>::Create());
+ } else {
+ response.Reject();
+ }
+}
+
+void ConsumerIPCService::QueryCapabilities(
+ const protos::gen::QueryCapabilitiesRequest&,
+ DeferredQueryCapabilitiesResponse resp) {
+ RemoteConsumer* remote_consumer = GetConsumerForCurrentRequest();
+ auto it = pending_query_capabilities_responses_.insert(
+ pending_query_capabilities_responses_.end(), std::move(resp));
+ auto weak_this = weak_ptr_factory_.GetWeakPtr();
+ auto callback = [weak_this, it](const TracingServiceCapabilities& caps) {
+ if (weak_this)
+ weak_this->OnQueryCapabilitiesCallback(caps, std::move(it));
+ };
+ remote_consumer->service_endpoint->QueryCapabilities(callback);
+}
+
+// Called by the service in response to service_endpoint->QueryCapabilities().
+void ConsumerIPCService::OnQueryCapabilitiesCallback(
+ const TracingServiceCapabilities& caps,
+ PendingQueryCapabilitiesResponses::iterator pending_response_it) {
+ DeferredQueryCapabilitiesResponse response(std::move(*pending_response_it));
+ pending_query_capabilities_responses_.erase(pending_response_it);
+ auto resp =
+ ipc::AsyncResult<protos::gen::QueryCapabilitiesResponse>::Create();
+ *resp->mutable_capabilities() = caps;
+ response.Resolve(std::move(resp));
+}
+
+void ConsumerIPCService::SaveTraceForBugreport(
+ const protos::gen::SaveTraceForBugreportRequest&,
+ DeferredSaveTraceForBugreportResponse resp) {
+ RemoteConsumer* remote_consumer = GetConsumerForCurrentRequest();
+ auto it = pending_bugreport_responses_.insert(
+ pending_bugreport_responses_.end(), std::move(resp));
+ auto weak_this = weak_ptr_factory_.GetWeakPtr();
+ auto callback = [weak_this, it](bool success, const std::string& msg) {
+ if (weak_this)
+ weak_this->OnSaveTraceForBugreportCallback(success, msg, std::move(it));
+ };
+ remote_consumer->service_endpoint->SaveTraceForBugreport(callback);
+}
+
+void ConsumerIPCService::CloneSession(
+ const protos::gen::CloneSessionRequest& req,
+ DeferredCloneSessionResponse resp) {
+ RemoteConsumer* remote_consumer = GetConsumerForCurrentRequest();
+ remote_consumer->clone_session_response = std::move(resp);
+ ConsumerEndpoint::CloneSessionArgs args;
+ args.skip_trace_filter = req.skip_trace_filter();
+ args.for_bugreport = req.for_bugreport();
+ remote_consumer->service_endpoint->CloneSession(req.session_id(),
+ std::move(args));
+}
+
+// Called by the service in response to
+// service_endpoint->SaveTraceForBugreport().
+void ConsumerIPCService::OnSaveTraceForBugreportCallback(
+ bool success,
+ const std::string& msg,
+ PendingSaveTraceForBugreportResponses::iterator pending_response_it) {
+ DeferredSaveTraceForBugreportResponse response(
+ std::move(*pending_response_it));
+ pending_bugreport_responses_.erase(pending_response_it);
+ auto resp =
+ ipc::AsyncResult<protos::gen::SaveTraceForBugreportResponse>::Create();
+ resp->set_success(success);
+ resp->set_msg(msg);
+ response.Resolve(std::move(resp));
+}
+
+////////////////////////////////////////////////////////////////////////////////
+// RemoteConsumer methods
+////////////////////////////////////////////////////////////////////////////////
+
+ConsumerIPCService::RemoteConsumer::RemoteConsumer() = default;
+ConsumerIPCService::RemoteConsumer::~RemoteConsumer() = default;
+
+// Invoked by the |core_service_| business logic after the ConnectConsumer()
+// call. There is nothing to do here, we really expected the ConnectConsumer()
+// to just work in the local case.
+void ConsumerIPCService::RemoteConsumer::OnConnect() {}
+
+// Invoked by the |core_service_| business logic after we destroy the
+// |service_endpoint| (in the RemoteConsumer dtor).
+void ConsumerIPCService::RemoteConsumer::OnDisconnect() {}
+
+void ConsumerIPCService::RemoteConsumer::OnTracingDisabled(
+ const std::string& error) {
+ if (enable_tracing_response.IsBound()) {
+ auto result =
+ ipc::AsyncResult<protos::gen::EnableTracingResponse>::Create();
+ result->set_disabled(true);
+ if (!error.empty())
+ result->set_error(error);
+ enable_tracing_response.Resolve(std::move(result));
+ }
+}
+
+void ConsumerIPCService::RemoteConsumer::OnTraceData(
+ std::vector<TracePacket> trace_packets,
+ bool has_more) {
+ if (!read_buffers_response.IsBound())
+ return;
+
+ auto result = ipc::AsyncResult<protos::gen::ReadBuffersResponse>::Create();
+
+ // A TracePacket might be too big to fit into a single IPC message (max
+ // kIPCBufferSize). However a TracePacket is made of slices and each slice
+ // is way smaller than kIPCBufferSize (a slice size is effectively bounded by
+ // the max chunk size of the SharedMemoryABI). When sending a TracePacket,
+ // if its slices don't fit within one IPC, chunk them over several contiguous
+ // IPCs using the |last_slice_for_packet| for glueing on the other side.
+ static_assert(ipc::kIPCBufferSize >= SharedMemoryABI::kMaxPageSize * 2,
+ "kIPCBufferSize too small given the max possible slice size");
+
+ auto send_ipc_reply = [this, &result](bool more) {
+ result.set_has_more(more);
+ read_buffers_response.Resolve(std::move(result));
+ result = ipc::AsyncResult<protos::gen::ReadBuffersResponse>::Create();
+ };
+
+ size_t approx_reply_size = 0;
+ for (const TracePacket& trace_packet : trace_packets) {
+ size_t num_slices_left_for_packet = trace_packet.slices().size();
+ for (const Slice& slice : trace_packet.slices()) {
+ // Check if this slice would cause the IPC to overflow its max size and,
+ // if that is the case, split the IPCs. The "16" and "64" below are
+ // over-estimations of, respectively:
+ // 16: the preamble that prefixes each slice (there are 2 x size fields
+ // in the proto + the |last_slice_for_packet| bool).
+ // 64: the overhead of the IPC InvokeMethodReply + wire_protocol's frame.
+ // If these estimations are wrong, BufferedFrameDeserializer::Serialize()
+ // will hit a DCHECK anyways.
+ const size_t approx_slice_size = slice.size + 16;
+ if (approx_reply_size + approx_slice_size > ipc::kIPCBufferSize - 64) {
+ // If we hit this CHECK we got a single slice that is > kIPCBufferSize.
+ PERFETTO_CHECK(result->slices_size() > 0);
+ send_ipc_reply(/*has_more=*/true);
+ approx_reply_size = 0;
+ }
+ approx_reply_size += approx_slice_size;
+
+ auto* res_slice = result->add_slices();
+ res_slice->set_last_slice_for_packet(--num_slices_left_for_packet == 0);
+ res_slice->set_data(slice.start, slice.size);
+ }
+ }
+ send_ipc_reply(has_more);
+}
+
+void ConsumerIPCService::RemoteConsumer::OnDetach(bool success) {
+ if (!success) {
+ std::move(detach_response).Reject();
+ return;
+ }
+ auto resp = ipc::AsyncResult<protos::gen::DetachResponse>::Create();
+ std::move(detach_response).Resolve(std::move(resp));
+}
+
+void ConsumerIPCService::RemoteConsumer::OnAttach(
+ bool success,
+ const TraceConfig& trace_config) {
+ if (!success) {
+ std::move(attach_response).Reject();
+ return;
+ }
+ auto response = ipc::AsyncResult<protos::gen::AttachResponse>::Create();
+ *response->mutable_trace_config() = trace_config;
+ std::move(attach_response).Resolve(std::move(response));
+}
+
+void ConsumerIPCService::RemoteConsumer::OnTraceStats(bool success,
+ const TraceStats& stats) {
+ if (!success) {
+ std::move(get_trace_stats_response).Reject();
+ return;
+ }
+ auto response =
+ ipc::AsyncResult<protos::gen::GetTraceStatsResponse>::Create();
+ *response->mutable_trace_stats() = stats;
+ std::move(get_trace_stats_response).Resolve(std::move(response));
+}
+
+void ConsumerIPCService::RemoteConsumer::OnObservableEvents(
+ const ObservableEvents& events) {
+ if (!observe_events_response.IsBound())
+ return;
+
+ auto result = ipc::AsyncResult<protos::gen::ObserveEventsResponse>::Create();
+ result.set_has_more(true);
+ *result->mutable_events() = events;
+ observe_events_response.Resolve(std::move(result));
+}
+
+void ConsumerIPCService::RemoteConsumer::CloseObserveEventsResponseStream() {
+ if (!observe_events_response.IsBound())
+ return;
+
+ auto result = ipc::AsyncResult<protos::gen::ObserveEventsResponse>::Create();
+ result.set_has_more(false);
+ observe_events_response.Resolve(std::move(result));
+}
+
+void ConsumerIPCService::RemoteConsumer::OnSessionCloned(
+ const OnSessionClonedArgs& args) {
+ if (!clone_session_response.IsBound())
+ return;
+
+ auto resp = ipc::AsyncResult<protos::gen::CloneSessionResponse>::Create();
+ resp->set_success(args.success);
+ resp->set_error(args.error);
+ resp->set_uuid_msb(args.uuid.msb());
+ resp->set_uuid_lsb(args.uuid.lsb());
+ std::move(clone_session_response).Resolve(std::move(resp));
+}
+
+} // namespace perfetto
+// gen_amalgamated begin source: src/tracing/ipc/service/producer_ipc_service.cc
+// gen_amalgamated begin header: src/tracing/ipc/service/producer_ipc_service.h
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef SRC_TRACING_IPC_SERVICE_PRODUCER_IPC_SERVICE_H_
+#define SRC_TRACING_IPC_SERVICE_PRODUCER_IPC_SERVICE_H_
+
+#include <list>
+#include <map>
+#include <memory>
+#include <string>
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/weak_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/basic_types.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/producer.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/tracing_service.h"
+
+// gen_amalgamated expanded: #include "protos/perfetto/ipc/producer_port.ipc.h"
+
+namespace perfetto {
+
+namespace ipc {
+class Host;
+} // namespace ipc
+
+// Implements the Producer port of the IPC service. This class proxies requests
+// and responses between the core service logic (|svc_|) and remote Producer(s)
+// on the IPC socket, through the methods overriddden from ProducerPort.
+class ProducerIPCService : public protos::gen::ProducerPort {
+ public:
+ explicit ProducerIPCService(TracingService* core_service);
+ ~ProducerIPCService() override;
+
+ // ProducerPort implementation (from .proto IPC definition).
+ void InitializeConnection(const protos::gen::InitializeConnectionRequest&,
+ DeferredInitializeConnectionResponse) override;
+ void RegisterDataSource(const protos::gen::RegisterDataSourceRequest&,
+ DeferredRegisterDataSourceResponse) override;
+ void UpdateDataSource(const protos::gen::UpdateDataSourceRequest&,
+ DeferredUpdateDataSourceResponse) override;
+ void UnregisterDataSource(const protos::gen::UnregisterDataSourceRequest&,
+ DeferredUnregisterDataSourceResponse) override;
+ void RegisterTraceWriter(const protos::gen::RegisterTraceWriterRequest&,
+ DeferredRegisterTraceWriterResponse) override;
+ void UnregisterTraceWriter(const protos::gen::UnregisterTraceWriterRequest&,
+ DeferredUnregisterTraceWriterResponse) override;
+ void CommitData(const protos::gen::CommitDataRequest&,
+ DeferredCommitDataResponse) override;
+ void NotifyDataSourceStarted(
+ const protos::gen::NotifyDataSourceStartedRequest&,
+ DeferredNotifyDataSourceStartedResponse) override;
+ void NotifyDataSourceStopped(
+ const protos::gen::NotifyDataSourceStoppedRequest&,
+ DeferredNotifyDataSourceStoppedResponse) override;
+ void ActivateTriggers(const protos::gen::ActivateTriggersRequest&,
+ DeferredActivateTriggersResponse) override;
+
+ void GetAsyncCommand(const protos::gen::GetAsyncCommandRequest&,
+ DeferredGetAsyncCommandResponse) override;
+ void Sync(const protos::gen::SyncRequest&, DeferredSyncResponse) override;
+ void OnClientDisconnected() override;
+
+ private:
+ // Acts like a Producer with the core Service business logic (which doesn't
+ // know anything about the remote transport), but all it does is proxying
+ // methods to the remote Producer on the other side of the IPC channel.
+ class RemoteProducer : public Producer {
+ public:
+ RemoteProducer();
+ ~RemoteProducer() override;
+
+ // These methods are called by the |core_service_| business logic. There is
+ // no connection here, these methods are posted straight away.
+ void OnConnect() override;
+ void OnDisconnect() override;
+ void SetupDataSource(DataSourceInstanceID,
+ const DataSourceConfig&) override;
+ void StartDataSource(DataSourceInstanceID,
+ const DataSourceConfig&) override;
+ void StopDataSource(DataSourceInstanceID) override;
+ void OnTracingSetup() override;
+ void Flush(FlushRequestID,
+ const DataSourceInstanceID* data_source_ids,
+ size_t num_data_sources,
+ FlushFlags) override;
+
+ void ClearIncrementalState(const DataSourceInstanceID* data_source_ids,
+ size_t num_data_sources) override;
+
+ void SendSetupTracing();
+
+ // The interface obtained from the core service business logic through
+ // Service::ConnectProducer(this). This allows to invoke methods for a
+ // specific Producer on the Service business logic.
+ std::unique_ptr<TracingService::ProducerEndpoint> service_endpoint;
+
+ // The back-channel (based on a never ending stream request) that allows us
+ // to send asynchronous commands to the remote Producer (e.g. start/stop a
+ // data source).
+ DeferredGetAsyncCommandResponse async_producer_commands;
+
+ // Set if the service calls OnTracingSetup() before the
+ // |async_producer_commands| was bound by the service. In this case, we
+ // forward the SetupTracing command when it is bound later.
+ bool send_setup_tracing_on_async_commands_bound = false;
+ };
+
+ ProducerIPCService(const ProducerIPCService&) = delete;
+ ProducerIPCService& operator=(const ProducerIPCService&) = delete;
+
+ // Returns the ProducerEndpoint in the core business logic that corresponds to
+ // the current IPC request.
+ RemoteProducer* GetProducerForCurrentRequest();
+
+ TracingService* const core_service_;
+
+ // Maps IPC clients to ProducerEndpoint instances registered on the
+ // |core_service_| business logic.
+ std::map<ipc::ClientID, std::unique_ptr<RemoteProducer>> producers_;
+
+ // List because pointers need to be stable.
+ std::list<DeferredSyncResponse> pending_syncs_;
+
+ base::WeakPtrFactory<ProducerIPCService> weak_ptr_factory_; // Keep last.
+};
+
+} // namespace perfetto
+
+#endif // SRC_TRACING_IPC_SERVICE_PRODUCER_IPC_SERVICE_H_
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "src/tracing/ipc/service/producer_ipc_service.h"
+
+#include <cinttypes>
+
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/base/task_runner.h"
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/host.h"
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/service.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/client_identity.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/commit_data_request.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/tracing_service.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/core/data_source_config.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/core/data_source_descriptor.h"
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+// gen_amalgamated expanded: #include "src/tracing/ipc/shared_memory_windows.h"
+#else
+// gen_amalgamated expanded: #include "src/tracing/ipc/posix_shared_memory.h"
+#endif
+
+// The remote Producer(s) are not trusted. All the methods from the ProducerPort
+// IPC layer (e.g. RegisterDataSource()) must assume that the remote Producer is
+// compromised.
+
+namespace perfetto {
+
+ProducerIPCService::ProducerIPCService(TracingService* core_service)
+ : core_service_(core_service), weak_ptr_factory_(this) {}
+
+ProducerIPCService::~ProducerIPCService() = default;
+
+ProducerIPCService::RemoteProducer*
+ProducerIPCService::GetProducerForCurrentRequest() {
+ const ipc::ClientID ipc_client_id = ipc::Service::client_info().client_id();
+ PERFETTO_CHECK(ipc_client_id);
+ auto it = producers_.find(ipc_client_id);
+ if (it == producers_.end())
+ return nullptr;
+ return it->second.get();
+}
+
+// Called by the remote Producer through the IPC channel soon after connecting.
+void ProducerIPCService::InitializeConnection(
+ const protos::gen::InitializeConnectionRequest& req,
+ DeferredInitializeConnectionResponse response) {
+ const auto& client_info = ipc::Service::client_info();
+ const ipc::ClientID ipc_client_id = client_info.client_id();
+ PERFETTO_CHECK(ipc_client_id);
+
+ if (producers_.count(ipc_client_id) > 0) {
+ PERFETTO_DLOG(
+ "The remote Producer is trying to re-initialize the connection");
+ return response.Reject();
+ }
+
+ // Create a new entry.
+ std::unique_ptr<RemoteProducer> producer(new RemoteProducer());
+
+ TracingService::ProducerSMBScrapingMode smb_scraping_mode =
+ TracingService::ProducerSMBScrapingMode::kDefault;
+ switch (req.smb_scraping_mode()) {
+ case protos::gen::InitializeConnectionRequest::SMB_SCRAPING_UNSPECIFIED:
+ break;
+ case protos::gen::InitializeConnectionRequest::SMB_SCRAPING_DISABLED:
+ smb_scraping_mode = TracingService::ProducerSMBScrapingMode::kDisabled;
+ break;
+ case protos::gen::InitializeConnectionRequest::SMB_SCRAPING_ENABLED:
+ smb_scraping_mode = TracingService::ProducerSMBScrapingMode::kEnabled;
+ break;
+ }
+
+ // If the producer provided an SMB, tell the service to attempt to adopt it.
+ std::unique_ptr<SharedMemory> shmem;
+ if (req.producer_provided_shmem()) {
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ if (!req.has_shm_key_windows() || req.shm_key_windows().empty()) {
+ PERFETTO_ELOG(
+ "shm_key_windows must be non-empty when "
+ "producer_provided_shmem = true");
+ } else {
+ shmem = SharedMemoryWindows::Attach(req.shm_key_windows());
+ // Attach() does error logging if something fails, no need to extra ELOGs.
+ }
+#else
+ base::ScopedFile shmem_fd = ipc::Service::TakeReceivedFD();
+
+ if (shmem_fd) {
+ shmem = PosixSharedMemory::AttachToFd(
+ std::move(shmem_fd), /*require_seals_if_supported=*/true);
+ if (!shmem) {
+ PERFETTO_ELOG(
+ "Couldn't map producer-provided SMB, falling back to "
+ "service-provided SMB");
+ }
+ } else {
+ PERFETTO_DLOG(
+ "InitializeConnectionRequest's producer_provided_shmem flag is set "
+ "but the producer didn't provide an FD");
+ }
+#endif
+ }
+
+ // Copy the data fields to be emitted to trace packets into ClientIdentity.
+ ClientIdentity client_identity(client_info.uid(), client_info.pid(),
+ client_info.machine_id());
+ // ConnectProducer will call OnConnect() on the next task.
+ producer->service_endpoint = core_service_->ConnectProducer(
+ producer.get(), client_identity, req.producer_name(),
+ req.shared_memory_size_hint_bytes(),
+ /*in_process=*/false, smb_scraping_mode,
+ req.shared_memory_page_size_hint_bytes(), std::move(shmem),
+ req.sdk_version());
+
+ // Could happen if the service has too many producers connected.
+ if (!producer->service_endpoint) {
+ response.Reject();
+ return;
+ }
+
+ bool use_shmem_emulation = ipc::Service::use_shmem_emulation();
+ bool using_producer_shmem =
+ !use_shmem_emulation &&
+ producer->service_endpoint->IsShmemProvidedByProducer();
+
+ producers_.emplace(ipc_client_id, std::move(producer));
+ // Because of the std::move() |producer| is invalid after this point.
+
+ auto async_res =
+ ipc::AsyncResult<protos::gen::InitializeConnectionResponse>::Create();
+ async_res->set_using_shmem_provided_by_producer(using_producer_shmem);
+ async_res->set_direct_smb_patching_supported(true);
+ async_res->set_use_shmem_emulation(use_shmem_emulation);
+ response.Resolve(std::move(async_res));
+}
+
+// Called by the remote Producer through the IPC channel.
+void ProducerIPCService::RegisterDataSource(
+ const protos::gen::RegisterDataSourceRequest& req,
+ DeferredRegisterDataSourceResponse response) {
+ RemoteProducer* producer = GetProducerForCurrentRequest();
+ if (!producer) {
+ PERFETTO_DLOG(
+ "Producer invoked RegisterDataSource() before InitializeConnection()");
+ if (response.IsBound())
+ response.Reject();
+ return;
+ }
+
+ const DataSourceDescriptor& dsd = req.data_source_descriptor();
+ GetProducerForCurrentRequest()->service_endpoint->RegisterDataSource(dsd);
+
+ // RegisterDataSource doesn't expect any meaningful response.
+ if (response.IsBound()) {
+ response.Resolve(
+ ipc::AsyncResult<protos::gen::RegisterDataSourceResponse>::Create());
+ }
+}
+
+// Called by the remote Producer through the IPC channel.
+void ProducerIPCService::UpdateDataSource(
+ const protos::gen::UpdateDataSourceRequest& req,
+ DeferredUpdateDataSourceResponse response) {
+ RemoteProducer* producer = GetProducerForCurrentRequest();
+ if (!producer) {
+ PERFETTO_DLOG(
+ "Producer invoked UpdateDataSource() before InitializeConnection()");
+ if (response.IsBound())
+ response.Reject();
+ return;
+ }
+
+ const DataSourceDescriptor& dsd = req.data_source_descriptor();
+ GetProducerForCurrentRequest()->service_endpoint->UpdateDataSource(dsd);
+
+ // UpdateDataSource doesn't expect any meaningful response.
+ if (response.IsBound()) {
+ response.Resolve(
+ ipc::AsyncResult<protos::gen::UpdateDataSourceResponse>::Create());
+ }
+}
+
+// Called by the IPC layer.
+void ProducerIPCService::OnClientDisconnected() {
+ ipc::ClientID client_id = ipc::Service::client_info().client_id();
+ PERFETTO_DLOG("Client %" PRIu64 " disconnected", client_id);
+ producers_.erase(client_id);
+}
+
+// TODO(fmayer): test what happens if we receive the following tasks, in order:
+// RegisterDataSource, UnregisterDataSource, OnDataSourceRegistered.
+// which essentially means that the client posted back to back a
+// ReqisterDataSource and UnregisterDataSource speculating on the next id.
+// Called by the remote Service through the IPC channel.
+void ProducerIPCService::UnregisterDataSource(
+ const protos::gen::UnregisterDataSourceRequest& req,
+ DeferredUnregisterDataSourceResponse response) {
+ RemoteProducer* producer = GetProducerForCurrentRequest();
+ if (!producer) {
+ PERFETTO_DLOG(
+ "Producer invoked UnregisterDataSource() before "
+ "InitializeConnection()");
+ if (response.IsBound())
+ response.Reject();
+ return;
+ }
+ producer->service_endpoint->UnregisterDataSource(req.data_source_name());
+
+ // UnregisterDataSource doesn't expect any meaningful response.
+ if (response.IsBound()) {
+ response.Resolve(
+ ipc::AsyncResult<protos::gen::UnregisterDataSourceResponse>::Create());
+ }
+}
+
+void ProducerIPCService::RegisterTraceWriter(
+ const protos::gen::RegisterTraceWriterRequest& req,
+ DeferredRegisterTraceWriterResponse response) {
+ RemoteProducer* producer = GetProducerForCurrentRequest();
+ if (!producer) {
+ PERFETTO_DLOG(
+ "Producer invoked RegisterTraceWriter() before "
+ "InitializeConnection()");
+ if (response.IsBound())
+ response.Reject();
+ return;
+ }
+ producer->service_endpoint->RegisterTraceWriter(req.trace_writer_id(),
+ req.target_buffer());
+
+ // RegisterTraceWriter doesn't expect any meaningful response.
+ if (response.IsBound()) {
+ response.Resolve(
+ ipc::AsyncResult<protos::gen::RegisterTraceWriterResponse>::Create());
+ }
+}
+
+void ProducerIPCService::UnregisterTraceWriter(
+ const protos::gen::UnregisterTraceWriterRequest& req,
+ DeferredUnregisterTraceWriterResponse response) {
+ RemoteProducer* producer = GetProducerForCurrentRequest();
+ if (!producer) {
+ PERFETTO_DLOG(
+ "Producer invoked UnregisterTraceWriter() before "
+ "InitializeConnection()");
+ if (response.IsBound())
+ response.Reject();
+ return;
+ }
+ producer->service_endpoint->UnregisterTraceWriter(req.trace_writer_id());
+
+ // UnregisterTraceWriter doesn't expect any meaningful response.
+ if (response.IsBound()) {
+ response.Resolve(
+ ipc::AsyncResult<protos::gen::UnregisterTraceWriterResponse>::Create());
+ }
+}
+
+void ProducerIPCService::CommitData(const protos::gen::CommitDataRequest& req,
+ DeferredCommitDataResponse resp) {
+ RemoteProducer* producer = GetProducerForCurrentRequest();
+ if (!producer) {
+ PERFETTO_DLOG(
+ "Producer invoked CommitData() before InitializeConnection()");
+ if (resp.IsBound())
+ resp.Reject();
+ return;
+ }
+
+ // We don't want to send a response if the client didn't attach a callback to
+ // the original request. Doing so would generate unnecessary wakeups and
+ // context switches.
+ std::function<void()> callback;
+ if (resp.IsBound()) {
+ // Capturing |resp| by reference here speculates on the fact that
+ // CommitData() in tracing_service_impl.cc invokes the passed callback
+ // inline, without posting it. If that assumption changes this code needs to
+ // wrap the response in a shared_ptr (C+11 lambdas don't support move) and
+ // use a weak ptr in the caller.
+ callback = [&resp] {
+ resp.Resolve(ipc::AsyncResult<protos::gen::CommitDataResponse>::Create());
+ };
+ }
+ producer->service_endpoint->CommitData(req, callback);
+}
+
+void ProducerIPCService::NotifyDataSourceStarted(
+ const protos::gen::NotifyDataSourceStartedRequest& request,
+ DeferredNotifyDataSourceStartedResponse response) {
+ RemoteProducer* producer = GetProducerForCurrentRequest();
+ if (!producer) {
+ PERFETTO_DLOG(
+ "Producer invoked NotifyDataSourceStarted() before "
+ "InitializeConnection()");
+ if (response.IsBound())
+ response.Reject();
+ return;
+ }
+ producer->service_endpoint->NotifyDataSourceStarted(request.data_source_id());
+
+ // NotifyDataSourceStopped shouldn't expect any meaningful response, avoid
+ // a useless IPC in that case.
+ if (response.IsBound()) {
+ response.Resolve(ipc::AsyncResult<
+ protos::gen::NotifyDataSourceStartedResponse>::Create());
+ }
+}
+
+void ProducerIPCService::NotifyDataSourceStopped(
+ const protos::gen::NotifyDataSourceStoppedRequest& request,
+ DeferredNotifyDataSourceStoppedResponse response) {
+ RemoteProducer* producer = GetProducerForCurrentRequest();
+ if (!producer) {
+ PERFETTO_DLOG(
+ "Producer invoked NotifyDataSourceStopped() before "
+ "InitializeConnection()");
+ if (response.IsBound())
+ response.Reject();
+ return;
+ }
+ producer->service_endpoint->NotifyDataSourceStopped(request.data_source_id());
+
+ // NotifyDataSourceStopped shouldn't expect any meaningful response, avoid
+ // a useless IPC in that case.
+ if (response.IsBound()) {
+ response.Resolve(ipc::AsyncResult<
+ protos::gen::NotifyDataSourceStoppedResponse>::Create());
+ }
+}
+
+void ProducerIPCService::ActivateTriggers(
+ const protos::gen::ActivateTriggersRequest& proto_req,
+ DeferredActivateTriggersResponse resp) {
+ RemoteProducer* producer = GetProducerForCurrentRequest();
+ if (!producer) {
+ PERFETTO_DLOG(
+ "Producer invoked ActivateTriggers() before InitializeConnection()");
+ if (resp.IsBound())
+ resp.Reject();
+ return;
+ }
+ std::vector<std::string> triggers;
+ for (const auto& name : proto_req.trigger_names()) {
+ triggers.push_back(name);
+ }
+ producer->service_endpoint->ActivateTriggers(triggers);
+ // ActivateTriggers shouldn't expect any meaningful response, avoid
+ // a useless IPC in that case.
+ if (resp.IsBound()) {
+ resp.Resolve(
+ ipc::AsyncResult<protos::gen::ActivateTriggersResponse>::Create());
+ }
+}
+
+void ProducerIPCService::GetAsyncCommand(
+ const protos::gen::GetAsyncCommandRequest&,
+ DeferredGetAsyncCommandResponse response) {
+ RemoteProducer* producer = GetProducerForCurrentRequest();
+ if (!producer) {
+ PERFETTO_DLOG(
+ "Producer invoked GetAsyncCommand() before "
+ "InitializeConnection()");
+ return response.Reject();
+ }
+ // Keep the back channel open, without ever resolving the ipc::Deferred fully,
+ // to send async commands to the RemoteProducer (e.g., starting/stopping a
+ // data source).
+ producer->async_producer_commands = std::move(response);
+
+ // Service may already have issued the OnTracingSetup() event, in which case
+ // we should forward it to the producer now.
+ if (producer->send_setup_tracing_on_async_commands_bound)
+ producer->SendSetupTracing();
+}
+
+void ProducerIPCService::Sync(const protos::gen::SyncRequest&,
+ DeferredSyncResponse resp) {
+ RemoteProducer* producer = GetProducerForCurrentRequest();
+ if (!producer) {
+ PERFETTO_DLOG("Producer invoked Sync() before InitializeConnection()");
+ return resp.Reject();
+ }
+ auto weak_this = weak_ptr_factory_.GetWeakPtr();
+ auto resp_it = pending_syncs_.insert(pending_syncs_.end(), std::move(resp));
+ auto callback = [weak_this, resp_it]() {
+ if (!weak_this)
+ return;
+ auto pending_resp = std::move(*resp_it);
+ weak_this->pending_syncs_.erase(resp_it);
+ pending_resp.Resolve(ipc::AsyncResult<protos::gen::SyncResponse>::Create());
+ };
+ producer->service_endpoint->Sync(callback);
+}
+
+////////////////////////////////////////////////////////////////////////////////
+// RemoteProducer methods
+////////////////////////////////////////////////////////////////////////////////
+
+ProducerIPCService::RemoteProducer::RemoteProducer() = default;
+ProducerIPCService::RemoteProducer::~RemoteProducer() = default;
+
+// Invoked by the |core_service_| business logic after the ConnectProducer()
+// call. There is nothing to do here, we really expected the ConnectProducer()
+// to just work in the local case.
+void ProducerIPCService::RemoteProducer::OnConnect() {}
+
+// Invoked by the |core_service_| business logic after we destroy the
+// |service_endpoint| (in the RemoteProducer dtor).
+void ProducerIPCService::RemoteProducer::OnDisconnect() {}
+
+// Invoked by the |core_service_| business logic when it wants to create a new
+// data source.
+void ProducerIPCService::RemoteProducer::SetupDataSource(
+ DataSourceInstanceID dsid,
+ const DataSourceConfig& cfg) {
+ if (!async_producer_commands.IsBound()) {
+ PERFETTO_DLOG(
+ "The Service tried to create a new data source but the remote Producer "
+ "has not yet initialized the connection");
+ return;
+ }
+ auto cmd = ipc::AsyncResult<protos::gen::GetAsyncCommandResponse>::Create();
+ cmd.set_has_more(true);
+ cmd->mutable_setup_data_source()->set_new_instance_id(dsid);
+ *cmd->mutable_setup_data_source()->mutable_config() = cfg;
+ async_producer_commands.Resolve(std::move(cmd));
+}
+
+// Invoked by the |core_service_| business logic when it wants to start a new
+// data source.
+void ProducerIPCService::RemoteProducer::StartDataSource(
+ DataSourceInstanceID dsid,
+ const DataSourceConfig& cfg) {
+ if (!async_producer_commands.IsBound()) {
+ PERFETTO_DLOG(
+ "The Service tried to start a new data source but the remote Producer "
+ "has not yet initialized the connection");
+ return;
+ }
+ auto cmd = ipc::AsyncResult<protos::gen::GetAsyncCommandResponse>::Create();
+ cmd.set_has_more(true);
+ cmd->mutable_start_data_source()->set_new_instance_id(dsid);
+ *cmd->mutable_start_data_source()->mutable_config() = cfg;
+ async_producer_commands.Resolve(std::move(cmd));
+}
+
+void ProducerIPCService::RemoteProducer::StopDataSource(
+ DataSourceInstanceID dsid) {
+ if (!async_producer_commands.IsBound()) {
+ PERFETTO_DLOG(
+ "The Service tried to stop a data source but the remote Producer "
+ "has not yet initialized the connection");
+ return;
+ }
+ auto cmd = ipc::AsyncResult<protos::gen::GetAsyncCommandResponse>::Create();
+ cmd.set_has_more(true);
+ cmd->mutable_stop_data_source()->set_instance_id(dsid);
+ async_producer_commands.Resolve(std::move(cmd));
+}
+
+void ProducerIPCService::RemoteProducer::OnTracingSetup() {
+ if (!async_producer_commands.IsBound()) {
+ // Service may call this before the producer issued GetAsyncCommand.
+ send_setup_tracing_on_async_commands_bound = true;
+ return;
+ }
+ SendSetupTracing();
+}
+
+void ProducerIPCService::RemoteProducer::SendSetupTracing() {
+ PERFETTO_CHECK(async_producer_commands.IsBound());
+ PERFETTO_CHECK(service_endpoint->shared_memory());
+ auto cmd = ipc::AsyncResult<protos::gen::GetAsyncCommandResponse>::Create();
+ cmd.set_has_more(true);
+ auto setup_tracing = cmd->mutable_setup_tracing();
+ if (!service_endpoint->IsShmemProvidedByProducer()) {
+ // Nominal case (% Chrome): service provides SMB.
+ setup_tracing->set_shared_buffer_page_size_kb(
+ static_cast<uint32_t>(service_endpoint->shared_buffer_page_size_kb()));
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ const std::string& shm_key =
+ static_cast<SharedMemoryWindows*>(service_endpoint->shared_memory())
+ ->key();
+ setup_tracing->set_shm_key_windows(shm_key);
+#else
+ const int shm_fd =
+ static_cast<PosixSharedMemory*>(service_endpoint->shared_memory())
+ ->fd();
+ cmd.set_fd(shm_fd);
+#endif
+ }
+ async_producer_commands.Resolve(std::move(cmd));
+}
+
+void ProducerIPCService::RemoteProducer::Flush(
+ FlushRequestID flush_request_id,
+ const DataSourceInstanceID* data_source_ids,
+ size_t num_data_sources,
+ FlushFlags flush_flags) {
+ if (!async_producer_commands.IsBound()) {
+ PERFETTO_DLOG(
+ "The Service tried to request a flush but the remote Producer has not "
+ "yet initialized the connection");
+ return;
+ }
+ auto cmd = ipc::AsyncResult<protos::gen::GetAsyncCommandResponse>::Create();
+ cmd.set_has_more(true);
+ for (size_t i = 0; i < num_data_sources; i++)
+ cmd->mutable_flush()->add_data_source_ids(data_source_ids[i]);
+ cmd->mutable_flush()->set_request_id(flush_request_id);
+ cmd->mutable_flush()->set_flags(flush_flags.flags());
+ async_producer_commands.Resolve(std::move(cmd));
+}
+
+void ProducerIPCService::RemoteProducer::ClearIncrementalState(
+ const DataSourceInstanceID* data_source_ids,
+ size_t num_data_sources) {
+ if (!async_producer_commands.IsBound()) {
+ PERFETTO_DLOG(
+ "The Service tried to request an incremental state invalidation, but "
+ "the remote Producer has not yet initialized the connection");
+ return;
+ }
+ auto cmd = ipc::AsyncResult<protos::gen::GetAsyncCommandResponse>::Create();
+ cmd.set_has_more(true);
+ for (size_t i = 0; i < num_data_sources; i++)
+ cmd->mutable_clear_incremental_state()->add_data_source_ids(
+ data_source_ids[i]);
+ async_producer_commands.Resolve(std::move(cmd));
+}
+
+} // namespace perfetto
+// gen_amalgamated begin source: src/tracing/ipc/service/relay_ipc_service.cc
+// gen_amalgamated begin header: src/tracing/ipc/service/relay_ipc_service.h
+/*
+ * Copyright (C) 2024 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef SRC_TRACING_IPC_SERVICE_RELAY_IPC_SERVICE_H_
+#define SRC_TRACING_IPC_SERVICE_RELAY_IPC_SERVICE_H_
+
+#include <limits>
+#include <list>
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/flat_hash_map.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/sys_types.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/weak_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/basic_types.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/tracing_service.h"
+
+// gen_amalgamated expanded: #include "protos/perfetto/ipc/relay_port.ipc.h"
+
+namespace perfetto {
+
+// Implements the RelayPort IPC service.
+class RelayIPCService : public protos::gen::RelayPort {
+ public:
+ explicit RelayIPCService(TracingService* core_service);
+ ~RelayIPCService() override = default;
+
+ void OnClientDisconnected() override;
+ void SyncClock(const protos::gen::SyncClockRequest&,
+ DeferredSyncClockResponse) override;
+
+ private:
+ TracingService* const core_service_;
+
+ using ClockSnapshots =
+ base::FlatHashMap<uint32_t, std::pair<uint64_t, uint64_t>>;
+ struct ClockSnapshotRecords {
+ base::MachineID machine_id = base::kDefaultMachineID;
+
+ // Keep track of most recent clock snapshots, ordered by local timestamps
+ // (CLOCK_BOOTTIME).
+ std::list<ClockSnapshots> clock_snapshots;
+
+ uint64_t min_rtt = std::numeric_limits<uint64_t>::max();
+ };
+
+ TracingService::RelayEndpoint* GetRelayEndpoint(ipc::ClientID);
+
+ base::FlatHashMap<ipc::ClientID,
+ std::unique_ptr<TracingService::RelayEndpoint>>
+ relay_endpoints_;
+
+ base::WeakPtrFactory<RelayIPCService> weak_ptr_factory_; // Keep last.
+};
+
+} // namespace perfetto
+
+#endif // SRC_TRACING_IPC_SERVICE_RELAY_IPC_SERVICE_H_
+/*
+ * Copyright (C) 2024 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "src/tracing/ipc/service/relay_ipc_service.h"
+
+#include <cinttypes>
+#include <utility>
+
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/service.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/tracing_service.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/core/clock_snapshots.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/core/forward_decls.h"
+
+namespace perfetto {
+
+RelayIPCService::RelayIPCService(TracingService* core_service)
+ : core_service_(core_service), weak_ptr_factory_(this) {}
+
+TracingService::RelayEndpoint* RelayIPCService::GetRelayEndpoint(
+ ipc::ClientID client_id) {
+ auto* endpoint = relay_endpoints_.Find(client_id);
+ if (!endpoint)
+ return nullptr;
+ return endpoint->get();
+}
+
+void RelayIPCService::OnClientDisconnected() {
+ auto client_id = ipc::Service::client_info().client_id();
+ PERFETTO_DLOG("Relay endpoint %" PRIu64 "disconnected ", client_id);
+
+ auto* endpoint = GetRelayEndpoint(client_id);
+ if (!endpoint)
+ return;
+
+ endpoint->Disconnect();
+ relay_endpoints_.Erase(client_id);
+}
+
+void RelayIPCService::SyncClock(const protos::gen::SyncClockRequest& req,
+ DeferredSyncClockResponse resp) {
+ auto host_clock_snapshots = CaptureClockSnapshots();
+
+ // Send the response to client to reduce RTT.
+ auto async_resp = ipc::AsyncResult<protos::gen::SyncClockResponse>::Create();
+ resp.Resolve(std::move(async_resp));
+
+ ClockSnapshotVector client_clock_snapshots;
+ for (size_t i = 0; i < req.clocks().size(); i++) {
+ auto& client_clock = req.clocks()[i];
+ client_clock_snapshots.emplace_back(client_clock.clock_id(),
+ client_clock.timestamp());
+ }
+
+ // Handle the request in the core service.
+ auto machine_id = ipc::Service::client_info().machine_id();
+ auto client_id = ipc::Service::client_info().client_id();
+ auto* endpoint = GetRelayEndpoint(client_id);
+ if (!endpoint) {
+ auto ep = core_service_->ConnectRelayClient(
+ std::make_pair(machine_id, client_id));
+ endpoint = ep.get();
+ relay_endpoints_.Insert(client_id, std::move(ep));
+ }
+
+ RelayEndpoint::SyncMode mode = req.phase() == SyncClockRequest::PING
+ ? RelayEndpoint::SyncMode::PING
+ : RelayEndpoint::SyncMode::UPDATE;
+ endpoint->SyncClocks(mode, std::move(client_clock_snapshots),
+ std::move(host_clock_snapshots));
+}
+} // namespace perfetto
+// gen_amalgamated begin source: src/tracing/ipc/service/service_ipc_host_impl.cc
+// gen_amalgamated begin header: src/tracing/ipc/service/service_ipc_host_impl.h
+// gen_amalgamated begin header: include/perfetto/ext/tracing/ipc/service_ipc_host.h
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_EXT_TRACING_IPC_SERVICE_IPC_HOST_H_
+#define INCLUDE_PERFETTO_EXT_TRACING_IPC_SERVICE_IPC_HOST_H_
+
+#include <memory>
+
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/scoped_file.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/unix_socket.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/basic_types.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/tracing_service.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/default_socket.h"
+
+namespace perfetto {
+namespace base {
+class TaskRunner;
+} // namespace base.
+
+namespace ipc {
+class Host;
+} // namespace ipc
+
+// Creates an instance of the service (business logic + UNIX socket transport).
+// Exposed to:
+// The code in the tracing client that will host the service e.g., traced.
+// Implemented in:
+// src/tracing/ipc/service/service_ipc_host_impl.cc
+class PERFETTO_EXPORT_COMPONENT ServiceIPCHost {
+ public:
+ static std::unique_ptr<ServiceIPCHost> CreateInstance(
+ base::TaskRunner*,
+ TracingService::InitOpts = {});
+ virtual ~ServiceIPCHost();
+
+ // The overload to wrap the multi-value producer socket name in the
+ // single-value variant for compatibility in tests.
+ bool Start(const char* producer_socket_name,
+ const char* consumer_socket_name) {
+ return Start(TokenizeProducerSockets(producer_socket_name),
+ consumer_socket_name);
+ }
+ // Start listening on the Producer & Consumer ports. Returns false in case of
+ // failure (e.g., something else is listening on |socket_name|).
+ virtual bool Start(const std::vector<std::string>& producer_socket_names,
+ const char* consumer_socket_name) = 0;
+
+ // Like the above, but takes two file descriptors to already bound sockets.
+ // This is used when building as part of the Android tree, where init opens
+ // and binds the socket beore exec()-ing us.
+ virtual bool Start(base::ScopedSocketHandle producer_socket_fd,
+ base::ScopedSocketHandle consumer_socket_fd) = 0;
+
+ // Allows callers to supply preconstructed Hosts.
+ virtual bool Start(std::unique_ptr<ipc::Host> producer_host,
+ std::unique_ptr<ipc::Host> consumer_host) = 0;
+
+ virtual TracingService* service() const = 0;
+
+ protected:
+ ServiceIPCHost();
+
+ private:
+ ServiceIPCHost(const ServiceIPCHost&) = delete;
+ ServiceIPCHost& operator=(const ServiceIPCHost&) = delete;
+};
+
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_EXT_TRACING_IPC_SERVICE_IPC_HOST_H_
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef SRC_TRACING_IPC_SERVICE_SERVICE_IPC_HOST_IMPL_H_
+#define SRC_TRACING_IPC_SERVICE_SERVICE_IPC_HOST_IMPL_H_
+
+#include <memory>
+
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/ipc/service_ipc_host.h"
+
+namespace perfetto {
+
+namespace ipc {
+class Host;
+}
+
+// The implementation of the IPC host for the tracing service. This class does
+// very few things: it mostly initializes the IPC transport. The actual
+// implementation of the IPC <> Service business logic glue lives in
+// producer_ipc_service.cc and consumer_ipc_service.cc.
+class ServiceIPCHostImpl : public ServiceIPCHost {
+ public:
+ explicit ServiceIPCHostImpl(base::TaskRunner*,
+ TracingService::InitOpts init_opts = {});
+ ~ServiceIPCHostImpl() override;
+
+ // ServiceIPCHost implementation.
+ bool Start(const std::vector<std::string>& producer_socket_names,
+ const char* consumer_socket_name) override;
+ bool Start(base::ScopedSocketHandle producer_socket_fd,
+ base::ScopedSocketHandle consumer_socket_fd) override;
+ bool Start(std::unique_ptr<ipc::Host> producer_host,
+ std::unique_ptr<ipc::Host> consumer_host) override;
+
+ TracingService* service() const override;
+
+ private:
+ bool DoStart();
+ void Shutdown();
+
+ base::TaskRunner* const task_runner_;
+ const TracingService::InitOpts init_opts_;
+ std::unique_ptr<TracingService> svc_; // The service business logic.
+
+ // The IPC hosts that listen on the Producer sockets. They own the
+ // PosixServiceProducerPort instances which deal with all producers' IPC(s).
+ // Note that there can be multiple producer sockets if it's specified in the
+ // producer socket name (e.g. for listening both on vsock for VMs and AF_UNIX
+ // for processes on the same machine).
+ std::vector<std::unique_ptr<ipc::Host>> producer_ipc_ports_;
+
+ // As above, but for the Consumer port.
+ std::unique_ptr<ipc::Host> consumer_ipc_port_;
+};
+
+} // namespace perfetto
+
+#endif // SRC_TRACING_IPC_SERVICE_SERVICE_IPC_HOST_IMPL_H_
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "src/tracing/ipc/service/service_ipc_host_impl.h"
+
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/base/task_runner.h"
+// gen_amalgamated expanded: #include "perfetto/ext/ipc/host.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/tracing_service.h"
+// gen_amalgamated expanded: #include "src/tracing/ipc/service/consumer_ipc_service.h"
+// gen_amalgamated expanded: #include "src/tracing/ipc/service/producer_ipc_service.h"
+// gen_amalgamated expanded: #include "src/tracing/ipc/service/relay_ipc_service.h"
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+// gen_amalgamated expanded: #include "src/tracing/ipc/shared_memory_windows.h"
+#else
+// gen_amalgamated expanded: #include "src/tracing/ipc/posix_shared_memory.h"
+#endif
+
+namespace perfetto {
+
+namespace {
+constexpr uint32_t kProducerSocketTxTimeoutMs = 10;
+}
+
+// TODO(fmayer): implement per-uid connection limit (b/69093705).
+
+// Implements the publicly exposed factory method declared in
+// include/tracing/posix_ipc/posix_service_host.h.
+std::unique_ptr<ServiceIPCHost> ServiceIPCHost::CreateInstance(
+ base::TaskRunner* task_runner,
+ TracingService::InitOpts init_opts) {
+ return std::unique_ptr<ServiceIPCHost>(
+ new ServiceIPCHostImpl(task_runner, init_opts));
+}
+
+ServiceIPCHostImpl::ServiceIPCHostImpl(base::TaskRunner* task_runner,
+ TracingService::InitOpts init_opts)
+ : task_runner_(task_runner), init_opts_(init_opts) {}
+
+ServiceIPCHostImpl::~ServiceIPCHostImpl() {}
+
+bool ServiceIPCHostImpl::Start(
+ const std::vector<std::string>& producer_socket_names,
+ const char* consumer_socket_name) {
+ PERFETTO_CHECK(!svc_); // Check if already started.
+
+ // Initialize the IPC transport.
+ for (const auto& producer_socket_name : producer_socket_names)
+ producer_ipc_ports_.emplace_back(
+ ipc::Host::CreateInstance(producer_socket_name.c_str(), task_runner_));
+ consumer_ipc_port_ =
+ ipc::Host::CreateInstance(consumer_socket_name, task_runner_);
+ return DoStart();
+}
+
+bool ServiceIPCHostImpl::Start(base::ScopedSocketHandle producer_socket_fd,
+ base::ScopedSocketHandle consumer_socket_fd) {
+ PERFETTO_CHECK(!svc_); // Check if already started.
+
+ // Initialize the IPC transport.
+ producer_ipc_ports_.emplace_back(
+ ipc::Host::CreateInstance(std::move(producer_socket_fd), task_runner_));
+ consumer_ipc_port_ =
+ ipc::Host::CreateInstance(std::move(consumer_socket_fd), task_runner_);
+ return DoStart();
+}
+
+bool ServiceIPCHostImpl::Start(std::unique_ptr<ipc::Host> producer_host,
+ std::unique_ptr<ipc::Host> consumer_host) {
+ PERFETTO_CHECK(!svc_); // Check if already started.
+ PERFETTO_DCHECK(producer_host);
+ PERFETTO_DCHECK(consumer_host);
+
+ // Initialize the IPC transport.
+ producer_ipc_ports_.emplace_back(std::move(producer_host));
+ consumer_ipc_port_ = std::move(consumer_host);
+
+ return DoStart();
+}
+
+bool ServiceIPCHostImpl::DoStart() {
+ // Create and initialize the platform-independent tracing business logic.
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ std::unique_ptr<SharedMemory::Factory> shm_factory(
+ new SharedMemoryWindows::Factory());
+#else
+ std::unique_ptr<SharedMemory::Factory> shm_factory(
+ new PosixSharedMemory::Factory());
+#endif
+ svc_ = TracingService::CreateInstance(std::move(shm_factory), task_runner_,
+ init_opts_);
+
+ if (producer_ipc_ports_.empty() || !consumer_ipc_port_) {
+ Shutdown();
+ return false;
+ }
+
+ // Lower the timeout for blocking socket sends to producers as we shouldn't
+ // normally exhaust the kernel send buffer unless the producer is
+ // unresponsive. We'll drop the connection if the timeout is hit (see
+ // UnixSocket::Send). Context in b/236813972, b/193234818.
+ // Consumer port continues using the default timeout (10s) as there are
+ // generally fewer consumer processes, and they're better behaved. Also the
+ // consumer port ipcs might exhaust the send buffer under normal operation
+ // due to large messages such as ReadBuffersResponse.
+ for (auto& producer_ipc_port : producer_ipc_ports_)
+ producer_ipc_port->SetSocketSendTimeoutMs(kProducerSocketTxTimeoutMs);
+
+ // TODO(fmayer): add a test that destroyes the ServiceIPCHostImpl soon after
+ // Start() and checks that no spurious callbacks are issued.
+ for (auto& producer_ipc_port : producer_ipc_ports_) {
+ bool producer_service_exposed = producer_ipc_port->ExposeService(
+ std::unique_ptr<ipc::Service>(new ProducerIPCService(svc_.get())));
+ PERFETTO_CHECK(producer_service_exposed);
+
+ if (!init_opts_.enable_relay_endpoint)
+ continue;
+ // Expose a secondary service for sync with remote relay service
+ // if requested.
+ bool relay_service_exposed = producer_ipc_port->ExposeService(
+ std::unique_ptr<ipc::Service>(new RelayIPCService(svc_.get())));
+ PERFETTO_CHECK(relay_service_exposed);
+ }
+
+ bool consumer_service_exposed = consumer_ipc_port_->ExposeService(
+ std::unique_ptr<ipc::Service>(new ConsumerIPCService(svc_.get())));
+ PERFETTO_CHECK(consumer_service_exposed);
+
+ return true;
+}
+
+TracingService* ServiceIPCHostImpl::service() const {
+ return svc_.get();
+}
+
+void ServiceIPCHostImpl::Shutdown() {
+ // TODO(primiano): add a test that causes the Shutdown() and checks that no
+ // spurious callbacks are issued.
+ producer_ipc_ports_.clear();
+ consumer_ipc_port_.reset();
+ svc_.reset();
+}
+
+// Definitions for the base class ctor/dtor.
+ServiceIPCHost::ServiceIPCHost() = default;
+ServiceIPCHost::~ServiceIPCHost() = default;
+
+} // namespace perfetto
+// gen_amalgamated begin source: src/tracing/internal/system_tracing_backend.cc
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/tracing/internal/system_tracing_backend.h"
+
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/base/task_runner.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/core/tracing_service.h"
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/ipc/producer_ipc_client.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/default_socket.h"
+
+#if PERFETTO_BUILDFLAG(PERFETTO_SYSTEM_CONSUMER)
+// gen_amalgamated expanded: #include "perfetto/ext/tracing/ipc/consumer_ipc_client.h"
+#endif
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+// gen_amalgamated expanded: #include "src/tracing/ipc/shared_memory_windows.h"
+#else
+// gen_amalgamated expanded: #include "src/tracing/ipc/posix_shared_memory.h"
+#endif
+
+namespace perfetto {
+namespace internal {
+
+// static
+TracingProducerBackend* SystemProducerTracingBackend::GetInstance() {
+ static auto* instance = new SystemProducerTracingBackend();
+ return instance;
+}
+
+SystemProducerTracingBackend::SystemProducerTracingBackend() {}
+
+std::unique_ptr<ProducerEndpoint> SystemProducerTracingBackend::ConnectProducer(
+ const ConnectProducerArgs& args) {
+ PERFETTO_DCHECK(args.task_runner->RunsTasksOnCurrentThread());
+
+ std::unique_ptr<SharedMemory> shm;
+ std::unique_ptr<SharedMemoryArbiter> arbiter;
+ uint32_t shmem_size_hint = args.shmem_size_hint_bytes;
+ uint32_t shmem_page_size_hint = args.shmem_page_size_hint_bytes;
+ if (args.use_producer_provided_smb) {
+ if (shmem_size_hint == 0)
+ shmem_size_hint = TracingService::kDefaultShmSize;
+ if (shmem_page_size_hint == 0)
+ shmem_page_size_hint = TracingService::kDefaultShmPageSize;
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ shm = SharedMemoryWindows::Create(shmem_size_hint);
+#else
+ shm = PosixSharedMemory::Create(shmem_size_hint);
+#endif
+ arbiter = SharedMemoryArbiter::CreateUnboundInstance(
+ shm.get(), shmem_page_size_hint, SharedMemoryABI::ShmemMode::kDefault);
+ }
+
+ ipc::Client::ConnArgs conn_args(GetProducerSocket(), true);
+ auto endpoint = ProducerIPCClient::Connect(
+ std::move(conn_args), args.producer, args.producer_name, args.task_runner,
+ TracingService::ProducerSMBScrapingMode::kEnabled, shmem_size_hint,
+ shmem_page_size_hint, std::move(shm), std::move(arbiter),
+ args.create_socket_async);
+ PERFETTO_CHECK(endpoint);
+ return endpoint;
+}
+
+// static
+TracingConsumerBackend* SystemConsumerTracingBackend::GetInstance() {
+ static auto* instance = new SystemConsumerTracingBackend();
+ return instance;
+}
+
+SystemConsumerTracingBackend::SystemConsumerTracingBackend() {}
+
+std::unique_ptr<ConsumerEndpoint> SystemConsumerTracingBackend::ConnectConsumer(
+ const ConnectConsumerArgs& args) {
+#if PERFETTO_BUILDFLAG(PERFETTO_SYSTEM_CONSUMER)
+ auto endpoint = ConsumerIPCClient::Connect(GetConsumerSocket(), args.consumer,
+ args.task_runner);
+ PERFETTO_CHECK(endpoint);
+ return endpoint;
+#else
+ base::ignore_result(args);
+ PERFETTO_FATAL("System backend consumer support disabled");
+ return nullptr;
+#endif
+}
+
+} // namespace internal
+} // namespace perfetto
+// gen_amalgamated begin source: src/tracing/platform_posix.cc
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_LINUX) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_FUCHSIA) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_APPLE)
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/file_utils.h"
+// gen_amalgamated expanded: #include "perfetto/ext/base/thread_task_runner.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/internal/tracing_tls.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/platform.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/trace_writer_base.h"
+
+#include <pthread.h>
+#include <stdlib.h>
+
+namespace perfetto {
+
+namespace {
+
+class PlatformPosix : public Platform {
+ public:
+ PlatformPosix();
+ ~PlatformPosix() override;
+
+ ThreadLocalObject* GetOrCreateThreadLocalObject() override;
+
+ std::unique_ptr<base::TaskRunner> CreateTaskRunner(
+ const CreateTaskRunnerArgs&) override;
+ std::string GetCurrentProcessName() override;
+ void Shutdown() override;
+
+ private:
+ pthread_key_t tls_key_{};
+};
+
+PlatformPosix* g_instance = nullptr;
+
+using ThreadLocalObject = Platform::ThreadLocalObject;
+
+PlatformPosix::PlatformPosix() {
+ PERFETTO_CHECK(!g_instance);
+ g_instance = this;
+ auto tls_dtor = [](void* obj) {
+ // The Posix TLS implementation resets the key before calling this dtor.
+ // Here we re-reset it to the object we are about to delete. This is to
+ // handle re-entrant usages of tracing in the PostTask done during the dtor
+ // (see comments in TracingTLS::~TracingTLS()). Chromium's platform
+ // implementation (which does NOT use this platform impl) has a similar
+ // workaround (https://crrev.com/c/2748300).
+ pthread_setspecific(g_instance->tls_key_, obj);
+ delete static_cast<ThreadLocalObject*>(obj);
+ pthread_setspecific(g_instance->tls_key_, nullptr);
+ };
+ PERFETTO_CHECK(pthread_key_create(&tls_key_, tls_dtor) == 0);
+}
+
+PlatformPosix::~PlatformPosix() {
+ // pthread_key_delete doesn't call destructors, so do it manually for the
+ // calling thread.
+ void* tls_ptr = pthread_getspecific(tls_key_);
+ delete static_cast<ThreadLocalObject*>(tls_ptr);
+
+ pthread_key_delete(tls_key_);
+ g_instance = nullptr;
+}
+
+void PlatformPosix::Shutdown() {
+ PERFETTO_CHECK(g_instance == this);
+ delete this;
+ PERFETTO_CHECK(!g_instance);
+ // We're not clearing out the instance in GetDefaultPlatform() since it's not
+ // possible to re-initialize Perfetto after calling this function anyway.
+}
+
+ThreadLocalObject* PlatformPosix::GetOrCreateThreadLocalObject() {
+ // In chromium this should be implemented using base::ThreadLocalStorage.
+ void* tls_ptr = pthread_getspecific(tls_key_);
+
+ // This is needed to handle re-entrant calls during TLS dtor.
+ // See comments in platform.cc and aosp/1712371 .
+ ThreadLocalObject* tls = static_cast<ThreadLocalObject*>(tls_ptr);
+ if (!tls) {
+ tls = ThreadLocalObject::CreateInstance().release();
+ pthread_setspecific(tls_key_, tls);
+ }
+ return tls;
+}
+
+std::unique_ptr<base::TaskRunner> PlatformPosix::CreateTaskRunner(
+ const CreateTaskRunnerArgs& args) {
+ return std::unique_ptr<base::TaskRunner>(new base::ThreadTaskRunner(
+ base::ThreadTaskRunner::CreateAndStart(args.name_for_debugging)));
+}
+
+std::string PlatformPosix::GetCurrentProcessName() {
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_LINUX) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID)
+ std::string cmdline;
+ base::ReadFile("/proc/self/cmdline", &cmdline);
+ return cmdline.substr(0, cmdline.find('\0'));
+#elif PERFETTO_BUILDFLAG(PERFETTO_OS_APPLE)
+ return std::string(getprogname());
+#else
+ return "unknown_producer";
+#endif
+}
+
+} // namespace
+
+// static
+Platform* Platform::GetDefaultPlatform() {
+ static PlatformPosix* instance = new PlatformPosix();
+ return instance;
+}
+
+} // namespace perfetto
+#endif // OS_LINUX || OS_ANDROID || OS_APPLE || OS_FUCHSIA
+// gen_amalgamated begin source: src/tracing/platform_windows.cc
+/*
+ * Copyright (C) 2021 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+
+#include <Windows.h>
+
+// gen_amalgamated expanded: #include "perfetto/ext/base/thread_task_runner.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/internal/tracing_tls.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/platform.h"
+
+// Thread Termination Callbacks.
+// Windows doesn't support a per-thread destructor with its
+// TLS primitives. So, we build it manually by inserting a
+// function to be called on each thread's exit.
+// This magic is from chromium's base/threading/thread_local_storage_win.cc
+// which in turn is from http://www.codeproject.com/threads/tls.asp.
+
+#ifdef _WIN64
+#pragma comment(linker, "/INCLUDE:_tls_used")
+#pragma comment(linker, "/INCLUDE:perfetto_thread_callback_base")
+#else
+#pragma comment(linker, "/INCLUDE:__tls_used")
+#pragma comment(linker, "/INCLUDE:_perfetto_thread_callback_base")
+#endif
+
+namespace perfetto {
+
+namespace {
+
+class PlatformWindows : public Platform {
+ public:
+ static PlatformWindows* instance;
+ PlatformWindows();
+ ~PlatformWindows() override;
+
+ ThreadLocalObject* GetOrCreateThreadLocalObject() override;
+ std::unique_ptr<base::TaskRunner> CreateTaskRunner(
+ const CreateTaskRunnerArgs&) override;
+ std::string GetCurrentProcessName() override;
+ void OnThreadExit();
+
+ private:
+ DWORD tls_key_{};
+};
+
+using ThreadLocalObject = Platform::ThreadLocalObject;
+
+// static
+PlatformWindows* PlatformWindows::instance = nullptr;
+
+PlatformWindows::PlatformWindows() {
+ instance = this;
+ tls_key_ = ::TlsAlloc();
+ PERFETTO_CHECK(tls_key_ != TLS_OUT_OF_INDEXES);
+}
+
+PlatformWindows::~PlatformWindows() {
+ ::TlsFree(tls_key_);
+ instance = nullptr;
+}
+
+void PlatformWindows::OnThreadExit() {
+ auto tls = static_cast<ThreadLocalObject*>(::TlsGetValue(tls_key_));
+ if (tls) {
+ // At this point we rely on the TLS object to be still set to the TracingTLS
+ // we are deleting. See comments in TracingTLS::~TracingTLS().
+ delete tls;
+ }
+}
+
+ThreadLocalObject* PlatformWindows::GetOrCreateThreadLocalObject() {
+ void* tls_ptr = ::TlsGetValue(tls_key_);
+
+ auto* tls = static_cast<ThreadLocalObject*>(tls_ptr);
+ if (!tls) {
+ tls = ThreadLocalObject::CreateInstance().release();
+ ::TlsSetValue(tls_key_, tls);
+ }
+ return tls;
+}
+
+std::unique_ptr<base::TaskRunner> PlatformWindows::CreateTaskRunner(
+ const CreateTaskRunnerArgs& args) {
+ return std::unique_ptr<base::TaskRunner>(new base::ThreadTaskRunner(
+ base::ThreadTaskRunner::CreateAndStart(args.name_for_debugging)));
+}
+
+std::string PlatformWindows::GetCurrentProcessName() {
+ char buf[MAX_PATH];
+ auto len = ::GetModuleFileNameA(nullptr /*current*/, buf, sizeof(buf));
+ std::string name(buf, static_cast<size_t>(len));
+ size_t sep = name.find_last_of('\\');
+ if (sep != std::string::npos)
+ name = name.substr(sep + 1);
+ return name;
+}
+
+} // namespace
+
+// static
+Platform* Platform::GetDefaultPlatform() {
+ static PlatformWindows* thread_safe_init_instance = new PlatformWindows();
+ return thread_safe_init_instance;
+}
+
+} // namespace perfetto
+
+// -----------------------
+// Thread-local destructor
+// -----------------------
+
+// .CRT$XLA to .CRT$XLZ is an array of PIMAGE_TLS_CALLBACK pointers that are
+// called automatically by the OS loader code (not the CRT) when the module is
+// loaded and on thread creation. They are NOT called if the module has been
+// loaded by a LoadLibrary() call. It must have implicitly been loaded at
+// process startup.
+// See VC\crt\src\tlssup.c for reference.
+
+// extern "C" suppresses C++ name mangling so we know the symbol name for the
+// linker /INCLUDE:symbol pragma above.
+extern "C" {
+// The linker must not discard perfetto_thread_callback_base. (We force a
+// reference to this variable with a linker /INCLUDE:symbol pragma to ensure
+// that.) If this variable is discarded, the OnThreadExit function will never be
+// called.
+
+void NTAPI PerfettoOnThreadExit(PVOID, DWORD, PVOID);
+void NTAPI PerfettoOnThreadExit(PVOID, DWORD reason, PVOID) {
+ if (reason == DLL_THREAD_DETACH || reason == DLL_PROCESS_DETACH) {
+ if (perfetto::PlatformWindows::instance)
+ perfetto::PlatformWindows::instance->OnThreadExit();
+ }
+}
+
+#ifdef _WIN64
+
+// .CRT section is merged with .rdata on x64 so it must be constant data.
+#pragma const_seg(".CRT$XLP")
+
+// When defining a const variable, it must have external linkage to be sure the
+// linker doesn't discard it.
+extern const PIMAGE_TLS_CALLBACK perfetto_thread_callback_base;
+const PIMAGE_TLS_CALLBACK perfetto_thread_callback_base = PerfettoOnThreadExit;
+
+// Reset the default section.
+#pragma const_seg()
+
+#else // _WIN64
+
+#pragma data_seg(".CRT$XLP")
+PIMAGE_TLS_CALLBACK perfetto_thread_callback_base = PerfettoOnThreadExit;
+// Reset the default section.
+#pragma data_seg()
+
+#endif // _WIN64
+
+} // extern "C"
+
+#endif // OS_WIN
+
diff --git a/sdk/perfetto.h b/sdk/perfetto.h
new file mode 100644
index 000000000..84677ac18
--- /dev/null
+++ b/sdk/perfetto.h
@@ -0,0 +1,164605 @@
+// Copyright (C) 2019 The Android Open Source Project
+//
+// Licensed under the Apache License, Version 2.0 (the "License");
+// you may not use this file except in compliance with the License.
+// You may obtain a copy of the License at
+//
+// http://www.apache.org/licenses/LICENSE-2.0
+//
+// Unless required by applicable law or agreed to in writing, software
+// distributed under the License is distributed on an "AS IS" BASIS,
+// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+// See the License for the specific language governing permissions and
+// limitations under the License.
+//
+// This file is automatically generated by gen_amalgamated. Do not edit.
+
+// gen_amalgamated begin header: include/perfetto/tracing.h
+// gen_amalgamated begin header: include/perfetto/base/time.h
+// gen_amalgamated begin header: include/perfetto/base/build_config.h
+// gen_amalgamated begin header: gen/build_config/perfetto_build_flags.h
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// Generated by write_buildflag_header.py
+
+// fix_include_guards: off
+#ifndef GEN_BUILD_CONFIG_PERFETTO_BUILD_FLAGS_H_
+#define GEN_BUILD_CONFIG_PERFETTO_BUILD_FLAGS_H_
+
+// clang-format off
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_ANDROID_BUILD() (0)
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_CHROMIUM_BUILD() (0)
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_STANDALONE_BUILD() (0)
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_START_DAEMONS() (1)
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_IPC() (1)
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_WATCHDOG() (0)
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_COMPONENT_BUILD() (0)
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_FORCE_DLOG_ON() (0)
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_FORCE_DLOG_OFF() (0)
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_FORCE_DCHECK_ON() (0)
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_FORCE_DCHECK_OFF() (0)
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_VERBOSE_LOGS() (1)
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_VERSION_GEN() (1)
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_TP_PERCENTILE() (0)
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_TP_LINENOISE() (0)
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_TP_HTTPD() (0)
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_TP_JSON() (1)
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_LOCAL_SYMBOLIZER() (0)
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_ZLIB() (0)
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_TRACED_PERF() (0)
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_HEAPPROFD() (0)
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_STDERR_CRASH_DUMP() (0)
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_X64_CPU_OPT() (0)
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_LLVM_DEMANGLE() (0)
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_SYSTEM_CONSUMER() (1)
+
+// clang-format on
+#endif // GEN_BUILD_CONFIG_PERFETTO_BUILD_FLAGS_H_
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_BASE_BUILD_CONFIG_H_
+#define INCLUDE_PERFETTO_BASE_BUILD_CONFIG_H_
+
+// Allows to define build flags that give a compiler error if the header that
+// defined the flag is not included, instead of silently ignoring the #if block.
+#define PERFETTO_BUILDFLAG_CAT_INDIRECT(a, b) a##b
+#define PERFETTO_BUILDFLAG_CAT(a, b) PERFETTO_BUILDFLAG_CAT_INDIRECT(a, b)
+#define PERFETTO_BUILDFLAG(flag) \
+ (PERFETTO_BUILDFLAG_CAT(PERFETTO_BUILDFLAG_DEFINE_, flag)())
+
+#if defined(__ANDROID__)
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_ANDROID() 1
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_LINUX() 0
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_WIN() 0
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_APPLE() 0
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_MAC() 0
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_IOS() 0
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_WASM() 0
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_FUCHSIA() 0
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_NACL() 0
+#elif defined(__APPLE__)
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_ANDROID() 0
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_APPLE() 1
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_LINUX() 0
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_WIN() 0
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_WASM() 0
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_FUCHSIA() 0
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_NACL() 0
+// Include TARGET_OS_IPHONE when on __APPLE__ systems.
+#include <TargetConditionals.h>
+#if defined(TARGET_OS_IPHONE) && TARGET_OS_IPHONE
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_MAC() 0
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_IOS() 1
+#else
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_MAC() 1
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_IOS() 0
+#endif
+#elif defined(__linux__)
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_ANDROID() 0
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_LINUX() 1
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_WIN() 0
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_APPLE() 0
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_MAC() 0
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_IOS() 0
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_WASM() 0
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_FUCHSIA() 0
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_NACL() 0
+#elif defined(_WIN32)
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_ANDROID() 0
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_LINUX() 0
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_WIN() 1
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_APPLE() 0
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_MAC() 0
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_IOS() 0
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_WASM() 0
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_FUCHSIA() 0
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_NACL() 0
+#elif defined(__EMSCRIPTEN__)
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_ANDROID() 0
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_LINUX() 0
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_WIN() 0
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_APPLE() 0
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_MAC() 0
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_IOS() 0
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_WASM() 1
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_FUCHSIA() 0
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_NACL() 0
+#elif defined(__Fuchsia__)
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_ANDROID() 0
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_APPLE() 0
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_MAC() 0
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_IOS() 0
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_LINUX() 0
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_WIN() 0
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_WASM() 0
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_FUCHSIA() 1
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_NACL() 0
+#elif defined(__native_client__)
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_ANDROID() 0
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_LINUX() 0
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_WIN() 0
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_APPLE() 0
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_MAC() 0
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_IOS() 0
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_WASM() 0
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_FUCHSIA() 0
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_OS_NACL() 1
+#else
+#error OS not supported (see build_config.h)
+#endif
+
+#if defined(__clang__)
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_COMPILER_CLANG() 1
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_COMPILER_GCC() 0
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_COMPILER_MSVC() 0
+#elif defined(__GNUC__) // Careful: Clang also defines this!
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_COMPILER_CLANG() 0
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_COMPILER_GCC() 1
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_COMPILER_MSVC() 0
+#elif defined(_MSC_VER)
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_COMPILER_CLANG() 0
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_COMPILER_GCC() 0
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_COMPILER_MSVC() 1
+#else
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_COMPILER_CLANG() 0
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_COMPILER_GCC() 0
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_COMPILER_MSVC() 0
+#endif
+
+#if defined(PERFETTO_BUILD_WITH_ANDROID_USERDEBUG)
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_ANDROID_USERDEBUG_BUILD() 1
+#else
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_ANDROID_USERDEBUG_BUILD() 0
+#endif
+
+// Processor architecture detection. For more info on what's defined, see:
+// http://msdn.microsoft.com/en-us/library/b0084kay.aspx
+// http://www.agner.org/optimize/calling_conventions.pdf
+// or with gcc, run: "echo | gcc -E -dM -"
+#if defined(__aarch64__) || defined(_M_ARM64)
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_ARCH_CPU_ARM64() 1
+#else
+#define PERFETTO_BUILDFLAG_DEFINE_PERFETTO_ARCH_CPU_ARM64() 0
+#endif
+
+// perfetto_build_flags.h contains the tweakable build flags defined via GN.
+// - In GN builds (e.g., standalone, chromium, v8) this file is generated at
+// build time via the gen_rule //gn/gen_buildflags.
+// - In Android in-tree builds, this file is generated by tools/gen_android_bp
+// and checked in into include/perfetto/base/build_configs/android_tree/. The
+// default cflags add this path to the default include path.
+// - Similarly, in bazel builds, this file is generated by tools/gen_bazel and
+// checked in into include/perfetto/base/build_configs/bazel/.
+// - In amalgamated builds, this file is generated by tools/gen_amalgamated and
+// added to the amalgamated headers.
+// gen_amalgamated expanded: #include "perfetto_build_flags.h" // no-include-violation-check
+
+#endif // INCLUDE_PERFETTO_BASE_BUILD_CONFIG_H_
+// gen_amalgamated begin header: include/perfetto/base/logging.h
+// gen_amalgamated begin header: include/perfetto/base/compiler.h
+// gen_amalgamated begin header: include/perfetto/public/compiler.h
+/*
+ * Copyright (C) 2022 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_PUBLIC_COMPILER_H_
+#define INCLUDE_PERFETTO_PUBLIC_COMPILER_H_
+
+#include <stddef.h>
+
+#if defined(__GNUC__) || defined(__clang__)
+#define PERFETTO_LIKELY(_x) __builtin_expect(!!(_x), 1)
+#define PERFETTO_UNLIKELY(_x) __builtin_expect(!!(_x), 0)
+#else
+#define PERFETTO_LIKELY(_x) (_x)
+#define PERFETTO_UNLIKELY(_x) (_x)
+#endif
+
+// PERFETTO_STATIC_CAST(TYPE, VAL): avoids the -Wold-style-cast warning when
+// writing code that needs to be compiled as C and C++.
+#ifdef __cplusplus
+#define PERFETTO_STATIC_CAST(TYPE, VAL) static_cast<TYPE>(VAL)
+#else
+#define PERFETTO_STATIC_CAST(TYPE, VAL) ((TYPE)(VAL))
+#endif
+
+// PERFETTO_REINTERPRET_CAST(TYPE, VAL): avoids the -Wold-style-cast warning
+// when writing code that needs to be compiled as C and C++.
+#ifdef __cplusplus
+#define PERFETTO_REINTERPRET_CAST(TYPE, VAL) reinterpret_cast<TYPE>(VAL)
+#else
+#define PERFETTO_REINTERPRET_CAST(TYPE, VAL) ((TYPE)(VAL))
+#endif
+
+// PERFETTO_NULL: avoids the -Wzero-as-null-pointer-constant warning when
+// writing code that needs to be compiled as C and C++.
+#ifdef __cplusplus
+#define PERFETTO_NULL nullptr
+#else
+#define PERFETTO_NULL NULL
+#endif
+
+#endif // INCLUDE_PERFETTO_PUBLIC_COMPILER_H_
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_BASE_COMPILER_H_
+#define INCLUDE_PERFETTO_BASE_COMPILER_H_
+
+#include <stddef.h>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/public/compiler.h"
+
+// __has_attribute is supported only by clang and recent versions of GCC.
+// Add a layer to wrap the __has_attribute macro.
+#if defined(__has_attribute)
+#define PERFETTO_HAS_ATTRIBUTE(x) __has_attribute(x)
+#else
+#define PERFETTO_HAS_ATTRIBUTE(x) 0
+#endif
+
+#if defined(__GNUC__) || defined(__clang__)
+#define PERFETTO_WARN_UNUSED_RESULT __attribute__((warn_unused_result))
+#else
+#define PERFETTO_WARN_UNUSED_RESULT
+#endif
+
+#if defined(__GNUC__) || defined(__clang__)
+#define PERFETTO_UNUSED __attribute__((unused))
+#else
+#define PERFETTO_UNUSED
+#endif
+
+#if defined(__clang__)
+#define PERFETTO_ALWAYS_INLINE __attribute__((__always_inline__))
+#define PERFETTO_NO_INLINE __attribute__((__noinline__))
+#else
+// GCC is too pedantic and often fails with the error:
+// "always_inline function might not be inlinable"
+#define PERFETTO_ALWAYS_INLINE
+#define PERFETTO_NO_INLINE
+#endif
+
+#if defined(__GNUC__) || defined(__clang__)
+#define PERFETTO_NORETURN __attribute__((__noreturn__))
+#else
+#define PERFETTO_NORETURN __declspec(noreturn)
+#endif
+
+#if defined(__GNUC__) || defined(__clang__)
+#define PERFETTO_DEBUG_FUNCTION_IDENTIFIER() __PRETTY_FUNCTION__
+#elif defined(_MSC_VER)
+#define PERFETTO_DEBUG_FUNCTION_IDENTIFIER() __FUNCSIG__
+#else
+#define PERFETTO_DEBUG_FUNCTION_IDENTIFIER() \
+ static_assert(false, "Not implemented for this compiler")
+#endif
+
+#if defined(__GNUC__) || defined(__clang__)
+#define PERFETTO_PRINTF_FORMAT(x, y) \
+ __attribute__((__format__(__printf__, x, y)))
+#else
+#define PERFETTO_PRINTF_FORMAT(x, y)
+#endif
+
+#if defined(__GNUC__) || defined(__clang__)
+#define PERFETTO_POPCOUNT(x) __builtin_popcountll(x)
+#else
+#include <intrin.h>
+#define PERFETTO_POPCOUNT(x) __popcnt64(x)
+#endif
+
+#if defined(__clang__)
+#if __has_feature(address_sanitizer) || defined(__SANITIZE_ADDRESS__)
+extern "C" void __asan_poison_memory_region(void const volatile*, size_t);
+extern "C" void __asan_unpoison_memory_region(void const volatile*, size_t);
+#define PERFETTO_ASAN_POISON(a, s) __asan_poison_memory_region((a), (s))
+#define PERFETTO_ASAN_UNPOISON(a, s) __asan_unpoison_memory_region((a), (s))
+#else
+#define PERFETTO_ASAN_POISON(addr, size)
+#define PERFETTO_ASAN_UNPOISON(addr, size)
+#endif // __has_feature(address_sanitizer)
+#else
+#define PERFETTO_ASAN_POISON(addr, size)
+#define PERFETTO_ASAN_UNPOISON(addr, size)
+#endif // __clang__
+
+#if defined(__GNUC__) || defined(__clang__)
+#define PERFETTO_IS_LITTLE_ENDIAN() __BYTE_ORDER__ == __ORDER_LITTLE_ENDIAN__
+#else
+// Assume all MSVC targets are little endian.
+#define PERFETTO_IS_LITTLE_ENDIAN() 1
+#endif
+
+// This is used for exporting xxxMain() symbols (e.g., PerfettoCmdMain,
+// ProbesMain) from libperfetto.so when the GN arg monolithic_binaries = false.
+#if defined(__GNUC__) || defined(__clang__)
+#define PERFETTO_EXPORT_ENTRYPOINT __attribute__((visibility("default")))
+#else
+// TODO(primiano): on Windows this should be a pair of dllexport/dllimport. But
+// that requires a -DXXX_IMPLEMENTATION depending on whether we are on the
+// impl-site or call-site. Right now it's not worth the trouble as we
+// force-export the xxxMain() symbols only on Android, where we pack all the
+// code for N binaries into one .so to save binary size. On Windows we support
+// only monolithic binaries, as they are easier to deal with.
+#define PERFETTO_EXPORT_ENTRYPOINT
+#endif
+
+// Disables thread safety analysis for functions where the compiler can't
+// accurate figure out which locks are being held.
+#if defined(__clang__)
+#define PERFETTO_NO_THREAD_SAFETY_ANALYSIS \
+ __attribute__((no_thread_safety_analysis))
+#else
+#define PERFETTO_NO_THREAD_SAFETY_ANALYSIS
+#endif
+
+// Disables undefined behavior analysis for a function.
+#if defined(__clang__)
+#define PERFETTO_NO_SANITIZE_UNDEFINED __attribute__((no_sanitize("undefined")))
+#else
+#define PERFETTO_NO_SANITIZE_UNDEFINED
+#endif
+
+// Avoid calling the exit-time destructor on an object with static lifetime.
+#if PERFETTO_HAS_ATTRIBUTE(no_destroy)
+#define PERFETTO_HAS_NO_DESTROY() 1
+#define PERFETTO_NO_DESTROY __attribute__((no_destroy))
+#else
+#define PERFETTO_HAS_NO_DESTROY() 0
+#define PERFETTO_NO_DESTROY
+#endif
+
+// Macro for telling -Wimplicit-fallthrough that a fallthrough is intentional.
+#define PERFETTO_FALLTHROUGH [[fallthrough]]
+
+namespace perfetto {
+namespace base {
+
+template <typename... T>
+inline void ignore_result(const T&...) {}
+
+} // namespace base
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_BASE_COMPILER_H_
+// gen_amalgamated begin header: include/perfetto/base/export.h
+// gen_amalgamated begin header: include/perfetto/public/abi/export.h
+/*
+ * Copyright (C) 2022 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_PUBLIC_ABI_EXPORT_H_
+#define INCLUDE_PERFETTO_PUBLIC_ABI_EXPORT_H_
+
+#ifdef _WIN32
+#define PERFETTO_INTERNAL_DLL_EXPORT __declspec(dllexport)
+#define PERFETTO_INTERNAL_DLL_IMPORT __declspec(dllimport)
+#else
+#define PERFETTO_INTERNAL_DLL_EXPORT __attribute__((visibility("default")))
+#define PERFETTO_INTERNAL_DLL_IMPORT
+#endif
+
+// PERFETTO_SDK_EXPORT: Exports a symbol from the perfetto SDK shared library.
+//
+// This is controlled by two defines (that likely come from the compiler command
+// line):
+// * PERFETTO_SDK_DISABLE_SHLIB_EXPORT: If this is defined, no export
+// annotations are added. This might be useful when static linking.
+// * PERFETTO_SDK_SHLIB_IMPLEMENTATION: This must be defined when compiling the
+// shared library itself (in order to export the symbols), but must be
+// undefined when compiling objects that use the shared library (in order to
+// import the symbols).
+#if !defined(PERFETTO_SDK_DISABLE_SHLIB_EXPORT)
+#if defined(PERFETTO_SHLIB_SDK_IMPLEMENTATION)
+#define PERFETTO_SDK_EXPORT PERFETTO_INTERNAL_DLL_EXPORT
+#else
+#define PERFETTO_SDK_EXPORT PERFETTO_INTERNAL_DLL_IMPORT
+#endif
+#else // defined(PERFETTO_SDK_DISABLE_SHLIB_EXPORT)
+#define PERFETTO_SDK_EXPORT
+#endif // defined(PERFETTO_SDK_DISABLE_SHLIB_EXPORT)
+
+#endif // INCLUDE_PERFETTO_PUBLIC_ABI_EXPORT_H_
+/*
+ * Copyright (C) 2018 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_BASE_EXPORT_H_
+#define INCLUDE_PERFETTO_BASE_EXPORT_H_
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+// gen_amalgamated expanded: #include "perfetto/public/abi/export.h"
+
+// PERFETTO_EXPORT_COMPONENT: Exports a symbol among C++ components when
+// building with is_component = true (mostly used by chromium build).
+#if PERFETTO_BUILDFLAG(PERFETTO_COMPONENT_BUILD)
+
+#if defined(PERFETTO_IMPLEMENTATION)
+#define PERFETTO_EXPORT_COMPONENT PERFETTO_INTERNAL_DLL_EXPORT
+#else
+#define PERFETTO_EXPORT_COMPONENT PERFETTO_INTERNAL_DLL_IMPORT
+#endif
+
+#else // !PERFETTO_BUILDFLAG(PERFETTO_COMPONENT_BUILD)
+
+#if !defined(PERFETTO_EXPORT_COMPONENT)
+#define PERFETTO_EXPORT_COMPONENT
+#endif // !defined(PERFETTO_EXPORT_COMPONENT)
+
+#endif // PERFETTO_BUILDFLAG(PERFETTO_COMPONENT_BUILD)
+
+#endif // INCLUDE_PERFETTO_BASE_EXPORT_H_
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_BASE_LOGGING_H_
+#define INCLUDE_PERFETTO_BASE_LOGGING_H_
+
+#include <errno.h>
+#include <string.h> // For strerror.
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+// gen_amalgamated expanded: #include "perfetto/base/compiler.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+#if defined(__GNUC__) || defined(__clang__)
+// Ignore GCC warning about a missing argument for a variadic macro parameter.
+#pragma GCC system_header
+#endif
+
+#if PERFETTO_BUILDFLAG(PERFETTO_FORCE_DCHECK_ON)
+#define PERFETTO_DCHECK_IS_ON() 1
+#elif PERFETTO_BUILDFLAG(PERFETTO_FORCE_DCHECK_OFF)
+#define PERFETTO_DCHECK_IS_ON() 0
+#elif defined(DCHECK_ALWAYS_ON) || \
+ (!defined(NDEBUG) && (PERFETTO_BUILDFLAG(PERFETTO_STANDALONE_BUILD) || \
+ PERFETTO_BUILDFLAG(PERFETTO_CHROMIUM_BUILD) || \
+ PERFETTO_BUILDFLAG(PERFETTO_ANDROID_BUILD)))
+#define PERFETTO_DCHECK_IS_ON() 1
+#else
+#define PERFETTO_DCHECK_IS_ON() 0
+#endif
+
+#if PERFETTO_BUILDFLAG(PERFETTO_FORCE_DLOG_ON)
+#define PERFETTO_DLOG_IS_ON() 1
+#elif PERFETTO_BUILDFLAG(PERFETTO_FORCE_DLOG_OFF)
+#define PERFETTO_DLOG_IS_ON() 0
+#else
+#define PERFETTO_DLOG_IS_ON() PERFETTO_DCHECK_IS_ON()
+#endif
+
+#if defined(PERFETTO_ANDROID_ASYNC_SAFE_LOG)
+#if !PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID) || \
+ !PERFETTO_BUILDFLAG(PERFETTO_ANDROID_BUILD)
+#error "Async-safe logging is limited to Android tree builds"
+#endif
+// For binaries which need a very lightweight logging implementation.
+// Note that this header is incompatible with android/log.h.
+#include <async_safe/log.h>
+#elif PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID)
+// Normal android logging.
+#include <android/log.h>
+#endif
+
+// Enable the "Print the most recent PERFETTO_LOG(s) before crashing" feature
+// on Android in-tree builds and on standalone builds (mainly for testing).
+// This is deliberately no PERFETTO_OS_ANDROID because we don't want this
+// feature when perfetto is embedded in other Android projects (e.g. SDK).
+// TODO(b/203795298): TFLite is using the client library in blaze builds and is
+// targeting API 19. For now disable the feature based on API level.
+#if defined(PERFETTO_ANDROID_ASYNC_SAFE_LOG)
+#define PERFETTO_ENABLE_LOG_RING_BUFFER() 0
+#elif PERFETTO_BUILDFLAG(PERFETTO_ANDROID_BUILD)
+#define PERFETTO_ENABLE_LOG_RING_BUFFER() 1
+#elif PERFETTO_BUILDFLAG(PERFETTO_STANDALONE_BUILD) && \
+ (!PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID) || \
+ (defined(__ANDROID_API__) && __ANDROID_API__ >= 21))
+#define PERFETTO_ENABLE_LOG_RING_BUFFER() 1
+#else
+#define PERFETTO_ENABLE_LOG_RING_BUFFER() 0
+#endif
+
+namespace perfetto {
+namespace base {
+
+// Constexpr functions to extract basename(__FILE__), e.g.: ../foo/f.c -> f.c .
+constexpr const char* StrEnd(const char* s) {
+ return *s ? StrEnd(s + 1) : s;
+}
+
+constexpr const char* BasenameRecursive(const char* s,
+ const char* begin,
+ const char* end) {
+ return (*s == '/' && s < end)
+ ? (s + 1)
+ : ((s > begin) ? BasenameRecursive(s - 1, begin, end) : s);
+}
+
+constexpr const char* Basename(const char* str) {
+ return BasenameRecursive(StrEnd(str), str, StrEnd(str));
+}
+
+enum LogLev { kLogDebug = 0, kLogInfo, kLogImportant, kLogError };
+
+struct LogMessageCallbackArgs {
+ LogLev level;
+ int line;
+ const char* filename;
+ const char* message;
+};
+
+using LogMessageCallback = void (*)(LogMessageCallbackArgs);
+
+// This is not thread safe and must be called before using tracing from other
+// threads.
+PERFETTO_EXPORT_COMPONENT void SetLogMessageCallback(
+ LogMessageCallback callback);
+
+PERFETTO_EXPORT_COMPONENT void LogMessage(LogLev,
+ const char* fname,
+ int line,
+ const char* fmt,
+ ...) PERFETTO_PRINTF_FORMAT(4, 5);
+
+// This is defined in debug_crash_stack_trace.cc, but that is only linked in
+// standalone && debug builds, see enable_perfetto_stderr_crash_dump in
+// perfetto.gni.
+PERFETTO_EXPORT_COMPONENT void EnableStacktraceOnCrashForDebug();
+
+#if PERFETTO_ENABLE_LOG_RING_BUFFER()
+// Gets a snapshot of the logs from the internal log ring buffer and:
+// - On Android in-tree builds: Passes that to android_set_abort_message().
+// That will attach the logs to the crash report.
+// - On standalone builds (all otther OSes) prints that on stderr.
+// This function must called only once, right before inducing a crash (This is
+// because android_set_abort_message() can only be called once).
+PERFETTO_EXPORT_COMPONENT void MaybeSerializeLastLogsForCrashReporting();
+#else
+inline void MaybeSerializeLastLogsForCrashReporting() {}
+#endif
+
+#if defined(PERFETTO_ANDROID_ASYNC_SAFE_LOG)
+#define PERFETTO_XLOG(level, fmt, ...) \
+ do { \
+ async_safe_format_log((ANDROID_LOG_DEBUG + level), "perfetto", \
+ "%s:%d " fmt, ::perfetto::base::Basename(__FILE__), \
+ __LINE__, ##__VA_ARGS__); \
+ } while (0)
+#elif defined(PERFETTO_DISABLE_LOG)
+#define PERFETTO_XLOG(level, fmt, ...) ::perfetto::base::ignore_result(level, \
+ fmt, ##__VA_ARGS__)
+#else
+#define PERFETTO_XLOG(level, fmt, ...) \
+ ::perfetto::base::LogMessage(level, ::perfetto::base::Basename(__FILE__), \
+ __LINE__, fmt, ##__VA_ARGS__)
+#endif
+
+#if defined(_MSC_VER)
+#define PERFETTO_IMMEDIATE_CRASH() \
+ do { \
+ ::perfetto::base::MaybeSerializeLastLogsForCrashReporting(); \
+ __debugbreak(); \
+ __assume(0); \
+ } while (0)
+#else
+#define PERFETTO_IMMEDIATE_CRASH() \
+ do { \
+ ::perfetto::base::MaybeSerializeLastLogsForCrashReporting(); \
+ __builtin_trap(); \
+ __builtin_unreachable(); \
+ } while (0)
+#endif
+
+#if PERFETTO_BUILDFLAG(PERFETTO_VERBOSE_LOGS)
+#define PERFETTO_LOG(fmt, ...) \
+ PERFETTO_XLOG(::perfetto::base::kLogInfo, fmt, ##__VA_ARGS__)
+#else // PERFETTO_BUILDFLAG(PERFETTO_VERBOSE_LOGS)
+#define PERFETTO_LOG(...) ::perfetto::base::ignore_result(__VA_ARGS__)
+#endif // PERFETTO_BUILDFLAG(PERFETTO_VERBOSE_LOGS)
+
+#define PERFETTO_ILOG(fmt, ...) \
+ PERFETTO_XLOG(::perfetto::base::kLogImportant, fmt, ##__VA_ARGS__)
+#define PERFETTO_ELOG(fmt, ...) \
+ PERFETTO_XLOG(::perfetto::base::kLogError, fmt, ##__VA_ARGS__)
+#define PERFETTO_FATAL(fmt, ...) \
+ do { \
+ PERFETTO_PLOG(fmt, ##__VA_ARGS__); \
+ PERFETTO_IMMEDIATE_CRASH(); \
+ } while (0)
+
+#if defined(__GNUC__) || defined(__clang__)
+#define PERFETTO_PLOG(x, ...) \
+ PERFETTO_ELOG(x " (errno: %d, %s)", ##__VA_ARGS__, errno, strerror(errno))
+#else
+// MSVC expands __VA_ARGS__ in a different order. Give up, not worth it.
+#define PERFETTO_PLOG PERFETTO_ELOG
+#endif
+
+#define PERFETTO_CHECK(x) \
+ do { \
+ if (PERFETTO_UNLIKELY(!(x))) { \
+ PERFETTO_PLOG("%s", "PERFETTO_CHECK(" #x ")"); \
+ PERFETTO_IMMEDIATE_CRASH(); \
+ } \
+ } while (0)
+
+#if PERFETTO_DLOG_IS_ON()
+
+#define PERFETTO_DLOG(fmt, ...) \
+ PERFETTO_XLOG(::perfetto::base::kLogDebug, fmt, ##__VA_ARGS__)
+
+#if defined(__GNUC__) || defined(__clang__)
+#define PERFETTO_DPLOG(x, ...) \
+ PERFETTO_DLOG(x " (errno: %d, %s)", ##__VA_ARGS__, errno, strerror(errno))
+#else
+// MSVC expands __VA_ARGS__ in a different order. Give up, not worth it.
+#define PERFETTO_DPLOG PERFETTO_DLOG
+#endif
+
+#else // PERFETTO_DLOG_IS_ON()
+
+#define PERFETTO_DLOG(...) ::perfetto::base::ignore_result(__VA_ARGS__)
+#define PERFETTO_DPLOG(...) ::perfetto::base::ignore_result(__VA_ARGS__)
+
+#endif // PERFETTO_DLOG_IS_ON()
+
+#if PERFETTO_DCHECK_IS_ON()
+
+#define PERFETTO_DCHECK(x) PERFETTO_CHECK(x)
+#define PERFETTO_DFATAL(...) PERFETTO_FATAL(__VA_ARGS__)
+#define PERFETTO_DFATAL_OR_ELOG(...) PERFETTO_DFATAL(__VA_ARGS__)
+
+#else // PERFETTO_DCHECK_IS_ON()
+
+#define PERFETTO_DCHECK(x) \
+ do { \
+ } while (false && (x))
+
+#define PERFETTO_DFATAL(...) ::perfetto::base::ignore_result(__VA_ARGS__)
+#define PERFETTO_DFATAL_OR_ELOG(...) PERFETTO_ELOG(__VA_ARGS__)
+
+#endif // PERFETTO_DCHECK_IS_ON()
+
+} // namespace base
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_BASE_LOGGING_H_
+/*
+ * Copyright (C) 2018 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_BASE_TIME_H_
+#define INCLUDE_PERFETTO_BASE_TIME_H_
+
+#include <time.h>
+
+#include <chrono>
+#include <optional>
+#include <string>
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_APPLE)
+#include <mach/mach_init.h>
+#include <mach/mach_port.h>
+#include <mach/mach_time.h>
+#include <mach/thread_act.h>
+#endif
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WASM)
+#include <emscripten/emscripten.h>
+#endif
+
+namespace perfetto {
+namespace base {
+
+using TimeSeconds = std::chrono::seconds;
+using TimeMillis = std::chrono::milliseconds;
+using TimeNanos = std::chrono::nanoseconds;
+
+inline TimeNanos FromPosixTimespec(const struct timespec& ts) {
+ return TimeNanos(ts.tv_sec * 1000000000LL + ts.tv_nsec);
+}
+
+void SleepMicroseconds(unsigned interval_us);
+void InitializeTime();
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+
+TimeNanos GetWallTimeNs();
+TimeNanos GetThreadCPUTimeNs();
+inline TimeNanos GetWallTimeRawNs() {
+ return GetWallTimeNs();
+}
+
+// TODO: Clock that counts time during suspend is not implemented on Windows.
+inline TimeNanos GetBootTimeNs() {
+ return GetWallTimeNs();
+}
+
+#elif PERFETTO_BUILDFLAG(PERFETTO_OS_APPLE)
+
+inline TimeNanos GetWallTimeNs() {
+ auto init_timebase_info = []() -> mach_timebase_info_data_t {
+ mach_timebase_info_data_t timebase_info;
+ mach_timebase_info(&timebase_info);
+ return timebase_info;
+ };
+
+ static mach_timebase_info_data_t timebase_info = init_timebase_info();
+ uint64_t mach_time = mach_absolute_time();
+
+ // Take the fast path when the conversion is 1:1. The result will for sure fit
+ // into an int_64 because we're going from nanoseconds to microseconds.
+ if (timebase_info.numer == timebase_info.denom) {
+ return TimeNanos(mach_time);
+ }
+
+ // Nanoseconds is mach_time * timebase.numer // timebase.denom. Divide first
+ // to reduce the chance of overflow. Also stash the remainder right now,
+ // a likely byproduct of the division.
+ uint64_t nanoseconds = mach_time / timebase_info.denom;
+ const uint64_t mach_time_remainder = mach_time % timebase_info.denom;
+
+ // Now multiply, keeping an eye out for overflow.
+ PERFETTO_CHECK(!__builtin_umulll_overflow(nanoseconds, timebase_info.numer,
+ &nanoseconds));
+
+ // By dividing first we lose precision. Regain it by adding back the
+ // nanoseconds from the remainder, with an eye out for overflow.
+ uint64_t least_significant_nanoseconds =
+ (mach_time_remainder * timebase_info.numer) / timebase_info.denom;
+ PERFETTO_CHECK(!__builtin_uaddll_overflow(
+ nanoseconds, least_significant_nanoseconds, &nanoseconds));
+
+ return TimeNanos(nanoseconds);
+}
+
+inline TimeNanos GetWallTimeRawNs() {
+ return GetWallTimeNs();
+}
+
+// TODO: Clock that counts time during suspend is not implemented on Mac.
+inline TimeNanos GetBootTimeNs() {
+ return GetWallTimeNs();
+}
+
+// Before MacOS 10.12 clock_gettime() was not implemented.
+#if __MAC_OS_X_VERSION_MIN_REQUIRED < 101200
+inline TimeNanos GetThreadCPUTimeNs() {
+ mach_port_t this_thread = mach_thread_self();
+ mach_msg_type_number_t count = THREAD_BASIC_INFO_COUNT;
+ thread_basic_info_data_t info{};
+ kern_return_t kr =
+ thread_info(this_thread, THREAD_BASIC_INFO,
+ reinterpret_cast<thread_info_t>(&info), &count);
+ mach_port_deallocate(mach_task_self(), this_thread);
+
+ if (kr != KERN_SUCCESS) {
+ PERFETTO_DFATAL("Failed to get CPU time.");
+ return TimeNanos(0);
+ }
+ return TimeNanos(info.user_time.seconds * 1000000000LL +
+ info.user_time.microseconds * 1000LL +
+ info.system_time.seconds * 1000000000LL +
+ info.system_time.microseconds * 1000LL);
+}
+#else
+inline TimeNanos GetThreadCPUTimeNs() {
+ struct timespec ts = {};
+ PERFETTO_CHECK(clock_gettime(CLOCK_THREAD_CPUTIME_ID, &ts) == 0);
+ return FromPosixTimespec(ts);
+}
+#endif
+
+#elif PERFETTO_BUILDFLAG(PERFETTO_OS_WASM)
+
+inline TimeNanos GetWallTimeNs() {
+ return TimeNanos(static_cast<uint64_t>(emscripten_get_now()) * 1000000);
+}
+
+inline TimeNanos GetWallTimeRawNs() {
+ return GetWallTimeNs();
+}
+
+inline TimeNanos GetThreadCPUTimeNs() {
+ return TimeNanos(0);
+}
+
+// TODO: Clock that counts time during suspend is not implemented on WASM.
+inline TimeNanos GetBootTimeNs() {
+ return GetWallTimeNs();
+}
+
+#elif PERFETTO_BUILDFLAG(PERFETTO_OS_NACL)
+
+// Tracing time doesn't need to work on NaCl since its going away shortly. We
+// just need to compile on it. The only function NaCl could support is
+// GetWallTimeNs(), but to prevent false hope we leave it unimplemented.
+
+inline TimeNanos GetWallTimeNs() {
+ return TimeNanos(0);
+}
+
+inline TimeNanos GetWallTimeRawNs() {
+ return TimeNanos(0);
+}
+
+inline TimeNanos GetThreadCPUTimeNs() {
+ return TimeNanos(0);
+}
+
+inline TimeNanos GetBootTimeNs() {
+ return TimeNanos(0);
+}
+
+#else // posix
+
+constexpr clockid_t kWallTimeClockSource = CLOCK_MONOTONIC;
+
+inline TimeNanos GetTimeInternalNs(clockid_t clk_id) {
+ struct timespec ts = {};
+ PERFETTO_CHECK(clock_gettime(clk_id, &ts) == 0);
+ return FromPosixTimespec(ts);
+}
+
+// Return ns from boot. Conversely to GetWallTimeNs, this clock counts also time
+// during suspend (when supported).
+inline TimeNanos GetBootTimeNs() {
+ // Determine if CLOCK_BOOTTIME is available on the first call.
+ static const clockid_t kBootTimeClockSource = [] {
+ struct timespec ts = {};
+ int res = clock_gettime(CLOCK_BOOTTIME, &ts);
+ return res == 0 ? CLOCK_BOOTTIME : kWallTimeClockSource;
+ }();
+ return GetTimeInternalNs(kBootTimeClockSource);
+}
+
+inline TimeNanos GetWallTimeNs() {
+ return GetTimeInternalNs(kWallTimeClockSource);
+}
+
+inline TimeNanos GetWallTimeRawNs() {
+ return GetTimeInternalNs(CLOCK_MONOTONIC_RAW);
+}
+
+inline TimeNanos GetThreadCPUTimeNs() {
+ return GetTimeInternalNs(CLOCK_THREAD_CPUTIME_ID);
+}
+#endif
+
+inline TimeSeconds GetBootTimeS() {
+ return std::chrono::duration_cast<TimeSeconds>(GetBootTimeNs());
+}
+
+inline TimeMillis GetBootTimeMs() {
+ return std::chrono::duration_cast<TimeMillis>(GetBootTimeNs());
+}
+
+inline TimeMillis GetWallTimeMs() {
+ return std::chrono::duration_cast<TimeMillis>(GetWallTimeNs());
+}
+
+inline TimeSeconds GetWallTimeS() {
+ return std::chrono::duration_cast<TimeSeconds>(GetWallTimeNs());
+}
+
+inline struct timespec ToPosixTimespec(TimeMillis time) {
+ struct timespec ts {};
+ const long time_s = static_cast<long>(time.count() / 1000);
+ ts.tv_sec = time_s;
+ ts.tv_nsec = (static_cast<long>(time.count()) - time_s * 1000L) * 1000000L;
+ return ts;
+}
+
+std::string GetTimeFmt(const std::string& fmt);
+
+inline int64_t TimeGm(struct tm* tms) {
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ return static_cast<int64_t>(_mkgmtime(tms));
+#elif PERFETTO_BUILDFLAG(PERFETTO_OS_NACL)
+ // NaCL has no timegm.
+ if (tms) // Kinda if (true), but avoids "mark as noreturn" errors.
+ PERFETTO_FATAL("timegm not supported");
+ return -1;
+#else
+ return static_cast<int64_t>(timegm(tms));
+#endif
+}
+
+// Creates a time_t-compatible timestamp (seconds since epoch) from a tuple of
+// y-m-d-h-m-s. It's a saner version of timegm(). Some remarks:
+// The year is just the actual year (it's Y-1900 in timegm()).
+// The month ranges 1-12 (it's 0-11 in timegm()).
+inline int64_t MkTime(int year, int month, int day, int h, int m, int s) {
+ PERFETTO_DCHECK(year >= 1900);
+ PERFETTO_DCHECK(month > 0 && month <= 12);
+ PERFETTO_DCHECK(day > 0 && day <= 31);
+ struct tm tms {};
+ tms.tm_year = year - 1900;
+ tms.tm_mon = month - 1;
+ tms.tm_mday = day;
+ tms.tm_hour = h;
+ tms.tm_min = m;
+ tms.tm_sec = s;
+ return TimeGm(&tms);
+}
+
+std::optional<int32_t> GetTimezoneOffsetMins();
+
+} // namespace base
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_BASE_TIME_H_
+// gen_amalgamated begin header: include/perfetto/tracing/buffer_exhausted_policy.h
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_TRACING_BUFFER_EXHAUSTED_POLICY_H_
+#define INCLUDE_PERFETTO_TRACING_BUFFER_EXHAUSTED_POLICY_H_
+
+namespace perfetto {
+
+// Determines how SharedMemoryArbiterImpl::GetNewChunk() behaves when no free
+// chunks are available.
+enum class BufferExhaustedPolicy {
+ // SharedMemoryArbiterImpl::GetNewChunk() will stall if no free SMB chunk is
+ // available and wait for the tracing service to free one. Note that this
+ // requires that messages the arbiter sends to the tracing service (from any
+ // TraceWriter thread) will be received by it, even if all TraceWriter threads
+ // are stalled.
+ kStall,
+
+ // SharedMemoryArbiterImpl::GetNewChunk() will return an invalid chunk if no
+ // free SMB chunk is available. In this case, the TraceWriter will fall back
+ // to a garbage chunk and drop written data until acquiring a future chunk
+ // succeeds again.
+ kDrop,
+
+ // TODO(eseckler): Switch to kDrop by default and change the Android code to
+ // explicitly request kStall instead.
+ kDefault = kStall
+};
+
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_TRACING_BUFFER_EXHAUSTED_POLICY_H_
+// gen_amalgamated begin header: include/perfetto/tracing/console_interceptor.h
+// gen_amalgamated begin header: include/perfetto/tracing/interceptor.h
+// gen_amalgamated begin header: include/perfetto/protozero/field.h
+// gen_amalgamated begin header: include/perfetto/protozero/contiguous_memory_range.h
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_PROTOZERO_CONTIGUOUS_MEMORY_RANGE_H_
+#define INCLUDE_PERFETTO_PROTOZERO_CONTIGUOUS_MEMORY_RANGE_H_
+
+#include <assert.h>
+#include <stddef.h>
+#include <stdint.h>
+
+namespace protozero {
+
+// Keep this struct trivially constructible (no ctors, no default initializers).
+struct ContiguousMemoryRange {
+ uint8_t* begin;
+ uint8_t* end; // STL style: one byte past the end of the buffer.
+
+ inline bool is_valid() const { return begin != nullptr; }
+ inline void reset() { begin = nullptr; }
+ inline size_t size() const { return static_cast<size_t>(end - begin); }
+};
+
+} // namespace protozero
+
+#endif // INCLUDE_PERFETTO_PROTOZERO_CONTIGUOUS_MEMORY_RANGE_H_
+// gen_amalgamated begin header: include/perfetto/protozero/proto_utils.h
+// gen_amalgamated begin header: include/perfetto/public/pb_utils.h
+/*
+ * Copyright (C) 2022 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_PUBLIC_PB_UTILS_H_
+#define INCLUDE_PERFETTO_PUBLIC_PB_UTILS_H_
+
+#include <assert.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/public/compiler.h"
+
+// Type of fields that can be found in a protobuf serialized message.
+enum PerfettoPbWireType {
+ PERFETTO_PB_WIRE_TYPE_VARINT = 0,
+ PERFETTO_PB_WIRE_TYPE_FIXED64 = 1,
+ PERFETTO_PB_WIRE_TYPE_DELIMITED = 2,
+ PERFETTO_PB_WIRE_TYPE_FIXED32 = 5,
+};
+
+// Creates a field tag, which encodes the field type and the field id.
+static inline uint32_t PerfettoPbMakeTag(int32_t field_id,
+ enum PerfettoPbWireType wire_type) {
+ return ((PERFETTO_STATIC_CAST(uint32_t, field_id)) << 3) |
+ PERFETTO_STATIC_CAST(uint32_t, wire_type);
+}
+
+enum {
+ // Maximum bytes size of a 64-bit integer encoded as a VarInt.
+ PERFETTO_PB_VARINT_MAX_SIZE_64 = 10,
+ // Maximum bytes size of a 32-bit integer encoded as a VarInt.
+ PERFETTO_PB_VARINT_MAX_SIZE_32 = 5,
+};
+
+// Encodes `value` as a VarInt into `*dst`.
+//
+// `dst` must point into a buffer big enough to represent `value`:
+// PERFETTO_PB_VARINT_MAX_SIZE_* can help.
+static inline uint8_t* PerfettoPbWriteVarInt(uint64_t value, uint8_t* dst) {
+ uint8_t byte;
+ while (value >= 0x80) {
+ byte = (value & 0x7f) | 0x80;
+ *dst++ = byte;
+ value >>= 7;
+ }
+ byte = value & 0x7f;
+ *dst++ = byte;
+
+ return dst;
+}
+
+// Encodes `value` as a fixed32 (little endian) into `*dst`.
+//
+// `dst` must point into a buffer with at least 4 bytes of space.
+static inline uint8_t* PerfettoPbWriteFixed32(uint32_t value, uint8_t* buf) {
+ buf[0] = PERFETTO_STATIC_CAST(uint8_t, value);
+ buf[1] = PERFETTO_STATIC_CAST(uint8_t, value >> 8);
+ buf[2] = PERFETTO_STATIC_CAST(uint8_t, value >> 16);
+ buf[3] = PERFETTO_STATIC_CAST(uint8_t, value >> 24);
+ return buf + 4;
+}
+
+// Encodes `value` as a fixed32 (little endian) into `*dst`.
+//
+// `dst` must point into a buffer with at least 8 bytes of space.
+static inline uint8_t* PerfettoPbWriteFixed64(uint64_t value, uint8_t* buf) {
+ buf[0] = PERFETTO_STATIC_CAST(uint8_t, value);
+ buf[1] = PERFETTO_STATIC_CAST(uint8_t, value >> 8);
+ buf[2] = PERFETTO_STATIC_CAST(uint8_t, value >> 16);
+ buf[3] = PERFETTO_STATIC_CAST(uint8_t, value >> 24);
+ buf[4] = PERFETTO_STATIC_CAST(uint8_t, value >> 32);
+ buf[5] = PERFETTO_STATIC_CAST(uint8_t, value >> 40);
+ buf[6] = PERFETTO_STATIC_CAST(uint8_t, value >> 48);
+ buf[7] = PERFETTO_STATIC_CAST(uint8_t, value >> 56);
+ return buf + 8;
+}
+
+// Parses a VarInt from the encoded buffer [start, end). |end| is STL-style and
+// points one byte past the end of buffer.
+// The parsed int value is stored in the output arg |value|. Returns a pointer
+// to the next unconsumed byte (so start < retval <= end) or |start| if the
+// VarInt could not be fully parsed because there was not enough space in the
+// buffer.
+static inline const uint8_t* PerfettoPbParseVarInt(const uint8_t* start,
+ const uint8_t* end,
+ uint64_t* out_value) {
+ const uint8_t* pos = start;
+ uint64_t value = 0;
+ for (uint32_t shift = 0; pos < end && shift < 64u; shift += 7) {
+ // Cache *pos into |cur_byte| to prevent that the compiler dereferences the
+ // pointer twice (here and in the if() below) due to char* aliasing rules.
+ uint8_t cur_byte = *pos++;
+ value |= PERFETTO_STATIC_CAST(uint64_t, cur_byte & 0x7f) << shift;
+ if ((cur_byte & 0x80) == 0) {
+ // In valid cases we get here.
+ *out_value = value;
+ return pos;
+ }
+ }
+ *out_value = 0;
+ return start;
+}
+
+static inline uint32_t PerfettoPbZigZagEncode32(int32_t value) {
+#if defined(__cplusplus) || \
+ (defined(__STDC_VERSION__) && __STDC_VERSION__ >= 201112L)
+ // Right-shift of negative values is implementation specific.
+ // Assert the implementation does what we expect, which is that shifting an
+ // positive int32_t by 31 gives an all 0 bitmap, and a negative int32_t gives
+ // an all 1 bitmap.
+ static_assert(
+ PERFETTO_STATIC_CAST(uint32_t, INT32_C(-1) >> 31) == ~UINT32_C(0),
+ "implementation does not support assumed rightshift");
+ static_assert(PERFETTO_STATIC_CAST(uint32_t, INT32_C(1) >> 31) == UINT32_C(0),
+ "implementation does not support assumed rightshift");
+#endif
+
+ return (PERFETTO_STATIC_CAST(uint32_t, value) << 1) ^
+ PERFETTO_STATIC_CAST(uint32_t, value >> 31);
+}
+
+static inline uint64_t PerfettoPbZigZagEncode64(int64_t value) {
+#if defined(__cplusplus) || \
+ (defined(__STDC_VERSION__) && __STDC_VERSION__ >= 201112L)
+ // Right-shift of negative values is implementation specific.
+ // Assert the implementation does what we expect, which is that shifting an
+ // positive int64_t by 63 gives an all 0 bitmap, and a negative int64_t gives
+ // an all 1 bitmap.
+ static_assert(
+ PERFETTO_STATIC_CAST(uint64_t, INT64_C(-1) >> 63) == ~UINT64_C(0),
+ "implementation does not support assumed rightshift");
+ static_assert(PERFETTO_STATIC_CAST(uint64_t, INT64_C(1) >> 63) == UINT64_C(0),
+ "implementation does not support assumed rightshift");
+#endif
+
+ return (PERFETTO_STATIC_CAST(uint64_t, value) << 1) ^
+ PERFETTO_STATIC_CAST(uint64_t, value >> 63);
+}
+
+static inline int32_t PerfettoPbZigZagDecode32(uint32_t value) {
+ uint32_t mask =
+ PERFETTO_STATIC_CAST(uint32_t, -PERFETTO_STATIC_CAST(int32_t, value & 1));
+ return PERFETTO_STATIC_CAST(int32_t, ((value >> 1) ^ mask));
+}
+
+static inline int64_t PerfettoPbZigZagDecode64(uint64_t value) {
+ uint64_t mask =
+ PERFETTO_STATIC_CAST(uint64_t, -PERFETTO_STATIC_CAST(int64_t, value & 1));
+ return PERFETTO_STATIC_CAST(int64_t, ((value >> 1) ^ mask));
+}
+
+#endif // INCLUDE_PERFETTO_PUBLIC_PB_UTILS_H_
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_PROTOZERO_PROTO_UTILS_H_
+#define INCLUDE_PERFETTO_PROTOZERO_PROTO_UTILS_H_
+
+#include <stddef.h>
+
+#include <cinttypes>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/public/pb_utils.h"
+
+// Helper macro for the constexpr functions containing
+// the switch statement: if C++14 is supported, this macro
+// resolves to `constexpr` and just `inline` otherwise.
+#if __cpp_constexpr >= 201304
+#define PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE constexpr
+#else
+#define PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE inline
+#endif
+
+namespace protozero {
+namespace proto_utils {
+
+// See https://developers.google.com/protocol-buffers/docs/encoding wire types.
+// This is a type encoded into the proto that provides just enough info to
+// find the length of the following value.
+enum class ProtoWireType : uint32_t {
+ kVarInt = 0,
+ kFixed64 = 1,
+ kLengthDelimited = 2,
+ kFixed32 = 5,
+};
+
+// This is the type defined in the proto for each field. This information
+// is used to decide the translation strategy when writing the trace.
+enum class ProtoSchemaType {
+ kUnknown = 0,
+ kDouble,
+ kFloat,
+ kInt64,
+ kUint64,
+ kInt32,
+ kFixed64,
+ kFixed32,
+ kBool,
+ kString,
+ kGroup, // Deprecated (proto2 only)
+ kMessage,
+ kBytes,
+ kUint32,
+ kEnum,
+ kSfixed32,
+ kSfixed64,
+ kSint32,
+ kSint64,
+};
+
+inline const char* ProtoSchemaToString(ProtoSchemaType v) {
+ switch (v) {
+ case ProtoSchemaType::kUnknown:
+ return "unknown";
+ case ProtoSchemaType::kDouble:
+ return "double";
+ case ProtoSchemaType::kFloat:
+ return "float";
+ case ProtoSchemaType::kInt64:
+ return "int64";
+ case ProtoSchemaType::kUint64:
+ return "uint64";
+ case ProtoSchemaType::kInt32:
+ return "int32";
+ case ProtoSchemaType::kFixed64:
+ return "fixed64";
+ case ProtoSchemaType::kFixed32:
+ return "fixed32";
+ case ProtoSchemaType::kBool:
+ return "bool";
+ case ProtoSchemaType::kString:
+ return "string";
+ case ProtoSchemaType::kGroup:
+ return "group";
+ case ProtoSchemaType::kMessage:
+ return "message";
+ case ProtoSchemaType::kBytes:
+ return "bytes";
+ case ProtoSchemaType::kUint32:
+ return "uint32";
+ case ProtoSchemaType::kEnum:
+ return "enum";
+ case ProtoSchemaType::kSfixed32:
+ return "sfixed32";
+ case ProtoSchemaType::kSfixed64:
+ return "sfixed64";
+ case ProtoSchemaType::kSint32:
+ return "sint32";
+ case ProtoSchemaType::kSint64:
+ return "sint64";
+ }
+ // For gcc:
+ PERFETTO_DCHECK(false);
+ return "";
+}
+
+// Maximum message size supported: 256 MiB (4 x 7-bit due to varint encoding).
+constexpr size_t kMessageLengthFieldSize = 4;
+constexpr size_t kMaxMessageLength = (1u << (kMessageLengthFieldSize * 7)) - 1;
+constexpr size_t kMaxOneByteMessageLength = (1 << 7) - 1;
+
+// Field tag is encoded as 32-bit varint (5 bytes at most).
+// Largest value of simple (not length-delimited) field is 64-bit varint
+// (10 bytes at most). 15 bytes buffer is enough to store a simple field.
+constexpr size_t kMaxTagEncodedSize = 5;
+constexpr size_t kMaxSimpleFieldEncodedSize = kMaxTagEncodedSize + 10;
+
+// Proto types: (int|uint|sint)(32|64), bool, enum.
+constexpr uint32_t MakeTagVarInt(uint32_t field_id) {
+ return (field_id << 3) | static_cast<uint32_t>(ProtoWireType::kVarInt);
+}
+
+// Proto types: fixed64, sfixed64, fixed32, sfixed32, double, float.
+template <typename T>
+constexpr uint32_t MakeTagFixed(uint32_t field_id) {
+ static_assert(sizeof(T) == 8 || sizeof(T) == 4, "Value must be 4 or 8 bytes");
+ return (field_id << 3) |
+ static_cast<uint32_t>((sizeof(T) == 8 ? ProtoWireType::kFixed64
+ : ProtoWireType::kFixed32));
+}
+
+// Proto types: string, bytes, embedded messages.
+constexpr uint32_t MakeTagLengthDelimited(uint32_t field_id) {
+ return (field_id << 3) |
+ static_cast<uint32_t>(ProtoWireType::kLengthDelimited);
+}
+
+// Proto types: sint64, sint32.
+template <typename T>
+inline typename std::make_unsigned<T>::type ZigZagEncode(T value) {
+ using UnsignedType = typename std::make_unsigned<T>::type;
+
+ // Right-shift of negative values is implementation specific.
+ // Assert the implementation does what we expect, which is that shifting any
+ // positive value by sizeof(T) * 8 - 1 gives an all 0 bitmap, and a negative
+ // value gives an all 1 bitmap.
+ constexpr uint64_t kUnsignedZero = 0u;
+ constexpr int64_t kNegativeOne = -1;
+ constexpr int64_t kPositiveOne = 1;
+ static_assert(static_cast<uint64_t>(kNegativeOne >> 63) == ~kUnsignedZero,
+ "implementation does not support assumed rightshift");
+ static_assert(static_cast<uint64_t>(kPositiveOne >> 63) == kUnsignedZero,
+ "implementation does not support assumed rightshift");
+
+ return (static_cast<UnsignedType>(value) << 1) ^
+ static_cast<UnsignedType>(value >> (sizeof(T) * 8 - 1));
+}
+
+// Proto types: sint64, sint32.
+template <typename T>
+inline typename std::make_signed<T>::type ZigZagDecode(T value) {
+ using UnsignedType = typename std::make_unsigned<T>::type;
+ using SignedType = typename std::make_signed<T>::type;
+ auto u_value = static_cast<UnsignedType>(value);
+ auto mask = static_cast<UnsignedType>(-static_cast<SignedType>(u_value & 1));
+ return static_cast<SignedType>((u_value >> 1) ^ mask);
+}
+
+template <typename T>
+auto ExtendValueForVarIntSerialization(T value) -> typename std::make_unsigned<
+ typename std::conditional<std::is_unsigned<T>::value, T, int64_t>::type>::
+ type {
+ // If value is <= 0 we must first sign extend to int64_t (see [1]).
+ // Finally we always cast to an unsigned value to to avoid arithmetic
+ // (sign expanding) shifts in the while loop.
+ // [1]: "If you use int32 or int64 as the type for a negative number, the
+ // resulting varint is always ten bytes long".
+ // - developers.google.com/protocol-buffers/docs/encoding
+ // So for each input type we do the following casts:
+ // uintX_t -> uintX_t -> uintX_t
+ // int8_t -> int64_t -> uint64_t
+ // int16_t -> int64_t -> uint64_t
+ // int32_t -> int64_t -> uint64_t
+ // int64_t -> int64_t -> uint64_t
+ using MaybeExtendedType =
+ typename std::conditional<std::is_unsigned<T>::value, T, int64_t>::type;
+ using UnsignedType = typename std::make_unsigned<MaybeExtendedType>::type;
+
+ MaybeExtendedType extended_value = static_cast<MaybeExtendedType>(value);
+ UnsignedType unsigned_value = static_cast<UnsignedType>(extended_value);
+
+ return unsigned_value;
+}
+
+template <typename T>
+inline uint8_t* WriteVarInt(T value, uint8_t* target) {
+ auto unsigned_value = ExtendValueForVarIntSerialization(value);
+
+ while (unsigned_value >= 0x80) {
+ *target++ = static_cast<uint8_t>(unsigned_value) | 0x80;
+ unsigned_value >>= 7;
+ }
+ *target = static_cast<uint8_t>(unsigned_value);
+ return target + 1;
+}
+
+// Writes a fixed-size redundant encoding of the given |value|. This is
+// used to backfill fixed-size reservations for the length field using a
+// non-canonical varint encoding (e.g. \x81\x80\x80\x00 instead of \x01).
+// See https://github.com/google/protobuf/issues/1530.
+// This is used mainly in two cases:
+// 1) At trace writing time, when starting a nested messages. The size of a
+// nested message is not known until all its field have been written.
+// |kMessageLengthFieldSize| bytes are reserved to encode the size field and
+// backfilled at the end.
+// 2) When rewriting a message at trace filtering time, in protozero/filtering.
+// At that point we know only the upper bound of the length (a filtered
+// message is <= the original one) and we backfill after the message has been
+// filtered.
+inline void WriteRedundantVarInt(uint32_t value,
+ uint8_t* buf,
+ size_t size = kMessageLengthFieldSize) {
+ for (size_t i = 0; i < size; ++i) {
+ const uint8_t msb = (i < size - 1) ? 0x80 : 0;
+ buf[i] = static_cast<uint8_t>(value) | msb;
+ value >>= 7;
+ }
+}
+
+template <uint32_t field_id>
+void StaticAssertSingleBytePreamble() {
+ static_assert(field_id < 16,
+ "Proto field id too big to fit in a single byte preamble");
+}
+
+// Parses a VarInt from the encoded buffer [start, end). |end| is STL-style and
+// points one byte past the end of buffer.
+// The parsed int value is stored in the output arg |value|. Returns a pointer
+// to the next unconsumed byte (so start < retval <= end) or |start| if the
+// VarInt could not be fully parsed because there was not enough space in the
+// buffer.
+inline const uint8_t* ParseVarInt(const uint8_t* start,
+ const uint8_t* end,
+ uint64_t* out_value) {
+ return PerfettoPbParseVarInt(start, end, out_value);
+}
+
+enum class RepetitionType {
+ kNotRepeated,
+ kRepeatedPacked,
+ kRepeatedNotPacked,
+};
+
+// Provide a common base struct for all templated FieldMetadata types to allow
+// simple checks if a given type is a FieldMetadata or not.
+struct FieldMetadataBase {
+ constexpr FieldMetadataBase() = default;
+};
+
+template <uint32_t field_id,
+ RepetitionType repetition_type,
+ ProtoSchemaType proto_schema_type,
+ typename CppFieldType,
+ typename MessageType>
+struct FieldMetadata : public FieldMetadataBase {
+ constexpr FieldMetadata() = default;
+
+ static constexpr int kFieldId = field_id;
+ // Whether this field is repeated, packed (repeated [packed-true]) or not
+ // (optional).
+ static constexpr RepetitionType kRepetitionType = repetition_type;
+ // Proto type of this field (e.g. int64, fixed32 or nested message).
+ static constexpr ProtoSchemaType kProtoFieldType = proto_schema_type;
+ // C++ type of this field (for nested messages - C++ protozero class).
+ using cpp_field_type = CppFieldType;
+ // Protozero message which this field belongs to.
+ using message_type = MessageType;
+};
+
+} // namespace proto_utils
+} // namespace protozero
+
+#endif // INCLUDE_PERFETTO_PROTOZERO_PROTO_UTILS_H_
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_PROTOZERO_FIELD_H_
+#define INCLUDE_PERFETTO_PROTOZERO_FIELD_H_
+
+#include <stdint.h>
+
+#include <string>
+#include <vector>
+
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/contiguous_memory_range.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace protozero {
+
+struct ConstBytes {
+ std::string ToStdString() const {
+ return std::string(reinterpret_cast<const char*>(data), size);
+ }
+
+ const uint8_t* data;
+ size_t size;
+};
+
+struct ConstChars {
+ // Allow implicit conversion to perfetto's base::StringView without depending
+ // on perfetto/base or viceversa.
+ static constexpr bool kConvertibleToStringView = true;
+ std::string ToStdString() const { return std::string(data, size); }
+
+ const char* data;
+ size_t size;
+};
+
+// A protobuf field decoded by the protozero proto decoders. It exposes
+// convenience accessors with minimal debug checks.
+// This class is used both by the iterator-based ProtoDecoder and by the
+// one-shot TypedProtoDecoder.
+// If the field is not valid the accessors consistently return zero-integers or
+// null strings.
+class Field {
+ public:
+ bool valid() const { return id_ != 0; }
+ uint32_t id() const { return id_; }
+ explicit operator bool() const { return valid(); }
+
+ proto_utils::ProtoWireType type() const {
+ auto res = static_cast<proto_utils::ProtoWireType>(type_);
+ PERFETTO_DCHECK(res == proto_utils::ProtoWireType::kVarInt ||
+ res == proto_utils::ProtoWireType::kLengthDelimited ||
+ res == proto_utils::ProtoWireType::kFixed32 ||
+ res == proto_utils::ProtoWireType::kFixed64);
+ return res;
+ }
+
+ bool as_bool() const {
+ PERFETTO_DCHECK(!valid() || type() == proto_utils::ProtoWireType::kVarInt);
+ return static_cast<bool>(int_value_);
+ }
+
+ uint32_t as_uint32() const {
+ PERFETTO_DCHECK(!valid() || type() == proto_utils::ProtoWireType::kVarInt ||
+ type() == proto_utils::ProtoWireType::kFixed32);
+ return static_cast<uint32_t>(int_value_);
+ }
+
+ int32_t as_int32() const {
+ PERFETTO_DCHECK(!valid() || type() == proto_utils::ProtoWireType::kVarInt ||
+ type() == proto_utils::ProtoWireType::kFixed32);
+ return static_cast<int32_t>(int_value_);
+ }
+
+ int32_t as_sint32() const {
+ PERFETTO_DCHECK(!valid() || type() == proto_utils::ProtoWireType::kVarInt);
+ return proto_utils::ZigZagDecode(static_cast<uint32_t>(int_value_));
+ }
+
+ uint64_t as_uint64() const {
+ PERFETTO_DCHECK(!valid() || type() == proto_utils::ProtoWireType::kVarInt ||
+ type() == proto_utils::ProtoWireType::kFixed32 ||
+ type() == proto_utils::ProtoWireType::kFixed64);
+ return int_value_;
+ }
+
+ int64_t as_int64() const {
+ PERFETTO_DCHECK(!valid() || type() == proto_utils::ProtoWireType::kVarInt ||
+ type() == proto_utils::ProtoWireType::kFixed32 ||
+ type() == proto_utils::ProtoWireType::kFixed64);
+ return static_cast<int64_t>(int_value_);
+ }
+
+ int64_t as_sint64() const {
+ PERFETTO_DCHECK(!valid() || type() == proto_utils::ProtoWireType::kVarInt);
+ return proto_utils::ZigZagDecode(static_cast<uint64_t>(int_value_));
+ }
+
+ float as_float() const {
+ PERFETTO_DCHECK(!valid() || type() == proto_utils::ProtoWireType::kFixed32);
+ float res;
+ uint32_t value32 = static_cast<uint32_t>(int_value_);
+ memcpy(&res, &value32, sizeof(res));
+ return res;
+ }
+
+ double as_double() const {
+ PERFETTO_DCHECK(!valid() || type() == proto_utils::ProtoWireType::kFixed64);
+ double res;
+ memcpy(&res, &int_value_, sizeof(res));
+ return res;
+ }
+
+ ConstChars as_string() const {
+ PERFETTO_DCHECK(!valid() ||
+ type() == proto_utils::ProtoWireType::kLengthDelimited);
+ return ConstChars{reinterpret_cast<const char*>(data()), size_};
+ }
+
+ std::string as_std_string() const { return as_string().ToStdString(); }
+
+ ConstBytes as_bytes() const {
+ PERFETTO_DCHECK(!valid() ||
+ type() == proto_utils::ProtoWireType::kLengthDelimited);
+ return ConstBytes{data(), size_};
+ }
+
+ const uint8_t* data() const {
+ PERFETTO_DCHECK(!valid() ||
+ type() == proto_utils::ProtoWireType::kLengthDelimited);
+ return reinterpret_cast<const uint8_t*>(int_value_);
+ }
+
+ size_t size() const {
+ PERFETTO_DCHECK(!valid() ||
+ type() == proto_utils::ProtoWireType::kLengthDelimited);
+ return size_;
+ }
+
+ uint64_t raw_int_value() const { return int_value_; }
+
+ void initialize(uint32_t id,
+ uint8_t type,
+ uint64_t int_value,
+ uint32_t size) {
+ id_ = id & kMaxId;
+ type_ = type;
+ int_value_ = int_value;
+ size_ = size;
+ }
+
+ // For use with templates. This is used by RepeatedFieldIterator::operator*().
+ void get(bool* val) const { *val = as_bool(); }
+ void get(uint32_t* val) const { *val = as_uint32(); }
+ void get(int32_t* val) const { *val = as_int32(); }
+ void get(uint64_t* val) const { *val = as_uint64(); }
+ void get(int64_t* val) const { *val = as_int64(); }
+ void get(float* val) const { *val = as_float(); }
+ void get(double* val) const { *val = as_double(); }
+ void get(std::string* val) const { *val = as_std_string(); }
+ void get(ConstChars* val) const { *val = as_string(); }
+ void get(ConstBytes* val) const { *val = as_bytes(); }
+ void get_signed(int32_t* val) const { *val = as_sint32(); }
+ void get_signed(int64_t* val) const { *val = as_sint64(); }
+
+ // For enum types.
+ template <typename T,
+ typename = typename std::enable_if<std::is_enum<T>::value, T>::type>
+ void get(T* val) const {
+ *val = static_cast<T>(as_int32());
+ }
+
+ // Serializes the field back into a proto-encoded byte stream and appends it
+ // to |dst|. |dst| is resized accordingly.
+ void SerializeAndAppendTo(std::string* dst) const;
+
+ // Serializes the field back into a proto-encoded byte stream and appends it
+ // to |dst|. |dst| is resized accordingly.
+ void SerializeAndAppendTo(std::vector<uint8_t>* dst) const;
+
+ static constexpr uint32_t kMaxId = (1 << 24) - 1; // See id_ : 24 below.
+ private:
+ template <typename Container>
+ void SerializeAndAppendToInternal(Container* dst) const;
+
+ // Fields are deliberately not initialized to keep the class trivially
+ // constructible. It makes a large perf difference for ProtoDecoder.
+ uint64_t int_value_; // In kLengthDelimited this contains the data() addr.
+ uint32_t size_; // Only valid when when type == kLengthDelimited.
+
+ // Note: MSVC and clang-cl require bit-fields to be of the same type, hence
+ // the `: 8` below rather than uint8_t.
+ uint32_t id_ : 24; // Proto field ordinal.
+ uint32_t type_ : 8; // proto_utils::ProtoWireType.
+};
+// The Field struct is used in a lot of perf-sensitive contexts.
+static_assert(sizeof(Field) == 16, "Field struct too big");
+
+} // namespace protozero
+
+#endif // INCLUDE_PERFETTO_PROTOZERO_FIELD_H_
+// gen_amalgamated begin header: include/perfetto/tracing/core/forward_decls.h
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_TRACING_CORE_FORWARD_DECLS_H_
+#define INCLUDE_PERFETTO_TRACING_CORE_FORWARD_DECLS_H_
+
+// Forward declares classes that are generated at build-time from protos.
+// First of all, why are we forward declaring at all?
+// 1. Chromium diverges from the Google style guide on this, because forward
+// declarations typically make build times faster, and that's a desirable
+// property for a large and complex codebase.
+// 2. Adding #include to build-time-generated headers from headers typically
+// creates subtle build errors that are hard to spot in GN. This is because
+// once a standard header (say foo.h) has an #include "protos/foo.gen.h",
+// the build target that depends on foo.h needs to depend on the genrule
+// that generates foo.gen.h. This is achievable using public_deps in GN but
+// is not testable / enforceable, hence too easy to get wrong.
+
+// Historically the classes below used to be generated from the corresponding
+// .proto(s) at CL *check-in* time (!= build time) in the ::perfetto namespace.
+// Nowadays we have code everywhere that assume the right class is
+// ::perfetto::TraceConfig or the like. Back then other headers could just
+// forward declared ::perfetto::TraceConfig. These days, the real class is
+// ::perfetto::protos::gen::TraceConfig and core/trace_config.h aliases that as
+// using ::perfetto::TraceConfig = ::perfetto::protos::gen::TraceConfig.
+// In C++ one cannot forward declare a type alias (but only the aliased type).
+// Hence this header, which should be used every time one wants to forward
+// declare classes like TraceConfig.
+
+// The overall plan is that, when one of the classes below is needed:
+// The .h file includes this file.
+// The .cc file includes perfetto/tracing/core/trace_config.h (or equiv). That
+// header will pull the full declaration from trace_config.gen.h and will also
+// setup the alias in the ::perfetto namespace.
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+class ChromeConfig;
+class CommitDataRequest;
+class DataSourceConfig;
+class DataSourceDescriptor;
+class ObservableEvents;
+class TraceConfig;
+class TraceStats;
+class TracingServiceCapabilities;
+class TracingServiceState;
+class SyncClockRequest;
+class SyncClockResponse;
+
+} // namespace gen
+} // namespace protos
+
+using ChromeConfig = ::perfetto::protos::gen::ChromeConfig;
+using CommitDataRequest = ::perfetto::protos::gen::CommitDataRequest;
+using DataSourceConfig = ::perfetto::protos::gen::DataSourceConfig;
+using DataSourceDescriptor = ::perfetto::protos::gen::DataSourceDescriptor;
+using ObservableEvents = ::perfetto::protos::gen::ObservableEvents;
+using TraceConfig = ::perfetto::protos::gen::TraceConfig;
+using TraceStats = ::perfetto::protos::gen::TraceStats;
+using TracingServiceCapabilities =
+ ::perfetto::protos::gen::TracingServiceCapabilities;
+using TracingServiceState = ::perfetto::protos::gen::TracingServiceState;
+using SyncClockRequest = ::perfetto::protos::gen::SyncClockRequest;
+using SyncClockResponse = ::perfetto::protos::gen::SyncClockResponse;
+
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_TRACING_CORE_FORWARD_DECLS_H_
+// gen_amalgamated begin header: include/perfetto/tracing/internal/basic_types.h
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_TRACING_INTERNAL_BASIC_TYPES_H_
+#define INCLUDE_PERFETTO_TRACING_INTERNAL_BASIC_TYPES_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+namespace perfetto {
+namespace internal {
+
+// A static_assert in tracing_muxer_impl.cc guarantees that this stays in sync
+// with the definition in tracing/core/basic_types.h
+using BufferId = uint16_t;
+
+// This is an id of a backend in the TracingMuxer::producer_backends_ list.
+// Backends are only added and never removed.
+using TracingBackendId = size_t;
+
+// Max numbers of data sources that can be registered in a process.
+constexpr size_t kMaxDataSources = 32;
+
+// Max instances for each data source type. This typically matches the
+// "max number of concurrent tracing sessions". However remember that a data
+// source can be instantiated more than once within one tracing session by
+// creating two entries for it in the trace config.
+constexpr size_t kMaxDataSourceInstances = 8;
+
+} // namespace internal
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_TRACING_INTERNAL_BASIC_TYPES_H_
+// gen_amalgamated begin header: include/perfetto/tracing/internal/data_source_internal.h
+// gen_amalgamated begin header: include/perfetto/tracing/core/data_source_config.h
+// gen_amalgamated begin header: gen/protos/perfetto/config/data_source_config.gen.h
+// gen_amalgamated begin header: include/perfetto/protozero/cpp_message_obj.h
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_PROTOZERO_CPP_MESSAGE_OBJ_H_
+#define INCLUDE_PERFETTO_PROTOZERO_CPP_MESSAGE_OBJ_H_
+
+#include <stdint.h>
+
+#include <string>
+#include <vector>
+
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace protozero {
+
+// Base class for generated .gen.h classes, which are full C++ objects that
+// support both ser and deserialization (but are not zero-copy).
+// This is only used by the "cpp" targets not the "pbzero" ones.
+class PERFETTO_EXPORT_COMPONENT CppMessageObj {
+ public:
+ virtual ~CppMessageObj();
+ virtual std::string SerializeAsString() const = 0;
+ virtual std::vector<uint8_t> SerializeAsArray() const = 0;
+ virtual bool ParseFromArray(const void*, size_t) = 0;
+
+ bool ParseFromString(const std::string& str) {
+ return ParseFromArray(str.data(), str.size());
+ }
+};
+
+} // namespace protozero
+
+#endif // INCLUDE_PERFETTO_PROTOZERO_CPP_MESSAGE_OBJ_H_
+// gen_amalgamated begin header: include/perfetto/protozero/copyable_ptr.h
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_PROTOZERO_COPYABLE_PTR_H_
+#define INCLUDE_PERFETTO_PROTOZERO_COPYABLE_PTR_H_
+
+#include <memory>
+
+namespace protozero {
+
+// This class is essentially a std::vector<T> of fixed size = 1.
+// It's a pointer wrapper with deep copying and deep equality comparison.
+// At all effects this wrapper behaves like the underlying T, with the exception
+// of the heap indirection.
+// Conversely to a std::unique_ptr, the pointer will be always valid, never
+// null. The problem it solves is the following: when generating C++ classes
+// from proto files, we want to keep each header hermetic (i.e. not #include
+// headers of dependent types). As such we can't directly instantiate T
+// field members but we can instead rely on pointers, so only the .cc file needs
+// to see the actual definition of T. If the generated classes were move-only we
+// could just use a unique_ptr there. But they aren't, hence this wrapper.
+// Converesely to unique_ptr, this wrapper:
+// - Default constructs the T instance in its constructor.
+// - Implements deep comparison in operator== instead of pointer comparison.
+template <typename T>
+class CopyablePtr {
+ public:
+ CopyablePtr() : ptr_(new T()) {}
+ ~CopyablePtr() = default;
+
+ // Copy operators.
+ CopyablePtr(const CopyablePtr& other) : ptr_(new T(*other.ptr_)) {}
+ CopyablePtr& operator=(const CopyablePtr& other) {
+ *ptr_ = *other.ptr_;
+ return *this;
+ }
+
+ // Move operators.
+ CopyablePtr(CopyablePtr&& other) noexcept : ptr_(std::move(other.ptr_)) {
+ other.ptr_.reset(new T());
+ }
+
+ CopyablePtr& operator=(CopyablePtr&& other) {
+ ptr_ = std::move(other.ptr_);
+ other.ptr_.reset(new T());
+ return *this;
+ }
+
+ T* get() { return ptr_.get(); }
+ const T* get() const { return ptr_.get(); }
+
+ T* operator->() { return ptr_.get(); }
+ const T* operator->() const { return ptr_.get(); }
+
+ T& operator*() { return *ptr_; }
+ const T& operator*() const { return *ptr_; }
+
+ friend bool operator==(const CopyablePtr& lhs, const CopyablePtr& rhs) {
+ return *lhs == *rhs;
+ }
+
+ friend bool operator!=(const CopyablePtr& lhs, const CopyablePtr& rhs) {
+ // In theory the underlying type might have a special operator!=
+ // implementation which is not just !(x == y). Respect that.
+ return *lhs != *rhs;
+ }
+
+ private:
+ std::unique_ptr<T> ptr_;
+};
+
+} // namespace protozero
+
+#endif // INCLUDE_PERFETTO_PROTOZERO_COPYABLE_PTR_H_
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_DATA_SOURCE_CONFIG_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_DATA_SOURCE_CONFIG_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class DataSourceConfig;
+class TestConfig;
+class TestConfig_DummyFields;
+class InterceptorConfig;
+class ConsoleConfig;
+class ChromeConfig;
+class SystemInfoConfig;
+enum DataSourceConfig_SessionInitiator : int;
+enum ConsoleConfig_Output : int;
+enum ChromeConfig_ClientPriority : int;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+enum DataSourceConfig_SessionInitiator : int {
+ DataSourceConfig_SessionInitiator_SESSION_INITIATOR_UNSPECIFIED = 0,
+ DataSourceConfig_SessionInitiator_SESSION_INITIATOR_TRUSTED_SYSTEM = 1,
+};
+
+class PERFETTO_EXPORT_COMPONENT DataSourceConfig : public ::protozero::CppMessageObj {
+ public:
+ using SessionInitiator = DataSourceConfig_SessionInitiator;
+ static constexpr auto SESSION_INITIATOR_UNSPECIFIED = DataSourceConfig_SessionInitiator_SESSION_INITIATOR_UNSPECIFIED;
+ static constexpr auto SESSION_INITIATOR_TRUSTED_SYSTEM = DataSourceConfig_SessionInitiator_SESSION_INITIATOR_TRUSTED_SYSTEM;
+ static constexpr auto SessionInitiator_MIN = DataSourceConfig_SessionInitiator_SESSION_INITIATOR_UNSPECIFIED;
+ static constexpr auto SessionInitiator_MAX = DataSourceConfig_SessionInitiator_SESSION_INITIATOR_TRUSTED_SYSTEM;
+ enum FieldNumbers {
+ kNameFieldNumber = 1,
+ kTargetBufferFieldNumber = 2,
+ kTraceDurationMsFieldNumber = 3,
+ kPreferSuspendClockForDurationFieldNumber = 122,
+ kStopTimeoutMsFieldNumber = 7,
+ kEnableExtraGuardrailsFieldNumber = 6,
+ kSessionInitiatorFieldNumber = 8,
+ kTracingSessionIdFieldNumber = 4,
+ kFtraceConfigFieldNumber = 100,
+ kInodeFileConfigFieldNumber = 102,
+ kProcessStatsConfigFieldNumber = 103,
+ kSysStatsConfigFieldNumber = 104,
+ kHeapprofdConfigFieldNumber = 105,
+ kJavaHprofConfigFieldNumber = 110,
+ kAndroidPowerConfigFieldNumber = 106,
+ kAndroidLogConfigFieldNumber = 107,
+ kGpuCounterConfigFieldNumber = 108,
+ kAndroidGameInterventionListConfigFieldNumber = 116,
+ kPackagesListConfigFieldNumber = 109,
+ kPerfEventConfigFieldNumber = 111,
+ kVulkanMemoryConfigFieldNumber = 112,
+ kTrackEventConfigFieldNumber = 113,
+ kAndroidPolledStateConfigFieldNumber = 114,
+ kAndroidSystemPropertyConfigFieldNumber = 118,
+ kStatsdTracingConfigFieldNumber = 117,
+ kSystemInfoConfigFieldNumber = 119,
+ kChromeConfigFieldNumber = 101,
+ kV8ConfigFieldNumber = 127,
+ kInterceptorConfigFieldNumber = 115,
+ kNetworkPacketTraceConfigFieldNumber = 120,
+ kSurfaceflingerLayersConfigFieldNumber = 121,
+ kSurfaceflingerTransactionsConfigFieldNumber = 123,
+ kAndroidSdkSyspropGuardConfigFieldNumber = 124,
+ kEtwConfigFieldNumber = 125,
+ kProtologConfigFieldNumber = 126,
+ kAndroidInputEventConfigFieldNumber = 128,
+ kLegacyConfigFieldNumber = 1000,
+ kForTestingFieldNumber = 1001,
+ };
+
+ DataSourceConfig();
+ ~DataSourceConfig() override;
+ DataSourceConfig(DataSourceConfig&&) noexcept;
+ DataSourceConfig& operator=(DataSourceConfig&&);
+ DataSourceConfig(const DataSourceConfig&);
+ DataSourceConfig& operator=(const DataSourceConfig&);
+ bool operator==(const DataSourceConfig&) const;
+ bool operator!=(const DataSourceConfig& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_name() const { return _has_field_[1]; }
+ const std::string& name() const { return name_; }
+ void set_name(const std::string& value) { name_ = value; _has_field_.set(1); }
+
+ bool has_target_buffer() const { return _has_field_[2]; }
+ uint32_t target_buffer() const { return target_buffer_; }
+ void set_target_buffer(uint32_t value) { target_buffer_ = value; _has_field_.set(2); }
+
+ bool has_trace_duration_ms() const { return _has_field_[3]; }
+ uint32_t trace_duration_ms() const { return trace_duration_ms_; }
+ void set_trace_duration_ms(uint32_t value) { trace_duration_ms_ = value; _has_field_.set(3); }
+
+ bool has_prefer_suspend_clock_for_duration() const { return _has_field_[122]; }
+ bool prefer_suspend_clock_for_duration() const { return prefer_suspend_clock_for_duration_; }
+ void set_prefer_suspend_clock_for_duration(bool value) { prefer_suspend_clock_for_duration_ = value; _has_field_.set(122); }
+
+ bool has_stop_timeout_ms() const { return _has_field_[7]; }
+ uint32_t stop_timeout_ms() const { return stop_timeout_ms_; }
+ void set_stop_timeout_ms(uint32_t value) { stop_timeout_ms_ = value; _has_field_.set(7); }
+
+ bool has_enable_extra_guardrails() const { return _has_field_[6]; }
+ bool enable_extra_guardrails() const { return enable_extra_guardrails_; }
+ void set_enable_extra_guardrails(bool value) { enable_extra_guardrails_ = value; _has_field_.set(6); }
+
+ bool has_session_initiator() const { return _has_field_[8]; }
+ DataSourceConfig_SessionInitiator session_initiator() const { return session_initiator_; }
+ void set_session_initiator(DataSourceConfig_SessionInitiator value) { session_initiator_ = value; _has_field_.set(8); }
+
+ bool has_tracing_session_id() const { return _has_field_[4]; }
+ uint64_t tracing_session_id() const { return tracing_session_id_; }
+ void set_tracing_session_id(uint64_t value) { tracing_session_id_ = value; _has_field_.set(4); }
+
+ const std::string& ftrace_config_raw() const { return ftrace_config_; }
+ void set_ftrace_config_raw(const std::string& raw) { ftrace_config_ = raw; _has_field_.set(100); }
+
+ const std::string& inode_file_config_raw() const { return inode_file_config_; }
+ void set_inode_file_config_raw(const std::string& raw) { inode_file_config_ = raw; _has_field_.set(102); }
+
+ const std::string& process_stats_config_raw() const { return process_stats_config_; }
+ void set_process_stats_config_raw(const std::string& raw) { process_stats_config_ = raw; _has_field_.set(103); }
+
+ const std::string& sys_stats_config_raw() const { return sys_stats_config_; }
+ void set_sys_stats_config_raw(const std::string& raw) { sys_stats_config_ = raw; _has_field_.set(104); }
+
+ const std::string& heapprofd_config_raw() const { return heapprofd_config_; }
+ void set_heapprofd_config_raw(const std::string& raw) { heapprofd_config_ = raw; _has_field_.set(105); }
+
+ const std::string& java_hprof_config_raw() const { return java_hprof_config_; }
+ void set_java_hprof_config_raw(const std::string& raw) { java_hprof_config_ = raw; _has_field_.set(110); }
+
+ const std::string& android_power_config_raw() const { return android_power_config_; }
+ void set_android_power_config_raw(const std::string& raw) { android_power_config_ = raw; _has_field_.set(106); }
+
+ const std::string& android_log_config_raw() const { return android_log_config_; }
+ void set_android_log_config_raw(const std::string& raw) { android_log_config_ = raw; _has_field_.set(107); }
+
+ const std::string& gpu_counter_config_raw() const { return gpu_counter_config_; }
+ void set_gpu_counter_config_raw(const std::string& raw) { gpu_counter_config_ = raw; _has_field_.set(108); }
+
+ const std::string& android_game_intervention_list_config_raw() const { return android_game_intervention_list_config_; }
+ void set_android_game_intervention_list_config_raw(const std::string& raw) { android_game_intervention_list_config_ = raw; _has_field_.set(116); }
+
+ const std::string& packages_list_config_raw() const { return packages_list_config_; }
+ void set_packages_list_config_raw(const std::string& raw) { packages_list_config_ = raw; _has_field_.set(109); }
+
+ const std::string& perf_event_config_raw() const { return perf_event_config_; }
+ void set_perf_event_config_raw(const std::string& raw) { perf_event_config_ = raw; _has_field_.set(111); }
+
+ const std::string& vulkan_memory_config_raw() const { return vulkan_memory_config_; }
+ void set_vulkan_memory_config_raw(const std::string& raw) { vulkan_memory_config_ = raw; _has_field_.set(112); }
+
+ const std::string& track_event_config_raw() const { return track_event_config_; }
+ void set_track_event_config_raw(const std::string& raw) { track_event_config_ = raw; _has_field_.set(113); }
+
+ const std::string& android_polled_state_config_raw() const { return android_polled_state_config_; }
+ void set_android_polled_state_config_raw(const std::string& raw) { android_polled_state_config_ = raw; _has_field_.set(114); }
+
+ const std::string& android_system_property_config_raw() const { return android_system_property_config_; }
+ void set_android_system_property_config_raw(const std::string& raw) { android_system_property_config_ = raw; _has_field_.set(118); }
+
+ const std::string& statsd_tracing_config_raw() const { return statsd_tracing_config_; }
+ void set_statsd_tracing_config_raw(const std::string& raw) { statsd_tracing_config_ = raw; _has_field_.set(117); }
+
+ bool has_system_info_config() const { return _has_field_[119]; }
+ const SystemInfoConfig& system_info_config() const { return *system_info_config_; }
+ SystemInfoConfig* mutable_system_info_config() { _has_field_.set(119); return system_info_config_.get(); }
+
+ bool has_chrome_config() const { return _has_field_[101]; }
+ const ChromeConfig& chrome_config() const { return *chrome_config_; }
+ ChromeConfig* mutable_chrome_config() { _has_field_.set(101); return chrome_config_.get(); }
+
+ const std::string& v8_config_raw() const { return v8_config_; }
+ void set_v8_config_raw(const std::string& raw) { v8_config_ = raw; _has_field_.set(127); }
+
+ bool has_interceptor_config() const { return _has_field_[115]; }
+ const InterceptorConfig& interceptor_config() const { return *interceptor_config_; }
+ InterceptorConfig* mutable_interceptor_config() { _has_field_.set(115); return interceptor_config_.get(); }
+
+ const std::string& network_packet_trace_config_raw() const { return network_packet_trace_config_; }
+ void set_network_packet_trace_config_raw(const std::string& raw) { network_packet_trace_config_ = raw; _has_field_.set(120); }
+
+ const std::string& surfaceflinger_layers_config_raw() const { return surfaceflinger_layers_config_; }
+ void set_surfaceflinger_layers_config_raw(const std::string& raw) { surfaceflinger_layers_config_ = raw; _has_field_.set(121); }
+
+ const std::string& surfaceflinger_transactions_config_raw() const { return surfaceflinger_transactions_config_; }
+ void set_surfaceflinger_transactions_config_raw(const std::string& raw) { surfaceflinger_transactions_config_ = raw; _has_field_.set(123); }
+
+ const std::string& android_sdk_sysprop_guard_config_raw() const { return android_sdk_sysprop_guard_config_; }
+ void set_android_sdk_sysprop_guard_config_raw(const std::string& raw) { android_sdk_sysprop_guard_config_ = raw; _has_field_.set(124); }
+
+ const std::string& etw_config_raw() const { return etw_config_; }
+ void set_etw_config_raw(const std::string& raw) { etw_config_ = raw; _has_field_.set(125); }
+
+ const std::string& protolog_config_raw() const { return protolog_config_; }
+ void set_protolog_config_raw(const std::string& raw) { protolog_config_ = raw; _has_field_.set(126); }
+
+ const std::string& android_input_event_config_raw() const { return android_input_event_config_; }
+ void set_android_input_event_config_raw(const std::string& raw) { android_input_event_config_ = raw; _has_field_.set(128); }
+
+ bool has_legacy_config() const { return _has_field_[1000]; }
+ const std::string& legacy_config() const { return legacy_config_; }
+ void set_legacy_config(const std::string& value) { legacy_config_ = value; _has_field_.set(1000); }
+
+ bool has_for_testing() const { return _has_field_[1001]; }
+ const TestConfig& for_testing() const { return *for_testing_; }
+ TestConfig* mutable_for_testing() { _has_field_.set(1001); return for_testing_.get(); }
+
+ private:
+ std::string name_{};
+ uint32_t target_buffer_{};
+ uint32_t trace_duration_ms_{};
+ bool prefer_suspend_clock_for_duration_{};
+ uint32_t stop_timeout_ms_{};
+ bool enable_extra_guardrails_{};
+ DataSourceConfig_SessionInitiator session_initiator_{};
+ uint64_t tracing_session_id_{};
+ std::string ftrace_config_; // [lazy=true]
+ std::string inode_file_config_; // [lazy=true]
+ std::string process_stats_config_; // [lazy=true]
+ std::string sys_stats_config_; // [lazy=true]
+ std::string heapprofd_config_; // [lazy=true]
+ std::string java_hprof_config_; // [lazy=true]
+ std::string android_power_config_; // [lazy=true]
+ std::string android_log_config_; // [lazy=true]
+ std::string gpu_counter_config_; // [lazy=true]
+ std::string android_game_intervention_list_config_; // [lazy=true]
+ std::string packages_list_config_; // [lazy=true]
+ std::string perf_event_config_; // [lazy=true]
+ std::string vulkan_memory_config_; // [lazy=true]
+ std::string track_event_config_; // [lazy=true]
+ std::string android_polled_state_config_; // [lazy=true]
+ std::string android_system_property_config_; // [lazy=true]
+ std::string statsd_tracing_config_; // [lazy=true]
+ ::protozero::CopyablePtr<SystemInfoConfig> system_info_config_;
+ ::protozero::CopyablePtr<ChromeConfig> chrome_config_;
+ std::string v8_config_; // [lazy=true]
+ ::protozero::CopyablePtr<InterceptorConfig> interceptor_config_;
+ std::string network_packet_trace_config_; // [lazy=true]
+ std::string surfaceflinger_layers_config_; // [lazy=true]
+ std::string surfaceflinger_transactions_config_; // [lazy=true]
+ std::string android_sdk_sysprop_guard_config_; // [lazy=true]
+ std::string etw_config_; // [lazy=true]
+ std::string protolog_config_; // [lazy=true]
+ std::string android_input_event_config_; // [lazy=true]
+ std::string legacy_config_{};
+ ::protozero::CopyablePtr<TestConfig> for_testing_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<1002> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_DATA_SOURCE_CONFIG_PROTO_CPP_H_
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_TRACING_CORE_DATA_SOURCE_CONFIG_H_
+#define INCLUDE_PERFETTO_TRACING_CORE_DATA_SOURCE_CONFIG_H_
+
+// Creates the aliases in the ::perfetto namespace, doing things like:
+// using ::perfetto::Foo = ::perfetto::protos::gen::Foo.
+// See comments in forward_decls.h for the historical reasons of this
+// indirection layer.
+// gen_amalgamated expanded: #include "perfetto/tracing/core/forward_decls.h"
+
+// gen_amalgamated expanded: #include "protos/perfetto/config/data_source_config.gen.h"
+
+#endif // INCLUDE_PERFETTO_TRACING_CORE_DATA_SOURCE_CONFIG_H_
+// gen_amalgamated begin header: include/perfetto/tracing/trace_writer_base.h
+// gen_amalgamated begin header: include/perfetto/protozero/message_handle.h
+// gen_amalgamated begin header: include/perfetto/protozero/message.h
+// gen_amalgamated begin header: include/perfetto/protozero/scattered_stream_writer.h
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_PROTOZERO_SCATTERED_STREAM_WRITER_H_
+#define INCLUDE_PERFETTO_PROTOZERO_SCATTERED_STREAM_WRITER_H_
+
+#include <assert.h>
+#include <stddef.h>
+#include <stdint.h>
+#include <string.h>
+
+#include <algorithm>
+
+// gen_amalgamated expanded: #include "perfetto/base/compiler.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/contiguous_memory_range.h"
+
+namespace protozero {
+
+// This class deals with the following problem: append-only proto messages want
+// to write a stream of bytes, without caring about the implementation of the
+// underlying buffer (which concretely will be either the trace ring buffer
+// or a heap-allocated buffer). The main deal is: proto messages don't know in
+// advance what their size will be.
+// Due to the tracing buffer being split into fixed-size chunks, on some
+// occasions, these writes need to be spread over two (or more) non-contiguous
+// chunks of memory. Similarly, when the buffer is backed by the heap, we want
+// to avoid realloc() calls, as they might cause a full copy of the contents
+// of the buffer.
+// The purpose of this class is to abstract away the non-contiguous write logic.
+// This class knows how to deal with writes as long as they fall in the same
+// ContiguousMemoryRange and defers the chunk-chaining logic to the Delegate.
+class PERFETTO_EXPORT_COMPONENT ScatteredStreamWriter {
+ public:
+ class PERFETTO_EXPORT_COMPONENT Delegate {
+ public:
+ static constexpr size_t kPatchSize = 4;
+ virtual ~Delegate();
+
+ // Returns a new chunk for writing.
+ virtual ContiguousMemoryRange GetNewBuffer() = 0;
+
+ // Signals the delegate that the location pointed by `to_patch` (which must
+ // be in the last chunk returned by GetNewBuffer()), kPatchSize long, needs
+ // to be updated later (after potentially multiple GetNewBuffer calls).
+ //
+ // The caller must write to the returned location later. If the returned
+ // pointer is nullptr, the caller should not write anything.
+ //
+ // The implementation considers the patch ready to apply when the caller
+ // writes the first byte a value that's different than 0 (the
+ // implementation periodically checks for this).
+ virtual uint8_t* AnnotatePatch(uint8_t* patch_addr);
+ };
+
+ explicit ScatteredStreamWriter(Delegate* delegate);
+ ~ScatteredStreamWriter();
+
+ inline void WriteByte(uint8_t value) {
+ if (write_ptr_ >= cur_range_.end)
+ Extend();
+ *write_ptr_++ = value;
+ }
+
+ // Assumes that the caller checked that there is enough headroom.
+ // TODO(primiano): perf optimization, this is a tracing hot path. The
+ // compiler can make strong optimization on std::copy if the size arg is a
+ // constexpr. Make a templated variant of this for fixed-size writes.
+ // TODO(primiano): restrict / noalias might also help.
+ inline void WriteBytesUnsafe(const uint8_t* src, size_t size) {
+ uint8_t* const end = write_ptr_ + size;
+ assert(end <= cur_range_.end);
+ std::copy(src, src + size, write_ptr_);
+ write_ptr_ = end;
+ }
+
+ inline void WriteBytes(const uint8_t* src,
+ size_t size) PERFETTO_NO_SANITIZE_UNDEFINED {
+ // If the stream writer hasn't been initialized, constructing the end
+ // pointer below invokes undefined behavior because `write_ptr_` is null.
+ // Since this function is on the hot path, we suppress the warning instead
+ // of adding a conditional branch.
+ uint8_t* const end = write_ptr_ + size;
+ if (PERFETTO_LIKELY(end <= cur_range_.end))
+ return WriteBytesUnsafe(src, size);
+ WriteBytesSlowPath(src, size);
+ }
+
+ void WriteBytesSlowPath(const uint8_t* src, size_t size);
+
+ // Reserves a fixed amount of bytes to be backfilled later. The reserved range
+ // is guaranteed to be contiguous and not span across chunks. |size| has to be
+ // <= than the size of a new buffer returned by the Delegate::GetNewBuffer().
+ uint8_t* ReserveBytes(size_t size);
+
+ // Fast (but unsafe) version of the above. The caller must have previously
+ // checked that there are at least |size| contiguous bytes available.
+ // Returns only the start pointer of the reservation.
+ uint8_t* ReserveBytesUnsafe(size_t size) {
+ uint8_t* begin = write_ptr_;
+ write_ptr_ += size;
+ assert(write_ptr_ <= cur_range_.end);
+ return begin;
+ }
+
+ // Shifts the previously written `size` bytes backwards in memory by `offset`
+ // bytes, moving the write pointer back accordingly. The shifted result must
+ // still be fully contained by the current range.
+ void Rewind(size_t size, size_t offset) {
+ uint8_t* src = write_ptr_ - size;
+ uint8_t* dst = src - offset;
+ PERFETTO_DCHECK(src >= cur_range_.begin);
+ PERFETTO_DCHECK(src + size <= cur_range_.end);
+ PERFETTO_DCHECK(dst >= cur_range_.begin);
+ PERFETTO_DCHECK(dst + size <= cur_range_.end);
+ memmove(dst, src, size);
+ write_ptr_ -= offset;
+ }
+
+ // Resets the buffer boundaries and the write pointer to the given |range|.
+ // Subsequent WriteByte(s) will write into |range|.
+ void Reset(ContiguousMemoryRange range);
+
+ // Commits the current chunk and gets a new chunk from the delegate.
+ void Extend();
+
+ // Number of contiguous free bytes in |cur_range_| that can be written without
+ // requesting a new buffer.
+ size_t bytes_available() const {
+ return static_cast<size_t>(cur_range_.end - write_ptr_);
+ }
+
+ ContiguousMemoryRange cur_range() const { return cur_range_; }
+
+ uint8_t* write_ptr() const { return write_ptr_; }
+
+ void set_write_ptr(uint8_t* write_ptr) {
+ assert(cur_range_.begin <= write_ptr && write_ptr <= cur_range_.end);
+ write_ptr_ = write_ptr;
+ }
+
+ uint64_t written() const {
+ return written_previously_ +
+ static_cast<uint64_t>(write_ptr_ - cur_range_.begin);
+ }
+
+ uint64_t written_previously() const { return written_previously_; }
+
+ uint8_t* AnnotatePatch(uint8_t* patch_addr) {
+ return delegate_->AnnotatePatch(patch_addr);
+ }
+
+ private:
+ ScatteredStreamWriter(const ScatteredStreamWriter&) = delete;
+ ScatteredStreamWriter& operator=(const ScatteredStreamWriter&) = delete;
+
+ Delegate* const delegate_;
+ ContiguousMemoryRange cur_range_;
+ uint8_t* write_ptr_;
+ uint64_t written_previously_ = 0;
+};
+
+} // namespace protozero
+
+#endif // INCLUDE_PERFETTO_PROTOZERO_SCATTERED_STREAM_WRITER_H_
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_PROTOZERO_MESSAGE_H_
+#define INCLUDE_PERFETTO_PROTOZERO_MESSAGE_H_
+
+#include <assert.h>
+#include <stdint.h>
+#include <string.h>
+
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/contiguous_memory_range.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_stream_writer.h"
+
+namespace perfetto {
+namespace shm_fuzz {
+class FakeProducer;
+} // namespace shm_fuzz
+} // namespace perfetto
+
+namespace protozero {
+
+class MessageArena;
+class MessageHandleBase;
+
+// Base class extended by the proto C++ stubs generated by the ProtoZero
+// compiler. This class provides the minimal runtime required to support
+// append-only operations and is designed for performance. None of the methods
+// require any dynamic memory allocation, unless more than 16 nested messages
+// are created via BeginNestedMessage() calls.
+class PERFETTO_EXPORT_COMPONENT Message {
+ public:
+ friend class MessageHandleBase;
+
+ // The ctor is deliberately a no-op to avoid forwarding args from all
+ // subclasses. The real initialization is performed by Reset().
+ // Nested messages are allocated via placement new by MessageArena and
+ // implictly destroyed when the RootMessage's arena goes away. This is
+ // fine as long as all the fields are PODs, which is checked by the
+ // static_assert()s in the Reset() method.
+ Message() = default;
+
+ // Clears up the state, allowing the message to be reused as a fresh one.
+ void Reset(ScatteredStreamWriter*, MessageArena*);
+
+ // Commits all the changes to the buffer (backfills the size field of this and
+ // all nested messages) and seals the message. Returns the size of the message
+ // (and all nested sub-messages), without taking into account any chunking.
+ // Finalize is idempotent and can be called several times w/o side effects.
+ // Short messages may be compacted in memory into the size field, since their
+ // size can be represented with fewer than
+ // proto_utils::kMessageLengthFieldSize bytes.
+ uint32_t Finalize();
+
+ // Optional. If is_valid() == true, the corresponding memory region (its
+ // length == proto_utils::kMessageLengthFieldSize) is backfilled with the size
+ // of this message. This is the mechanism used by messages to backfill their
+ // corresponding size field in the parent message. In most cases this is only
+ // used for nested messages and the ScatteredStreamWriter::Delegate (e.g.
+ // TraceWriterImpl), takes case of the outer message.
+ uint8_t* size_field() const { return size_field_; }
+ void set_size_field(uint8_t* size_field) { size_field_ = size_field; }
+
+ Message* nested_message() { return nested_message_; }
+
+ bool is_finalized() const {
+ return message_state_ != MessageState::kNotFinalized;
+ }
+
+#if PERFETTO_DCHECK_IS_ON()
+ void set_handle(MessageHandleBase* handle) { handle_ = handle; }
+#endif
+
+ // Proto types: uint64, uint32, int64, int32, bool, enum.
+ template <typename T>
+ void AppendVarInt(uint32_t field_id, T value) {
+ if (nested_message_)
+ EndNestedMessage();
+
+ uint8_t buffer[proto_utils::kMaxSimpleFieldEncodedSize];
+ uint8_t* pos = buffer;
+
+ pos = proto_utils::WriteVarInt(proto_utils::MakeTagVarInt(field_id), pos);
+ // WriteVarInt encodes signed values in two's complement form.
+ pos = proto_utils::WriteVarInt(value, pos);
+ WriteToStream(buffer, pos);
+ }
+
+ // Proto types: sint64, sint32.
+ template <typename T>
+ void AppendSignedVarInt(uint32_t field_id, T value) {
+ AppendVarInt(field_id, proto_utils::ZigZagEncode(value));
+ }
+
+ // Proto types: bool, enum (small).
+ // Faster version of AppendVarInt for tiny numbers.
+ void AppendTinyVarInt(uint32_t field_id, int32_t value) {
+ PERFETTO_DCHECK(0 <= value && value < 0x80);
+ if (nested_message_)
+ EndNestedMessage();
+
+ uint8_t buffer[proto_utils::kMaxSimpleFieldEncodedSize];
+ uint8_t* pos = buffer;
+ // MakeTagVarInt gets super optimized here for constexpr.
+ pos = proto_utils::WriteVarInt(proto_utils::MakeTagVarInt(field_id), pos);
+ *pos++ = static_cast<uint8_t>(value);
+ WriteToStream(buffer, pos);
+ }
+
+ // Proto types: fixed64, sfixed64, fixed32, sfixed32, double, float.
+ template <typename T>
+ void AppendFixed(uint32_t field_id, T value) {
+ if (nested_message_)
+ EndNestedMessage();
+
+ uint8_t buffer[proto_utils::kMaxSimpleFieldEncodedSize];
+ uint8_t* pos = buffer;
+
+ pos = proto_utils::WriteVarInt(proto_utils::MakeTagFixed<T>(field_id), pos);
+ memcpy(pos, &value, sizeof(T));
+ pos += sizeof(T);
+ // TODO: Optimize memcpy performance, see http://crbug.com/624311 .
+ WriteToStream(buffer, pos);
+ }
+
+ void AppendString(uint32_t field_id, const char* str);
+
+ void AppendString(uint32_t field_id, const std::string& str) {
+ AppendBytes(field_id, str.data(), str.size());
+ }
+
+ void AppendBytes(uint32_t field_id, const void* value, size_t size);
+
+ // Append raw bytes for a field, using the supplied |ranges| to
+ // copy from |num_ranges| individual buffers.
+ size_t AppendScatteredBytes(uint32_t field_id,
+ ContiguousMemoryRange* ranges,
+ size_t num_ranges);
+
+ // Begins a nested message. The returned object is owned by the MessageArena
+ // of the root message. The nested message ends either when Finalize() is
+ // called or when any other Append* method is called in the parent class.
+ // The template argument T is supposed to be a stub class auto generated from
+ // a .proto, hence a subclass of Message.
+ template <class T>
+ T* BeginNestedMessage(uint32_t field_id) {
+ // This is to prevent subclasses (which should be autogenerated, though), to
+ // introduce extra state fields (which wouldn't be initialized by Reset()).
+ static_assert(std::is_base_of<Message, T>::value,
+ "T must be a subclass of Message");
+ static_assert(sizeof(T) == sizeof(Message),
+ "Message subclasses cannot introduce extra state.");
+ return static_cast<T*>(BeginNestedMessageInternal(field_id));
+ }
+
+ // Gives read-only access to the underlying stream_writer. This is used only
+ // by few internals to query the state of the underlying buffer. It is almost
+ // always a bad idea to poke at the stream_writer() internals.
+ const ScatteredStreamWriter* stream_writer() const { return stream_writer_; }
+
+ // Appends some raw bytes to the message. The use-case for this is preserving
+ // unknown fields in the decode -> re-encode path of xxx.gen.cc classes
+ // generated by the cppgen_plugin.cc.
+ // The caller needs to guarantee that the appended data is properly
+ // proto-encoded and each field has a proto preamble.
+ void AppendRawProtoBytes(const void* data, size_t size) {
+ if (nested_message_)
+ EndNestedMessage();
+ const uint8_t* src = reinterpret_cast<const uint8_t*>(data);
+ WriteToStream(src, src + size);
+ }
+
+ private:
+ Message(const Message&) = delete;
+ Message& operator=(const Message&) = delete;
+
+ Message* BeginNestedMessageInternal(uint32_t field_id);
+
+ // Called by Finalize and Append* methods.
+ void EndNestedMessage();
+
+ void WriteToStream(const uint8_t* src_begin, const uint8_t* src_end) {
+ PERFETTO_DCHECK(!is_finalized());
+ PERFETTO_DCHECK(src_begin <= src_end);
+ const uint32_t size = static_cast<uint32_t>(src_end - src_begin);
+ stream_writer_->WriteBytes(src_begin, size);
+ size_ += size;
+ }
+
+ // Only POD fields are allowed. This class's dtor is never called.
+ // See the comment on the static_assert in the corresponding .cc file.
+
+ // The stream writer interface used for the serialization.
+ ScatteredStreamWriter* stream_writer_;
+
+ // The storage used to allocate nested Message objects.
+ // This is owned by RootMessage<T>.
+ MessageArena* arena_;
+
+ // Pointer to the last child message created through BeginNestedMessage(), if
+ // any, nullptr otherwise. There is no need to keep track of more than one
+ // message per nesting level as the proto-zero API contract mandates that
+ // nested fields can be filled only in a stacked fashion. In other words,
+ // nested messages are finalized and sealed when any other field is set in the
+ // parent message (or the parent message itself is finalized) and cannot be
+ // accessed anymore afterwards.
+ Message* nested_message_;
+
+ // [optional] Pointer to a non-aligned pre-reserved var-int slot of
+ // kMessageLengthFieldSize bytes. When set, the Finalize() method will write
+ // the size of proto-encoded message in the pointed memory region.
+ uint8_t* size_field_;
+
+ // Keeps track of the size of the current message.
+ uint32_t size_;
+
+ enum class MessageState : uint8_t {
+ // Message is still being written to.
+ kNotFinalized,
+ // Finalized, no more changes to the message are allowed. This is to DCHECK
+ // attempts of writing to a message which has been Finalize()-d.
+ kFinalized,
+ // Finalized, and additionally the message data has been partially or fully
+ // compacted into the last 3 bytes of `size_field_`. See the comment in
+ // Finalize().
+ kFinalizedWithCompaction,
+ };
+
+ MessageState message_state_;
+
+#if PERFETTO_DCHECK_IS_ON()
+ // Current generation of message. Incremented on Reset.
+ // Used to detect stale handles.
+ uint32_t generation_;
+
+ MessageHandleBase* handle_;
+#endif
+};
+
+} // namespace protozero
+
+#endif // INCLUDE_PERFETTO_PROTOZERO_MESSAGE_H_
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_PROTOZERO_MESSAGE_HANDLE_H_
+#define INCLUDE_PERFETTO_PROTOZERO_MESSAGE_HANDLE_H_
+
+#include <functional>
+
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_stream_writer.h"
+
+namespace protozero {
+
+class Message;
+
+class PERFETTO_EXPORT_COMPONENT MessageFinalizationListener {
+ public:
+ virtual ~MessageFinalizationListener();
+ virtual void OnMessageFinalized(Message* message) = 0;
+};
+
+// MessageHandle allows to decouple the lifetime of a proto message
+// from the underlying storage. It gives the following guarantees:
+// - The underlying message is finalized (if still alive) if the handle goes
+// out of scope.
+// - In Debug / DCHECK_ALWAYS_ON builds, the handle becomes null once the
+// message is finalized. This is to enforce the append-only API. For instance
+// when adding two repeated messages, the addition of the 2nd one forces
+// the finalization of the first.
+// Think about this as a WeakPtr<Message> which calls
+// Message::Finalize() when going out of scope.
+
+class PERFETTO_EXPORT_COMPONENT MessageHandleBase {
+ public:
+ ~MessageHandleBase() {
+ if (message_) {
+#if PERFETTO_DCHECK_IS_ON()
+ PERFETTO_DCHECK(generation_ == message_->generation_);
+#endif
+ FinalizeMessage();
+ }
+ }
+
+ // Move-only type.
+ MessageHandleBase(MessageHandleBase&& other) noexcept {
+ Move(std::move(other));
+ }
+
+ MessageHandleBase& operator=(MessageHandleBase&& other) noexcept {
+ // If the current handle was pointing to a message and is being reset to a
+ // new one, finalize the old message. However, if the other message is the
+ // same as the one we point to, don't finalize.
+ if (message_ && message_ != other.message_)
+ FinalizeMessage();
+ Move(std::move(other));
+ return *this;
+ }
+
+ explicit operator bool() const {
+#if PERFETTO_DCHECK_IS_ON()
+ PERFETTO_DCHECK(!message_ || generation_ == message_->generation_);
+#endif
+ return !!message_;
+ }
+
+ void set_finalization_listener(MessageFinalizationListener* listener) {
+ listener_ = listener;
+ }
+
+ // Returns a (non-owned, it should not be deleted) pointer to the
+ // ScatteredStreamWriter used to write the message data. The Message becomes
+ // unusable after this point.
+ //
+ // The caller can now write directly, without using protozero::Message.
+ ScatteredStreamWriter* TakeStreamWriter() {
+ ScatteredStreamWriter* stream_writer = message_->stream_writer_;
+#if PERFETTO_DCHECK_IS_ON()
+ message_->set_handle(nullptr);
+#endif
+ message_ = nullptr;
+ listener_ = nullptr;
+ return stream_writer;
+ }
+
+ protected:
+ explicit MessageHandleBase(Message* message = nullptr) : message_(message) {
+#if PERFETTO_DCHECK_IS_ON()
+ generation_ = message_ ? message->generation_ : 0;
+ if (message_)
+ message_->set_handle(this);
+#endif
+ }
+
+ Message* operator->() const {
+#if PERFETTO_DCHECK_IS_ON()
+ PERFETTO_DCHECK(!message_ || generation_ == message_->generation_);
+#endif
+ return message_;
+ }
+ Message& operator*() const { return *(operator->()); }
+
+ private:
+ friend class Message;
+ MessageHandleBase(const MessageHandleBase&) = delete;
+ MessageHandleBase& operator=(const MessageHandleBase&) = delete;
+
+ void reset_message() {
+ // This is called by Message::Finalize().
+ PERFETTO_DCHECK(message_->is_finalized());
+ message_ = nullptr;
+ listener_ = nullptr;
+ }
+
+ void Move(MessageHandleBase&& other) {
+ message_ = other.message_;
+ other.message_ = nullptr;
+ listener_ = other.listener_;
+ other.listener_ = nullptr;
+#if PERFETTO_DCHECK_IS_ON()
+ if (message_) {
+ generation_ = message_->generation_;
+ message_->set_handle(this);
+ }
+#endif
+ }
+
+ void FinalizeMessage() {
+ // |message_| and |listener_| may be cleared by reset_message() during
+ // Message::Finalize().
+ auto* listener = listener_;
+ auto* message = message_;
+ message->Finalize();
+ if (listener)
+ listener->OnMessageFinalized(message);
+ }
+
+ Message* message_;
+ MessageFinalizationListener* listener_ = nullptr;
+#if PERFETTO_DCHECK_IS_ON()
+ uint32_t generation_;
+#endif
+};
+
+template <typename T>
+class MessageHandle : public MessageHandleBase {
+ public:
+ MessageHandle() : MessageHandle(nullptr) {}
+ explicit MessageHandle(T* message) : MessageHandleBase(message) {}
+
+ explicit operator bool() const { return MessageHandleBase::operator bool(); }
+
+ T& operator*() const {
+ return static_cast<T&>(MessageHandleBase::operator*());
+ }
+
+ T* operator->() const {
+ return static_cast<T*>(MessageHandleBase::operator->());
+ }
+
+ T* get() const { return static_cast<T*>(MessageHandleBase::operator->()); }
+};
+
+} // namespace protozero
+
+#endif // INCLUDE_PERFETTO_PROTOZERO_MESSAGE_HANDLE_H_
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_TRACING_TRACE_WRITER_BASE_H_
+#define INCLUDE_PERFETTO_TRACING_TRACE_WRITER_BASE_H_
+
+// gen_amalgamated expanded: #include "perfetto/protozero/message_handle.h"
+
+namespace perfetto {
+
+namespace protos {
+namespace pbzero {
+class TracePacket;
+} // namespace pbzero
+} // namespace protos
+
+// This is a single-thread write interface that allows to write protobufs
+// directly into the tracing shared buffer without making any copies.
+// The idea is that each data source creates one (or more) TraceWriter for each
+// thread it wants to write from. Each TraceWriter will get its own dedicated
+// chunk and will write into the shared buffer without any locking most of the
+// time.
+
+class TraceWriterBase {
+ public:
+ virtual ~TraceWriterBase();
+
+ // Creates a new trace packet and returns a handle to a protozero Message that
+ // will write to it. The message will be finalized either by calling directly
+ // handle.Finalize() or by letting the handle go out of scope (the message
+ // should be finalized before a new call to NewTracePacket is made). The
+ // returned handle can be std::move()'d but cannot be used after either: (i)
+ // the TraceWriter instance is destroyed, (ii) a subsequence NewTracePacket()
+ // call is made on the same TraceWriter instance.
+ //
+ // The caller can use protozero::MessageHandle::TakeStreamWriter() to write.
+ //
+ // The caller must call ->Finalize() on the returned trace packet (the handle
+ // destructor will take care of that) or explicitly call FinishTracePacket (if
+ // using TakeStreamWriter) before calling any method on the same TraceWriter
+ // instance.
+ //
+ // The returned packet handle is always valid, but note that, when using
+ // BufferExhaustedPolicy::kDrop and the SMB is exhausted, it may be assigned
+ // a garbage chunk and any trace data written into it will be lost. For more
+ // details on buffer size choices: https://perfetto.dev/docs/concepts/buffers.
+ virtual protozero::MessageHandle<protos::pbzero::TracePacket>
+ NewTracePacket() = 0;
+
+ // Tells the TraceWriterBase that the previous packet started with
+ // NewTracePacket() is finished.
+ //
+ // Calling this is optional: the TraceWriterBase can realize that the previous
+ // packet is finished when the next NewTracePacket() is called. It is still
+ // useful, because the next NewTracePacket may not happen for a while.
+ virtual void FinishTracePacket() = 0;
+
+ // Commits the data pending for the current chunk. This can be called
+ // only if the handle returned by NewTracePacket() has been destroyed (i.e. we
+ // cannot Flush() while writing a TracePacket).
+ //
+ // Note: Flush() also happens implicitly when destroying the TraceWriter.
+ //
+ // |callback| is an optional callback. When non-null it will request the
+ // service to ACK the flush and will be invoked after the service has
+ // acknowledged it. The callback might be NEVER INVOKED if the service crashes
+ // or the IPC connection is dropped. The callback should be used only by tests
+ // and best-effort features (logging).
+ virtual void Flush(std::function<void()> callback = {}) = 0;
+
+ // Bytes written since creation. Not reset when new chunks are acquired.
+ virtual uint64_t written() const = 0;
+};
+
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_TRACING_TRACE_WRITER_BASE_H_
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_TRACING_INTERNAL_DATA_SOURCE_INTERNAL_H_
+#define INCLUDE_PERFETTO_TRACING_INTERNAL_DATA_SOURCE_INTERNAL_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+#include <array>
+#include <atomic>
+#include <functional>
+#include <memory>
+#include <mutex>
+
+// No perfetto headers (other than tracing/api and protozero) should be here.
+// gen_amalgamated expanded: #include "perfetto/tracing/buffer_exhausted_policy.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/core/data_source_config.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/internal/basic_types.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/trace_writer_base.h"
+
+namespace perfetto {
+
+class DataSourceBase;
+class InterceptorBase;
+class TraceWriterBase;
+
+namespace internal {
+
+class TracingTLS;
+
+// This maintains the internal state of a data source instance that is used only
+// to implement the tracing mechanics and is not exposed to the API client.
+// There is one of these object per DataSource instance (up to
+// kMaxDataSourceInstances).
+struct DataSourceState {
+ // This boolean flag determines whether the DataSource::Trace() method should
+ // do something or be a no-op. This flag doesn't give the full guarantee
+ // that tracing data will be visible in the trace, it just makes it so that
+ // the client attemps writing trace data and interacting with the service.
+ // For instance, when a tracing session ends the service will reject data
+ // commits that arrive too late even if the producer hasn't received the stop
+ // IPC message.
+ // This flag is set right before calling OnStart() and cleared right before
+ // calling OnStop(), unless using HandleStopAsynchronously() (see comments
+ // in data_source.h).
+ // Keep this flag as the first field. This allows the compiler to directly
+ // dereference the DataSourceState* pointer in the trace fast-path without
+ // doing extra pointr arithmetic.
+ std::atomic<bool> trace_lambda_enabled{false};
+
+ // The overall TracingMuxerImpl instance id, which gets incremented by
+ // ResetForTesting.
+ uint32_t muxer_id_for_testing = 0;
+
+ // The central buffer id that all TraceWriter(s) created by this data source
+ // must target.
+ BufferId buffer_id = 0;
+
+ // The index within TracingMuxerImpl.backends_. Practically it allows to
+ // lookup the Producer object, and hence the IPC channel, for this data
+ // source.
+ TracingBackendId backend_id = 0;
+
+ // Each backend may connect to the tracing service multiple times if a
+ // disconnection occurs. This counter is used to uniquely identify each
+ // connection so that trace writers don't get reused across connections.
+ uint32_t backend_connection_id = 0;
+
+ // The instance id as assigned by the tracing service. Note that because a
+ // process can be connected to >1 services, this ID is not globally unique but
+ // is only unique within the scope of its backend.
+ // Only the tuple (backend_id, data_source_instance_id) is globally unique.
+ uint64_t data_source_instance_id = 0;
+
+ // Set to a non-0 target buffer reservation ID iff startup tracing is
+ // currently enabled for this data source.
+ std::atomic<uint16_t> startup_target_buffer_reservation{0};
+
+ // If the data source was originally started for startup tracing, this is set
+ // to the startup session's ID.
+ uint64_t startup_session_id = 0;
+
+ // The trace config used by this instance. This is used to de-duplicate
+ // instances for data sources with identical names (e.g., track event).
+ // We store it as a pointer to be able to free memory after the datasource
+ // is stopped.
+ std::unique_ptr<DataSourceConfig> config;
+
+ // If this data source is being intercepted (see Interceptor), this field
+ // contains the non-zero id of a registered interceptor which should receive
+ // trace packets for this session. Note: interceptor id 1 refers to the first
+ // element of TracingMuxerImpl::interceptors_ with successive numbers using
+ // the following slots.
+ uint32_t interceptor_id = 0;
+
+ // This is set to true when the datasource is in the process of async stop.
+ // The flag is checked by the tracing muxer to avoid calling OnStop for the
+ // second time.
+ bool async_stop_in_progress = false;
+
+ // This lock is not held to implement Trace() and it's used only if the trace
+ // code wants to access its own data source state.
+ // This is to prevent that accessing the data source on an arbitrary embedder
+ // thread races with the internal IPC thread destroying the data source
+ // because of a end-of-tracing notification from the service.
+ // This lock is also used to protect access to a possible interceptor for this
+ // data source session.
+ std::recursive_mutex lock;
+ std::unique_ptr<DataSourceBase> data_source;
+ std::unique_ptr<InterceptorBase> interceptor;
+};
+
+// This is to allow lazy-initialization and avoid static initializers and
+// at-exit destructors. All the entries are initialized via placement-new when
+// DataSource::Register() is called, see TracingMuxerImpl::RegisterDataSource().
+struct DataSourceStateStorage {
+ alignas(DataSourceState) char storage[sizeof(DataSourceState)]{};
+};
+
+// Per-DataSource-type global state.
+struct DataSourceStaticState {
+ // System-wide unique id of the data source.
+ uint64_t id = 0;
+
+ // Unique index of the data source, assigned at registration time.
+ uint32_t index = kMaxDataSources;
+
+ // A bitmap that tells about the validity of each |instances| entry. When the
+ // i-th bit of the bitmap it's set, instances[i] is valid.
+ std::atomic<uint32_t> valid_instances{};
+ std::array<DataSourceStateStorage, kMaxDataSourceInstances> instances{};
+
+ // Incremented whenever incremental state should be reset for any instance of
+ // this data source.
+ std::atomic<uint32_t> incremental_state_generation{};
+
+ // Can be used with a cached |valid_instances| bitmap.
+ DataSourceState* TryGetCached(uint32_t cached_bitmap, size_t n) {
+ return cached_bitmap & (1 << n)
+ ? reinterpret_cast<DataSourceState*>(&instances[n])
+ : nullptr;
+ }
+
+ DataSourceState* TryGet(size_t n) {
+ return TryGetCached(valid_instances.load(std::memory_order_acquire), n);
+ }
+
+ void CompilerAsserts() {
+ static_assert(sizeof(valid_instances.load()) * 8 >= kMaxDataSourceInstances,
+ "kMaxDataSourceInstances too high");
+ }
+
+ void ResetForTesting() {
+ id = 0;
+ index = kMaxDataSources;
+ valid_instances.store(0, std::memory_order_release);
+ instances = {};
+ incremental_state_generation.store(0, std::memory_order_release);
+ }
+};
+
+// Per-DataSource-instance thread-local state.
+struct DataSourceInstanceThreadLocalState {
+ void Reset() { *this = DataSourceInstanceThreadLocalState{}; }
+
+ std::unique_ptr<TraceWriterBase> trace_writer;
+ using ObjectWithDeleter = std::unique_ptr<void, void (*)(void*)>;
+ ObjectWithDeleter incremental_state = {nullptr, [](void*) {}};
+ ObjectWithDeleter data_source_custom_tls = {nullptr, [](void*) {}};
+ uint32_t incremental_state_generation = 0;
+ uint32_t muxer_id_for_testing = 0;
+ TracingBackendId backend_id = 0;
+ uint32_t backend_connection_id = 0;
+ BufferId buffer_id = 0;
+ uint64_t data_source_instance_id = 0;
+ bool is_intercepted = false;
+ uint64_t last_empty_packet_position = 0;
+ uint16_t startup_target_buffer_reservation = 0;
+};
+
+// Per-DataSource-type thread-local state.
+struct DataSourceThreadLocalState {
+ DataSourceStaticState* static_state = nullptr;
+
+ // Pointer to the parent tls object that holds us. Used to retrieve the
+ // generation, which is per-global-TLS and not per data-source.
+ TracingTLS* root_tls = nullptr;
+
+ // One entry per each data source instance.
+ std::array<DataSourceInstanceThreadLocalState, kMaxDataSourceInstances>
+ per_instance{};
+};
+
+} // namespace internal
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_TRACING_INTERNAL_DATA_SOURCE_INTERNAL_H_
+// gen_amalgamated begin header: include/perfetto/tracing/locked_handle.h
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_TRACING_LOCKED_HANDLE_H_
+#define INCLUDE_PERFETTO_TRACING_LOCKED_HANDLE_H_
+
+#include <mutex>
+
+namespace perfetto {
+
+// This is used for GetDataSourceLocked(), in the (rare) case where the
+// tracing code wants to access the state of its data source from the Trace()
+// method.
+template <typename T>
+class LockedHandle {
+ public:
+ LockedHandle(std::unique_lock<std::recursive_mutex> lock, T* obj)
+ : lock_(std::move(lock)), obj_(obj) {}
+ LockedHandle() = default; // For the invalid case.
+ LockedHandle(LockedHandle&&) = default;
+ LockedHandle& operator=(LockedHandle&&) = default;
+
+ bool valid() const { return obj_; }
+ explicit operator bool() const { return valid(); }
+
+ T* operator->() {
+ assert(valid());
+ return obj_;
+ }
+
+ T& operator*() { return *(this->operator->()); }
+
+ private:
+ std::unique_lock<std::recursive_mutex> lock_;
+ T* obj_ = nullptr;
+};
+
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_TRACING_LOCKED_HANDLE_H_
+/*
+ * Copyright (C) 2020 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_TRACING_INTERCEPTOR_H_
+#define INCLUDE_PERFETTO_TRACING_INTERCEPTOR_H_
+
+// An interceptor is used to redirect trace packets written by a data source
+// into a custom backend instead of the normal Perfetto tracing service. For
+// example, the console interceptor prints all trace packets to the console as
+// they are generated. Another potential use is exporting trace data to another
+// tracing service such as Android ATrace or Windows ETW.
+//
+// An interceptor is defined by subclassing the perfetto::Interceptor template:
+//
+// class MyInterceptor : public perfetto::Interceptor<MyInterceptor> {
+// public:
+// ~MyInterceptor() override = default;
+//
+// // This function is called for each intercepted trace packet. |context|
+// // contains information about the trace packet as well as other state
+// // tracked by the interceptor (e.g., see ThreadLocalState).
+// //
+// // Intercepted trace data is provided in the form of serialized protobuf
+// // bytes, accessed through the |context.packet_data| field.
+// //
+// // Warning: this function can be called on any thread at any time. See
+// // below for how to safely access shared interceptor data from here.
+// static void OnTracePacket(InterceptorContext context) {
+// perfetto::protos::pbzero::TracePacket::Decoder packet(
+// context.packet_data.data, context.packet_data.size);
+// // ... Write |packet| to the desired destination ...
+// }
+// };
+//
+// An interceptor should be registered before any tracing sessions are started.
+// Note that the interceptor also needs to be activated through the trace config
+// as shown below.
+//
+// perfetto::InterceptorDescriptor desc;
+// desc.set_name("my_interceptor");
+// MyInterceptor::Register(desc);
+//
+// Finally, an interceptor is enabled through the trace config like this:
+//
+// perfetto::TraceConfig cfg;
+// auto* ds_cfg = cfg.add_data_sources()->mutable_config();
+// ds_cfg->set_name("data_source_to_intercept"); // e.g. "track_event"
+// ds_cfg->mutable_interceptor_config()->set_name("my_interceptor");
+//
+// Once an interceptor is enabled, all data from the affected data sources is
+// sent to the interceptor instead of the main tracing buffer.
+//
+// Interceptor state
+// =================
+//
+// Besides the serialized trace packet data, the |OnTracePacket| interceptor
+// function can access three other types of state:
+//
+// 1. Global state: this is no different from a normal static function, but care
+// must be taken because |OnTracePacket| can be called concurrently on any
+// thread at any time.
+//
+// 2. Per-data source instance state: since the interceptor class is
+// automatically instantiated for each intercepted data source, its fields
+// can be used to store per-instance data such as the trace config. This data
+// can be maintained through the OnSetup/OnStart/OnStop callbacks:
+//
+// class MyInterceptor : public perfetto::Interceptor<MyInterceptor> {
+// public:
+// void OnSetup(const SetupArgs& args) override {
+// enable_foo_ = args.config.interceptor_config().enable_foo();
+// }
+//
+// bool enable_foo_{};
+// };
+//
+// In the interceptor function this data must be accessed through a scoped
+// lock for safety:
+//
+// class MyInterceptor : public perfetto::Interceptor<MyInterceptor> {
+// ...
+// static void OnTracePacket(InterceptorContext context) {
+// auto my_interceptor = context.GetInterceptorLocked();
+// if (my_interceptor) {
+// // Access fields of MyInterceptor here.
+// if (my_interceptor->enable_foo_) { ... }
+// }
+// ...
+// }
+// };
+//
+// Since accessing this data involves holding a lock, it should be done
+// sparingly.
+//
+// 3. Per-thread/TraceWriter state: many data sources use interning to avoid
+// repeating common data in the trace. Since the interning dictionaries are
+// typically kept individually for each TraceWriter sequence (i.e., per
+// thread), an interceptor can declare a data structure with lifetime
+// matching the TraceWriter:
+//
+// class MyInterceptor : public perfetto::Interceptor<MyInterceptor> {
+// public:
+// struct ThreadLocalState
+// : public perfetto::InterceptorBase::ThreadLocalState {
+// ThreadLocalState(ThreadLocalStateArgs&) override = default;
+// ~ThreadLocalState() override = default;
+//
+// std::map<size_t, std::string> event_names;
+// };
+// };
+//
+// This per-thread state can then be accessed and maintained in
+// |OnTracePacket| like this:
+//
+// class MyInterceptor : public perfetto::Interceptor<MyInterceptor> {
+// ...
+// static void OnTracePacket(InterceptorContext context) {
+// // Updating interned data.
+// auto& tls = context.GetThreadLocalState();
+// if (parsed_packet.sequence_flags() & perfetto::protos::pbzero::
+// TracePacket::SEQ_INCREMENTAL_STATE_CLEARED) {
+// tls.event_names.clear();
+// }
+// for (const auto& entry : parsed_packet.interned_data().event_names())
+// tls.event_names[entry.iid()] = entry.name();
+//
+// // Looking up interned data.
+// if (parsed_packet.has_track_event()) {
+// size_t name_iid = parsed_packet.track_event().name_iid();
+// const std::string& event_name = tls.event_names[name_iid];
+// }
+// ...
+// }
+// };
+//
+
+#include <functional>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/core/forward_decls.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/internal/basic_types.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/internal/data_source_internal.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/locked_handle.h"
+
+namespace {
+class MockTracingMuxer;
+}
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class DataSourceConfig;
+class InterceptorDescriptor;
+} // namespace gen
+} // namespace protos
+
+using protos::gen::InterceptorDescriptor;
+
+namespace internal {
+class InterceptorTraceWriter;
+class InterceptorTraceWriterTest;
+class TracingMuxer;
+class TracingMuxerFake;
+class TracingMuxerImpl;
+} // namespace internal
+
+// A virtual base class for interceptors. Users should derive from the templated
+// subclass below instead of this one.
+class PERFETTO_EXPORT_COMPONENT InterceptorBase {
+ public:
+ virtual ~InterceptorBase();
+
+ // A virtual base class for thread-local state needed by the interceptor.
+ // To define your own state, subclass this with the same name in the
+ // interceptor class. A reference to the state can then be looked up through
+ // context.GetThreadLocalState() in the trace packet interceptor function.
+ class PERFETTO_EXPORT_COMPONENT ThreadLocalState {
+ public:
+ virtual ~ThreadLocalState();
+ };
+
+ struct SetupArgs {
+ const DataSourceConfig& config;
+ };
+ struct StartArgs {};
+ struct StopArgs {};
+
+ // Called when an intercepted data source is set up. Both the interceptor's
+ // and the data source's configuration is available in
+ // |SetupArgs|. Called on an internal Perfetto service thread, but not
+ // concurrently.
+ virtual void OnSetup(const SetupArgs&) {}
+
+ // Called when an intercepted data source starts. Called on an internal
+ // Perfetto service thread, but not concurrently.
+ virtual void OnStart(const StartArgs&) {}
+
+ // Called when an intercepted data source stops. Called on an internal
+ // Perfetto service thread, but not concurrently.
+ virtual void OnStop(const StopArgs&) {}
+
+ private:
+ friend class internal::InterceptorTraceWriter;
+ friend class internal::InterceptorTraceWriterTest;
+ friend class internal::TracingMuxer;
+ friend class internal::TracingMuxerFake;
+ friend class internal::TracingMuxerImpl;
+ friend MockTracingMuxer;
+ template <class T>
+ friend class Interceptor;
+
+ // Data passed from DataSource::Trace() into the interceptor.
+ struct TracePacketCallbackArgs {
+ internal::DataSourceStaticState* static_state;
+ uint32_t instance_index;
+ protozero::ConstBytes packet_data;
+ ThreadLocalState* tls;
+ };
+
+ // These callback functions are defined as stateless to avoid accidentally
+ // introducing cross-thread data races.
+ using TLSFactory = std::unique_ptr<ThreadLocalState> (*)(
+ internal::DataSourceStaticState*,
+ uint32_t data_source_instance_index);
+ using TracePacketCallback = void (*)(TracePacketCallbackArgs);
+
+ static void RegisterImpl(
+ const InterceptorDescriptor& descriptor,
+ std::function<std::unique_ptr<InterceptorBase>()> factory,
+ InterceptorBase::TLSFactory tls_factory,
+ InterceptorBase::TracePacketCallback on_trace_packet);
+};
+
+// Templated interceptor instantiation. See above for usage.
+template <class InterceptorType>
+class PERFETTO_EXPORT_COMPONENT Interceptor : public InterceptorBase {
+ public:
+ // A context object provided to the ThreadLocalState constructor. Provides
+ // access to the per-instance interceptor object.
+ class ThreadLocalStateArgs {
+ public:
+ ~ThreadLocalStateArgs() = default;
+
+ ThreadLocalStateArgs(const ThreadLocalStateArgs&) = delete;
+ ThreadLocalStateArgs& operator=(const ThreadLocalStateArgs&) = delete;
+
+ ThreadLocalStateArgs(ThreadLocalStateArgs&&) noexcept = default;
+ ThreadLocalStateArgs& operator=(ThreadLocalStateArgs&&) noexcept = default;
+
+ // Return a locked reference to the interceptor session. The session object
+ // will remain valid as long as the returned handle is in scope.
+ LockedHandle<InterceptorType> GetInterceptorLocked() {
+ auto* internal_state = static_state_->TryGet(data_source_instance_index_);
+ if (!internal_state)
+ return LockedHandle<InterceptorType>();
+ std::unique_lock<std::recursive_mutex> lock(internal_state->lock);
+ return LockedHandle<InterceptorType>(
+ std::move(lock),
+ static_cast<InterceptorType*>(internal_state->interceptor.get()));
+ }
+
+ private:
+ friend class Interceptor<InterceptorType>;
+ friend class InterceptorContext;
+ friend class TracingMuxerImpl;
+
+ ThreadLocalStateArgs(internal::DataSourceStaticState* static_state,
+ uint32_t data_source_instance_index)
+ : static_state_(static_state),
+ data_source_instance_index_(data_source_instance_index) {}
+
+ internal::DataSourceStaticState* const static_state_;
+ const uint32_t data_source_instance_index_;
+ };
+
+ // A context object provided to each call into |OnTracePacket|. Contains the
+ // intercepted serialized trace packet data.
+ class InterceptorContext {
+ public:
+ InterceptorContext(InterceptorContext&&) noexcept = default;
+ ~InterceptorContext() = default;
+
+ // Return a locked reference to the interceptor session. The session object
+ // will remain valid as long as the returned handle is in scope.
+ LockedHandle<InterceptorType> GetInterceptorLocked() {
+ return tls_args_.GetInterceptorLocked();
+ }
+
+ // Return the thread-local state for this interceptor. See
+ // InterceptorBase::ThreadLocalState.
+ typename InterceptorType::ThreadLocalState& GetThreadLocalState() {
+ return static_cast<typename InterceptorType::ThreadLocalState&>(*tls_);
+ }
+
+ // A buffer containing the serialized TracePacket protocol buffer message.
+ // This memory is only valid during the call to OnTracePacket.
+ protozero::ConstBytes packet_data;
+
+ private:
+ friend class Interceptor<InterceptorType>;
+ InterceptorContext(TracePacketCallbackArgs args)
+ : packet_data(args.packet_data),
+ tls_args_(args.static_state, args.instance_index),
+ tls_(args.tls) {}
+ InterceptorContext(const InterceptorContext&) = delete;
+ InterceptorContext& operator=(const InterceptorContext&) = delete;
+
+ ThreadLocalStateArgs tls_args_;
+ InterceptorBase::ThreadLocalState* const tls_;
+ };
+
+ // Register the interceptor for use in tracing sessions.
+ // The optional |constructor_args| will be passed to the interceptor when it
+ // is constructed.
+ template <class... Args>
+ static void Register(const InterceptorDescriptor& descriptor,
+ const Args&... constructor_args) {
+ auto factory = [constructor_args...]() {
+ return std::unique_ptr<InterceptorBase>(
+ new InterceptorType(constructor_args...));
+ };
+ auto tls_factory = [](internal::DataSourceStaticState* static_state,
+ uint32_t data_source_instance_index) {
+ // Don't bother allocating TLS state unless the interceptor is actually
+ // using it.
+ if (std::is_same<typename InterceptorType::ThreadLocalState,
+ InterceptorBase::ThreadLocalState>::value) {
+ return std::unique_ptr<InterceptorBase::ThreadLocalState>(nullptr);
+ }
+ ThreadLocalStateArgs args(static_state, data_source_instance_index);
+ return std::unique_ptr<InterceptorBase::ThreadLocalState>(
+ new typename InterceptorType::ThreadLocalState(args));
+ };
+ auto on_trace_packet = [](TracePacketCallbackArgs args) {
+ InterceptorType::OnTracePacket(InterceptorContext(std::move(args)));
+ };
+ RegisterImpl(descriptor, std::move(factory), std::move(tls_factory),
+ std::move(on_trace_packet));
+ }
+};
+
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_TRACING_INTERCEPTOR_H_
+// gen_amalgamated begin header: include/perfetto/tracing/track_event_state_tracker.h
+// gen_amalgamated begin header: gen/protos/perfetto/trace/track_event/track_event.pbzero.h
+// gen_amalgamated begin header: include/perfetto/protozero/field_writer.h
+/*
+ * Copyright (C) 2021 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+#ifndef INCLUDE_PERFETTO_PROTOZERO_FIELD_WRITER_H_
+#define INCLUDE_PERFETTO_PROTOZERO_FIELD_WRITER_H_
+
+namespace protozero {
+namespace internal {
+
+template <proto_utils::ProtoSchemaType proto_schema_type>
+struct FieldWriter {
+ static_assert(proto_schema_type != proto_utils::ProtoSchemaType::kMessage,
+ "FieldWriter can't be used with nested messages");
+};
+
+template <>
+struct FieldWriter<proto_utils::ProtoSchemaType::kDouble> {
+ inline static void Append(Message& message, uint32_t field_id, double value) {
+ message.AppendFixed(field_id, value);
+ }
+};
+
+template <>
+struct FieldWriter<proto_utils::ProtoSchemaType::kFloat> {
+ inline static void Append(Message& message, uint32_t field_id, float value) {
+ message.AppendFixed(field_id, value);
+ }
+};
+
+template <>
+struct FieldWriter<proto_utils::ProtoSchemaType::kBool> {
+ inline static void Append(Message& message, uint32_t field_id, bool value) {
+ message.AppendTinyVarInt(field_id, value);
+ }
+};
+
+template <>
+struct FieldWriter<proto_utils::ProtoSchemaType::kInt32> {
+ inline static void Append(Message& message,
+ uint32_t field_id,
+ int32_t value) {
+ message.AppendVarInt(field_id, value);
+ }
+};
+
+template <>
+struct FieldWriter<proto_utils::ProtoSchemaType::kInt64> {
+ inline static void Append(Message& message,
+ uint32_t field_id,
+ int64_t value) {
+ message.AppendVarInt(field_id, value);
+ }
+};
+
+template <>
+struct FieldWriter<proto_utils::ProtoSchemaType::kUint32> {
+ inline static void Append(Message& message,
+ uint32_t field_id,
+ uint32_t value) {
+ message.AppendVarInt(field_id, value);
+ }
+};
+
+template <>
+struct FieldWriter<proto_utils::ProtoSchemaType::kUint64> {
+ inline static void Append(Message& message,
+ uint32_t field_id,
+ uint64_t value) {
+ message.AppendVarInt(field_id, value);
+ }
+};
+
+template <>
+struct FieldWriter<proto_utils::ProtoSchemaType::kSint32> {
+ inline static void Append(Message& message,
+ uint32_t field_id,
+ int32_t value) {
+ message.AppendSignedVarInt(field_id, value);
+ }
+};
+
+template <>
+struct FieldWriter<proto_utils::ProtoSchemaType::kSint64> {
+ inline static void Append(Message& message,
+ uint32_t field_id,
+ int64_t value) {
+ message.AppendSignedVarInt(field_id, value);
+ }
+};
+
+template <>
+struct FieldWriter<proto_utils::ProtoSchemaType::kFixed32> {
+ inline static void Append(Message& message,
+ uint32_t field_id,
+ uint32_t value) {
+ message.AppendFixed(field_id, value);
+ }
+};
+
+template <>
+struct FieldWriter<proto_utils::ProtoSchemaType::kFixed64> {
+ inline static void Append(Message& message,
+ uint32_t field_id,
+ uint64_t value) {
+ message.AppendFixed(field_id, value);
+ }
+};
+
+template <>
+struct FieldWriter<proto_utils::ProtoSchemaType::kSfixed32> {
+ inline static void Append(Message& message,
+ uint32_t field_id,
+ int32_t value) {
+ message.AppendFixed(field_id, value);
+ }
+};
+
+template <>
+struct FieldWriter<proto_utils::ProtoSchemaType::kSfixed64> {
+ inline static void Append(Message& message,
+ uint32_t field_id,
+ int64_t value) {
+ message.AppendFixed(field_id, value);
+ }
+};
+
+template <>
+struct FieldWriter<proto_utils::ProtoSchemaType::kEnum> {
+ template <typename EnumType>
+ inline static void Append(Message& message,
+ uint32_t field_id,
+ EnumType value) {
+ message.AppendVarInt(field_id, value);
+ }
+};
+
+template <>
+struct FieldWriter<proto_utils::ProtoSchemaType::kString> {
+ inline static void Append(Message& message,
+ uint32_t field_id,
+ const char* data,
+ size_t size) {
+ message.AppendBytes(field_id, data, size);
+ }
+
+ inline static void Append(Message& message,
+ uint32_t field_id,
+ const std::string& value) {
+ message.AppendBytes(field_id, value.data(), value.size());
+ }
+};
+
+template <>
+struct FieldWriter<proto_utils::ProtoSchemaType::kBytes> {
+ inline static void Append(Message& message,
+ uint32_t field_id,
+ const uint8_t* data,
+ size_t size) {
+ message.AppendBytes(field_id, data, size);
+ }
+
+ inline static void Append(Message& message,
+ uint32_t field_id,
+ const std::string& value) {
+ message.AppendBytes(field_id, value.data(), value.size());
+ }
+};
+
+} // namespace internal
+} // namespace protozero
+
+#endif // INCLUDE_PERFETTO_PROTOZERO_FIELD_WRITER_H_
+// gen_amalgamated begin header: include/perfetto/protozero/packed_repeated_fields.h
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_PROTOZERO_PACKED_REPEATED_FIELDS_H_
+#define INCLUDE_PERFETTO_PROTOZERO_PACKED_REPEATED_FIELDS_H_
+
+#include <stdint.h>
+
+#include <array>
+#include <memory>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace protozero {
+
+// This file contains classes used when encoding packed repeated fields.
+// To encode such a field, the caller is first expected to accumulate all of the
+// values in one of the following types (depending on the wire type of the
+// individual elements), defined below:
+// * protozero::PackedVarInt
+// * protozero::PackedFixedSizeInt</*element_type=*/ uint32_t>
+// Then that buffer is passed to the protozero-generated setters as an argument.
+// After calling the setter, the buffer can be destroyed.
+//
+// An example of encoding a packed field:
+// protozero::HeapBuffered<protozero::Message> msg;
+// protozero::PackedVarInt buf;
+// buf.Append(42);
+// buf.Append(-1);
+// msg->set_fieldname(buf);
+// msg.SerializeAsString();
+
+class PackedBufferBase {
+ public:
+ PackedBufferBase() { Reset(); }
+
+ // Copy or move is disabled due to pointers to stack addresses.
+ PackedBufferBase(const PackedBufferBase&) = delete;
+ PackedBufferBase(PackedBufferBase&&) = delete;
+ PackedBufferBase& operator=(const PackedBufferBase&) = delete;
+ PackedBufferBase& operator=(PackedBufferBase&&) = delete;
+
+ void Reset();
+
+ const uint8_t* data() const { return storage_begin_; }
+
+ size_t size() const {
+ return static_cast<size_t>(write_ptr_ - storage_begin_);
+ }
+
+ protected:
+ void GrowIfNeeded() {
+ PERFETTO_DCHECK(write_ptr_ >= storage_begin_ && write_ptr_ <= storage_end_);
+ if (PERFETTO_UNLIKELY(write_ptr_ + kMaxElementSize > storage_end_)) {
+ GrowSlowpath();
+ }
+ }
+
+ void GrowSlowpath();
+
+ // max(uint64_t varint encoding, biggest fixed type (uint64)).
+ static constexpr size_t kMaxElementSize = 10;
+
+ // So sizeof(this) == 8k.
+ static constexpr size_t kOnStackStorageSize = 8192 - 32;
+
+ uint8_t* storage_begin_;
+ uint8_t* storage_end_;
+ uint8_t* write_ptr_;
+ std::unique_ptr<uint8_t[]> heap_buf_;
+ alignas(uint64_t) uint8_t stack_buf_[kOnStackStorageSize];
+};
+
+class PackedVarInt : public PackedBufferBase {
+ public:
+ template <typename T>
+ void Append(T value) {
+ GrowIfNeeded();
+ write_ptr_ = proto_utils::WriteVarInt(value, write_ptr_);
+ }
+};
+
+template <typename T /* e.g. uint32_t for Fixed32 */>
+class PackedFixedSizeInt : public PackedBufferBase {
+ public:
+ void Append(T value) {
+ static_assert(sizeof(T) == 4 || sizeof(T) == 8,
+ "PackedFixedSizeInt should be used only with 32/64-bit ints");
+ static_assert(sizeof(T) <= kMaxElementSize,
+ "kMaxElementSize needs to be updated");
+ GrowIfNeeded();
+ PERFETTO_DCHECK(reinterpret_cast<size_t>(write_ptr_) % alignof(T) == 0);
+ memcpy(reinterpret_cast<T*>(write_ptr_), &value, sizeof(T));
+ write_ptr_ += sizeof(T);
+ }
+};
+
+} // namespace protozero
+
+#endif // INCLUDE_PERFETTO_PROTOZERO_PACKED_REPEATED_FIELDS_H_
+// gen_amalgamated begin header: include/perfetto/protozero/proto_decoder.h
+/*
+ * Copyright (C) 2018 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_PROTOZERO_PROTO_DECODER_H_
+#define INCLUDE_PERFETTO_PROTOZERO_PROTO_DECODER_H_
+
+#include <stdint.h>
+#include <array>
+#include <memory>
+#include <vector>
+
+// gen_amalgamated expanded: #include "perfetto/base/compiler.h"
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/field.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace protozero {
+
+// A generic protobuf decoder. Doesn't require any knowledge about the proto
+// schema. It tokenizes fields, retrieves their ID and type and exposes
+// accessors to retrieve its values.
+// It does NOT recurse in nested submessages, instead it just computes their
+// boundaries, recursion is left to the caller.
+// This class is designed to be used in perf-sensitive contexts. It does not
+// allocate and does not perform any proto semantic checks (e.g. repeated /
+// required / optional). It's supposedly safe wrt out-of-bounds memory accesses
+// (see proto_decoder_fuzzer.cc).
+// This class serves also as a building block for TypedProtoDecoder, used when
+// the schema is known at compile time.
+class PERFETTO_EXPORT_COMPONENT ProtoDecoder {
+ public:
+ // Creates a ProtoDecoder using the given |buffer| with size |length| bytes.
+ ProtoDecoder(const void* buffer, size_t length)
+ : begin_(reinterpret_cast<const uint8_t*>(buffer)),
+ end_(begin_ + length),
+ read_ptr_(begin_) {}
+ ProtoDecoder(const std::string& str) : ProtoDecoder(str.data(), str.size()) {}
+ ProtoDecoder(const ConstBytes& cb) : ProtoDecoder(cb.data, cb.size) {}
+
+ // Reads the next field from the buffer and advances the read cursor. If a
+ // full field cannot be read, the returned Field will be invalid (i.e.
+ // field.valid() == false).
+ Field ReadField();
+
+ // Finds the first field with the given id. Doesn't affect the read cursor.
+ Field FindField(uint32_t field_id);
+
+ // Resets the read cursor to the start of the buffer.
+ void Reset() { read_ptr_ = begin_; }
+
+ // Resets the read cursor to the given position (must be within the buffer).
+ void Reset(const uint8_t* pos) {
+ PERFETTO_DCHECK(pos >= begin_ && pos < end_);
+ read_ptr_ = pos;
+ }
+
+ // Returns the position of read cursor, relative to the start of the buffer.
+ size_t read_offset() const { return static_cast<size_t>(read_ptr_ - begin_); }
+
+ size_t bytes_left() const {
+ PERFETTO_DCHECK(read_ptr_ <= end_);
+ return static_cast<size_t>(end_ - read_ptr_);
+ }
+
+ const uint8_t* begin() const { return begin_; }
+ const uint8_t* end() const { return end_; }
+
+ protected:
+ const uint8_t* const begin_;
+ const uint8_t* const end_;
+ const uint8_t* read_ptr_ = nullptr;
+};
+
+// An iterator-like class used to iterate through repeated fields. Used by
+// TypedProtoDecoder. The iteration sequence is a bit counter-intuitive due to
+// the fact that fields_[field_id] holds the *last* value of the field, not the
+// first, but the remaining storage holds repeated fields in FIFO order.
+// Assume that we push the 10,11,12 into a repeated field with ID=1.
+//
+// Decoder memory layout: [ fields storage ] [ repeated fields storage ]
+// 1st iteration: 10
+// 2nd iteration: 11 10
+// 3rd iteration: 12 10 11
+//
+// We start the iteration @ fields_[num_fields], which is the start of the
+// repeated fields storage, proceed until the end and lastly jump @ fields_[id].
+template <typename T>
+class RepeatedFieldIterator {
+ public:
+ RepeatedFieldIterator(uint32_t field_id,
+ const Field* begin,
+ const Field* end,
+ const Field* last)
+ : field_id_(field_id), iter_(begin), end_(end), last_(last) {
+ FindNextMatchingId();
+ }
+
+ // Constructs an invalid iterator.
+ RepeatedFieldIterator()
+ : field_id_(0u), iter_(nullptr), end_(nullptr), last_(nullptr) {}
+
+ explicit operator bool() const { return iter_ != end_; }
+ const Field& field() const { return *iter_; }
+
+ T operator*() const {
+ T val{};
+ iter_->get(&val);
+ return val;
+ }
+ const Field* operator->() const { return iter_; }
+
+ RepeatedFieldIterator& operator++() {
+ PERFETTO_DCHECK(iter_ != end_);
+ if (iter_ == last_) {
+ iter_ = end_;
+ return *this;
+ }
+ ++iter_;
+ FindNextMatchingId();
+ return *this;
+ }
+
+ RepeatedFieldIterator operator++(int) {
+ PERFETTO_DCHECK(iter_ != end_);
+ RepeatedFieldIterator it(*this);
+ ++(*this);
+ return it;
+ }
+
+ private:
+ void FindNextMatchingId() {
+ PERFETTO_DCHECK(iter_ != last_);
+ for (; iter_ != end_; ++iter_) {
+ if (iter_->id() == field_id_)
+ return;
+ }
+ iter_ = last_->valid() ? last_ : end_;
+ }
+
+ uint32_t field_id_;
+
+ // Initially points to the beginning of the repeated field storage, then is
+ // incremented as we call operator++().
+ const Field* iter_;
+
+ // Always points to fields_[size_], i.e. past the end of the storage.
+ const Field* end_;
+
+ // Always points to fields_[field_id].
+ const Field* last_;
+};
+
+// As RepeatedFieldIterator, but allows iterating over a packed repeated field
+// (which will be initially stored as a single length-delimited field).
+// See |GetPackedRepeatedField| for details.
+//
+// Assumes little endianness, and that the input buffers are well formed -
+// containing an exact multiple of encoded elements.
+template <proto_utils::ProtoWireType wire_type, typename CppType>
+class PackedRepeatedFieldIterator {
+ public:
+ PackedRepeatedFieldIterator(const uint8_t* data_begin,
+ size_t size,
+ bool* parse_error_ptr)
+ : data_end_(data_begin ? data_begin + size : nullptr),
+ read_ptr_(data_begin),
+ parse_error_(parse_error_ptr) {
+ using proto_utils::ProtoWireType;
+ static_assert(wire_type == ProtoWireType::kVarInt ||
+ wire_type == ProtoWireType::kFixed32 ||
+ wire_type == ProtoWireType::kFixed64,
+ "invalid type");
+
+ PERFETTO_DCHECK(parse_error_ptr);
+
+ // Either the field is unset (and there are no data pointer), or the field
+ // is set with a zero length payload. Mark the iterator as invalid in both
+ // cases.
+ if (size == 0) {
+ curr_value_valid_ = false;
+ return;
+ }
+
+ if ((wire_type == ProtoWireType::kFixed32 && (size % 4) != 0) ||
+ (wire_type == ProtoWireType::kFixed64 && (size % 8) != 0)) {
+ *parse_error_ = true;
+ curr_value_valid_ = false;
+ return;
+ }
+
+ ++(*this);
+ }
+
+ const CppType operator*() const { return curr_value_; }
+ explicit operator bool() const { return curr_value_valid_; }
+
+ PackedRepeatedFieldIterator& operator++() {
+ using proto_utils::ProtoWireType;
+
+ if (PERFETTO_UNLIKELY(!curr_value_valid_))
+ return *this;
+
+ if (PERFETTO_UNLIKELY(read_ptr_ == data_end_)) {
+ curr_value_valid_ = false;
+ return *this;
+ }
+
+ if (wire_type == ProtoWireType::kVarInt) {
+ uint64_t new_value = 0;
+ const uint8_t* new_pos =
+ proto_utils::ParseVarInt(read_ptr_, data_end_, &new_value);
+
+ if (PERFETTO_UNLIKELY(new_pos == read_ptr_)) {
+ // Failed to decode the varint (probably incomplete buffer).
+ *parse_error_ = true;
+ curr_value_valid_ = false;
+ } else {
+ read_ptr_ = new_pos;
+ curr_value_ = static_cast<CppType>(new_value);
+ }
+ } else { // kFixed32 or kFixed64
+ constexpr size_t kStep = wire_type == ProtoWireType::kFixed32 ? 4 : 8;
+
+ // NB: the raw buffer is not guaranteed to be aligned, so neither are
+ // these copies.
+ memcpy(&curr_value_, read_ptr_, sizeof(CppType));
+ read_ptr_ += kStep;
+ }
+
+ return *this;
+ }
+
+ PackedRepeatedFieldIterator operator++(int) {
+ PackedRepeatedFieldIterator it(*this);
+ ++(*this);
+ return it;
+ }
+
+ private:
+ // Might be null if the backing proto field isn't set.
+ const uint8_t* const data_end_;
+
+ // The iterator looks ahead by an element, so |curr_value| holds the value
+ // to be returned when the caller dereferences the iterator, and |read_ptr_|
+ // points at the start of the next element to be decoded.
+ // |read_ptr_| might be null if the backing proto field isn't set.
+ const uint8_t* read_ptr_;
+ CppType curr_value_ = {};
+
+ // Set to false once we've exhausted the iterator, or encountered an error.
+ bool curr_value_valid_ = true;
+
+ // Where to set parsing errors, supplied by the caller.
+ bool* const parse_error_;
+};
+
+// This decoder loads all fields upfront, without recursing in nested messages.
+// It is used as a base class for typed decoders generated by the pbzero plugin.
+// The split between TypedProtoDecoderBase and TypedProtoDecoder<> is to have
+// unique definition of functions like ParseAllFields() and ExpandHeapStorage().
+// The storage (either on-stack or on-heap) for this class is organized as
+// follows:
+// |-------------------------- fields_ ----------------------|
+// [ field 0 (invalid) ] [ fields 1 .. N ] [ repeated fields ]
+// ^ ^
+// num_fields_ size_
+// Note that if a message has high field numbers, upon creation |size_| can be
+// < |num_fields_| (until a heap expansion is hit while inserting).
+class PERFETTO_EXPORT_COMPONENT TypedProtoDecoderBase : public ProtoDecoder {
+ public:
+ // If the field |id| is known at compile time, prefer the templated
+ // specialization at<kFieldNumber>().
+ const Field& Get(uint32_t id) const {
+ if (PERFETTO_LIKELY(id < num_fields_ && id < size_))
+ return fields_[id];
+ // If id >= num_fields_, the field id is invalid (was not known in the
+ // .proto) and we return the 0th field, which is always !valid().
+ // If id >= size_ and <= num_fields, the id is valid but the field has not
+ // been seen while decoding (hence the stack storage has not been expanded)
+ // so we return the 0th invalid field.
+ return fields_[0];
+ }
+
+ // Returns an object that allows to iterate over all instances of a repeated
+ // field given its id. Example usage:
+ // for (auto it = decoder.GetRepeated<int32_t>(N); it; ++it) { ... }
+ template <typename T>
+ RepeatedFieldIterator<T> GetRepeated(uint32_t field_id) const {
+ const Field* repeated_begin;
+ // The storage for repeated fields starts after the slot for the highest
+ // field id (refer to the diagram in the class-level comment). However, if
+ // a message has more than INITIAL_STACK_CAPACITY field there will be no
+ // slots available for the repeated fields (if ExpandHeapStorage() was not
+ // called). Imagine a message that has highest field id = 102 and that is
+ // still using the stack:
+ // [ F0 ] [ F1 ] ... [ F100 ] [ F101 ] [ F1012] [ repeated fields ]
+ // ^ num_fields_
+ // ^ size (== capacity)
+ if (PERFETTO_LIKELY(num_fields_ < size_)) {
+ repeated_begin = &fields_[num_fields_];
+ } else {
+ // This is the case of not having any storage space for repeated fields.
+ // This makes it so begin == end, so the iterator will just skip @ last.
+ repeated_begin = &fields_[size_];
+ }
+ const Field* repeated_end = &fields_[size_];
+ const Field* last = &Get(field_id);
+ return RepeatedFieldIterator<T>(field_id, repeated_begin, repeated_end,
+ last);
+ }
+
+ // Returns an objects that allows to iterate over all entries of a packed
+ // repeated field given its id and type. The |wire_type| is necessary for
+ // decoding the packed field, the |cpp_type| is for convenience & stronger
+ // typing.
+ //
+ // The caller must also supply a pointer to a bool that is set to true if the
+ // packed buffer is found to be malformed while iterating (so you need to
+ // exhaust the iterator if you want to check the full extent of the buffer).
+ //
+ // Note that unlike standard protobuf parsers, protozero does not allow
+ // treating of packed repeated fields as non-packed and vice-versa (therefore
+ // not making the packed option forwards and backwards compatible). So
+ // the caller needs to use the right accessor for correct results.
+ template <proto_utils::ProtoWireType wire_type, typename cpp_type>
+ PackedRepeatedFieldIterator<wire_type, cpp_type> GetPackedRepeated(
+ uint32_t field_id,
+ bool* parse_error_location) const {
+ const Field& field = Get(field_id);
+ if (field.valid() &&
+ field.type() == proto_utils::ProtoWireType::kLengthDelimited) {
+ return PackedRepeatedFieldIterator<wire_type, cpp_type>(
+ field.data(), field.size(), parse_error_location);
+ }
+ return PackedRepeatedFieldIterator<wire_type, cpp_type>(
+ nullptr, 0, parse_error_location);
+ }
+
+ protected:
+ TypedProtoDecoderBase(Field* storage,
+ uint32_t num_fields,
+ uint32_t capacity,
+ const uint8_t* buffer,
+ size_t length)
+ : ProtoDecoder(buffer, length),
+ fields_(storage),
+ num_fields_(num_fields),
+ // The reason for "capacity -1" is to avoid hitting the expansion path
+ // in TypedProtoDecoderBase::ParseAllFields() when we are just setting
+ // fields < INITIAL_STACK_CAPACITY (which is the most common case).
+ size_(std::min(num_fields, capacity - 1)),
+ capacity_(capacity) {
+ // The reason why Field needs to be trivially de/constructible is to avoid
+ // implicit initializers on all the ~1000 entries. We need it to initialize
+ // only on the first |max_field_id| fields, the remaining capacity doesn't
+ // require initialization.
+ static_assert(std::is_trivially_constructible<Field>::value &&
+ std::is_trivially_destructible<Field>::value &&
+ std::is_trivial<Field>::value,
+ "Field must be a trivial aggregate type");
+ memset(fields_, 0, sizeof(Field) * capacity_);
+ PERFETTO_DCHECK(capacity > 0);
+ }
+
+ void ParseAllFields();
+
+ // Called when the default on-stack storage is exhausted and new repeated
+ // fields need to be pushed.
+ void ExpandHeapStorage();
+
+ // Used only in presence of a large number of repeated fields, when the
+ // default on-stack storage is exhausted.
+ std::unique_ptr<Field[]> heap_storage_;
+
+ // Points to the storage, either on-stack (default, provided by the template
+ // specialization) or |heap_storage_| after ExpandHeapStorage() is called, in
+ // case of a large number of repeated fields.
+ Field* fields_;
+
+ // Number of known fields, without accounting repeated storage. This is equal
+ // to MAX_FIELD_ID + 1 (to account for the invalid 0th field). It never
+ // changes after construction.
+ // This is unrelated with |size_| and |capacity_|. If the highest field id of
+ // a proto message is 131, |num_fields_| will be = 132 but, on initialization,
+ // |size_| = |capacity_| = 100 (INITIAL_STACK_CAPACITY).
+ // One cannot generally assume that |fields_| has enough storage to
+ // dereference every field. That is only true:
+ // - For field ids < INITIAL_STACK_CAPACITY.
+ // - After the first call to ExpandHeapStorage().
+ uint32_t num_fields_;
+
+ // Number of active |fields_| entries. This is initially equal to
+ // min(num_fields_, INITIAL_STACK_CAPACITY - 1) and after ExpandHeapStorage()
+ // becomes == |num_fields_|. If the message has non-packed repeated fields, it
+ // can grow further, up to |capacity_|.
+ // |size_| is always <= |capacity_|. But |num_fields_| can be > |size_|.
+ uint32_t size_;
+
+ // Initially equal to kFieldsCapacity of the TypedProtoDecoder
+ // specialization. Can grow when falling back on heap-based storage, in which
+ // case it represents the size (#fields with each entry of a repeated field
+ // counted individually) of the |heap_storage_| array.
+ uint32_t capacity_;
+};
+
+// This constant is a tradeoff between having a larger stack frame and being
+// able to decode field IDs up to N (or N - num_fields repeated fields) without
+// falling back on the heap.
+#define PROTOZERO_DECODER_INITIAL_STACK_CAPACITY 100
+
+// Template class instantiated by the auto-generated decoder classes declared in
+// xxx.pbzero.h files.
+template <int MAX_FIELD_ID, bool HAS_NONPACKED_REPEATED_FIELDS>
+class TypedProtoDecoder : public TypedProtoDecoderBase {
+ public:
+ TypedProtoDecoder(const uint8_t* buffer, size_t length)
+ : TypedProtoDecoderBase(on_stack_storage_,
+ /*num_fields=*/MAX_FIELD_ID + 1,
+ PROTOZERO_DECODER_INITIAL_STACK_CAPACITY,
+ buffer,
+ length) {
+ TypedProtoDecoderBase::ParseAllFields();
+ }
+
+ template <uint32_t FIELD_ID>
+ const Field& at() const {
+ static_assert(FIELD_ID <= MAX_FIELD_ID, "FIELD_ID > MAX_FIELD_ID");
+ // If the field id is < the on-stack capacity, it's safe to always
+ // dereference |fields_|, whether it's still using the stack or it fell
+ // back on the heap. Because both terms of the if () are known at compile
+ // time, the compiler elides the branch for ids < INITIAL_STACK_CAPACITY.
+ if (FIELD_ID < PROTOZERO_DECODER_INITIAL_STACK_CAPACITY) {
+ return fields_[FIELD_ID];
+ } else {
+ // Otherwise use the slowpath Get() which will do a runtime check.
+ return Get(FIELD_ID);
+ }
+ }
+
+ TypedProtoDecoder(TypedProtoDecoder&& other) noexcept
+ : TypedProtoDecoderBase(std::move(other)) {
+ // If the moved-from decoder was using on-stack storage, we need to update
+ // our pointer to point to this decoder's on-stack storage.
+ if (fields_ == other.on_stack_storage_) {
+ fields_ = on_stack_storage_;
+ memcpy(on_stack_storage_, other.on_stack_storage_,
+ sizeof(on_stack_storage_));
+ }
+ }
+
+ private:
+ Field on_stack_storage_[PROTOZERO_DECODER_INITIAL_STACK_CAPACITY];
+};
+
+} // namespace protozero
+
+#endif // INCLUDE_PERFETTO_PROTOZERO_PROTO_DECODER_H_
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_TRACK_EVENT_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_TRACK_EVENT_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class ChromeActiveProcesses;
+class ChromeApplicationStateInfo;
+class ChromeCompositorSchedulerState;
+class ChromeContentSettingsEventInfo;
+class ChromeFrameReporter;
+class ChromeHistogramSample;
+class ChromeKeyedService;
+class ChromeLatencyInfo;
+class ChromeLegacyIpc;
+class ChromeMessagePump;
+class ChromeMojoEventInfo;
+class ChromeRendererSchedulerState;
+class ChromeUserEvent;
+class ChromeWindowHandleEventInfo;
+class DebugAnnotation;
+class LogMessage;
+class PixelModemEventInsight;
+class Screenshot;
+class SourceLocation;
+class TaskExecution;
+class TrackEvent_LegacyEvent;
+namespace perfetto_pbzero_enum_TrackEvent_LegacyEvent {
+enum FlowDirection : int32_t;
+} // namespace perfetto_pbzero_enum_TrackEvent_LegacyEvent
+using TrackEvent_LegacyEvent_FlowDirection = perfetto_pbzero_enum_TrackEvent_LegacyEvent::FlowDirection;
+namespace perfetto_pbzero_enum_TrackEvent_LegacyEvent {
+enum InstantEventScope : int32_t;
+} // namespace perfetto_pbzero_enum_TrackEvent_LegacyEvent
+using TrackEvent_LegacyEvent_InstantEventScope = perfetto_pbzero_enum_TrackEvent_LegacyEvent::InstantEventScope;
+namespace perfetto_pbzero_enum_TrackEvent {
+enum Type : int32_t;
+} // namespace perfetto_pbzero_enum_TrackEvent
+using TrackEvent_Type = perfetto_pbzero_enum_TrackEvent::Type;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+namespace perfetto_pbzero_enum_TrackEvent {
+enum Type : int32_t {
+ TYPE_UNSPECIFIED = 0,
+ TYPE_SLICE_BEGIN = 1,
+ TYPE_SLICE_END = 2,
+ TYPE_INSTANT = 3,
+ TYPE_COUNTER = 4,
+};
+} // namespace perfetto_pbzero_enum_TrackEvent
+using TrackEvent_Type = perfetto_pbzero_enum_TrackEvent::Type;
+
+
+constexpr TrackEvent_Type TrackEvent_Type_MIN = TrackEvent_Type::TYPE_UNSPECIFIED;
+constexpr TrackEvent_Type TrackEvent_Type_MAX = TrackEvent_Type::TYPE_COUNTER;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* TrackEvent_Type_Name(::perfetto::protos::pbzero::TrackEvent_Type value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::TrackEvent_Type::TYPE_UNSPECIFIED:
+ return "TYPE_UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::TrackEvent_Type::TYPE_SLICE_BEGIN:
+ return "TYPE_SLICE_BEGIN";
+
+ case ::perfetto::protos::pbzero::TrackEvent_Type::TYPE_SLICE_END:
+ return "TYPE_SLICE_END";
+
+ case ::perfetto::protos::pbzero::TrackEvent_Type::TYPE_INSTANT:
+ return "TYPE_INSTANT";
+
+ case ::perfetto::protos::pbzero::TrackEvent_Type::TYPE_COUNTER:
+ return "TYPE_COUNTER";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_TrackEvent_LegacyEvent {
+enum FlowDirection : int32_t {
+ FLOW_UNSPECIFIED = 0,
+ FLOW_IN = 1,
+ FLOW_OUT = 2,
+ FLOW_INOUT = 3,
+};
+} // namespace perfetto_pbzero_enum_TrackEvent_LegacyEvent
+using TrackEvent_LegacyEvent_FlowDirection = perfetto_pbzero_enum_TrackEvent_LegacyEvent::FlowDirection;
+
+
+constexpr TrackEvent_LegacyEvent_FlowDirection TrackEvent_LegacyEvent_FlowDirection_MIN = TrackEvent_LegacyEvent_FlowDirection::FLOW_UNSPECIFIED;
+constexpr TrackEvent_LegacyEvent_FlowDirection TrackEvent_LegacyEvent_FlowDirection_MAX = TrackEvent_LegacyEvent_FlowDirection::FLOW_INOUT;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* TrackEvent_LegacyEvent_FlowDirection_Name(::perfetto::protos::pbzero::TrackEvent_LegacyEvent_FlowDirection value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::TrackEvent_LegacyEvent_FlowDirection::FLOW_UNSPECIFIED:
+ return "FLOW_UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::TrackEvent_LegacyEvent_FlowDirection::FLOW_IN:
+ return "FLOW_IN";
+
+ case ::perfetto::protos::pbzero::TrackEvent_LegacyEvent_FlowDirection::FLOW_OUT:
+ return "FLOW_OUT";
+
+ case ::perfetto::protos::pbzero::TrackEvent_LegacyEvent_FlowDirection::FLOW_INOUT:
+ return "FLOW_INOUT";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_TrackEvent_LegacyEvent {
+enum InstantEventScope : int32_t {
+ SCOPE_UNSPECIFIED = 0,
+ SCOPE_GLOBAL = 1,
+ SCOPE_PROCESS = 2,
+ SCOPE_THREAD = 3,
+};
+} // namespace perfetto_pbzero_enum_TrackEvent_LegacyEvent
+using TrackEvent_LegacyEvent_InstantEventScope = perfetto_pbzero_enum_TrackEvent_LegacyEvent::InstantEventScope;
+
+
+constexpr TrackEvent_LegacyEvent_InstantEventScope TrackEvent_LegacyEvent_InstantEventScope_MIN = TrackEvent_LegacyEvent_InstantEventScope::SCOPE_UNSPECIFIED;
+constexpr TrackEvent_LegacyEvent_InstantEventScope TrackEvent_LegacyEvent_InstantEventScope_MAX = TrackEvent_LegacyEvent_InstantEventScope::SCOPE_THREAD;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* TrackEvent_LegacyEvent_InstantEventScope_Name(::perfetto::protos::pbzero::TrackEvent_LegacyEvent_InstantEventScope value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::TrackEvent_LegacyEvent_InstantEventScope::SCOPE_UNSPECIFIED:
+ return "SCOPE_UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::TrackEvent_LegacyEvent_InstantEventScope::SCOPE_GLOBAL:
+ return "SCOPE_GLOBAL";
+
+ case ::perfetto::protos::pbzero::TrackEvent_LegacyEvent_InstantEventScope::SCOPE_PROCESS:
+ return "SCOPE_PROCESS";
+
+ case ::perfetto::protos::pbzero::TrackEvent_LegacyEvent_InstantEventScope::SCOPE_THREAD:
+ return "SCOPE_THREAD";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+class EventName_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ EventName_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit EventName_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit EventName_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_iid() const { return at<1>().valid(); }
+ uint64_t iid() const { return at<1>().as_uint64(); }
+ bool has_name() const { return at<2>().valid(); }
+ ::protozero::ConstChars name() const { return at<2>().as_string(); }
+};
+
+class EventName : public ::protozero::Message {
+ public:
+ using Decoder = EventName_Decoder;
+ enum : int32_t {
+ kIidFieldNumber = 1,
+ kNameFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.EventName"; }
+
+
+ using FieldMetadata_Iid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ EventName>;
+
+ static constexpr FieldMetadata_Iid kIid{};
+ void set_iid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Iid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ EventName>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class EventCategory_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ EventCategory_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit EventCategory_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit EventCategory_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_iid() const { return at<1>().valid(); }
+ uint64_t iid() const { return at<1>().as_uint64(); }
+ bool has_name() const { return at<2>().valid(); }
+ ::protozero::ConstChars name() const { return at<2>().as_string(); }
+};
+
+class EventCategory : public ::protozero::Message {
+ public:
+ using Decoder = EventCategory_Decoder;
+ enum : int32_t {
+ kIidFieldNumber = 1,
+ kNameFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.EventCategory"; }
+
+
+ using FieldMetadata_Iid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ EventCategory>;
+
+ static constexpr FieldMetadata_Iid kIid{};
+ void set_iid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Iid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ EventCategory>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class TrackEventDefaults_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/45, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ TrackEventDefaults_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TrackEventDefaults_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TrackEventDefaults_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_track_uuid() const { return at<11>().valid(); }
+ uint64_t track_uuid() const { return at<11>().as_uint64(); }
+ bool has_extra_counter_track_uuids() const { return at<31>().valid(); }
+ ::protozero::RepeatedFieldIterator<uint64_t> extra_counter_track_uuids() const { return GetRepeated<uint64_t>(31); }
+ bool has_extra_double_counter_track_uuids() const { return at<45>().valid(); }
+ ::protozero::RepeatedFieldIterator<uint64_t> extra_double_counter_track_uuids() const { return GetRepeated<uint64_t>(45); }
+};
+
+class TrackEventDefaults : public ::protozero::Message {
+ public:
+ using Decoder = TrackEventDefaults_Decoder;
+ enum : int32_t {
+ kTrackUuidFieldNumber = 11,
+ kExtraCounterTrackUuidsFieldNumber = 31,
+ kExtraDoubleCounterTrackUuidsFieldNumber = 45,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TrackEventDefaults"; }
+
+
+ using FieldMetadata_TrackUuid =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TrackEventDefaults>;
+
+ static constexpr FieldMetadata_TrackUuid kTrackUuid{};
+ void set_track_uuid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TrackUuid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ExtraCounterTrackUuids =
+ ::protozero::proto_utils::FieldMetadata<
+ 31,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TrackEventDefaults>;
+
+ static constexpr FieldMetadata_ExtraCounterTrackUuids kExtraCounterTrackUuids{};
+ void add_extra_counter_track_uuids(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ExtraCounterTrackUuids::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ExtraDoubleCounterTrackUuids =
+ ::protozero::proto_utils::FieldMetadata<
+ 45,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TrackEventDefaults>;
+
+ static constexpr FieldMetadata_ExtraDoubleCounterTrackUuids kExtraDoubleCounterTrackUuids{};
+ void add_extra_double_counter_track_uuids(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ExtraDoubleCounterTrackUuids::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class TrackEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/51, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ TrackEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TrackEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TrackEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_category_iids() const { return at<3>().valid(); }
+ ::protozero::RepeatedFieldIterator<uint64_t> category_iids() const { return GetRepeated<uint64_t>(3); }
+ bool has_categories() const { return at<22>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstChars> categories() const { return GetRepeated<::protozero::ConstChars>(22); }
+ bool has_name_iid() const { return at<10>().valid(); }
+ uint64_t name_iid() const { return at<10>().as_uint64(); }
+ bool has_name() const { return at<23>().valid(); }
+ ::protozero::ConstChars name() const { return at<23>().as_string(); }
+ bool has_type() const { return at<9>().valid(); }
+ int32_t type() const { return at<9>().as_int32(); }
+ bool has_track_uuid() const { return at<11>().valid(); }
+ uint64_t track_uuid() const { return at<11>().as_uint64(); }
+ bool has_counter_value() const { return at<30>().valid(); }
+ int64_t counter_value() const { return at<30>().as_int64(); }
+ bool has_double_counter_value() const { return at<44>().valid(); }
+ double double_counter_value() const { return at<44>().as_double(); }
+ bool has_extra_counter_track_uuids() const { return at<31>().valid(); }
+ ::protozero::RepeatedFieldIterator<uint64_t> extra_counter_track_uuids() const { return GetRepeated<uint64_t>(31); }
+ bool has_extra_counter_values() const { return at<12>().valid(); }
+ ::protozero::RepeatedFieldIterator<int64_t> extra_counter_values() const { return GetRepeated<int64_t>(12); }
+ bool has_extra_double_counter_track_uuids() const { return at<45>().valid(); }
+ ::protozero::RepeatedFieldIterator<uint64_t> extra_double_counter_track_uuids() const { return GetRepeated<uint64_t>(45); }
+ bool has_extra_double_counter_values() const { return at<46>().valid(); }
+ ::protozero::RepeatedFieldIterator<double> extra_double_counter_values() const { return GetRepeated<double>(46); }
+ bool has_flow_ids_old() const { return at<36>().valid(); }
+ ::protozero::RepeatedFieldIterator<uint64_t> flow_ids_old() const { return GetRepeated<uint64_t>(36); }
+ bool has_flow_ids() const { return at<47>().valid(); }
+ ::protozero::RepeatedFieldIterator<uint64_t> flow_ids() const { return GetRepeated<uint64_t>(47); }
+ bool has_terminating_flow_ids_old() const { return at<42>().valid(); }
+ ::protozero::RepeatedFieldIterator<uint64_t> terminating_flow_ids_old() const { return GetRepeated<uint64_t>(42); }
+ bool has_terminating_flow_ids() const { return at<48>().valid(); }
+ ::protozero::RepeatedFieldIterator<uint64_t> terminating_flow_ids() const { return GetRepeated<uint64_t>(48); }
+ bool has_debug_annotations() const { return at<4>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> debug_annotations() const { return GetRepeated<::protozero::ConstBytes>(4); }
+ bool has_task_execution() const { return at<5>().valid(); }
+ ::protozero::ConstBytes task_execution() const { return at<5>().as_bytes(); }
+ bool has_log_message() const { return at<21>().valid(); }
+ ::protozero::ConstBytes log_message() const { return at<21>().as_bytes(); }
+ bool has_cc_scheduler_state() const { return at<24>().valid(); }
+ ::protozero::ConstBytes cc_scheduler_state() const { return at<24>().as_bytes(); }
+ bool has_chrome_user_event() const { return at<25>().valid(); }
+ ::protozero::ConstBytes chrome_user_event() const { return at<25>().as_bytes(); }
+ bool has_chrome_keyed_service() const { return at<26>().valid(); }
+ ::protozero::ConstBytes chrome_keyed_service() const { return at<26>().as_bytes(); }
+ bool has_chrome_legacy_ipc() const { return at<27>().valid(); }
+ ::protozero::ConstBytes chrome_legacy_ipc() const { return at<27>().as_bytes(); }
+ bool has_chrome_histogram_sample() const { return at<28>().valid(); }
+ ::protozero::ConstBytes chrome_histogram_sample() const { return at<28>().as_bytes(); }
+ bool has_chrome_latency_info() const { return at<29>().valid(); }
+ ::protozero::ConstBytes chrome_latency_info() const { return at<29>().as_bytes(); }
+ bool has_chrome_frame_reporter() const { return at<32>().valid(); }
+ ::protozero::ConstBytes chrome_frame_reporter() const { return at<32>().as_bytes(); }
+ bool has_chrome_application_state_info() const { return at<39>().valid(); }
+ ::protozero::ConstBytes chrome_application_state_info() const { return at<39>().as_bytes(); }
+ bool has_chrome_renderer_scheduler_state() const { return at<40>().valid(); }
+ ::protozero::ConstBytes chrome_renderer_scheduler_state() const { return at<40>().as_bytes(); }
+ bool has_chrome_window_handle_event_info() const { return at<41>().valid(); }
+ ::protozero::ConstBytes chrome_window_handle_event_info() const { return at<41>().as_bytes(); }
+ bool has_chrome_content_settings_event_info() const { return at<43>().valid(); }
+ ::protozero::ConstBytes chrome_content_settings_event_info() const { return at<43>().as_bytes(); }
+ bool has_chrome_active_processes() const { return at<49>().valid(); }
+ ::protozero::ConstBytes chrome_active_processes() const { return at<49>().as_bytes(); }
+ bool has_screenshot() const { return at<50>().valid(); }
+ ::protozero::ConstBytes screenshot() const { return at<50>().as_bytes(); }
+ bool has_pixel_modem_event_insight() const { return at<51>().valid(); }
+ ::protozero::ConstBytes pixel_modem_event_insight() const { return at<51>().as_bytes(); }
+ bool has_source_location() const { return at<33>().valid(); }
+ ::protozero::ConstBytes source_location() const { return at<33>().as_bytes(); }
+ bool has_source_location_iid() const { return at<34>().valid(); }
+ uint64_t source_location_iid() const { return at<34>().as_uint64(); }
+ bool has_chrome_message_pump() const { return at<35>().valid(); }
+ ::protozero::ConstBytes chrome_message_pump() const { return at<35>().as_bytes(); }
+ bool has_chrome_mojo_event_info() const { return at<38>().valid(); }
+ ::protozero::ConstBytes chrome_mojo_event_info() const { return at<38>().as_bytes(); }
+ bool has_timestamp_delta_us() const { return at<1>().valid(); }
+ int64_t timestamp_delta_us() const { return at<1>().as_int64(); }
+ bool has_timestamp_absolute_us() const { return at<16>().valid(); }
+ int64_t timestamp_absolute_us() const { return at<16>().as_int64(); }
+ bool has_thread_time_delta_us() const { return at<2>().valid(); }
+ int64_t thread_time_delta_us() const { return at<2>().as_int64(); }
+ bool has_thread_time_absolute_us() const { return at<17>().valid(); }
+ int64_t thread_time_absolute_us() const { return at<17>().as_int64(); }
+ bool has_thread_instruction_count_delta() const { return at<8>().valid(); }
+ int64_t thread_instruction_count_delta() const { return at<8>().as_int64(); }
+ bool has_thread_instruction_count_absolute() const { return at<20>().valid(); }
+ int64_t thread_instruction_count_absolute() const { return at<20>().as_int64(); }
+ bool has_legacy_event() const { return at<6>().valid(); }
+ ::protozero::ConstBytes legacy_event() const { return at<6>().as_bytes(); }
+};
+
+class TrackEvent : public ::protozero::Message {
+ public:
+ using Decoder = TrackEvent_Decoder;
+ enum : int32_t {
+ kCategoryIidsFieldNumber = 3,
+ kCategoriesFieldNumber = 22,
+ kNameIidFieldNumber = 10,
+ kNameFieldNumber = 23,
+ kTypeFieldNumber = 9,
+ kTrackUuidFieldNumber = 11,
+ kCounterValueFieldNumber = 30,
+ kDoubleCounterValueFieldNumber = 44,
+ kExtraCounterTrackUuidsFieldNumber = 31,
+ kExtraCounterValuesFieldNumber = 12,
+ kExtraDoubleCounterTrackUuidsFieldNumber = 45,
+ kExtraDoubleCounterValuesFieldNumber = 46,
+ kFlowIdsOldFieldNumber = 36,
+ kFlowIdsFieldNumber = 47,
+ kTerminatingFlowIdsOldFieldNumber = 42,
+ kTerminatingFlowIdsFieldNumber = 48,
+ kDebugAnnotationsFieldNumber = 4,
+ kTaskExecutionFieldNumber = 5,
+ kLogMessageFieldNumber = 21,
+ kCcSchedulerStateFieldNumber = 24,
+ kChromeUserEventFieldNumber = 25,
+ kChromeKeyedServiceFieldNumber = 26,
+ kChromeLegacyIpcFieldNumber = 27,
+ kChromeHistogramSampleFieldNumber = 28,
+ kChromeLatencyInfoFieldNumber = 29,
+ kChromeFrameReporterFieldNumber = 32,
+ kChromeApplicationStateInfoFieldNumber = 39,
+ kChromeRendererSchedulerStateFieldNumber = 40,
+ kChromeWindowHandleEventInfoFieldNumber = 41,
+ kChromeContentSettingsEventInfoFieldNumber = 43,
+ kChromeActiveProcessesFieldNumber = 49,
+ kScreenshotFieldNumber = 50,
+ kPixelModemEventInsightFieldNumber = 51,
+ kSourceLocationFieldNumber = 33,
+ kSourceLocationIidFieldNumber = 34,
+ kChromeMessagePumpFieldNumber = 35,
+ kChromeMojoEventInfoFieldNumber = 38,
+ kTimestampDeltaUsFieldNumber = 1,
+ kTimestampAbsoluteUsFieldNumber = 16,
+ kThreadTimeDeltaUsFieldNumber = 2,
+ kThreadTimeAbsoluteUsFieldNumber = 17,
+ kThreadInstructionCountDeltaFieldNumber = 8,
+ kThreadInstructionCountAbsoluteFieldNumber = 20,
+ kLegacyEventFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TrackEvent"; }
+
+ using LegacyEvent = ::perfetto::protos::pbzero::TrackEvent_LegacyEvent;
+
+ using Type = ::perfetto::protos::pbzero::TrackEvent_Type;
+ static inline const char* Type_Name(Type value) {
+ return ::perfetto::protos::pbzero::TrackEvent_Type_Name(value);
+ }
+ static inline const Type TYPE_UNSPECIFIED = Type::TYPE_UNSPECIFIED;
+ static inline const Type TYPE_SLICE_BEGIN = Type::TYPE_SLICE_BEGIN;
+ static inline const Type TYPE_SLICE_END = Type::TYPE_SLICE_END;
+ static inline const Type TYPE_INSTANT = Type::TYPE_INSTANT;
+ static inline const Type TYPE_COUNTER = Type::TYPE_COUNTER;
+
+ using FieldMetadata_CategoryIids =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TrackEvent>;
+
+ static constexpr FieldMetadata_CategoryIids kCategoryIids{};
+ void add_category_iids(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CategoryIids::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Categories =
+ ::protozero::proto_utils::FieldMetadata<
+ 22,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ TrackEvent>;
+
+ static constexpr FieldMetadata_Categories kCategories{};
+ void add_categories(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Categories::kFieldId, data, size);
+ }
+ void add_categories(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Categories::kFieldId, chars.data, chars.size);
+ }
+ void add_categories(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Categories::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NameIid =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TrackEvent>;
+
+ static constexpr FieldMetadata_NameIid kNameIid{};
+ void set_name_iid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NameIid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 23,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ TrackEvent>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Type =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ TrackEvent_Type,
+ TrackEvent>;
+
+ static constexpr FieldMetadata_Type kType{};
+ void set_type(TrackEvent_Type value) {
+ static constexpr uint32_t field_id = FieldMetadata_Type::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TrackUuid =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TrackEvent>;
+
+ static constexpr FieldMetadata_TrackUuid kTrackUuid{};
+ void set_track_uuid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TrackUuid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CounterValue =
+ ::protozero::proto_utils::FieldMetadata<
+ 30,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ TrackEvent>;
+
+ static constexpr FieldMetadata_CounterValue kCounterValue{};
+ void set_counter_value(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CounterValue::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DoubleCounterValue =
+ ::protozero::proto_utils::FieldMetadata<
+ 44,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kDouble,
+ double,
+ TrackEvent>;
+
+ static constexpr FieldMetadata_DoubleCounterValue kDoubleCounterValue{};
+ void set_double_counter_value(double value) {
+ static constexpr uint32_t field_id = FieldMetadata_DoubleCounterValue::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kDouble>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ExtraCounterTrackUuids =
+ ::protozero::proto_utils::FieldMetadata<
+ 31,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TrackEvent>;
+
+ static constexpr FieldMetadata_ExtraCounterTrackUuids kExtraCounterTrackUuids{};
+ void add_extra_counter_track_uuids(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ExtraCounterTrackUuids::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ExtraCounterValues =
+ ::protozero::proto_utils::FieldMetadata<
+ 12,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ TrackEvent>;
+
+ static constexpr FieldMetadata_ExtraCounterValues kExtraCounterValues{};
+ void add_extra_counter_values(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ExtraCounterValues::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ExtraDoubleCounterTrackUuids =
+ ::protozero::proto_utils::FieldMetadata<
+ 45,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TrackEvent>;
+
+ static constexpr FieldMetadata_ExtraDoubleCounterTrackUuids kExtraDoubleCounterTrackUuids{};
+ void add_extra_double_counter_track_uuids(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ExtraDoubleCounterTrackUuids::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ExtraDoubleCounterValues =
+ ::protozero::proto_utils::FieldMetadata<
+ 46,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kDouble,
+ double,
+ TrackEvent>;
+
+ static constexpr FieldMetadata_ExtraDoubleCounterValues kExtraDoubleCounterValues{};
+ void add_extra_double_counter_values(double value) {
+ static constexpr uint32_t field_id = FieldMetadata_ExtraDoubleCounterValues::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kDouble>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FlowIdsOld =
+ ::protozero::proto_utils::FieldMetadata<
+ 36,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TrackEvent>;
+
+ static constexpr FieldMetadata_FlowIdsOld kFlowIdsOld{};
+ void add_flow_ids_old(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FlowIdsOld::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FlowIds =
+ ::protozero::proto_utils::FieldMetadata<
+ 47,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kFixed64,
+ uint64_t,
+ TrackEvent>;
+
+ static constexpr FieldMetadata_FlowIds kFlowIds{};
+ void add_flow_ids(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FlowIds::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFixed64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TerminatingFlowIdsOld =
+ ::protozero::proto_utils::FieldMetadata<
+ 42,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TrackEvent>;
+
+ static constexpr FieldMetadata_TerminatingFlowIdsOld kTerminatingFlowIdsOld{};
+ void add_terminating_flow_ids_old(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TerminatingFlowIdsOld::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TerminatingFlowIds =
+ ::protozero::proto_utils::FieldMetadata<
+ 48,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kFixed64,
+ uint64_t,
+ TrackEvent>;
+
+ static constexpr FieldMetadata_TerminatingFlowIds kTerminatingFlowIds{};
+ void add_terminating_flow_ids(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TerminatingFlowIds::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFixed64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DebugAnnotations =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ DebugAnnotation,
+ TrackEvent>;
+
+ static constexpr FieldMetadata_DebugAnnotations kDebugAnnotations{};
+ template <typename T = DebugAnnotation> T* add_debug_annotations() {
+ return BeginNestedMessage<T>(4);
+ }
+
+
+ using FieldMetadata_TaskExecution =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TaskExecution,
+ TrackEvent>;
+
+ static constexpr FieldMetadata_TaskExecution kTaskExecution{};
+ template <typename T = TaskExecution> T* set_task_execution() {
+ return BeginNestedMessage<T>(5);
+ }
+
+
+ using FieldMetadata_LogMessage =
+ ::protozero::proto_utils::FieldMetadata<
+ 21,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ LogMessage,
+ TrackEvent>;
+
+ static constexpr FieldMetadata_LogMessage kLogMessage{};
+ template <typename T = LogMessage> T* set_log_message() {
+ return BeginNestedMessage<T>(21);
+ }
+
+
+ using FieldMetadata_CcSchedulerState =
+ ::protozero::proto_utils::FieldMetadata<
+ 24,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ChromeCompositorSchedulerState,
+ TrackEvent>;
+
+ static constexpr FieldMetadata_CcSchedulerState kCcSchedulerState{};
+ template <typename T = ChromeCompositorSchedulerState> T* set_cc_scheduler_state() {
+ return BeginNestedMessage<T>(24);
+ }
+
+
+ using FieldMetadata_ChromeUserEvent =
+ ::protozero::proto_utils::FieldMetadata<
+ 25,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ChromeUserEvent,
+ TrackEvent>;
+
+ static constexpr FieldMetadata_ChromeUserEvent kChromeUserEvent{};
+ template <typename T = ChromeUserEvent> T* set_chrome_user_event() {
+ return BeginNestedMessage<T>(25);
+ }
+
+
+ using FieldMetadata_ChromeKeyedService =
+ ::protozero::proto_utils::FieldMetadata<
+ 26,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ChromeKeyedService,
+ TrackEvent>;
+
+ static constexpr FieldMetadata_ChromeKeyedService kChromeKeyedService{};
+ template <typename T = ChromeKeyedService> T* set_chrome_keyed_service() {
+ return BeginNestedMessage<T>(26);
+ }
+
+
+ using FieldMetadata_ChromeLegacyIpc =
+ ::protozero::proto_utils::FieldMetadata<
+ 27,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ChromeLegacyIpc,
+ TrackEvent>;
+
+ static constexpr FieldMetadata_ChromeLegacyIpc kChromeLegacyIpc{};
+ template <typename T = ChromeLegacyIpc> T* set_chrome_legacy_ipc() {
+ return BeginNestedMessage<T>(27);
+ }
+
+
+ using FieldMetadata_ChromeHistogramSample =
+ ::protozero::proto_utils::FieldMetadata<
+ 28,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ChromeHistogramSample,
+ TrackEvent>;
+
+ static constexpr FieldMetadata_ChromeHistogramSample kChromeHistogramSample{};
+ template <typename T = ChromeHistogramSample> T* set_chrome_histogram_sample() {
+ return BeginNestedMessage<T>(28);
+ }
+
+
+ using FieldMetadata_ChromeLatencyInfo =
+ ::protozero::proto_utils::FieldMetadata<
+ 29,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ChromeLatencyInfo,
+ TrackEvent>;
+
+ static constexpr FieldMetadata_ChromeLatencyInfo kChromeLatencyInfo{};
+ template <typename T = ChromeLatencyInfo> T* set_chrome_latency_info() {
+ return BeginNestedMessage<T>(29);
+ }
+
+
+ using FieldMetadata_ChromeFrameReporter =
+ ::protozero::proto_utils::FieldMetadata<
+ 32,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ChromeFrameReporter,
+ TrackEvent>;
+
+ static constexpr FieldMetadata_ChromeFrameReporter kChromeFrameReporter{};
+ template <typename T = ChromeFrameReporter> T* set_chrome_frame_reporter() {
+ return BeginNestedMessage<T>(32);
+ }
+
+
+ using FieldMetadata_ChromeApplicationStateInfo =
+ ::protozero::proto_utils::FieldMetadata<
+ 39,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ChromeApplicationStateInfo,
+ TrackEvent>;
+
+ static constexpr FieldMetadata_ChromeApplicationStateInfo kChromeApplicationStateInfo{};
+ template <typename T = ChromeApplicationStateInfo> T* set_chrome_application_state_info() {
+ return BeginNestedMessage<T>(39);
+ }
+
+
+ using FieldMetadata_ChromeRendererSchedulerState =
+ ::protozero::proto_utils::FieldMetadata<
+ 40,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ChromeRendererSchedulerState,
+ TrackEvent>;
+
+ static constexpr FieldMetadata_ChromeRendererSchedulerState kChromeRendererSchedulerState{};
+ template <typename T = ChromeRendererSchedulerState> T* set_chrome_renderer_scheduler_state() {
+ return BeginNestedMessage<T>(40);
+ }
+
+
+ using FieldMetadata_ChromeWindowHandleEventInfo =
+ ::protozero::proto_utils::FieldMetadata<
+ 41,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ChromeWindowHandleEventInfo,
+ TrackEvent>;
+
+ static constexpr FieldMetadata_ChromeWindowHandleEventInfo kChromeWindowHandleEventInfo{};
+ template <typename T = ChromeWindowHandleEventInfo> T* set_chrome_window_handle_event_info() {
+ return BeginNestedMessage<T>(41);
+ }
+
+
+ using FieldMetadata_ChromeContentSettingsEventInfo =
+ ::protozero::proto_utils::FieldMetadata<
+ 43,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ChromeContentSettingsEventInfo,
+ TrackEvent>;
+
+ static constexpr FieldMetadata_ChromeContentSettingsEventInfo kChromeContentSettingsEventInfo{};
+ template <typename T = ChromeContentSettingsEventInfo> T* set_chrome_content_settings_event_info() {
+ return BeginNestedMessage<T>(43);
+ }
+
+
+ using FieldMetadata_ChromeActiveProcesses =
+ ::protozero::proto_utils::FieldMetadata<
+ 49,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ChromeActiveProcesses,
+ TrackEvent>;
+
+ static constexpr FieldMetadata_ChromeActiveProcesses kChromeActiveProcesses{};
+ template <typename T = ChromeActiveProcesses> T* set_chrome_active_processes() {
+ return BeginNestedMessage<T>(49);
+ }
+
+
+ using FieldMetadata_Screenshot =
+ ::protozero::proto_utils::FieldMetadata<
+ 50,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Screenshot,
+ TrackEvent>;
+
+ static constexpr FieldMetadata_Screenshot kScreenshot{};
+ template <typename T = Screenshot> T* set_screenshot() {
+ return BeginNestedMessage<T>(50);
+ }
+
+
+ using FieldMetadata_PixelModemEventInsight =
+ ::protozero::proto_utils::FieldMetadata<
+ 51,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ PixelModemEventInsight,
+ TrackEvent>;
+
+ static constexpr FieldMetadata_PixelModemEventInsight kPixelModemEventInsight{};
+ template <typename T = PixelModemEventInsight> T* set_pixel_modem_event_insight() {
+ return BeginNestedMessage<T>(51);
+ }
+
+
+ using FieldMetadata_SourceLocation =
+ ::protozero::proto_utils::FieldMetadata<
+ 33,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SourceLocation,
+ TrackEvent>;
+
+ static constexpr FieldMetadata_SourceLocation kSourceLocation{};
+ template <typename T = SourceLocation> T* set_source_location() {
+ return BeginNestedMessage<T>(33);
+ }
+
+
+ using FieldMetadata_SourceLocationIid =
+ ::protozero::proto_utils::FieldMetadata<
+ 34,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TrackEvent>;
+
+ static constexpr FieldMetadata_SourceLocationIid kSourceLocationIid{};
+ void set_source_location_iid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SourceLocationIid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ChromeMessagePump =
+ ::protozero::proto_utils::FieldMetadata<
+ 35,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ChromeMessagePump,
+ TrackEvent>;
+
+ static constexpr FieldMetadata_ChromeMessagePump kChromeMessagePump{};
+ template <typename T = ChromeMessagePump> T* set_chrome_message_pump() {
+ return BeginNestedMessage<T>(35);
+ }
+
+
+ using FieldMetadata_ChromeMojoEventInfo =
+ ::protozero::proto_utils::FieldMetadata<
+ 38,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ChromeMojoEventInfo,
+ TrackEvent>;
+
+ static constexpr FieldMetadata_ChromeMojoEventInfo kChromeMojoEventInfo{};
+ template <typename T = ChromeMojoEventInfo> T* set_chrome_mojo_event_info() {
+ return BeginNestedMessage<T>(38);
+ }
+
+
+ using FieldMetadata_TimestampDeltaUs =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ TrackEvent>;
+
+ static constexpr FieldMetadata_TimestampDeltaUs kTimestampDeltaUs{};
+ void set_timestamp_delta_us(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimestampDeltaUs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimestampAbsoluteUs =
+ ::protozero::proto_utils::FieldMetadata<
+ 16,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ TrackEvent>;
+
+ static constexpr FieldMetadata_TimestampAbsoluteUs kTimestampAbsoluteUs{};
+ void set_timestamp_absolute_us(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimestampAbsoluteUs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ThreadTimeDeltaUs =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ TrackEvent>;
+
+ static constexpr FieldMetadata_ThreadTimeDeltaUs kThreadTimeDeltaUs{};
+ void set_thread_time_delta_us(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ThreadTimeDeltaUs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ThreadTimeAbsoluteUs =
+ ::protozero::proto_utils::FieldMetadata<
+ 17,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ TrackEvent>;
+
+ static constexpr FieldMetadata_ThreadTimeAbsoluteUs kThreadTimeAbsoluteUs{};
+ void set_thread_time_absolute_us(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ThreadTimeAbsoluteUs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ThreadInstructionCountDelta =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ TrackEvent>;
+
+ static constexpr FieldMetadata_ThreadInstructionCountDelta kThreadInstructionCountDelta{};
+ void set_thread_instruction_count_delta(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ThreadInstructionCountDelta::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ThreadInstructionCountAbsolute =
+ ::protozero::proto_utils::FieldMetadata<
+ 20,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ TrackEvent>;
+
+ static constexpr FieldMetadata_ThreadInstructionCountAbsolute kThreadInstructionCountAbsolute{};
+ void set_thread_instruction_count_absolute(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ThreadInstructionCountAbsolute::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_LegacyEvent =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TrackEvent_LegacyEvent,
+ TrackEvent>;
+
+ static constexpr FieldMetadata_LegacyEvent kLegacyEvent{};
+ template <typename T = TrackEvent_LegacyEvent> T* set_legacy_event() {
+ return BeginNestedMessage<T>(6);
+ }
+
+};
+
+class TrackEvent_LegacyEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/19, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ TrackEvent_LegacyEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TrackEvent_LegacyEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TrackEvent_LegacyEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_name_iid() const { return at<1>().valid(); }
+ uint64_t name_iid() const { return at<1>().as_uint64(); }
+ bool has_phase() const { return at<2>().valid(); }
+ int32_t phase() const { return at<2>().as_int32(); }
+ bool has_duration_us() const { return at<3>().valid(); }
+ int64_t duration_us() const { return at<3>().as_int64(); }
+ bool has_thread_duration_us() const { return at<4>().valid(); }
+ int64_t thread_duration_us() const { return at<4>().as_int64(); }
+ bool has_thread_instruction_delta() const { return at<15>().valid(); }
+ int64_t thread_instruction_delta() const { return at<15>().as_int64(); }
+ bool has_unscoped_id() const { return at<6>().valid(); }
+ uint64_t unscoped_id() const { return at<6>().as_uint64(); }
+ bool has_local_id() const { return at<10>().valid(); }
+ uint64_t local_id() const { return at<10>().as_uint64(); }
+ bool has_global_id() const { return at<11>().valid(); }
+ uint64_t global_id() const { return at<11>().as_uint64(); }
+ bool has_id_scope() const { return at<7>().valid(); }
+ ::protozero::ConstChars id_scope() const { return at<7>().as_string(); }
+ bool has_use_async_tts() const { return at<9>().valid(); }
+ bool use_async_tts() const { return at<9>().as_bool(); }
+ bool has_bind_id() const { return at<8>().valid(); }
+ uint64_t bind_id() const { return at<8>().as_uint64(); }
+ bool has_bind_to_enclosing() const { return at<12>().valid(); }
+ bool bind_to_enclosing() const { return at<12>().as_bool(); }
+ bool has_flow_direction() const { return at<13>().valid(); }
+ int32_t flow_direction() const { return at<13>().as_int32(); }
+ bool has_instant_event_scope() const { return at<14>().valid(); }
+ int32_t instant_event_scope() const { return at<14>().as_int32(); }
+ bool has_pid_override() const { return at<18>().valid(); }
+ int32_t pid_override() const { return at<18>().as_int32(); }
+ bool has_tid_override() const { return at<19>().valid(); }
+ int32_t tid_override() const { return at<19>().as_int32(); }
+};
+
+class TrackEvent_LegacyEvent : public ::protozero::Message {
+ public:
+ using Decoder = TrackEvent_LegacyEvent_Decoder;
+ enum : int32_t {
+ kNameIidFieldNumber = 1,
+ kPhaseFieldNumber = 2,
+ kDurationUsFieldNumber = 3,
+ kThreadDurationUsFieldNumber = 4,
+ kThreadInstructionDeltaFieldNumber = 15,
+ kUnscopedIdFieldNumber = 6,
+ kLocalIdFieldNumber = 10,
+ kGlobalIdFieldNumber = 11,
+ kIdScopeFieldNumber = 7,
+ kUseAsyncTtsFieldNumber = 9,
+ kBindIdFieldNumber = 8,
+ kBindToEnclosingFieldNumber = 12,
+ kFlowDirectionFieldNumber = 13,
+ kInstantEventScopeFieldNumber = 14,
+ kPidOverrideFieldNumber = 18,
+ kTidOverrideFieldNumber = 19,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TrackEvent.LegacyEvent"; }
+
+
+ using FlowDirection = ::perfetto::protos::pbzero::TrackEvent_LegacyEvent_FlowDirection;
+ static inline const char* FlowDirection_Name(FlowDirection value) {
+ return ::perfetto::protos::pbzero::TrackEvent_LegacyEvent_FlowDirection_Name(value);
+ }
+
+ using InstantEventScope = ::perfetto::protos::pbzero::TrackEvent_LegacyEvent_InstantEventScope;
+ static inline const char* InstantEventScope_Name(InstantEventScope value) {
+ return ::perfetto::protos::pbzero::TrackEvent_LegacyEvent_InstantEventScope_Name(value);
+ }
+ static inline const FlowDirection FLOW_UNSPECIFIED = FlowDirection::FLOW_UNSPECIFIED;
+ static inline const FlowDirection FLOW_IN = FlowDirection::FLOW_IN;
+ static inline const FlowDirection FLOW_OUT = FlowDirection::FLOW_OUT;
+ static inline const FlowDirection FLOW_INOUT = FlowDirection::FLOW_INOUT;
+ static inline const InstantEventScope SCOPE_UNSPECIFIED = InstantEventScope::SCOPE_UNSPECIFIED;
+ static inline const InstantEventScope SCOPE_GLOBAL = InstantEventScope::SCOPE_GLOBAL;
+ static inline const InstantEventScope SCOPE_PROCESS = InstantEventScope::SCOPE_PROCESS;
+ static inline const InstantEventScope SCOPE_THREAD = InstantEventScope::SCOPE_THREAD;
+
+ using FieldMetadata_NameIid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TrackEvent_LegacyEvent>;
+
+ static constexpr FieldMetadata_NameIid kNameIid{};
+ void set_name_iid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NameIid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Phase =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ TrackEvent_LegacyEvent>;
+
+ static constexpr FieldMetadata_Phase kPhase{};
+ void set_phase(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Phase::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DurationUs =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ TrackEvent_LegacyEvent>;
+
+ static constexpr FieldMetadata_DurationUs kDurationUs{};
+ void set_duration_us(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DurationUs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ThreadDurationUs =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ TrackEvent_LegacyEvent>;
+
+ static constexpr FieldMetadata_ThreadDurationUs kThreadDurationUs{};
+ void set_thread_duration_us(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ThreadDurationUs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ThreadInstructionDelta =
+ ::protozero::proto_utils::FieldMetadata<
+ 15,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ TrackEvent_LegacyEvent>;
+
+ static constexpr FieldMetadata_ThreadInstructionDelta kThreadInstructionDelta{};
+ void set_thread_instruction_delta(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ThreadInstructionDelta::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_UnscopedId =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TrackEvent_LegacyEvent>;
+
+ static constexpr FieldMetadata_UnscopedId kUnscopedId{};
+ void set_unscoped_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_UnscopedId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_LocalId =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TrackEvent_LegacyEvent>;
+
+ static constexpr FieldMetadata_LocalId kLocalId{};
+ void set_local_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_LocalId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_GlobalId =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TrackEvent_LegacyEvent>;
+
+ static constexpr FieldMetadata_GlobalId kGlobalId{};
+ void set_global_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_GlobalId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IdScope =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ TrackEvent_LegacyEvent>;
+
+ static constexpr FieldMetadata_IdScope kIdScope{};
+ void set_id_scope(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_IdScope::kFieldId, data, size);
+ }
+ void set_id_scope(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_IdScope::kFieldId, chars.data, chars.size);
+ }
+ void set_id_scope(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_IdScope::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_UseAsyncTts =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ TrackEvent_LegacyEvent>;
+
+ static constexpr FieldMetadata_UseAsyncTts kUseAsyncTts{};
+ void set_use_async_tts(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_UseAsyncTts::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BindId =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TrackEvent_LegacyEvent>;
+
+ static constexpr FieldMetadata_BindId kBindId{};
+ void set_bind_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BindId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BindToEnclosing =
+ ::protozero::proto_utils::FieldMetadata<
+ 12,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ TrackEvent_LegacyEvent>;
+
+ static constexpr FieldMetadata_BindToEnclosing kBindToEnclosing{};
+ void set_bind_to_enclosing(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_BindToEnclosing::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FlowDirection =
+ ::protozero::proto_utils::FieldMetadata<
+ 13,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ TrackEvent_LegacyEvent_FlowDirection,
+ TrackEvent_LegacyEvent>;
+
+ static constexpr FieldMetadata_FlowDirection kFlowDirection{};
+ void set_flow_direction(TrackEvent_LegacyEvent_FlowDirection value) {
+ static constexpr uint32_t field_id = FieldMetadata_FlowDirection::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_InstantEventScope =
+ ::protozero::proto_utils::FieldMetadata<
+ 14,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ TrackEvent_LegacyEvent_InstantEventScope,
+ TrackEvent_LegacyEvent>;
+
+ static constexpr FieldMetadata_InstantEventScope kInstantEventScope{};
+ void set_instant_event_scope(TrackEvent_LegacyEvent_InstantEventScope value) {
+ static constexpr uint32_t field_id = FieldMetadata_InstantEventScope::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PidOverride =
+ ::protozero::proto_utils::FieldMetadata<
+ 18,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ TrackEvent_LegacyEvent>;
+
+ static constexpr FieldMetadata_PidOverride kPidOverride{};
+ void set_pid_override(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PidOverride::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TidOverride =
+ ::protozero::proto_utils::FieldMetadata<
+ 19,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ TrackEvent_LegacyEvent>;
+
+ static constexpr FieldMetadata_TidOverride kTidOverride{};
+ void set_tid_override(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TidOverride::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+/*
+ * Copyright (C) 2020 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_TRACING_TRACK_EVENT_STATE_TRACKER_H_
+#define INCLUDE_PERFETTO_TRACING_TRACK_EVENT_STATE_TRACKER_H_
+
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/track_event.pbzero.h"
+
+#include <map>
+#include <string>
+#include <vector>
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class TracePacket_Decoder;
+class TrackEvent;
+class TrackEvent_Decoder;
+} // namespace pbzero
+} // namespace protos
+
+// A helper for keeping track of incremental state when intercepting track
+// events.
+class PERFETTO_EXPORT_COMPONENT TrackEventStateTracker {
+ public:
+ ~TrackEventStateTracker();
+
+ struct StackFrame {
+ uint64_t timestamp{};
+
+ // Only one of |name| and |name_iid| will be set.
+ std::string name;
+ uint64_t name_iid{};
+ uint64_t name_hash{};
+
+ // Only one of |category| and |category_iid| will be set.
+ std::string category;
+ uint64_t category_iid{};
+ };
+
+ struct Track {
+ uint64_t uuid{};
+ uint32_t index{}; // Ordinal number for the track in the tracing session.
+
+ std::string name;
+ int64_t pid{};
+ int64_t tid{};
+
+ // Opaque user data associated with the track.
+ std::vector<uint8_t> user_data;
+
+ // Stack of opened slices on this track.
+ std::vector<StackFrame> stack;
+ };
+
+ // State for a single trace writer sequence (typically a single thread).
+ struct SequenceState {
+ // Trace packet sequence defaults.
+ Track track;
+
+ // Interned state.
+#if PERFETTO_DCHECK_IS_ON()
+ uint32_t sequence_id{};
+#endif
+ std::map<uint64_t /*iid*/, std::string> event_names;
+ std::map<uint64_t /*iid*/, std::string> event_categories;
+ std::map<uint64_t /*iid*/, std::string> debug_annotation_names;
+ // Current absolute timestamp of the incremental clock.
+ uint64_t most_recent_absolute_time_ns = 0;
+ // default_clock_id == 0 means, no default clock_id is set.
+ uint32_t default_clock_id = 0;
+ };
+
+ // State for the entire tracing session. Shared by all trace writer sequences
+ // participating in the session.
+ struct SessionState {
+ // Non-thread-bound tracks.
+ std::map<uint64_t /*uuid*/, Track> tracks;
+ };
+
+ // Represents a single decoded track event (without arguments).
+ struct ParsedTrackEvent {
+ explicit ParsedTrackEvent(
+ const perfetto::protos::pbzero::TrackEvent::Decoder&);
+
+ // Underlying event.
+ const perfetto::protos::pbzero::TrackEvent::Decoder& track_event;
+
+ // Event metadata.
+ uint64_t timestamp_ns{};
+ uint64_t duration_ns{};
+
+ size_t stack_depth{};
+
+ protozero::ConstChars category{};
+ protozero::ConstChars name{};
+ uint64_t name_hash{};
+ };
+
+ // Interface used by the tracker to access tracing session and sequence state
+ // and to report parsed track events.
+ class PERFETTO_EXPORT_COMPONENT Delegate {
+ public:
+ virtual ~Delegate();
+
+ // Called to retrieve the session-global state shared by all sequences. The
+ // returned pointer must remain valid (locked) throughout the call to
+ // |ProcessTracePacket|.
+ virtual SessionState* GetSessionState() = 0;
+
+ // Called when the metadata (e.g., name) for a track changes. |Track| can be
+ // modified by the callback to attach user data.
+ virtual void OnTrackUpdated(Track&) = 0;
+
+ // If the packet given to |ProcessTracePacket| contains a track event, this
+ // method is called to report the properties of that event. Note that memory
+ // pointers in |TrackEvent| will only be valid during this call.
+ virtual void OnTrackEvent(const Track&, const ParsedTrackEvent&) = 0;
+ };
+
+ // Process a single trace packet, reporting any contained track event back via
+ // the delegate interface. |SequenceState| must correspond to the sequence
+ // that was used to write the packet.
+ static void ProcessTracePacket(Delegate&,
+ SequenceState&,
+ const protos::pbzero::TracePacket_Decoder&);
+
+ private:
+ static void UpdateIncrementalState(
+ Delegate&,
+ SequenceState&,
+ const protos::pbzero::TracePacket_Decoder&);
+};
+
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_TRACING_TRACK_EVENT_STATE_TRACKER_H_
+/*
+ * Copyright (C) 2020 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_TRACING_CONSOLE_INTERCEPTOR_H_
+#define INCLUDE_PERFETTO_TRACING_CONSOLE_INTERCEPTOR_H_
+
+// gen_amalgamated expanded: #include "perfetto/base/compiler.h"
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/interceptor.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/track_event_state_tracker.h"
+
+#include <stdarg.h>
+
+#include <functional>
+#include <map>
+#include <vector>
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+#include <io.h>
+#else
+#include <unistd.h>
+#endif
+
+#if defined(__GNUC__) || defined(__clang__)
+#define PERFETTO_PRINTF_ATTR \
+ __attribute__((format(printf, /*format_index=*/2, /*first_to_check=*/3)))
+#else
+#define PERFETTO_PRINTF_ATTR
+#endif
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN) && !defined(STDOUT_FILENO)
+#define STDOUT_FILENO 1
+#define STDERR_FILENO 2
+#endif
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class DebugAnnotation_Decoder;
+class TracePacket_Decoder;
+class TrackEvent_Decoder;
+} // namespace pbzero
+} // namespace protos
+
+struct ConsoleColor;
+
+class PERFETTO_EXPORT_COMPONENT ConsoleInterceptor
+ : public Interceptor<ConsoleInterceptor> {
+ public:
+ ~ConsoleInterceptor() override;
+
+ static void Register();
+ static void OnTracePacket(InterceptorContext context);
+
+ static void SetOutputFdForTesting(int fd);
+
+ void OnSetup(const SetupArgs&) override;
+ void OnStart(const StartArgs&) override;
+ void OnStop(const StopArgs&) override;
+
+ struct ThreadLocalState : public InterceptorBase::ThreadLocalState {
+ ThreadLocalState(ThreadLocalStateArgs&);
+ ~ThreadLocalState() override;
+
+ // Destination file. Assumed to stay valid until the program ends (i.e., is
+ // stderr or stdout).
+ int fd{};
+ bool use_colors{};
+
+ // Messages up to this length are buffered and written atomically. If a
+ // message is longer, it will be printed with multiple writes.
+ std::array<char, 1024> message_buffer{};
+ size_t buffer_pos{};
+
+ // We only support a single trace writer sequence per thread, so the
+ // sequence state is stored in TLS.
+ TrackEventStateTracker::SequenceState sequence_state;
+ uint64_t start_time_ns{};
+ };
+
+ private:
+ class Delegate;
+
+ // Appends a formatted message to |message_buffer_| or directly to the output
+ // file if the buffer is full.
+ static void Printf(InterceptorContext& context,
+ const char* format,
+ ...) PERFETTO_PRINTF_ATTR;
+ static void Flush(InterceptorContext& context);
+ static void SetColor(InterceptorContext& context, const ConsoleColor&);
+ static void SetColor(InterceptorContext& context, const char*);
+
+ static void PrintDebugAnnotations(InterceptorContext&,
+ const protos::pbzero::TrackEvent_Decoder&,
+ const ConsoleColor& slice_color,
+ const ConsoleColor& highlight_color);
+ static void PrintDebugAnnotationName(
+ InterceptorContext&,
+ const perfetto::protos::pbzero::DebugAnnotation_Decoder& annotation);
+ static void PrintDebugAnnotationValue(
+ InterceptorContext&,
+ const perfetto::protos::pbzero::DebugAnnotation_Decoder& annotation);
+
+ int fd_ = STDOUT_FILENO;
+ bool use_colors_ = true;
+
+ TrackEventStateTracker::SessionState session_state_;
+ uint64_t start_time_ns_{};
+};
+
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_TRACING_CONSOLE_INTERCEPTOR_H_
+// gen_amalgamated begin header: include/perfetto/tracing/core/data_source_descriptor.h
+// gen_amalgamated begin header: gen/protos/perfetto/common/data_source_descriptor.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_DATA_SOURCE_DESCRIPTOR_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_DATA_SOURCE_DESCRIPTOR_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class DataSourceDescriptor;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+class PERFETTO_EXPORT_COMPONENT DataSourceDescriptor : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kNameFieldNumber = 1,
+ kIdFieldNumber = 7,
+ kWillNotifyOnStopFieldNumber = 2,
+ kWillNotifyOnStartFieldNumber = 3,
+ kHandlesIncrementalStateClearFieldNumber = 4,
+ kNoFlushFieldNumber = 9,
+ kGpuCounterDescriptorFieldNumber = 5,
+ kTrackEventDescriptorFieldNumber = 6,
+ kFtraceDescriptorFieldNumber = 8,
+ };
+
+ DataSourceDescriptor();
+ ~DataSourceDescriptor() override;
+ DataSourceDescriptor(DataSourceDescriptor&&) noexcept;
+ DataSourceDescriptor& operator=(DataSourceDescriptor&&);
+ DataSourceDescriptor(const DataSourceDescriptor&);
+ DataSourceDescriptor& operator=(const DataSourceDescriptor&);
+ bool operator==(const DataSourceDescriptor&) const;
+ bool operator!=(const DataSourceDescriptor& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_name() const { return _has_field_[1]; }
+ const std::string& name() const { return name_; }
+ void set_name(const std::string& value) { name_ = value; _has_field_.set(1); }
+
+ bool has_id() const { return _has_field_[7]; }
+ uint64_t id() const { return id_; }
+ void set_id(uint64_t value) { id_ = value; _has_field_.set(7); }
+
+ bool has_will_notify_on_stop() const { return _has_field_[2]; }
+ bool will_notify_on_stop() const { return will_notify_on_stop_; }
+ void set_will_notify_on_stop(bool value) { will_notify_on_stop_ = value; _has_field_.set(2); }
+
+ bool has_will_notify_on_start() const { return _has_field_[3]; }
+ bool will_notify_on_start() const { return will_notify_on_start_; }
+ void set_will_notify_on_start(bool value) { will_notify_on_start_ = value; _has_field_.set(3); }
+
+ bool has_handles_incremental_state_clear() const { return _has_field_[4]; }
+ bool handles_incremental_state_clear() const { return handles_incremental_state_clear_; }
+ void set_handles_incremental_state_clear(bool value) { handles_incremental_state_clear_ = value; _has_field_.set(4); }
+
+ bool has_no_flush() const { return _has_field_[9]; }
+ bool no_flush() const { return no_flush_; }
+ void set_no_flush(bool value) { no_flush_ = value; _has_field_.set(9); }
+
+ const std::string& gpu_counter_descriptor_raw() const { return gpu_counter_descriptor_; }
+ void set_gpu_counter_descriptor_raw(const std::string& raw) { gpu_counter_descriptor_ = raw; _has_field_.set(5); }
+
+ const std::string& track_event_descriptor_raw() const { return track_event_descriptor_; }
+ void set_track_event_descriptor_raw(const std::string& raw) { track_event_descriptor_ = raw; _has_field_.set(6); }
+
+ const std::string& ftrace_descriptor_raw() const { return ftrace_descriptor_; }
+ void set_ftrace_descriptor_raw(const std::string& raw) { ftrace_descriptor_ = raw; _has_field_.set(8); }
+
+ private:
+ std::string name_{};
+ uint64_t id_{};
+ bool will_notify_on_stop_{};
+ bool will_notify_on_start_{};
+ bool handles_incremental_state_clear_{};
+ bool no_flush_{};
+ std::string gpu_counter_descriptor_; // [lazy=true]
+ std::string track_event_descriptor_; // [lazy=true]
+ std::string ftrace_descriptor_; // [lazy=true]
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<10> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_DATA_SOURCE_DESCRIPTOR_PROTO_CPP_H_
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_TRACING_CORE_DATA_SOURCE_DESCRIPTOR_H_
+#define INCLUDE_PERFETTO_TRACING_CORE_DATA_SOURCE_DESCRIPTOR_H_
+
+// Creates the aliases in the ::perfetto namespace, doing things like:
+// using ::perfetto::Foo = ::perfetto::protos::gen::Foo.
+// See comments in forward_decls.h for the historical reasons of this
+// indirection layer.
+// gen_amalgamated expanded: #include "perfetto/tracing/core/forward_decls.h"
+
+// gen_amalgamated expanded: #include "protos/perfetto/common/data_source_descriptor.gen.h"
+
+#endif // INCLUDE_PERFETTO_TRACING_CORE_DATA_SOURCE_DESCRIPTOR_H_
+// gen_amalgamated begin header: include/perfetto/tracing/core/trace_config.h
+// gen_amalgamated begin header: gen/protos/perfetto/config/trace_config.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_TRACE_CONFIG_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_TRACE_CONFIG_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class TraceConfig;
+class TraceConfig_CmdTraceStartDelay;
+class TraceConfig_AndroidReportConfig;
+class TraceConfig_TraceFilter;
+class TraceConfig_TraceFilter_StringFilterChain;
+class TraceConfig_TraceFilter_StringFilterRule;
+class TraceConfig_IncidentReportConfig;
+class TraceConfig_IncrementalStateConfig;
+class TraceConfig_TriggerConfig;
+class TraceConfig_TriggerConfig_Trigger;
+class TraceConfig_GuardrailOverrides;
+class TraceConfig_StatsdMetadata;
+class TraceConfig_ProducerConfig;
+class TraceConfig_BuiltinDataSource;
+class TraceConfig_DataSource;
+class DataSourceConfig;
+class TestConfig;
+class TestConfig_DummyFields;
+class InterceptorConfig;
+class ConsoleConfig;
+class ChromeConfig;
+class SystemInfoConfig;
+class TraceConfig_BufferConfig;
+enum TraceConfig_LockdownModeOperation : int;
+enum TraceConfig_CompressionType : int;
+enum TraceConfig_StatsdLogging : int;
+enum TraceConfig_TraceFilter_StringFilterPolicy : int;
+enum TraceConfig_TriggerConfig_TriggerMode : int;
+enum BuiltinClock : int;
+enum DataSourceConfig_SessionInitiator : int;
+enum ConsoleConfig_Output : int;
+enum ChromeConfig_ClientPriority : int;
+enum TraceConfig_BufferConfig_FillPolicy : int;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+enum TraceConfig_LockdownModeOperation : int {
+ TraceConfig_LockdownModeOperation_LOCKDOWN_UNCHANGED = 0,
+ TraceConfig_LockdownModeOperation_LOCKDOWN_CLEAR = 1,
+ TraceConfig_LockdownModeOperation_LOCKDOWN_SET = 2,
+};
+enum TraceConfig_CompressionType : int {
+ TraceConfig_CompressionType_COMPRESSION_TYPE_UNSPECIFIED = 0,
+ TraceConfig_CompressionType_COMPRESSION_TYPE_DEFLATE = 1,
+};
+enum TraceConfig_StatsdLogging : int {
+ TraceConfig_StatsdLogging_STATSD_LOGGING_UNSPECIFIED = 0,
+ TraceConfig_StatsdLogging_STATSD_LOGGING_ENABLED = 1,
+ TraceConfig_StatsdLogging_STATSD_LOGGING_DISABLED = 2,
+};
+enum TraceConfig_TraceFilter_StringFilterPolicy : int {
+ TraceConfig_TraceFilter_StringFilterPolicy_SFP_UNSPECIFIED = 0,
+ TraceConfig_TraceFilter_StringFilterPolicy_SFP_MATCH_REDACT_GROUPS = 1,
+ TraceConfig_TraceFilter_StringFilterPolicy_SFP_ATRACE_MATCH_REDACT_GROUPS = 2,
+ TraceConfig_TraceFilter_StringFilterPolicy_SFP_MATCH_BREAK = 3,
+ TraceConfig_TraceFilter_StringFilterPolicy_SFP_ATRACE_MATCH_BREAK = 4,
+ TraceConfig_TraceFilter_StringFilterPolicy_SFP_ATRACE_REPEATED_SEARCH_REDACT_GROUPS = 5,
+};
+enum TraceConfig_TriggerConfig_TriggerMode : int {
+ TraceConfig_TriggerConfig_TriggerMode_UNSPECIFIED = 0,
+ TraceConfig_TriggerConfig_TriggerMode_START_TRACING = 1,
+ TraceConfig_TriggerConfig_TriggerMode_STOP_TRACING = 2,
+ TraceConfig_TriggerConfig_TriggerMode_CLONE_SNAPSHOT = 4,
+};
+enum TraceConfig_BufferConfig_FillPolicy : int {
+ TraceConfig_BufferConfig_FillPolicy_UNSPECIFIED = 0,
+ TraceConfig_BufferConfig_FillPolicy_RING_BUFFER = 1,
+ TraceConfig_BufferConfig_FillPolicy_DISCARD = 2,
+};
+
+class PERFETTO_EXPORT_COMPONENT TraceConfig : public ::protozero::CppMessageObj {
+ public:
+ using BufferConfig = TraceConfig_BufferConfig;
+ using DataSource = TraceConfig_DataSource;
+ using BuiltinDataSource = TraceConfig_BuiltinDataSource;
+ using ProducerConfig = TraceConfig_ProducerConfig;
+ using StatsdMetadata = TraceConfig_StatsdMetadata;
+ using GuardrailOverrides = TraceConfig_GuardrailOverrides;
+ using TriggerConfig = TraceConfig_TriggerConfig;
+ using IncrementalStateConfig = TraceConfig_IncrementalStateConfig;
+ using IncidentReportConfig = TraceConfig_IncidentReportConfig;
+ using TraceFilter = TraceConfig_TraceFilter;
+ using AndroidReportConfig = TraceConfig_AndroidReportConfig;
+ using CmdTraceStartDelay = TraceConfig_CmdTraceStartDelay;
+ using LockdownModeOperation = TraceConfig_LockdownModeOperation;
+ static constexpr auto LOCKDOWN_UNCHANGED = TraceConfig_LockdownModeOperation_LOCKDOWN_UNCHANGED;
+ static constexpr auto LOCKDOWN_CLEAR = TraceConfig_LockdownModeOperation_LOCKDOWN_CLEAR;
+ static constexpr auto LOCKDOWN_SET = TraceConfig_LockdownModeOperation_LOCKDOWN_SET;
+ static constexpr auto LockdownModeOperation_MIN = TraceConfig_LockdownModeOperation_LOCKDOWN_UNCHANGED;
+ static constexpr auto LockdownModeOperation_MAX = TraceConfig_LockdownModeOperation_LOCKDOWN_SET;
+ using CompressionType = TraceConfig_CompressionType;
+ static constexpr auto COMPRESSION_TYPE_UNSPECIFIED = TraceConfig_CompressionType_COMPRESSION_TYPE_UNSPECIFIED;
+ static constexpr auto COMPRESSION_TYPE_DEFLATE = TraceConfig_CompressionType_COMPRESSION_TYPE_DEFLATE;
+ static constexpr auto CompressionType_MIN = TraceConfig_CompressionType_COMPRESSION_TYPE_UNSPECIFIED;
+ static constexpr auto CompressionType_MAX = TraceConfig_CompressionType_COMPRESSION_TYPE_DEFLATE;
+ using StatsdLogging = TraceConfig_StatsdLogging;
+ static constexpr auto STATSD_LOGGING_UNSPECIFIED = TraceConfig_StatsdLogging_STATSD_LOGGING_UNSPECIFIED;
+ static constexpr auto STATSD_LOGGING_ENABLED = TraceConfig_StatsdLogging_STATSD_LOGGING_ENABLED;
+ static constexpr auto STATSD_LOGGING_DISABLED = TraceConfig_StatsdLogging_STATSD_LOGGING_DISABLED;
+ static constexpr auto StatsdLogging_MIN = TraceConfig_StatsdLogging_STATSD_LOGGING_UNSPECIFIED;
+ static constexpr auto StatsdLogging_MAX = TraceConfig_StatsdLogging_STATSD_LOGGING_DISABLED;
+ enum FieldNumbers {
+ kBuffersFieldNumber = 1,
+ kDataSourcesFieldNumber = 2,
+ kBuiltinDataSourcesFieldNumber = 20,
+ kDurationMsFieldNumber = 3,
+ kPreferSuspendClockForDurationFieldNumber = 36,
+ kEnableExtraGuardrailsFieldNumber = 4,
+ kLockdownModeFieldNumber = 5,
+ kProducersFieldNumber = 6,
+ kStatsdMetadataFieldNumber = 7,
+ kWriteIntoFileFieldNumber = 8,
+ kOutputPathFieldNumber = 29,
+ kFileWritePeriodMsFieldNumber = 9,
+ kMaxFileSizeBytesFieldNumber = 10,
+ kGuardrailOverridesFieldNumber = 11,
+ kDeferredStartFieldNumber = 12,
+ kFlushPeriodMsFieldNumber = 13,
+ kFlushTimeoutMsFieldNumber = 14,
+ kDataSourceStopTimeoutMsFieldNumber = 23,
+ kNotifyTraceurFieldNumber = 16,
+ kBugreportScoreFieldNumber = 30,
+ kBugreportFilenameFieldNumber = 38,
+ kTriggerConfigFieldNumber = 17,
+ kActivateTriggersFieldNumber = 18,
+ kIncrementalStateConfigFieldNumber = 21,
+ kAllowUserBuildTracingFieldNumber = 19,
+ kUniqueSessionNameFieldNumber = 22,
+ kCompressionTypeFieldNumber = 24,
+ kIncidentReportConfigFieldNumber = 25,
+ kStatsdLoggingFieldNumber = 31,
+ kTraceUuidMsbFieldNumber = 27,
+ kTraceUuidLsbFieldNumber = 28,
+ kTraceFilterFieldNumber = 33,
+ kAndroidReportConfigFieldNumber = 34,
+ kCmdTraceStartDelayFieldNumber = 35,
+ };
+
+ TraceConfig();
+ ~TraceConfig() override;
+ TraceConfig(TraceConfig&&) noexcept;
+ TraceConfig& operator=(TraceConfig&&);
+ TraceConfig(const TraceConfig&);
+ TraceConfig& operator=(const TraceConfig&);
+ bool operator==(const TraceConfig&) const;
+ bool operator!=(const TraceConfig& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ const std::vector<TraceConfig_BufferConfig>& buffers() const { return buffers_; }
+ std::vector<TraceConfig_BufferConfig>* mutable_buffers() { return &buffers_; }
+ int buffers_size() const;
+ void clear_buffers();
+ TraceConfig_BufferConfig* add_buffers();
+
+ const std::vector<TraceConfig_DataSource>& data_sources() const { return data_sources_; }
+ std::vector<TraceConfig_DataSource>* mutable_data_sources() { return &data_sources_; }
+ int data_sources_size() const;
+ void clear_data_sources();
+ TraceConfig_DataSource* add_data_sources();
+
+ bool has_builtin_data_sources() const { return _has_field_[20]; }
+ const TraceConfig_BuiltinDataSource& builtin_data_sources() const { return *builtin_data_sources_; }
+ TraceConfig_BuiltinDataSource* mutable_builtin_data_sources() { _has_field_.set(20); return builtin_data_sources_.get(); }
+
+ bool has_duration_ms() const { return _has_field_[3]; }
+ uint32_t duration_ms() const { return duration_ms_; }
+ void set_duration_ms(uint32_t value) { duration_ms_ = value; _has_field_.set(3); }
+
+ bool has_prefer_suspend_clock_for_duration() const { return _has_field_[36]; }
+ bool prefer_suspend_clock_for_duration() const { return prefer_suspend_clock_for_duration_; }
+ void set_prefer_suspend_clock_for_duration(bool value) { prefer_suspend_clock_for_duration_ = value; _has_field_.set(36); }
+
+ bool has_enable_extra_guardrails() const { return _has_field_[4]; }
+ bool enable_extra_guardrails() const { return enable_extra_guardrails_; }
+ void set_enable_extra_guardrails(bool value) { enable_extra_guardrails_ = value; _has_field_.set(4); }
+
+ bool has_lockdown_mode() const { return _has_field_[5]; }
+ TraceConfig_LockdownModeOperation lockdown_mode() const { return lockdown_mode_; }
+ void set_lockdown_mode(TraceConfig_LockdownModeOperation value) { lockdown_mode_ = value; _has_field_.set(5); }
+
+ const std::vector<TraceConfig_ProducerConfig>& producers() const { return producers_; }
+ std::vector<TraceConfig_ProducerConfig>* mutable_producers() { return &producers_; }
+ int producers_size() const;
+ void clear_producers();
+ TraceConfig_ProducerConfig* add_producers();
+
+ bool has_statsd_metadata() const { return _has_field_[7]; }
+ const TraceConfig_StatsdMetadata& statsd_metadata() const { return *statsd_metadata_; }
+ TraceConfig_StatsdMetadata* mutable_statsd_metadata() { _has_field_.set(7); return statsd_metadata_.get(); }
+
+ bool has_write_into_file() const { return _has_field_[8]; }
+ bool write_into_file() const { return write_into_file_; }
+ void set_write_into_file(bool value) { write_into_file_ = value; _has_field_.set(8); }
+
+ bool has_output_path() const { return _has_field_[29]; }
+ const std::string& output_path() const { return output_path_; }
+ void set_output_path(const std::string& value) { output_path_ = value; _has_field_.set(29); }
+
+ bool has_file_write_period_ms() const { return _has_field_[9]; }
+ uint32_t file_write_period_ms() const { return file_write_period_ms_; }
+ void set_file_write_period_ms(uint32_t value) { file_write_period_ms_ = value; _has_field_.set(9); }
+
+ bool has_max_file_size_bytes() const { return _has_field_[10]; }
+ uint64_t max_file_size_bytes() const { return max_file_size_bytes_; }
+ void set_max_file_size_bytes(uint64_t value) { max_file_size_bytes_ = value; _has_field_.set(10); }
+
+ bool has_guardrail_overrides() const { return _has_field_[11]; }
+ const TraceConfig_GuardrailOverrides& guardrail_overrides() const { return *guardrail_overrides_; }
+ TraceConfig_GuardrailOverrides* mutable_guardrail_overrides() { _has_field_.set(11); return guardrail_overrides_.get(); }
+
+ bool has_deferred_start() const { return _has_field_[12]; }
+ bool deferred_start() const { return deferred_start_; }
+ void set_deferred_start(bool value) { deferred_start_ = value; _has_field_.set(12); }
+
+ bool has_flush_period_ms() const { return _has_field_[13]; }
+ uint32_t flush_period_ms() const { return flush_period_ms_; }
+ void set_flush_period_ms(uint32_t value) { flush_period_ms_ = value; _has_field_.set(13); }
+
+ bool has_flush_timeout_ms() const { return _has_field_[14]; }
+ uint32_t flush_timeout_ms() const { return flush_timeout_ms_; }
+ void set_flush_timeout_ms(uint32_t value) { flush_timeout_ms_ = value; _has_field_.set(14); }
+
+ bool has_data_source_stop_timeout_ms() const { return _has_field_[23]; }
+ uint32_t data_source_stop_timeout_ms() const { return data_source_stop_timeout_ms_; }
+ void set_data_source_stop_timeout_ms(uint32_t value) { data_source_stop_timeout_ms_ = value; _has_field_.set(23); }
+
+ bool has_notify_traceur() const { return _has_field_[16]; }
+ bool notify_traceur() const { return notify_traceur_; }
+ void set_notify_traceur(bool value) { notify_traceur_ = value; _has_field_.set(16); }
+
+ bool has_bugreport_score() const { return _has_field_[30]; }
+ int32_t bugreport_score() const { return bugreport_score_; }
+ void set_bugreport_score(int32_t value) { bugreport_score_ = value; _has_field_.set(30); }
+
+ bool has_bugreport_filename() const { return _has_field_[38]; }
+ const std::string& bugreport_filename() const { return bugreport_filename_; }
+ void set_bugreport_filename(const std::string& value) { bugreport_filename_ = value; _has_field_.set(38); }
+
+ bool has_trigger_config() const { return _has_field_[17]; }
+ const TraceConfig_TriggerConfig& trigger_config() const { return *trigger_config_; }
+ TraceConfig_TriggerConfig* mutable_trigger_config() { _has_field_.set(17); return trigger_config_.get(); }
+
+ const std::vector<std::string>& activate_triggers() const { return activate_triggers_; }
+ std::vector<std::string>* mutable_activate_triggers() { return &activate_triggers_; }
+ int activate_triggers_size() const { return static_cast<int>(activate_triggers_.size()); }
+ void clear_activate_triggers() { activate_triggers_.clear(); }
+ void add_activate_triggers(std::string value) { activate_triggers_.emplace_back(value); }
+ std::string* add_activate_triggers() { activate_triggers_.emplace_back(); return &activate_triggers_.back(); }
+
+ bool has_incremental_state_config() const { return _has_field_[21]; }
+ const TraceConfig_IncrementalStateConfig& incremental_state_config() const { return *incremental_state_config_; }
+ TraceConfig_IncrementalStateConfig* mutable_incremental_state_config() { _has_field_.set(21); return incremental_state_config_.get(); }
+
+ bool has_allow_user_build_tracing() const { return _has_field_[19]; }
+ bool allow_user_build_tracing() const { return allow_user_build_tracing_; }
+ void set_allow_user_build_tracing(bool value) { allow_user_build_tracing_ = value; _has_field_.set(19); }
+
+ bool has_unique_session_name() const { return _has_field_[22]; }
+ const std::string& unique_session_name() const { return unique_session_name_; }
+ void set_unique_session_name(const std::string& value) { unique_session_name_ = value; _has_field_.set(22); }
+
+ bool has_compression_type() const { return _has_field_[24]; }
+ TraceConfig_CompressionType compression_type() const { return compression_type_; }
+ void set_compression_type(TraceConfig_CompressionType value) { compression_type_ = value; _has_field_.set(24); }
+
+ bool has_incident_report_config() const { return _has_field_[25]; }
+ const TraceConfig_IncidentReportConfig& incident_report_config() const { return *incident_report_config_; }
+ TraceConfig_IncidentReportConfig* mutable_incident_report_config() { _has_field_.set(25); return incident_report_config_.get(); }
+
+ bool has_statsd_logging() const { return _has_field_[31]; }
+ TraceConfig_StatsdLogging statsd_logging() const { return statsd_logging_; }
+ void set_statsd_logging(TraceConfig_StatsdLogging value) { statsd_logging_ = value; _has_field_.set(31); }
+
+ bool has_trace_uuid_msb() const { return _has_field_[27]; }
+ int64_t trace_uuid_msb() const { return trace_uuid_msb_; }
+ void set_trace_uuid_msb(int64_t value) { trace_uuid_msb_ = value; _has_field_.set(27); }
+
+ bool has_trace_uuid_lsb() const { return _has_field_[28]; }
+ int64_t trace_uuid_lsb() const { return trace_uuid_lsb_; }
+ void set_trace_uuid_lsb(int64_t value) { trace_uuid_lsb_ = value; _has_field_.set(28); }
+
+ bool has_trace_filter() const { return _has_field_[33]; }
+ const TraceConfig_TraceFilter& trace_filter() const { return *trace_filter_; }
+ TraceConfig_TraceFilter* mutable_trace_filter() { _has_field_.set(33); return trace_filter_.get(); }
+
+ bool has_android_report_config() const { return _has_field_[34]; }
+ const TraceConfig_AndroidReportConfig& android_report_config() const { return *android_report_config_; }
+ TraceConfig_AndroidReportConfig* mutable_android_report_config() { _has_field_.set(34); return android_report_config_.get(); }
+
+ bool has_cmd_trace_start_delay() const { return _has_field_[35]; }
+ const TraceConfig_CmdTraceStartDelay& cmd_trace_start_delay() const { return *cmd_trace_start_delay_; }
+ TraceConfig_CmdTraceStartDelay* mutable_cmd_trace_start_delay() { _has_field_.set(35); return cmd_trace_start_delay_.get(); }
+
+ private:
+ std::vector<TraceConfig_BufferConfig> buffers_;
+ std::vector<TraceConfig_DataSource> data_sources_;
+ ::protozero::CopyablePtr<TraceConfig_BuiltinDataSource> builtin_data_sources_;
+ uint32_t duration_ms_{};
+ bool prefer_suspend_clock_for_duration_{};
+ bool enable_extra_guardrails_{};
+ TraceConfig_LockdownModeOperation lockdown_mode_{};
+ std::vector<TraceConfig_ProducerConfig> producers_;
+ ::protozero::CopyablePtr<TraceConfig_StatsdMetadata> statsd_metadata_;
+ bool write_into_file_{};
+ std::string output_path_{};
+ uint32_t file_write_period_ms_{};
+ uint64_t max_file_size_bytes_{};
+ ::protozero::CopyablePtr<TraceConfig_GuardrailOverrides> guardrail_overrides_;
+ bool deferred_start_{};
+ uint32_t flush_period_ms_{};
+ uint32_t flush_timeout_ms_{};
+ uint32_t data_source_stop_timeout_ms_{};
+ bool notify_traceur_{};
+ int32_t bugreport_score_{};
+ std::string bugreport_filename_{};
+ ::protozero::CopyablePtr<TraceConfig_TriggerConfig> trigger_config_;
+ std::vector<std::string> activate_triggers_;
+ ::protozero::CopyablePtr<TraceConfig_IncrementalStateConfig> incremental_state_config_;
+ bool allow_user_build_tracing_{};
+ std::string unique_session_name_{};
+ TraceConfig_CompressionType compression_type_{};
+ ::protozero::CopyablePtr<TraceConfig_IncidentReportConfig> incident_report_config_;
+ TraceConfig_StatsdLogging statsd_logging_{};
+ int64_t trace_uuid_msb_{};
+ int64_t trace_uuid_lsb_{};
+ ::protozero::CopyablePtr<TraceConfig_TraceFilter> trace_filter_;
+ ::protozero::CopyablePtr<TraceConfig_AndroidReportConfig> android_report_config_;
+ ::protozero::CopyablePtr<TraceConfig_CmdTraceStartDelay> cmd_trace_start_delay_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<39> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT TraceConfig_CmdTraceStartDelay : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kMinDelayMsFieldNumber = 1,
+ kMaxDelayMsFieldNumber = 2,
+ };
+
+ TraceConfig_CmdTraceStartDelay();
+ ~TraceConfig_CmdTraceStartDelay() override;
+ TraceConfig_CmdTraceStartDelay(TraceConfig_CmdTraceStartDelay&&) noexcept;
+ TraceConfig_CmdTraceStartDelay& operator=(TraceConfig_CmdTraceStartDelay&&);
+ TraceConfig_CmdTraceStartDelay(const TraceConfig_CmdTraceStartDelay&);
+ TraceConfig_CmdTraceStartDelay& operator=(const TraceConfig_CmdTraceStartDelay&);
+ bool operator==(const TraceConfig_CmdTraceStartDelay&) const;
+ bool operator!=(const TraceConfig_CmdTraceStartDelay& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_min_delay_ms() const { return _has_field_[1]; }
+ uint32_t min_delay_ms() const { return min_delay_ms_; }
+ void set_min_delay_ms(uint32_t value) { min_delay_ms_ = value; _has_field_.set(1); }
+
+ bool has_max_delay_ms() const { return _has_field_[2]; }
+ uint32_t max_delay_ms() const { return max_delay_ms_; }
+ void set_max_delay_ms(uint32_t value) { max_delay_ms_ = value; _has_field_.set(2); }
+
+ private:
+ uint32_t min_delay_ms_{};
+ uint32_t max_delay_ms_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<3> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT TraceConfig_AndroidReportConfig : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kReporterServicePackageFieldNumber = 1,
+ kReporterServiceClassFieldNumber = 2,
+ kSkipReportFieldNumber = 3,
+ kUsePipeInFrameworkForTestingFieldNumber = 4,
+ };
+
+ TraceConfig_AndroidReportConfig();
+ ~TraceConfig_AndroidReportConfig() override;
+ TraceConfig_AndroidReportConfig(TraceConfig_AndroidReportConfig&&) noexcept;
+ TraceConfig_AndroidReportConfig& operator=(TraceConfig_AndroidReportConfig&&);
+ TraceConfig_AndroidReportConfig(const TraceConfig_AndroidReportConfig&);
+ TraceConfig_AndroidReportConfig& operator=(const TraceConfig_AndroidReportConfig&);
+ bool operator==(const TraceConfig_AndroidReportConfig&) const;
+ bool operator!=(const TraceConfig_AndroidReportConfig& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_reporter_service_package() const { return _has_field_[1]; }
+ const std::string& reporter_service_package() const { return reporter_service_package_; }
+ void set_reporter_service_package(const std::string& value) { reporter_service_package_ = value; _has_field_.set(1); }
+
+ bool has_reporter_service_class() const { return _has_field_[2]; }
+ const std::string& reporter_service_class() const { return reporter_service_class_; }
+ void set_reporter_service_class(const std::string& value) { reporter_service_class_ = value; _has_field_.set(2); }
+
+ bool has_skip_report() const { return _has_field_[3]; }
+ bool skip_report() const { return skip_report_; }
+ void set_skip_report(bool value) { skip_report_ = value; _has_field_.set(3); }
+
+ bool has_use_pipe_in_framework_for_testing() const { return _has_field_[4]; }
+ bool use_pipe_in_framework_for_testing() const { return use_pipe_in_framework_for_testing_; }
+ void set_use_pipe_in_framework_for_testing(bool value) { use_pipe_in_framework_for_testing_ = value; _has_field_.set(4); }
+
+ private:
+ std::string reporter_service_package_{};
+ std::string reporter_service_class_{};
+ bool skip_report_{};
+ bool use_pipe_in_framework_for_testing_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<5> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT TraceConfig_TraceFilter : public ::protozero::CppMessageObj {
+ public:
+ using StringFilterRule = TraceConfig_TraceFilter_StringFilterRule;
+ using StringFilterChain = TraceConfig_TraceFilter_StringFilterChain;
+ using StringFilterPolicy = TraceConfig_TraceFilter_StringFilterPolicy;
+ static constexpr auto SFP_UNSPECIFIED = TraceConfig_TraceFilter_StringFilterPolicy_SFP_UNSPECIFIED;
+ static constexpr auto SFP_MATCH_REDACT_GROUPS = TraceConfig_TraceFilter_StringFilterPolicy_SFP_MATCH_REDACT_GROUPS;
+ static constexpr auto SFP_ATRACE_MATCH_REDACT_GROUPS = TraceConfig_TraceFilter_StringFilterPolicy_SFP_ATRACE_MATCH_REDACT_GROUPS;
+ static constexpr auto SFP_MATCH_BREAK = TraceConfig_TraceFilter_StringFilterPolicy_SFP_MATCH_BREAK;
+ static constexpr auto SFP_ATRACE_MATCH_BREAK = TraceConfig_TraceFilter_StringFilterPolicy_SFP_ATRACE_MATCH_BREAK;
+ static constexpr auto SFP_ATRACE_REPEATED_SEARCH_REDACT_GROUPS = TraceConfig_TraceFilter_StringFilterPolicy_SFP_ATRACE_REPEATED_SEARCH_REDACT_GROUPS;
+ static constexpr auto StringFilterPolicy_MIN = TraceConfig_TraceFilter_StringFilterPolicy_SFP_UNSPECIFIED;
+ static constexpr auto StringFilterPolicy_MAX = TraceConfig_TraceFilter_StringFilterPolicy_SFP_ATRACE_REPEATED_SEARCH_REDACT_GROUPS;
+ enum FieldNumbers {
+ kBytecodeFieldNumber = 1,
+ kBytecodeV2FieldNumber = 2,
+ kStringFilterChainFieldNumber = 3,
+ };
+
+ TraceConfig_TraceFilter();
+ ~TraceConfig_TraceFilter() override;
+ TraceConfig_TraceFilter(TraceConfig_TraceFilter&&) noexcept;
+ TraceConfig_TraceFilter& operator=(TraceConfig_TraceFilter&&);
+ TraceConfig_TraceFilter(const TraceConfig_TraceFilter&);
+ TraceConfig_TraceFilter& operator=(const TraceConfig_TraceFilter&);
+ bool operator==(const TraceConfig_TraceFilter&) const;
+ bool operator!=(const TraceConfig_TraceFilter& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_bytecode() const { return _has_field_[1]; }
+ const std::string& bytecode() const { return bytecode_; }
+ void set_bytecode(const std::string& value) { bytecode_ = value; _has_field_.set(1); }
+ void set_bytecode(const void* p, size_t s) { bytecode_.assign(reinterpret_cast<const char*>(p), s); _has_field_.set(1); }
+
+ bool has_bytecode_v2() const { return _has_field_[2]; }
+ const std::string& bytecode_v2() const { return bytecode_v2_; }
+ void set_bytecode_v2(const std::string& value) { bytecode_v2_ = value; _has_field_.set(2); }
+ void set_bytecode_v2(const void* p, size_t s) { bytecode_v2_.assign(reinterpret_cast<const char*>(p), s); _has_field_.set(2); }
+
+ bool has_string_filter_chain() const { return _has_field_[3]; }
+ const TraceConfig_TraceFilter_StringFilterChain& string_filter_chain() const { return *string_filter_chain_; }
+ TraceConfig_TraceFilter_StringFilterChain* mutable_string_filter_chain() { _has_field_.set(3); return string_filter_chain_.get(); }
+
+ private:
+ std::string bytecode_{};
+ std::string bytecode_v2_{};
+ ::protozero::CopyablePtr<TraceConfig_TraceFilter_StringFilterChain> string_filter_chain_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<4> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT TraceConfig_TraceFilter_StringFilterChain : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kRulesFieldNumber = 1,
+ };
+
+ TraceConfig_TraceFilter_StringFilterChain();
+ ~TraceConfig_TraceFilter_StringFilterChain() override;
+ TraceConfig_TraceFilter_StringFilterChain(TraceConfig_TraceFilter_StringFilterChain&&) noexcept;
+ TraceConfig_TraceFilter_StringFilterChain& operator=(TraceConfig_TraceFilter_StringFilterChain&&);
+ TraceConfig_TraceFilter_StringFilterChain(const TraceConfig_TraceFilter_StringFilterChain&);
+ TraceConfig_TraceFilter_StringFilterChain& operator=(const TraceConfig_TraceFilter_StringFilterChain&);
+ bool operator==(const TraceConfig_TraceFilter_StringFilterChain&) const;
+ bool operator!=(const TraceConfig_TraceFilter_StringFilterChain& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ const std::vector<TraceConfig_TraceFilter_StringFilterRule>& rules() const { return rules_; }
+ std::vector<TraceConfig_TraceFilter_StringFilterRule>* mutable_rules() { return &rules_; }
+ int rules_size() const;
+ void clear_rules();
+ TraceConfig_TraceFilter_StringFilterRule* add_rules();
+
+ private:
+ std::vector<TraceConfig_TraceFilter_StringFilterRule> rules_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT TraceConfig_TraceFilter_StringFilterRule : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kPolicyFieldNumber = 1,
+ kRegexPatternFieldNumber = 2,
+ kAtracePayloadStartsWithFieldNumber = 3,
+ };
+
+ TraceConfig_TraceFilter_StringFilterRule();
+ ~TraceConfig_TraceFilter_StringFilterRule() override;
+ TraceConfig_TraceFilter_StringFilterRule(TraceConfig_TraceFilter_StringFilterRule&&) noexcept;
+ TraceConfig_TraceFilter_StringFilterRule& operator=(TraceConfig_TraceFilter_StringFilterRule&&);
+ TraceConfig_TraceFilter_StringFilterRule(const TraceConfig_TraceFilter_StringFilterRule&);
+ TraceConfig_TraceFilter_StringFilterRule& operator=(const TraceConfig_TraceFilter_StringFilterRule&);
+ bool operator==(const TraceConfig_TraceFilter_StringFilterRule&) const;
+ bool operator!=(const TraceConfig_TraceFilter_StringFilterRule& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_policy() const { return _has_field_[1]; }
+ TraceConfig_TraceFilter_StringFilterPolicy policy() const { return policy_; }
+ void set_policy(TraceConfig_TraceFilter_StringFilterPolicy value) { policy_ = value; _has_field_.set(1); }
+
+ bool has_regex_pattern() const { return _has_field_[2]; }
+ const std::string& regex_pattern() const { return regex_pattern_; }
+ void set_regex_pattern(const std::string& value) { regex_pattern_ = value; _has_field_.set(2); }
+
+ bool has_atrace_payload_starts_with() const { return _has_field_[3]; }
+ const std::string& atrace_payload_starts_with() const { return atrace_payload_starts_with_; }
+ void set_atrace_payload_starts_with(const std::string& value) { atrace_payload_starts_with_ = value; _has_field_.set(3); }
+
+ private:
+ TraceConfig_TraceFilter_StringFilterPolicy policy_{};
+ std::string regex_pattern_{};
+ std::string atrace_payload_starts_with_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<4> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT TraceConfig_IncidentReportConfig : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kDestinationPackageFieldNumber = 1,
+ kDestinationClassFieldNumber = 2,
+ kPrivacyLevelFieldNumber = 3,
+ kSkipIncidentdFieldNumber = 5,
+ kSkipDropboxFieldNumber = 4,
+ };
+
+ TraceConfig_IncidentReportConfig();
+ ~TraceConfig_IncidentReportConfig() override;
+ TraceConfig_IncidentReportConfig(TraceConfig_IncidentReportConfig&&) noexcept;
+ TraceConfig_IncidentReportConfig& operator=(TraceConfig_IncidentReportConfig&&);
+ TraceConfig_IncidentReportConfig(const TraceConfig_IncidentReportConfig&);
+ TraceConfig_IncidentReportConfig& operator=(const TraceConfig_IncidentReportConfig&);
+ bool operator==(const TraceConfig_IncidentReportConfig&) const;
+ bool operator!=(const TraceConfig_IncidentReportConfig& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_destination_package() const { return _has_field_[1]; }
+ const std::string& destination_package() const { return destination_package_; }
+ void set_destination_package(const std::string& value) { destination_package_ = value; _has_field_.set(1); }
+
+ bool has_destination_class() const { return _has_field_[2]; }
+ const std::string& destination_class() const { return destination_class_; }
+ void set_destination_class(const std::string& value) { destination_class_ = value; _has_field_.set(2); }
+
+ bool has_privacy_level() const { return _has_field_[3]; }
+ int32_t privacy_level() const { return privacy_level_; }
+ void set_privacy_level(int32_t value) { privacy_level_ = value; _has_field_.set(3); }
+
+ bool has_skip_incidentd() const { return _has_field_[5]; }
+ bool skip_incidentd() const { return skip_incidentd_; }
+ void set_skip_incidentd(bool value) { skip_incidentd_ = value; _has_field_.set(5); }
+
+ bool has_skip_dropbox() const { return _has_field_[4]; }
+ bool skip_dropbox() const { return skip_dropbox_; }
+ void set_skip_dropbox(bool value) { skip_dropbox_ = value; _has_field_.set(4); }
+
+ private:
+ std::string destination_package_{};
+ std::string destination_class_{};
+ int32_t privacy_level_{};
+ bool skip_incidentd_{};
+ bool skip_dropbox_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<6> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT TraceConfig_IncrementalStateConfig : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kClearPeriodMsFieldNumber = 1,
+ };
+
+ TraceConfig_IncrementalStateConfig();
+ ~TraceConfig_IncrementalStateConfig() override;
+ TraceConfig_IncrementalStateConfig(TraceConfig_IncrementalStateConfig&&) noexcept;
+ TraceConfig_IncrementalStateConfig& operator=(TraceConfig_IncrementalStateConfig&&);
+ TraceConfig_IncrementalStateConfig(const TraceConfig_IncrementalStateConfig&);
+ TraceConfig_IncrementalStateConfig& operator=(const TraceConfig_IncrementalStateConfig&);
+ bool operator==(const TraceConfig_IncrementalStateConfig&) const;
+ bool operator!=(const TraceConfig_IncrementalStateConfig& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_clear_period_ms() const { return _has_field_[1]; }
+ uint32_t clear_period_ms() const { return clear_period_ms_; }
+ void set_clear_period_ms(uint32_t value) { clear_period_ms_ = value; _has_field_.set(1); }
+
+ private:
+ uint32_t clear_period_ms_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT TraceConfig_TriggerConfig : public ::protozero::CppMessageObj {
+ public:
+ using Trigger = TraceConfig_TriggerConfig_Trigger;
+ using TriggerMode = TraceConfig_TriggerConfig_TriggerMode;
+ static constexpr auto UNSPECIFIED = TraceConfig_TriggerConfig_TriggerMode_UNSPECIFIED;
+ static constexpr auto START_TRACING = TraceConfig_TriggerConfig_TriggerMode_START_TRACING;
+ static constexpr auto STOP_TRACING = TraceConfig_TriggerConfig_TriggerMode_STOP_TRACING;
+ static constexpr auto CLONE_SNAPSHOT = TraceConfig_TriggerConfig_TriggerMode_CLONE_SNAPSHOT;
+ static constexpr auto TriggerMode_MIN = TraceConfig_TriggerConfig_TriggerMode_UNSPECIFIED;
+ static constexpr auto TriggerMode_MAX = TraceConfig_TriggerConfig_TriggerMode_CLONE_SNAPSHOT;
+ enum FieldNumbers {
+ kTriggerModeFieldNumber = 1,
+ kUseCloneSnapshotIfAvailableFieldNumber = 5,
+ kTriggersFieldNumber = 2,
+ kTriggerTimeoutMsFieldNumber = 3,
+ };
+
+ TraceConfig_TriggerConfig();
+ ~TraceConfig_TriggerConfig() override;
+ TraceConfig_TriggerConfig(TraceConfig_TriggerConfig&&) noexcept;
+ TraceConfig_TriggerConfig& operator=(TraceConfig_TriggerConfig&&);
+ TraceConfig_TriggerConfig(const TraceConfig_TriggerConfig&);
+ TraceConfig_TriggerConfig& operator=(const TraceConfig_TriggerConfig&);
+ bool operator==(const TraceConfig_TriggerConfig&) const;
+ bool operator!=(const TraceConfig_TriggerConfig& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_trigger_mode() const { return _has_field_[1]; }
+ TraceConfig_TriggerConfig_TriggerMode trigger_mode() const { return trigger_mode_; }
+ void set_trigger_mode(TraceConfig_TriggerConfig_TriggerMode value) { trigger_mode_ = value; _has_field_.set(1); }
+
+ bool has_use_clone_snapshot_if_available() const { return _has_field_[5]; }
+ bool use_clone_snapshot_if_available() const { return use_clone_snapshot_if_available_; }
+ void set_use_clone_snapshot_if_available(bool value) { use_clone_snapshot_if_available_ = value; _has_field_.set(5); }
+
+ const std::vector<TraceConfig_TriggerConfig_Trigger>& triggers() const { return triggers_; }
+ std::vector<TraceConfig_TriggerConfig_Trigger>* mutable_triggers() { return &triggers_; }
+ int triggers_size() const;
+ void clear_triggers();
+ TraceConfig_TriggerConfig_Trigger* add_triggers();
+
+ bool has_trigger_timeout_ms() const { return _has_field_[3]; }
+ uint32_t trigger_timeout_ms() const { return trigger_timeout_ms_; }
+ void set_trigger_timeout_ms(uint32_t value) { trigger_timeout_ms_ = value; _has_field_.set(3); }
+
+ private:
+ TraceConfig_TriggerConfig_TriggerMode trigger_mode_{};
+ bool use_clone_snapshot_if_available_{};
+ std::vector<TraceConfig_TriggerConfig_Trigger> triggers_;
+ uint32_t trigger_timeout_ms_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<6> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT TraceConfig_TriggerConfig_Trigger : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kNameFieldNumber = 1,
+ kProducerNameRegexFieldNumber = 2,
+ kStopDelayMsFieldNumber = 3,
+ kMaxPer24HFieldNumber = 4,
+ kSkipProbabilityFieldNumber = 5,
+ };
+
+ TraceConfig_TriggerConfig_Trigger();
+ ~TraceConfig_TriggerConfig_Trigger() override;
+ TraceConfig_TriggerConfig_Trigger(TraceConfig_TriggerConfig_Trigger&&) noexcept;
+ TraceConfig_TriggerConfig_Trigger& operator=(TraceConfig_TriggerConfig_Trigger&&);
+ TraceConfig_TriggerConfig_Trigger(const TraceConfig_TriggerConfig_Trigger&);
+ TraceConfig_TriggerConfig_Trigger& operator=(const TraceConfig_TriggerConfig_Trigger&);
+ bool operator==(const TraceConfig_TriggerConfig_Trigger&) const;
+ bool operator!=(const TraceConfig_TriggerConfig_Trigger& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_name() const { return _has_field_[1]; }
+ const std::string& name() const { return name_; }
+ void set_name(const std::string& value) { name_ = value; _has_field_.set(1); }
+
+ bool has_producer_name_regex() const { return _has_field_[2]; }
+ const std::string& producer_name_regex() const { return producer_name_regex_; }
+ void set_producer_name_regex(const std::string& value) { producer_name_regex_ = value; _has_field_.set(2); }
+
+ bool has_stop_delay_ms() const { return _has_field_[3]; }
+ uint32_t stop_delay_ms() const { return stop_delay_ms_; }
+ void set_stop_delay_ms(uint32_t value) { stop_delay_ms_ = value; _has_field_.set(3); }
+
+ bool has_max_per_24_h() const { return _has_field_[4]; }
+ uint32_t max_per_24_h() const { return max_per_24_h_; }
+ void set_max_per_24_h(uint32_t value) { max_per_24_h_ = value; _has_field_.set(4); }
+
+ bool has_skip_probability() const { return _has_field_[5]; }
+ double skip_probability() const { return skip_probability_; }
+ void set_skip_probability(double value) { skip_probability_ = value; _has_field_.set(5); }
+
+ private:
+ std::string name_{};
+ std::string producer_name_regex_{};
+ uint32_t stop_delay_ms_{};
+ uint32_t max_per_24_h_{};
+ double skip_probability_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<6> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT TraceConfig_GuardrailOverrides : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kMaxUploadPerDayBytesFieldNumber = 1,
+ kMaxTracingBufferSizeKbFieldNumber = 2,
+ };
+
+ TraceConfig_GuardrailOverrides();
+ ~TraceConfig_GuardrailOverrides() override;
+ TraceConfig_GuardrailOverrides(TraceConfig_GuardrailOverrides&&) noexcept;
+ TraceConfig_GuardrailOverrides& operator=(TraceConfig_GuardrailOverrides&&);
+ TraceConfig_GuardrailOverrides(const TraceConfig_GuardrailOverrides&);
+ TraceConfig_GuardrailOverrides& operator=(const TraceConfig_GuardrailOverrides&);
+ bool operator==(const TraceConfig_GuardrailOverrides&) const;
+ bool operator!=(const TraceConfig_GuardrailOverrides& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_max_upload_per_day_bytes() const { return _has_field_[1]; }
+ uint64_t max_upload_per_day_bytes() const { return max_upload_per_day_bytes_; }
+ void set_max_upload_per_day_bytes(uint64_t value) { max_upload_per_day_bytes_ = value; _has_field_.set(1); }
+
+ bool has_max_tracing_buffer_size_kb() const { return _has_field_[2]; }
+ uint32_t max_tracing_buffer_size_kb() const { return max_tracing_buffer_size_kb_; }
+ void set_max_tracing_buffer_size_kb(uint32_t value) { max_tracing_buffer_size_kb_ = value; _has_field_.set(2); }
+
+ private:
+ uint64_t max_upload_per_day_bytes_{};
+ uint32_t max_tracing_buffer_size_kb_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<3> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT TraceConfig_StatsdMetadata : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kTriggeringAlertIdFieldNumber = 1,
+ kTriggeringConfigUidFieldNumber = 2,
+ kTriggeringConfigIdFieldNumber = 3,
+ kTriggeringSubscriptionIdFieldNumber = 4,
+ };
+
+ TraceConfig_StatsdMetadata();
+ ~TraceConfig_StatsdMetadata() override;
+ TraceConfig_StatsdMetadata(TraceConfig_StatsdMetadata&&) noexcept;
+ TraceConfig_StatsdMetadata& operator=(TraceConfig_StatsdMetadata&&);
+ TraceConfig_StatsdMetadata(const TraceConfig_StatsdMetadata&);
+ TraceConfig_StatsdMetadata& operator=(const TraceConfig_StatsdMetadata&);
+ bool operator==(const TraceConfig_StatsdMetadata&) const;
+ bool operator!=(const TraceConfig_StatsdMetadata& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_triggering_alert_id() const { return _has_field_[1]; }
+ int64_t triggering_alert_id() const { return triggering_alert_id_; }
+ void set_triggering_alert_id(int64_t value) { triggering_alert_id_ = value; _has_field_.set(1); }
+
+ bool has_triggering_config_uid() const { return _has_field_[2]; }
+ int32_t triggering_config_uid() const { return triggering_config_uid_; }
+ void set_triggering_config_uid(int32_t value) { triggering_config_uid_ = value; _has_field_.set(2); }
+
+ bool has_triggering_config_id() const { return _has_field_[3]; }
+ int64_t triggering_config_id() const { return triggering_config_id_; }
+ void set_triggering_config_id(int64_t value) { triggering_config_id_ = value; _has_field_.set(3); }
+
+ bool has_triggering_subscription_id() const { return _has_field_[4]; }
+ int64_t triggering_subscription_id() const { return triggering_subscription_id_; }
+ void set_triggering_subscription_id(int64_t value) { triggering_subscription_id_ = value; _has_field_.set(4); }
+
+ private:
+ int64_t triggering_alert_id_{};
+ int32_t triggering_config_uid_{};
+ int64_t triggering_config_id_{};
+ int64_t triggering_subscription_id_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<5> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT TraceConfig_ProducerConfig : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kProducerNameFieldNumber = 1,
+ kShmSizeKbFieldNumber = 2,
+ kPageSizeKbFieldNumber = 3,
+ };
+
+ TraceConfig_ProducerConfig();
+ ~TraceConfig_ProducerConfig() override;
+ TraceConfig_ProducerConfig(TraceConfig_ProducerConfig&&) noexcept;
+ TraceConfig_ProducerConfig& operator=(TraceConfig_ProducerConfig&&);
+ TraceConfig_ProducerConfig(const TraceConfig_ProducerConfig&);
+ TraceConfig_ProducerConfig& operator=(const TraceConfig_ProducerConfig&);
+ bool operator==(const TraceConfig_ProducerConfig&) const;
+ bool operator!=(const TraceConfig_ProducerConfig& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_producer_name() const { return _has_field_[1]; }
+ const std::string& producer_name() const { return producer_name_; }
+ void set_producer_name(const std::string& value) { producer_name_ = value; _has_field_.set(1); }
+
+ bool has_shm_size_kb() const { return _has_field_[2]; }
+ uint32_t shm_size_kb() const { return shm_size_kb_; }
+ void set_shm_size_kb(uint32_t value) { shm_size_kb_ = value; _has_field_.set(2); }
+
+ bool has_page_size_kb() const { return _has_field_[3]; }
+ uint32_t page_size_kb() const { return page_size_kb_; }
+ void set_page_size_kb(uint32_t value) { page_size_kb_ = value; _has_field_.set(3); }
+
+ private:
+ std::string producer_name_{};
+ uint32_t shm_size_kb_{};
+ uint32_t page_size_kb_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<4> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT TraceConfig_BuiltinDataSource : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kDisableClockSnapshottingFieldNumber = 1,
+ kDisableTraceConfigFieldNumber = 2,
+ kDisableSystemInfoFieldNumber = 3,
+ kDisableServiceEventsFieldNumber = 4,
+ kPrimaryTraceClockFieldNumber = 5,
+ kSnapshotIntervalMsFieldNumber = 6,
+ kPreferSuspendClockForSnapshotFieldNumber = 7,
+ kDisableChunkUsageHistogramsFieldNumber = 8,
+ };
+
+ TraceConfig_BuiltinDataSource();
+ ~TraceConfig_BuiltinDataSource() override;
+ TraceConfig_BuiltinDataSource(TraceConfig_BuiltinDataSource&&) noexcept;
+ TraceConfig_BuiltinDataSource& operator=(TraceConfig_BuiltinDataSource&&);
+ TraceConfig_BuiltinDataSource(const TraceConfig_BuiltinDataSource&);
+ TraceConfig_BuiltinDataSource& operator=(const TraceConfig_BuiltinDataSource&);
+ bool operator==(const TraceConfig_BuiltinDataSource&) const;
+ bool operator!=(const TraceConfig_BuiltinDataSource& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_disable_clock_snapshotting() const { return _has_field_[1]; }
+ bool disable_clock_snapshotting() const { return disable_clock_snapshotting_; }
+ void set_disable_clock_snapshotting(bool value) { disable_clock_snapshotting_ = value; _has_field_.set(1); }
+
+ bool has_disable_trace_config() const { return _has_field_[2]; }
+ bool disable_trace_config() const { return disable_trace_config_; }
+ void set_disable_trace_config(bool value) { disable_trace_config_ = value; _has_field_.set(2); }
+
+ bool has_disable_system_info() const { return _has_field_[3]; }
+ bool disable_system_info() const { return disable_system_info_; }
+ void set_disable_system_info(bool value) { disable_system_info_ = value; _has_field_.set(3); }
+
+ bool has_disable_service_events() const { return _has_field_[4]; }
+ bool disable_service_events() const { return disable_service_events_; }
+ void set_disable_service_events(bool value) { disable_service_events_ = value; _has_field_.set(4); }
+
+ bool has_primary_trace_clock() const { return _has_field_[5]; }
+ BuiltinClock primary_trace_clock() const { return primary_trace_clock_; }
+ void set_primary_trace_clock(BuiltinClock value) { primary_trace_clock_ = value; _has_field_.set(5); }
+
+ bool has_snapshot_interval_ms() const { return _has_field_[6]; }
+ uint32_t snapshot_interval_ms() const { return snapshot_interval_ms_; }
+ void set_snapshot_interval_ms(uint32_t value) { snapshot_interval_ms_ = value; _has_field_.set(6); }
+
+ bool has_prefer_suspend_clock_for_snapshot() const { return _has_field_[7]; }
+ bool prefer_suspend_clock_for_snapshot() const { return prefer_suspend_clock_for_snapshot_; }
+ void set_prefer_suspend_clock_for_snapshot(bool value) { prefer_suspend_clock_for_snapshot_ = value; _has_field_.set(7); }
+
+ bool has_disable_chunk_usage_histograms() const { return _has_field_[8]; }
+ bool disable_chunk_usage_histograms() const { return disable_chunk_usage_histograms_; }
+ void set_disable_chunk_usage_histograms(bool value) { disable_chunk_usage_histograms_ = value; _has_field_.set(8); }
+
+ private:
+ bool disable_clock_snapshotting_{};
+ bool disable_trace_config_{};
+ bool disable_system_info_{};
+ bool disable_service_events_{};
+ BuiltinClock primary_trace_clock_{};
+ uint32_t snapshot_interval_ms_{};
+ bool prefer_suspend_clock_for_snapshot_{};
+ bool disable_chunk_usage_histograms_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<9> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT TraceConfig_DataSource : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kConfigFieldNumber = 1,
+ kProducerNameFilterFieldNumber = 2,
+ kProducerNameRegexFilterFieldNumber = 3,
+ };
+
+ TraceConfig_DataSource();
+ ~TraceConfig_DataSource() override;
+ TraceConfig_DataSource(TraceConfig_DataSource&&) noexcept;
+ TraceConfig_DataSource& operator=(TraceConfig_DataSource&&);
+ TraceConfig_DataSource(const TraceConfig_DataSource&);
+ TraceConfig_DataSource& operator=(const TraceConfig_DataSource&);
+ bool operator==(const TraceConfig_DataSource&) const;
+ bool operator!=(const TraceConfig_DataSource& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_config() const { return _has_field_[1]; }
+ const DataSourceConfig& config() const { return *config_; }
+ DataSourceConfig* mutable_config() { _has_field_.set(1); return config_.get(); }
+
+ const std::vector<std::string>& producer_name_filter() const { return producer_name_filter_; }
+ std::vector<std::string>* mutable_producer_name_filter() { return &producer_name_filter_; }
+ int producer_name_filter_size() const { return static_cast<int>(producer_name_filter_.size()); }
+ void clear_producer_name_filter() { producer_name_filter_.clear(); }
+ void add_producer_name_filter(std::string value) { producer_name_filter_.emplace_back(value); }
+ std::string* add_producer_name_filter() { producer_name_filter_.emplace_back(); return &producer_name_filter_.back(); }
+
+ const std::vector<std::string>& producer_name_regex_filter() const { return producer_name_regex_filter_; }
+ std::vector<std::string>* mutable_producer_name_regex_filter() { return &producer_name_regex_filter_; }
+ int producer_name_regex_filter_size() const { return static_cast<int>(producer_name_regex_filter_.size()); }
+ void clear_producer_name_regex_filter() { producer_name_regex_filter_.clear(); }
+ void add_producer_name_regex_filter(std::string value) { producer_name_regex_filter_.emplace_back(value); }
+ std::string* add_producer_name_regex_filter() { producer_name_regex_filter_.emplace_back(); return &producer_name_regex_filter_.back(); }
+
+ private:
+ ::protozero::CopyablePtr<DataSourceConfig> config_;
+ std::vector<std::string> producer_name_filter_;
+ std::vector<std::string> producer_name_regex_filter_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<4> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT TraceConfig_BufferConfig : public ::protozero::CppMessageObj {
+ public:
+ using FillPolicy = TraceConfig_BufferConfig_FillPolicy;
+ static constexpr auto UNSPECIFIED = TraceConfig_BufferConfig_FillPolicy_UNSPECIFIED;
+ static constexpr auto RING_BUFFER = TraceConfig_BufferConfig_FillPolicy_RING_BUFFER;
+ static constexpr auto DISCARD = TraceConfig_BufferConfig_FillPolicy_DISCARD;
+ static constexpr auto FillPolicy_MIN = TraceConfig_BufferConfig_FillPolicy_UNSPECIFIED;
+ static constexpr auto FillPolicy_MAX = TraceConfig_BufferConfig_FillPolicy_DISCARD;
+ enum FieldNumbers {
+ kSizeKbFieldNumber = 1,
+ kFillPolicyFieldNumber = 4,
+ kTransferOnCloneFieldNumber = 5,
+ kClearBeforeCloneFieldNumber = 6,
+ };
+
+ TraceConfig_BufferConfig();
+ ~TraceConfig_BufferConfig() override;
+ TraceConfig_BufferConfig(TraceConfig_BufferConfig&&) noexcept;
+ TraceConfig_BufferConfig& operator=(TraceConfig_BufferConfig&&);
+ TraceConfig_BufferConfig(const TraceConfig_BufferConfig&);
+ TraceConfig_BufferConfig& operator=(const TraceConfig_BufferConfig&);
+ bool operator==(const TraceConfig_BufferConfig&) const;
+ bool operator!=(const TraceConfig_BufferConfig& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_size_kb() const { return _has_field_[1]; }
+ uint32_t size_kb() const { return size_kb_; }
+ void set_size_kb(uint32_t value) { size_kb_ = value; _has_field_.set(1); }
+
+ bool has_fill_policy() const { return _has_field_[4]; }
+ TraceConfig_BufferConfig_FillPolicy fill_policy() const { return fill_policy_; }
+ void set_fill_policy(TraceConfig_BufferConfig_FillPolicy value) { fill_policy_ = value; _has_field_.set(4); }
+
+ bool has_transfer_on_clone() const { return _has_field_[5]; }
+ bool transfer_on_clone() const { return transfer_on_clone_; }
+ void set_transfer_on_clone(bool value) { transfer_on_clone_ = value; _has_field_.set(5); }
+
+ bool has_clear_before_clone() const { return _has_field_[6]; }
+ bool clear_before_clone() const { return clear_before_clone_; }
+ void set_clear_before_clone(bool value) { clear_before_clone_ = value; _has_field_.set(6); }
+
+ private:
+ uint32_t size_kb_{};
+ TraceConfig_BufferConfig_FillPolicy fill_policy_{};
+ bool transfer_on_clone_{};
+ bool clear_before_clone_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<7> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_TRACE_CONFIG_PROTO_CPP_H_
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_TRACING_CORE_TRACE_CONFIG_H_
+#define INCLUDE_PERFETTO_TRACING_CORE_TRACE_CONFIG_H_
+
+// Creates the aliases in the ::perfetto namespace, doing things like:
+// using ::perfetto::Foo = ::perfetto::protos::gen::Foo.
+// See comments in forward_decls.h for the historical reasons of this
+// indirection layer.
+// gen_amalgamated expanded: #include "perfetto/tracing/core/forward_decls.h"
+
+// gen_amalgamated expanded: #include "protos/perfetto/config/trace_config.gen.h"
+
+namespace perfetto {
+
+inline TraceConfig::TriggerConfig::TriggerMode GetTriggerMode(
+ const TraceConfig& cfg) {
+ auto mode = cfg.trigger_config().trigger_mode();
+ if (cfg.trigger_config().use_clone_snapshot_if_available())
+ mode = TraceConfig::TriggerConfig::CLONE_SNAPSHOT;
+ return mode;
+}
+
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_TRACING_CORE_TRACE_CONFIG_H_
+// gen_amalgamated begin header: include/perfetto/tracing/data_source.h
+// gen_amalgamated begin header: include/perfetto/tracing/core/flush_flags.h
+/*
+ * Copyright (C) 2023 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_TRACING_CORE_FLUSH_FLAGS_H_
+#define INCLUDE_PERFETTO_TRACING_CORE_FLUSH_FLAGS_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+namespace perfetto {
+
+// This class is a wrapper around the uint64_t flags that are sent across the
+// tracing protocol whenenver a flush occurs. It helps determining the reason
+// and initiator of the flush.
+// NOTE: the values here are part of the tracing protocol ABI. Do not renumber.
+class FlushFlags {
+ public:
+ enum class Initiator : uint64_t {
+ // DO NOT RENUMBER, ABI.
+ kUnknown = 0,
+ kTraced = 1,
+ kPerfettoCmd = 2,
+ kConsumerSdk = 3,
+ kMax,
+ };
+
+ enum class Reason : uint64_t {
+ // DO NOT RENUMBER, ABI.
+ kUnknown = 0,
+ kPeriodic = 1,
+ kTraceStop = 2,
+ kTraceClone = 3,
+ kExplicit = 4,
+ kMax,
+ };
+
+ enum class CloneTarget : uint64_t {
+ // DO NOT RENUMBER, ABI.
+ kUnknown = 0,
+ kBugreport = 1,
+ kMax,
+ };
+
+ explicit FlushFlags(uint64_t flags = 0) : flags_(flags) {}
+ FlushFlags(Initiator i, Reason r, CloneTarget c = CloneTarget::kUnknown)
+ : flags_((static_cast<uint64_t>(i) << kInitiatorShift) |
+ (static_cast<uint64_t>(r) << kReasonShift) |
+ (static_cast<uint64_t>(c) << kCloneTargetShift)) {}
+
+ bool operator==(const FlushFlags& o) const { return flags_ == o.flags_; }
+ bool operator!=(const FlushFlags& o) const { return !(*this == o); }
+
+ Initiator initiator() const {
+ // Due to version mismatch we might see a value from the future that we
+ // didn't know yet. If that happens, short ciruit to kUnknown.
+ static_assert(
+ uint64_t(Initiator::kMax) - 1 <= (kInitiatorMask >> kInitiatorShift),
+ "enum out of range");
+ const uint64_t value = (flags_ & kInitiatorMask) >> kInitiatorShift;
+ return value < uint64_t(Initiator::kMax) ? Initiator(value)
+ : Initiator::kUnknown;
+ }
+
+ Reason reason() const {
+ static_assert(uint64_t(Reason::kMax) - 1 <= (kReasonMask >> kReasonShift),
+ "enum out of range");
+ const uint64_t value = (flags_ & kReasonMask) >> kReasonShift;
+ return value < uint64_t(Reason::kMax) ? Reason(value) : Reason::kUnknown;
+ }
+
+ CloneTarget clone_target() const {
+ static_assert(uint64_t(CloneTarget::kMax) - 1 <=
+ (kCloneTargetMask >> kCloneTargetShift),
+ "enum out of range");
+ const uint64_t value = (flags_ & kCloneTargetMask) >> kCloneTargetShift;
+ return value < uint64_t(CloneTarget::kMax) ? CloneTarget(value)
+ : CloneTarget::kUnknown;
+ }
+
+ uint64_t flags() const { return flags_; }
+
+ private:
+ // DO NOT CHANGE, ABI.
+ static constexpr uint64_t kReasonMask = 0xF;
+ static constexpr uint64_t kReasonShift = 0;
+ static constexpr uint64_t kInitiatorMask = 0xF0;
+ static constexpr uint64_t kInitiatorShift = 4;
+ static constexpr uint64_t kCloneTargetMask = 0xF00;
+ static constexpr uint64_t kCloneTargetShift = 8;
+
+ uint64_t flags_ = 0;
+};
+
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_TRACING_CORE_FLUSH_FLAGS_H_
+// gen_amalgamated begin header: include/perfetto/tracing/internal/data_source_type.h
+// gen_amalgamated begin header: include/perfetto/tracing/internal/tracing_muxer.h
+// gen_amalgamated begin header: include/perfetto/tracing/internal/tracing_tls.h
+// gen_amalgamated begin header: include/perfetto/tracing/platform.h
+// gen_amalgamated begin header: include/perfetto/base/proc_utils.h
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_BASE_PROC_UTILS_H_
+#define INCLUDE_PERFETTO_BASE_PROC_UTILS_H_
+
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+extern "C" {
+// Prototype extracted from the Windows SDK to avoid including windows.h.
+__declspec(dllimport) unsigned long __stdcall GetCurrentProcessId();
+}
+#elif PERFETTO_BUILDFLAG(PERFETTO_OS_FUCHSIA)
+#include <zircon/process.h>
+#include <zircon/types.h>
+#else
+#include <unistd.h>
+#endif
+
+namespace perfetto {
+namespace base {
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_FUCHSIA)
+using PlatformProcessId = zx_handle_t;
+inline PlatformProcessId GetProcessId() {
+ return zx_process_self();
+}
+#elif PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+using PlatformProcessId = uint64_t;
+inline PlatformProcessId GetProcessId() {
+ return static_cast<uint64_t>(GetCurrentProcessId());
+}
+#else
+using PlatformProcessId = pid_t;
+inline PlatformProcessId GetProcessId() {
+ return getpid();
+}
+#endif
+
+} // namespace base
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_BASE_PROC_UTILS_H_
+// gen_amalgamated begin header: include/perfetto/base/thread_utils.h
+/*
+ * Copyright (C) 2018 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_BASE_THREAD_UTILS_H_
+#define INCLUDE_PERFETTO_BASE_THREAD_UTILS_H_
+
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+extern "C" {
+// Prototype extracted from the Windows SDK to avoid including windows.h.
+__declspec(dllimport) unsigned long __stdcall GetCurrentThreadId();
+}
+#elif PERFETTO_BUILDFLAG(PERFETTO_OS_FUCHSIA)
+#include <zircon/types.h>
+#elif PERFETTO_BUILDFLAG(PERFETTO_OS_LINUX) || \
+ PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID)
+#include <sys/syscall.h>
+#include <sys/types.h>
+#include <unistd.h>
+#else
+#include <pthread.h>
+#endif
+
+namespace perfetto {
+namespace base {
+
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_ANDROID)
+using PlatformThreadId = pid_t;
+inline PlatformThreadId GetThreadId() {
+ return gettid();
+}
+#elif PERFETTO_BUILDFLAG(PERFETTO_OS_LINUX)
+using PlatformThreadId = pid_t;
+inline PlatformThreadId GetThreadId() {
+ return static_cast<pid_t>(syscall(__NR_gettid));
+}
+#elif PERFETTO_BUILDFLAG(PERFETTO_OS_FUCHSIA)
+using PlatformThreadId = zx_koid_t;
+// Not inlined because the result is cached internally.
+PERFETTO_EXPORT_COMPONENT PlatformThreadId GetThreadId();
+#elif PERFETTO_BUILDFLAG(PERFETTO_OS_APPLE)
+using PlatformThreadId = uint64_t;
+inline PlatformThreadId GetThreadId() {
+ uint64_t tid;
+ pthread_threadid_np(nullptr, &tid);
+ return tid;
+}
+#elif PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+using PlatformThreadId = uint64_t;
+inline PlatformThreadId GetThreadId() {
+ return static_cast<uint64_t>(GetCurrentThreadId());
+}
+#elif PERFETTO_BUILDFLAG(PERFETTO_OS_NACL)
+using PlatformThreadId = pid_t;
+inline PlatformThreadId GetThreadId() {
+ return reinterpret_cast<int32_t>(pthread_self());
+}
+#else // Default to pthreads in case no OS is set.
+using PlatformThreadId = pthread_t;
+inline PlatformThreadId GetThreadId() {
+ return pthread_self();
+}
+#endif
+
+} // namespace base
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_BASE_THREAD_UTILS_H_
+// gen_amalgamated begin header: include/perfetto/tracing/tracing.h
+// gen_amalgamated begin header: include/perfetto/tracing/backend_type.h
+/*
+ * Copyright (C) 2021 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_TRACING_BACKEND_TYPE_H_
+#define INCLUDE_PERFETTO_TRACING_BACKEND_TYPE_H_
+
+#include <stdint.h>
+
+namespace perfetto {
+
+enum BackendType : uint32_t {
+ kUnspecifiedBackend = 0,
+
+ // Connects to a previously-initialized perfetto tracing backend for
+ // in-process. If the in-process backend has not been previously initialized
+ // it will do so and create the tracing service on a dedicated thread.
+ kInProcessBackend = 1 << 0,
+
+ // Connects to the system tracing service (e.g. on Linux/Android/Mac uses a
+ // named UNIX socket).
+ kSystemBackend = 1 << 1,
+
+ // Used to provide a custom IPC transport to connect to the service.
+ // TracingInitArgs::custom_backend must be non-null and point to an
+ // indefinitely lived instance.
+ kCustomBackend = 1 << 2,
+};
+
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_TRACING_BACKEND_TYPE_H_
+// gen_amalgamated begin header: include/perfetto/tracing/internal/in_process_tracing_backend.h
+// gen_amalgamated begin header: include/perfetto/tracing/tracing_backend.h
+// gen_amalgamated begin header: include/perfetto/base/platform_handle.h
+/*
+ * Copyright (C) 2020 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_BASE_PLATFORM_HANDLE_H_
+#define INCLUDE_PERFETTO_BASE_PLATFORM_HANDLE_H_
+
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+
+namespace perfetto {
+namespace base {
+
+// PlatformHandle should be used only for types that are HANDLE(s) in Windows.
+// It should NOT be used to blanket-replace "int fd" in the codebase.
+// Windows has two types of "handles", which, in UNIX-land, both map to int:
+// 1. File handles returned by the posix-compatibility API like _open().
+// These are just int(s) and should stay such, because all the posix-like API
+// in Windows.h take an int, not a HANDLE.
+// 2. Handles returned by old-school WINAPI like CreateFile, CreateEvent etc.
+// These are proper HANDLE(s). PlatformHandle should be used here.
+//
+// On Windows, sockets have their own type (SOCKET) which is neither a HANDLE
+// nor an int. However Windows SOCKET(s) can have an event HANDLE attached
+// to them (which in Perfetto is a PlatformHandle), and that can be used in
+// WaitForMultipleObjects, hence in base::TaskRunner.AddFileDescriptorWatch().
+// On POSIX OSes, a SocketHandle is really just an int (a file descriptor).
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+// Windows.h typedefs HANDLE to void*, and SOCKET to uintptr_t. We use their
+// types to avoid leaking Windows.h through our headers.
+using PlatformHandle = void*;
+using SocketHandle = uintptr_t;
+
+// On Windows both nullptr and 0xffff... (INVALID_HANDLE_VALUE) are invalid.
+struct PlatformHandleChecker {
+ static inline bool IsValid(PlatformHandle h) {
+ return h && h != reinterpret_cast<PlatformHandle>(-1);
+ }
+};
+#else
+using PlatformHandle = int;
+using SocketHandle = int;
+struct PlatformHandleChecker {
+ static inline bool IsValid(PlatformHandle h) { return h >= 0; }
+};
+#endif
+
+// The definition of this lives in base/file_utils.cc (to avoid creating an
+// extra build edge for a one liner). This is really an alias for close() (UNIX)
+// CloseHandle() (Windows). THe indirection layer is just to avoid leaking
+// system headers like Windows.h through perfetto headers.
+// Thre return value is always UNIX-style: 0 on success, -1 on failure.
+int ClosePlatformHandle(PlatformHandle);
+
+} // namespace base
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_BASE_PLATFORM_HANDLE_H_
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_TRACING_TRACING_BACKEND_H_
+#define INCLUDE_PERFETTO_TRACING_TRACING_BACKEND_H_
+
+#include <functional>
+#include <memory>
+#include <string>
+
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+// gen_amalgamated expanded: #include "perfetto/base/platform_handle.h"
+
+// The embedder can (but doesn't have to) extend the TracingBackend class and
+// pass as an argument to Tracing::Initialize(kCustomBackend) to override the
+// way to reach the service. This is for peculiar cases where the embedder has
+// a multi-process architecture and wants to override the IPC transport. The
+// real use-case for this at the time of writing is chromium (+ Mojo IPC).
+// Extending this class requires depending on the full set of perfetto headers
+// (not just /public/). Contact the team before doing so as the non-public
+// headers are not guaranteed to be API stable.
+
+namespace perfetto {
+
+namespace base {
+class TaskRunner;
+}
+
+// These classes are declared in headers outside of /public/.
+class Consumer;
+class ConsumerEndpoint;
+class Producer;
+class ProducerEndpoint;
+
+using CreateSocketCallback = std::function<void(base::SocketHandle)>;
+using CreateSocketAsync = void (*)(CreateSocketCallback);
+
+// Responsible for connecting to the producer.
+class PERFETTO_EXPORT_COMPONENT TracingProducerBackend {
+ public:
+ virtual ~TracingProducerBackend();
+
+ // Connects a Producer instance and obtains a ProducerEndpoint, which is
+ // essentially a 1:1 channel between one Producer and the Service.
+ // To disconnect just destroy the returned endpoint object. It is safe to
+ // destroy the Producer once Producer::OnDisconnect() has been invoked.
+ struct ConnectProducerArgs {
+ std::string producer_name;
+
+ // The Producer object that will receive calls like Start/StopDataSource().
+ // The caller has to guarantee that this object is valid as long as the
+ // returned ProducerEndpoint is alive.
+ Producer* producer = nullptr;
+
+ // The task runner where the Producer methods will be called onto.
+ // The caller has to guarantee that the passed TaskRunner is valid as long
+ // as the returned ProducerEndpoint is alive.
+ ::perfetto::base::TaskRunner* task_runner = nullptr;
+
+ // These get propagated from TracingInitArgs and are optionally provided by
+ // the client when calling Tracing::Initialize().
+ uint32_t shmem_size_hint_bytes = 0;
+ uint32_t shmem_page_size_hint_bytes = 0;
+
+ // If true, the backend should allocate a shared memory buffer and provide
+ // it to the service when connecting.
+ // It's used in startup tracing.
+ bool use_producer_provided_smb = false;
+
+ // If set, the producer will call this function to create and connect to a
+ // socket. See the corresponding field in TracingInitArgs for more info.
+ CreateSocketAsync create_socket_async = nullptr;
+ };
+
+ virtual std::unique_ptr<ProducerEndpoint> ConnectProducer(
+ const ConnectProducerArgs&) = 0;
+};
+
+// Responsible for connecting to the consumer.
+class PERFETTO_EXPORT_COMPONENT TracingConsumerBackend {
+ public:
+ virtual ~TracingConsumerBackend();
+
+ // As above, for the Consumer-side.
+ struct ConnectConsumerArgs {
+ // The Consumer object that will receive calls like OnTracingDisabled(),
+ // OnTraceData().
+ Consumer* consumer{};
+
+ // The task runner where the Consumer methods will be called onto.
+ ::perfetto::base::TaskRunner* task_runner{};
+ };
+ virtual std::unique_ptr<ConsumerEndpoint> ConnectConsumer(
+ const ConnectConsumerArgs&) = 0;
+};
+
+class PERFETTO_EXPORT_COMPONENT TracingBackend : public TracingProducerBackend,
+ public TracingConsumerBackend {
+ public:
+ ~TracingBackend() override;
+};
+
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_TRACING_TRACING_BACKEND_H_
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_TRACING_INTERNAL_IN_PROCESS_TRACING_BACKEND_H_
+#define INCLUDE_PERFETTO_TRACING_INTERNAL_IN_PROCESS_TRACING_BACKEND_H_
+
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/tracing_backend.h"
+
+namespace perfetto {
+
+namespace base {
+class TaskRunner;
+}
+
+class Producer;
+class TracingService;
+
+namespace internal {
+
+// A built-in implementation of TracingBackend that creates a tracing service
+// instance in-process. Instantiated when the embedder calls
+// Tracing::Initialize(kInProcessBackend). Solves most in-app-only tracing
+// use-cases.
+class PERFETTO_EXPORT_COMPONENT InProcessTracingBackend
+ : public TracingBackend {
+ public:
+ static TracingBackend* GetInstance();
+
+ ~InProcessTracingBackend() override;
+
+ // TracingBackend implementation.
+ std::unique_ptr<ProducerEndpoint> ConnectProducer(
+ const ConnectProducerArgs&) override;
+ std::unique_ptr<ConsumerEndpoint> ConnectConsumer(
+ const ConnectConsumerArgs&) override;
+
+ private:
+ InProcessTracingBackend();
+ TracingService* GetOrCreateService(base::TaskRunner*);
+
+ std::unique_ptr<TracingService> service_;
+};
+
+} // namespace internal
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_TRACING_INTERNAL_IN_PROCESS_TRACING_BACKEND_H_
+// gen_amalgamated begin header: include/perfetto/tracing/internal/system_tracing_backend.h
+// gen_amalgamated begin header: include/perfetto/tracing/default_socket.h
+/*
+ * Copyright (C) 2018 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_TRACING_DEFAULT_SOCKET_H_
+#define INCLUDE_PERFETTO_TRACING_DEFAULT_SOCKET_H_
+
+#include <string>
+#include <vector>
+
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+
+PERFETTO_EXPORT_COMPONENT const char* GetConsumerSocket();
+// This function is used for tokenize the |producer_socket_names| string into
+// multiple producer socket names.
+PERFETTO_EXPORT_COMPONENT std::vector<std::string> TokenizeProducerSockets(
+ const char* producer_socket_names);
+PERFETTO_EXPORT_COMPONENT const char* GetProducerSocket();
+
+// Optionally returns the relay socket name (nullable). The relay socket is used
+// for forwarding the IPC messages between the local producers and the remote
+// tracing service.
+PERFETTO_EXPORT_COMPONENT const char* GetRelaySocket();
+
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_TRACING_DEFAULT_SOCKET_H_
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_TRACING_INTERNAL_SYSTEM_TRACING_BACKEND_H_
+#define INCLUDE_PERFETTO_TRACING_INTERNAL_SYSTEM_TRACING_BACKEND_H_
+
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/default_socket.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/tracing_backend.h"
+
+namespace perfetto {
+
+namespace base {
+class TaskRunner;
+}
+
+class Producer;
+
+// Built-in implementations of TracingProducerBackend and TracingConsumerBackend
+// that connect to the system tracing daemon (traced) via a UNIX socket using
+// the perfetto built-in proto-based IPC mechanism. Instantiated when the
+// embedder calls Tracing::Initialize(kSystemBackend). They allow to get
+// app-traces fused together with system traces, useful to correlate on the
+// timeline system events (e.g. scheduling slices from the kernel) with in-app
+// events.
+namespace internal {
+
+// Producer backend
+class PERFETTO_EXPORT_COMPONENT SystemProducerTracingBackend
+ : public TracingProducerBackend {
+ public:
+ static TracingProducerBackend* GetInstance();
+
+ std::unique_ptr<ProducerEndpoint> ConnectProducer(
+ const ConnectProducerArgs&) override;
+
+ private:
+ SystemProducerTracingBackend();
+};
+
+// Consumer backend
+class PERFETTO_EXPORT_COMPONENT SystemConsumerTracingBackend
+ : public TracingConsumerBackend {
+ public:
+ static TracingConsumerBackend* GetInstance();
+
+ std::unique_ptr<ConsumerEndpoint> ConnectConsumer(
+ const ConnectConsumerArgs&) override;
+
+ private:
+ SystemConsumerTracingBackend();
+};
+
+} // namespace internal
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_TRACING_INTERNAL_SYSTEM_TRACING_BACKEND_H_
+// gen_amalgamated begin header: include/perfetto/tracing/tracing_policy.h
+/*
+ * Copyright (C) 2021 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_TRACING_TRACING_POLICY_H_
+#define INCLUDE_PERFETTO_TRACING_TRACING_POLICY_H_
+
+#include <functional>
+
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/backend_type.h"
+
+namespace perfetto {
+
+// Applies policy decisions, such as allowing or denying connections, when
+// certain tracing SDK events occur. All methods are called on an internal
+// perfetto thread.
+class PERFETTO_EXPORT_COMPONENT TracingPolicy {
+ public:
+ virtual ~TracingPolicy();
+
+ // Called when the current process attempts to connect a new consumer to the
+ // backend of |backend_type| to check if the connection should be allowed. Its
+ // implementation should execute |result_callback| with the result of the
+ // check (synchronuosly or asynchronously on any thread). If the result is
+ // false, the consumer connection is aborted. Chrome uses this to restrict
+ // creating (system) tracing sessions based on an enterprise policy.
+ struct ShouldAllowConsumerSessionArgs {
+ BackendType backend_type;
+ std::function<void(bool /*allow*/)> result_callback;
+ };
+ virtual void ShouldAllowConsumerSession(
+ const ShouldAllowConsumerSessionArgs&) = 0;
+};
+
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_TRACING_TRACING_POLICY_H_
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_TRACING_TRACING_H_
+#define INCLUDE_PERFETTO_TRACING_TRACING_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+#include <functional>
+#include <memory>
+#include <string>
+#include <tuple>
+#include <utility>
+#include <vector>
+
+// gen_amalgamated expanded: #include "perfetto/base/compiler.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/backend_type.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/core/forward_decls.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/internal/in_process_tracing_backend.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/internal/system_tracing_backend.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/tracing_policy.h"
+
+namespace perfetto {
+
+namespace internal {
+class TracingMuxerImpl;
+}
+
+class TracingBackend;
+class Platform;
+class StartupTracingSession; // Declared below.
+class TracingSession; // Declared below.
+
+struct TracingError {
+ enum ErrorCode : uint32_t {
+ // Peer disconnection.
+ kDisconnected = 1,
+
+ // The Start() method failed. This is typically because errors in the passed
+ // TraceConfig. More details are available in |message|.
+ kTracingFailed = 2,
+ };
+
+ ErrorCode code;
+ std::string message;
+
+ TracingError(ErrorCode cd, std::string msg)
+ : code(cd), message(std::move(msg)) {
+ PERFETTO_CHECK(!message.empty());
+ }
+};
+
+using LogLev = ::perfetto::base::LogLev;
+using LogMessageCallbackArgs = ::perfetto::base::LogMessageCallbackArgs;
+using LogMessageCallback = ::perfetto::base::LogMessageCallback;
+
+struct TracingInitArgs {
+ uint32_t backends = 0; // One or more BackendTypes.
+ TracingBackend* custom_backend = nullptr; // [Optional].
+
+ // [Optional] Platform implementation. It allows the embedder to take control
+ // of platform-specific bits like thread creation and TLS slot handling. If
+ // not set it will use Platform::GetDefaultPlatform().
+ Platform* platform = nullptr;
+
+ // [Optional] Tune the size of the shared memory buffer between the current
+ // process and the service backend(s). This is a trade-off between memory
+ // footprint and the ability to sustain bursts of trace writes (see comments
+ // in shared_memory_abi.h).
+ // If set, the value must be a multiple of 4KB. The value can be ignored if
+ // larger than kMaxShmSize (32MB) or not a multiple of 4KB.
+ uint32_t shmem_size_hint_kb = 0;
+
+ // [Optional] Specifies the preferred size of each page in the shmem buffer.
+ // This is a trade-off between IPC overhead and fragmentation/efficiency of
+ // the shmem buffer in presence of multiple writer threads.
+ // Must be one of [4, 8, 16, 32].
+ uint32_t shmem_page_size_hint_kb = 0;
+
+ // [Optional] The length of the period during which shared-memory-buffer
+ // chunks that have been filled with data are accumulated (batched) on the
+ // producer side, before the service is notified of them over an out-of-band
+ // IPC call. If, while this period lasts, the shared memory buffer gets too
+ // full, the IPC call will be sent immediately. The value of this parameter is
+ // a trade-off between IPC traffic overhead and the ability to sustain bursts
+ // of trace writes. The higher the value, the more chunks will be batched and
+ // the less buffer space will be available to hide the latency of the service,
+ // and vice versa. For more details, see the SetBatchCommitsDuration method in
+ // shared_memory_arbiter.h.
+ //
+ // Note: With the default value of 0ms, batching still happens but with a zero
+ // delay, i.e. commits will be sent to the service at the next opportunity.
+ uint32_t shmem_batch_commits_duration_ms = 0;
+
+ // [Optional] Enables direct producer-side patching of chunks that have not
+ // yet been committed to the service. This flag will only have an effect
+ // if the service supports direct patching, otherwise it will be ignored.
+ bool shmem_direct_patching_enabled = false;
+
+ // [Optional] If set, the policy object is notified when certain SDK events
+ // occur and may apply policy decisions, such as denying connections. The
+ // embedder is responsible for ensuring the object remains alive for the
+ // lifetime of the process.
+ TracingPolicy* tracing_policy = nullptr;
+
+ // [Optional] If set, log messages generated by perfetto are passed to this
+ // callback instead of being logged directly.
+ LogMessageCallback log_message_callback = nullptr;
+
+ // When this flag is set to false, it overrides
+ // `DataSource::kSupportsMultipleInstances` for all the data sources.
+ // As a result when a tracing session is already running and if we attempt to
+ // start another session, it will fail to start the data source which were
+ // already active.
+ bool supports_multiple_data_source_instances = true;
+
+ // If this flag is set the default clock for taking timestamps is overridden
+ // with CLOCK_MONOTONIC (for use in Chrome).
+ bool use_monotonic_clock = false;
+
+ // If this flag is set the default clock for taking timestamps is overridden
+ // with CLOCK_MONOTONIC_RAW on platforms that support it.
+ bool use_monotonic_raw_clock = false;
+
+ // This flag can be set to false in order to avoid enabling the system
+ // consumer in Tracing::Initialize(), so that the linker can remove the unused
+ // consumer IPC implementation to reduce binary size. This setting only has an
+ // effect if kSystemBackend is specified in |backends|. When this option is
+ // false, Tracing::NewTrace() will instatiate the system backend only if
+ // explicitly specified as kSystemBackend: kUndefinedBackend will consider
+ // only already instantiated backends.
+ bool enable_system_consumer = true;
+
+ // When true, sets disallow_merging_with_system_tracks in TrackDescriptor,
+ // making sure that Trace Processor doesn't merge track event and system
+ // event tracks for the same thread.
+ bool disallow_merging_with_system_tracks = false;
+
+ // If set, this function will be called by the producer client to create a
+ // socket for connection to the system service. The function takes one
+ // argument: a callback that takes an open file descriptor. The function
+ // should create a socket with the name defined by
+ // perfetto::GetProducerSocket(), connect to it, and return the corresponding
+ // descriptor via the callback.
+ // This is intended for the use-case where a process being traced is run
+ // inside a sandbox and can't create sockets directly.
+ // Not yet supported for consumer connections currently.
+ CreateSocketAsync create_socket_async = nullptr;
+
+ protected:
+ friend class Tracing;
+ friend class internal::TracingMuxerImpl;
+
+ using BackendFactoryFunction = TracingBackend* (*)();
+ using ProducerBackendFactoryFunction = TracingProducerBackend* (*)();
+ using ConsumerBackendFactoryFunction = TracingConsumerBackend* (*)();
+
+ BackendFactoryFunction in_process_backend_factory_ = nullptr;
+ ProducerBackendFactoryFunction system_producer_backend_factory_ = nullptr;
+ ConsumerBackendFactoryFunction system_consumer_backend_factory_ = nullptr;
+ bool dcheck_is_on_ = PERFETTO_DCHECK_IS_ON();
+};
+
+// The entry-point for using perfetto.
+class PERFETTO_EXPORT_COMPONENT Tracing {
+ public:
+ // Initializes Perfetto with the given backends in the calling process and/or
+ // with a user-provided backend. It's possible to call this function more than
+ // once to initialize different backends. If a backend was already initialized
+ // the call will have no effect on it. All the members of `args` will be
+ // ignored in subsequent calls, except those require to initialize new
+ // backends (`backends`, `enable_system_consumer`, `shmem_size_hint_kb`,
+ // `shmem_page_size_hint_kb` and `shmem_batch_commits_duration_ms`).
+ static inline void Initialize(const TracingInitArgs& args)
+ PERFETTO_ALWAYS_INLINE {
+ TracingInitArgs args_copy(args);
+ // This code is inlined to allow dead-code elimination for unused backends.
+ // This saves ~200 KB when not using the in-process backend (b/148198993).
+ // The logic behind it is the following:
+ // Nothing other than the code below references the two GetInstance()
+ // methods. From a linker-graph viewpoint, those GetInstance() pull in many
+ // other pieces of the codebase (e.g. InProcessTracingBackend pulls the
+ // whole TracingServiceImpl, SystemTracingBackend pulls the whole //ipc
+ // layer). Due to the inline, the compiler can see through the code and
+ // realize that some branches are always not taken. When that happens, no
+ // reference to the backends' GetInstance() is emitted and that allows the
+ // linker GC to get rid of the entire set of dependencies.
+ if (args.backends & kInProcessBackend) {
+ args_copy.in_process_backend_factory_ =
+ &internal::InProcessTracingBackend::GetInstance;
+ }
+ if (args.backends & kSystemBackend) {
+ args_copy.system_producer_backend_factory_ =
+ &internal::SystemProducerTracingBackend::GetInstance;
+ if (args.enable_system_consumer) {
+ args_copy.system_consumer_backend_factory_ =
+ &internal::SystemConsumerTracingBackend::GetInstance;
+ }
+ }
+ InitializeInternal(args_copy);
+ }
+
+ // Checks if tracing has been initialized by calling |Initialize|.
+ static bool IsInitialized();
+
+ // Start a new tracing session using the given tracing backend. Use
+ // |kUnspecifiedBackend| to select an available backend automatically.
+ static PERFETTO_ALWAYS_INLINE inline std::unique_ptr<TracingSession> NewTrace(
+ BackendType backend = kUnspecifiedBackend);
+
+ // Shut down Perfetto, releasing any allocated OS resources (threads, files,
+ // sockets, etc.). Note that Perfetto cannot be reinitialized again in the
+ // same process[1]. Instead, this function is meant for shutting down all
+ // Perfetto-related code so that it can be safely unloaded, e.g., with
+ // dlclose().
+ //
+ // It is only safe to call this function when all threads recording trace
+ // events have been terminated or otherwise guaranteed to not make any further
+ // calls into Perfetto.
+ //
+ // [1] Unless static data is also cleared through other means.
+ static void Shutdown();
+
+ // Uninitialize Perfetto. Only exposed for testing scenarios where it can be
+ // guaranteed that no tracing sessions or other operations are happening when
+ // this call is made.
+ static void ResetForTesting();
+
+ // Start a new startup tracing session in the current process. Startup tracing
+ // can be used in anticipation of a session that will be started by the
+ // specified backend in the near future. The data source configs in the
+ // supplied TraceConfig have to (mostly) match those in the config that will
+ // later be provided by the backend.
+ // Learn more about config matching at ComputeStartupConfigHash.
+ //
+ // Note that startup tracing requires that either:
+ // (a) the service backend already has an SMB set up, or
+ // (b) the service backend to support producer-provided SMBs if the backend
+ // is not yet connected or no SMB has been set up yet
+ // (See `use_producer_provided_smb`). If necessary, the
+ // client library will briefly disconnect and reconnect the backend to
+ // supply an SMB to the backend. If the service does not accept the SMB,
+ // startup tracing will be aborted, but the service may still start the
+ // corresponding tracing session later.
+ //
+ // Startup tracing is NOT supported with the in-process backend. For this
+ // backend, you can just start a regular tracing session and block until it is
+ // set up instead.
+ //
+ // The client library will start the data sources instances specified in the
+ // config with a placeholder target buffer. Once the backend starts a matching
+ // tracing session, the session will resume as normal. If no matching session
+ // is started after a timeout (or the backend doesn't accept the
+ // producer-provided SMB), the startup tracing session will be aborted
+ // and the data source instances stopped.
+ struct OnStartupTracingSetupCallbackArgs {
+ int num_data_sources_started;
+ };
+ struct SetupStartupTracingOpts {
+ BackendType backend = kUnspecifiedBackend;
+ uint32_t timeout_ms = 10000;
+
+ // If set, this callback is executed (on an internal Perfetto thread) when
+ // startup tracing was set up.
+ std::function<void(OnStartupTracingSetupCallbackArgs)> on_setup;
+
+ // If set, this callback is executed (on an internal Perfetto thread) if any
+ // data sources were aborted, e.g. due to exceeding the timeout or as a
+ // response to Abort().
+ std::function<void()> on_aborted;
+
+ // If set, this callback is executed (on an internal Perfetto thread) after
+ // all data sources were adopted by a tracing session initiated by the
+ // backend.
+ std::function<void()> on_adopted;
+ };
+
+ static std::unique_ptr<StartupTracingSession> SetupStartupTracing(
+ const TraceConfig& config,
+ SetupStartupTracingOpts);
+
+ // Blocking version of above method, so callers can ensure that tracing is
+ // active before proceeding with app startup. Calls into
+ // DataSource::Trace() or trace macros right after this method are written
+ // into the startup session.
+ static std::unique_ptr<StartupTracingSession> SetupStartupTracingBlocking(
+ const TraceConfig& config,
+ SetupStartupTracingOpts);
+
+ // Informs the tracing services to activate any of these triggers if any
+ // tracing session was waiting for them.
+ //
+ // Sends the trigger signal to all the initialized backends that are currently
+ // connected and that connect in the next `ttl_ms` milliseconds (but
+ // returns immediately anyway).
+ static void ActivateTriggers(const std::vector<std::string>& triggers,
+ uint32_t ttl_ms);
+
+ private:
+ static void InitializeInternal(const TracingInitArgs&);
+ static std::unique_ptr<TracingSession> NewTraceInternal(
+ BackendType,
+ TracingConsumerBackend* (*system_backend_factory)());
+
+ Tracing() = delete;
+};
+
+class PERFETTO_EXPORT_COMPONENT TracingSession {
+ public:
+ virtual ~TracingSession();
+
+ // Configure the session passing the trace config.
+ // If a writable file handle is given through |fd|, the trace will
+ // automatically written to that file. Otherwise you should call ReadTrace()
+ // to retrieve the trace data. This call does not take ownership of |fd|.
+ // TODO(primiano): add an error callback.
+ virtual void Setup(const TraceConfig&, int fd = -1) = 0;
+
+ // Enable tracing asynchronously. Use SetOnStartCallback() to get a
+ // notification when the session has fully started.
+ virtual void Start() = 0;
+
+ // Enable tracing and block until tracing has started. Note that if data
+ // sources are registered after this call was initiated, the call may return
+ // before the additional data sources have started. Also, if other producers
+ // (e.g., with system-wide tracing) have registered data sources without start
+ // notification support, this call may return before those data sources have
+ // started.
+ virtual void StartBlocking() = 0;
+
+ // This callback will be invoked when all data sources have acknowledged that
+ // tracing has started. This callback will be invoked on an internal perfetto
+ // thread.
+ virtual void SetOnStartCallback(std::function<void()>) = 0;
+
+ // This callback can be used to get a notification when some error occurred
+ // (e.g., peer disconnection). Error type will be passed as an argument. This
+ // callback will be invoked on an internal perfetto thread.
+ virtual void SetOnErrorCallback(std::function<void(TracingError)>) = 0;
+
+ // Issues a flush request, asking all data sources to ack the request, within
+ // the specified timeout. A "flush" is a fence to ensure visibility of data in
+ // the async tracing pipeline. It guarantees that all data written before the
+ // Flush() call will be visible in the trace buffer and hence by the
+ // ReadTrace() / ReadTraceBlocking() methods.
+ // Args:
+ // callback: will be invoked on an internal perfetto thread when all data
+ // sources have acked, or the timeout is reached. The bool argument
+ // will be true if all data sources acked within the timeout, false if
+ // the timeout was hit or some other error occurred (e.g. the tracing
+ // session wasn't started or ended).
+ // timeout_ms: how much time the service will wait for data source acks. If
+ // 0, the global timeout specified in the TraceConfig (flush_timeout_ms)
+ // will be used. If flush_timeout_ms is also unspecified, a default value
+ // of 5s will be used.
+ // Known issues:
+ // Because flushing is still based on service-side scraping, the very last
+ // trace packet for each data source thread will not be visible. Fixing
+ // this requires either propagating the Flush() to the data sources or
+ // changing the order of atomic operations in the service (b/162206162).
+ // Until then, a workaround is to make sure to call
+ // DataSource::Trace([](TraceContext ctx) { ctx.Flush(); }) just before
+ // stopping, on each thread where DataSource::Trace has been previously
+ // called.
+ virtual void Flush(std::function<void(bool)>, uint32_t timeout_ms = 0) = 0;
+
+ // Blocking version of Flush(). Waits until all data sources have acked and
+ // returns the success/failure status.
+ bool FlushBlocking(uint32_t timeout_ms = 0);
+
+ // Disable tracing asynchronously.
+ // Use SetOnStopCallback() to get a notification when the tracing session is
+ // fully stopped and all data sources have acked.
+ virtual void Stop() = 0;
+
+ // Disable tracing and block until tracing has stopped.
+ virtual void StopBlocking() = 0;
+
+ // This callback will be invoked when tracing is disabled.
+ // This can happen either when explicitly calling TracingSession.Stop() or
+ // when the trace reaches its |duration_ms| time limit.
+ // This callback will be invoked on an internal perfetto thread.
+ virtual void SetOnStopCallback(std::function<void()>) = 0;
+
+ // Changes the TraceConfig for an active tracing session. The session must
+ // have been configured and started before. Note that the tracing service
+ // only supports changing a subset of TraceConfig fields,
+ // see ConsumerEndpoint::ChangeTraceConfig().
+ virtual void ChangeTraceConfig(const TraceConfig&) = 0;
+
+ // Struct passed as argument to the callback passed to ReadTrace().
+ // [data, size] is guaranteed to contain 1 or more full trace packets, which
+ // can be decoded using trace.proto. No partial or truncated packets are
+ // exposed. If the trace is empty this returns a zero-sized nullptr with
+ // |has_more| == true to signal EOF.
+ // This callback will be invoked on an internal perfetto thread.
+ struct ReadTraceCallbackArgs {
+ const char* data = nullptr;
+ size_t size = 0;
+
+ // When false, this will be the last invocation of the callback for this
+ // read cycle.
+ bool has_more = false;
+ };
+
+ // Reads back the trace data (raw protobuf-encoded bytes) asynchronously.
+ // Can be called at any point during the trace, typically but not necessarily,
+ // after stopping. If this is called before the end of the trace (i.e. before
+ // Stop() / StopBlocking()), in almost all cases you need to call
+ // Flush() / FlushBlocking() before Read(). This is to guarantee that tracing
+ // data in-flight in the data sources is committed into the tracing buffers
+ // before reading them.
+ // Reading the trace data is a destructive operation w.r.t. contents of the
+ // trace buffer and is not idempotent.
+ // A single ReadTrace() call can yield >1 callback invocations, until
+ // |has_more| is false.
+ using ReadTraceCallback = std::function<void(ReadTraceCallbackArgs)>;
+ virtual void ReadTrace(ReadTraceCallback) = 0;
+
+ // Synchronous version of ReadTrace(). It blocks the calling thread until all
+ // the trace contents are read. This is slow and inefficient (involves more
+ // copies) and is mainly intended for testing.
+ std::vector<char> ReadTraceBlocking();
+
+ // Struct passed as an argument to the callback for GetTraceStats(). Contains
+ // statistics about the tracing session.
+ struct GetTraceStatsCallbackArgs {
+ // Whether or not querying statistics succeeded.
+ bool success = false;
+ // Serialized TraceStats protobuf message. To decode:
+ //
+ // perfetto::protos::gen::TraceStats trace_stats;
+ // trace_stats.ParseFromArray(args.trace_stats_data.data(),
+ // args.trace_stats_data.size());
+ //
+ std::vector<uint8_t> trace_stats_data;
+ };
+
+ // Requests a snapshot of statistical data for this tracing session. Only one
+ // query may be active at a time. This callback will be invoked on an internal
+ // perfetto thread.
+ using GetTraceStatsCallback = std::function<void(GetTraceStatsCallbackArgs)>;
+ virtual void GetTraceStats(GetTraceStatsCallback) = 0;
+
+ // Synchronous version of GetTraceStats() for convenience.
+ GetTraceStatsCallbackArgs GetTraceStatsBlocking();
+
+ // Struct passed as an argument to the callback for QueryServiceState().
+ // Contains information about registered data sources.
+ struct QueryServiceStateCallbackArgs {
+ // Whether or not getting the service state succeeded.
+ bool success = false;
+ // Serialized TracingServiceState protobuf message. To decode:
+ //
+ // perfetto::protos::gen::TracingServiceState state;
+ // state.ParseFromArray(args.service_state_data.data(),
+ // args.service_state_data.size());
+ //
+ std::vector<uint8_t> service_state_data;
+ };
+
+ // Requests a snapshot of the tracing service state for this session. Only one
+ // request per session may be active at a time. This callback will be invoked
+ // on an internal perfetto thread.
+ using QueryServiceStateCallback =
+ std::function<void(QueryServiceStateCallbackArgs)>;
+ virtual void QueryServiceState(QueryServiceStateCallback) = 0;
+
+ // Synchronous version of QueryServiceState() for convenience.
+ QueryServiceStateCallbackArgs QueryServiceStateBlocking();
+};
+
+class PERFETTO_EXPORT_COMPONENT StartupTracingSession {
+ public:
+ // Note that destroying the StartupTracingSession object will not abort the
+ // startup session automatically. Call Abort() explicitly to do so.
+ virtual ~StartupTracingSession();
+
+ // Abort any active but still unbound data source instances that belong to
+ // this startup tracing session. Does not affect data source instances that
+ // were already bound to a service-controlled session.
+ virtual void Abort() = 0;
+
+ // Same as above, but blocks the current thread until aborted.
+ // Note some of the internal (non observable from public APIs) cleanup might
+ // be done even after this method returns.
+ virtual void AbortBlocking() = 0;
+};
+
+PERFETTO_ALWAYS_INLINE inline std::unique_ptr<TracingSession>
+Tracing::NewTrace(BackendType backend) {
+ // This code is inlined to allow dead-code elimination for unused consumer
+ // implementation. The logic behind it is the following:
+ // Nothing other than the code below references the GetInstance() method
+ // below. From a linker-graph viewpoint, those GetInstance() pull in many
+ // other pieces of the codebase (ConsumerOnlySystemTracingBackend pulls
+ // ConsumerIPCClient). Due to the inline, the compiler can see through the
+ // code and realize that some branches are always not taken. When that
+ // happens, no reference to the backends' GetInstance() is emitted and that
+ // allows the linker GC to get rid of the entire set of dependencies.
+ TracingConsumerBackend* (*system_backend_factory)();
+ system_backend_factory = nullptr;
+ // In case PERFETTO_IPC is disabled, a fake system backend is used, which
+ // always panics. NewTrace(kSystemBackend) should fail if PERFETTO_IPC is
+ // diabled, not panic.
+#if PERFETTO_BUILDFLAG(PERFETTO_IPC)
+ if (backend & kSystemBackend) {
+ system_backend_factory =
+ &internal::SystemConsumerTracingBackend::GetInstance;
+ }
+#endif
+ return NewTraceInternal(backend, system_backend_factory);
+}
+
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_TRACING_TRACING_H_
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_TRACING_PLATFORM_H_
+#define INCLUDE_PERFETTO_TRACING_PLATFORM_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+#include <functional>
+#include <memory>
+#include <string>
+
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/base/proc_utils.h"
+// gen_amalgamated expanded: #include "perfetto/base/thread_utils.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/tracing.h"
+
+namespace perfetto {
+
+namespace base {
+class TaskRunner;
+} // namespace base
+
+// This abstract class is used to abstract dependencies on platform-specific
+// primitives that cannot be implemented by the perfetto codebase and must be
+// provided or overridden by the embedder.
+// This is, for instance, for cases where we want to use some particular
+// base:: class in Chrome and provide instead POSIX fallbacks for other
+// embedders.
+
+// Base class for thread-local objects. This is to get a basic object vtable and
+// delegate destruction to the embedder. See Platform::CreateThreadLocalObject.
+class PERFETTO_EXPORT_COMPONENT PlatformThreadLocalObject {
+ public:
+ // Implemented by perfetto internal code. The embedder must call this when
+ // implementing GetOrCreateThreadLocalObject() to create an instance for the
+ // first time on each thread.
+ static std::unique_ptr<PlatformThreadLocalObject> CreateInstance();
+ virtual ~PlatformThreadLocalObject();
+};
+
+class PERFETTO_EXPORT_COMPONENT Platform {
+ public:
+ // Embedders can use this unless they have custom needs (e.g. Chrome wanting
+ // to use its own base class for TLS).
+ static Platform* GetDefaultPlatform();
+
+ // Embedders can call this to set process ID in those cases where getpid()
+ // returns incorrect values (e.g. for sandboxed processes in Chromium).
+ // Should only be called once, before tracing has been initialized.
+ static void SetCurrentProcessId(base::PlatformProcessId process_id) {
+ PERFETTO_CHECK(!process_id_);
+ PERFETTO_DCHECK(!Tracing::IsInitialized());
+ process_id_ = process_id;
+ }
+
+ // Returns process ID previously set by SetCurrentProcessId, or the process
+ // ID provided by the OS if no custom ID was provided.
+ static base::PlatformProcessId GetCurrentProcessId() {
+ if (process_id_)
+ return process_id_;
+ return base::GetProcessId();
+ }
+
+ virtual ~Platform();
+
+ // Creates a thread-local object. The embedder must:
+ // - Create an instance per-thread calling ThreadLocalObject::CreateInstance.
+ // - Own the lifetime of the returned object as long as the thread is alive.
+ // - Destroy it when the thread exits.
+ // Perfetto requires only one thread-local object overall (obviously, one
+ // instance per-thread) from the embedder.
+ using ThreadLocalObject = ::perfetto::PlatformThreadLocalObject;
+ virtual ThreadLocalObject* GetOrCreateThreadLocalObject() = 0;
+
+ // Creates a sequenced task runner. The easiest implementation is to create
+ // a new thread (e.g. use base::ThreadTaskRunner) but this can also be
+ // implemented in some more clever way (e.g. using chromiums's scheduler).
+ struct CreateTaskRunnerArgs {
+ // Optional. Sets the name to the newly created task runner. In the default
+ // PosixPlatform implementation this causes a pthread_setname_np(). This is
+ // only for ease of debugging, it does not affect the tracing behavior.
+ std::string name_for_debugging;
+ };
+ virtual std::unique_ptr<base::TaskRunner> CreateTaskRunner(
+ const CreateTaskRunnerArgs&) = 0;
+
+ // Used to derive the producer name. Mostly relevant when using the
+ // kSystemBackend mode. It can be an arbitrary string when using the
+ // in-process mode.
+ virtual std::string GetCurrentProcessName() = 0;
+
+ // Tear down any persistent platform state (e.g., TLS variables). The platform
+ // interface must not be used after calling this function.
+ virtual void Shutdown();
+
+ // Returns the thread ID provided by the OS by default. Chromium uses
+ // different thread IDs on some platforms, so it needs the ability to
+ // override this method.
+ virtual base::PlatformThreadId GetCurrentThreadId();
+
+ private:
+ static base::PlatformProcessId process_id_;
+};
+
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_TRACING_PLATFORM_H_
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_TRACING_INTERNAL_TRACING_TLS_H_
+#define INCLUDE_PERFETTO_TRACING_INTERNAL_TRACING_TLS_H_
+
+#include <array>
+#include <memory>
+
+// gen_amalgamated expanded: #include "perfetto/tracing/internal/basic_types.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/internal/data_source_internal.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/platform.h"
+
+namespace perfetto {
+
+class TraceWriterBase;
+
+namespace internal {
+
+// Organization of the thread-local storage
+// ----------------------------------------
+// First of all, remember the cardinality of the problem: at any point in time
+// there are M data sources registered (i.e. number of subclasses of DataSource)
+// and up to N concurrent instances for each data source, so up to M * N total
+// data source instances around.
+// Each data source instance can be accessed by T threads (no upper bound).
+// We can safely put hard limits both to M and N (i.e. say that we support at
+// most 32 data source types per process and up to 8 concurrent instances).
+//
+// We want to make it so from the Platform viewpoint, we use only one global
+// TLS object, so T instances in total, one per thread, regardless of M and N.
+// This allows to deal with at-thread-exit destruction only in one place, rather
+// than N, M or M * N.
+//
+// Visually:
+// [ Thread 1 ] [ Thread 2 ] [ Thread T ]
+// +---------------+ +---------------+ +---------------+
+// Data source Foo | | | | | |
+// Instance 1 | TLS | | TLS | | TLS |
+// Instance 2 | Object | | Object | | Object |
+// Instance 3 | | | | | |
+// | | | | | |
+// Data source Bar | | | | | |
+// Instance 1 | | | | | |
+// Instance 2 | | | | | |
+// +---------------+ +---------------+ +---------------+
+//
+// Each TLS Object is organized as an array of M DataSourceThreadLocalState.
+// Each DSTLS itself is an array of up to N per-instance objects.
+// The only per-instance object for now is the TraceWriter.
+// So for each data source, for each instance, for each thread we keep one
+// TraceWriter.
+// The lookup is O(1): Given the TLS object, the TraceWriter is just tls[M][N].
+class TracingTLS : public Platform::ThreadLocalObject {
+ public:
+ ~TracingTLS() override;
+
+ // This is checked against TraceMuxerImpl's global generation counter to
+ // handle destruction of TraceWriter(s) that belong to data sources that
+ // have been stopped. When the two numbers diverge, a scan of all the
+ // thread-local TraceWriter(s) is issued.
+ uint32_t generation = 0;
+
+ // This flag is true while this thread is inside a trace point for any data
+ // source or in other delicate parts of the tracing machinery during which we
+ // should not try to trace. Used to prevent unexpected re-entrancy.
+ // This flag is also load-bearing when handling re-entrancy during thread-exit
+ // handlers. See comment in TracingTLS::~TracingTLS().
+ bool is_in_trace_point = false;
+
+ // Used inside a trace point (only one trace point per thread can be active at
+ // any time) to cache the instances bitmap.
+ uint32_t cached_instances = 0;
+
+ // By default all data source instances have independent thread-local state
+ // (see above).
+ std::array<DataSourceThreadLocalState, kMaxDataSources> data_sources_tls{};
+
+ // Track event data sources, however, share the same thread-local state in
+ // order to be able to share trace writers and interning state across all
+ // track event categories.
+ DataSourceThreadLocalState track_event_tls{};
+};
+
+struct ScopedReentrancyAnnotator {
+ ScopedReentrancyAnnotator(TracingTLS& root_tls) : root_tls_(root_tls) {
+ PERFETTO_DCHECK(!root_tls_.is_in_trace_point);
+ root_tls_.is_in_trace_point = true;
+ }
+ ~ScopedReentrancyAnnotator() { root_tls_.is_in_trace_point = false; }
+
+ private:
+ TracingTLS& root_tls_;
+};
+
+} // namespace internal
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_TRACING_INTERNAL_TRACING_TLS_H_
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_TRACING_INTERNAL_TRACING_MUXER_H_
+#define INCLUDE_PERFETTO_TRACING_INTERNAL_TRACING_MUXER_H_
+
+#include <atomic>
+#include <memory>
+
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/core/forward_decls.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/interceptor.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/internal/basic_types.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/internal/tracing_tls.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/platform.h"
+namespace perfetto {
+
+class DataSourceBase;
+class TraceWriterBase;
+struct TracingInitArgs;
+class TracingSession;
+
+namespace internal {
+
+struct DataSourceParams {
+ bool supports_multiple_instances;
+ bool requires_callbacks_under_lock;
+};
+
+struct DataSourceStaticState;
+
+// This class acts as a bridge between the public API methods and the
+// TracingBackend(s). It exposes a simplified view of the world to the API
+// methods, so that they don't have to care about the multiplicity of backends.
+// It handles all the bookkeeping to map data source instances and trace writers
+// to the various backends.
+// See tracing_muxer_impl.h for the full picture. This class contains only the
+// fewer fields and methods that need to be exposed to public/ headers. Fields
+// and methods that are required to implement them should go into
+// src/tracing/internal/tracing_muxer_impl.h instead: that one can pull in
+// perfetto headers outside of public, this one cannot.
+class PERFETTO_EXPORT_COMPONENT TracingMuxer {
+ public:
+ static TracingMuxer* Get() { return instance_; }
+
+ virtual ~TracingMuxer();
+
+ TracingTLS* GetOrCreateTracingTLS() {
+ return static_cast<TracingTLS*>(platform_->GetOrCreateThreadLocalObject());
+ }
+
+ // This method can fail and return false if trying to register more than
+ // kMaxDataSources types.
+ using DataSourceFactory = std::function<std::unique_ptr<DataSourceBase>()>;
+ virtual bool RegisterDataSource(const DataSourceDescriptor&,
+ DataSourceFactory,
+ DataSourceParams,
+ bool no_flush,
+ DataSourceStaticState*) = 0;
+
+ // Updates the DataSourceDescriptor for the DataSource.
+ virtual void UpdateDataSourceDescriptor(const DataSourceDescriptor&,
+ const DataSourceStaticState*) = 0;
+
+ // It identifies the right backend and forwards the call to it.
+ // The returned TraceWriter must be used within the same sequence (for most
+ // projects this means "same thread"). Alternatively the client needs to take
+ // care of using synchronization primitives to prevent concurrent accesses.
+ virtual std::unique_ptr<TraceWriterBase> CreateTraceWriter(
+ DataSourceStaticState*,
+ uint32_t data_source_instance_index,
+ DataSourceState*,
+ BufferExhaustedPolicy buffer_exhausted_policy) = 0;
+
+ virtual void DestroyStoppedTraceWritersForCurrentThread() = 0;
+
+ uint32_t generation(std::memory_order ord) { return generation_.load(ord); }
+
+ using InterceptorFactory = std::function<std::unique_ptr<InterceptorBase>()>;
+ virtual void RegisterInterceptor(const InterceptorDescriptor&,
+ InterceptorFactory,
+ InterceptorBase::TLSFactory,
+ InterceptorBase::TracePacketCallback) = 0;
+
+ // Informs the tracing services to activate any of these triggers if any
+ // tracing session was waiting for them.
+ //
+ // Sends the trigger signal to all the initialized backends that are currently
+ // connected and that connect in the next `ttl_ms` milliseconds (but returns
+ // immediately anyway).
+ virtual void ActivateTriggers(const std::vector<std::string>&,
+ uint32_t ttl_ms) = 0;
+
+ base::PlatformThreadId GetCurrentThreadId() {
+ return platform_->GetCurrentThreadId();
+ }
+
+ protected:
+ explicit TracingMuxer(Platform* platform) : platform_(platform) {}
+
+ static TracingMuxer* instance_;
+ Platform* const platform_ = nullptr;
+
+ // Incremented every time a data source is destroyed. See tracing_tls.h.
+ std::atomic<uint32_t> generation_{};
+};
+
+} // namespace internal
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_TRACING_INTERNAL_TRACING_MUXER_H_
+#ifndef INCLUDE_PERFETTO_TRACING_INTERNAL_DATA_SOURCE_TYPE_H_
+#define INCLUDE_PERFETTO_TRACING_INTERNAL_DATA_SOURCE_TYPE_H_
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/core/forward_decls.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/internal/data_source_internal.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/internal/tracing_muxer.h"
+
+namespace perfetto {
+namespace internal {
+
+// Represents a data source type (not an instance).
+//
+// All the static state of a DataSource<T> lives here (including
+// DataSourceStaticState).
+//
+// The C shared library API wrapper cannot use DataSource<T>, because it needs
+// to create new data source types at runtime, so it uses this directly.
+//
+// The main reason why this intermediate class exist is to decouple the
+// DataSourceStaticState from the specific DataSource<T>. The C API cannot
+// dynamically create template instances and it needs a way to decouple those at
+// runtime.
+class PERFETTO_EXPORT_COMPONENT DataSourceType {
+ public:
+ // Function pointer type used to create custom per instance thread local
+ // state.
+ using CreateCustomTlsFn =
+ DataSourceInstanceThreadLocalState::ObjectWithDeleter (*)(
+ DataSourceInstanceThreadLocalState* tls_inst,
+ uint32_t instance_index,
+ void* user_arg);
+ // Function pointer type used to create custom per instance thread local
+ // incremental state (which might be cleared periodically by the tracing
+ // service).
+ using CreateIncrementalStateFn =
+ DataSourceInstanceThreadLocalState::ObjectWithDeleter (*)(
+ DataSourceInstanceThreadLocalState* tls_inst,
+ uint32_t instance_index,
+ void* user_arg);
+
+ // Registers the data source type with the central tracing muxer.
+ // * `descriptor` is the data source protobuf descriptor.
+ // * `factory` is a std::function used to create instances of the data source
+ // type.
+ // * `buffer_exhausted_policy` specifies what to do when the shared memory
+ // buffer runs out of chunks.
+ // * `create_custom_tls_fn` and `create_incremental_state_fn` are function
+ // pointers called to create custom state. They will receive `user_arg` as
+ // an extra param.
+ bool Register(const DataSourceDescriptor& descriptor,
+ TracingMuxer::DataSourceFactory factory,
+ internal::DataSourceParams params,
+ BufferExhaustedPolicy buffer_exhausted_policy,
+ bool no_flush,
+ CreateCustomTlsFn create_custom_tls_fn,
+ CreateIncrementalStateFn create_incremental_state_fn,
+ void* user_arg) {
+ buffer_exhausted_policy_ = buffer_exhausted_policy;
+ create_custom_tls_fn_ = create_custom_tls_fn;
+ create_incremental_state_fn_ = create_incremental_state_fn;
+ user_arg_ = user_arg;
+ auto* tracing_impl = TracingMuxer::Get();
+ return tracing_impl->RegisterDataSource(descriptor, factory, params,
+ no_flush, &state_);
+ }
+
+ // Updates the data source type descriptor.
+ void UpdateDescriptor(const DataSourceDescriptor& descriptor) {
+ auto* tracing_impl = TracingMuxer::Get();
+ tracing_impl->UpdateDataSourceDescriptor(descriptor, &state_);
+ }
+
+ // The beginning of a trace point.
+ //
+ // `tls_state` must point to a thread local variable that caches a pointer to
+ // an internal per data source type thread local state.
+ //
+ // `instances` must point to a copy of the current active instances for the
+ // data source type.
+ //
+ // `DataSourceTraits` can be used to customize the thread local storage used
+ // for the data source type.
+ //
+ // `TracePointTraits` and `trace_point_data` are customization point for
+ // getting the active instances bitmap.
+ //
+ // If this returns false, the trace point must be skipped.
+ template <typename DataSourceTraits, typename TracePointTraits>
+ bool TracePrologue(
+ DataSourceThreadLocalState** tls_state,
+ uint32_t* instances,
+ typename TracePointTraits::TracePointData trace_point_data) {
+ // See tracing_muxer.h for the structure of the TLS.
+ if (PERFETTO_UNLIKELY(!*tls_state)) {
+ *tls_state = GetOrCreateDataSourceTLS<DataSourceTraits>();
+ // If the TLS hasn't been obtained yet, it's possible that this thread
+ // hasn't observed the initialization of global state like the muxer yet.
+ // To ensure that the thread "sees" the effects of such initialization,
+ // we have to reload |instances| with an acquire fence, ensuring that any
+ // initialization performed before instances was updated is visible
+ // in this thread.
+ *instances &= TracePointTraits::GetActiveInstances(trace_point_data)
+ ->load(std::memory_order_acquire);
+ if (!*instances)
+ return false;
+ }
+ auto* tracing_impl = TracingMuxer::Get();
+
+ // Avoid re-entering the trace point recursively.
+ if (PERFETTO_UNLIKELY((*tls_state)->root_tls->is_in_trace_point))
+ return false;
+
+ (*tls_state)->root_tls->is_in_trace_point = true;
+
+ // TracingTLS::generation is a global monotonic counter that is incremented
+ // every time a tracing session is stopped. We use that as a signal to force
+ // a slow-path garbage collection of all the trace writers for the current
+ // thread and to destroy the ones that belong to tracing sessions that have
+ // ended. This is to avoid having too many TraceWriter instances alive, each
+ // holding onto one chunk of the shared memory buffer.
+ // Rationale why memory_order_relaxed should be fine:
+ // - The TraceWriter object that we use is always constructed and destructed
+ // on the current thread. There is no risk of accessing a half-initialized
+ // TraceWriter (which would be really bad).
+ // - In the worst case, in the case of a race on the generation check, we
+ // might end up using a TraceWriter for the same data source that belongs
+ // to a stopped session. This is not really wrong, as we don't give any
+ // guarantee on the global atomicity of the stop. In the worst case the
+ // service will reject the data commit if this arrives too late.
+
+ if (PERFETTO_UNLIKELY(
+ (*tls_state)->root_tls->generation !=
+ tracing_impl->generation(std::memory_order_relaxed))) {
+ // Will update root_tls->generation.
+ tracing_impl->DestroyStoppedTraceWritersForCurrentThread();
+ }
+
+ return true;
+ }
+
+ // Must be called at the ending of a trace point that was not skipped.
+ void TraceEpilogue(DataSourceThreadLocalState* tls_state) {
+ tls_state->root_tls->is_in_trace_point = false;
+ }
+
+ struct InstancesIterator {
+ // A bitmap of the currenly active instances.
+ uint32_t cached_instances;
+ // The current instance index.
+ uint32_t i;
+ // The current instance. If this is `nullptr`, the iteration is over.
+ DataSourceInstanceThreadLocalState* instance;
+ };
+
+ // Returns an iterator to the active instances of this data source type.
+ //
+ // `cached_instances` is a copy of the bitmap of the active instances for this
+ // data source type (usually just a copy of ValidInstances(), but can be
+ // customized).
+ //
+ // `tls_state` is the thread local pointer obtained from TracePrologue.
+ //
+ // `TracePointTraits` and `trace_point_data` are customization point for
+ // getting the active instances bitmap.
+ template <typename TracePointTraits>
+ InstancesIterator BeginIteration(
+ uint32_t cached_instances,
+ DataSourceThreadLocalState* tls_state,
+ typename TracePointTraits::TracePointData trace_point_data) {
+ InstancesIterator it{};
+ it.cached_instances = cached_instances;
+ FirstActiveInstance<TracePointTraits>(&it, tls_state, trace_point_data);
+ return it;
+ }
+
+ // Advances `*iterator` to point to the next active instance of this data
+ // source type.
+ //
+ // `tls_state` is the thread local pointer obtained from TracePrologue.
+ //
+ // `TracePointTraits` and `trace_point_data` are customization point for
+ // getting the active instances bitmap.
+ template <typename TracePointTraits>
+ void NextIteration(
+ InstancesIterator* iterator,
+ DataSourceThreadLocalState* tls_state,
+ typename TracePointTraits::TracePointData trace_point_data) {
+ iterator->i++;
+ FirstActiveInstance<TracePointTraits>(iterator, tls_state,
+ trace_point_data);
+ }
+
+ void* GetIncrementalState(
+ internal::DataSourceInstanceThreadLocalState* tls_inst,
+ uint32_t instance_index) {
+ // Recreate incremental state data if it has been reset by the service.
+ if (tls_inst->incremental_state_generation !=
+ static_state()->incremental_state_generation.load(
+ std::memory_order_relaxed)) {
+ tls_inst->incremental_state.reset();
+ CreateIncrementalState(tls_inst, instance_index);
+ }
+ return tls_inst->incremental_state.get();
+ }
+
+ std::atomic<uint32_t>* valid_instances() { return &state_.valid_instances; }
+
+ DataSourceStaticState* static_state() { return &state_; }
+
+ private:
+ void CreateIncrementalState(
+ internal::DataSourceInstanceThreadLocalState* tls_inst,
+ uint32_t instance_index) {
+ PERFETTO_DCHECK(create_incremental_state_fn_ != nullptr);
+ tls_inst->incremental_state =
+ create_incremental_state_fn_(tls_inst, instance_index, user_arg_);
+ tls_inst->incremental_state_generation =
+ static_state()->incremental_state_generation.load(
+ std::memory_order_relaxed);
+ }
+
+ void PopulateTlsInst(DataSourceInstanceThreadLocalState* tls_inst,
+ DataSourceState* instance_state,
+ uint32_t instance_index);
+
+ // Advances `*iterator` to the first active instance whose index is greater or
+ // equal than `iterator->i`.
+ template <typename TracePointTraits>
+ void FirstActiveInstance(
+ InstancesIterator* iterator,
+ DataSourceThreadLocalState* tls_state,
+ typename TracePointTraits::TracePointData trace_point_data) {
+ iterator->instance = nullptr;
+ for (; iterator->i < kMaxDataSourceInstances; iterator->i++) {
+ DataSourceState* instance_state =
+ state_.TryGetCached(iterator->cached_instances, iterator->i);
+ if (!instance_state)
+ continue;
+ // Even if we passed the check above, the DataSourceInstance might be
+ // still destroyed concurrently while this code runs. The code below is
+ // designed to deal with such race, as follows:
+ // - We don't access the user-defined data source instance state. The only
+ // bits of state we use are |backend_id| and |buffer_id|.
+ // - Beyond those two integers, we access only the TraceWriter here. The
+ // TraceWriter is always safe because it lives on the TLS.
+ // - |instance_state| is backed by static storage, so the pointer is
+ // always valid, even after the data source instance is destroyed.
+ // - In the case of a race-on-destruction, we'll still see the latest
+ // backend_id and buffer_id and in the worst case keep trying writing
+ // into the tracing shared memory buffer after stopped. But this isn't
+ // really any worse than the case of the stop IPC being delayed by the
+ // kernel scheduler. The tracing service is robust against data commit
+ // attemps made after tracing is stopped.
+ // There is a theoretical race that would case the wrong behavior w.r.t
+ // writing data in the wrong buffer, but it's so rare that we ignore it:
+ // if the data source is stopped and started kMaxDataSourceInstances
+ // times (so that the same id is recycled) while we are in this function,
+ // we might end up reusing the old data source's backend_id and buffer_id
+ // for the new one, because we don't see the generation change past this
+ // point. But stopping and starting tracing (even once) takes so much
+ // handshaking to make this extremely unrealistic.
+
+ auto& tls_inst = tls_state->per_instance[iterator->i];
+ if (PERFETTO_UNLIKELY(!tls_inst.trace_writer)) {
+ // Here we need an acquire barrier, which matches the release-store made
+ // by TracingMuxerImpl::SetupDataSource(), to ensure that the backend_id
+ // and buffer_id are consistent.
+ iterator->cached_instances &=
+ TracePointTraits::GetActiveInstances(trace_point_data)
+ ->load(std::memory_order_acquire);
+ instance_state =
+ state_.TryGetCached(iterator->cached_instances, iterator->i);
+ if (!instance_state || !instance_state->trace_lambda_enabled.load(
+ std::memory_order_relaxed))
+ continue;
+ PopulateTlsInst(&tls_inst, instance_state, iterator->i);
+ }
+ iterator->instance = &tls_inst;
+ break;
+ }
+ }
+
+ // Note that the returned object is one per-thread per-data-source-type, NOT
+ // per data-source *instance*.
+ template <typename DataSourceTraits>
+ DataSourceThreadLocalState* GetOrCreateDataSourceTLS() {
+ auto* tracing_impl = TracingMuxer::Get();
+ TracingTLS* root_tls = tracing_impl->GetOrCreateTracingTLS();
+ DataSourceThreadLocalState* ds_tls =
+ DataSourceTraits::GetDataSourceTLS(&state_, root_tls);
+ // We keep re-initializing as the initialization is idempotent and not worth
+ // the code for extra checks. Also, ds_tls->static_state might point to
+ // another data source if ResetForTesting() has been used.
+ ds_tls->static_state = &state_;
+ assert(!ds_tls->root_tls || ds_tls->root_tls == root_tls);
+ ds_tls->root_tls = root_tls;
+ return ds_tls;
+ }
+
+ DataSourceStaticState state_;
+ BufferExhaustedPolicy buffer_exhausted_policy_{};
+ CreateCustomTlsFn create_custom_tls_fn_ = nullptr;
+ CreateIncrementalStateFn create_incremental_state_fn_ = nullptr;
+ // User defined pointer that carries extra content for the fn_ callbacks
+ // above. Only used in the C shared library.
+ void* user_arg_ = nullptr;
+};
+
+} // namespace internal
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_TRACING_INTERNAL_DATA_SOURCE_TYPE_H_
+// gen_amalgamated begin header: gen/protos/perfetto/trace/trace_packet.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACE_PACKET_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACE_PACKET_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class AndroidCameraFrameEvent;
+class AndroidCameraSessionStats;
+class AndroidEnergyEstimationBreakdown;
+class AndroidGameInterventionList;
+class AndroidInputEvent;
+class AndroidLogPacket;
+class AndroidSystemProperty;
+class BatteryCounters;
+class ChromeBenchmarkMetadata;
+class ChromeEventBundle;
+class ChromeMetadataPacket;
+class ClockSnapshot;
+class CpuInfo;
+class DeobfuscationMapping;
+class EntityStateResidency;
+class EtwTraceEventBundle;
+class ExtensionDescriptor;
+class FrameTimelineEvent;
+class FtraceEventBundle;
+class FtraceStats;
+class GpuCounterEvent;
+class GpuLog;
+class GpuMemTotalEvent;
+class GpuRenderStageEvent;
+class GraphicsFrameEvent;
+class HeapGraph;
+class InitialDisplayState;
+class InodeFileMap;
+class InternedData;
+class LayersSnapshotProto;
+class MemoryTrackerSnapshot;
+class ModuleSymbols;
+class NetworkPacketBundle;
+class NetworkPacketEvent;
+class PackagesList;
+class PerfSample;
+class PerfettoMetatrace;
+class PowerRails;
+class ProcessDescriptor;
+class ProcessStats;
+class ProcessTree;
+class ProfilePacket;
+class ProfiledFrameSymbols;
+class ProtoLogMessage;
+class ProtoLogViewerConfig;
+class RemoteClockSync;
+class ShellHandlerMappings;
+class ShellTransition;
+class SmapsPacket;
+class StatsdAtom;
+class StreamingAllocation;
+class StreamingFree;
+class StreamingProfilePacket;
+class SysStats;
+class SystemInfo;
+class TestEvent;
+class ThreadDescriptor;
+class TraceConfig;
+class TracePacketDefaults;
+class TraceStats;
+class TraceUuid;
+class TracingServiceEvent;
+class TrackDescriptor;
+class TrackEvent;
+class TrackEventRangeOfInterest;
+class TransactionTraceEntry;
+class TranslationTable;
+class Trigger;
+class UiState;
+class V8CodeMove;
+class V8InternalCode;
+class V8JsCode;
+class V8RegExpCode;
+class V8WasmCode;
+class VulkanApiEvent;
+class VulkanMemoryEvent;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+namespace perfetto_pbzero_enum_TracePacket {
+enum SequenceFlags : int32_t {
+ SEQ_UNSPECIFIED = 0,
+ SEQ_INCREMENTAL_STATE_CLEARED = 1,
+ SEQ_NEEDS_INCREMENTAL_STATE = 2,
+};
+} // namespace perfetto_pbzero_enum_TracePacket
+using TracePacket_SequenceFlags = perfetto_pbzero_enum_TracePacket::SequenceFlags;
+
+
+constexpr TracePacket_SequenceFlags TracePacket_SequenceFlags_MIN = TracePacket_SequenceFlags::SEQ_UNSPECIFIED;
+constexpr TracePacket_SequenceFlags TracePacket_SequenceFlags_MAX = TracePacket_SequenceFlags::SEQ_NEEDS_INCREMENTAL_STATE;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* TracePacket_SequenceFlags_Name(::perfetto::protos::pbzero::TracePacket_SequenceFlags value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::TracePacket_SequenceFlags::SEQ_UNSPECIFIED:
+ return "SEQ_UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::TracePacket_SequenceFlags::SEQ_INCREMENTAL_STATE_CLEARED:
+ return "SEQ_INCREMENTAL_STATE_CLEARED";
+
+ case ::perfetto::protos::pbzero::TracePacket_SequenceFlags::SEQ_NEEDS_INCREMENTAL_STATE:
+ return "SEQ_NEEDS_INCREMENTAL_STATE";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+class TracePacket_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/900, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ TracePacket_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TracePacket_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TracePacket_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_timestamp() const { return at<8>().valid(); }
+ uint64_t timestamp() const { return at<8>().as_uint64(); }
+ bool has_timestamp_clock_id() const { return at<58>().valid(); }
+ uint32_t timestamp_clock_id() const { return at<58>().as_uint32(); }
+ bool has_process_tree() const { return at<2>().valid(); }
+ ::protozero::ConstBytes process_tree() const { return at<2>().as_bytes(); }
+ bool has_process_stats() const { return at<9>().valid(); }
+ ::protozero::ConstBytes process_stats() const { return at<9>().as_bytes(); }
+ bool has_inode_file_map() const { return at<4>().valid(); }
+ ::protozero::ConstBytes inode_file_map() const { return at<4>().as_bytes(); }
+ bool has_chrome_events() const { return at<5>().valid(); }
+ ::protozero::ConstBytes chrome_events() const { return at<5>().as_bytes(); }
+ bool has_clock_snapshot() const { return at<6>().valid(); }
+ ::protozero::ConstBytes clock_snapshot() const { return at<6>().as_bytes(); }
+ bool has_sys_stats() const { return at<7>().valid(); }
+ ::protozero::ConstBytes sys_stats() const { return at<7>().as_bytes(); }
+ bool has_track_event() const { return at<11>().valid(); }
+ ::protozero::ConstBytes track_event() const { return at<11>().as_bytes(); }
+ bool has_trace_uuid() const { return at<89>().valid(); }
+ ::protozero::ConstBytes trace_uuid() const { return at<89>().as_bytes(); }
+ bool has_trace_config() const { return at<33>().valid(); }
+ ::protozero::ConstBytes trace_config() const { return at<33>().as_bytes(); }
+ bool has_ftrace_stats() const { return at<34>().valid(); }
+ ::protozero::ConstBytes ftrace_stats() const { return at<34>().as_bytes(); }
+ bool has_trace_stats() const { return at<35>().valid(); }
+ ::protozero::ConstBytes trace_stats() const { return at<35>().as_bytes(); }
+ bool has_profile_packet() const { return at<37>().valid(); }
+ ::protozero::ConstBytes profile_packet() const { return at<37>().as_bytes(); }
+ bool has_streaming_allocation() const { return at<74>().valid(); }
+ ::protozero::ConstBytes streaming_allocation() const { return at<74>().as_bytes(); }
+ bool has_streaming_free() const { return at<75>().valid(); }
+ ::protozero::ConstBytes streaming_free() const { return at<75>().as_bytes(); }
+ bool has_battery() const { return at<38>().valid(); }
+ ::protozero::ConstBytes battery() const { return at<38>().as_bytes(); }
+ bool has_power_rails() const { return at<40>().valid(); }
+ ::protozero::ConstBytes power_rails() const { return at<40>().as_bytes(); }
+ bool has_android_log() const { return at<39>().valid(); }
+ ::protozero::ConstBytes android_log() const { return at<39>().as_bytes(); }
+ bool has_system_info() const { return at<45>().valid(); }
+ ::protozero::ConstBytes system_info() const { return at<45>().as_bytes(); }
+ bool has_trigger() const { return at<46>().valid(); }
+ ::protozero::ConstBytes trigger() const { return at<46>().as_bytes(); }
+ bool has_packages_list() const { return at<47>().valid(); }
+ ::protozero::ConstBytes packages_list() const { return at<47>().as_bytes(); }
+ bool has_chrome_benchmark_metadata() const { return at<48>().valid(); }
+ ::protozero::ConstBytes chrome_benchmark_metadata() const { return at<48>().as_bytes(); }
+ bool has_perfetto_metatrace() const { return at<49>().valid(); }
+ ::protozero::ConstBytes perfetto_metatrace() const { return at<49>().as_bytes(); }
+ bool has_chrome_metadata() const { return at<51>().valid(); }
+ ::protozero::ConstBytes chrome_metadata() const { return at<51>().as_bytes(); }
+ bool has_gpu_counter_event() const { return at<52>().valid(); }
+ ::protozero::ConstBytes gpu_counter_event() const { return at<52>().as_bytes(); }
+ bool has_gpu_render_stage_event() const { return at<53>().valid(); }
+ ::protozero::ConstBytes gpu_render_stage_event() const { return at<53>().as_bytes(); }
+ bool has_streaming_profile_packet() const { return at<54>().valid(); }
+ ::protozero::ConstBytes streaming_profile_packet() const { return at<54>().as_bytes(); }
+ bool has_heap_graph() const { return at<56>().valid(); }
+ ::protozero::ConstBytes heap_graph() const { return at<56>().as_bytes(); }
+ bool has_graphics_frame_event() const { return at<57>().valid(); }
+ ::protozero::ConstBytes graphics_frame_event() const { return at<57>().as_bytes(); }
+ bool has_vulkan_memory_event() const { return at<62>().valid(); }
+ ::protozero::ConstBytes vulkan_memory_event() const { return at<62>().as_bytes(); }
+ bool has_gpu_log() const { return at<63>().valid(); }
+ ::protozero::ConstBytes gpu_log() const { return at<63>().as_bytes(); }
+ bool has_vulkan_api_event() const { return at<65>().valid(); }
+ ::protozero::ConstBytes vulkan_api_event() const { return at<65>().as_bytes(); }
+ bool has_perf_sample() const { return at<66>().valid(); }
+ ::protozero::ConstBytes perf_sample() const { return at<66>().as_bytes(); }
+ bool has_cpu_info() const { return at<67>().valid(); }
+ ::protozero::ConstBytes cpu_info() const { return at<67>().as_bytes(); }
+ bool has_smaps_packet() const { return at<68>().valid(); }
+ ::protozero::ConstBytes smaps_packet() const { return at<68>().as_bytes(); }
+ bool has_service_event() const { return at<69>().valid(); }
+ ::protozero::ConstBytes service_event() const { return at<69>().as_bytes(); }
+ bool has_initial_display_state() const { return at<70>().valid(); }
+ ::protozero::ConstBytes initial_display_state() const { return at<70>().as_bytes(); }
+ bool has_gpu_mem_total_event() const { return at<71>().valid(); }
+ ::protozero::ConstBytes gpu_mem_total_event() const { return at<71>().as_bytes(); }
+ bool has_memory_tracker_snapshot() const { return at<73>().valid(); }
+ ::protozero::ConstBytes memory_tracker_snapshot() const { return at<73>().as_bytes(); }
+ bool has_frame_timeline_event() const { return at<76>().valid(); }
+ ::protozero::ConstBytes frame_timeline_event() const { return at<76>().as_bytes(); }
+ bool has_android_energy_estimation_breakdown() const { return at<77>().valid(); }
+ ::protozero::ConstBytes android_energy_estimation_breakdown() const { return at<77>().as_bytes(); }
+ bool has_ui_state() const { return at<78>().valid(); }
+ ::protozero::ConstBytes ui_state() const { return at<78>().as_bytes(); }
+ bool has_android_camera_frame_event() const { return at<80>().valid(); }
+ ::protozero::ConstBytes android_camera_frame_event() const { return at<80>().as_bytes(); }
+ bool has_android_camera_session_stats() const { return at<81>().valid(); }
+ ::protozero::ConstBytes android_camera_session_stats() const { return at<81>().as_bytes(); }
+ bool has_translation_table() const { return at<82>().valid(); }
+ ::protozero::ConstBytes translation_table() const { return at<82>().as_bytes(); }
+ bool has_android_game_intervention_list() const { return at<83>().valid(); }
+ ::protozero::ConstBytes android_game_intervention_list() const { return at<83>().as_bytes(); }
+ bool has_statsd_atom() const { return at<84>().valid(); }
+ ::protozero::ConstBytes statsd_atom() const { return at<84>().as_bytes(); }
+ bool has_android_system_property() const { return at<86>().valid(); }
+ ::protozero::ConstBytes android_system_property() const { return at<86>().as_bytes(); }
+ bool has_entity_state_residency() const { return at<91>().valid(); }
+ ::protozero::ConstBytes entity_state_residency() const { return at<91>().as_bytes(); }
+ bool has_profiled_frame_symbols() const { return at<55>().valid(); }
+ ::protozero::ConstBytes profiled_frame_symbols() const { return at<55>().as_bytes(); }
+ bool has_module_symbols() const { return at<61>().valid(); }
+ ::protozero::ConstBytes module_symbols() const { return at<61>().as_bytes(); }
+ bool has_deobfuscation_mapping() const { return at<64>().valid(); }
+ ::protozero::ConstBytes deobfuscation_mapping() const { return at<64>().as_bytes(); }
+ bool has_track_descriptor() const { return at<60>().valid(); }
+ ::protozero::ConstBytes track_descriptor() const { return at<60>().as_bytes(); }
+ bool has_process_descriptor() const { return at<43>().valid(); }
+ ::protozero::ConstBytes process_descriptor() const { return at<43>().as_bytes(); }
+ bool has_thread_descriptor() const { return at<44>().valid(); }
+ ::protozero::ConstBytes thread_descriptor() const { return at<44>().as_bytes(); }
+ bool has_ftrace_events() const { return at<1>().valid(); }
+ ::protozero::ConstBytes ftrace_events() const { return at<1>().as_bytes(); }
+ bool has_synchronization_marker() const { return at<36>().valid(); }
+ ::protozero::ConstBytes synchronization_marker() const { return at<36>().as_bytes(); }
+ bool has_compressed_packets() const { return at<50>().valid(); }
+ ::protozero::ConstBytes compressed_packets() const { return at<50>().as_bytes(); }
+ bool has_extension_descriptor() const { return at<72>().valid(); }
+ ::protozero::ConstBytes extension_descriptor() const { return at<72>().as_bytes(); }
+ bool has_network_packet() const { return at<88>().valid(); }
+ ::protozero::ConstBytes network_packet() const { return at<88>().as_bytes(); }
+ bool has_network_packet_bundle() const { return at<92>().valid(); }
+ ::protozero::ConstBytes network_packet_bundle() const { return at<92>().as_bytes(); }
+ bool has_track_event_range_of_interest() const { return at<90>().valid(); }
+ ::protozero::ConstBytes track_event_range_of_interest() const { return at<90>().as_bytes(); }
+ bool has_surfaceflinger_layers_snapshot() const { return at<93>().valid(); }
+ ::protozero::ConstBytes surfaceflinger_layers_snapshot() const { return at<93>().as_bytes(); }
+ bool has_surfaceflinger_transactions() const { return at<94>().valid(); }
+ ::protozero::ConstBytes surfaceflinger_transactions() const { return at<94>().as_bytes(); }
+ bool has_shell_transition() const { return at<96>().valid(); }
+ ::protozero::ConstBytes shell_transition() const { return at<96>().as_bytes(); }
+ bool has_shell_handler_mappings() const { return at<97>().valid(); }
+ ::protozero::ConstBytes shell_handler_mappings() const { return at<97>().as_bytes(); }
+ bool has_protolog_message() const { return at<104>().valid(); }
+ ::protozero::ConstBytes protolog_message() const { return at<104>().as_bytes(); }
+ bool has_protolog_viewer_config() const { return at<105>().valid(); }
+ ::protozero::ConstBytes protolog_viewer_config() const { return at<105>().as_bytes(); }
+ bool has_etw_events() const { return at<95>().valid(); }
+ ::protozero::ConstBytes etw_events() const { return at<95>().as_bytes(); }
+ bool has_v8_js_code() const { return at<99>().valid(); }
+ ::protozero::ConstBytes v8_js_code() const { return at<99>().as_bytes(); }
+ bool has_v8_internal_code() const { return at<100>().valid(); }
+ ::protozero::ConstBytes v8_internal_code() const { return at<100>().as_bytes(); }
+ bool has_v8_wasm_code() const { return at<101>().valid(); }
+ ::protozero::ConstBytes v8_wasm_code() const { return at<101>().as_bytes(); }
+ bool has_v8_reg_exp_code() const { return at<102>().valid(); }
+ ::protozero::ConstBytes v8_reg_exp_code() const { return at<102>().as_bytes(); }
+ bool has_v8_code_move() const { return at<103>().valid(); }
+ ::protozero::ConstBytes v8_code_move() const { return at<103>().as_bytes(); }
+ bool has_android_input_event() const { return at<106>().valid(); }
+ ::protozero::ConstBytes android_input_event() const { return at<106>().as_bytes(); }
+ bool has_remote_clock_sync() const { return at<107>().valid(); }
+ ::protozero::ConstBytes remote_clock_sync() const { return at<107>().as_bytes(); }
+ bool has_for_testing() const { return at<900>().valid(); }
+ ::protozero::ConstBytes for_testing() const { return at<900>().as_bytes(); }
+ bool has_trusted_uid() const { return at<3>().valid(); }
+ int32_t trusted_uid() const { return at<3>().as_int32(); }
+ bool has_trusted_packet_sequence_id() const { return at<10>().valid(); }
+ uint32_t trusted_packet_sequence_id() const { return at<10>().as_uint32(); }
+ bool has_trusted_pid() const { return at<79>().valid(); }
+ int32_t trusted_pid() const { return at<79>().as_int32(); }
+ bool has_interned_data() const { return at<12>().valid(); }
+ ::protozero::ConstBytes interned_data() const { return at<12>().as_bytes(); }
+ bool has_sequence_flags() const { return at<13>().valid(); }
+ uint32_t sequence_flags() const { return at<13>().as_uint32(); }
+ bool has_incremental_state_cleared() const { return at<41>().valid(); }
+ bool incremental_state_cleared() const { return at<41>().as_bool(); }
+ bool has_trace_packet_defaults() const { return at<59>().valid(); }
+ ::protozero::ConstBytes trace_packet_defaults() const { return at<59>().as_bytes(); }
+ bool has_previous_packet_dropped() const { return at<42>().valid(); }
+ bool previous_packet_dropped() const { return at<42>().as_bool(); }
+ bool has_first_packet_on_sequence() const { return at<87>().valid(); }
+ bool first_packet_on_sequence() const { return at<87>().as_bool(); }
+ bool has_machine_id() const { return at<98>().valid(); }
+ uint32_t machine_id() const { return at<98>().as_uint32(); }
+};
+
+class TracePacket : public ::protozero::Message {
+ public:
+ using Decoder = TracePacket_Decoder;
+ enum : int32_t {
+ kTimestampFieldNumber = 8,
+ kTimestampClockIdFieldNumber = 58,
+ kProcessTreeFieldNumber = 2,
+ kProcessStatsFieldNumber = 9,
+ kInodeFileMapFieldNumber = 4,
+ kChromeEventsFieldNumber = 5,
+ kClockSnapshotFieldNumber = 6,
+ kSysStatsFieldNumber = 7,
+ kTrackEventFieldNumber = 11,
+ kTraceUuidFieldNumber = 89,
+ kTraceConfigFieldNumber = 33,
+ kFtraceStatsFieldNumber = 34,
+ kTraceStatsFieldNumber = 35,
+ kProfilePacketFieldNumber = 37,
+ kStreamingAllocationFieldNumber = 74,
+ kStreamingFreeFieldNumber = 75,
+ kBatteryFieldNumber = 38,
+ kPowerRailsFieldNumber = 40,
+ kAndroidLogFieldNumber = 39,
+ kSystemInfoFieldNumber = 45,
+ kTriggerFieldNumber = 46,
+ kPackagesListFieldNumber = 47,
+ kChromeBenchmarkMetadataFieldNumber = 48,
+ kPerfettoMetatraceFieldNumber = 49,
+ kChromeMetadataFieldNumber = 51,
+ kGpuCounterEventFieldNumber = 52,
+ kGpuRenderStageEventFieldNumber = 53,
+ kStreamingProfilePacketFieldNumber = 54,
+ kHeapGraphFieldNumber = 56,
+ kGraphicsFrameEventFieldNumber = 57,
+ kVulkanMemoryEventFieldNumber = 62,
+ kGpuLogFieldNumber = 63,
+ kVulkanApiEventFieldNumber = 65,
+ kPerfSampleFieldNumber = 66,
+ kCpuInfoFieldNumber = 67,
+ kSmapsPacketFieldNumber = 68,
+ kServiceEventFieldNumber = 69,
+ kInitialDisplayStateFieldNumber = 70,
+ kGpuMemTotalEventFieldNumber = 71,
+ kMemoryTrackerSnapshotFieldNumber = 73,
+ kFrameTimelineEventFieldNumber = 76,
+ kAndroidEnergyEstimationBreakdownFieldNumber = 77,
+ kUiStateFieldNumber = 78,
+ kAndroidCameraFrameEventFieldNumber = 80,
+ kAndroidCameraSessionStatsFieldNumber = 81,
+ kTranslationTableFieldNumber = 82,
+ kAndroidGameInterventionListFieldNumber = 83,
+ kStatsdAtomFieldNumber = 84,
+ kAndroidSystemPropertyFieldNumber = 86,
+ kEntityStateResidencyFieldNumber = 91,
+ kProfiledFrameSymbolsFieldNumber = 55,
+ kModuleSymbolsFieldNumber = 61,
+ kDeobfuscationMappingFieldNumber = 64,
+ kTrackDescriptorFieldNumber = 60,
+ kProcessDescriptorFieldNumber = 43,
+ kThreadDescriptorFieldNumber = 44,
+ kFtraceEventsFieldNumber = 1,
+ kSynchronizationMarkerFieldNumber = 36,
+ kCompressedPacketsFieldNumber = 50,
+ kExtensionDescriptorFieldNumber = 72,
+ kNetworkPacketFieldNumber = 88,
+ kNetworkPacketBundleFieldNumber = 92,
+ kTrackEventRangeOfInterestFieldNumber = 90,
+ kSurfaceflingerLayersSnapshotFieldNumber = 93,
+ kSurfaceflingerTransactionsFieldNumber = 94,
+ kShellTransitionFieldNumber = 96,
+ kShellHandlerMappingsFieldNumber = 97,
+ kProtologMessageFieldNumber = 104,
+ kProtologViewerConfigFieldNumber = 105,
+ kEtwEventsFieldNumber = 95,
+ kV8JsCodeFieldNumber = 99,
+ kV8InternalCodeFieldNumber = 100,
+ kV8WasmCodeFieldNumber = 101,
+ kV8RegExpCodeFieldNumber = 102,
+ kV8CodeMoveFieldNumber = 103,
+ kAndroidInputEventFieldNumber = 106,
+ kRemoteClockSyncFieldNumber = 107,
+ kForTestingFieldNumber = 900,
+ kTrustedUidFieldNumber = 3,
+ kTrustedPacketSequenceIdFieldNumber = 10,
+ kTrustedPidFieldNumber = 79,
+ kInternedDataFieldNumber = 12,
+ kSequenceFlagsFieldNumber = 13,
+ kIncrementalStateClearedFieldNumber = 41,
+ kTracePacketDefaultsFieldNumber = 59,
+ kPreviousPacketDroppedFieldNumber = 42,
+ kFirstPacketOnSequenceFieldNumber = 87,
+ kMachineIdFieldNumber = 98,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TracePacket"; }
+
+
+ using SequenceFlags = ::perfetto::protos::pbzero::TracePacket_SequenceFlags;
+ static inline const char* SequenceFlags_Name(SequenceFlags value) {
+ return ::perfetto::protos::pbzero::TracePacket_SequenceFlags_Name(value);
+ }
+ static inline const SequenceFlags SEQ_UNSPECIFIED = SequenceFlags::SEQ_UNSPECIFIED;
+ static inline const SequenceFlags SEQ_INCREMENTAL_STATE_CLEARED = SequenceFlags::SEQ_INCREMENTAL_STATE_CLEARED;
+ static inline const SequenceFlags SEQ_NEEDS_INCREMENTAL_STATE = SequenceFlags::SEQ_NEEDS_INCREMENTAL_STATE;
+
+ using FieldMetadata_Timestamp =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TracePacket>;
+
+ static constexpr FieldMetadata_Timestamp kTimestamp{};
+ void set_timestamp(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Timestamp::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimestampClockId =
+ ::protozero::proto_utils::FieldMetadata<
+ 58,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TracePacket>;
+
+ static constexpr FieldMetadata_TimestampClockId kTimestampClockId{};
+ void set_timestamp_clock_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimestampClockId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ProcessTree =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ProcessTree,
+ TracePacket>;
+
+ static constexpr FieldMetadata_ProcessTree kProcessTree{};
+ template <typename T = ProcessTree> T* set_process_tree() {
+ return BeginNestedMessage<T>(2);
+ }
+
+
+ using FieldMetadata_ProcessStats =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ProcessStats,
+ TracePacket>;
+
+ static constexpr FieldMetadata_ProcessStats kProcessStats{};
+ template <typename T = ProcessStats> T* set_process_stats() {
+ return BeginNestedMessage<T>(9);
+ }
+
+
+ using FieldMetadata_InodeFileMap =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ InodeFileMap,
+ TracePacket>;
+
+ static constexpr FieldMetadata_InodeFileMap kInodeFileMap{};
+ template <typename T = InodeFileMap> T* set_inode_file_map() {
+ return BeginNestedMessage<T>(4);
+ }
+
+
+ using FieldMetadata_ChromeEvents =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ChromeEventBundle,
+ TracePacket>;
+
+ static constexpr FieldMetadata_ChromeEvents kChromeEvents{};
+ template <typename T = ChromeEventBundle> T* set_chrome_events() {
+ return BeginNestedMessage<T>(5);
+ }
+
+
+ using FieldMetadata_ClockSnapshot =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ClockSnapshot,
+ TracePacket>;
+
+ static constexpr FieldMetadata_ClockSnapshot kClockSnapshot{};
+ template <typename T = ClockSnapshot> T* set_clock_snapshot() {
+ return BeginNestedMessage<T>(6);
+ }
+
+
+ using FieldMetadata_SysStats =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SysStats,
+ TracePacket>;
+
+ static constexpr FieldMetadata_SysStats kSysStats{};
+ template <typename T = SysStats> T* set_sys_stats() {
+ return BeginNestedMessage<T>(7);
+ }
+
+
+ using FieldMetadata_TrackEvent =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TrackEvent,
+ TracePacket>;
+
+ static constexpr FieldMetadata_TrackEvent kTrackEvent{};
+ template <typename T = TrackEvent> T* set_track_event() {
+ return BeginNestedMessage<T>(11);
+ }
+
+
+ using FieldMetadata_TraceUuid =
+ ::protozero::proto_utils::FieldMetadata<
+ 89,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TraceUuid,
+ TracePacket>;
+
+ static constexpr FieldMetadata_TraceUuid kTraceUuid{};
+ template <typename T = TraceUuid> T* set_trace_uuid() {
+ return BeginNestedMessage<T>(89);
+ }
+
+
+ using FieldMetadata_TraceConfig =
+ ::protozero::proto_utils::FieldMetadata<
+ 33,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TraceConfig,
+ TracePacket>;
+
+ static constexpr FieldMetadata_TraceConfig kTraceConfig{};
+ template <typename T = TraceConfig> T* set_trace_config() {
+ return BeginNestedMessage<T>(33);
+ }
+
+
+ using FieldMetadata_FtraceStats =
+ ::protozero::proto_utils::FieldMetadata<
+ 34,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ FtraceStats,
+ TracePacket>;
+
+ static constexpr FieldMetadata_FtraceStats kFtraceStats{};
+ template <typename T = FtraceStats> T* set_ftrace_stats() {
+ return BeginNestedMessage<T>(34);
+ }
+
+
+ using FieldMetadata_TraceStats =
+ ::protozero::proto_utils::FieldMetadata<
+ 35,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TraceStats,
+ TracePacket>;
+
+ static constexpr FieldMetadata_TraceStats kTraceStats{};
+ template <typename T = TraceStats> T* set_trace_stats() {
+ return BeginNestedMessage<T>(35);
+ }
+
+
+ using FieldMetadata_ProfilePacket =
+ ::protozero::proto_utils::FieldMetadata<
+ 37,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ProfilePacket,
+ TracePacket>;
+
+ static constexpr FieldMetadata_ProfilePacket kProfilePacket{};
+ template <typename T = ProfilePacket> T* set_profile_packet() {
+ return BeginNestedMessage<T>(37);
+ }
+
+
+ using FieldMetadata_StreamingAllocation =
+ ::protozero::proto_utils::FieldMetadata<
+ 74,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ StreamingAllocation,
+ TracePacket>;
+
+ static constexpr FieldMetadata_StreamingAllocation kStreamingAllocation{};
+ template <typename T = StreamingAllocation> T* set_streaming_allocation() {
+ return BeginNestedMessage<T>(74);
+ }
+
+
+ using FieldMetadata_StreamingFree =
+ ::protozero::proto_utils::FieldMetadata<
+ 75,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ StreamingFree,
+ TracePacket>;
+
+ static constexpr FieldMetadata_StreamingFree kStreamingFree{};
+ template <typename T = StreamingFree> T* set_streaming_free() {
+ return BeginNestedMessage<T>(75);
+ }
+
+
+ using FieldMetadata_Battery =
+ ::protozero::proto_utils::FieldMetadata<
+ 38,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ BatteryCounters,
+ TracePacket>;
+
+ static constexpr FieldMetadata_Battery kBattery{};
+ template <typename T = BatteryCounters> T* set_battery() {
+ return BeginNestedMessage<T>(38);
+ }
+
+
+ using FieldMetadata_PowerRails =
+ ::protozero::proto_utils::FieldMetadata<
+ 40,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ PowerRails,
+ TracePacket>;
+
+ static constexpr FieldMetadata_PowerRails kPowerRails{};
+ template <typename T = PowerRails> T* set_power_rails() {
+ return BeginNestedMessage<T>(40);
+ }
+
+
+ using FieldMetadata_AndroidLog =
+ ::protozero::proto_utils::FieldMetadata<
+ 39,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ AndroidLogPacket,
+ TracePacket>;
+
+ static constexpr FieldMetadata_AndroidLog kAndroidLog{};
+ template <typename T = AndroidLogPacket> T* set_android_log() {
+ return BeginNestedMessage<T>(39);
+ }
+
+
+ using FieldMetadata_SystemInfo =
+ ::protozero::proto_utils::FieldMetadata<
+ 45,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SystemInfo,
+ TracePacket>;
+
+ static constexpr FieldMetadata_SystemInfo kSystemInfo{};
+ template <typename T = SystemInfo> T* set_system_info() {
+ return BeginNestedMessage<T>(45);
+ }
+
+
+ using FieldMetadata_Trigger =
+ ::protozero::proto_utils::FieldMetadata<
+ 46,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Trigger,
+ TracePacket>;
+
+ static constexpr FieldMetadata_Trigger kTrigger{};
+ template <typename T = Trigger> T* set_trigger() {
+ return BeginNestedMessage<T>(46);
+ }
+
+
+ using FieldMetadata_PackagesList =
+ ::protozero::proto_utils::FieldMetadata<
+ 47,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ PackagesList,
+ TracePacket>;
+
+ static constexpr FieldMetadata_PackagesList kPackagesList{};
+ template <typename T = PackagesList> T* set_packages_list() {
+ return BeginNestedMessage<T>(47);
+ }
+
+
+ using FieldMetadata_ChromeBenchmarkMetadata =
+ ::protozero::proto_utils::FieldMetadata<
+ 48,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ChromeBenchmarkMetadata,
+ TracePacket>;
+
+ static constexpr FieldMetadata_ChromeBenchmarkMetadata kChromeBenchmarkMetadata{};
+ template <typename T = ChromeBenchmarkMetadata> T* set_chrome_benchmark_metadata() {
+ return BeginNestedMessage<T>(48);
+ }
+
+
+ using FieldMetadata_PerfettoMetatrace =
+ ::protozero::proto_utils::FieldMetadata<
+ 49,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ PerfettoMetatrace,
+ TracePacket>;
+
+ static constexpr FieldMetadata_PerfettoMetatrace kPerfettoMetatrace{};
+ template <typename T = PerfettoMetatrace> T* set_perfetto_metatrace() {
+ return BeginNestedMessage<T>(49);
+ }
+
+
+ using FieldMetadata_ChromeMetadata =
+ ::protozero::proto_utils::FieldMetadata<
+ 51,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ChromeMetadataPacket,
+ TracePacket>;
+
+ static constexpr FieldMetadata_ChromeMetadata kChromeMetadata{};
+ template <typename T = ChromeMetadataPacket> T* set_chrome_metadata() {
+ return BeginNestedMessage<T>(51);
+ }
+
+
+ using FieldMetadata_GpuCounterEvent =
+ ::protozero::proto_utils::FieldMetadata<
+ 52,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ GpuCounterEvent,
+ TracePacket>;
+
+ static constexpr FieldMetadata_GpuCounterEvent kGpuCounterEvent{};
+ template <typename T = GpuCounterEvent> T* set_gpu_counter_event() {
+ return BeginNestedMessage<T>(52);
+ }
+
+
+ using FieldMetadata_GpuRenderStageEvent =
+ ::protozero::proto_utils::FieldMetadata<
+ 53,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ GpuRenderStageEvent,
+ TracePacket>;
+
+ static constexpr FieldMetadata_GpuRenderStageEvent kGpuRenderStageEvent{};
+ template <typename T = GpuRenderStageEvent> T* set_gpu_render_stage_event() {
+ return BeginNestedMessage<T>(53);
+ }
+
+
+ using FieldMetadata_StreamingProfilePacket =
+ ::protozero::proto_utils::FieldMetadata<
+ 54,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ StreamingProfilePacket,
+ TracePacket>;
+
+ static constexpr FieldMetadata_StreamingProfilePacket kStreamingProfilePacket{};
+ template <typename T = StreamingProfilePacket> T* set_streaming_profile_packet() {
+ return BeginNestedMessage<T>(54);
+ }
+
+
+ using FieldMetadata_HeapGraph =
+ ::protozero::proto_utils::FieldMetadata<
+ 56,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ HeapGraph,
+ TracePacket>;
+
+ static constexpr FieldMetadata_HeapGraph kHeapGraph{};
+ template <typename T = HeapGraph> T* set_heap_graph() {
+ return BeginNestedMessage<T>(56);
+ }
+
+
+ using FieldMetadata_GraphicsFrameEvent =
+ ::protozero::proto_utils::FieldMetadata<
+ 57,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ GraphicsFrameEvent,
+ TracePacket>;
+
+ static constexpr FieldMetadata_GraphicsFrameEvent kGraphicsFrameEvent{};
+ template <typename T = GraphicsFrameEvent> T* set_graphics_frame_event() {
+ return BeginNestedMessage<T>(57);
+ }
+
+
+ using FieldMetadata_VulkanMemoryEvent =
+ ::protozero::proto_utils::FieldMetadata<
+ 62,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ VulkanMemoryEvent,
+ TracePacket>;
+
+ static constexpr FieldMetadata_VulkanMemoryEvent kVulkanMemoryEvent{};
+ template <typename T = VulkanMemoryEvent> T* set_vulkan_memory_event() {
+ return BeginNestedMessage<T>(62);
+ }
+
+
+ using FieldMetadata_GpuLog =
+ ::protozero::proto_utils::FieldMetadata<
+ 63,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ GpuLog,
+ TracePacket>;
+
+ static constexpr FieldMetadata_GpuLog kGpuLog{};
+ template <typename T = GpuLog> T* set_gpu_log() {
+ return BeginNestedMessage<T>(63);
+ }
+
+
+ using FieldMetadata_VulkanApiEvent =
+ ::protozero::proto_utils::FieldMetadata<
+ 65,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ VulkanApiEvent,
+ TracePacket>;
+
+ static constexpr FieldMetadata_VulkanApiEvent kVulkanApiEvent{};
+ template <typename T = VulkanApiEvent> T* set_vulkan_api_event() {
+ return BeginNestedMessage<T>(65);
+ }
+
+
+ using FieldMetadata_PerfSample =
+ ::protozero::proto_utils::FieldMetadata<
+ 66,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ PerfSample,
+ TracePacket>;
+
+ static constexpr FieldMetadata_PerfSample kPerfSample{};
+ template <typename T = PerfSample> T* set_perf_sample() {
+ return BeginNestedMessage<T>(66);
+ }
+
+
+ using FieldMetadata_CpuInfo =
+ ::protozero::proto_utils::FieldMetadata<
+ 67,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ CpuInfo,
+ TracePacket>;
+
+ static constexpr FieldMetadata_CpuInfo kCpuInfo{};
+ template <typename T = CpuInfo> T* set_cpu_info() {
+ return BeginNestedMessage<T>(67);
+ }
+
+
+ using FieldMetadata_SmapsPacket =
+ ::protozero::proto_utils::FieldMetadata<
+ 68,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SmapsPacket,
+ TracePacket>;
+
+ static constexpr FieldMetadata_SmapsPacket kSmapsPacket{};
+ template <typename T = SmapsPacket> T* set_smaps_packet() {
+ return BeginNestedMessage<T>(68);
+ }
+
+
+ using FieldMetadata_ServiceEvent =
+ ::protozero::proto_utils::FieldMetadata<
+ 69,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TracingServiceEvent,
+ TracePacket>;
+
+ static constexpr FieldMetadata_ServiceEvent kServiceEvent{};
+ template <typename T = TracingServiceEvent> T* set_service_event() {
+ return BeginNestedMessage<T>(69);
+ }
+
+
+ using FieldMetadata_InitialDisplayState =
+ ::protozero::proto_utils::FieldMetadata<
+ 70,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ InitialDisplayState,
+ TracePacket>;
+
+ static constexpr FieldMetadata_InitialDisplayState kInitialDisplayState{};
+ template <typename T = InitialDisplayState> T* set_initial_display_state() {
+ return BeginNestedMessage<T>(70);
+ }
+
+
+ using FieldMetadata_GpuMemTotalEvent =
+ ::protozero::proto_utils::FieldMetadata<
+ 71,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ GpuMemTotalEvent,
+ TracePacket>;
+
+ static constexpr FieldMetadata_GpuMemTotalEvent kGpuMemTotalEvent{};
+ template <typename T = GpuMemTotalEvent> T* set_gpu_mem_total_event() {
+ return BeginNestedMessage<T>(71);
+ }
+
+
+ using FieldMetadata_MemoryTrackerSnapshot =
+ ::protozero::proto_utils::FieldMetadata<
+ 73,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MemoryTrackerSnapshot,
+ TracePacket>;
+
+ static constexpr FieldMetadata_MemoryTrackerSnapshot kMemoryTrackerSnapshot{};
+ template <typename T = MemoryTrackerSnapshot> T* set_memory_tracker_snapshot() {
+ return BeginNestedMessage<T>(73);
+ }
+
+
+ using FieldMetadata_FrameTimelineEvent =
+ ::protozero::proto_utils::FieldMetadata<
+ 76,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ FrameTimelineEvent,
+ TracePacket>;
+
+ static constexpr FieldMetadata_FrameTimelineEvent kFrameTimelineEvent{};
+ template <typename T = FrameTimelineEvent> T* set_frame_timeline_event() {
+ return BeginNestedMessage<T>(76);
+ }
+
+
+ using FieldMetadata_AndroidEnergyEstimationBreakdown =
+ ::protozero::proto_utils::FieldMetadata<
+ 77,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ AndroidEnergyEstimationBreakdown,
+ TracePacket>;
+
+ static constexpr FieldMetadata_AndroidEnergyEstimationBreakdown kAndroidEnergyEstimationBreakdown{};
+ template <typename T = AndroidEnergyEstimationBreakdown> T* set_android_energy_estimation_breakdown() {
+ return BeginNestedMessage<T>(77);
+ }
+
+
+ using FieldMetadata_UiState =
+ ::protozero::proto_utils::FieldMetadata<
+ 78,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ UiState,
+ TracePacket>;
+
+ static constexpr FieldMetadata_UiState kUiState{};
+ template <typename T = UiState> T* set_ui_state() {
+ return BeginNestedMessage<T>(78);
+ }
+
+
+ using FieldMetadata_AndroidCameraFrameEvent =
+ ::protozero::proto_utils::FieldMetadata<
+ 80,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ AndroidCameraFrameEvent,
+ TracePacket>;
+
+ static constexpr FieldMetadata_AndroidCameraFrameEvent kAndroidCameraFrameEvent{};
+ template <typename T = AndroidCameraFrameEvent> T* set_android_camera_frame_event() {
+ return BeginNestedMessage<T>(80);
+ }
+
+
+ using FieldMetadata_AndroidCameraSessionStats =
+ ::protozero::proto_utils::FieldMetadata<
+ 81,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ AndroidCameraSessionStats,
+ TracePacket>;
+
+ static constexpr FieldMetadata_AndroidCameraSessionStats kAndroidCameraSessionStats{};
+ template <typename T = AndroidCameraSessionStats> T* set_android_camera_session_stats() {
+ return BeginNestedMessage<T>(81);
+ }
+
+
+ using FieldMetadata_TranslationTable =
+ ::protozero::proto_utils::FieldMetadata<
+ 82,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TranslationTable,
+ TracePacket>;
+
+ static constexpr FieldMetadata_TranslationTable kTranslationTable{};
+ template <typename T = TranslationTable> T* set_translation_table() {
+ return BeginNestedMessage<T>(82);
+ }
+
+
+ using FieldMetadata_AndroidGameInterventionList =
+ ::protozero::proto_utils::FieldMetadata<
+ 83,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ AndroidGameInterventionList,
+ TracePacket>;
+
+ static constexpr FieldMetadata_AndroidGameInterventionList kAndroidGameInterventionList{};
+ template <typename T = AndroidGameInterventionList> T* set_android_game_intervention_list() {
+ return BeginNestedMessage<T>(83);
+ }
+
+
+ using FieldMetadata_StatsdAtom =
+ ::protozero::proto_utils::FieldMetadata<
+ 84,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ StatsdAtom,
+ TracePacket>;
+
+ static constexpr FieldMetadata_StatsdAtom kStatsdAtom{};
+ template <typename T = StatsdAtom> T* set_statsd_atom() {
+ return BeginNestedMessage<T>(84);
+ }
+
+
+ using FieldMetadata_AndroidSystemProperty =
+ ::protozero::proto_utils::FieldMetadata<
+ 86,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ AndroidSystemProperty,
+ TracePacket>;
+
+ static constexpr FieldMetadata_AndroidSystemProperty kAndroidSystemProperty{};
+ template <typename T = AndroidSystemProperty> T* set_android_system_property() {
+ return BeginNestedMessage<T>(86);
+ }
+
+
+ using FieldMetadata_EntityStateResidency =
+ ::protozero::proto_utils::FieldMetadata<
+ 91,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ EntityStateResidency,
+ TracePacket>;
+
+ static constexpr FieldMetadata_EntityStateResidency kEntityStateResidency{};
+ template <typename T = EntityStateResidency> T* set_entity_state_residency() {
+ return BeginNestedMessage<T>(91);
+ }
+
+
+ using FieldMetadata_ProfiledFrameSymbols =
+ ::protozero::proto_utils::FieldMetadata<
+ 55,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ProfiledFrameSymbols,
+ TracePacket>;
+
+ static constexpr FieldMetadata_ProfiledFrameSymbols kProfiledFrameSymbols{};
+ template <typename T = ProfiledFrameSymbols> T* set_profiled_frame_symbols() {
+ return BeginNestedMessage<T>(55);
+ }
+
+
+ using FieldMetadata_ModuleSymbols =
+ ::protozero::proto_utils::FieldMetadata<
+ 61,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ModuleSymbols,
+ TracePacket>;
+
+ static constexpr FieldMetadata_ModuleSymbols kModuleSymbols{};
+ template <typename T = ModuleSymbols> T* set_module_symbols() {
+ return BeginNestedMessage<T>(61);
+ }
+
+
+ using FieldMetadata_DeobfuscationMapping =
+ ::protozero::proto_utils::FieldMetadata<
+ 64,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ DeobfuscationMapping,
+ TracePacket>;
+
+ static constexpr FieldMetadata_DeobfuscationMapping kDeobfuscationMapping{};
+ template <typename T = DeobfuscationMapping> T* set_deobfuscation_mapping() {
+ return BeginNestedMessage<T>(64);
+ }
+
+
+ using FieldMetadata_TrackDescriptor =
+ ::protozero::proto_utils::FieldMetadata<
+ 60,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TrackDescriptor,
+ TracePacket>;
+
+ static constexpr FieldMetadata_TrackDescriptor kTrackDescriptor{};
+ template <typename T = TrackDescriptor> T* set_track_descriptor() {
+ return BeginNestedMessage<T>(60);
+ }
+
+
+ using FieldMetadata_ProcessDescriptor =
+ ::protozero::proto_utils::FieldMetadata<
+ 43,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ProcessDescriptor,
+ TracePacket>;
+
+ static constexpr FieldMetadata_ProcessDescriptor kProcessDescriptor{};
+ template <typename T = ProcessDescriptor> T* set_process_descriptor() {
+ return BeginNestedMessage<T>(43);
+ }
+
+
+ using FieldMetadata_ThreadDescriptor =
+ ::protozero::proto_utils::FieldMetadata<
+ 44,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ThreadDescriptor,
+ TracePacket>;
+
+ static constexpr FieldMetadata_ThreadDescriptor kThreadDescriptor{};
+ template <typename T = ThreadDescriptor> T* set_thread_descriptor() {
+ return BeginNestedMessage<T>(44);
+ }
+
+
+ using FieldMetadata_FtraceEvents =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ FtraceEventBundle,
+ TracePacket>;
+
+ static constexpr FieldMetadata_FtraceEvents kFtraceEvents{};
+ template <typename T = FtraceEventBundle> T* set_ftrace_events() {
+ return BeginNestedMessage<T>(1);
+ }
+
+
+ using FieldMetadata_SynchronizationMarker =
+ ::protozero::proto_utils::FieldMetadata<
+ 36,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBytes,
+ std::string,
+ TracePacket>;
+
+ static constexpr FieldMetadata_SynchronizationMarker kSynchronizationMarker{};
+ void set_synchronization_marker(const uint8_t* data, size_t size) {
+ AppendBytes(FieldMetadata_SynchronizationMarker::kFieldId, data, size);
+ }
+ void set_synchronization_marker(::protozero::ConstBytes bytes) {
+ AppendBytes(FieldMetadata_SynchronizationMarker::kFieldId, bytes.data, bytes.size);
+ }
+ void set_synchronization_marker(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_SynchronizationMarker::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBytes>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CompressedPackets =
+ ::protozero::proto_utils::FieldMetadata<
+ 50,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBytes,
+ std::string,
+ TracePacket>;
+
+ static constexpr FieldMetadata_CompressedPackets kCompressedPackets{};
+ void set_compressed_packets(const uint8_t* data, size_t size) {
+ AppendBytes(FieldMetadata_CompressedPackets::kFieldId, data, size);
+ }
+ void set_compressed_packets(::protozero::ConstBytes bytes) {
+ AppendBytes(FieldMetadata_CompressedPackets::kFieldId, bytes.data, bytes.size);
+ }
+ void set_compressed_packets(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_CompressedPackets::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBytes>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ExtensionDescriptor =
+ ::protozero::proto_utils::FieldMetadata<
+ 72,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ExtensionDescriptor,
+ TracePacket>;
+
+ static constexpr FieldMetadata_ExtensionDescriptor kExtensionDescriptor{};
+ template <typename T = ExtensionDescriptor> T* set_extension_descriptor() {
+ return BeginNestedMessage<T>(72);
+ }
+
+
+ using FieldMetadata_NetworkPacket =
+ ::protozero::proto_utils::FieldMetadata<
+ 88,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ NetworkPacketEvent,
+ TracePacket>;
+
+ static constexpr FieldMetadata_NetworkPacket kNetworkPacket{};
+ template <typename T = NetworkPacketEvent> T* set_network_packet() {
+ return BeginNestedMessage<T>(88);
+ }
+
+
+ using FieldMetadata_NetworkPacketBundle =
+ ::protozero::proto_utils::FieldMetadata<
+ 92,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ NetworkPacketBundle,
+ TracePacket>;
+
+ static constexpr FieldMetadata_NetworkPacketBundle kNetworkPacketBundle{};
+ template <typename T = NetworkPacketBundle> T* set_network_packet_bundle() {
+ return BeginNestedMessage<T>(92);
+ }
+
+
+ using FieldMetadata_TrackEventRangeOfInterest =
+ ::protozero::proto_utils::FieldMetadata<
+ 90,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TrackEventRangeOfInterest,
+ TracePacket>;
+
+ static constexpr FieldMetadata_TrackEventRangeOfInterest kTrackEventRangeOfInterest{};
+ template <typename T = TrackEventRangeOfInterest> T* set_track_event_range_of_interest() {
+ return BeginNestedMessage<T>(90);
+ }
+
+
+ using FieldMetadata_SurfaceflingerLayersSnapshot =
+ ::protozero::proto_utils::FieldMetadata<
+ 93,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ LayersSnapshotProto,
+ TracePacket>;
+
+ static constexpr FieldMetadata_SurfaceflingerLayersSnapshot kSurfaceflingerLayersSnapshot{};
+ template <typename T = LayersSnapshotProto> T* set_surfaceflinger_layers_snapshot() {
+ return BeginNestedMessage<T>(93);
+ }
+
+
+ using FieldMetadata_SurfaceflingerTransactions =
+ ::protozero::proto_utils::FieldMetadata<
+ 94,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TransactionTraceEntry,
+ TracePacket>;
+
+ static constexpr FieldMetadata_SurfaceflingerTransactions kSurfaceflingerTransactions{};
+ template <typename T = TransactionTraceEntry> T* set_surfaceflinger_transactions() {
+ return BeginNestedMessage<T>(94);
+ }
+
+
+ using FieldMetadata_ShellTransition =
+ ::protozero::proto_utils::FieldMetadata<
+ 96,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ShellTransition,
+ TracePacket>;
+
+ static constexpr FieldMetadata_ShellTransition kShellTransition{};
+ template <typename T = ShellTransition> T* set_shell_transition() {
+ return BeginNestedMessage<T>(96);
+ }
+
+
+ using FieldMetadata_ShellHandlerMappings =
+ ::protozero::proto_utils::FieldMetadata<
+ 97,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ShellHandlerMappings,
+ TracePacket>;
+
+ static constexpr FieldMetadata_ShellHandlerMappings kShellHandlerMappings{};
+ template <typename T = ShellHandlerMappings> T* set_shell_handler_mappings() {
+ return BeginNestedMessage<T>(97);
+ }
+
+
+ using FieldMetadata_ProtologMessage =
+ ::protozero::proto_utils::FieldMetadata<
+ 104,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ProtoLogMessage,
+ TracePacket>;
+
+ static constexpr FieldMetadata_ProtologMessage kProtologMessage{};
+ template <typename T = ProtoLogMessage> T* set_protolog_message() {
+ return BeginNestedMessage<T>(104);
+ }
+
+
+ using FieldMetadata_ProtologViewerConfig =
+ ::protozero::proto_utils::FieldMetadata<
+ 105,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ProtoLogViewerConfig,
+ TracePacket>;
+
+ static constexpr FieldMetadata_ProtologViewerConfig kProtologViewerConfig{};
+ template <typename T = ProtoLogViewerConfig> T* set_protolog_viewer_config() {
+ return BeginNestedMessage<T>(105);
+ }
+
+
+ using FieldMetadata_EtwEvents =
+ ::protozero::proto_utils::FieldMetadata<
+ 95,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ EtwTraceEventBundle,
+ TracePacket>;
+
+ static constexpr FieldMetadata_EtwEvents kEtwEvents{};
+ template <typename T = EtwTraceEventBundle> T* set_etw_events() {
+ return BeginNestedMessage<T>(95);
+ }
+
+
+ using FieldMetadata_V8JsCode =
+ ::protozero::proto_utils::FieldMetadata<
+ 99,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ V8JsCode,
+ TracePacket>;
+
+ static constexpr FieldMetadata_V8JsCode kV8JsCode{};
+ template <typename T = V8JsCode> T* set_v8_js_code() {
+ return BeginNestedMessage<T>(99);
+ }
+
+
+ using FieldMetadata_V8InternalCode =
+ ::protozero::proto_utils::FieldMetadata<
+ 100,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ V8InternalCode,
+ TracePacket>;
+
+ static constexpr FieldMetadata_V8InternalCode kV8InternalCode{};
+ template <typename T = V8InternalCode> T* set_v8_internal_code() {
+ return BeginNestedMessage<T>(100);
+ }
+
+
+ using FieldMetadata_V8WasmCode =
+ ::protozero::proto_utils::FieldMetadata<
+ 101,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ V8WasmCode,
+ TracePacket>;
+
+ static constexpr FieldMetadata_V8WasmCode kV8WasmCode{};
+ template <typename T = V8WasmCode> T* set_v8_wasm_code() {
+ return BeginNestedMessage<T>(101);
+ }
+
+
+ using FieldMetadata_V8RegExpCode =
+ ::protozero::proto_utils::FieldMetadata<
+ 102,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ V8RegExpCode,
+ TracePacket>;
+
+ static constexpr FieldMetadata_V8RegExpCode kV8RegExpCode{};
+ template <typename T = V8RegExpCode> T* set_v8_reg_exp_code() {
+ return BeginNestedMessage<T>(102);
+ }
+
+
+ using FieldMetadata_V8CodeMove =
+ ::protozero::proto_utils::FieldMetadata<
+ 103,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ V8CodeMove,
+ TracePacket>;
+
+ static constexpr FieldMetadata_V8CodeMove kV8CodeMove{};
+ template <typename T = V8CodeMove> T* set_v8_code_move() {
+ return BeginNestedMessage<T>(103);
+ }
+
+
+ using FieldMetadata_AndroidInputEvent =
+ ::protozero::proto_utils::FieldMetadata<
+ 106,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ AndroidInputEvent,
+ TracePacket>;
+
+ static constexpr FieldMetadata_AndroidInputEvent kAndroidInputEvent{};
+ template <typename T = AndroidInputEvent> T* set_android_input_event() {
+ return BeginNestedMessage<T>(106);
+ }
+
+
+ using FieldMetadata_RemoteClockSync =
+ ::protozero::proto_utils::FieldMetadata<
+ 107,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ RemoteClockSync,
+ TracePacket>;
+
+ static constexpr FieldMetadata_RemoteClockSync kRemoteClockSync{};
+ template <typename T = RemoteClockSync> T* set_remote_clock_sync() {
+ return BeginNestedMessage<T>(107);
+ }
+
+
+ using FieldMetadata_ForTesting =
+ ::protozero::proto_utils::FieldMetadata<
+ 900,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TestEvent,
+ TracePacket>;
+
+ static constexpr FieldMetadata_ForTesting kForTesting{};
+ template <typename T = TestEvent> T* set_for_testing() {
+ return BeginNestedMessage<T>(900);
+ }
+
+
+ using FieldMetadata_TrustedUid =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ TracePacket>;
+
+ static constexpr FieldMetadata_TrustedUid kTrustedUid{};
+ void set_trusted_uid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TrustedUid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TrustedPacketSequenceId =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TracePacket>;
+
+ static constexpr FieldMetadata_TrustedPacketSequenceId kTrustedPacketSequenceId{};
+ void set_trusted_packet_sequence_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TrustedPacketSequenceId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TrustedPid =
+ ::protozero::proto_utils::FieldMetadata<
+ 79,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ TracePacket>;
+
+ static constexpr FieldMetadata_TrustedPid kTrustedPid{};
+ void set_trusted_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TrustedPid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_InternedData =
+ ::protozero::proto_utils::FieldMetadata<
+ 12,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ InternedData,
+ TracePacket>;
+
+ static constexpr FieldMetadata_InternedData kInternedData{};
+ template <typename T = InternedData> T* set_interned_data() {
+ return BeginNestedMessage<T>(12);
+ }
+
+
+ using FieldMetadata_SequenceFlags =
+ ::protozero::proto_utils::FieldMetadata<
+ 13,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TracePacket>;
+
+ static constexpr FieldMetadata_SequenceFlags kSequenceFlags{};
+ void set_sequence_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SequenceFlags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IncrementalStateCleared =
+ ::protozero::proto_utils::FieldMetadata<
+ 41,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ TracePacket>;
+
+ static constexpr FieldMetadata_IncrementalStateCleared kIncrementalStateCleared{};
+ void set_incremental_state_cleared(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_IncrementalStateCleared::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TracePacketDefaults =
+ ::protozero::proto_utils::FieldMetadata<
+ 59,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TracePacketDefaults,
+ TracePacket>;
+
+ static constexpr FieldMetadata_TracePacketDefaults kTracePacketDefaults{};
+ template <typename T = TracePacketDefaults> T* set_trace_packet_defaults() {
+ return BeginNestedMessage<T>(59);
+ }
+
+
+ using FieldMetadata_PreviousPacketDropped =
+ ::protozero::proto_utils::FieldMetadata<
+ 42,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ TracePacket>;
+
+ static constexpr FieldMetadata_PreviousPacketDropped kPreviousPacketDropped{};
+ void set_previous_packet_dropped(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_PreviousPacketDropped::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FirstPacketOnSequence =
+ ::protozero::proto_utils::FieldMetadata<
+ 87,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ TracePacket>;
+
+ static constexpr FieldMetadata_FirstPacketOnSequence kFirstPacketOnSequence{};
+ void set_first_packet_on_sequence(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_FirstPacketOnSequence::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MachineId =
+ ::protozero::proto_utils::FieldMetadata<
+ 98,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TracePacket>;
+
+ static constexpr FieldMetadata_MachineId kMachineId{};
+ void set_machine_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MachineId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_TRACING_DATA_SOURCE_H_
+#define INCLUDE_PERFETTO_TRACING_DATA_SOURCE_H_
+
+// This header contains the key class (DataSource) that a producer app should
+// override in order to create a custom data source that gets tracing Start/Stop
+// notifications and emits tracing data.
+
+#include <assert.h>
+#include <stddef.h>
+#include <stdint.h>
+
+#include <array>
+#include <atomic>
+#include <functional>
+#include <memory>
+#include <mutex>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/message_handle.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/buffer_exhausted_policy.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/core/flush_flags.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/core/forward_decls.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/internal/basic_types.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/internal/data_source_internal.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/internal/data_source_type.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/internal/tracing_muxer.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/locked_handle.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/trace_writer_base.h"
+
+// gen_amalgamated expanded: #include "protos/perfetto/trace/trace_packet.pbzero.h"
+
+// DEPRECATED: Instead of using this macro, prefer specifying symbol linkage
+// attributes explicitly using the `_WITH_ATTRS` macro variants (e.g.,
+// PERFETTO_DECLARE_DATA_SOURCE_STATIC_MEMBERS_WITH_ATTRS). This avoids
+// potential macro definition collisions between two libraries using Perfetto.
+//
+// PERFETTO_COMPONENT_EXPORT is used to mark symbols in Perfetto's headers
+// (typically templates) that are defined by the user outside of Perfetto and
+// should be made visible outside the current module. (e.g., in Chrome's
+// component build).
+#if !defined(PERFETTO_COMPONENT_EXPORT)
+#if PERFETTO_BUILDFLAG(PERFETTO_COMPILER_MSVC)
+// Workaround for C4003: not enough arguments for function-like macro invocation
+// 'PERFETTO_INTERNAL_DECLARE_TRACK_EVENT_DATA_SOURCE'
+#define PERFETTO_COMPONENT_EXPORT __declspec()
+#else
+#define PERFETTO_COMPONENT_EXPORT
+#endif
+#endif
+
+namespace perfetto {
+namespace internal {
+class TracingMuxerImpl;
+class TrackEventCategoryRegistry;
+template <typename, const internal::TrackEventCategoryRegistry*>
+class TrackEventDataSource;
+} // namespace internal
+
+namespace shlib {
+class TrackEvent;
+} // namespace shlib
+
+namespace test {
+class DataSourceInternalForTest;
+} // namespace test
+
+// Base class with the virtual methods to get start/stop notifications.
+// Embedders are supposed to derive the templated version below, not this one.
+class PERFETTO_EXPORT_COMPONENT DataSourceBase {
+ public:
+ virtual ~DataSourceBase();
+
+ // TODO(primiano): change the const& args below to be pointers instead. It
+ // makes it more awkward to handle output arguments and require mutable(s).
+ // This requires synchronizing a breaking API change for existing embedders.
+
+ // OnSetup() is invoked when tracing is configured. In most cases this happens
+ // just before starting the trace. In the case of deferred start (see
+ // deferred_start in trace_config.proto) start might happen later.
+ //
+ // Can be called from any thread.
+ class SetupArgs {
+ public:
+ // This is valid only within the scope of the OnSetup() call and must not
+ // be retained.
+ const DataSourceConfig* config = nullptr;
+
+ // Backend type.
+ BackendType backend_type = kUnspecifiedBackend;
+
+ // The index of this data source instance (0..kMaxDataSourceInstances - 1).
+ uint32_t internal_instance_index = 0;
+ };
+ virtual void OnSetup(const SetupArgs&);
+
+ class StartArgs {
+ public:
+ // The index of this data source instance (0..kMaxDataSourceInstances - 1).
+ uint32_t internal_instance_index = 0;
+ };
+ // Invoked after tracing is actually started.
+ //
+ // Can be called from any thread.
+ virtual void OnStart(const StartArgs&);
+
+ class PERFETTO_EXPORT_COMPONENT StopArgs {
+ public:
+ virtual ~StopArgs();
+
+ // HandleAsynchronously() can optionally be called to defer the tracing
+ // session stop and write tracing data just before stopping.
+ // This function returns a closure that must be invoked after the last
+ // trace events have been emitted. The returned closure can be called from
+ // any thread. The caller also needs to explicitly call TraceContext.Flush()
+ // from the last Trace() lambda invocation because no other implicit flushes
+ // will happen after the stop signal.
+ // When this function is called, the tracing service will defer the stop of
+ // the tracing session until the returned closure is invoked.
+ // However, the caller cannot hang onto this closure for too long. The
+ // tracing service will forcefully stop the tracing session without waiting
+ // for pending producers after TraceConfig.data_source_stop_timeout_ms
+ // (default: 5s, can be overridden by Consumers when starting a trace).
+ // If the closure is called after this timeout an error will be logged and
+ // the trace data emitted will not be present in the trace. No other
+ // functional side effects (e.g. crashes or corruptions) will happen. In
+ // other words, it is fine to accidentally hold onto this closure for too
+ // long but, if that happens, some tracing data will be lost.
+ virtual std::function<void()> HandleStopAsynchronously() const = 0;
+
+ // The index of this data source instance (0..kMaxDataSourceInstances - 1).
+ uint32_t internal_instance_index = 0;
+ };
+ // Invoked before tracing is stopped.
+ //
+ // Can be called from any thread. Blocking this for too long it's not a good
+ // idea and can cause deadlocks. Use HandleAsynchronously() to postpone
+ // disabling the data source instance.
+ virtual void OnStop(const StopArgs&);
+
+ class ClearIncrementalStateArgs {
+ public:
+ // The index of this data source instance (0..kMaxDataSourceInstances - 1).
+ uint32_t internal_instance_index = 0;
+ };
+ // Invoked before marking the thread local per-instance incremental state
+ // outdated.
+ //
+ // Can be called from any thread.
+ virtual void WillClearIncrementalState(const ClearIncrementalStateArgs&);
+
+ class FlushArgs {
+ public:
+ virtual ~FlushArgs();
+
+ // HandleFlushAsynchronously() can be called to postpone acknowledging the
+ // flush request. This function returns a closure that must be invoked after
+ // the flush request has been processed. The returned closure can be called
+ // from any thread.
+ virtual std::function<void()> HandleFlushAsynchronously() const = 0;
+
+ // The index of this data source instance (0..kMaxDataSourceInstances - 1).
+ uint32_t internal_instance_index = 0;
+
+ // The reason and initiator of the flush. See flush_flags.h .
+ FlushFlags flush_flags;
+ };
+ // Called when the tracing service requests a Flush. Users can override this
+ // to tell other threads to flush their TraceContext for this data source
+ // (the library cannot execute code on all the threads on its own).
+ //
+ // Can be called from any thread. Blocking this for too long it's not a good
+ // idea and can cause deadlocks. Use HandleAsynchronously() to postpone
+ // sending the flush acknowledgement to the service.
+ virtual void OnFlush(const FlushArgs&);
+
+ // Determines whether a startup session can be adopted by a service-initiated
+ // tracing session (i.e. whether their configs are compatible).
+ virtual bool CanAdoptStartupSession(const DataSourceConfig& startup_config,
+ const DataSourceConfig& service_config);
+};
+
+struct DefaultDataSourceTraits {
+ // |IncrementalStateType| can optionally be used store custom per-sequence
+ // incremental data (e.g., interning tables).
+ using IncrementalStateType = void;
+ // |TlsStateType| can optionally be used to store custom per-sequence
+ // session data, which is not reset when incremental state is cleared
+ // (e.g. configuration options).
+ using TlsStateType = void;
+
+ // Allows overriding what type of thread-local state configuration the data
+ // source uses. By default every data source gets independent thread-local
+ // state, which means every instance uses separate trace writers and
+ // incremental state even on the same thread. Some data sources (most notably
+ // the track event data source) want to share trace writers and incremental
+ // state on the same thread.
+ static internal::DataSourceThreadLocalState* GetDataSourceTLS(
+ internal::DataSourceStaticState* static_state,
+ internal::TracingTLS* root_tls) {
+ auto* ds_tls = &root_tls->data_sources_tls[static_state->index];
+ // ds_tls->static_state can be:
+ // * nullptr
+ // * equal to static_state
+ // * equal to the static state of a different data source, in tests (when
+ // ResetForTesting() has been used)
+ // In any case, there's no need to do anything, the caller will reinitialize
+ // static_state.
+ return ds_tls;
+ }
+};
+
+// Holds the type for a DataSource. Accessed by the static Trace() method
+// fastpaths. This allows redefinitions under a component where a component
+// specific export macro is used.
+// Due to C2086 (redefinition) error on MSVC/clang-cl, internal::DataSourceType
+// can't be a static data member. To avoid explicit specialization after
+// instantiation error, type() needs to be in a template helper class that's
+// instantiated independently from DataSource. See b/280777748.
+template <typename DerivedDataSource,
+ typename DataSourceTraits = DefaultDataSourceTraits>
+struct DataSourceHelper {
+ static internal::DataSourceType& type() {
+ static perfetto::internal::DataSourceType type_;
+ return type_;
+ }
+};
+
+// Templated base class meant to be derived by embedders to create a custom data
+// source. DerivedDataSource must be the type of the derived class itself, e.g.:
+// class MyDataSource : public DataSource<MyDataSource> {...}.
+//
+// |DataSourceTraits| allows customizing the behavior of the data source. See
+// |DefaultDataSourceTraits|.
+template <typename DerivedDataSource,
+ typename DataSourceTraits = DefaultDataSourceTraits>
+class DataSource : public DataSourceBase {
+ struct DefaultTracePointTraits;
+ using Helper = DataSourceHelper<DerivedDataSource, DataSourceTraits>;
+
+ public:
+ // The BufferExhaustedPolicy to use for TraceWriters of this DataSource.
+ // Override this in your DataSource class to change the default, which is to
+ // drop data on shared memory overruns.
+ constexpr static BufferExhaustedPolicy kBufferExhaustedPolicy =
+ BufferExhaustedPolicy::kDrop;
+
+ // When this flag is false, we cannot have multiple instances of this data
+ // source. When a data source is already active and if we attempt
+ // to start another instance of that data source (via another tracing
+ // session), it will fail to start the second instance of data source.
+ static constexpr bool kSupportsMultipleInstances = true;
+
+ // When this flag is true, DataSource callbacks (OnSetup, OnStart, etc.) are
+ // called under the lock (the same that is used in GetDataSourceLocked
+ // function). This is not recommended because it can lead to deadlocks, but
+ // it was the default behavior for a long time and some embedders rely on it
+ // to protect concurrent access to the DataSource members. So we keep the
+ // "true" value as the default.
+ static constexpr bool kRequiresCallbacksUnderLock = true;
+
+ // Argument passed to the lambda function passed to Trace() (below).
+ class TraceContext {
+ public:
+ using TracePacketHandle =
+ ::protozero::MessageHandle<::perfetto::protos::pbzero::TracePacket>;
+
+ TraceContext(TraceContext&&) noexcept = default;
+ ~TraceContext() {
+ // If the data source is being intercepted, flush the trace writer after
+ // each trace point to make sure the interceptor sees the data right away.
+ if (PERFETTO_UNLIKELY(tls_inst_->is_intercepted))
+ Flush();
+ }
+
+ // Adds an empty trace packet to the trace to ensure that the service can
+ // safely read the last event from the trace buffer.
+ // See PERFETTO_INTERNAL_ADD_EMPTY_EVENT macros for context.
+ void AddEmptyTracePacket() {
+ // If nothing was written since the last empty packet, there's nothing to
+ // scrape, so adding more empty packets serves no purpose.
+ if (tls_inst_->trace_writer->written() ==
+ tls_inst_->last_empty_packet_position) {
+ return;
+ }
+ tls_inst_->trace_writer->NewTracePacket();
+ tls_inst_->last_empty_packet_position =
+ tls_inst_->trace_writer->written();
+ }
+
+ TracePacketHandle NewTracePacket() {
+ return tls_inst_->trace_writer->NewTracePacket();
+ }
+
+ // Forces a commit of the thread-local tracing data written so far to the
+ // service. This is almost never required (tracing data is periodically
+ // committed as trace pages are filled up) and has a non-negligible
+ // performance hit (requires an IPC + refresh of the current thread-local
+ // chunk). The only case when this should be used is when handling OnStop()
+ // asynchronously, to ensure sure that the data is committed before the
+ // Stop timeout expires.
+ // The TracePacketHandle obtained by the last NewTracePacket() call must be
+ // finalized before calling Flush() (either implicitly by going out of scope
+ // or by explicitly calling Finalize()).
+ // |cb| is an optional callback. When non-null it will request the
+ // service to ACK the flush and will be invoked on an internal thread after
+ // the service has acknowledged it. The callback might be NEVER INVOKED if
+ // the service crashes or the IPC connection is dropped.
+ void Flush(std::function<void()> cb = {}) {
+ tls_inst_->trace_writer->Flush(cb);
+ }
+
+ // Returns the number of bytes written on the current thread by the current
+ // data-source since its creation.
+ // This can be useful for splitting protos that might grow very large.
+ uint64_t written() { return tls_inst_->trace_writer->written(); }
+
+ // Returns a RAII handle to access the data source instance, guaranteeing
+ // that it won't be deleted on another thread (because of trace stopping)
+ // while accessing it from within the Trace() lambda.
+ // The returned handle can be invalid (nullptr) if tracing is stopped
+ // immediately before calling this. The caller is supposed to check for its
+ // validity before using it. After checking, the handle is guaranteed to
+ // remain valid until the handle goes out of scope.
+ LockedHandle<DerivedDataSource> GetDataSourceLocked() const {
+ auto* internal_state =
+ Helper::type().static_state()->TryGet(instance_index_);
+ if (!internal_state)
+ return LockedHandle<DerivedDataSource>();
+ std::unique_lock<std::recursive_mutex> lock(internal_state->lock);
+ return LockedHandle<DerivedDataSource>(
+ std::move(lock),
+ static_cast<DerivedDataSource*>(internal_state->data_source.get()));
+ }
+
+ // Post-condition: returned ptr will be non-null.
+ typename DataSourceTraits::TlsStateType* GetCustomTlsState() {
+ PERFETTO_DCHECK(tls_inst_->data_source_custom_tls);
+ return reinterpret_cast<typename DataSourceTraits::TlsStateType*>(
+ tls_inst_->data_source_custom_tls.get());
+ }
+
+ typename DataSourceTraits::IncrementalStateType* GetIncrementalState() {
+ return static_cast<typename DataSourceTraits::IncrementalStateType*>(
+ Helper::type().GetIncrementalState(tls_inst_, instance_index_));
+ }
+
+ private:
+ friend class DataSource;
+ template <typename, const internal::TrackEventCategoryRegistry*>
+ friend class internal::TrackEventDataSource;
+ TraceContext(internal::DataSourceInstanceThreadLocalState* tls_inst,
+ uint32_t instance_index)
+ : tls_inst_(tls_inst), instance_index_(instance_index) {}
+ TraceContext(const TraceContext&) = delete;
+ TraceContext& operator=(const TraceContext&) = delete;
+
+ internal::DataSourceInstanceThreadLocalState* const tls_inst_;
+ uint32_t const instance_index_;
+ };
+
+ // The main tracing method. Tracing code should call this passing a lambda as
+ // argument, with the following signature: void(TraceContext).
+ // The lambda will be called synchronously (i.e., always before Trace()
+ // returns) only if tracing is enabled and the data source has been enabled in
+ // the tracing config.
+ // The lambda can be called more than once per Trace() call, in the case of
+ // concurrent tracing sessions (or even if the data source is instantiated
+ // twice within the same trace config).
+ template <typename Lambda>
+ static void Trace(Lambda tracing_fn) {
+ CallIfEnabled<DefaultTracePointTraits>([&tracing_fn](uint32_t instances) {
+ TraceWithInstances<DefaultTracePointTraits>(instances,
+ std::move(tracing_fn));
+ });
+ }
+
+ // An efficient trace point guard for checking if this data source is active.
+ // |callback| is a function which will only be called if there are active
+ // instances. It is given an instance state parameter, which should be passed
+ // to TraceWithInstances() to actually record trace data.
+ template <typename Traits = DefaultTracePointTraits, typename Callback>
+ static void CallIfEnabled(Callback callback,
+ typename Traits::TracePointData trace_point_data =
+ {}) PERFETTO_ALWAYS_INLINE {
+ // |instances| is a per-class bitmap that tells:
+ // 1. If the data source is enabled at all.
+ // 2. The index of the slot within
+ // internal::DataSourceStaticState::instances that holds the instance
+ // state. In turn this allows to map the data source to the tracing
+ // session and buffers.
+ // memory_order_relaxed is okay because:
+ // - |instances| is re-read with an acquire barrier below if this succeeds.
+ // - The code between this point and the acquire-load is based on static
+ // storage which has indefinite lifetime.
+ uint32_t instances = Traits::GetActiveInstances(trace_point_data)
+ ->load(std::memory_order_relaxed);
+
+ // This is the tracing fast-path. Bail out immediately if tracing is not
+ // enabled (or tracing is enabled but not for this data source).
+ if (PERFETTO_LIKELY(!instances))
+ return;
+ callback(instances);
+ }
+
+ // The "lower half" of a trace point which actually performs tracing after
+ // this data source has been determined to be active.
+ // |instances| must be the instance state value retrieved through
+ // CallIfEnabled().
+ // |tracing_fn| will be called to record trace data as in Trace().
+ //
+ // |trace_point_data| is an optional parameter given to |Traits::
+ // GetActiveInstances| to make it possible to use custom storage for
+ // the data source enabled state. This is, for example, used by TrackEvent to
+ // implement per-tracing category enabled states.
+ template <typename Traits = DefaultTracePointTraits, typename Lambda>
+ static void TraceWithInstances(
+ uint32_t cached_instances,
+ Lambda tracing_fn,
+ typename Traits::TracePointData trace_point_data = {}) {
+ PERFETTO_DCHECK(cached_instances);
+
+ if (!Helper::type().template TracePrologue<DataSourceTraits, Traits>(
+ &tls_state_, &cached_instances, trace_point_data)) {
+ return;
+ }
+
+ for (internal::DataSourceType::InstancesIterator it =
+ Helper::type().template BeginIteration<Traits>(
+ cached_instances, tls_state_, trace_point_data);
+ it.instance; Helper::type().template NextIteration<Traits>(
+ &it, tls_state_, trace_point_data)) {
+ tracing_fn(TraceContext(it.instance, it.i));
+ }
+
+ Helper::type().TraceEpilogue(tls_state_);
+ }
+
+ // Registers the data source on all tracing backends, including ones that
+ // connect after the registration. Doing so enables the data source to receive
+ // Setup/Start/Stop notifications and makes the Trace() method work when
+ // tracing is enabled and the data source is selected.
+ // This must be called after Tracing::Initialize().
+ // Can return false to signal failure if attemping to register more than
+ // kMaxDataSources (32) data sources types or if tracing hasn't been
+ // initialized.
+ // The optional |constructor_args| will be passed to the data source when it
+ // is constructed.
+ template <class... Args>
+ static bool Register(const DataSourceDescriptor& descriptor,
+ const Args&... constructor_args) {
+ // Silences -Wunused-variable warning in case the trace method is not used
+ // by the translation unit that declares the data source.
+ (void)tls_state_;
+
+ auto factory = [constructor_args...]() {
+ return std::unique_ptr<DataSourceBase>(
+ new DerivedDataSource(constructor_args...));
+ };
+ constexpr bool no_flush =
+ std::is_same_v<decltype(&DerivedDataSource::OnFlush),
+ decltype(&DataSourceBase::OnFlush)>;
+ internal::DataSourceParams params{
+ DerivedDataSource::kSupportsMultipleInstances,
+ DerivedDataSource::kRequiresCallbacksUnderLock};
+ return Helper::type().Register(
+ descriptor, factory, params, DerivedDataSource::kBufferExhaustedPolicy,
+ no_flush,
+ GetCreateTlsFn(
+ static_cast<typename DataSourceTraits::TlsStateType*>(nullptr)),
+ GetCreateIncrementalStateFn(
+ static_cast<typename DataSourceTraits::IncrementalStateType*>(
+ nullptr)),
+ nullptr);
+ }
+
+ // Updates the data source descriptor.
+ static void UpdateDescriptor(const DataSourceDescriptor& descriptor) {
+ Helper::type().UpdateDescriptor(descriptor);
+ }
+
+ private:
+ friend ::perfetto::test::DataSourceInternalForTest;
+ friend ::perfetto::shlib::TrackEvent;
+ // Traits for customizing the behavior of a specific trace point.
+ struct DefaultTracePointTraits {
+ // By default, every call to DataSource::Trace() will record trace events
+ // for every active instance of that data source. A single trace point can,
+ // however, use a custom set of enable flags for more fine grained control
+ // of when that trace point is active.
+ //
+ // DANGER: when doing this, the data source must use the appropriate memory
+ // fences when changing the state of the bitmap.
+ //
+ // |TraceWithInstances| may be optionally given an additional parameter for
+ // looking up the enable flags. That parameter is passed as |TracePointData|
+ // to |GetActiveInstances|. This is, for example, used by TrackEvent to
+ // implement per-category enabled states.
+ struct TracePointData {};
+ static constexpr std::atomic<uint32_t>* GetActiveInstances(TracePointData) {
+ return Helper::type().valid_instances();
+ }
+ };
+
+ template <typename T>
+ static internal::DataSourceInstanceThreadLocalState::ObjectWithDeleter
+ CreateIncrementalState(internal::DataSourceInstanceThreadLocalState*,
+ uint32_t,
+ void*) {
+ return internal::DataSourceInstanceThreadLocalState::ObjectWithDeleter(
+ reinterpret_cast<void*>(new T()),
+ [](void* p) { delete reinterpret_cast<T*>(p); });
+ }
+
+ // The second parameter here is used to specialize the case where there is no
+ // incremental state type.
+ template <typename T>
+ static internal::DataSourceType::CreateIncrementalStateFn
+ GetCreateIncrementalStateFn(const T*) {
+ return &CreateIncrementalState<T>;
+ }
+
+ static internal::DataSourceType::CreateIncrementalStateFn
+ GetCreateIncrementalStateFn(const void*) {
+ return nullptr;
+ }
+
+ template <typename T>
+ static internal::DataSourceInstanceThreadLocalState::ObjectWithDeleter
+ CreateDataSourceCustomTls(
+ internal::DataSourceInstanceThreadLocalState* tls_inst,
+ uint32_t instance_index,
+ void*) {
+ return internal::DataSourceInstanceThreadLocalState::ObjectWithDeleter(
+ reinterpret_cast<void*>(new T(TraceContext(tls_inst, instance_index))),
+ [](void* p) { delete reinterpret_cast<T*>(p); });
+ }
+
+ // The second parameter here is used to specialize the case where there is no
+ // tls state type.
+ template <typename T>
+ static internal::DataSourceType::CreateCustomTlsFn GetCreateTlsFn(const T*) {
+ return &CreateDataSourceCustomTls<T>;
+ }
+
+ static internal::DataSourceType::CreateCustomTlsFn GetCreateTlsFn(
+ const void*) {
+ return nullptr;
+ }
+
+ // This TLS object is a cached raw pointer and has deliberately no destructor.
+ // The Platform implementation is supposed to create and manage the lifetime
+ // of the Platform::ThreadLocalObject and take care of destroying it.
+ // This is because non-POD thread_local variables have subtleties (global
+ // destructors) that we need to defer to the embedder. In chromium's platform
+ // implementation, for instance, the tls slot is implemented using
+ // chromium's base::ThreadLocalStorage.
+ static thread_local internal::DataSourceThreadLocalState* tls_state_;
+};
+
+// static
+template <typename T, typename D>
+thread_local internal::DataSourceThreadLocalState* DataSource<T, D>::tls_state_;
+
+} // namespace perfetto
+
+// If placed at the end of a macro declaration, eats the semicolon at the end of
+// the macro invocation (e.g., "MACRO(...);") to avoid warnings about extra
+// semicolons.
+#define PERFETTO_INTERNAL_SWALLOW_SEMICOLON() \
+ extern int perfetto_internal_unused
+
+// This macro must be used once for each data source next to the data source's
+// declaration.
+#define PERFETTO_DECLARE_DATA_SOURCE_STATIC_MEMBERS(...) \
+ PERFETTO_DECLARE_DATA_SOURCE_STATIC_MEMBERS_WITH_ATTRS( \
+ PERFETTO_COMPONENT_EXPORT, __VA_ARGS__)
+
+// Similar to `PERFETTO_DECLARE_DATA_SOURCE_STATIC_MEMBERS` but it also takes
+// custom attributes, which are useful when DataSource is defined in a component
+// where a component specific export macro is used.
+#define PERFETTO_DECLARE_DATA_SOURCE_STATIC_MEMBERS_WITH_ATTRS(attrs, ...) \
+ template <> \
+ attrs perfetto::internal::DataSourceType& \
+ perfetto::DataSourceHelper<__VA_ARGS__>::type()
+
+// This macro must be used once for each data source in one source file to
+// allocate static storage for the data source's static state.
+#define PERFETTO_DEFINE_DATA_SOURCE_STATIC_MEMBERS(...) \
+ PERFETTO_DEFINE_DATA_SOURCE_STATIC_MEMBERS_WITH_ATTRS( \
+ PERFETTO_COMPONENT_EXPORT, __VA_ARGS__)
+
+// Similar to `PERFETTO_DEFINE_DATA_SOURCE_STATIC_MEMBERS` but it also takes
+// custom attributes, which are useful when DataSource is defined in a component
+// where a component specific export macro is used.
+#define PERFETTO_DEFINE_DATA_SOURCE_STATIC_MEMBERS_WITH_ATTRS(attrs, ...) \
+ template <> \
+ perfetto::internal::DataSourceType& \
+ perfetto::DataSourceHelper<__VA_ARGS__>::type() { \
+ static perfetto::internal::DataSourceType type_; \
+ return type_; \
+ } \
+ PERFETTO_INTERNAL_SWALLOW_SEMICOLON()
+
+#endif // INCLUDE_PERFETTO_TRACING_DATA_SOURCE_H_
+// gen_amalgamated begin header: include/perfetto/tracing/track_event.h
+// gen_amalgamated begin header: include/perfetto/tracing/internal/track_event_data_source.h
+// gen_amalgamated begin header: include/perfetto/base/template_util.h
+/*
+ * Copyright (C) 2021 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_BASE_TEMPLATE_UTIL_H_
+#define INCLUDE_PERFETTO_BASE_TEMPLATE_UTIL_H_
+
+#include <cstddef>
+#include <type_traits>
+
+namespace perfetto {
+namespace base {
+
+// Helper to express preferences in an overload set. If more than one overload
+// is available for a given set of parameters the overload with the higher
+// priority will be chosen.
+template <size_t I>
+struct priority_tag : priority_tag<I - 1> {};
+
+template <>
+struct priority_tag<0> {};
+
+// enable_if_t is an implementation of std::enable_if_t from C++14.
+//
+// Specification:
+// https://en.cppreference.com/w/cpp/types/enable_if
+template <bool B, class T = void>
+using enable_if_t = typename std::enable_if<B, T>::type;
+
+// decay_t is an implementation of std::decay_t from C++14.
+//
+// Specification:
+// https://en.cppreference.com/w/cpp/types/decay
+template <class T>
+using decay_t = typename std::decay<T>::type;
+
+// remove_cvref is an implementation of std::remove_cvref from
+// C++20.
+//
+// Specification:
+// https://en.cppreference.com/w/cpp/types/remove_cvref
+
+template <class T>
+struct remove_cvref {
+ using type = typename std::remove_cv<typename std::remove_cv<
+ typename std::remove_reference<T>::type>::type>::type;
+};
+template <class T>
+using remove_cvref_t = typename remove_cvref<T>::type;
+
+// Check if a given type is a specialization of a given template:
+// is_specialization<T, std::vector>::value.
+
+template <typename Type, template <typename...> class Template>
+struct is_specialization : std::false_type {};
+
+template <template <typename...> class Ref, typename... Args>
+struct is_specialization<Ref<Args...>, Ref> : std::true_type {};
+
+} // namespace base
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_BASE_TEMPLATE_UTIL_H_
+// gen_amalgamated begin header: include/perfetto/tracing/event_context.h
+// gen_amalgamated begin header: include/perfetto/tracing/internal/track_event_internal.h
+// gen_amalgamated begin header: include/perfetto/base/flat_set.h
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_BASE_FLAT_SET_H_
+#define INCLUDE_PERFETTO_BASE_FLAT_SET_H_
+
+#include <algorithm>
+#include <vector>
+
+// A vector-based set::set-like container.
+// It's more cache friendly than std::*set and performs for cases where:
+// 1. A high number of dupes is expected (e.g. pid tracking in ftrace).
+// 2. The working set is small (hundreds of elements).
+
+// Performance characteristics (for uniformly random insertion order):
+// - For smaller insertions (up to ~500), it outperforms both std::set<int> and
+// std::unordered_set<int> by ~3x.
+// - Up until 4k insertions, it is always faster than std::set<int>.
+// - unordered_set<int> is faster with more than 2k insertions.
+// - unordered_set, however, it's less memory efficient and has more caveats
+// (see chromium's base/containers/README.md).
+//
+// See flat_set_benchmark.cc and the charts in go/perfetto-int-set-benchmark.
+
+namespace perfetto {
+namespace base {
+
+template <typename T>
+class FlatSet {
+ public:
+ using value_type = T;
+ using const_pointer = const T*;
+ using iterator = typename std::vector<T>::iterator;
+ using const_iterator = typename std::vector<T>::const_iterator;
+
+ FlatSet() = default;
+
+ // Mainly for tests. Deliberately not marked as "explicit".
+ FlatSet(std::initializer_list<T> initial) : entries_(initial) {
+ std::sort(entries_.begin(), entries_.end());
+ entries_.erase(std::unique(entries_.begin(), entries_.end()),
+ entries_.end());
+ }
+
+ const_iterator find(T value) const {
+ auto entries_end = entries_.end();
+ auto it = std::lower_bound(entries_.begin(), entries_end, value);
+ return (it != entries_end && *it == value) ? it : entries_end;
+ }
+
+ size_t count(T value) const { return find(value) == entries_.end() ? 0 : 1; }
+
+ std::pair<iterator, bool> insert(T value) {
+ auto entries_end = entries_.end();
+ auto it = std::lower_bound(entries_.begin(), entries_end, value);
+ if (it != entries_end && *it == value)
+ return std::make_pair(it, false);
+ // If the value is not found |it| is either end() or the next item strictly
+ // greater than |value|. In both cases we want to insert just before that.
+ it = entries_.insert(it, std::move(value));
+ return std::make_pair(it, true);
+ }
+
+ size_t erase(T value) {
+ auto it = find(value);
+ if (it == entries_.end())
+ return 0;
+ entries_.erase(it);
+ return 1;
+ }
+
+ void clear() { entries_.clear(); }
+
+ bool empty() const { return entries_.empty(); }
+ void reserve(size_t n) { entries_.reserve(n); }
+ size_t size() const { return entries_.size(); }
+ const_iterator begin() const { return entries_.begin(); }
+ const_iterator end() const { return entries_.end(); }
+
+ private:
+ std::vector<T> entries_;
+};
+
+} // namespace base
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_BASE_FLAT_SET_H_
+// gen_amalgamated begin header: include/perfetto/protozero/scattered_heap_buffer.h
+// gen_amalgamated begin header: include/perfetto/protozero/root_message.h
+// gen_amalgamated begin header: include/perfetto/protozero/message_arena.h
+/*
+ * Copyright (C) 2020 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_PROTOZERO_MESSAGE_ARENA_H_
+#define INCLUDE_PERFETTO_PROTOZERO_MESSAGE_ARENA_H_
+
+#include <stdint.h>
+
+#include <forward_list>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+
+namespace protozero {
+
+class Message;
+
+// Object allocator for fixed-sized protozero::Message objects.
+// It's a simple bump-pointer allocator which leverages the stack-alike
+// usage pattern of protozero nested messages. It avoids hitting the system
+// allocator in most cases, by reusing the same block, and falls back on
+// allocating new blocks only when using deeply nested messages (which are
+// extremely rare).
+// This is used by RootMessage<T> to handle the storage for root-level messages.
+class PERFETTO_EXPORT_COMPONENT MessageArena {
+ public:
+ MessageArena();
+ ~MessageArena();
+
+ // Strictly no copies or moves as this is used to hand out pointers.
+ MessageArena(const MessageArena&) = delete;
+ MessageArena& operator=(const MessageArena&) = delete;
+ MessageArena(MessageArena&&) = delete;
+ MessageArena& operator=(MessageArena&&) = delete;
+
+ // Allocates a new Message object.
+ Message* NewMessage();
+
+ // Deletes the last message allocated. The |msg| argument is used only for
+ // DCHECKs, it MUST be the pointer obtained by the last NewMessage() call.
+ void DeleteLastMessage(Message* msg) {
+ PERFETTO_DCHECK(!blocks_.empty() && blocks_.front().entries > 0);
+ PERFETTO_DCHECK(&blocks_.front().storage[blocks_.front().entries - 1] ==
+ static_cast<void*>(msg));
+ DeleteLastMessageInternal();
+ }
+
+ // Resets the state of the arena, clearing up all but one block. This is used
+ // to avoid leaking outstanding unfinished sub-messages while recycling the
+ // RootMessage object (this is extremely rare due to the RAII scoped handles
+ // but could happen if some client does some overly clever std::move() trick).
+ void Reset() {
+ PERFETTO_DCHECK(!blocks_.empty());
+ blocks_.resize(1);
+ auto& block = blocks_.front();
+ block.entries = 0;
+ PERFETTO_ASAN_POISON(block.storage, sizeof(block.storage));
+ }
+
+ private:
+ void DeleteLastMessageInternal();
+
+ struct Block {
+ static constexpr size_t kCapacity = 16;
+
+ Block() { PERFETTO_ASAN_POISON(storage, sizeof(storage)); }
+
+ std::aligned_storage<sizeof(Message), alignof(Message)>::type
+ storage[kCapacity];
+ uint32_t entries = 0; // # Message entries used (<= kCapacity).
+ };
+
+ // blocks are used to hand out pointers and must not be moved. Hence why
+ // std::list rather than std::vector.
+ std::forward_list<Block> blocks_;
+};
+
+} // namespace protozero
+
+#endif // INCLUDE_PERFETTO_PROTOZERO_MESSAGE_ARENA_H_
+/*
+ * Copyright (C) 2020 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_PROTOZERO_ROOT_MESSAGE_H_
+#define INCLUDE_PERFETTO_PROTOZERO_ROOT_MESSAGE_H_
+
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message_arena.h"
+
+namespace protozero {
+
+// Helper class to hand out messages using the default MessageArena.
+// Usage:
+// RootMessage<perfetto::protos::zero::MyMessage> msg;
+// msg.Reset(stream_writer);
+// msg.set_foo(...);
+// auto* nested = msg.set_nested();
+template <typename T = Message>
+class RootMessage : public T {
+ public:
+ RootMessage() { T::Reset(nullptr, &root_arena_); }
+
+ // Disallow copy and move.
+ RootMessage(const RootMessage&) = delete;
+ RootMessage& operator=(const RootMessage&) = delete;
+ RootMessage(RootMessage&&) = delete;
+ RootMessage& operator=(RootMessage&&) = delete;
+
+ void Reset(ScatteredStreamWriter* writer) {
+ root_arena_.Reset();
+ Message::Reset(writer, &root_arena_);
+ }
+
+ private:
+ MessageArena root_arena_;
+};
+
+} // namespace protozero
+
+#endif // INCLUDE_PERFETTO_PROTOZERO_ROOT_MESSAGE_H_
+/*
+ * Copyright (C) 2017 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_PROTOZERO_SCATTERED_HEAP_BUFFER_H_
+#define INCLUDE_PERFETTO_PROTOZERO_SCATTERED_HEAP_BUFFER_H_
+
+#include <memory>
+#include <string>
+#include <vector>
+
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/root_message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_stream_writer.h"
+
+namespace protozero {
+
+class Message;
+
+class PERFETTO_EXPORT_COMPONENT ScatteredHeapBuffer
+ : public protozero::ScatteredStreamWriter::Delegate {
+ public:
+ class PERFETTO_EXPORT_COMPONENT Slice {
+ public:
+ Slice();
+ explicit Slice(size_t size);
+ Slice(Slice&& slice) noexcept;
+ ~Slice();
+ Slice& operator=(Slice&&);
+
+ inline protozero::ContiguousMemoryRange GetTotalRange() const {
+ return {buffer_.get(), buffer_.get() + size_};
+ }
+
+ inline protozero::ContiguousMemoryRange GetUsedRange() const {
+ return {buffer_.get(), buffer_.get() + size_ - unused_bytes_};
+ }
+
+ uint8_t* start() const { return buffer_.get(); }
+ size_t size() const { return size_; }
+ size_t unused_bytes() const { return unused_bytes_; }
+ void set_unused_bytes(size_t unused_bytes) {
+ PERFETTO_DCHECK(unused_bytes_ <= size_);
+ unused_bytes_ = unused_bytes;
+ }
+
+ void Clear();
+
+ private:
+ std::unique_ptr<uint8_t[]> buffer_;
+ size_t size_;
+ size_t unused_bytes_;
+ };
+
+ ScatteredHeapBuffer(size_t initial_slice_size_bytes = 128,
+ size_t maximum_slice_size_bytes = 128 * 1024);
+ ~ScatteredHeapBuffer() override;
+
+ // protozero::ScatteredStreamWriter::Delegate implementation.
+ protozero::ContiguousMemoryRange GetNewBuffer() override;
+
+ // Return the slices backing this buffer, adjusted for the number of bytes the
+ // writer has written.
+ const std::vector<Slice>& GetSlices();
+
+ // Stitch all the slices into a single contiguous buffer.
+ std::vector<uint8_t> StitchSlices();
+
+ // Note that the returned ranges point back to this buffer and thus cannot
+ // outlive it.
+ std::vector<protozero::ContiguousMemoryRange> GetRanges();
+
+ // Note that size of the last slice isn't updated to reflect the number of
+ // bytes written by the trace writer.
+ const std::vector<Slice>& slices() const { return slices_; }
+
+ void set_writer(protozero::ScatteredStreamWriter* writer) {
+ writer_ = writer;
+ }
+
+ // Update unused_bytes() of the current |Slice| based on the writer's state.
+ void AdjustUsedSizeOfCurrentSlice();
+
+ // Returns the total size the slices occupy in heap memory (including unused).
+ size_t GetTotalSize();
+
+ // Reset the contents of this buffer but retain one slice allocation (if it
+ // exists) to be reused for future writes.
+ void Reset();
+
+ private:
+ size_t next_slice_size_;
+ const size_t maximum_slice_size_;
+ protozero::ScatteredStreamWriter* writer_ = nullptr;
+ std::vector<Slice> slices_;
+
+ // Used to keep an allocated slice around after this buffer is reset.
+ Slice cached_slice_;
+};
+
+// Helper function to create heap-based protozero messages in one line.
+// Useful when manually serializing a protozero message (primarily in
+// tests/utilities). So instead of the following:
+// protozero::MyMessage msg;
+// protozero::ScatteredHeapBuffer shb;
+// protozero::ScatteredStreamWriter writer(&shb);
+// shb.set_writer(&writer);
+// msg.Reset(&writer);
+// ...
+// You can write:
+// protozero::HeapBuffered<protozero::MyMessage> msg;
+// msg->set_stuff(...);
+// msg.SerializeAsString();
+template <typename T = ::protozero::Message>
+class HeapBuffered {
+ public:
+ HeapBuffered() : HeapBuffered(4096, 4096) {}
+ HeapBuffered(size_t initial_slice_size_bytes, size_t maximum_slice_size_bytes)
+ : shb_(initial_slice_size_bytes, maximum_slice_size_bytes),
+ writer_(&shb_) {
+ shb_.set_writer(&writer_);
+ msg_.Reset(&writer_);
+ }
+
+ // This can't be neither copied nor moved because Message hands out pointers
+ // to itself when creating submessages.
+ HeapBuffered(const HeapBuffered&) = delete;
+ HeapBuffered& operator=(const HeapBuffered&) = delete;
+ HeapBuffered(HeapBuffered&&) = delete;
+ HeapBuffered& operator=(HeapBuffered&&) = delete;
+
+ T* get() { return &msg_; }
+ T* operator->() { return &msg_; }
+
+ bool empty() const { return shb_.slices().empty(); }
+
+ std::vector<uint8_t> SerializeAsArray() {
+ msg_.Finalize();
+ return shb_.StitchSlices();
+ }
+
+ std::string SerializeAsString() {
+ auto vec = SerializeAsArray();
+ return std::string(reinterpret_cast<const char*>(vec.data()), vec.size());
+ }
+
+ std::vector<protozero::ContiguousMemoryRange> GetRanges() {
+ msg_.Finalize();
+ return shb_.GetRanges();
+ }
+
+ const std::vector<ScatteredHeapBuffer::Slice>& GetSlices() {
+ msg_.Finalize();
+ return shb_.GetSlices();
+ }
+
+ void Reset() {
+ shb_.Reset();
+ writer_.Reset(protozero::ContiguousMemoryRange{});
+ msg_.Reset(&writer_);
+ PERFETTO_DCHECK(empty());
+ }
+
+ private:
+ ScatteredHeapBuffer shb_;
+ ScatteredStreamWriter writer_;
+ RootMessage<T> msg_;
+};
+
+} // namespace protozero
+
+#endif // INCLUDE_PERFETTO_PROTOZERO_SCATTERED_HEAP_BUFFER_H_
+// gen_amalgamated begin header: include/perfetto/tracing/debug_annotation.h
+// gen_amalgamated begin header: include/perfetto/tracing/traced_value_forward.h
+/*
+ * Copyright (C) 2021 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_TRACING_TRACED_VALUE_FORWARD_H_
+#define INCLUDE_PERFETTO_TRACING_TRACED_VALUE_FORWARD_H_
+
+namespace perfetto {
+
+class TracedValue;
+class TracedArray;
+class TracedDictionary;
+template <typename MessageType>
+class TracedProto;
+
+template <typename T>
+void WriteIntoTracedValue(TracedValue context, T&& value);
+template <typename MessageType, typename T>
+void WriteIntoTracedProto(TracedProto<MessageType> context, T&& value);
+
+template <typename T, class = void>
+struct TraceFormatTraits;
+
+// Helpers to check whether a given type T can be written into a TracedValue /
+// TracedProto<MessageType>.
+//
+// Intended to be used for types like smart pointers, who should support
+// WriteIntoTrace only iff their inner type supports being written into
+// a TracedValue.
+//
+// template <typename T>
+// class SmartPtr {
+// ...
+//
+// // Note: |Check| is needed to ensure that using
+// SmartPtr<ClassWhichDoesNotSupportTracedValue> does not generate a
+// compilation error.
+//
+// template <typename Check=void>
+// typename check_traced_value_support<T, Check>::value
+// WriteIntoTrace(perfetto::TracedValue context) const {
+// WriteIntoTracedValue(std::move(context), *ptr_);
+// }
+//
+// template <typename MessageType>
+// typename check_traced_value_support<T, MessageType>::value
+// WriteIntoTrace(perfetto::TracedProto<MessageType> message) const {
+// WriteIntoTracedProto(std::move(message), *ptr_);
+// }
+// };
+template <typename T, typename ResultType = void, typename = void>
+struct check_traced_value_support;
+
+template <typename MessageType,
+ typename T,
+ typename ResultType = void,
+ typename = void>
+struct check_traced_proto_support;
+
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_TRACING_TRACED_VALUE_FORWARD_H_
+// gen_amalgamated begin header: gen/protos/perfetto/trace/track_event/debug_annotation.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_DEBUG_ANNOTATION_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_DEBUG_ANNOTATION_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class DebugAnnotation;
+class DebugAnnotation_NestedValue;
+namespace perfetto_pbzero_enum_DebugAnnotation_NestedValue {
+enum NestedType : int32_t;
+} // namespace perfetto_pbzero_enum_DebugAnnotation_NestedValue
+using DebugAnnotation_NestedValue_NestedType = perfetto_pbzero_enum_DebugAnnotation_NestedValue::NestedType;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+namespace perfetto_pbzero_enum_DebugAnnotation_NestedValue {
+enum NestedType : int32_t {
+ UNSPECIFIED = 0,
+ DICT = 1,
+ ARRAY = 2,
+};
+} // namespace perfetto_pbzero_enum_DebugAnnotation_NestedValue
+using DebugAnnotation_NestedValue_NestedType = perfetto_pbzero_enum_DebugAnnotation_NestedValue::NestedType;
+
+
+constexpr DebugAnnotation_NestedValue_NestedType DebugAnnotation_NestedValue_NestedType_MIN = DebugAnnotation_NestedValue_NestedType::UNSPECIFIED;
+constexpr DebugAnnotation_NestedValue_NestedType DebugAnnotation_NestedValue_NestedType_MAX = DebugAnnotation_NestedValue_NestedType::ARRAY;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* DebugAnnotation_NestedValue_NestedType_Name(::perfetto::protos::pbzero::DebugAnnotation_NestedValue_NestedType value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::DebugAnnotation_NestedValue_NestedType::UNSPECIFIED:
+ return "UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::DebugAnnotation_NestedValue_NestedType::DICT:
+ return "DICT";
+
+ case ::perfetto::protos::pbzero::DebugAnnotation_NestedValue_NestedType::ARRAY:
+ return "ARRAY";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+class DebugAnnotationValueTypeName_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ DebugAnnotationValueTypeName_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit DebugAnnotationValueTypeName_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit DebugAnnotationValueTypeName_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_iid() const { return at<1>().valid(); }
+ uint64_t iid() const { return at<1>().as_uint64(); }
+ bool has_name() const { return at<2>().valid(); }
+ ::protozero::ConstChars name() const { return at<2>().as_string(); }
+};
+
+class DebugAnnotationValueTypeName : public ::protozero::Message {
+ public:
+ using Decoder = DebugAnnotationValueTypeName_Decoder;
+ enum : int32_t {
+ kIidFieldNumber = 1,
+ kNameFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.DebugAnnotationValueTypeName"; }
+
+
+ using FieldMetadata_Iid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ DebugAnnotationValueTypeName>;
+
+ static constexpr FieldMetadata_Iid kIid{};
+ void set_iid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Iid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ DebugAnnotationValueTypeName>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class DebugAnnotationName_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ DebugAnnotationName_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit DebugAnnotationName_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit DebugAnnotationName_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_iid() const { return at<1>().valid(); }
+ uint64_t iid() const { return at<1>().as_uint64(); }
+ bool has_name() const { return at<2>().valid(); }
+ ::protozero::ConstChars name() const { return at<2>().as_string(); }
+};
+
+class DebugAnnotationName : public ::protozero::Message {
+ public:
+ using Decoder = DebugAnnotationName_Decoder;
+ enum : int32_t {
+ kIidFieldNumber = 1,
+ kNameFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.DebugAnnotationName"; }
+
+
+ using FieldMetadata_Iid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ DebugAnnotationName>;
+
+ static constexpr FieldMetadata_Iid kIid{};
+ void set_iid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Iid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ DebugAnnotationName>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class DebugAnnotation_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/17, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ DebugAnnotation_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit DebugAnnotation_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit DebugAnnotation_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_name_iid() const { return at<1>().valid(); }
+ uint64_t name_iid() const { return at<1>().as_uint64(); }
+ bool has_name() const { return at<10>().valid(); }
+ ::protozero::ConstChars name() const { return at<10>().as_string(); }
+ bool has_bool_value() const { return at<2>().valid(); }
+ bool bool_value() const { return at<2>().as_bool(); }
+ bool has_uint_value() const { return at<3>().valid(); }
+ uint64_t uint_value() const { return at<3>().as_uint64(); }
+ bool has_int_value() const { return at<4>().valid(); }
+ int64_t int_value() const { return at<4>().as_int64(); }
+ bool has_double_value() const { return at<5>().valid(); }
+ double double_value() const { return at<5>().as_double(); }
+ bool has_pointer_value() const { return at<7>().valid(); }
+ uint64_t pointer_value() const { return at<7>().as_uint64(); }
+ bool has_nested_value() const { return at<8>().valid(); }
+ ::protozero::ConstBytes nested_value() const { return at<8>().as_bytes(); }
+ bool has_legacy_json_value() const { return at<9>().valid(); }
+ ::protozero::ConstChars legacy_json_value() const { return at<9>().as_string(); }
+ bool has_string_value() const { return at<6>().valid(); }
+ ::protozero::ConstChars string_value() const { return at<6>().as_string(); }
+ bool has_string_value_iid() const { return at<17>().valid(); }
+ uint64_t string_value_iid() const { return at<17>().as_uint64(); }
+ bool has_proto_type_name() const { return at<16>().valid(); }
+ ::protozero::ConstChars proto_type_name() const { return at<16>().as_string(); }
+ bool has_proto_type_name_iid() const { return at<13>().valid(); }
+ uint64_t proto_type_name_iid() const { return at<13>().as_uint64(); }
+ bool has_proto_value() const { return at<14>().valid(); }
+ ::protozero::ConstBytes proto_value() const { return at<14>().as_bytes(); }
+ bool has_dict_entries() const { return at<11>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> dict_entries() const { return GetRepeated<::protozero::ConstBytes>(11); }
+ bool has_array_values() const { return at<12>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> array_values() const { return GetRepeated<::protozero::ConstBytes>(12); }
+};
+
+class DebugAnnotation : public ::protozero::Message {
+ public:
+ using Decoder = DebugAnnotation_Decoder;
+ enum : int32_t {
+ kNameIidFieldNumber = 1,
+ kNameFieldNumber = 10,
+ kBoolValueFieldNumber = 2,
+ kUintValueFieldNumber = 3,
+ kIntValueFieldNumber = 4,
+ kDoubleValueFieldNumber = 5,
+ kPointerValueFieldNumber = 7,
+ kNestedValueFieldNumber = 8,
+ kLegacyJsonValueFieldNumber = 9,
+ kStringValueFieldNumber = 6,
+ kStringValueIidFieldNumber = 17,
+ kProtoTypeNameFieldNumber = 16,
+ kProtoTypeNameIidFieldNumber = 13,
+ kProtoValueFieldNumber = 14,
+ kDictEntriesFieldNumber = 11,
+ kArrayValuesFieldNumber = 12,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.DebugAnnotation"; }
+
+ using NestedValue = ::perfetto::protos::pbzero::DebugAnnotation_NestedValue;
+
+ using FieldMetadata_NameIid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ DebugAnnotation>;
+
+ static constexpr FieldMetadata_NameIid kNameIid{};
+ void set_name_iid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NameIid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ DebugAnnotation>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BoolValue =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ DebugAnnotation>;
+
+ static constexpr FieldMetadata_BoolValue kBoolValue{};
+ void set_bool_value(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_BoolValue::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_UintValue =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ DebugAnnotation>;
+
+ static constexpr FieldMetadata_UintValue kUintValue{};
+ void set_uint_value(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_UintValue::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IntValue =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ DebugAnnotation>;
+
+ static constexpr FieldMetadata_IntValue kIntValue{};
+ void set_int_value(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_IntValue::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DoubleValue =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kDouble,
+ double,
+ DebugAnnotation>;
+
+ static constexpr FieldMetadata_DoubleValue kDoubleValue{};
+ void set_double_value(double value) {
+ static constexpr uint32_t field_id = FieldMetadata_DoubleValue::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kDouble>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PointerValue =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ DebugAnnotation>;
+
+ static constexpr FieldMetadata_PointerValue kPointerValue{};
+ void set_pointer_value(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PointerValue::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NestedValue =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ DebugAnnotation_NestedValue,
+ DebugAnnotation>;
+
+ static constexpr FieldMetadata_NestedValue kNestedValue{};
+ template <typename T = DebugAnnotation_NestedValue> T* set_nested_value() {
+ return BeginNestedMessage<T>(8);
+ }
+
+
+ using FieldMetadata_LegacyJsonValue =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ DebugAnnotation>;
+
+ static constexpr FieldMetadata_LegacyJsonValue kLegacyJsonValue{};
+ void set_legacy_json_value(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_LegacyJsonValue::kFieldId, data, size);
+ }
+ void set_legacy_json_value(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_LegacyJsonValue::kFieldId, chars.data, chars.size);
+ }
+ void set_legacy_json_value(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_LegacyJsonValue::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_StringValue =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ DebugAnnotation>;
+
+ static constexpr FieldMetadata_StringValue kStringValue{};
+ void set_string_value(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_StringValue::kFieldId, data, size);
+ }
+ void set_string_value(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_StringValue::kFieldId, chars.data, chars.size);
+ }
+ void set_string_value(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_StringValue::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_StringValueIid =
+ ::protozero::proto_utils::FieldMetadata<
+ 17,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ DebugAnnotation>;
+
+ static constexpr FieldMetadata_StringValueIid kStringValueIid{};
+ void set_string_value_iid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_StringValueIid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ProtoTypeName =
+ ::protozero::proto_utils::FieldMetadata<
+ 16,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ DebugAnnotation>;
+
+ static constexpr FieldMetadata_ProtoTypeName kProtoTypeName{};
+ void set_proto_type_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_ProtoTypeName::kFieldId, data, size);
+ }
+ void set_proto_type_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_ProtoTypeName::kFieldId, chars.data, chars.size);
+ }
+ void set_proto_type_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_ProtoTypeName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ProtoTypeNameIid =
+ ::protozero::proto_utils::FieldMetadata<
+ 13,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ DebugAnnotation>;
+
+ static constexpr FieldMetadata_ProtoTypeNameIid kProtoTypeNameIid{};
+ void set_proto_type_name_iid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ProtoTypeNameIid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ProtoValue =
+ ::protozero::proto_utils::FieldMetadata<
+ 14,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBytes,
+ std::string,
+ DebugAnnotation>;
+
+ static constexpr FieldMetadata_ProtoValue kProtoValue{};
+ void set_proto_value(const uint8_t* data, size_t size) {
+ AppendBytes(FieldMetadata_ProtoValue::kFieldId, data, size);
+ }
+ void set_proto_value(::protozero::ConstBytes bytes) {
+ AppendBytes(FieldMetadata_ProtoValue::kFieldId, bytes.data, bytes.size);
+ }
+ void set_proto_value(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_ProtoValue::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBytes>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DictEntries =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ DebugAnnotation,
+ DebugAnnotation>;
+
+ static constexpr FieldMetadata_DictEntries kDictEntries{};
+ template <typename T = DebugAnnotation> T* add_dict_entries() {
+ return BeginNestedMessage<T>(11);
+ }
+
+
+ using FieldMetadata_ArrayValues =
+ ::protozero::proto_utils::FieldMetadata<
+ 12,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ DebugAnnotation,
+ DebugAnnotation>;
+
+ static constexpr FieldMetadata_ArrayValues kArrayValues{};
+ template <typename T = DebugAnnotation> T* add_array_values() {
+ return BeginNestedMessage<T>(12);
+ }
+
+};
+
+class DebugAnnotation_NestedValue_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/8, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ DebugAnnotation_NestedValue_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit DebugAnnotation_NestedValue_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit DebugAnnotation_NestedValue_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_nested_type() const { return at<1>().valid(); }
+ int32_t nested_type() const { return at<1>().as_int32(); }
+ bool has_dict_keys() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstChars> dict_keys() const { return GetRepeated<::protozero::ConstChars>(2); }
+ bool has_dict_values() const { return at<3>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> dict_values() const { return GetRepeated<::protozero::ConstBytes>(3); }
+ bool has_array_values() const { return at<4>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> array_values() const { return GetRepeated<::protozero::ConstBytes>(4); }
+ bool has_int_value() const { return at<5>().valid(); }
+ int64_t int_value() const { return at<5>().as_int64(); }
+ bool has_double_value() const { return at<6>().valid(); }
+ double double_value() const { return at<6>().as_double(); }
+ bool has_bool_value() const { return at<7>().valid(); }
+ bool bool_value() const { return at<7>().as_bool(); }
+ bool has_string_value() const { return at<8>().valid(); }
+ ::protozero::ConstChars string_value() const { return at<8>().as_string(); }
+};
+
+class DebugAnnotation_NestedValue : public ::protozero::Message {
+ public:
+ using Decoder = DebugAnnotation_NestedValue_Decoder;
+ enum : int32_t {
+ kNestedTypeFieldNumber = 1,
+ kDictKeysFieldNumber = 2,
+ kDictValuesFieldNumber = 3,
+ kArrayValuesFieldNumber = 4,
+ kIntValueFieldNumber = 5,
+ kDoubleValueFieldNumber = 6,
+ kBoolValueFieldNumber = 7,
+ kStringValueFieldNumber = 8,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.DebugAnnotation.NestedValue"; }
+
+
+ using NestedType = ::perfetto::protos::pbzero::DebugAnnotation_NestedValue_NestedType;
+ static inline const char* NestedType_Name(NestedType value) {
+ return ::perfetto::protos::pbzero::DebugAnnotation_NestedValue_NestedType_Name(value);
+ }
+ static inline const NestedType UNSPECIFIED = NestedType::UNSPECIFIED;
+ static inline const NestedType DICT = NestedType::DICT;
+ static inline const NestedType ARRAY = NestedType::ARRAY;
+
+ using FieldMetadata_NestedType =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ DebugAnnotation_NestedValue_NestedType,
+ DebugAnnotation_NestedValue>;
+
+ static constexpr FieldMetadata_NestedType kNestedType{};
+ void set_nested_type(DebugAnnotation_NestedValue_NestedType value) {
+ static constexpr uint32_t field_id = FieldMetadata_NestedType::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DictKeys =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ DebugAnnotation_NestedValue>;
+
+ static constexpr FieldMetadata_DictKeys kDictKeys{};
+ void add_dict_keys(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_DictKeys::kFieldId, data, size);
+ }
+ void add_dict_keys(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_DictKeys::kFieldId, chars.data, chars.size);
+ }
+ void add_dict_keys(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_DictKeys::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DictValues =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ DebugAnnotation_NestedValue,
+ DebugAnnotation_NestedValue>;
+
+ static constexpr FieldMetadata_DictValues kDictValues{};
+ template <typename T = DebugAnnotation_NestedValue> T* add_dict_values() {
+ return BeginNestedMessage<T>(3);
+ }
+
+
+ using FieldMetadata_ArrayValues =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ DebugAnnotation_NestedValue,
+ DebugAnnotation_NestedValue>;
+
+ static constexpr FieldMetadata_ArrayValues kArrayValues{};
+ template <typename T = DebugAnnotation_NestedValue> T* add_array_values() {
+ return BeginNestedMessage<T>(4);
+ }
+
+
+ using FieldMetadata_IntValue =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ DebugAnnotation_NestedValue>;
+
+ static constexpr FieldMetadata_IntValue kIntValue{};
+ void set_int_value(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_IntValue::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DoubleValue =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kDouble,
+ double,
+ DebugAnnotation_NestedValue>;
+
+ static constexpr FieldMetadata_DoubleValue kDoubleValue{};
+ void set_double_value(double value) {
+ static constexpr uint32_t field_id = FieldMetadata_DoubleValue::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kDouble>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BoolValue =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ DebugAnnotation_NestedValue>;
+
+ static constexpr FieldMetadata_BoolValue kBoolValue{};
+ void set_bool_value(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_BoolValue::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_StringValue =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ DebugAnnotation_NestedValue>;
+
+ static constexpr FieldMetadata_StringValue kStringValue{};
+ void set_string_value(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_StringValue::kFieldId, data, size);
+ }
+ void set_string_value(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_StringValue::kFieldId, chars.data, chars.size);
+ }
+ void set_string_value(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_StringValue::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_TRACING_DEBUG_ANNOTATION_H_
+#define INCLUDE_PERFETTO_TRACING_DEBUG_ANNOTATION_H_
+
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/traced_value_forward.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/debug_annotation.pbzero.h"
+
+#include <stdint.h>
+
+#include <memory>
+#include <string>
+
+namespace {
+// std::underlying_type can't be used with non-enum types, so we need this
+// indirection.
+template <typename T, bool = std::is_enum<T>::value>
+struct safe_underlying_type {
+ using type = typename std::underlying_type<T>::type;
+};
+
+template <typename T>
+struct safe_underlying_type<T, false> {
+ using type = T;
+};
+} // namespace
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class DebugAnnotation;
+} // namespace pbzero
+} // namespace protos
+
+// A base class for custom track event debug annotations.
+class PERFETTO_EXPORT_COMPONENT DebugAnnotation {
+ public:
+ DebugAnnotation() = default;
+ virtual ~DebugAnnotation();
+
+ // Called to write the contents of the debug annotation into the trace.
+ virtual void Add(protos::pbzero::DebugAnnotation*) const = 0;
+
+ void WriteIntoTracedValue(TracedValue context) const;
+};
+
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_TRACING_DEBUG_ANNOTATION_H_
+// gen_amalgamated begin header: include/perfetto/tracing/traced_value.h
+// gen_amalgamated begin header: include/perfetto/tracing/internal/checked_scope.h
+/*
+ * Copyright (C) 2021 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_TRACING_INTERNAL_CHECKED_SCOPE_H_
+#define INCLUDE_PERFETTO_TRACING_INTERNAL_CHECKED_SCOPE_H_
+
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+
+namespace perfetto {
+namespace internal {
+
+#if PERFETTO_DCHECK_IS_ON()
+
+// Checker to ensure that despite multiple scopes being present, only the active
+// one is being accessed. Rules:
+// - Only an active scope can create inner scopes. When this happens, it stops
+// being active and the inner scope becomes active instead.
+// - Only an active scope can be destroyed. When this happens, its parent scope
+// becomes active.
+class PERFETTO_EXPORT_COMPONENT CheckedScope {
+ public:
+ explicit CheckedScope(CheckedScope* parent_scope);
+ ~CheckedScope();
+ CheckedScope(CheckedScope&&);
+ CheckedScope& operator=(CheckedScope&&);
+ CheckedScope(const CheckedScope&) = delete;
+ CheckedScope& operator=(const CheckedScope&) = delete;
+
+ void Reset();
+
+ CheckedScope* parent_scope() const { return parent_scope_; }
+ bool is_active() const { return is_active_; }
+
+ private:
+ void set_is_active(bool is_active) { is_active_ = is_active; }
+
+ bool is_active_ = true;
+ CheckedScope* parent_scope_;
+
+ bool deleted_ = false;
+};
+
+#else
+
+// Dummy for cases when DCHECK is not enabled. Methods are marked constexpr to
+// ensure that the compiler can inline and optimise them away.
+class CheckedScope {
+ public:
+ inline explicit CheckedScope(CheckedScope*) {}
+ inline ~CheckedScope() {}
+
+ CheckedScope(const CheckedScope&) = delete;
+ CheckedScope& operator=(const CheckedScope&) = delete;
+
+ CheckedScope(CheckedScope&&) = default;
+ CheckedScope& operator=(CheckedScope&&) = default;
+
+ inline void Reset() {}
+
+ inline CheckedScope* parent_scope() const { return nullptr; }
+ inline bool is_active() const { return true; }
+};
+
+#endif // PERFETTO_DCHECK_IS_ON()
+
+} // namespace internal
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_TRACING_INTERNAL_CHECKED_SCOPE_H_
+// gen_amalgamated begin header: include/perfetto/tracing/string_helpers.h
+/*
+ * Copyright (C) 2021 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_TRACING_STRING_HELPERS_H_
+#define INCLUDE_PERFETTO_TRACING_STRING_HELPERS_H_
+
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+
+#include <cstddef>
+#include <string>
+
+namespace perfetto {
+
+// A wrapper for marking strings that can't be determined to be static at build
+// time, but are in fact static.
+class PERFETTO_EXPORT_COMPONENT StaticString {
+ public:
+ // Implicit constructor for string literals.
+ template <size_t N>
+ constexpr StaticString(const char (&str)[N]) : value(str) {}
+
+ // Implicit constructor for null strings.
+ constexpr StaticString(std::nullptr_t) : value(nullptr) {}
+
+ constexpr explicit StaticString(const char* str) : value(str) {}
+
+ const char* value;
+};
+
+// A explicit wrapper for marking strings as dynamic to ensure that perfetto
+// doesn't try to cache the pointer value.
+class PERFETTO_EXPORT_COMPONENT DynamicString {
+ public:
+ explicit DynamicString(const std::string& str)
+ : value(str.data()), length(str.length()) {}
+ explicit DynamicString(const char* str) : value(str) {
+ PERFETTO_DCHECK(str);
+ length = strlen(str);
+ }
+ DynamicString(const char* str, size_t len) : value(str), length(len) {}
+
+ const char* value;
+ size_t length;
+};
+
+namespace internal {
+
+template <size_t N>
+constexpr const char* GetStaticString(const char (&string)[N]) {
+ return string;
+}
+
+constexpr std::nullptr_t GetStaticString(std::nullptr_t) {
+ return nullptr;
+}
+
+constexpr const char* GetStaticString(perfetto::StaticString string) {
+ return string.value;
+}
+
+} // namespace internal
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_TRACING_STRING_HELPERS_H_
+/*
+ * Copyright (C) 2021 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_TRACING_TRACED_VALUE_H_
+#define INCLUDE_PERFETTO_TRACING_TRACED_VALUE_H_
+
+// gen_amalgamated expanded: #include "perfetto/base/compiler.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+// gen_amalgamated expanded: #include "perfetto/base/template_util.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/internal/checked_scope.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/string_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/traced_value_forward.h"
+
+#include <memory>
+#include <string>
+#include <string_view>
+#include <type_traits>
+#include <utility>
+
+namespace perfetto {
+
+namespace protos {
+namespace pbzero {
+class DebugAnnotation;
+}
+} // namespace protos
+
+class DebugAnnotation;
+class EventContext;
+
+// These classes provide a JSON-inspired way to write structed data into traces.
+//
+// Each TracedValue can be consumed exactly once to write a value into a trace
+// using one of the Write* methods.
+//
+// Write* methods fall into two categories:
+// - Primitive types (int, string, bool, double, etc): they just write the
+// provided value, consuming the TracedValue in the process.
+// - Complex types (arrays and dicts): they consume the TracedValue and
+// return a corresponding scoped object (TracedArray or TracedDictionary).
+// This scope then can be used to write multiple items into the container:
+// TracedArray::AppendItem and TracedDictionary::AddItem return a new
+// TracedValue which then can be used to write an element of the
+// dictionary or array.
+//
+// To define how a custom class should be written into the trace, users should
+// define one of the two following functions:
+// - Foo::WriteIntoTrace(TracedValue) const
+// (preferred for code which depends on perfetto directly)
+// - perfetto::TraceFormatTraits<T>::WriteIntoTrace(
+// TracedValue, const T&);
+// (should be used if T is defined in a library which doesn't know anything
+// about tracing).
+//
+//
+// After defining a conversion method, the object can be used directly as a
+// TRACE_EVENT argument:
+//
+// Foo foo;
+// TRACE_EVENT("cat", "Event", "arg", foo);
+//
+// Examples:
+//
+// TRACE_EVENT("cat", "event", "params", [&](perfetto::TracedValue context)
+// {
+// auto dict = std::move(context).WriteDictionary();
+// dict->Add("param1", param1);
+// dict->Add("param2", param2);
+// ...
+// dict->Add("paramN", paramN);
+//
+// {
+// auto inner_array = dict->AddArray("inner");
+// inner_array->Append(value1);
+// inner_array->Append(value2);
+// }
+// });
+//
+// template <typename T>
+// TraceFormatTraits<std::optional<T>>::WriteIntoTrace(
+// TracedValue context, const std::optional<T>& value) {
+// if (!value) {
+// std::move(context).WritePointer(nullptr);
+// return;
+// }
+// perfetto::WriteIntoTrace(std::move(context), *value);
+// }
+//
+// template <typename T>
+// TraceFormatTraits<std::vector<T>>::WriteIntoTrace(
+// TracedValue context, const std::array<T>& value) {
+// auto array = std::move(context).WriteArray();
+// for (const auto& item: value) {
+// array_scope.Append(item);
+// }
+// }
+//
+// class Foo {
+// void WriteIntoTrace(TracedValue context) const {
+// auto dict = std::move(context).WriteDictionary();
+// dict->Set("key", 42);
+// dict->Set("foo", "bar");
+// dict->Set("member", member_);
+// }
+// }
+namespace internal {
+// TODO(altimin): Currently EventContext can be null due the need to support
+// TracedValue-based serialisation with the Chrome's TraceLog. After this is
+// gone, the second parameter should be changed to EventContext&.
+PERFETTO_EXPORT_COMPONENT TracedValue
+CreateTracedValueFromProto(protos::pbzero::DebugAnnotation*,
+ EventContext* = nullptr);
+}
+
+class PERFETTO_EXPORT_COMPONENT TracedValue {
+ public:
+ TracedValue(const TracedValue&) = delete;
+ TracedValue& operator=(const TracedValue&) = delete;
+ TracedValue& operator=(TracedValue&&) = delete;
+ TracedValue(TracedValue&&);
+ ~TracedValue();
+
+ // TracedValue represents a context into which a single value can be written
+ // (either by writing it directly for primitive types, or by creating a
+ // TracedArray or TracedDictionary for the complex types). This is enforced
+ // by allowing Write* methods to be called only on rvalue references.
+
+ void WriteInt64(int64_t value) &&;
+ void WriteUInt64(uint64_t value) &&;
+ void WriteDouble(double value) &&;
+ void WriteBoolean(bool value) &&;
+ void WriteString(const char*) &&;
+ void WriteString(const char*, size_t len) &&;
+ void WriteString(const std::string&) &&;
+ void WriteString(std::string_view) &&;
+ void WritePointer(const void* value) &&;
+ template <typename MessageType>
+ TracedProto<MessageType> WriteProto() &&;
+
+ // Rules for writing nested dictionaries and arrays:
+ // - Only one scope (TracedArray, TracedDictionary or TracedValue) can be
+ // active at the same time. It's only allowed to call methods on the active
+ // scope.
+ // - When a scope creates a nested scope, the new scope becomes active.
+ // - When a scope is destroyed, its parent scope becomes active again.
+ //
+ // Typically users will have to create a scope only at the beginning of a
+ // conversion function and this scope should be destroyed at the end of it.
+ // TracedArray::Append and TracedDictionary::Add create, write and complete
+ // inner scopes automatically.
+
+ // Scope which allows multiple values to be appended.
+ TracedArray WriteArray() && PERFETTO_WARN_UNUSED_RESULT;
+
+ // Scope which allows multiple key-value pairs to be added.
+ TracedDictionary WriteDictionary() && PERFETTO_WARN_UNUSED_RESULT;
+
+ private:
+ friend class TracedArray;
+ friend class TracedDictionary;
+ friend TracedValue internal::CreateTracedValueFromProto(
+ protos::pbzero::DebugAnnotation*,
+ EventContext*);
+
+ static TracedValue CreateFromProto(protos::pbzero::DebugAnnotation* proto,
+ EventContext* event_context = nullptr);
+
+ inline TracedValue(protos::pbzero::DebugAnnotation* annotation,
+ EventContext* event_context,
+ internal::CheckedScope* parent_scope)
+ : annotation_(annotation),
+ event_context_(event_context),
+ checked_scope_(parent_scope) {}
+
+ protozero::Message* WriteProtoInternal(const char* name);
+
+ // Temporary support for perfetto::DebugAnnotation C++ class before it's going
+ // to be replaced by TracedValue.
+ // TODO(altimin): Convert v8 to use TracedValue directly and delete it.
+ friend class DebugAnnotation;
+
+ protos::pbzero::DebugAnnotation* const annotation_ = nullptr;
+ EventContext* const event_context_ = nullptr;
+
+ internal::CheckedScope checked_scope_;
+};
+
+template <typename MessageType>
+TracedProto<MessageType> TracedValue::WriteProto() && {
+ return TracedProto<MessageType>(
+ static_cast<MessageType*>(WriteProtoInternal(MessageType::GetName())),
+ event_context_);
+}
+
+class PERFETTO_EXPORT_COMPONENT TracedArray {
+ public:
+ // implicit
+ TracedArray(TracedValue);
+
+ TracedArray(const TracedArray&) = delete;
+ TracedArray& operator=(const TracedArray&) = delete;
+ TracedArray& operator=(TracedArray&&) = delete;
+ TracedArray(TracedArray&&) = default;
+ ~TracedArray() = default;
+
+ TracedValue AppendItem();
+
+ template <typename T>
+ void Append(T&& value) {
+ WriteIntoTracedValue(AppendItem(), std::forward<T>(value));
+ }
+
+ TracedDictionary AppendDictionary() PERFETTO_WARN_UNUSED_RESULT;
+ TracedArray AppendArray();
+
+ private:
+ friend class TracedValue;
+
+ inline TracedArray(protos::pbzero::DebugAnnotation* annotation,
+ EventContext* event_context,
+ internal::CheckedScope* parent_scope)
+ : annotation_(annotation),
+ event_context_(event_context),
+ checked_scope_(parent_scope) {}
+
+ protos::pbzero::DebugAnnotation* annotation_;
+ EventContext* const event_context_;
+
+ internal::CheckedScope checked_scope_;
+};
+
+class PERFETTO_EXPORT_COMPONENT TracedDictionary {
+ public:
+ // implicit
+ TracedDictionary(TracedValue);
+
+ TracedDictionary(const TracedDictionary&) = delete;
+ TracedDictionary& operator=(const TracedDictionary&) = delete;
+ TracedDictionary& operator=(TracedDictionary&&) = delete;
+ TracedDictionary(TracedDictionary&&) = default;
+ ~TracedDictionary() = default;
+
+ // There are two paths for writing dictionary keys: fast path for writing
+ // compile-time const, whose pointer is remains valid during the entire
+ // runtime of the program and the slow path for dynamic strings, which need to
+ // be copied.
+ // In the most common case, a string literal can be passed to `Add`/`AddItem`.
+ // In other cases, either StaticString or DynamicString declarations are
+ // needed.
+
+ TracedValue AddItem(StaticString key);
+ TracedValue AddItem(DynamicString key);
+
+ template <typename T>
+ void Add(StaticString key, T&& value) {
+ WriteIntoTracedValue(AddItem(key), std::forward<T>(value));
+ }
+
+ template <typename T>
+ void Add(DynamicString key, T&& value) {
+ WriteIntoTracedValue(AddItem(key), std::forward<T>(value));
+ }
+
+ TracedDictionary AddDictionary(StaticString key);
+ TracedDictionary AddDictionary(DynamicString key);
+ TracedArray AddArray(StaticString key);
+ TracedArray AddArray(DynamicString key);
+
+ private:
+ friend class TracedValue;
+ template <typename T>
+ friend class TracedProto;
+
+ // Create a |TracedDictionary| which will populate the given field of the
+ // given |message|.
+ template <typename MessageType, typename FieldMetadata>
+ inline TracedDictionary(MessageType* message,
+ FieldMetadata,
+ EventContext* event_context,
+ internal::CheckedScope* parent_scope)
+ : message_(message),
+ field_id_(FieldMetadata::kFieldId),
+ event_context_(event_context),
+ checked_scope_(parent_scope) {
+ static_assert(std::is_base_of<protozero::Message, MessageType>::value,
+ "Message should be a subclass of protozero::Message");
+ static_assert(std::is_base_of<protozero::proto_utils::FieldMetadataBase,
+ FieldMetadata>::value,
+ "FieldMetadata should be a subclass of FieldMetadataBase");
+ static_assert(
+ std::is_same<typename FieldMetadata::message_type, MessageType>::value,
+ "Field does not belong to this message");
+ static_assert(
+ std::is_same<typename FieldMetadata::cpp_field_type,
+ ::perfetto::protos::pbzero::DebugAnnotation>::value,
+ "Field should be of DebugAnnotation type");
+ static_assert(
+ FieldMetadata::kRepetitionType ==
+ protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ "Field should be non-packed repeated");
+ }
+
+ protozero::Message* const message_;
+ const uint32_t field_id_;
+ EventContext* event_context_;
+
+ internal::CheckedScope checked_scope_;
+};
+
+namespace internal {
+
+// SFINAE helpers for finding a right overload to convert a given class to
+// trace-friendly form, ordered from most to least preferred.
+
+constexpr int kMaxWriteImplPriority = 4;
+
+// If T has WriteIntoTracedValue member function, call it.
+template <typename T>
+decltype(std::declval<T>().WriteIntoTracedValue(std::declval<TracedValue>()),
+ void())
+WriteImpl(base::priority_tag<4>, TracedValue context, T&& value) {
+ value.WriteIntoTracedValue(std::move(context));
+}
+
+// If T has WriteIntoTrace member function, call it.
+template <typename T>
+decltype(std::declval<T>().WriteIntoTrace(std::declval<TracedValue>()), void())
+WriteImpl(base::priority_tag<4>, TracedValue context, T&& value) {
+ value.WriteIntoTrace(std::move(context));
+}
+
+// If perfetto::TraceFormatTraits<T>::WriteIntoTracedValue(TracedValue, const
+// T&) is available, use it.
+template <typename T>
+decltype(TraceFormatTraits<base::remove_cvref_t<T>>::WriteIntoTracedValue(
+ std::declval<TracedValue>(),
+ std::declval<T>()),
+ void())
+WriteImpl(base::priority_tag<3>, TracedValue context, T&& value) {
+ TraceFormatTraits<base::remove_cvref_t<T>>::WriteIntoTracedValue(
+ std::move(context), std::forward<T>(value));
+}
+
+// If perfetto::TraceFormatTraits<T>::WriteIntoTrace(TracedValue, const T&)
+// is available, use it.
+template <typename T>
+decltype(TraceFormatTraits<base::remove_cvref_t<T>>::WriteIntoTrace(
+ std::declval<TracedValue>(),
+ std::declval<T>()),
+ void())
+WriteImpl(base::priority_tag<3>, TracedValue context, T&& value) {
+ TraceFormatTraits<base::remove_cvref_t<T>>::WriteIntoTrace(
+ std::move(context), std::forward<T>(value));
+}
+
+// If T has operator(), which takes TracedValue, use it.
+// Very useful for lambda resolutions.
+template <typename T>
+decltype(std::declval<T>()(std::declval<TracedValue>()), void())
+WriteImpl(base::priority_tag<2>, TracedValue context, T&& value) {
+ std::forward<T>(value)(std::move(context));
+}
+
+// If T is a container and its elements have tracing support, use it.
+//
+// Note: a reference to T should be passed to std::begin, otherwise
+// for non-reference types const T& will be passed to std::begin, losing
+// support for non-const WriteIntoTracedValue methods.
+template <typename T>
+typename check_traced_value_support<
+ decltype(*std::begin(std::declval<T&>()))>::type
+WriteImpl(base::priority_tag<1>, TracedValue context, T&& value) {
+ auto array = std::move(context).WriteArray();
+ for (auto&& item : value) {
+ array.Append(item);
+ }
+}
+
+// std::underlying_type can't be used with non-enum types, so we need this
+// indirection.
+template <typename T, bool = std::is_enum<T>::value>
+struct safe_underlying_type {
+ using type = typename std::underlying_type<T>::type;
+};
+
+template <typename T>
+struct safe_underlying_type<T, false> {
+ using type = T;
+};
+
+template <typename T>
+struct is_incomplete_type {
+ static constexpr bool value = sizeof(T) != 0;
+};
+
+// sizeof is not available for const char[], but it's still not considered to be
+// an incomplete type for our purposes as the size can be determined at runtime
+// due to strings being null-terminated.
+template <>
+struct is_incomplete_type<const char[]> {
+ static constexpr bool value = true;
+};
+
+} // namespace internal
+
+// Helper template to determine if a given type can be passed to
+// perfetto::WriteIntoTracedValue. These templates will fail to resolve if the
+// class does not have it support, so they are useful in SFINAE and in producing
+// helpful compiler results.
+template <typename T, class Result = void>
+using check_traced_value_support_t = decltype(
+ internal::WriteImpl(
+ std::declval<base::priority_tag<internal::kMaxWriteImplPriority>>(),
+ std::declval<TracedValue>(),
+ std::declval<T>()),
+ std::declval<Result>());
+
+// check_traced_value_support<T, V>::type is defined (and equal to V) iff T
+// supports being passed to WriteIntoTracedValue. See the comment in
+// traced_value_forward.h for more details.
+template <typename T, class Result>
+struct check_traced_value_support<T,
+ Result,
+ check_traced_value_support_t<T, Result>> {
+ static_assert(
+ internal::is_incomplete_type<T>::value,
+ "perfetto::TracedValue should not be used with incomplete types");
+
+ static constexpr bool value = true;
+ using type = Result;
+};
+
+namespace internal {
+
+// Helper class to check if a given type can be passed to
+// perfetto::WriteIntoTracedValue. This template will always resolve (with
+// |value| being set to either true or false depending on presence of the
+// support, so this macro is useful in the situation when you want to e.g. OR
+// the result with some other conditions.
+//
+// In this case, compiler will not give you the full deduction chain, so, for
+// example, use check_traced_value_support for writing positive static_asserts
+// and has_traced_value_support for writing negative.
+template <typename T>
+class has_traced_value_support {
+ using Yes = char[1];
+ using No = char[2];
+
+ template <typename V>
+ static Yes& check_support(check_traced_value_support_t<V, int>);
+ template <typename V>
+ static No& check_support(...);
+
+ public:
+ static constexpr bool value = sizeof(Yes) == sizeof(check_support<T>(0));
+};
+
+} // namespace internal
+
+template <typename T>
+void WriteIntoTracedValue(TracedValue context, T&& value) {
+ // TODO(altimin): Add a URL to documentation and a list of common failure
+ // patterns.
+ static_assert(
+ internal::has_traced_value_support<T>::value,
+ "The provided type (passed to TRACE_EVENT argument / TracedArray::Append "
+ "/ TracedDictionary::Add) does not support being written in a trace "
+ "format. Please see the comment in traced_value.h for more details.");
+
+ // Should be kept in sync with check_traced_value_support_t!
+ internal::WriteImpl(base::priority_tag<internal::kMaxWriteImplPriority>(),
+ std::move(context), std::forward<T>(value));
+}
+
+// Helpers to write a given value into TracedValue even if the given type
+// doesn't support conversion (in which case the provided fallback should be
+// used). Useful for automatically generating conversions for autogenerated
+// code, but otherwise shouldn't be used as non-autogenerated code is expected
+// to define WriteIntoTracedValue convertor.
+// See WriteWithFallback test in traced_value_unittest.cc for a concrete
+// example.
+template <typename T>
+typename std::enable_if<internal::has_traced_value_support<T>::value>::type
+WriteIntoTracedValueWithFallback(TracedValue context,
+ T&& value,
+ const std::string&) {
+ WriteIntoTracedValue(std::move(context), std::forward<T>(value));
+}
+
+template <typename T>
+typename std::enable_if<!internal::has_traced_value_support<T>::value>::type
+WriteIntoTracedValueWithFallback(TracedValue context,
+ T&&,
+ const std::string& fallback) {
+ std::move(context).WriteString(fallback);
+}
+
+// TraceFormatTraits implementations for primitive types.
+
+// Specialisation for signed integer types (note: it excludes enums, which have
+// their own explicit specialisation).
+template <typename T>
+struct TraceFormatTraits<
+ T,
+ typename std::enable_if<std::is_integral<T>::value &&
+ !std::is_same<T, bool>::value &&
+ std::is_signed<T>::value>::type> {
+ inline static void WriteIntoTrace(TracedValue context, T value) {
+ std::move(context).WriteInt64(value);
+ }
+};
+
+// Specialisation for unsigned integer types (note: it excludes enums, which
+// have their own explicit specialisation).
+template <typename T>
+struct TraceFormatTraits<
+ T,
+ typename std::enable_if<std::is_integral<T>::value &&
+ !std::is_same<T, bool>::value &&
+ std::is_unsigned<T>::value>::type> {
+ inline static void WriteIntoTrace(TracedValue context, T value) {
+ std::move(context).WriteUInt64(value);
+ }
+};
+
+// Specialisation for bools.
+template <>
+struct TraceFormatTraits<bool> {
+ inline static void WriteIntoTrace(TracedValue context, bool value) {
+ std::move(context).WriteBoolean(value);
+ }
+};
+
+// Specialisation for floating point values.
+template <typename T>
+struct TraceFormatTraits<
+ T,
+ typename std::enable_if<std::is_floating_point<T>::value>::type> {
+ inline static void WriteIntoTrace(TracedValue context, T value) {
+ std::move(context).WriteDouble(static_cast<double>(value));
+ }
+};
+
+// Specialisation for signed enums.
+template <typename T>
+struct TraceFormatTraits<
+ T,
+ typename std::enable_if<
+ std::is_enum<T>::value &&
+ std::is_signed<
+ typename internal::safe_underlying_type<T>::type>::value>::type> {
+ inline static void WriteIntoTrace(TracedValue context, T value) {
+ std::move(context).WriteInt64(static_cast<int64_t>(value));
+ }
+};
+
+// Specialisation for unsigned enums.
+template <typename T>
+struct TraceFormatTraits<
+ T,
+ typename std::enable_if<
+ std::is_enum<T>::value &&
+ std::is_unsigned<
+ typename internal::safe_underlying_type<T>::type>::value>::type> {
+ inline static void WriteIntoTrace(TracedValue context, T value) {
+ std::move(context).WriteUInt64(static_cast<uint64_t>(value));
+ }
+};
+
+// Specialisations for C-style strings.
+template <>
+struct TraceFormatTraits<const char*> {
+ inline static void WriteIntoTrace(TracedValue context, const char* value) {
+ std::move(context).WriteString(value);
+ }
+};
+
+template <>
+struct TraceFormatTraits<char[]> {
+ inline static void WriteIntoTrace(TracedValue context, const char value[]) {
+ std::move(context).WriteString(value);
+ }
+};
+
+template <size_t N>
+struct TraceFormatTraits<char[N]> {
+ inline static void WriteIntoTrace(TracedValue context, const char value[N]) {
+ std::move(context).WriteString(value);
+ }
+};
+
+// Specialization for Perfetto strings.
+template <>
+struct TraceFormatTraits<perfetto::StaticString> {
+ inline static void WriteIntoTrace(TracedValue context,
+ perfetto::StaticString str) {
+ std::move(context).WriteString(str.value);
+ }
+};
+
+template <>
+struct TraceFormatTraits<perfetto::DynamicString> {
+ inline static void WriteIntoTrace(TracedValue context,
+ perfetto::DynamicString str) {
+ std::move(context).WriteString(str.value, str.length);
+ }
+};
+
+// Specialisation for C++ strings.
+template <>
+struct TraceFormatTraits<std::string> {
+ inline static void WriteIntoTrace(TracedValue context,
+ const std::string& value) {
+ std::move(context).WriteString(value);
+ }
+};
+
+// Specialisation for C++ string_views.
+template <>
+struct TraceFormatTraits<std::string_view> {
+ inline static void WriteIntoTrace(TracedValue context,
+ std::string_view value) {
+ std::move(context).WriteString(value);
+ }
+};
+
+// Specialisation for (const) void*, which writes the pointer value.
+template <>
+struct TraceFormatTraits<void*> {
+ inline static void WriteIntoTrace(TracedValue context, void* value) {
+ std::move(context).WritePointer(value);
+ }
+};
+
+template <>
+struct TraceFormatTraits<const void*> {
+ inline static void WriteIntoTrace(TracedValue context, const void* value) {
+ std::move(context).WritePointer(value);
+ }
+};
+
+// Specialisation for std::unique_ptr<>, which writes either nullptr or the
+// object it points to.
+template <typename T>
+struct TraceFormatTraits<std::unique_ptr<T>, check_traced_value_support_t<T>> {
+ inline static void WriteIntoTrace(TracedValue context,
+ const std::unique_ptr<T>& value) {
+ ::perfetto::WriteIntoTracedValue(std::move(context), value.get());
+ }
+
+ template <typename MessageType>
+ inline static void WriteIntoTrace(TracedProto<MessageType> message,
+ const std::unique_ptr<T>& value) {
+ ::perfetto::WriteIntoTracedProto(std::move(message), value.get());
+ }
+};
+
+// Specialisation for raw pointer, which writes either nullptr or the object it
+// points to.
+template <typename T>
+struct TraceFormatTraits<T*, check_traced_value_support_t<T>> {
+ inline static void WriteIntoTrace(TracedValue context, T* value) {
+ if (!value) {
+ std::move(context).WritePointer(nullptr);
+ return;
+ }
+ ::perfetto::WriteIntoTracedValue(std::move(context), *value);
+ }
+
+ template <typename MessageType>
+ inline static void WriteIntoTrace(TracedProto<MessageType> message,
+ T* value) {
+ if (!value) {
+ // Start the message, but do not write anything. TraceProcessor will emit
+ // a NULL value.
+ return;
+ }
+
+ ::perfetto::WriteIntoTracedProto(std::move(message), *value);
+ }
+};
+
+// Specialisation for nullptr.
+template <>
+struct TraceFormatTraits<std::nullptr_t> {
+ inline static void WriteIntoTrace(TracedValue context, std::nullptr_t) {
+ std::move(context).WritePointer(nullptr);
+ }
+
+ template <typename MessageType>
+ inline static void WriteIntoTrace(TracedProto<MessageType>, std::nullptr_t) {
+ // Start the message, but do not write anything. TraceProcessor will emit a
+ // NULL value.
+ }
+};
+
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_TRACING_TRACED_VALUE_H_
+// gen_amalgamated begin header: include/perfetto/tracing/track.h
+// gen_amalgamated begin header: include/perfetto/tracing/internal/fnv1a.h
+/*
+ * Copyright (C) 2021 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_TRACING_INTERNAL_FNV1A_H_
+#define INCLUDE_PERFETTO_TRACING_INTERNAL_FNV1A_H_
+
+#include <cstddef>
+#include <cstdint>
+
+namespace perfetto {
+namespace internal {
+
+// Constexpr functions to compute a 64-bit hash of the input data. The algorithm
+// used is FNV-1a as it is fast and easy to implement and has relatively few
+// collisions.
+//
+// WARNING: This hash function should not be used for any cryptographic purpose.
+
+static constexpr uint64_t kFnv1a64OffsetBasis = 0xcbf29ce484222325;
+static constexpr uint64_t kFnv1a64Prime = 0x100000001b3;
+
+static constexpr inline uint64_t Fnv1a(const char* s) {
+ uint64_t ret = kFnv1a64OffsetBasis;
+ for (; *s; s++) {
+ ret = ret ^ static_cast<uint8_t>(*s);
+ ret *= kFnv1a64Prime;
+ }
+ return ret;
+}
+
+static constexpr inline uint64_t Fnv1a(const void* data, size_t size) {
+ uint64_t ret = kFnv1a64OffsetBasis;
+ const uint8_t* s = static_cast<const uint8_t*>(data);
+ for (size_t i = 0; i < size; i++) {
+ ret = ret ^ s[i];
+ ret *= kFnv1a64Prime;
+ }
+ return ret;
+}
+
+} // namespace internal
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_TRACING_INTERNAL_FNV1A_H_
+// gen_amalgamated begin header: gen/protos/perfetto/trace/track_event/counter_descriptor.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_COUNTER_DESCRIPTOR_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_COUNTER_DESCRIPTOR_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class CounterDescriptor;
+enum CounterDescriptor_BuiltinCounterType : int;
+enum CounterDescriptor_Unit : int;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+enum CounterDescriptor_BuiltinCounterType : int {
+ CounterDescriptor_BuiltinCounterType_COUNTER_UNSPECIFIED = 0,
+ CounterDescriptor_BuiltinCounterType_COUNTER_THREAD_TIME_NS = 1,
+ CounterDescriptor_BuiltinCounterType_COUNTER_THREAD_INSTRUCTION_COUNT = 2,
+};
+enum CounterDescriptor_Unit : int {
+ CounterDescriptor_Unit_UNIT_UNSPECIFIED = 0,
+ CounterDescriptor_Unit_UNIT_TIME_NS = 1,
+ CounterDescriptor_Unit_UNIT_COUNT = 2,
+ CounterDescriptor_Unit_UNIT_SIZE_BYTES = 3,
+};
+
+class PERFETTO_EXPORT_COMPONENT CounterDescriptor : public ::protozero::CppMessageObj {
+ public:
+ using BuiltinCounterType = CounterDescriptor_BuiltinCounterType;
+ static constexpr auto COUNTER_UNSPECIFIED = CounterDescriptor_BuiltinCounterType_COUNTER_UNSPECIFIED;
+ static constexpr auto COUNTER_THREAD_TIME_NS = CounterDescriptor_BuiltinCounterType_COUNTER_THREAD_TIME_NS;
+ static constexpr auto COUNTER_THREAD_INSTRUCTION_COUNT = CounterDescriptor_BuiltinCounterType_COUNTER_THREAD_INSTRUCTION_COUNT;
+ static constexpr auto BuiltinCounterType_MIN = CounterDescriptor_BuiltinCounterType_COUNTER_UNSPECIFIED;
+ static constexpr auto BuiltinCounterType_MAX = CounterDescriptor_BuiltinCounterType_COUNTER_THREAD_INSTRUCTION_COUNT;
+ using Unit = CounterDescriptor_Unit;
+ static constexpr auto UNIT_UNSPECIFIED = CounterDescriptor_Unit_UNIT_UNSPECIFIED;
+ static constexpr auto UNIT_TIME_NS = CounterDescriptor_Unit_UNIT_TIME_NS;
+ static constexpr auto UNIT_COUNT = CounterDescriptor_Unit_UNIT_COUNT;
+ static constexpr auto UNIT_SIZE_BYTES = CounterDescriptor_Unit_UNIT_SIZE_BYTES;
+ static constexpr auto Unit_MIN = CounterDescriptor_Unit_UNIT_UNSPECIFIED;
+ static constexpr auto Unit_MAX = CounterDescriptor_Unit_UNIT_SIZE_BYTES;
+ enum FieldNumbers {
+ kTypeFieldNumber = 1,
+ kCategoriesFieldNumber = 2,
+ kUnitFieldNumber = 3,
+ kUnitNameFieldNumber = 6,
+ kUnitMultiplierFieldNumber = 4,
+ kIsIncrementalFieldNumber = 5,
+ };
+
+ CounterDescriptor();
+ ~CounterDescriptor() override;
+ CounterDescriptor(CounterDescriptor&&) noexcept;
+ CounterDescriptor& operator=(CounterDescriptor&&);
+ CounterDescriptor(const CounterDescriptor&);
+ CounterDescriptor& operator=(const CounterDescriptor&);
+ bool operator==(const CounterDescriptor&) const;
+ bool operator!=(const CounterDescriptor& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_type() const { return _has_field_[1]; }
+ CounterDescriptor_BuiltinCounterType type() const { return type_; }
+ void set_type(CounterDescriptor_BuiltinCounterType value) { type_ = value; _has_field_.set(1); }
+
+ const std::vector<std::string>& categories() const { return categories_; }
+ std::vector<std::string>* mutable_categories() { return &categories_; }
+ int categories_size() const { return static_cast<int>(categories_.size()); }
+ void clear_categories() { categories_.clear(); }
+ void add_categories(std::string value) { categories_.emplace_back(value); }
+ std::string* add_categories() { categories_.emplace_back(); return &categories_.back(); }
+
+ bool has_unit() const { return _has_field_[3]; }
+ CounterDescriptor_Unit unit() const { return unit_; }
+ void set_unit(CounterDescriptor_Unit value) { unit_ = value; _has_field_.set(3); }
+
+ bool has_unit_name() const { return _has_field_[6]; }
+ const std::string& unit_name() const { return unit_name_; }
+ void set_unit_name(const std::string& value) { unit_name_ = value; _has_field_.set(6); }
+
+ bool has_unit_multiplier() const { return _has_field_[4]; }
+ int64_t unit_multiplier() const { return unit_multiplier_; }
+ void set_unit_multiplier(int64_t value) { unit_multiplier_ = value; _has_field_.set(4); }
+
+ bool has_is_incremental() const { return _has_field_[5]; }
+ bool is_incremental() const { return is_incremental_; }
+ void set_is_incremental(bool value) { is_incremental_ = value; _has_field_.set(5); }
+
+ private:
+ CounterDescriptor_BuiltinCounterType type_{};
+ std::vector<std::string> categories_;
+ CounterDescriptor_Unit unit_{};
+ std::string unit_name_{};
+ int64_t unit_multiplier_{};
+ bool is_incremental_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<7> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_COUNTER_DESCRIPTOR_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/trace/track_event/counter_descriptor.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_COUNTER_DESCRIPTOR_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_COUNTER_DESCRIPTOR_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+namespace perfetto_pbzero_enum_CounterDescriptor {
+enum BuiltinCounterType : int32_t;
+} // namespace perfetto_pbzero_enum_CounterDescriptor
+using CounterDescriptor_BuiltinCounterType = perfetto_pbzero_enum_CounterDescriptor::BuiltinCounterType;
+namespace perfetto_pbzero_enum_CounterDescriptor {
+enum Unit : int32_t;
+} // namespace perfetto_pbzero_enum_CounterDescriptor
+using CounterDescriptor_Unit = perfetto_pbzero_enum_CounterDescriptor::Unit;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+namespace perfetto_pbzero_enum_CounterDescriptor {
+enum BuiltinCounterType : int32_t {
+ COUNTER_UNSPECIFIED = 0,
+ COUNTER_THREAD_TIME_NS = 1,
+ COUNTER_THREAD_INSTRUCTION_COUNT = 2,
+};
+} // namespace perfetto_pbzero_enum_CounterDescriptor
+using CounterDescriptor_BuiltinCounterType = perfetto_pbzero_enum_CounterDescriptor::BuiltinCounterType;
+
+
+constexpr CounterDescriptor_BuiltinCounterType CounterDescriptor_BuiltinCounterType_MIN = CounterDescriptor_BuiltinCounterType::COUNTER_UNSPECIFIED;
+constexpr CounterDescriptor_BuiltinCounterType CounterDescriptor_BuiltinCounterType_MAX = CounterDescriptor_BuiltinCounterType::COUNTER_THREAD_INSTRUCTION_COUNT;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* CounterDescriptor_BuiltinCounterType_Name(::perfetto::protos::pbzero::CounterDescriptor_BuiltinCounterType value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::CounterDescriptor_BuiltinCounterType::COUNTER_UNSPECIFIED:
+ return "COUNTER_UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::CounterDescriptor_BuiltinCounterType::COUNTER_THREAD_TIME_NS:
+ return "COUNTER_THREAD_TIME_NS";
+
+ case ::perfetto::protos::pbzero::CounterDescriptor_BuiltinCounterType::COUNTER_THREAD_INSTRUCTION_COUNT:
+ return "COUNTER_THREAD_INSTRUCTION_COUNT";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_CounterDescriptor {
+enum Unit : int32_t {
+ UNIT_UNSPECIFIED = 0,
+ UNIT_TIME_NS = 1,
+ UNIT_COUNT = 2,
+ UNIT_SIZE_BYTES = 3,
+};
+} // namespace perfetto_pbzero_enum_CounterDescriptor
+using CounterDescriptor_Unit = perfetto_pbzero_enum_CounterDescriptor::Unit;
+
+
+constexpr CounterDescriptor_Unit CounterDescriptor_Unit_MIN = CounterDescriptor_Unit::UNIT_UNSPECIFIED;
+constexpr CounterDescriptor_Unit CounterDescriptor_Unit_MAX = CounterDescriptor_Unit::UNIT_SIZE_BYTES;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* CounterDescriptor_Unit_Name(::perfetto::protos::pbzero::CounterDescriptor_Unit value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::CounterDescriptor_Unit::UNIT_UNSPECIFIED:
+ return "UNIT_UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::CounterDescriptor_Unit::UNIT_TIME_NS:
+ return "UNIT_TIME_NS";
+
+ case ::perfetto::protos::pbzero::CounterDescriptor_Unit::UNIT_COUNT:
+ return "UNIT_COUNT";
+
+ case ::perfetto::protos::pbzero::CounterDescriptor_Unit::UNIT_SIZE_BYTES:
+ return "UNIT_SIZE_BYTES";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+class CounterDescriptor_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/6, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ CounterDescriptor_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit CounterDescriptor_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit CounterDescriptor_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_type() const { return at<1>().valid(); }
+ int32_t type() const { return at<1>().as_int32(); }
+ bool has_categories() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstChars> categories() const { return GetRepeated<::protozero::ConstChars>(2); }
+ bool has_unit() const { return at<3>().valid(); }
+ int32_t unit() const { return at<3>().as_int32(); }
+ bool has_unit_name() const { return at<6>().valid(); }
+ ::protozero::ConstChars unit_name() const { return at<6>().as_string(); }
+ bool has_unit_multiplier() const { return at<4>().valid(); }
+ int64_t unit_multiplier() const { return at<4>().as_int64(); }
+ bool has_is_incremental() const { return at<5>().valid(); }
+ bool is_incremental() const { return at<5>().as_bool(); }
+};
+
+class CounterDescriptor : public ::protozero::Message {
+ public:
+ using Decoder = CounterDescriptor_Decoder;
+ enum : int32_t {
+ kTypeFieldNumber = 1,
+ kCategoriesFieldNumber = 2,
+ kUnitFieldNumber = 3,
+ kUnitNameFieldNumber = 6,
+ kUnitMultiplierFieldNumber = 4,
+ kIsIncrementalFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.CounterDescriptor"; }
+
+
+ using BuiltinCounterType = ::perfetto::protos::pbzero::CounterDescriptor_BuiltinCounterType;
+ static inline const char* BuiltinCounterType_Name(BuiltinCounterType value) {
+ return ::perfetto::protos::pbzero::CounterDescriptor_BuiltinCounterType_Name(value);
+ }
+
+ using Unit = ::perfetto::protos::pbzero::CounterDescriptor_Unit;
+ static inline const char* Unit_Name(Unit value) {
+ return ::perfetto::protos::pbzero::CounterDescriptor_Unit_Name(value);
+ }
+ static inline const BuiltinCounterType COUNTER_UNSPECIFIED = BuiltinCounterType::COUNTER_UNSPECIFIED;
+ static inline const BuiltinCounterType COUNTER_THREAD_TIME_NS = BuiltinCounterType::COUNTER_THREAD_TIME_NS;
+ static inline const BuiltinCounterType COUNTER_THREAD_INSTRUCTION_COUNT = BuiltinCounterType::COUNTER_THREAD_INSTRUCTION_COUNT;
+ static inline const Unit UNIT_UNSPECIFIED = Unit::UNIT_UNSPECIFIED;
+ static inline const Unit UNIT_TIME_NS = Unit::UNIT_TIME_NS;
+ static inline const Unit UNIT_COUNT = Unit::UNIT_COUNT;
+ static inline const Unit UNIT_SIZE_BYTES = Unit::UNIT_SIZE_BYTES;
+
+ using FieldMetadata_Type =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ CounterDescriptor_BuiltinCounterType,
+ CounterDescriptor>;
+
+ static constexpr FieldMetadata_Type kType{};
+ void set_type(CounterDescriptor_BuiltinCounterType value) {
+ static constexpr uint32_t field_id = FieldMetadata_Type::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Categories =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ CounterDescriptor>;
+
+ static constexpr FieldMetadata_Categories kCategories{};
+ void add_categories(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Categories::kFieldId, data, size);
+ }
+ void add_categories(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Categories::kFieldId, chars.data, chars.size);
+ }
+ void add_categories(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Categories::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Unit =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ CounterDescriptor_Unit,
+ CounterDescriptor>;
+
+ static constexpr FieldMetadata_Unit kUnit{};
+ void set_unit(CounterDescriptor_Unit value) {
+ static constexpr uint32_t field_id = FieldMetadata_Unit::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_UnitName =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ CounterDescriptor>;
+
+ static constexpr FieldMetadata_UnitName kUnitName{};
+ void set_unit_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_UnitName::kFieldId, data, size);
+ }
+ void set_unit_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_UnitName::kFieldId, chars.data, chars.size);
+ }
+ void set_unit_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_UnitName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_UnitMultiplier =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ CounterDescriptor>;
+
+ static constexpr FieldMetadata_UnitMultiplier kUnitMultiplier{};
+ void set_unit_multiplier(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_UnitMultiplier::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IsIncremental =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ CounterDescriptor>;
+
+ static constexpr FieldMetadata_IsIncremental kIsIncremental{};
+ void set_is_incremental(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_IsIncremental::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/track_event/track_descriptor.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_TRACK_DESCRIPTOR_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_TRACK_DESCRIPTOR_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class TrackDescriptor;
+class CounterDescriptor;
+class ChromeThreadDescriptor;
+class ThreadDescriptor;
+class ChromeProcessDescriptor;
+class ProcessDescriptor;
+enum CounterDescriptor_BuiltinCounterType : int;
+enum CounterDescriptor_Unit : int;
+enum ChromeThreadDescriptor_ThreadType : int;
+enum ThreadDescriptor_ChromeThreadType : int;
+enum ChromeProcessDescriptor_ProcessType : int;
+enum ProcessDescriptor_ChromeProcessType : int;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+class PERFETTO_EXPORT_COMPONENT TrackDescriptor : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kUuidFieldNumber = 1,
+ kParentUuidFieldNumber = 5,
+ kNameFieldNumber = 2,
+ kProcessFieldNumber = 3,
+ kChromeProcessFieldNumber = 6,
+ kThreadFieldNumber = 4,
+ kChromeThreadFieldNumber = 7,
+ kCounterFieldNumber = 8,
+ kDisallowMergingWithSystemTracksFieldNumber = 9,
+ };
+
+ TrackDescriptor();
+ ~TrackDescriptor() override;
+ TrackDescriptor(TrackDescriptor&&) noexcept;
+ TrackDescriptor& operator=(TrackDescriptor&&);
+ TrackDescriptor(const TrackDescriptor&);
+ TrackDescriptor& operator=(const TrackDescriptor&);
+ bool operator==(const TrackDescriptor&) const;
+ bool operator!=(const TrackDescriptor& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_uuid() const { return _has_field_[1]; }
+ uint64_t uuid() const { return uuid_; }
+ void set_uuid(uint64_t value) { uuid_ = value; _has_field_.set(1); }
+
+ bool has_parent_uuid() const { return _has_field_[5]; }
+ uint64_t parent_uuid() const { return parent_uuid_; }
+ void set_parent_uuid(uint64_t value) { parent_uuid_ = value; _has_field_.set(5); }
+
+ bool has_name() const { return _has_field_[2]; }
+ const std::string& name() const { return name_; }
+ void set_name(const std::string& value) { name_ = value; _has_field_.set(2); }
+
+ bool has_process() const { return _has_field_[3]; }
+ const ProcessDescriptor& process() const { return *process_; }
+ ProcessDescriptor* mutable_process() { _has_field_.set(3); return process_.get(); }
+
+ bool has_chrome_process() const { return _has_field_[6]; }
+ const ChromeProcessDescriptor& chrome_process() const { return *chrome_process_; }
+ ChromeProcessDescriptor* mutable_chrome_process() { _has_field_.set(6); return chrome_process_.get(); }
+
+ bool has_thread() const { return _has_field_[4]; }
+ const ThreadDescriptor& thread() const { return *thread_; }
+ ThreadDescriptor* mutable_thread() { _has_field_.set(4); return thread_.get(); }
+
+ bool has_chrome_thread() const { return _has_field_[7]; }
+ const ChromeThreadDescriptor& chrome_thread() const { return *chrome_thread_; }
+ ChromeThreadDescriptor* mutable_chrome_thread() { _has_field_.set(7); return chrome_thread_.get(); }
+
+ bool has_counter() const { return _has_field_[8]; }
+ const CounterDescriptor& counter() const { return *counter_; }
+ CounterDescriptor* mutable_counter() { _has_field_.set(8); return counter_.get(); }
+
+ bool has_disallow_merging_with_system_tracks() const { return _has_field_[9]; }
+ bool disallow_merging_with_system_tracks() const { return disallow_merging_with_system_tracks_; }
+ void set_disallow_merging_with_system_tracks(bool value) { disallow_merging_with_system_tracks_ = value; _has_field_.set(9); }
+
+ private:
+ uint64_t uuid_{};
+ uint64_t parent_uuid_{};
+ std::string name_{};
+ ::protozero::CopyablePtr<ProcessDescriptor> process_;
+ ::protozero::CopyablePtr<ChromeProcessDescriptor> chrome_process_;
+ ::protozero::CopyablePtr<ThreadDescriptor> thread_;
+ ::protozero::CopyablePtr<ChromeThreadDescriptor> chrome_thread_;
+ ::protozero::CopyablePtr<CounterDescriptor> counter_;
+ bool disallow_merging_with_system_tracks_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<10> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_TRACK_DESCRIPTOR_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/trace/track_event/track_descriptor.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_TRACK_DESCRIPTOR_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_TRACK_DESCRIPTOR_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class ChromeProcessDescriptor;
+class ChromeThreadDescriptor;
+class CounterDescriptor;
+class ProcessDescriptor;
+class ThreadDescriptor;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class TrackDescriptor_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/9, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ TrackDescriptor_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TrackDescriptor_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TrackDescriptor_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_uuid() const { return at<1>().valid(); }
+ uint64_t uuid() const { return at<1>().as_uint64(); }
+ bool has_parent_uuid() const { return at<5>().valid(); }
+ uint64_t parent_uuid() const { return at<5>().as_uint64(); }
+ bool has_name() const { return at<2>().valid(); }
+ ::protozero::ConstChars name() const { return at<2>().as_string(); }
+ bool has_process() const { return at<3>().valid(); }
+ ::protozero::ConstBytes process() const { return at<3>().as_bytes(); }
+ bool has_chrome_process() const { return at<6>().valid(); }
+ ::protozero::ConstBytes chrome_process() const { return at<6>().as_bytes(); }
+ bool has_thread() const { return at<4>().valid(); }
+ ::protozero::ConstBytes thread() const { return at<4>().as_bytes(); }
+ bool has_chrome_thread() const { return at<7>().valid(); }
+ ::protozero::ConstBytes chrome_thread() const { return at<7>().as_bytes(); }
+ bool has_counter() const { return at<8>().valid(); }
+ ::protozero::ConstBytes counter() const { return at<8>().as_bytes(); }
+ bool has_disallow_merging_with_system_tracks() const { return at<9>().valid(); }
+ bool disallow_merging_with_system_tracks() const { return at<9>().as_bool(); }
+};
+
+class TrackDescriptor : public ::protozero::Message {
+ public:
+ using Decoder = TrackDescriptor_Decoder;
+ enum : int32_t {
+ kUuidFieldNumber = 1,
+ kParentUuidFieldNumber = 5,
+ kNameFieldNumber = 2,
+ kProcessFieldNumber = 3,
+ kChromeProcessFieldNumber = 6,
+ kThreadFieldNumber = 4,
+ kChromeThreadFieldNumber = 7,
+ kCounterFieldNumber = 8,
+ kDisallowMergingWithSystemTracksFieldNumber = 9,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TrackDescriptor"; }
+
+
+ using FieldMetadata_Uuid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TrackDescriptor>;
+
+ static constexpr FieldMetadata_Uuid kUuid{};
+ void set_uuid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Uuid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ParentUuid =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TrackDescriptor>;
+
+ static constexpr FieldMetadata_ParentUuid kParentUuid{};
+ void set_parent_uuid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ParentUuid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ TrackDescriptor>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Process =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ProcessDescriptor,
+ TrackDescriptor>;
+
+ static constexpr FieldMetadata_Process kProcess{};
+ template <typename T = ProcessDescriptor> T* set_process() {
+ return BeginNestedMessage<T>(3);
+ }
+
+
+ using FieldMetadata_ChromeProcess =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ChromeProcessDescriptor,
+ TrackDescriptor>;
+
+ static constexpr FieldMetadata_ChromeProcess kChromeProcess{};
+ template <typename T = ChromeProcessDescriptor> T* set_chrome_process() {
+ return BeginNestedMessage<T>(6);
+ }
+
+
+ using FieldMetadata_Thread =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ThreadDescriptor,
+ TrackDescriptor>;
+
+ static constexpr FieldMetadata_Thread kThread{};
+ template <typename T = ThreadDescriptor> T* set_thread() {
+ return BeginNestedMessage<T>(4);
+ }
+
+
+ using FieldMetadata_ChromeThread =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ChromeThreadDescriptor,
+ TrackDescriptor>;
+
+ static constexpr FieldMetadata_ChromeThread kChromeThread{};
+ template <typename T = ChromeThreadDescriptor> T* set_chrome_thread() {
+ return BeginNestedMessage<T>(7);
+ }
+
+
+ using FieldMetadata_Counter =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ CounterDescriptor,
+ TrackDescriptor>;
+
+ static constexpr FieldMetadata_Counter kCounter{};
+ template <typename T = CounterDescriptor> T* set_counter() {
+ return BeginNestedMessage<T>(8);
+ }
+
+
+ using FieldMetadata_DisallowMergingWithSystemTracks =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ TrackDescriptor>;
+
+ static constexpr FieldMetadata_DisallowMergingWithSystemTracks kDisallowMergingWithSystemTracks{};
+ void set_disallow_merging_with_system_tracks(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_DisallowMergingWithSystemTracks::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_TRACING_TRACK_H_
+#define INCLUDE_PERFETTO_TRACING_TRACK_H_
+
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+// gen_amalgamated expanded: #include "perfetto/base/proc_utils.h"
+// gen_amalgamated expanded: #include "perfetto/base/thread_utils.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message_handle.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/internal/fnv1a.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/internal/tracing_muxer.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/platform.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/trace_packet.pbzero.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/counter_descriptor.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/counter_descriptor.pbzero.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/track_descriptor.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/track_descriptor.pbzero.h"
+
+#include <stdint.h>
+#include <map>
+#include <mutex>
+
+namespace perfetto {
+namespace internal {
+class TrackRegistry;
+}
+class Flow;
+class TerminatingFlow;
+
+// Track events are recorded on a timeline track, which maintains the relative
+// time ordering of all events on that track. Each thread has its own default
+// track (ThreadTrack), which is by default where all track events are written.
+// Thread tracks are grouped under their hosting process (ProcessTrack).
+
+// Events which aren't strictly scoped to a thread or a process, or don't
+// correspond to synchronous code execution on a thread can use a custom
+// track (Track, ThreadTrack or ProcessTrack). A Track object can also
+// optionally be parented to a thread or a process.
+//
+// A track is represented by a uuid, which must be unique across the entire
+// recorded trace.
+//
+// For example, to record an event that begins and ends on different threads,
+// use a matching id to tie the begin and end events together:
+//
+// TRACE_EVENT_BEGIN("category", "AsyncEvent", perfetto::Track(8086));
+// ...
+// TRACE_EVENT_END("category", perfetto::Track(8086));
+//
+// Tracks can also be annotated with metadata:
+//
+// auto desc = track.Serialize();
+// desc.set_name("MyTrack");
+// perfetto::TrackEvent::SetTrackDescriptor(track, desc);
+//
+// Threads and processes can also be named in a similar way, e.g.:
+//
+// auto desc = perfetto::ProcessTrack::Current().Serialize();
+// desc.mutable_process()->set_process_name("MyProcess");
+// perfetto::TrackEvent::SetTrackDescriptor(
+// perfetto::ProcessTrack::Current(), desc);
+//
+// The metadata remains valid between tracing sessions. To free up data for a
+// track, call EraseTrackDescriptor:
+//
+// perfetto::TrackEvent::EraseTrackDescriptor(track);
+//
+struct PERFETTO_EXPORT_COMPONENT Track {
+ const uint64_t uuid;
+ const uint64_t parent_uuid;
+ constexpr Track() : uuid(0), parent_uuid(0) {}
+
+ // Construct a track with identifier |id|, optionally parented under |parent|.
+ // If no parent is specified, the track's parent is the current process's
+ // track.
+ //
+ // To minimize the chances for accidental id collisions across processes, the
+ // track's effective uuid is generated by xorring |id| with a random,
+ // per-process cookie.
+ explicit constexpr Track(uint64_t id, Track parent = MakeProcessTrack())
+ : uuid(id ^ parent.uuid), parent_uuid(parent.uuid) {}
+
+ explicit operator bool() const { return uuid; }
+ void Serialize(protos::pbzero::TrackDescriptor*) const;
+ protos::gen::TrackDescriptor Serialize() const;
+
+ // Construct a global track with identifier |id|.
+ //
+ // Beware: the globally unique |id| should be chosen carefully to avoid
+ // accidental clashes with track identifiers emitted by other producers.
+ static Track Global(uint64_t id) { return Track(id, Track()); }
+
+ // Construct a track using |ptr| as identifier.
+ static Track FromPointer(const void* ptr, Track parent = MakeProcessTrack()) {
+ // Using pointers as global TrackIds isn't supported as pointers are
+ // per-proccess and the same pointer value can be used in different
+ // processes. If you hit this check but are providing no |parent| track,
+ // verify that Tracing::Initialize() was called for the current process.
+ PERFETTO_DCHECK(parent.uuid != Track().uuid);
+
+ return Track(static_cast<uint64_t>(reinterpret_cast<uintptr_t>(ptr)),
+ parent);
+ }
+
+ // Construct a track using |ptr| as identifier within thread-scope.
+ // Shorthand for `Track::FromPointer(ptr, ThreadTrack::Current())`
+ // Usage: TRACE_EVENT_BEGIN("...", "...", perfetto::Track::ThreadScoped(this))
+ static Track ThreadScoped(
+ const void* ptr,
+ Track parent = MakeThreadTrack(base::GetThreadId())) {
+ return Track::FromPointer(ptr, parent);
+ }
+
+ protected:
+ constexpr Track(uint64_t uuid_, uint64_t parent_uuid_)
+ : uuid(uuid_), parent_uuid(parent_uuid_) {}
+
+ static Track MakeThreadTrack(base::PlatformThreadId tid) {
+ // If tid were 0 here (which is an invalid tid), we would create a thread
+ // track with a uuid that conflicts with the corresponding ProcessTrack.
+ PERFETTO_DCHECK(tid != 0);
+ return Track(static_cast<uint64_t>(tid), MakeProcessTrack());
+ }
+
+ static Track MakeProcessTrack() { return Track(process_uuid, Track()); }
+
+ static constexpr inline uint64_t CompileTimeHash(const char* string) {
+ return internal::Fnv1a(string);
+ }
+
+ private:
+ friend class internal::TrackRegistry;
+ friend class Flow;
+ friend class TerminatingFlow;
+ static uint64_t process_uuid;
+};
+
+// A process track represents events that describe the state of the entire
+// application (e.g., counter events). Currently a ProcessTrack can only
+// represent the current process.
+struct PERFETTO_EXPORT_COMPONENT ProcessTrack : public Track {
+ const base::PlatformProcessId pid;
+
+ static ProcessTrack Current() { return ProcessTrack(); }
+
+ void Serialize(protos::pbzero::TrackDescriptor*) const;
+ protos::gen::TrackDescriptor Serialize() const;
+
+ private:
+ ProcessTrack()
+ : Track(MakeProcessTrack()), pid(Platform::GetCurrentProcessId()) {}
+};
+
+// A thread track is associated with a specific thread of execution. Currently
+// only threads in the current process can be referenced.
+struct PERFETTO_EXPORT_COMPONENT ThreadTrack : public Track {
+ const base::PlatformProcessId pid;
+ const base::PlatformThreadId tid;
+ bool disallow_merging_with_system_tracks = false;
+
+ static ThreadTrack Current();
+
+ // Represents a thread in the current process.
+ static ThreadTrack ForThread(base::PlatformThreadId tid_);
+
+ void Serialize(protos::pbzero::TrackDescriptor*) const;
+ protos::gen::TrackDescriptor Serialize() const;
+
+ private:
+ explicit ThreadTrack(base::PlatformThreadId tid_,
+ bool disallow_merging_with_system_tracks_)
+ : Track(MakeThreadTrack(tid_)),
+ pid(ProcessTrack::Current().pid),
+ tid(tid_),
+ disallow_merging_with_system_tracks(
+ disallow_merging_with_system_tracks_) {}
+};
+
+// A track for recording counter values with the TRACE_COUNTER macro. Counter
+// tracks can optionally be given units and other metadata. See
+// /protos/perfetto/trace/track_event/counter_descriptor.proto for details.
+class PERFETTO_EXPORT_COMPONENT CounterTrack : public Track {
+ // A random value mixed into counter track uuids to avoid collisions with
+ // other types of tracks.
+ static constexpr uint64_t kCounterMagic = 0xb1a4a67d7970839eul;
+
+ public:
+ using Unit = perfetto::protos::pbzero::CounterDescriptor::Unit;
+ using CounterType =
+ perfetto::protos::gen::CounterDescriptor::BuiltinCounterType;
+
+ // |name| must outlive this object.
+ constexpr explicit CounterTrack(const char* name,
+ Track parent = MakeProcessTrack())
+ : Track(internal::Fnv1a(name) ^ kCounterMagic, parent),
+ name_(name),
+ category_(nullptr) {}
+
+ // |unit_name| is a free-form description of the unit used by this counter. It
+ // must outlive this object.
+ constexpr CounterTrack(const char* name,
+ const char* unit_name,
+ Track parent = MakeProcessTrack())
+ : Track(internal::Fnv1a(name) ^ kCounterMagic, parent),
+ name_(name),
+ category_(nullptr),
+ unit_name_(unit_name) {}
+
+ constexpr CounterTrack(const char* name,
+ Unit unit,
+ Track parent = MakeProcessTrack())
+ : Track(internal::Fnv1a(name) ^ kCounterMagic, parent),
+ name_(name),
+ category_(nullptr),
+ unit_(unit) {}
+
+ static constexpr CounterTrack Global(const char* name,
+ const char* unit_name) {
+ return CounterTrack(name, unit_name, Track());
+ }
+
+ static constexpr CounterTrack Global(const char* name, Unit unit) {
+ return CounterTrack(name, unit, Track());
+ }
+
+ static constexpr CounterTrack Global(const char* name) {
+ return Global(name, nullptr);
+ }
+
+ constexpr CounterTrack set_unit(Unit unit) const {
+ return CounterTrack(uuid, parent_uuid, name_, category_, unit, unit_name_,
+ unit_multiplier_, is_incremental_, type_);
+ }
+
+ constexpr CounterTrack set_type(CounterType type) const {
+ return CounterTrack(uuid, parent_uuid, name_, category_, unit_, unit_name_,
+ unit_multiplier_, is_incremental_, type);
+ }
+
+ constexpr CounterTrack set_unit_name(const char* unit_name) const {
+ return CounterTrack(uuid, parent_uuid, name_, category_, unit_, unit_name,
+ unit_multiplier_, is_incremental_, type_);
+ }
+
+ constexpr CounterTrack set_unit_multiplier(int64_t unit_multiplier) const {
+ return CounterTrack(uuid, parent_uuid, name_, category_, unit_, unit_name_,
+ unit_multiplier, is_incremental_, type_);
+ }
+
+ constexpr CounterTrack set_category(const char* category) const {
+ return CounterTrack(uuid, parent_uuid, name_, category, unit_, unit_name_,
+ unit_multiplier_, is_incremental_, type_);
+ }
+
+ constexpr CounterTrack set_is_incremental(bool is_incremental = true) const {
+ return CounterTrack(uuid, parent_uuid, name_, category_, unit_, unit_name_,
+ unit_multiplier_, is_incremental, type_);
+ }
+
+ constexpr bool is_incremental() const { return is_incremental_; }
+
+ void Serialize(protos::pbzero::TrackDescriptor*) const;
+ protos::gen::TrackDescriptor Serialize() const;
+
+ private:
+ constexpr CounterTrack(uint64_t uuid_,
+ uint64_t parent_uuid_,
+ const char* name,
+ const char* category,
+ Unit unit,
+ const char* unit_name,
+ int64_t unit_multiplier,
+ bool is_incremental,
+ CounterType type)
+ : Track(uuid_, parent_uuid_),
+ name_(name),
+ category_(category),
+ unit_(unit),
+ unit_name_(unit_name),
+ unit_multiplier_(unit_multiplier),
+ is_incremental_(is_incremental),
+ type_(type) {}
+
+ const char* const name_;
+ const char* const category_;
+ Unit unit_ = perfetto::protos::pbzero::CounterDescriptor::UNIT_UNSPECIFIED;
+ const char* const unit_name_ = nullptr;
+ int64_t unit_multiplier_ = 1;
+ const bool is_incremental_ = false;
+ CounterType type_ =
+ perfetto::protos::gen::CounterDescriptor::COUNTER_UNSPECIFIED;
+};
+
+namespace internal {
+
+// Keeps a map of uuids to serialized track descriptors and provides a
+// thread-safe way to read and write them. Each trace writer keeps a TLS set of
+// the tracks it has seen (see TrackEventIncrementalState). In the common case,
+// this registry is not consulted (and no locks are taken). However when a new
+// track is seen, this registry is used to write either 1) the default
+// descriptor for that track (see *Track::Serialize) or 2) a serialized
+// descriptor stored in the registry which may have additional metadata (e.g.,
+// track name).
+// TODO(eseckler): Remove PERFETTO_EXPORT_COMPONENT once Chromium no longer
+// calls TrackRegistry::InitializeInstance() directly.
+class PERFETTO_EXPORT_COMPONENT TrackRegistry {
+ public:
+ using SerializedTrackDescriptor = std::string;
+
+ TrackRegistry();
+ ~TrackRegistry();
+
+ static void InitializeInstance();
+ static void ResetForTesting();
+ static uint64_t ComputeProcessUuid();
+ static TrackRegistry* Get() { return instance_; }
+
+ void EraseTrack(Track);
+
+ // Store metadata for |track| in the registry. |fill_function| is called
+ // synchronously to record additional properties for the track.
+ template <typename TrackType>
+ void UpdateTrack(
+ const TrackType& track,
+ std::function<void(protos::pbzero::TrackDescriptor*)> fill_function) {
+ UpdateTrackImpl(track, [&](protos::pbzero::TrackDescriptor* desc) {
+ track.Serialize(desc);
+ fill_function(desc);
+ });
+ }
+
+ // This variant lets the user supply a serialized track descriptor directly.
+ void UpdateTrack(Track, const std::string& serialized_desc);
+
+ // If |track| exists in the registry, write out the serialized track
+ // descriptor for it into |packet|. Otherwise just the ephemeral track object
+ // is serialized without any additional metadata.
+ template <typename TrackType>
+ void SerializeTrack(
+ const TrackType& track,
+ protozero::MessageHandle<protos::pbzero::TracePacket> packet) {
+ // If the track has extra metadata (recorded with UpdateTrack), it will be
+ // found in the registry. To minimize the time the lock is held, make a copy
+ // of the data held in the registry and write it outside the lock.
+ std::string desc_copy;
+ {
+ std::lock_guard<std::mutex> lock(mutex_);
+ const auto& it = tracks_.find(track.uuid);
+ if (it != tracks_.end()) {
+ desc_copy = it->second;
+ PERFETTO_DCHECK(!desc_copy.empty());
+ }
+ }
+ if (!desc_copy.empty()) {
+ WriteTrackDescriptor(std::move(desc_copy), std::move(packet));
+ } else {
+ // Otherwise we just write the basic descriptor for this type of track
+ // (e.g., just uuid, no name).
+ track.Serialize(packet->set_track_descriptor());
+ }
+ }
+
+ static void WriteTrackDescriptor(
+ const SerializedTrackDescriptor& desc,
+ protozero::MessageHandle<protos::pbzero::TracePacket> packet);
+
+ private:
+ void UpdateTrackImpl(
+ Track,
+ std::function<void(protos::pbzero::TrackDescriptor*)> fill_function);
+
+ std::mutex mutex_;
+ std::map<uint64_t /* uuid */, SerializedTrackDescriptor> tracks_;
+
+ static TrackRegistry* instance_;
+};
+
+} // namespace internal
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_TRACING_TRACK_H_
+// gen_amalgamated begin header: gen/protos/perfetto/common/builtin_clock.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_BUILTIN_CLOCK_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_BUILTIN_CLOCK_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+enum BuiltinClock : int32_t {
+ BUILTIN_CLOCK_UNKNOWN = 0,
+ BUILTIN_CLOCK_REALTIME = 1,
+ BUILTIN_CLOCK_REALTIME_COARSE = 2,
+ BUILTIN_CLOCK_MONOTONIC = 3,
+ BUILTIN_CLOCK_MONOTONIC_COARSE = 4,
+ BUILTIN_CLOCK_MONOTONIC_RAW = 5,
+ BUILTIN_CLOCK_BOOTTIME = 6,
+ BUILTIN_CLOCK_MAX_ID = 63,
+};
+
+constexpr BuiltinClock BuiltinClock_MIN = BuiltinClock::BUILTIN_CLOCK_UNKNOWN;
+constexpr BuiltinClock BuiltinClock_MAX = BuiltinClock::BUILTIN_CLOCK_MAX_ID;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* BuiltinClock_Name(::perfetto::protos::pbzero::BuiltinClock value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::BuiltinClock::BUILTIN_CLOCK_UNKNOWN:
+ return "BUILTIN_CLOCK_UNKNOWN";
+
+ case ::perfetto::protos::pbzero::BuiltinClock::BUILTIN_CLOCK_REALTIME:
+ return "BUILTIN_CLOCK_REALTIME";
+
+ case ::perfetto::protos::pbzero::BuiltinClock::BUILTIN_CLOCK_REALTIME_COARSE:
+ return "BUILTIN_CLOCK_REALTIME_COARSE";
+
+ case ::perfetto::protos::pbzero::BuiltinClock::BUILTIN_CLOCK_MONOTONIC:
+ return "BUILTIN_CLOCK_MONOTONIC";
+
+ case ::perfetto::protos::pbzero::BuiltinClock::BUILTIN_CLOCK_MONOTONIC_COARSE:
+ return "BUILTIN_CLOCK_MONOTONIC_COARSE";
+
+ case ::perfetto::protos::pbzero::BuiltinClock::BUILTIN_CLOCK_MONOTONIC_RAW:
+ return "BUILTIN_CLOCK_MONOTONIC_RAW";
+
+ case ::perfetto::protos::pbzero::BuiltinClock::BUILTIN_CLOCK_BOOTTIME:
+ return "BUILTIN_CLOCK_BOOTTIME";
+
+ case ::perfetto::protos::pbzero::BuiltinClock::BUILTIN_CLOCK_MAX_ID:
+ return "BUILTIN_CLOCK_MAX_ID";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/interned_data/interned_data.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_INTERNED_DATA_INTERNED_DATA_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_INTERNED_DATA_INTERNED_DATA_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class Callstack;
+class DebugAnnotationName;
+class DebugAnnotationValueTypeName;
+class EventCategory;
+class EventName;
+class Frame;
+class HistogramName;
+class InternedGpuRenderStageSpecification;
+class InternedGraphicsContext;
+class InternedString;
+class InternedV8Isolate;
+class InternedV8JsFunction;
+class InternedV8JsScript;
+class InternedV8String;
+class InternedV8WasmScript;
+class LogMessageBody;
+class Mapping;
+class NetworkPacketContext;
+class ProfiledFrameSymbols;
+class SourceLocation;
+class UnsymbolizedSourceLocation;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class InternedData_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/37, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ InternedData_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit InternedData_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit InternedData_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_event_categories() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> event_categories() const { return GetRepeated<::protozero::ConstBytes>(1); }
+ bool has_event_names() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> event_names() const { return GetRepeated<::protozero::ConstBytes>(2); }
+ bool has_debug_annotation_names() const { return at<3>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> debug_annotation_names() const { return GetRepeated<::protozero::ConstBytes>(3); }
+ bool has_debug_annotation_value_type_names() const { return at<27>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> debug_annotation_value_type_names() const { return GetRepeated<::protozero::ConstBytes>(27); }
+ bool has_source_locations() const { return at<4>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> source_locations() const { return GetRepeated<::protozero::ConstBytes>(4); }
+ bool has_unsymbolized_source_locations() const { return at<28>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> unsymbolized_source_locations() const { return GetRepeated<::protozero::ConstBytes>(28); }
+ bool has_log_message_body() const { return at<20>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> log_message_body() const { return GetRepeated<::protozero::ConstBytes>(20); }
+ bool has_histogram_names() const { return at<25>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> histogram_names() const { return GetRepeated<::protozero::ConstBytes>(25); }
+ bool has_build_ids() const { return at<16>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> build_ids() const { return GetRepeated<::protozero::ConstBytes>(16); }
+ bool has_mapping_paths() const { return at<17>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> mapping_paths() const { return GetRepeated<::protozero::ConstBytes>(17); }
+ bool has_source_paths() const { return at<18>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> source_paths() const { return GetRepeated<::protozero::ConstBytes>(18); }
+ bool has_function_names() const { return at<5>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> function_names() const { return GetRepeated<::protozero::ConstBytes>(5); }
+ bool has_profiled_frame_symbols() const { return at<21>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> profiled_frame_symbols() const { return GetRepeated<::protozero::ConstBytes>(21); }
+ bool has_mappings() const { return at<19>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> mappings() const { return GetRepeated<::protozero::ConstBytes>(19); }
+ bool has_frames() const { return at<6>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> frames() const { return GetRepeated<::protozero::ConstBytes>(6); }
+ bool has_callstacks() const { return at<7>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> callstacks() const { return GetRepeated<::protozero::ConstBytes>(7); }
+ bool has_vulkan_memory_keys() const { return at<22>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> vulkan_memory_keys() const { return GetRepeated<::protozero::ConstBytes>(22); }
+ bool has_graphics_contexts() const { return at<23>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> graphics_contexts() const { return GetRepeated<::protozero::ConstBytes>(23); }
+ bool has_gpu_specifications() const { return at<24>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> gpu_specifications() const { return GetRepeated<::protozero::ConstBytes>(24); }
+ bool has_kernel_symbols() const { return at<26>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> kernel_symbols() const { return GetRepeated<::protozero::ConstBytes>(26); }
+ bool has_debug_annotation_string_values() const { return at<29>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> debug_annotation_string_values() const { return GetRepeated<::protozero::ConstBytes>(29); }
+ bool has_packet_context() const { return at<30>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> packet_context() const { return GetRepeated<::protozero::ConstBytes>(30); }
+ bool has_v8_js_function_name() const { return at<31>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> v8_js_function_name() const { return GetRepeated<::protozero::ConstBytes>(31); }
+ bool has_v8_js_function() const { return at<32>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> v8_js_function() const { return GetRepeated<::protozero::ConstBytes>(32); }
+ bool has_v8_js_script() const { return at<33>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> v8_js_script() const { return GetRepeated<::protozero::ConstBytes>(33); }
+ bool has_v8_wasm_script() const { return at<34>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> v8_wasm_script() const { return GetRepeated<::protozero::ConstBytes>(34); }
+ bool has_v8_isolate() const { return at<35>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> v8_isolate() const { return GetRepeated<::protozero::ConstBytes>(35); }
+ bool has_protolog_string_args() const { return at<36>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> protolog_string_args() const { return GetRepeated<::protozero::ConstBytes>(36); }
+ bool has_protolog_stacktrace() const { return at<37>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> protolog_stacktrace() const { return GetRepeated<::protozero::ConstBytes>(37); }
+};
+
+class InternedData : public ::protozero::Message {
+ public:
+ using Decoder = InternedData_Decoder;
+ enum : int32_t {
+ kEventCategoriesFieldNumber = 1,
+ kEventNamesFieldNumber = 2,
+ kDebugAnnotationNamesFieldNumber = 3,
+ kDebugAnnotationValueTypeNamesFieldNumber = 27,
+ kSourceLocationsFieldNumber = 4,
+ kUnsymbolizedSourceLocationsFieldNumber = 28,
+ kLogMessageBodyFieldNumber = 20,
+ kHistogramNamesFieldNumber = 25,
+ kBuildIdsFieldNumber = 16,
+ kMappingPathsFieldNumber = 17,
+ kSourcePathsFieldNumber = 18,
+ kFunctionNamesFieldNumber = 5,
+ kProfiledFrameSymbolsFieldNumber = 21,
+ kMappingsFieldNumber = 19,
+ kFramesFieldNumber = 6,
+ kCallstacksFieldNumber = 7,
+ kVulkanMemoryKeysFieldNumber = 22,
+ kGraphicsContextsFieldNumber = 23,
+ kGpuSpecificationsFieldNumber = 24,
+ kKernelSymbolsFieldNumber = 26,
+ kDebugAnnotationStringValuesFieldNumber = 29,
+ kPacketContextFieldNumber = 30,
+ kV8JsFunctionNameFieldNumber = 31,
+ kV8JsFunctionFieldNumber = 32,
+ kV8JsScriptFieldNumber = 33,
+ kV8WasmScriptFieldNumber = 34,
+ kV8IsolateFieldNumber = 35,
+ kProtologStringArgsFieldNumber = 36,
+ kProtologStacktraceFieldNumber = 37,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.InternedData"; }
+
+
+ using FieldMetadata_EventCategories =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ EventCategory,
+ InternedData>;
+
+ static constexpr FieldMetadata_EventCategories kEventCategories{};
+ template <typename T = EventCategory> T* add_event_categories() {
+ return BeginNestedMessage<T>(1);
+ }
+
+
+ using FieldMetadata_EventNames =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ EventName,
+ InternedData>;
+
+ static constexpr FieldMetadata_EventNames kEventNames{};
+ template <typename T = EventName> T* add_event_names() {
+ return BeginNestedMessage<T>(2);
+ }
+
+
+ using FieldMetadata_DebugAnnotationNames =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ DebugAnnotationName,
+ InternedData>;
+
+ static constexpr FieldMetadata_DebugAnnotationNames kDebugAnnotationNames{};
+ template <typename T = DebugAnnotationName> T* add_debug_annotation_names() {
+ return BeginNestedMessage<T>(3);
+ }
+
+
+ using FieldMetadata_DebugAnnotationValueTypeNames =
+ ::protozero::proto_utils::FieldMetadata<
+ 27,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ DebugAnnotationValueTypeName,
+ InternedData>;
+
+ static constexpr FieldMetadata_DebugAnnotationValueTypeNames kDebugAnnotationValueTypeNames{};
+ template <typename T = DebugAnnotationValueTypeName> T* add_debug_annotation_value_type_names() {
+ return BeginNestedMessage<T>(27);
+ }
+
+
+ using FieldMetadata_SourceLocations =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SourceLocation,
+ InternedData>;
+
+ static constexpr FieldMetadata_SourceLocations kSourceLocations{};
+ template <typename T = SourceLocation> T* add_source_locations() {
+ return BeginNestedMessage<T>(4);
+ }
+
+
+ using FieldMetadata_UnsymbolizedSourceLocations =
+ ::protozero::proto_utils::FieldMetadata<
+ 28,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ UnsymbolizedSourceLocation,
+ InternedData>;
+
+ static constexpr FieldMetadata_UnsymbolizedSourceLocations kUnsymbolizedSourceLocations{};
+ template <typename T = UnsymbolizedSourceLocation> T* add_unsymbolized_source_locations() {
+ return BeginNestedMessage<T>(28);
+ }
+
+
+ using FieldMetadata_LogMessageBody =
+ ::protozero::proto_utils::FieldMetadata<
+ 20,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ LogMessageBody,
+ InternedData>;
+
+ static constexpr FieldMetadata_LogMessageBody kLogMessageBody{};
+ template <typename T = LogMessageBody> T* add_log_message_body() {
+ return BeginNestedMessage<T>(20);
+ }
+
+
+ using FieldMetadata_HistogramNames =
+ ::protozero::proto_utils::FieldMetadata<
+ 25,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ HistogramName,
+ InternedData>;
+
+ static constexpr FieldMetadata_HistogramNames kHistogramNames{};
+ template <typename T = HistogramName> T* add_histogram_names() {
+ return BeginNestedMessage<T>(25);
+ }
+
+
+ using FieldMetadata_BuildIds =
+ ::protozero::proto_utils::FieldMetadata<
+ 16,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ InternedString,
+ InternedData>;
+
+ static constexpr FieldMetadata_BuildIds kBuildIds{};
+ template <typename T = InternedString> T* add_build_ids() {
+ return BeginNestedMessage<T>(16);
+ }
+
+
+ using FieldMetadata_MappingPaths =
+ ::protozero::proto_utils::FieldMetadata<
+ 17,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ InternedString,
+ InternedData>;
+
+ static constexpr FieldMetadata_MappingPaths kMappingPaths{};
+ template <typename T = InternedString> T* add_mapping_paths() {
+ return BeginNestedMessage<T>(17);
+ }
+
+
+ using FieldMetadata_SourcePaths =
+ ::protozero::proto_utils::FieldMetadata<
+ 18,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ InternedString,
+ InternedData>;
+
+ static constexpr FieldMetadata_SourcePaths kSourcePaths{};
+ template <typename T = InternedString> T* add_source_paths() {
+ return BeginNestedMessage<T>(18);
+ }
+
+
+ using FieldMetadata_FunctionNames =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ InternedString,
+ InternedData>;
+
+ static constexpr FieldMetadata_FunctionNames kFunctionNames{};
+ template <typename T = InternedString> T* add_function_names() {
+ return BeginNestedMessage<T>(5);
+ }
+
+
+ using FieldMetadata_ProfiledFrameSymbols =
+ ::protozero::proto_utils::FieldMetadata<
+ 21,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ProfiledFrameSymbols,
+ InternedData>;
+
+ static constexpr FieldMetadata_ProfiledFrameSymbols kProfiledFrameSymbols{};
+ template <typename T = ProfiledFrameSymbols> T* add_profiled_frame_symbols() {
+ return BeginNestedMessage<T>(21);
+ }
+
+
+ using FieldMetadata_Mappings =
+ ::protozero::proto_utils::FieldMetadata<
+ 19,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Mapping,
+ InternedData>;
+
+ static constexpr FieldMetadata_Mappings kMappings{};
+ template <typename T = Mapping> T* add_mappings() {
+ return BeginNestedMessage<T>(19);
+ }
+
+
+ using FieldMetadata_Frames =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Frame,
+ InternedData>;
+
+ static constexpr FieldMetadata_Frames kFrames{};
+ template <typename T = Frame> T* add_frames() {
+ return BeginNestedMessage<T>(6);
+ }
+
+
+ using FieldMetadata_Callstacks =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Callstack,
+ InternedData>;
+
+ static constexpr FieldMetadata_Callstacks kCallstacks{};
+ template <typename T = Callstack> T* add_callstacks() {
+ return BeginNestedMessage<T>(7);
+ }
+
+
+ using FieldMetadata_VulkanMemoryKeys =
+ ::protozero::proto_utils::FieldMetadata<
+ 22,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ InternedString,
+ InternedData>;
+
+ static constexpr FieldMetadata_VulkanMemoryKeys kVulkanMemoryKeys{};
+ template <typename T = InternedString> T* add_vulkan_memory_keys() {
+ return BeginNestedMessage<T>(22);
+ }
+
+
+ using FieldMetadata_GraphicsContexts =
+ ::protozero::proto_utils::FieldMetadata<
+ 23,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ InternedGraphicsContext,
+ InternedData>;
+
+ static constexpr FieldMetadata_GraphicsContexts kGraphicsContexts{};
+ template <typename T = InternedGraphicsContext> T* add_graphics_contexts() {
+ return BeginNestedMessage<T>(23);
+ }
+
+
+ using FieldMetadata_GpuSpecifications =
+ ::protozero::proto_utils::FieldMetadata<
+ 24,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ InternedGpuRenderStageSpecification,
+ InternedData>;
+
+ static constexpr FieldMetadata_GpuSpecifications kGpuSpecifications{};
+ template <typename T = InternedGpuRenderStageSpecification> T* add_gpu_specifications() {
+ return BeginNestedMessage<T>(24);
+ }
+
+
+ using FieldMetadata_KernelSymbols =
+ ::protozero::proto_utils::FieldMetadata<
+ 26,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ InternedString,
+ InternedData>;
+
+ static constexpr FieldMetadata_KernelSymbols kKernelSymbols{};
+ template <typename T = InternedString> T* add_kernel_symbols() {
+ return BeginNestedMessage<T>(26);
+ }
+
+
+ using FieldMetadata_DebugAnnotationStringValues =
+ ::protozero::proto_utils::FieldMetadata<
+ 29,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ InternedString,
+ InternedData>;
+
+ static constexpr FieldMetadata_DebugAnnotationStringValues kDebugAnnotationStringValues{};
+ template <typename T = InternedString> T* add_debug_annotation_string_values() {
+ return BeginNestedMessage<T>(29);
+ }
+
+
+ using FieldMetadata_PacketContext =
+ ::protozero::proto_utils::FieldMetadata<
+ 30,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ NetworkPacketContext,
+ InternedData>;
+
+ static constexpr FieldMetadata_PacketContext kPacketContext{};
+ template <typename T = NetworkPacketContext> T* add_packet_context() {
+ return BeginNestedMessage<T>(30);
+ }
+
+
+ using FieldMetadata_V8JsFunctionName =
+ ::protozero::proto_utils::FieldMetadata<
+ 31,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ InternedV8String,
+ InternedData>;
+
+ static constexpr FieldMetadata_V8JsFunctionName kV8JsFunctionName{};
+ template <typename T = InternedV8String> T* add_v8_js_function_name() {
+ return BeginNestedMessage<T>(31);
+ }
+
+
+ using FieldMetadata_V8JsFunction =
+ ::protozero::proto_utils::FieldMetadata<
+ 32,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ InternedV8JsFunction,
+ InternedData>;
+
+ static constexpr FieldMetadata_V8JsFunction kV8JsFunction{};
+ template <typename T = InternedV8JsFunction> T* add_v8_js_function() {
+ return BeginNestedMessage<T>(32);
+ }
+
+
+ using FieldMetadata_V8JsScript =
+ ::protozero::proto_utils::FieldMetadata<
+ 33,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ InternedV8JsScript,
+ InternedData>;
+
+ static constexpr FieldMetadata_V8JsScript kV8JsScript{};
+ template <typename T = InternedV8JsScript> T* add_v8_js_script() {
+ return BeginNestedMessage<T>(33);
+ }
+
+
+ using FieldMetadata_V8WasmScript =
+ ::protozero::proto_utils::FieldMetadata<
+ 34,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ InternedV8WasmScript,
+ InternedData>;
+
+ static constexpr FieldMetadata_V8WasmScript kV8WasmScript{};
+ template <typename T = InternedV8WasmScript> T* add_v8_wasm_script() {
+ return BeginNestedMessage<T>(34);
+ }
+
+
+ using FieldMetadata_V8Isolate =
+ ::protozero::proto_utils::FieldMetadata<
+ 35,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ InternedV8Isolate,
+ InternedData>;
+
+ static constexpr FieldMetadata_V8Isolate kV8Isolate{};
+ template <typename T = InternedV8Isolate> T* add_v8_isolate() {
+ return BeginNestedMessage<T>(35);
+ }
+
+
+ using FieldMetadata_ProtologStringArgs =
+ ::protozero::proto_utils::FieldMetadata<
+ 36,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ InternedString,
+ InternedData>;
+
+ static constexpr FieldMetadata_ProtologStringArgs kProtologStringArgs{};
+ template <typename T = InternedString> T* add_protolog_string_args() {
+ return BeginNestedMessage<T>(36);
+ }
+
+
+ using FieldMetadata_ProtologStacktrace =
+ ::protozero::proto_utils::FieldMetadata<
+ 37,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ InternedString,
+ InternedData>;
+
+ static constexpr FieldMetadata_ProtologStacktrace kProtologStacktrace{};
+ template <typename T = InternedString> T* add_protolog_stacktrace() {
+ return BeginNestedMessage<T>(37);
+ }
+
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_TRACING_INTERNAL_TRACK_EVENT_INTERNAL_H_
+#define INCLUDE_PERFETTO_TRACING_INTERNAL_TRACK_EVENT_INTERNAL_H_
+
+// gen_amalgamated expanded: #include "perfetto/base/flat_set.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/core/forward_decls.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/data_source.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/debug_annotation.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/trace_writer_base.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/traced_value.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/track.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/builtin_clock.pbzero.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/interned_data/interned_data.pbzero.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/track_event.pbzero.h"
+
+#include <unordered_map>
+
+namespace perfetto {
+
+// Represents a point in time for the clock specified by |clock_id|.
+struct TraceTimestamp {
+ // Clock IDs have the following semantic:
+ // [1, 63]: Builtin types, see BuiltinClock from
+ // ../common/builtin_clock.proto.
+ // [64, 127]: User-defined clocks. These clocks are sequence-scoped. They
+ // are only valid within the same |trusted_packet_sequence_id|
+ // (i.e. only for TracePacket(s) emitted by the same TraceWriter
+ // that emitted the clock snapshot).
+ // [128, MAX]: Reserved for future use. The idea is to allow global clock
+ // IDs and setting this ID to hash(full_clock_name) & ~127.
+ // Learn more: `clock_snapshot.proto`
+ uint32_t clock_id;
+ uint64_t value;
+};
+
+class EventContext;
+class TrackEventSessionObserver;
+struct Category;
+struct TraceTimestamp;
+namespace protos {
+namespace gen {
+class TrackEventConfig;
+} // namespace gen
+namespace pbzero {
+class DebugAnnotation;
+} // namespace pbzero
+} // namespace protos
+
+// A callback interface for observing track event tracing sessions starting and
+// stopping. See TrackEvent::{Add,Remove}SessionObserver. Note that all methods
+// will be called on an internal Perfetto thread.
+class PERFETTO_EXPORT_COMPONENT TrackEventSessionObserver {
+ public:
+ virtual ~TrackEventSessionObserver();
+ // Called when a track event tracing session is configured. Note tracing isn't
+ // active yet, so track events emitted here won't be recorded. See
+ // DataSourceBase::OnSetup.
+ virtual void OnSetup(const DataSourceBase::SetupArgs&);
+ // Called when a track event tracing session is started. It is possible to
+ // emit track events from this callback.
+ virtual void OnStart(const DataSourceBase::StartArgs&);
+ // Called when a track event tracing session is stopped. It is still possible
+ // to emit track events from this callback.
+ virtual void OnStop(const DataSourceBase::StopArgs&);
+ // Called when tracing muxer requests to clear incremental state.
+ virtual void WillClearIncrementalState(
+ const DataSourceBase::ClearIncrementalStateArgs&);
+};
+
+// A class that the embedder can store arbitrary data user data per thread.
+class PERFETTO_EXPORT_COMPONENT TrackEventTlsStateUserData {
+ public:
+ TrackEventTlsStateUserData() = default;
+ // Not clonable.
+ TrackEventTlsStateUserData(const TrackEventTlsStateUserData&) = delete;
+ TrackEventTlsStateUserData& operator=(const TrackEventTlsStateUserData&) =
+ delete;
+
+ virtual ~TrackEventTlsStateUserData();
+};
+
+namespace internal {
+class TrackEventCategoryRegistry;
+
+class PERFETTO_EXPORT_COMPONENT BaseTrackEventInternedDataIndex {
+ public:
+ virtual ~BaseTrackEventInternedDataIndex();
+
+#if PERFETTO_DCHECK_IS_ON()
+ const char* type_id_ = nullptr;
+ const void* add_function_ptr_ = nullptr;
+#endif // PERFETTO_DCHECK_IS_ON()
+};
+
+struct TrackEventTlsState {
+ template <typename TraceContext>
+ explicit TrackEventTlsState(const TraceContext& trace_context);
+ bool enable_thread_time_sampling = false;
+ bool filter_debug_annotations = false;
+ bool filter_dynamic_event_names = false;
+ uint64_t timestamp_unit_multiplier = 1;
+ uint32_t default_clock;
+ std::map<const void*, std::unique_ptr<TrackEventTlsStateUserData>> user_data;
+};
+
+struct TrackEventIncrementalState {
+ static constexpr size_t kMaxInternedDataFields = 32;
+
+ // Packet-sequence-scoped clock that encodes nanosecond timestamps in the
+ // domain of the clock returned by GetClockId() as delta values - see
+ // Clock::is_incremental in perfetto/trace/clock_snapshot.proto.
+ // Default unit: nanoseconds.
+ static constexpr uint32_t kClockIdIncremental = 64;
+
+ // Packet-sequence-scoped clock that encodes timestamps in the domain of the
+ // clock returned by GetClockId() with custom unit_multiplier.
+ // Default unit: nanoseconds.
+ static constexpr uint32_t kClockIdAbsolute = 65;
+
+ bool was_cleared = true;
+
+ // A heap-allocated message for storing newly seen interned data while we are
+ // in the middle of writing a track event. When a track event wants to write
+ // new interned data into the trace, it is first serialized into this message
+ // and then flushed to the real trace in EventContext when the packet ends.
+ // The message is cached here as a part of incremental state so that we can
+ // reuse the underlying buffer allocation for subsequently written interned
+ // data.
+ protozero::HeapBuffered<protos::pbzero::InternedData>
+ serialized_interned_data;
+
+ // In-memory indices for looking up interned data ids.
+ // For each intern-able field (up to a max of 32) we keep a dictionary of
+ // field-value -> interning-key. Depending on the type we either keep the full
+ // value or a hash of it (See track_event_interned_data_index.h)
+ using InternedDataIndex =
+ std::pair</* interned_data.proto field number */ size_t,
+ std::unique_ptr<BaseTrackEventInternedDataIndex>>;
+ std::array<InternedDataIndex, kMaxInternedDataFields> interned_data_indices =
+ {};
+
+ // Track uuids for which we have written descriptors into the trace. If a
+ // trace event uses a track which is not in this set, we'll write out a
+ // descriptor for it.
+ base::FlatSet<uint64_t> seen_tracks;
+
+ // Dynamically registered category names that have been encountered during
+ // this tracing session. The value in the map indicates whether the category
+ // is enabled or disabled.
+ std::unordered_map<std::string, bool> dynamic_categories;
+
+ // The latest reference timestamp that was used in a TracePacket or in a
+ // ClockSnapshot. The increment between this timestamp and the current trace
+ // time (GetTimeNs) is a value in kClockIdIncremental's domain.
+ uint64_t last_timestamp_ns = 0;
+
+ // The latest known counter values that was used in a TracePacket for each
+ // counter track. The key (uint64_t) is the uuid of counter track.
+ // The value is used for delta encoding of counter values.
+ std::unordered_map<uint64_t, int64_t> last_counter_value_per_track;
+ int64_t last_thread_time_ns = 0;
+};
+
+// The backend portion of the track event trace point implemention. Outlined to
+// a separate .cc file so it can be shared by different track event category
+// namespaces.
+class PERFETTO_EXPORT_COMPONENT TrackEventInternal {
+ public:
+ static bool Initialize(
+ const TrackEventCategoryRegistry&,
+ bool (*register_data_source)(const DataSourceDescriptor&));
+
+ static bool AddSessionObserver(const TrackEventCategoryRegistry&,
+ TrackEventSessionObserver*);
+ static void RemoveSessionObserver(const TrackEventCategoryRegistry&,
+ TrackEventSessionObserver*);
+
+ static void EnableTracing(const TrackEventCategoryRegistry& registry,
+ const protos::gen::TrackEventConfig& config,
+ const DataSourceBase::SetupArgs&);
+ static void OnStart(const TrackEventCategoryRegistry&,
+ const DataSourceBase::StartArgs&);
+ static void OnStop(const TrackEventCategoryRegistry&,
+ const DataSourceBase::StopArgs&);
+ static void DisableTracing(const TrackEventCategoryRegistry& registry,
+ uint32_t internal_instance_index);
+ static void WillClearIncrementalState(
+ const TrackEventCategoryRegistry&,
+ const DataSourceBase::ClearIncrementalStateArgs&);
+
+ static bool IsCategoryEnabled(const TrackEventCategoryRegistry& registry,
+ const protos::gen::TrackEventConfig& config,
+ const Category& category);
+
+ static void WriteEventName(perfetto::DynamicString event_name,
+ perfetto::EventContext& event_ctx,
+ const TrackEventTlsState&);
+
+ static void WriteEventName(perfetto::StaticString event_name,
+ perfetto::EventContext& event_ctx,
+ const TrackEventTlsState&);
+
+ static perfetto::EventContext WriteEvent(
+ TraceWriterBase*,
+ TrackEventIncrementalState*,
+ TrackEventTlsState& tls_state,
+ const Category* category,
+ perfetto::protos::pbzero::TrackEvent::Type,
+ const TraceTimestamp& timestamp,
+ bool on_current_thread_track);
+
+ static void ResetIncrementalStateIfRequired(
+ TraceWriterBase* trace_writer,
+ TrackEventIncrementalState* incr_state,
+ const TrackEventTlsState& tls_state,
+ const TraceTimestamp& timestamp) {
+ if (incr_state->was_cleared) {
+ incr_state->was_cleared = false;
+ ResetIncrementalState(trace_writer, incr_state, tls_state, timestamp);
+ }
+ }
+
+ // TODO(altimin): Remove this method once Chrome uses
+ // EventContext::AddDebugAnnotation directly.
+ template <typename NameType, typename ValueType>
+ static void AddDebugAnnotation(perfetto::EventContext* event_ctx,
+ NameType&& name,
+ ValueType&& value) {
+ auto annotation =
+ AddDebugAnnotation(event_ctx, std::forward<NameType>(name));
+ WriteIntoTracedValue(
+ internal::CreateTracedValueFromProto(annotation, event_ctx),
+ std::forward<ValueType>(value));
+ }
+
+ // If the given track hasn't been seen by the trace writer yet, write a
+ // descriptor for it into the trace. Doesn't take a lock unless the track
+ // descriptor is new.
+ template <typename TrackType>
+ static void WriteTrackDescriptorIfNeeded(
+ const TrackType& track,
+ TraceWriterBase* trace_writer,
+ TrackEventIncrementalState* incr_state,
+ const TrackEventTlsState& tls_state,
+ const TraceTimestamp& timestamp) {
+ auto it_and_inserted = incr_state->seen_tracks.insert(track.uuid);
+ if (PERFETTO_LIKELY(!it_and_inserted.second))
+ return;
+ WriteTrackDescriptor(track, trace_writer, incr_state, tls_state, timestamp);
+ }
+
+ // Unconditionally write a track descriptor into the trace.
+ template <typename TrackType>
+ static void WriteTrackDescriptor(const TrackType& track,
+ TraceWriterBase* trace_writer,
+ TrackEventIncrementalState* incr_state,
+ const TrackEventTlsState& tls_state,
+ const TraceTimestamp& timestamp) {
+ ResetIncrementalStateIfRequired(trace_writer, incr_state, tls_state,
+ timestamp);
+ TrackRegistry::Get()->SerializeTrack(
+ track, NewTracePacket(trace_writer, incr_state, tls_state, timestamp));
+ }
+
+ // Get the current time in nanoseconds in the trace clock timebase.
+ static uint64_t GetTimeNs();
+
+ static TraceTimestamp GetTraceTime();
+
+ static inline protos::pbzero::BuiltinClock GetClockId() { return clock_; }
+ static inline void SetClockId(protos::pbzero::BuiltinClock clock) {
+ clock_ = clock;
+ }
+
+ static inline bool GetDisallowMergingWithSystemTracks() {
+ return disallow_merging_with_system_tracks_;
+ }
+ static inline void SetDisallowMergingWithSystemTracks(
+ bool disallow_merging_with_system_tracks) {
+ disallow_merging_with_system_tracks_ = disallow_merging_with_system_tracks;
+ }
+
+ static int GetSessionCount();
+
+ // Represents the default track for the calling thread.
+ static const Track kDefaultTrack;
+
+ private:
+ static void ResetIncrementalState(TraceWriterBase* trace_writer,
+ TrackEventIncrementalState* incr_state,
+ const TrackEventTlsState& tls_state,
+ const TraceTimestamp& timestamp);
+
+ static protozero::MessageHandle<protos::pbzero::TracePacket> NewTracePacket(
+ TraceWriterBase*,
+ TrackEventIncrementalState*,
+ const TrackEventTlsState& tls_state,
+ TraceTimestamp,
+ uint32_t seq_flags =
+ protos::pbzero::TracePacket::SEQ_NEEDS_INCREMENTAL_STATE);
+
+ static protos::pbzero::DebugAnnotation* AddDebugAnnotation(
+ perfetto::EventContext*,
+ const char* name);
+
+ static protos::pbzero::DebugAnnotation* AddDebugAnnotation(
+ perfetto::EventContext*,
+ perfetto::DynamicString name);
+
+ static std::atomic<int> session_count_;
+
+ static protos::pbzero::BuiltinClock clock_;
+ static bool disallow_merging_with_system_tracks_;
+};
+
+template <typename TraceContext>
+TrackEventTlsState::TrackEventTlsState(const TraceContext& trace_context) {
+ auto locked_ds = trace_context.GetDataSourceLocked();
+ bool disable_incremental_timestamps = false;
+ if (locked_ds.valid()) {
+ const auto& config = locked_ds->GetConfig();
+ disable_incremental_timestamps = config.disable_incremental_timestamps();
+ filter_debug_annotations = config.filter_debug_annotations();
+ filter_dynamic_event_names = config.filter_dynamic_event_names();
+ enable_thread_time_sampling = config.enable_thread_time_sampling();
+ if (config.has_timestamp_unit_multiplier()) {
+ timestamp_unit_multiplier = config.timestamp_unit_multiplier();
+ }
+ }
+ if (disable_incremental_timestamps) {
+ if (timestamp_unit_multiplier == 1) {
+ default_clock = static_cast<uint32_t>(TrackEventInternal::GetClockId());
+ } else {
+ default_clock = TrackEventIncrementalState::kClockIdAbsolute;
+ }
+ } else {
+ default_clock = TrackEventIncrementalState::kClockIdIncremental;
+ }
+}
+
+} // namespace internal
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_TRACING_INTERNAL_TRACK_EVENT_INTERNAL_H_
+// gen_amalgamated begin header: include/perfetto/tracing/traced_proto.h
+/*
+ * Copyright (C) 2021 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_TRACING_TRACED_PROTO_H_
+#define INCLUDE_PERFETTO_TRACING_TRACED_PROTO_H_
+
+// gen_amalgamated expanded: #include "perfetto/base/template_util.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/traced_value.h"
+
+namespace perfetto {
+class EventContext;
+namespace internal {
+template <typename FieldMetadata,
+ bool is_message,
+ protozero::proto_utils::RepetitionType repetition_type>
+struct TypedProtoWriterImpl;
+}
+
+// A Wrapper around a protozero message to allow C++ classes to specify how it
+// should be serialised into the trace:
+//
+// class Foo {
+// public:
+// void WriteIntoTrace(perfetto::TracedProto<pbzero::Foo> message) {
+// message->set_int_field(int_field_);
+// }
+// };
+//
+// This class also exposes EventContext, e.g. to enable data interning.
+//
+// NOTE: the functionality below is not ready yet.
+// TODO(altimin): Make the interop below possible.
+// TracedProto also provides a seamless integration with writing untyped
+// values via TracedValue / TracedDictionary / TracedArray:
+//
+// - TracedValue can be converted to a TracedProto, either by calling
+// TracedValue::WriteProto<T>() or implicitly.
+// - If a proto message has a repeating DebugAnnotation debug_annotations
+// field, it can be filled using the TracedDictionary obtained from
+// TracedProto::AddDebugAnnotations.
+template <typename MessageType>
+class TracedProto {
+ public:
+ // implicit
+ TracedProto(TracedValue&& value)
+ : TracedProto(std::move(value).WriteProto<MessageType>()) {}
+ ~TracedProto() = default;
+
+ TracedProto(const TracedProto&) = delete;
+ TracedProto& operator=(const TracedProto&) = delete;
+ TracedProto& operator=(TracedProto&&) = delete;
+ TracedProto(TracedProto&&) = default;
+
+ MessageType* operator->() const { return message_; }
+
+ MessageType* message() { return message_; }
+
+ // Write additional untyped values into the same context, which is useful
+ // when a given C++ class has a typed representation, but also either has
+ // members which can only be written into an untyped context (e.g. they are
+ // autogenerated) or it's desirable to have a way to quickly extend the
+ // trace representation of this class (e.g. for debugging).
+ //
+ // The usage of the returned TracedDictionary should not be interleaved with
+ // writing into |message| as this results in an inefficient proto layout. To
+ // enforce this, AddDebugAnnotations should be called on TracedProto&&, i.e.
+ // std::move(message).AddDebugAnnotations().
+ //
+ // This requires a 'repeated DebugAnnotations debug_annotations' field in
+ // MessageType.
+ template <typename Check = void>
+ TracedDictionary AddDebugAnnotations() && {
+ static_assert(
+ std::is_base_of<
+ protozero::proto_utils::FieldMetadataBase,
+ typename MessageType::FieldMetadata_DebugAnnotations>::value,
+ "This message does not have a |debug_annotations| field. Please add a"
+ "'repeated perfetto.protos.DebugAnnotation debug_annnotations = N;' "
+ "field to your message.");
+ return TracedDictionary(message_, MessageType::kDebugAnnotations, context_,
+ nullptr);
+ }
+
+ // Start writing a single entry corresponding to the given |field| and return
+ // TracedProto should be used to populate this further.
+ // This method requires |field|'s type to be a nested message, but both
+ // repeated and non-repeated complex fields are supported.
+ template <typename FieldMetadata>
+ TracedProto<typename FieldMetadata::cpp_field_type> WriteNestedMessage(
+ FieldMetadata) {
+ static_assert(std::is_base_of<MessageType,
+ typename FieldMetadata::message_type>::value,
+ "Field should belong to the current message");
+ static_assert(
+ FieldMetadata::kProtoFieldType ==
+ protozero::proto_utils::ProtoSchemaType::kMessage,
+ "AddItem() can be used only for nested message fields. To write a "
+ "primitive field, use traced_proto->set_field() or traced_proto.Set()");
+ return Wrap(
+ message_->template BeginNestedMessage<
+ typename FieldMetadata::cpp_field_type>(FieldMetadata::kFieldId));
+ }
+
+ // Write a given |value| into proto as a new |field| of the current message.
+ // This method supports both nested messages and primitive types (i.e. int or
+ // string), but requires the |field| to be non-repeateable (i.e. optional).
+ // For repeatable fields, AppendValue or AppendFrom should be used.
+ template <typename FieldMetadata, typename ValueType>
+ void Set(FieldMetadata, ValueType&& value) {
+ static_assert(std::is_base_of<MessageType,
+ typename FieldMetadata::message_type>::value,
+ "Field should belong to the current message");
+ static_assert(
+ FieldMetadata::kRepetitionType ==
+ protozero::proto_utils::RepetitionType::kNotRepeated,
+ "Set() can't be used with repeated fields due to ambiguity between "
+ "writing |value| as a single entry or treating |value| as a container "
+ "and writing all contained items as multiple entries. Please use "
+ "dedicated AppendValue() or AppendFrom() methods to differentiate "
+ "between "
+ "these two situations");
+
+ internal::TypedProtoWriterImpl<
+ FieldMetadata,
+ FieldMetadata::kProtoFieldType ==
+ protozero::proto_utils::ProtoSchemaType::kMessage,
+ protozero::proto_utils::RepetitionType::kNotRepeated>::
+ Write(*this, std::forward<ValueType>(value));
+ }
+
+ // Write a given |value| a single entry into the repeated |field| of the
+ // current message. If the field is not repeated, Set() should be used
+ // instead.
+ template <typename FieldMetadata, typename ValueType>
+ void AppendValue(FieldMetadata, ValueType&& value) {
+ static_assert(std::is_base_of<MessageType,
+ typename FieldMetadata::message_type>::value,
+ "Field should belong to the current message");
+ static_assert(
+ FieldMetadata::kRepetitionType ==
+ protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ "Append*() methods can be used only with repeated fields. "
+ "Please use Set() for non-repeated");
+
+ // Write a single value into a given repeated field by explicitly passing
+ // "kNotRepeated" to the TypedProtoWriterImpl.
+ internal::TypedProtoWriterImpl<
+ FieldMetadata,
+ FieldMetadata::kProtoFieldType ==
+ protozero::proto_utils::ProtoSchemaType::kMessage,
+ protozero::proto_utils::RepetitionType::kNotRepeated>::
+ Write(*this, std::forward<ValueType>(value));
+ }
+
+ // Write a given |value| as a set of entries into the repeated |field| of the
+ // current message. If the field is not repeated, Set() should be used
+ // instead.
+ template <typename FieldMetadata, typename ValueType>
+ void AppendFrom(FieldMetadata, ValueType&& value) {
+ static_assert(std::is_base_of<MessageType,
+ typename FieldMetadata::message_type>::value,
+ "Field should belong to the current message");
+ static_assert(
+ FieldMetadata::kRepetitionType ==
+ protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ "Append*() methods can be used only with repeated fields. "
+ "Please use Set() for non-repeated");
+
+ internal::TypedProtoWriterImpl<
+ FieldMetadata,
+ FieldMetadata::kProtoFieldType ==
+ protozero::proto_utils::ProtoSchemaType::kMessage,
+ protozero::proto_utils::RepetitionType::kRepeatedNotPacked>::
+ Write(*this, std::forward<ValueType>(value));
+ }
+
+ // Write a nested message into a field according to the provided metadata.
+ // TODO(altimin): Replace the current usages in Chrome with the functions
+ // above and make these methods private.
+ template <typename FieldMetadata>
+ TracedProto<typename FieldMetadata::cpp_field_type> WriteNestedMessage() {
+ return WriteNestedMessage(FieldMetadata());
+ }
+
+ private:
+ friend class EventContext;
+ friend class TracedValue;
+ // Allow TracedProto<Foo> to create TracedProto<Bar>.
+ template <typename T>
+ friend class TracedProto;
+
+ // Wraps a raw protozero message using the same context as the current object.
+ template <typename ChildMessageType>
+ TracedProto<ChildMessageType> Wrap(ChildMessageType* message) {
+ return TracedProto<ChildMessageType>(message, context_);
+ }
+
+ // Context might be null here when writing typed message which is
+ // nested into untyped legacy trace event macro argument.
+ // TODO(altimin): Turn this into EventContext& when this case is eliminated
+ // and expose it in public API.
+ EventContext* context() const { return context_; }
+
+ TracedProto(MessageType* message, EventContext* context)
+ : message_(message), context_(context) {}
+
+ MessageType* const message_;
+ EventContext* context_;
+};
+
+template <typename MessageType, typename ValueType>
+void WriteIntoTracedProto(TracedProto<MessageType> message, ValueType&& value);
+
+namespace internal {
+
+template <typename FieldMetadata,
+ bool is_message,
+ protozero::proto_utils::RepetitionType repetition_type>
+struct TypedProtoWriterImpl;
+
+// Simple non-repeated field.
+template <typename FieldMetadata>
+struct TypedProtoWriterImpl<
+ FieldMetadata,
+ /*is_message=*/false,
+ protozero::proto_utils::RepetitionType::kNotRepeated> {
+ template <typename Proto, typename ValueType>
+ static void Write(TracedProto<Proto>& context, ValueType&& value) {
+ protozero::internal::FieldWriter<FieldMetadata::kProtoFieldType>::Append(
+ *context.message(), FieldMetadata::kFieldId, value);
+ }
+};
+
+// Simple repeated non-packed field.
+template <typename FieldMetadata>
+struct TypedProtoWriterImpl<
+ FieldMetadata,
+ /*is_message=*/false,
+ protozero::proto_utils::RepetitionType::kRepeatedNotPacked> {
+ template <typename Proto, typename ValueType>
+ static void Write(TracedProto<Proto>& context, ValueType&& value) {
+ for (auto&& item : value) {
+ protozero::internal::FieldWriter<FieldMetadata::kProtoFieldType>::Append(
+ *context.message(), FieldMetadata::kFieldId, item);
+ }
+ }
+};
+
+// Nested repeated non-packed field.
+template <typename FieldMetadata>
+struct TypedProtoWriterImpl<
+ FieldMetadata,
+ /*is_message=*/true,
+ protozero::proto_utils::RepetitionType::kNotRepeated> {
+ template <typename Proto, typename ValueType>
+ static void Write(TracedProto<Proto>& context, ValueType&& value) {
+ WriteIntoTracedProto(context.template WriteNestedMessage<FieldMetadata>(),
+ std::forward<ValueType>(value));
+ }
+};
+
+// Nested repeated non-packed field.
+template <typename FieldMetadata>
+struct TypedProtoWriterImpl<
+ FieldMetadata,
+ /*is_message=*/true,
+ protozero::proto_utils::RepetitionType::kRepeatedNotPacked> {
+ template <typename Proto, typename ValueType>
+ static void Write(TracedProto<Proto>& context, ValueType&& value) {
+ for (auto&& item : value) {
+ WriteIntoTracedProto(context.template WriteNestedMessage<FieldMetadata>(),
+ item);
+ }
+ }
+};
+
+constexpr int kMaxWriteTracedProtoImplPriority = 1;
+
+// If perfetto::TraceFormatTraits<T>::WriteIntoTrace(TracedProto<MessageType>,
+// T) is available, use it.
+template <typename MessageType, typename T>
+decltype(TraceFormatTraits<base::remove_cvref_t<T>>::WriteIntoTrace(
+ std::declval<TracedProto<MessageType>>(),
+ std::declval<T>()),
+ void())
+WriteIntoTracedProtoImpl(base::priority_tag<1>,
+ TracedProto<MessageType> message,
+ T&& value) {
+ TraceFormatTraits<base::remove_cvref_t<T>>::WriteIntoTrace(
+ std::move(message), std::forward<T>(value));
+}
+
+// If T has WriteIntoTrace(TracedProto<MessageType>) method, use it.
+template <typename MessageType, typename T>
+decltype(
+ std::declval<T>().WriteIntoTrace(std::declval<TracedProto<MessageType>>()),
+ void())
+WriteIntoTracedProtoImpl(base::priority_tag<0>,
+ TracedProto<MessageType> message,
+ T&& value) {
+ value.WriteIntoTrace(std::move(message));
+}
+
+// TypedProtoWriter takes the protozero message (TracedProto<MessageType>),
+// field description (FieldMetadata) and value and writes the given value
+// into the given field of the given protozero message.
+//
+// This is primarily used for inline writing of typed messages:
+// TRACE_EVENT(..., pbzero::Message:kField, value);
+//
+// Ideally we would use a function here and not a struct, but passing template
+// arguments directly to the function (e.g. foo<void>()) isn't supported until
+// C++20, so we have to use a helper struct here.
+template <typename FieldMetadata>
+struct TypedProtoWriter {
+ private:
+ using ProtoSchemaType = protozero::proto_utils::ProtoSchemaType;
+ using RepetitionType = protozero::proto_utils::RepetitionType;
+
+ static_assert(FieldMetadata::kRepetitionType !=
+ RepetitionType::kRepeatedPacked,
+ "writing packed fields isn't supported yet");
+
+ template <bool is_message, RepetitionType repetition_type>
+ struct Writer;
+
+ public:
+ template <typename Proto, typename ValueType>
+ static void Write(TracedProto<Proto>& context, ValueType&& value) {
+ TypedProtoWriterImpl<
+ FieldMetadata,
+ FieldMetadata::kProtoFieldType == ProtoSchemaType::kMessage,
+ FieldMetadata::kRepetitionType>::Write(context,
+ std::forward<ValueType>(value));
+ }
+};
+
+} // namespace internal
+
+// Helper template to determine if a given type can be passed to
+// perfetto::WriteIntoTracedProto. These templates will fail to resolve if the
+// class does not have necesary support, so they are useful for SFINAE and for
+// producing helpful compiler error messages.
+template <typename MessageType, typename ValueType, typename Result = void>
+using check_traced_proto_support_t =
+ decltype(internal::WriteIntoTracedProtoImpl(
+ std::declval<
+ base::priority_tag<internal::kMaxWriteTracedProtoImplPriority>>(),
+ std::declval<TracedProto<MessageType>>(),
+ std::declval<ValueType>()));
+
+// check_traced_proto_support<MessageType, T, V>::type is defined (and equal to
+// V) iff T supports being passed to WriteIntoTracedProto together with
+// TracedProto<MessageType>. See the comment in traced_value_forward.h for more
+// details.
+template <typename MessageType, typename ValueType, class Result>
+struct check_traced_proto_support<
+ MessageType,
+ ValueType,
+ Result,
+ check_traced_proto_support_t<MessageType, ValueType, Result>> {
+ static constexpr bool value = true;
+ using type = Result;
+};
+
+template <typename MessageType, typename ValueType>
+void WriteIntoTracedProto(TracedProto<MessageType> message, ValueType&& value) {
+ // TODO(altimin): Add a URL to the documentation and a list of common failure
+ // patterns.
+ static_assert(
+ std::is_same<check_traced_proto_support_t<MessageType, ValueType>,
+ void>::value,
+ "The provided type does not support being serialised into the "
+ "provided protozero message. Please see the comment in traced_proto.h "
+ "for more details.");
+
+ internal::WriteIntoTracedProtoImpl(
+ base::priority_tag<internal::kMaxWriteTracedProtoImplPriority>(),
+ std::move(message), std::forward<ValueType>(value));
+}
+
+template <typename MessageType, typename FieldMetadataType, typename ValueType>
+void WriteTracedProtoField(TracedProto<MessageType>& message,
+ FieldMetadataType,
+ ValueType&& value) {
+ static_assert(
+ std::is_base_of<protozero::proto_utils::FieldMetadataBase,
+ FieldMetadataType>::value,
+ "Field name should be a protozero::internal::FieldMetadata<...>");
+ static_assert(
+ std::is_base_of<MessageType,
+ typename FieldMetadataType::message_type>::value,
+ "Field's parent type should match the context.");
+
+ internal::TypedProtoWriter<FieldMetadataType>::Write(
+ message, std::forward<ValueType>(value));
+}
+
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_TRACING_TRACED_PROTO_H_
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_TRACING_EVENT_CONTEXT_H_
+#define INCLUDE_PERFETTO_TRACING_EVENT_CONTEXT_H_
+
+// gen_amalgamated expanded: #include "perfetto/protozero/message_handle.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/internal/track_event_internal.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/traced_proto.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/trace_packet.pbzero.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class DebugAnnotation;
+} // namespace pbzero
+} // namespace protos
+
+namespace internal {
+class TrackEventInternal;
+}
+
+// Allows adding custom arguments into track events. Example:
+//
+// TRACE_EVENT_BEGIN("category", "Title",
+// [](perfetto::EventContext ctx) {
+// auto* log = ctx.event()->set_log_message();
+// log->set_body_iid(1234);
+//
+// ctx.AddDebugAnnotation("name", 1234);
+// });
+//
+class PERFETTO_EXPORT_COMPONENT EventContext {
+ public:
+ EventContext(EventContext&&) = default;
+
+ // For Chromium during the transition phase to the client library.
+ // TODO(eseckler): Remove once Chromium has switched to client lib entirely.
+ explicit EventContext(
+ protos::pbzero::TrackEvent* event,
+ internal::TrackEventIncrementalState* incremental_state = nullptr,
+ bool filter_debug_annotations = false)
+ : event_(event),
+ incremental_state_(incremental_state),
+ filter_debug_annotations_(filter_debug_annotations) {}
+
+ ~EventContext();
+
+ internal::TrackEventIncrementalState* GetIncrementalState() const {
+ return incremental_state_;
+ }
+
+ // Disclaimer: Experimental method, subject to change.
+ // Exposed publicly to emit some TrackEvent fields in Chromium only in local
+ // tracing. Long-term, we really shouldn't be (ab)using the
+ // filter_debug_annotation setting for this.
+ //
+ // TODO(kraskevich): Come up with a more precise name once we have more than
+ // one usecase.
+ bool ShouldFilterDebugAnnotations() const {
+ if (tls_state_) {
+ return tls_state_->filter_debug_annotations;
+ }
+ // In Chromium tls_state_ is nullptr, so we need to get this information
+ // from a separate field.
+ return filter_debug_annotations_;
+ }
+
+ // Get a TrackEvent message to write typed arguments to.
+ //
+ // event() is a template method to allow callers to specify a subclass of
+ // TrackEvent instead. Those subclasses correspond to TrackEvent message with
+ // application-specific extensions. More information in
+ // design-docs/extensions.md.
+ template <typename EventType = protos::pbzero::TrackEvent>
+ EventType* event() const {
+ // As the method does downcasting, we check that a target subclass does
+ // not add new fields.
+ static_assert(
+ sizeof(EventType) == sizeof(protos::pbzero::TrackEvent),
+ "Event type must be binary-compatible with protos::pbzero::TrackEvent");
+ return static_cast<EventType*>(event_);
+ }
+
+ // Convert a raw pointer to protozero message to TracedProto which captures
+ // the reference to this EventContext.
+ template <typename MessageType>
+ TracedProto<MessageType> Wrap(MessageType* message) {
+ static_assert(std::is_base_of<protozero::Message, MessageType>::value,
+ "TracedProto can be used only with protozero messages");
+
+ return TracedProto<MessageType>(message, this);
+ }
+
+ // Add a new `debug_annotation` proto message and populate it from |value|
+ // using perfetto::TracedValue API. Users should generally prefer passing
+ // values directly to TRACE_EVENT (i.e. TRACE_EVENT(..., "arg", value, ...);)
+ // but in rare cases (e.g. when an argument should be written conditionally)
+ // EventContext::AddDebugAnnotation provides an explicit equivalent.
+ template <typename EventNameType, typename T>
+ void AddDebugAnnotation(EventNameType&& name, T&& value) {
+ if (tls_state_ && tls_state_->filter_debug_annotations)
+ return;
+ auto annotation = AddDebugAnnotation(std::forward<EventNameType>(name));
+ WriteIntoTracedValue(internal::CreateTracedValueFromProto(annotation, this),
+ std::forward<T>(value));
+ }
+
+ // Read arbitrary user data that is associated with the thread-local per
+ // instance state of the track event. `key` must be non-null and unique
+ // per TrackEventTlsStateUserData subclass.
+ TrackEventTlsStateUserData* GetTlsUserData(const void* key);
+
+ // Set arbitrary user data that is associated with the thread-local per
+ // instance state of the track event. `key` must be non-null and unique
+ // per TrackEventTlsStateUserData subclass.
+ void SetTlsUserData(const void* key,
+ std::unique_ptr<TrackEventTlsStateUserData> data);
+
+ private:
+ template <typename, size_t, typename, typename>
+ friend class TrackEventInternedDataIndex;
+ friend class internal::TrackEventInternal;
+
+ using TracePacketHandle =
+ ::protozero::MessageHandle<protos::pbzero::TracePacket>;
+
+ EventContext(TraceWriterBase* trace_writer,
+ TracePacketHandle,
+ internal::TrackEventIncrementalState*,
+ internal::TrackEventTlsState*);
+ EventContext(const EventContext&) = delete;
+
+ protos::pbzero::DebugAnnotation* AddDebugAnnotation(const char* name);
+ protos::pbzero::DebugAnnotation* AddDebugAnnotation(
+ ::perfetto::DynamicString name);
+
+ TraceWriterBase* trace_writer_ = nullptr;
+ TracePacketHandle trace_packet_;
+ protos::pbzero::TrackEvent* event_;
+ internal::TrackEventIncrementalState* incremental_state_;
+ // TODO(mohitms): Make it const-reference instead of pointer, once we
+ // are certain that it cannot be nullptr. Once we switch to client library in
+ // chrome, we can make that happen.
+ internal::TrackEventTlsState* tls_state_ = nullptr;
+ // TODO(kraskevich): Come up with a more precise name once we have more than
+ // one usecase.
+ // TODO(kraskevich): Remove once Chromium has fully switched to client lib.
+ const bool filter_debug_annotations_ = false;
+};
+
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_TRACING_EVENT_CONTEXT_H_
+// gen_amalgamated begin header: include/perfetto/tracing/internal/track_event_legacy.h
+/*
+ * Copyright (C) 2023 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_TRACING_INTERNAL_TRACK_EVENT_LEGACY_H_
+#define INCLUDE_PERFETTO_TRACING_INTERNAL_TRACK_EVENT_LEGACY_H_
+
+// gen_amalgamated expanded: #include "perfetto/base/build_config.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/event_context.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/track.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/track_event.pbzero.h"
+
+#ifndef PERFETTO_ENABLE_LEGACY_TRACE_EVENTS
+#define PERFETTO_ENABLE_LEGACY_TRACE_EVENTS 0
+#endif
+
+// ----------------------------------------------------------------------------
+// Constants.
+// ----------------------------------------------------------------------------
+
+namespace perfetto {
+namespace legacy {
+
+enum TraceEventFlag {
+ kTraceEventFlagNone = 0,
+ kTraceEventFlagCopy = 1u << 0,
+ kTraceEventFlagHasId = 1u << 1,
+ kTraceEventFlagScopeOffset = 1u << 2,
+ kTraceEventFlagScopeExtra = 1u << 3,
+ kTraceEventFlagExplicitTimestamp = 1u << 4,
+ kTraceEventFlagAsyncTTS = 1u << 5,
+ kTraceEventFlagBindToEnclosing = 1u << 6,
+ kTraceEventFlagFlowIn = 1u << 7,
+ kTraceEventFlagFlowOut = 1u << 8,
+ kTraceEventFlagHasContextId = 1u << 9,
+ kTraceEventFlagHasProcessId = 1u << 10,
+ kTraceEventFlagHasLocalId = 1u << 11,
+ kTraceEventFlagHasGlobalId = 1u << 12,
+ // TODO(eseckler): Remove once we have native support for typed proto events
+ // in TRACE_EVENT macros.
+ kTraceEventFlagTypedProtoArgs = 1u << 15,
+ kTraceEventFlagJavaStringLiterals = 1u << 16,
+};
+
+enum PerfettoLegacyCurrentThreadId { kCurrentThreadId };
+
+// The following user-provided adaptors are used to serialize user-defined
+// thread id and time types into track events. For full compatibility, the user
+// should also define the following macros appropriately:
+//
+// #define TRACE_TIME_TICKS_NOW() ...
+// #define TRACE_TIME_NOW() ...
+
+// User-provided function to convert an abstract thread id into a thread track.
+template <typename T>
+ThreadTrack ConvertThreadId(const T&);
+
+// Built-in implementation for events referring to the current thread.
+template <>
+ThreadTrack PERFETTO_EXPORT_COMPONENT
+ConvertThreadId(const PerfettoLegacyCurrentThreadId&);
+
+} // namespace legacy
+} // namespace perfetto
+
+#if PERFETTO_ENABLE_LEGACY_TRACE_EVENTS
+// The following constants are defined in the global namespace, since they were
+// originally implemented as macros.
+
+// Event phases.
+static constexpr char TRACE_EVENT_PHASE_BEGIN = 'B';
+static constexpr char TRACE_EVENT_PHASE_END = 'E';
+static constexpr char TRACE_EVENT_PHASE_COMPLETE = 'X';
+static constexpr char TRACE_EVENT_PHASE_INSTANT = 'I';
+static constexpr char TRACE_EVENT_PHASE_ASYNC_BEGIN = 'S';
+static constexpr char TRACE_EVENT_PHASE_ASYNC_STEP_INTO = 'T';
+static constexpr char TRACE_EVENT_PHASE_ASYNC_STEP_PAST = 'p';
+static constexpr char TRACE_EVENT_PHASE_ASYNC_END = 'F';
+static constexpr char TRACE_EVENT_PHASE_NESTABLE_ASYNC_BEGIN = 'b';
+static constexpr char TRACE_EVENT_PHASE_NESTABLE_ASYNC_END = 'e';
+static constexpr char TRACE_EVENT_PHASE_NESTABLE_ASYNC_INSTANT = 'n';
+static constexpr char TRACE_EVENT_PHASE_FLOW_BEGIN = 's';
+static constexpr char TRACE_EVENT_PHASE_FLOW_STEP = 't';
+static constexpr char TRACE_EVENT_PHASE_FLOW_END = 'f';
+static constexpr char TRACE_EVENT_PHASE_METADATA = 'M';
+static constexpr char TRACE_EVENT_PHASE_COUNTER = 'C';
+static constexpr char TRACE_EVENT_PHASE_SAMPLE = 'P';
+static constexpr char TRACE_EVENT_PHASE_CREATE_OBJECT = 'N';
+static constexpr char TRACE_EVENT_PHASE_SNAPSHOT_OBJECT = 'O';
+static constexpr char TRACE_EVENT_PHASE_DELETE_OBJECT = 'D';
+static constexpr char TRACE_EVENT_PHASE_MEMORY_DUMP = 'v';
+static constexpr char TRACE_EVENT_PHASE_MARK = 'R';
+static constexpr char TRACE_EVENT_PHASE_CLOCK_SYNC = 'c';
+
+// Flags for changing the behavior of TRACE_EVENT_API_ADD_TRACE_EVENT.
+static constexpr uint32_t TRACE_EVENT_FLAG_NONE =
+ perfetto::legacy::kTraceEventFlagNone;
+static constexpr uint32_t TRACE_EVENT_FLAG_COPY =
+ perfetto::legacy::kTraceEventFlagCopy;
+static constexpr uint32_t TRACE_EVENT_FLAG_HAS_ID =
+ perfetto::legacy::kTraceEventFlagHasId;
+static constexpr uint32_t TRACE_EVENT_FLAG_SCOPE_OFFSET =
+ perfetto::legacy::kTraceEventFlagScopeOffset;
+static constexpr uint32_t TRACE_EVENT_FLAG_SCOPE_EXTRA =
+ perfetto::legacy::kTraceEventFlagScopeExtra;
+static constexpr uint32_t TRACE_EVENT_FLAG_EXPLICIT_TIMESTAMP =
+ perfetto::legacy::kTraceEventFlagExplicitTimestamp;
+static constexpr uint32_t TRACE_EVENT_FLAG_ASYNC_TTS =
+ perfetto::legacy::kTraceEventFlagAsyncTTS;
+static constexpr uint32_t TRACE_EVENT_FLAG_BIND_TO_ENCLOSING =
+ perfetto::legacy::kTraceEventFlagBindToEnclosing;
+static constexpr uint32_t TRACE_EVENT_FLAG_FLOW_IN =
+ perfetto::legacy::kTraceEventFlagFlowIn;
+static constexpr uint32_t TRACE_EVENT_FLAG_FLOW_OUT =
+ perfetto::legacy::kTraceEventFlagFlowOut;
+static constexpr uint32_t TRACE_EVENT_FLAG_HAS_CONTEXT_ID =
+ perfetto::legacy::kTraceEventFlagHasContextId;
+static constexpr uint32_t TRACE_EVENT_FLAG_HAS_PROCESS_ID =
+ perfetto::legacy::kTraceEventFlagHasProcessId;
+static constexpr uint32_t TRACE_EVENT_FLAG_HAS_LOCAL_ID =
+ perfetto::legacy::kTraceEventFlagHasLocalId;
+static constexpr uint32_t TRACE_EVENT_FLAG_HAS_GLOBAL_ID =
+ perfetto::legacy::kTraceEventFlagHasGlobalId;
+static constexpr uint32_t TRACE_EVENT_FLAG_TYPED_PROTO_ARGS =
+ perfetto::legacy::kTraceEventFlagTypedProtoArgs;
+static constexpr uint32_t TRACE_EVENT_FLAG_JAVA_STRING_LITERALS =
+ perfetto::legacy::kTraceEventFlagJavaStringLiterals;
+
+static constexpr uint32_t TRACE_EVENT_FLAG_SCOPE_MASK =
+ TRACE_EVENT_FLAG_SCOPE_OFFSET | TRACE_EVENT_FLAG_SCOPE_EXTRA;
+
+// Type values for identifying types in the TraceValue union.
+static constexpr uint8_t TRACE_VALUE_TYPE_BOOL = 1;
+static constexpr uint8_t TRACE_VALUE_TYPE_UINT = 2;
+static constexpr uint8_t TRACE_VALUE_TYPE_INT = 3;
+static constexpr uint8_t TRACE_VALUE_TYPE_DOUBLE = 4;
+static constexpr uint8_t TRACE_VALUE_TYPE_POINTER = 5;
+static constexpr uint8_t TRACE_VALUE_TYPE_STRING = 6;
+static constexpr uint8_t TRACE_VALUE_TYPE_COPY_STRING = 7;
+static constexpr uint8_t TRACE_VALUE_TYPE_CONVERTABLE = 8;
+static constexpr uint8_t TRACE_VALUE_TYPE_PROTO = 9;
+
+// Enum reflecting the scope of an INSTANT event. Must fit within
+// TRACE_EVENT_FLAG_SCOPE_MASK.
+static constexpr uint8_t TRACE_EVENT_SCOPE_GLOBAL = 0u << 2;
+static constexpr uint8_t TRACE_EVENT_SCOPE_PROCESS = 1u << 2;
+static constexpr uint8_t TRACE_EVENT_SCOPE_THREAD = 2u << 2;
+
+static constexpr char TRACE_EVENT_SCOPE_NAME_GLOBAL = 'g';
+static constexpr char TRACE_EVENT_SCOPE_NAME_PROCESS = 'p';
+static constexpr char TRACE_EVENT_SCOPE_NAME_THREAD = 't';
+
+#define TRACE_EVENT_API_CURRENT_THREAD_ID ::perfetto::legacy::kCurrentThreadId
+
+#endif // PERFETTO_ENABLE_LEGACY_TRACE_EVENTS
+
+namespace perfetto {
+namespace internal {
+
+// LegacyTraceId encapsulates an ID that can either be an integer or pointer.
+class PERFETTO_EXPORT_COMPONENT LegacyTraceId {
+ public:
+ // Can be combined with WithScope.
+ class LocalId {
+ public:
+ explicit LocalId(const void* raw_id)
+ : raw_id_(static_cast<uint64_t>(reinterpret_cast<uintptr_t>(raw_id))) {}
+ explicit LocalId(uint64_t raw_id) : raw_id_(raw_id) {}
+ uint64_t raw_id() const { return raw_id_; }
+
+ private:
+ uint64_t raw_id_;
+ };
+
+ // Can be combined with WithScope.
+ class GlobalId {
+ public:
+ explicit GlobalId(uint64_t raw_id) : raw_id_(raw_id) {}
+ uint64_t raw_id() const { return raw_id_; }
+
+ private:
+ uint64_t raw_id_;
+ };
+
+ class WithScope {
+ public:
+ WithScope(const char* scope, uint64_t raw_id)
+ : scope_(scope), raw_id_(raw_id) {}
+ WithScope(const char* scope, LocalId local_id)
+ : scope_(scope), raw_id_(local_id.raw_id()) {
+ id_flags_ = legacy::kTraceEventFlagHasLocalId;
+ }
+ WithScope(const char* scope, GlobalId global_id)
+ : scope_(scope), raw_id_(global_id.raw_id()) {
+ id_flags_ = legacy::kTraceEventFlagHasGlobalId;
+ }
+ WithScope(const char* scope, uint64_t prefix, uint64_t raw_id)
+ : scope_(scope), has_prefix_(true), prefix_(prefix), raw_id_(raw_id) {}
+ WithScope(const char* scope, uint64_t prefix, GlobalId global_id)
+ : scope_(scope),
+ has_prefix_(true),
+ prefix_(prefix),
+ raw_id_(global_id.raw_id()) {
+ id_flags_ = legacy::kTraceEventFlagHasGlobalId;
+ }
+ uint64_t raw_id() const { return raw_id_; }
+ const char* scope() const { return scope_; }
+ bool has_prefix() const { return has_prefix_; }
+ uint64_t prefix() const { return prefix_; }
+ uint32_t id_flags() const { return id_flags_; }
+
+ private:
+ const char* scope_ = nullptr;
+ bool has_prefix_ = false;
+ uint64_t prefix_;
+ uint64_t raw_id_;
+ uint32_t id_flags_ = legacy::kTraceEventFlagHasId;
+ };
+
+ explicit LegacyTraceId(const void* raw_id)
+ : raw_id_(static_cast<uint64_t>(reinterpret_cast<uintptr_t>(raw_id))) {
+ id_flags_ = legacy::kTraceEventFlagHasLocalId;
+ }
+ explicit LegacyTraceId(uint64_t raw_id) : raw_id_(raw_id) {}
+ explicit LegacyTraceId(uint32_t raw_id) : raw_id_(raw_id) {}
+ explicit LegacyTraceId(uint16_t raw_id) : raw_id_(raw_id) {}
+ explicit LegacyTraceId(uint8_t raw_id) : raw_id_(raw_id) {}
+ explicit LegacyTraceId(int64_t raw_id)
+ : raw_id_(static_cast<uint64_t>(raw_id)) {}
+ explicit LegacyTraceId(int32_t raw_id)
+ : raw_id_(static_cast<uint64_t>(raw_id)) {}
+ explicit LegacyTraceId(int16_t raw_id)
+ : raw_id_(static_cast<uint64_t>(raw_id)) {}
+ explicit LegacyTraceId(int8_t raw_id)
+ : raw_id_(static_cast<uint64_t>(raw_id)) {}
+// Different platforms disagree on which integer types are same and which
+// are different. E.g. on Mac size_t is considered a different type from
+// uint64_t even though it has the same size and signedness.
+// Below we add overloads for those types that are known to cause ambiguity.
+#if PERFETTO_BUILDFLAG(PERFETTO_OS_APPLE)
+ explicit LegacyTraceId(size_t raw_id) : raw_id_(raw_id) {}
+ explicit LegacyTraceId(intptr_t raw_id)
+ : raw_id_(static_cast<uint64_t>(raw_id)) {}
+#elif PERFETTO_BUILDFLAG(PERFETTO_OS_WIN)
+ explicit LegacyTraceId(unsigned long raw_id) : raw_id_(raw_id) {}
+#endif
+ explicit LegacyTraceId(LocalId raw_id) : raw_id_(raw_id.raw_id()) {
+ id_flags_ = legacy::kTraceEventFlagHasLocalId;
+ }
+ explicit LegacyTraceId(GlobalId raw_id) : raw_id_(raw_id.raw_id()) {
+ id_flags_ = legacy::kTraceEventFlagHasGlobalId;
+ }
+ explicit LegacyTraceId(WithScope scoped_id)
+ : scope_(scoped_id.scope()),
+ has_prefix_(scoped_id.has_prefix()),
+ prefix_(scoped_id.prefix()),
+ raw_id_(scoped_id.raw_id()),
+ id_flags_(scoped_id.id_flags()) {}
+
+ uint64_t raw_id() const { return raw_id_; }
+ const char* scope() const { return scope_; }
+ bool has_prefix() const { return has_prefix_; }
+ uint64_t prefix() const { return prefix_; }
+ uint32_t id_flags() const { return id_flags_; }
+
+ void Write(protos::pbzero::TrackEvent::LegacyEvent*,
+ uint32_t event_flags) const;
+
+ private:
+ const char* scope_ = nullptr;
+ bool has_prefix_ = false;
+ uint64_t prefix_;
+ uint64_t raw_id_;
+ uint32_t id_flags_ = legacy::kTraceEventFlagHasId;
+};
+
+#if PERFETTO_ENABLE_LEGACY_TRACE_EVENTS
+template <typename T>
+bool IsEqual(T x, T y) {
+ return x == y;
+}
+
+template <typename T, typename U>
+bool IsEqual(T, U) {
+ return false;
+}
+
+class PERFETTO_EXPORT_COMPONENT TrackEventLegacy {
+ public:
+ static constexpr protos::pbzero::TrackEvent::Type PhaseToType(char phase) {
+ // clang-format off
+ return (phase == TRACE_EVENT_PHASE_BEGIN) ?
+ protos::pbzero::TrackEvent::TYPE_SLICE_BEGIN :
+ (phase == TRACE_EVENT_PHASE_END) ?
+ protos::pbzero::TrackEvent::TYPE_SLICE_END :
+ (phase == TRACE_EVENT_PHASE_INSTANT) ?
+ protos::pbzero::TrackEvent::TYPE_INSTANT :
+ protos::pbzero::TrackEvent::TYPE_UNSPECIFIED;
+ // clang-format on
+ }
+
+ // Reduce binary size overhead by outlining most of the code for writing a
+ // legacy trace event.
+ template <typename... Args>
+ static void WriteLegacyEvent(EventContext ctx,
+ char phase,
+ uint32_t flags,
+ Args&&... args) PERFETTO_NO_INLINE {
+ PERFETTO_DCHECK(!(flags & TRACE_EVENT_FLAG_HAS_PROCESS_ID));
+ AddDebugAnnotations(&ctx, std::forward<Args>(args)...);
+ if (NeedLegacyFlags(phase, flags)) {
+ auto legacy_event = ctx.event()->set_legacy_event();
+ SetLegacyFlags(legacy_event, phase, flags);
+ }
+ }
+
+ template <typename ThreadIdType, typename... Args>
+ static void WriteLegacyEventWithIdAndTid(EventContext ctx,
+ char phase,
+ uint32_t flags,
+ const LegacyTraceId& id,
+ const ThreadIdType& thread_id,
+ Args&&... args) PERFETTO_NO_INLINE {
+ //
+ // Overrides to consider:
+ //
+ // 1. If we have an id, we need to write {unscoped,local,global}_id and/or
+ // bind_id.
+ // 2. If we have a thread id, we need to write track_uuid() or
+ // {pid,tid}_override if the id represents another process. The
+ // conversion from |thread_id| happens in embedder code since the type is
+ // embedder-specified.
+ // 3. If we have a timestamp, we need to write a different timestamp in the
+ // trace packet itself and make sure TrackEvent won't write one
+ // internally. This is already done at the call site.
+ //
+ PERFETTO_DCHECK(PhaseToType(phase) ==
+ protos::pbzero::TrackEvent::TYPE_UNSPECIFIED ||
+ !(flags & TRACE_EVENT_FLAG_HAS_PROCESS_ID));
+ flags |= id.id_flags();
+ AddDebugAnnotations(&ctx, std::forward<Args>(args)...);
+ if (NeedLegacyFlags(phase, flags)) {
+ auto legacy_event = ctx.event()->set_legacy_event();
+ SetLegacyFlags(legacy_event, phase, flags);
+ if (id.id_flags())
+ id.Write(legacy_event, flags);
+ if (flags & TRACE_EVENT_FLAG_HAS_PROCESS_ID) {
+ // The thread identifier actually represents a process id. Let's set an
+ // override for it.
+ int32_t pid_override =
+ static_cast<int32_t>(legacy::ConvertThreadId(thread_id).tid);
+ legacy_event->set_pid_override(pid_override);
+ legacy_event->set_tid_override(-1);
+ } else {
+ // Only synchronous phases are supported for other threads. These phases
+ // are supported in TrackEvent types and receive a track_uuid
+ // association via TrackEventDataSource::TraceForCategoryImpl().
+ PERFETTO_DCHECK(PhaseToType(phase) !=
+ protos::pbzero::TrackEvent::TYPE_UNSPECIFIED ||
+ IsEqual(thread_id, TRACE_EVENT_API_CURRENT_THREAD_ID) ||
+ legacy::ConvertThreadId(thread_id).tid ==
+ ThreadTrack::Current().tid);
+ }
+ }
+ }
+
+ // No arguments.
+ static void AddDebugAnnotations(EventContext*) {}
+
+ // N number of debug arguments.
+ template <typename ArgNameType, typename ArgType, typename... OtherArgs>
+ static void AddDebugAnnotations(EventContext* ctx,
+ ArgNameType&& arg_name,
+ ArgType&& arg_value,
+ OtherArgs&&... more_args) {
+ TrackEventInternal::AddDebugAnnotation(ctx,
+ std::forward<ArgNameType>(arg_name),
+ std::forward<ArgType>(arg_value));
+ AddDebugAnnotations(ctx, std::forward<OtherArgs>(more_args)...);
+ }
+
+ private:
+ static bool NeedLegacyFlags(char phase, uint32_t flags) {
+ if (PhaseToType(phase) == protos::pbzero::TrackEvent::TYPE_UNSPECIFIED)
+ return true;
+ // TODO(skyostil): Implement/deprecate:
+ // - TRACE_EVENT_FLAG_EXPLICIT_TIMESTAMP
+ // - TRACE_EVENT_FLAG_HAS_CONTEXT_ID
+ // - TRACE_EVENT_FLAG_TYPED_PROTO_ARGS
+ // - TRACE_EVENT_FLAG_JAVA_STRING_LITERALS
+ return flags &
+ (TRACE_EVENT_FLAG_HAS_ID | TRACE_EVENT_FLAG_HAS_LOCAL_ID |
+ TRACE_EVENT_FLAG_HAS_GLOBAL_ID | TRACE_EVENT_FLAG_ASYNC_TTS |
+ TRACE_EVENT_FLAG_BIND_TO_ENCLOSING | TRACE_EVENT_FLAG_FLOW_IN |
+ TRACE_EVENT_FLAG_FLOW_OUT | TRACE_EVENT_FLAG_HAS_PROCESS_ID);
+ }
+
+ static void SetLegacyFlags(
+ protos::pbzero::TrackEvent::LegacyEvent* legacy_event,
+ char phase,
+ uint32_t flags) {
+ if (PhaseToType(phase) == protos::pbzero::TrackEvent::TYPE_UNSPECIFIED)
+ legacy_event->set_phase(phase);
+ if (flags & TRACE_EVENT_FLAG_ASYNC_TTS)
+ legacy_event->set_use_async_tts(true);
+ if (flags & TRACE_EVENT_FLAG_BIND_TO_ENCLOSING)
+ legacy_event->set_bind_to_enclosing(true);
+
+ const auto kFlowIn = TRACE_EVENT_FLAG_FLOW_IN;
+ const auto kFlowOut = TRACE_EVENT_FLAG_FLOW_OUT;
+ const auto kFlowInOut = kFlowIn | kFlowOut;
+ if ((flags & kFlowInOut) == kFlowInOut) {
+ legacy_event->set_flow_direction(
+ protos::pbzero::TrackEvent::LegacyEvent::FLOW_INOUT);
+ } else if (flags & kFlowIn) {
+ legacy_event->set_flow_direction(
+ protos::pbzero::TrackEvent::LegacyEvent::FLOW_IN);
+ } else if (flags & kFlowOut) {
+ legacy_event->set_flow_direction(
+ protos::pbzero::TrackEvent::LegacyEvent::FLOW_OUT);
+ }
+ }
+};
+#endif // PERFETTO_ENABLE_LEGACY_TRACE_EVENTS
+
+// Legacy macros allow argument values to be nullptr and convert them to the
+// "NULL" string. The following function helps mimic this behavior: it forwards
+// all types of arguments apart from a nullptr string as is, and in case of a
+// nullptr returns "NULL".
+template <typename T>
+inline T PossiblyNull(T&& value) {
+ return std::forward<T>(value);
+}
+
+inline const char* PossiblyNull(const char* name) {
+ return name ? name : "NULL";
+}
+
+inline const char* PossiblyNull(char* name) {
+ return name ? name : "NULL";
+}
+
+} // namespace internal
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_TRACING_INTERNAL_TRACK_EVENT_LEGACY_H_
+// gen_amalgamated begin header: include/perfetto/tracing/internal/write_track_event_args.h
+// gen_amalgamated begin header: include/perfetto/tracing/track_event_args.h
+/*
+ * Copyright (C) 2021 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_TRACING_TRACK_EVENT_ARGS_H_
+#define INCLUDE_PERFETTO_TRACING_TRACK_EVENT_ARGS_H_
+
+// gen_amalgamated expanded: #include "perfetto/tracing/event_context.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/track.h"
+
+namespace perfetto {
+
+// A helper to add |flow_id| as a non-terminating flow id to TRACE_EVENT
+// inline: TRACE_EVENT(..., perfetto::Flow::ProcessScoped(42));
+class Flow {
+ public:
+ // |flow_id| which is local within a given process (e.g. atomic counter xor'ed
+ // with feature-specific value). This value is xor'ed with Perfetto's internal
+ // process track id to attempt to ensure that it's globally-unique.
+ static PERFETTO_ALWAYS_INLINE inline Flow ProcessScoped(uint64_t flow_id) {
+ return Global(flow_id ^ Track::process_uuid);
+ }
+
+ // Same as above, but construct an id from a pointer.
+ // NOTE: After the object is destroyed, the value of |ptr| can be reused for a
+ // different object (in particular if the object is allocated on a stack).
+ // Please ensure that you emit a trace event with the flow id of
+ // perfetto::TerminatingFlow::FromPointer(this) from the destructor of the
+ // object to avoid accidental conflicts.
+ static PERFETTO_ALWAYS_INLINE inline Flow FromPointer(void* ptr) {
+ return ProcessScoped(reinterpret_cast<uintptr_t>(ptr));
+ }
+
+ // Add the |flow_id|. The caller is responsible for ensuring that it's
+ // globally-unique (e.g. by generating a random value). This should be used
+ // only for flow events which cross the process boundary (e.g. IPCs).
+ static PERFETTO_ALWAYS_INLINE inline Flow Global(uint64_t flow_id) {
+ return Flow(flow_id);
+ }
+
+ // TODO(altimin): Remove once converting a single usage in Chromium.
+ explicit constexpr Flow(uint64_t flow_id) : flow_id_(flow_id) {}
+
+ void operator()(EventContext& ctx) const {
+ ctx.event()->add_flow_ids(flow_id_);
+ }
+
+ private:
+ uint64_t flow_id_;
+};
+
+// A helper to add a given |flow_id| as a terminating flow to TRACE_EVENT
+// inline.
+class TerminatingFlow {
+ public:
+ // See `Flow::ProcessScoped(uint64_t)`.
+ static PERFETTO_ALWAYS_INLINE inline TerminatingFlow ProcessScoped(
+ uint64_t flow_id) {
+ return Global(flow_id ^ Track::process_uuid);
+ }
+
+ // See `Flow::FromPointer(void*)`.
+ static PERFETTO_ALWAYS_INLINE inline TerminatingFlow FromPointer(void* ptr) {
+ return ProcessScoped(reinterpret_cast<uintptr_t>(ptr));
+ }
+
+ // See `Flow::Global(uint64_t)`.
+ static PERFETTO_ALWAYS_INLINE inline TerminatingFlow Global(
+ uint64_t flow_id) {
+ TerminatingFlow tf;
+ tf.flow_id_ = flow_id;
+ return tf;
+ }
+
+ void operator()(EventContext& ctx) const {
+ ctx.event()->add_terminating_flow_ids(flow_id_);
+ }
+
+ private:
+ uint64_t flow_id_;
+};
+
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_TRACING_TRACK_EVENT_ARGS_H_
+/*
+ * Copyright (C) 2021 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_TRACING_INTERNAL_WRITE_TRACK_EVENT_ARGS_H_
+#define INCLUDE_PERFETTO_TRACING_INTERNAL_WRITE_TRACK_EVENT_ARGS_H_
+
+// gen_amalgamated expanded: #include "perfetto/base/compiler.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/event_context.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/traced_proto.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/track_event_args.h"
+
+namespace perfetto {
+namespace internal {
+
+// No arguments means that we don't have to write anything.
+PERFETTO_ALWAYS_INLINE inline void WriteTrackEventArgs(EventContext) {}
+
+namespace {
+
+// A template helper for determining whether a type can be used as a track event
+// lambda, i.e., it has the signature "void(EventContext)". This is achieved by
+// checking that we can pass an EventContext value (the inner declval) into a T
+// instance (the outer declval). If this is a valid expression, the result
+// evaluates to sizeof(0), i.e., true.
+// TODO(skyostil): Replace this with std::is_convertible<std::function<...>>
+// once we have C++14.
+template <typename T>
+static constexpr bool IsValidTraceLambdaImpl(
+ typename std::enable_if<static_cast<bool>(
+ sizeof(std::declval<T>()(std::declval<EventContext>()), 0))>::type* =
+ nullptr) {
+ return true;
+}
+
+template <typename T>
+static constexpr bool IsValidTraceLambdaImpl(...) {
+ return false;
+}
+
+template <typename T>
+static constexpr bool IsValidTraceLambda() {
+ return IsValidTraceLambdaImpl<T>(nullptr);
+}
+
+template <typename T>
+static constexpr bool IsValidTraceLambdaTakingReferenceImpl(
+ typename std::enable_if<static_cast<bool>(
+ sizeof(std::declval<T>()(std::declval<EventContext&>()), 0))>::type* =
+ nullptr) {
+ return true;
+}
+
+template <typename T>
+static constexpr bool IsValidTraceLambdaTakingReferenceImpl(...) {
+ return false;
+}
+
+template <typename T>
+static constexpr bool IsValidTraceLambdaTakingReference() {
+ return IsValidTraceLambdaTakingReferenceImpl<T>(nullptr);
+}
+
+template <typename T>
+static constexpr bool IsFieldMetadataTypeImpl(
+ typename std::enable_if<
+ std::is_base_of<protozero::proto_utils::FieldMetadataBase,
+ T>::value>::type* = nullptr) {
+ return true;
+}
+
+template <typename T>
+static constexpr bool IsFieldMetadataTypeImpl(...) {
+ return false;
+}
+
+template <typename T>
+static constexpr bool IsFieldMetadataType() {
+ return IsFieldMetadataTypeImpl<T>(nullptr);
+}
+
+} // namespace
+
+// Write an old-style lambda taking an EventContext (without a reference)
+// as it will consume EventContext via std::move, it can only be the last
+// argument.
+template <typename ArgumentFunction,
+ typename ArgFunctionCheck = typename std::enable_if<
+ IsValidTraceLambda<ArgumentFunction>()>::type>
+PERFETTO_ALWAYS_INLINE void WriteTrackEventArgs(
+ EventContext event_ctx,
+ const ArgumentFunction& arg_function) {
+ arg_function(std::move(event_ctx));
+}
+
+// Forward-declare the specification for writing untyped arguments to ensure
+// that typed specification could recursively pick it up.
+template <typename ArgValue, typename... Args>
+PERFETTO_ALWAYS_INLINE void WriteTrackEventArgs(EventContext event_ctx,
+ const char* arg_name,
+ ArgValue&& arg_value,
+ Args&&... args);
+
+template <typename FieldMetadataType,
+ typename ArgValue,
+ typename... Args,
+ typename FieldMetadataTypeCheck = typename std::enable_if<
+ IsFieldMetadataType<FieldMetadataType>()>::type>
+PERFETTO_ALWAYS_INLINE void WriteTrackEventArgs(EventContext event_ctx,
+ FieldMetadataType field_name,
+ ArgValue&& arg_value,
+ Args&&... args);
+
+template <typename ArgumentFunction,
+ typename... Args,
+ typename ArgFunctionCheck = typename std::enable_if<
+ IsValidTraceLambdaTakingReference<ArgumentFunction>()>::type>
+PERFETTO_ALWAYS_INLINE void WriteTrackEventArgs(
+ EventContext event_ctx,
+ const ArgumentFunction& arg_function,
+ Args&&... args) {
+ // |arg_function| will capture EventContext by reference, so std::move isn't
+ // needed.
+ arg_function(event_ctx);
+
+ WriteTrackEventArgs(std::move(event_ctx), std::forward<Args>(args)...);
+}
+
+// Write one typed message and recursively write the rest of the arguments.
+template <typename FieldMetadataType,
+ typename ArgValue,
+ typename... Args,
+ typename FieldMetadataTypeCheck>
+PERFETTO_ALWAYS_INLINE void WriteTrackEventArgs(EventContext event_ctx,
+ FieldMetadataType field_name,
+ ArgValue&& arg_value,
+ Args&&... args) {
+ static_assert(std::is_base_of<protozero::proto_utils::FieldMetadataBase,
+ FieldMetadataType>::value,
+ "");
+ static_assert(
+ std::is_base_of<protos::pbzero::TrackEvent,
+ typename FieldMetadataType::message_type>::value,
+ "Only fields of TrackEvent (and TrackEvent's extensions) can "
+ "be passed to TRACE_EVENT");
+ auto track_event_proto = event_ctx.Wrap(
+ event_ctx.event<typename FieldMetadataType::message_type>());
+ WriteTracedProtoField(track_event_proto, field_name,
+ std::forward<ArgValue>(arg_value));
+ WriteTrackEventArgs(std::move(event_ctx), std::forward<Args>(args)...);
+}
+
+// Write one debug annotation and recursively write the rest of the arguments.
+template <typename ArgValue, typename... Args>
+PERFETTO_ALWAYS_INLINE void WriteTrackEventArgs(EventContext event_ctx,
+ const char* arg_name,
+ ArgValue&& arg_value,
+ Args&&... args) {
+ event_ctx.AddDebugAnnotation(arg_name, std::forward<ArgValue>(arg_value));
+ WriteTrackEventArgs(std::move(event_ctx), std::forward<Args>(args)...);
+}
+
+// Write one debug annotation and recursively write the rest of the arguments.
+template <typename ArgValue, typename... Args>
+PERFETTO_ALWAYS_INLINE void WriteTrackEventArgs(EventContext event_ctx,
+ DynamicString arg_name,
+ ArgValue&& arg_value,
+ Args&&... args) {
+ event_ctx.AddDebugAnnotation(arg_name, std::forward<ArgValue>(arg_value));
+ WriteTrackEventArgs(std::move(event_ctx), std::forward<Args>(args)...);
+}
+
+} // namespace internal
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_TRACING_INTERNAL_WRITE_TRACK_EVENT_ARGS_H_
+// gen_amalgamated begin header: include/perfetto/tracing/track_event_category_registry.h
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_TRACING_TRACK_EVENT_CATEGORY_REGISTRY_H_
+#define INCLUDE_PERFETTO_TRACING_TRACK_EVENT_CATEGORY_REGISTRY_H_
+
+// gen_amalgamated expanded: #include "perfetto/tracing/data_source.h"
+
+#include <stddef.h>
+
+#include <atomic>
+#include <utility>
+
+namespace perfetto {
+class DynamicCategory;
+
+// A compile-time representation of a track event category. See
+// PERFETTO_DEFINE_CATEGORIES for registering your own categories.
+struct PERFETTO_EXPORT_COMPONENT Category {
+ using Tags = std::array<const char*, 4>;
+
+ const char* const name = nullptr;
+ const char* const description = nullptr;
+ const Tags tags = {};
+
+ constexpr Category(const Category&) = default;
+ constexpr explicit Category(const char* name_)
+ : name(CheckIsValidCategory(name_)),
+ name_sizes_(ComputeNameSizes(name_)) {}
+
+ constexpr Category SetDescription(const char* description_) const {
+ return Category(name, description_, tags, name_sizes_);
+ }
+
+ template <typename... Args>
+ constexpr Category SetTags(Args&&... args) const {
+ return Category(name, description, {std::forward<Args>(args)...},
+ name_sizes_);
+ }
+
+ // A comma separated list of multiple categories to be used in a single trace
+ // point.
+ static constexpr Category Group(const char* names) {
+ return Category(names, AllowGroup{});
+ }
+
+ // Used for parsing dynamic category groups. Note that |name| and
+ // |DynamicCategory| must outlive the returned object because the category
+ // name isn't copied.
+ static Category FromDynamicCategory(const char* name);
+ static Category FromDynamicCategory(const DynamicCategory&);
+
+ constexpr bool IsGroup() const { return GetNameSize(1) > 0; }
+
+ // Returns the number of character in the category name. Not valid for
+ // category groups.
+ size_t name_size() const {
+ PERFETTO_DCHECK(!IsGroup());
+ return GetNameSize(0);
+ }
+
+ // Iterates over all the members of this category group, or just the name of
+ // the category itself if this isn't a category group. Return false from
+ // |callback| to stop iteration.
+ template <typename T>
+ void ForEachGroupMember(T callback) const {
+ const char* name_ptr = name;
+ size_t i = 0;
+ while (size_t name_size = GetNameSize(i++)) {
+ if (!callback(name_ptr, name_size))
+ break;
+ name_ptr += name_size + 1;
+ }
+ }
+
+ private:
+ static constexpr size_t kMaxGroupSize = 4;
+ using NameSizes = std::array<uint8_t, kMaxGroupSize>;
+
+ constexpr Category(const char* name_,
+ const char* description_,
+ Tags tags_,
+ NameSizes name_sizes)
+ : name(name_),
+ description(description_),
+ tags(tags_),
+ name_sizes_(name_sizes) {}
+
+ enum AllowGroup {};
+ constexpr Category(const char* name_, AllowGroup)
+ : name(CheckIsValidCategoryGroup(name_)),
+ name_sizes_(ComputeNameSizes(name_)) {}
+
+ constexpr size_t GetNameSize(size_t i) const {
+ return i < name_sizes_.size() ? name_sizes_[i] : 0;
+ }
+
+ static constexpr NameSizes ComputeNameSizes(const char* s) {
+ static_assert(kMaxGroupSize == 4, "Unexpected maximum category group size");
+ return NameSizes{{static_cast<uint8_t>(GetNthNameSize(0, s, s)),
+ static_cast<uint8_t>(GetNthNameSize(1, s, s)),
+ static_cast<uint8_t>(GetNthNameSize(2, s, s)),
+ static_cast<uint8_t>(GetNthNameSize(3, s, s))}};
+ }
+
+ static constexpr ptrdiff_t GetNthNameSize(int n,
+ const char* start,
+ const char* end,
+ int counter = 0) {
+ return (!*end || *end == ',')
+ ? ((!*end || counter == n)
+ ? (counter == n ? end - start : 0)
+ : GetNthNameSize(n, end + 1, end + 1, counter + 1))
+ : GetNthNameSize(n, start, end + 1, counter);
+ }
+
+ static constexpr const char* CheckIsValidCategory(const char* n) {
+ // We just replace invalid input with a nullptr here; it will trigger a
+ // static assert in TrackEventCategoryRegistry::ValidateCategories().
+ return GetNthNameSize(1, n, n) ? nullptr : n;
+ }
+
+ static constexpr const char* CheckIsValidCategoryGroup(const char* n) {
+ // Same as above: replace invalid input with nullptr.
+ return !GetNthNameSize(1, n, n) || GetNthNameSize(kMaxGroupSize, n, n)
+ ? nullptr
+ : n;
+ }
+
+ // An array of lengths of the different names associated with this category.
+ // If this category doesn't represent a group of multiple categories, only the
+ // first element is non-zero.
+ const NameSizes name_sizes_ = {};
+};
+
+// Dynamically constructed category names should marked as such through this
+// container type to make it less likely for trace points to accidentally start
+// using dynamic categories. Events with dynamic categories will always be
+// slightly more expensive than regular events, so use them sparingly.
+class PERFETTO_EXPORT_COMPONENT DynamicCategory final {
+ public:
+ explicit DynamicCategory(const std::string& name_) : name(name_) {}
+ explicit DynamicCategory(const char* name_) : name(name_) {}
+ DynamicCategory() {}
+ ~DynamicCategory() = default;
+
+ DynamicCategory(const DynamicCategory&) = default;
+ DynamicCategory& operator=(const DynamicCategory&) = delete;
+
+ DynamicCategory(DynamicCategory&&) = default;
+ DynamicCategory& operator=(DynamicCategory&&) = delete;
+
+ const std::string name;
+};
+
+namespace internal {
+
+constexpr const char* NullCategory(const char*) {
+ return nullptr;
+}
+
+perfetto::DynamicCategory NullCategory(const perfetto::DynamicCategory&);
+
+constexpr bool StringMatchesPrefix(const char* str, const char* prefix) {
+ return !*str ? !*prefix
+ : !*prefix ? true
+ : *str != *prefix
+ ? false
+ : StringMatchesPrefix(str + 1, prefix + 1);
+}
+
+constexpr bool IsStringInPrefixList(const char*) {
+ return false;
+}
+
+template <typename... Args>
+constexpr bool IsStringInPrefixList(const char* str,
+ const char* prefix,
+ Args... args) {
+ return StringMatchesPrefix(str, prefix) ||
+ IsStringInPrefixList(str, std::forward<Args>(args)...);
+}
+
+// Holds all the registered categories for one category namespace. See
+// PERFETTO_DEFINE_CATEGORIES for building the registry.
+class PERFETTO_EXPORT_COMPONENT TrackEventCategoryRegistry {
+ public:
+ constexpr TrackEventCategoryRegistry(size_t category_count,
+ const Category* categories,
+ std::atomic<uint8_t>* state_storage)
+ : categories_(categories),
+ category_count_(category_count),
+ state_storage_(state_storage) {
+ static_assert(
+ sizeof(state_storage[0].load()) * 8 >= kMaxDataSourceInstances,
+ "The category state must have enough bits for all possible data source "
+ "instances");
+ }
+
+ size_t category_count() const { return category_count_; }
+
+ // Returns a category based on its index.
+ const Category* GetCategory(size_t index) const {
+ PERFETTO_DCHECK(index < category_count_);
+ return &categories_[index];
+ }
+
+ // Turn tracing on or off for the given category in a track event data source
+ // instance.
+ void EnableCategoryForInstance(size_t category_index,
+ uint32_t instance_index) const;
+ void DisableCategoryForInstance(size_t category_index,
+ uint32_t instance_index) const;
+
+ constexpr std::atomic<uint8_t>* GetCategoryState(
+ size_t category_index) const {
+ return &state_storage_[category_index];
+ }
+
+ // --------------------------------------------------------------------------
+ // Trace point support
+ // --------------------------------------------------------------------------
+ //
+ // (The following methods are used by the track event trace point
+ // implementation and typically don't need to be called by other code.)
+
+ // At compile time, turn a category name into an index into the registry.
+ // Returns kInvalidCategoryIndex if the category was not found, or
+ // kDynamicCategoryIndex if |is_dynamic| is true or a DynamicCategory was
+ // passed in.
+ static constexpr size_t kInvalidCategoryIndex = static_cast<size_t>(-1);
+ static constexpr size_t kDynamicCategoryIndex = static_cast<size_t>(-2);
+ constexpr size_t Find(const char* name, bool is_dynamic) const {
+ return CheckIsValidCategoryIndex(FindImpl(name, is_dynamic));
+ }
+
+ constexpr size_t Find(const DynamicCategory&, bool) const {
+ return kDynamicCategoryIndex;
+ }
+
+ constexpr bool ValidateCategories(size_t index = 0) const {
+ return (index == category_count_)
+ ? true
+ : IsValidCategoryName(categories_[index].name)
+ ? ValidateCategories(index + 1)
+ : false;
+ }
+
+ private:
+ // TODO(skyostil): Make the compile-time routines nicer with C++14.
+ constexpr size_t FindImpl(const char* name,
+ bool is_dynamic,
+ size_t index = 0) const {
+ return is_dynamic ? kDynamicCategoryIndex
+ : (index == category_count_)
+ ? kInvalidCategoryIndex
+ : StringEq(categories_[index].name, name)
+ ? index
+ : FindImpl(name, false, index + 1);
+ }
+
+ // A compile time helper for checking that a category index is valid.
+ static constexpr size_t CheckIsValidCategoryIndex(size_t index) {
+ // Relies on PERFETTO_CHECK() (and the surrounding lambda) being a
+ // non-constexpr function, which will fail the build if the given |index| is
+ // invalid. The funny formatting here is so that clang shows the comment
+ // below as part of the error message.
+ // clang-format off
+ return index != kInvalidCategoryIndex ? index : \
+ /* Invalid category -- add it to PERFETTO_DEFINE_CATEGORIES(). */ [] {
+ PERFETTO_CHECK(
+ false &&
+ "A track event used an unknown category. Please add it to "
+ "PERFETTO_DEFINE_CATEGORIES().");
+ return kInvalidCategoryIndex;
+ }();
+ // clang-format on
+ }
+
+ static constexpr bool IsValidCategoryName(const char* name) {
+ return (!name || *name == '\"' || *name == '*' || *name == ' ')
+ ? false
+ : *name ? IsValidCategoryName(name + 1) : true;
+ }
+
+ static constexpr bool StringEq(const char* a, const char* b) {
+ return *a != *b ? false
+ : (!*a || !*b) ? (*a == *b) : StringEq(a + 1, b + 1);
+ }
+
+ const Category* const categories_;
+ const size_t category_count_;
+ std::atomic<uint8_t>* const state_storage_;
+};
+
+} // namespace internal
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_TRACING_TRACK_EVENT_CATEGORY_REGISTRY_H_
+// gen_amalgamated begin header: gen/protos/perfetto/config/track_event/track_event_config.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_TRACK_EVENT_TRACK_EVENT_CONFIG_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_TRACK_EVENT_TRACK_EVENT_CONFIG_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class TrackEventConfig;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+class PERFETTO_EXPORT_COMPONENT TrackEventConfig : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kDisabledCategoriesFieldNumber = 1,
+ kEnabledCategoriesFieldNumber = 2,
+ kDisabledTagsFieldNumber = 3,
+ kEnabledTagsFieldNumber = 4,
+ kDisableIncrementalTimestampsFieldNumber = 5,
+ kTimestampUnitMultiplierFieldNumber = 6,
+ kFilterDebugAnnotationsFieldNumber = 7,
+ kEnableThreadTimeSamplingFieldNumber = 8,
+ kFilterDynamicEventNamesFieldNumber = 9,
+ };
+
+ TrackEventConfig();
+ ~TrackEventConfig() override;
+ TrackEventConfig(TrackEventConfig&&) noexcept;
+ TrackEventConfig& operator=(TrackEventConfig&&);
+ TrackEventConfig(const TrackEventConfig&);
+ TrackEventConfig& operator=(const TrackEventConfig&);
+ bool operator==(const TrackEventConfig&) const;
+ bool operator!=(const TrackEventConfig& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ const std::vector<std::string>& disabled_categories() const { return disabled_categories_; }
+ std::vector<std::string>* mutable_disabled_categories() { return &disabled_categories_; }
+ int disabled_categories_size() const { return static_cast<int>(disabled_categories_.size()); }
+ void clear_disabled_categories() { disabled_categories_.clear(); }
+ void add_disabled_categories(std::string value) { disabled_categories_.emplace_back(value); }
+ std::string* add_disabled_categories() { disabled_categories_.emplace_back(); return &disabled_categories_.back(); }
+
+ const std::vector<std::string>& enabled_categories() const { return enabled_categories_; }
+ std::vector<std::string>* mutable_enabled_categories() { return &enabled_categories_; }
+ int enabled_categories_size() const { return static_cast<int>(enabled_categories_.size()); }
+ void clear_enabled_categories() { enabled_categories_.clear(); }
+ void add_enabled_categories(std::string value) { enabled_categories_.emplace_back(value); }
+ std::string* add_enabled_categories() { enabled_categories_.emplace_back(); return &enabled_categories_.back(); }
+
+ const std::vector<std::string>& disabled_tags() const { return disabled_tags_; }
+ std::vector<std::string>* mutable_disabled_tags() { return &disabled_tags_; }
+ int disabled_tags_size() const { return static_cast<int>(disabled_tags_.size()); }
+ void clear_disabled_tags() { disabled_tags_.clear(); }
+ void add_disabled_tags(std::string value) { disabled_tags_.emplace_back(value); }
+ std::string* add_disabled_tags() { disabled_tags_.emplace_back(); return &disabled_tags_.back(); }
+
+ const std::vector<std::string>& enabled_tags() const { return enabled_tags_; }
+ std::vector<std::string>* mutable_enabled_tags() { return &enabled_tags_; }
+ int enabled_tags_size() const { return static_cast<int>(enabled_tags_.size()); }
+ void clear_enabled_tags() { enabled_tags_.clear(); }
+ void add_enabled_tags(std::string value) { enabled_tags_.emplace_back(value); }
+ std::string* add_enabled_tags() { enabled_tags_.emplace_back(); return &enabled_tags_.back(); }
+
+ bool has_disable_incremental_timestamps() const { return _has_field_[5]; }
+ bool disable_incremental_timestamps() const { return disable_incremental_timestamps_; }
+ void set_disable_incremental_timestamps(bool value) { disable_incremental_timestamps_ = value; _has_field_.set(5); }
+
+ bool has_timestamp_unit_multiplier() const { return _has_field_[6]; }
+ uint64_t timestamp_unit_multiplier() const { return timestamp_unit_multiplier_; }
+ void set_timestamp_unit_multiplier(uint64_t value) { timestamp_unit_multiplier_ = value; _has_field_.set(6); }
+
+ bool has_filter_debug_annotations() const { return _has_field_[7]; }
+ bool filter_debug_annotations() const { return filter_debug_annotations_; }
+ void set_filter_debug_annotations(bool value) { filter_debug_annotations_ = value; _has_field_.set(7); }
+
+ bool has_enable_thread_time_sampling() const { return _has_field_[8]; }
+ bool enable_thread_time_sampling() const { return enable_thread_time_sampling_; }
+ void set_enable_thread_time_sampling(bool value) { enable_thread_time_sampling_ = value; _has_field_.set(8); }
+
+ bool has_filter_dynamic_event_names() const { return _has_field_[9]; }
+ bool filter_dynamic_event_names() const { return filter_dynamic_event_names_; }
+ void set_filter_dynamic_event_names(bool value) { filter_dynamic_event_names_ = value; _has_field_.set(9); }
+
+ private:
+ std::vector<std::string> disabled_categories_;
+ std::vector<std::string> enabled_categories_;
+ std::vector<std::string> disabled_tags_;
+ std::vector<std::string> enabled_tags_;
+ bool disable_incremental_timestamps_{};
+ uint64_t timestamp_unit_multiplier_{};
+ bool filter_debug_annotations_{};
+ bool enable_thread_time_sampling_{};
+ bool filter_dynamic_event_names_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<10> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_TRACK_EVENT_TRACK_EVENT_CONFIG_PROTO_CPP_H_
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_TRACING_INTERNAL_TRACK_EVENT_DATA_SOURCE_H_
+#define INCLUDE_PERFETTO_TRACING_INTERNAL_TRACK_EVENT_DATA_SOURCE_H_
+
+// gen_amalgamated expanded: #include "perfetto/base/compiler.h"
+// gen_amalgamated expanded: #include "perfetto/base/template_util.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message_handle.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/core/data_source_config.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/data_source.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/event_context.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/internal/track_event_internal.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/internal/track_event_legacy.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/internal/write_track_event_args.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/track.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/track_event_category_registry.h"
+// gen_amalgamated expanded: #include "protos/perfetto/common/builtin_clock.pbzero.h"
+// gen_amalgamated expanded: #include "protos/perfetto/config/track_event/track_event_config.gen.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/track_event.pbzero.h"
+
+#include <type_traits>
+
+namespace perfetto {
+
+namespace {
+
+class StopArgsImpl : public DataSourceBase::StopArgs {
+ public:
+ // HandleAsynchronously() can optionally be called to defer the tracing
+ // session stop and write track events just before stopping. This function
+ // returns a closure that must be invoked after the last track events have
+ // been emitted. The caller also needs to explicitly call
+ // TrackEvent::Flush() because no other implicit flushes will happen after
+ // the stop signal.
+ // See the comment in include/perfetto/tracing/data_source.h for more info.
+ std::function<void()> HandleStopAsynchronously() const override {
+ auto closure = std::move(async_stop_closure);
+ async_stop_closure = std::function<void()>();
+ return closure;
+ }
+
+ mutable std::function<void()> async_stop_closure;
+};
+
+} // namespace
+
+// A function for converting an abstract timestamp into a
+// perfetto::TraceTimestamp struct. By specialising this template and defining
+// static ConvertTimestampToTraceTimeNs function in it the user can register
+// additional timestamp types. The return value should specify the
+// clock domain used by the timestamp as well as its value.
+//
+// The supported clock domains are the ones described in
+// perfetto.protos.ClockSnapshot. However, custom clock IDs (>=64) are
+// reserved for internal use by the SDK for the time being.
+// The timestamp value should be in nanoseconds regardless of the clock domain.
+template <typename T>
+struct TraceTimestampTraits;
+
+// A pass-through implementation for raw uint64_t nanosecond timestamps.
+template <>
+struct TraceTimestampTraits<uint64_t> {
+ static inline TraceTimestamp ConvertTimestampToTraceTimeNs(
+ const uint64_t& timestamp) {
+ return {static_cast<uint32_t>(internal::TrackEventInternal::GetClockId()), timestamp};
+ }
+};
+
+// A pass-through implementation for the trace timestamp structure.
+template <>
+struct TraceTimestampTraits<TraceTimestamp> {
+ static inline TraceTimestamp ConvertTimestampToTraceTimeNs(
+ const TraceTimestamp& timestamp) {
+ return timestamp;
+ }
+};
+
+namespace internal {
+namespace {
+
+// Checks if |T| is a valid track.
+template <typename T>
+static constexpr bool IsValidTrack() {
+ return std::is_convertible<T, Track>::value;
+}
+
+// Checks if |T| is a valid non-counter track.
+template <typename T>
+static constexpr bool IsValidNormalTrack() {
+ return std::is_convertible<T, Track>::value &&
+ !std::is_convertible<T, CounterTrack>::value;
+}
+
+// Because the user can use arbitrary timestamp types, we can't compare against
+// any known base type here. Instead, we check that a track or a trace lambda
+// isn't being interpreted as a timestamp.
+template <typename T,
+ typename CanBeConvertedToNsCheck = decltype(
+ ::perfetto::TraceTimestampTraits<typename base::remove_cvref_t<
+ T>>::ConvertTimestampToTraceTimeNs(std::declval<T>())),
+ typename NotTrackCheck =
+ typename std::enable_if<!IsValidNormalTrack<T>()>::type,
+ typename NotLambdaCheck =
+ typename std::enable_if<!IsValidTraceLambda<T>()>::type>
+static constexpr bool IsValidTimestamp() {
+ return true;
+}
+
+// Taken from C++17
+template <typename...>
+using void_t = void;
+
+// Returns true iff `GetStaticString(T)` is defined OR T == DynamicString.
+template <typename T, typename = void>
+struct IsValidEventNameType
+ : std::is_same<perfetto::DynamicString, typename std::decay<T>::type> {};
+
+template <typename T>
+struct IsValidEventNameType<
+ T,
+ void_t<decltype(GetStaticString(std::declval<T>()))>> : std::true_type {};
+
+template <typename T>
+inline void ValidateEventNameType() {
+ static_assert(
+ IsValidEventNameType<T>::value,
+ "Event names must be static strings. To use dynamic event names, see "
+ "https://perfetto.dev/docs/instrumentation/"
+ "track-events#dynamic-event-names");
+}
+
+inline bool UnorderedEqual(std::vector<std::string> vec1,
+ std::vector<std::string> vec2) {
+ std::sort(vec1.begin(), vec1.end());
+ vec1.erase(std::unique(vec1.begin(), vec1.end()), vec1.end());
+ std::sort(vec2.begin(), vec2.end());
+ vec2.erase(std::unique(vec2.begin(), vec2.end()), vec2.end());
+ return vec1 == vec2;
+}
+
+} // namespace
+
+inline ::perfetto::DynamicString DecayEventNameType(
+ ::perfetto::DynamicString name) {
+ return name;
+}
+
+inline ::perfetto::StaticString DecayEventNameType(
+ ::perfetto::StaticString name) {
+ return name;
+}
+
+// Convert all static strings of different length to StaticString to avoid
+// unnecessary template instantiations.
+inline ::perfetto::StaticString DecayEventNameType(const char* name) {
+ return ::perfetto::StaticString{name};
+}
+
+// Traits for dynamic categories.
+template <typename CategoryType>
+struct CategoryTraits {
+ static constexpr bool kIsDynamic = true;
+ static constexpr const Category* GetStaticCategory(
+ const TrackEventCategoryRegistry*,
+ const CategoryType&) {
+ return nullptr;
+ }
+ static size_t GetStaticIndex(const CategoryType&) {
+ PERFETTO_DCHECK(false); // Not reached.
+ return TrackEventCategoryRegistry::kDynamicCategoryIndex;
+ }
+ static DynamicCategory GetDynamicCategory(const CategoryType& category) {
+ return DynamicCategory{category};
+ }
+};
+
+// Traits for static categories.
+template <>
+struct CategoryTraits<size_t> {
+ static constexpr bool kIsDynamic = false;
+ static const Category* GetStaticCategory(
+ const TrackEventCategoryRegistry* registry,
+ size_t category_index) {
+ return registry->GetCategory(category_index);
+ }
+ static constexpr size_t GetStaticIndex(size_t category_index) {
+ return category_index;
+ }
+ static DynamicCategory GetDynamicCategory(size_t) {
+ PERFETTO_DCHECK(false); // Not reached.
+ return DynamicCategory();
+ }
+};
+
+struct TrackEventDataSourceTraits : public perfetto::DefaultDataSourceTraits {
+ using IncrementalStateType = TrackEventIncrementalState;
+ using TlsStateType = TrackEventTlsState;
+
+ // Use a one shared TLS slot so that all track event data sources write into
+ // the same sequence and share interning dictionaries.
+ static DataSourceThreadLocalState* GetDataSourceTLS(DataSourceStaticState*,
+ TracingTLS* root_tls) {
+ return &root_tls->track_event_tls;
+ }
+};
+
+// A generic track event data source which is instantiated once per track event
+// category namespace.
+template <typename DerivedDataSource,
+ const TrackEventCategoryRegistry* Registry>
+class TrackEventDataSource
+ : public DataSource<DerivedDataSource, TrackEventDataSourceTraits> {
+ using Base = DataSource<DerivedDataSource, TrackEventDataSourceTraits>;
+
+ public:
+ static constexpr bool kRequiresCallbacksUnderLock = false;
+
+ // Add or remove a session observer for this track event data source. The
+ // observer will be notified about started and stopped tracing sessions.
+ // Returns |true| if the observer was successfully added (i.e., the maximum
+ // number of observers wasn't exceeded).
+ static bool AddSessionObserver(TrackEventSessionObserver* observer) {
+ return TrackEventInternal::AddSessionObserver(*Registry, observer);
+ }
+
+ static void RemoveSessionObserver(TrackEventSessionObserver* observer) {
+ TrackEventInternal::RemoveSessionObserver(*Registry, observer);
+ }
+
+ // DataSource implementation.
+ void OnSetup(const DataSourceBase::SetupArgs& args) override {
+ auto config_raw = args.config->track_event_config_raw();
+ bool ok = config_.ParseFromArray(config_raw.data(), config_raw.size());
+ PERFETTO_DCHECK(ok);
+ TrackEventInternal::EnableTracing(*Registry, config_, args);
+ }
+
+ void OnStart(const DataSourceBase::StartArgs& args) override {
+ TrackEventInternal::OnStart(*Registry, args);
+ }
+
+ void OnStop(const DataSourceBase::StopArgs& args) override {
+ auto outer_stop_closure = args.HandleStopAsynchronously();
+ StopArgsImpl inner_stop_args{};
+ uint32_t internal_instance_index = args.internal_instance_index;
+ inner_stop_args.internal_instance_index = internal_instance_index;
+ inner_stop_args.async_stop_closure = [internal_instance_index,
+ outer_stop_closure] {
+ TrackEventInternal::DisableTracing(*Registry, internal_instance_index);
+ outer_stop_closure();
+ };
+
+ TrackEventInternal::OnStop(*Registry, inner_stop_args);
+
+ // If inner_stop_args.HandleStopAsynchronously() hasn't been called,
+ // run the async closure here.
+ if (inner_stop_args.async_stop_closure)
+ std::move(inner_stop_args.async_stop_closure)();
+ }
+
+ void WillClearIncrementalState(
+ const DataSourceBase::ClearIncrementalStateArgs& args) override {
+ TrackEventInternal::WillClearIncrementalState(*Registry, args);
+ }
+
+ // In Chrome, startup sessions are propagated from the browser process to
+ // child processes using command-line flags. Command-line flags can only
+ // convey the category filter and privacy settings, so we use only those
+ // to determine which startup sessions to adopt.
+ // TODO(khokhlov): After Chrome is able to propagate the entire config to the
+ // child process, we can make this comparison more strict by only clearing
+ // selected fields and comparing everything else. One specific thing to keep
+ // in mind is to clear the |convert_to_legacy_json| field, because Telemetry
+ // initiates tracing with proto format, but in some cases adopts the tracing
+ // session later via devtools which expect json format.
+ bool CanAdoptStartupSession(const DataSourceConfig& startup_config,
+ const DataSourceConfig& service_config) override {
+ if (startup_config.track_event_config_raw().empty() ||
+ service_config.track_event_config_raw().empty()) {
+ return false;
+ }
+
+ protos::gen::TrackEventConfig startup_te_cfg;
+ startup_te_cfg.ParseFromString(startup_config.track_event_config_raw());
+ protos::gen::TrackEventConfig service_te_cfg;
+ service_te_cfg.ParseFromString(service_config.track_event_config_raw());
+
+ if (!UnorderedEqual(startup_te_cfg.enabled_categories(),
+ service_te_cfg.enabled_categories())) {
+ return false;
+ }
+ if (!UnorderedEqual(startup_te_cfg.disabled_categories(),
+ service_te_cfg.disabled_categories())) {
+ return false;
+ }
+ if (!UnorderedEqual(startup_te_cfg.enabled_tags(),
+ service_te_cfg.enabled_tags())) {
+ return false;
+ }
+ if (!UnorderedEqual(startup_te_cfg.disabled_tags(),
+ service_te_cfg.disabled_tags())) {
+ return false;
+ }
+ if (startup_te_cfg.filter_debug_annotations() !=
+ service_te_cfg.filter_debug_annotations()) {
+ return false;
+ }
+ if (startup_te_cfg.filter_dynamic_event_names() !=
+ service_te_cfg.filter_dynamic_event_names()) {
+ return false;
+ }
+
+ return true;
+ }
+
+ static void Flush() {
+ Base::template Trace([](typename Base::TraceContext ctx) { ctx.Flush(); });
+ }
+
+ // Determine if *any* tracing category is enabled.
+ static bool IsEnabled() {
+ bool enabled = false;
+ Base::template CallIfEnabled(
+ [&](uint32_t /*instances*/) { enabled = true; });
+ return enabled;
+ }
+
+ // Determine if tracing for the given static category is enabled.
+ static bool IsCategoryEnabled(size_t category_index) {
+ return Registry->GetCategoryState(category_index)
+ ->load(std::memory_order_relaxed);
+ }
+
+ // Determine if tracing for the given dynamic category is enabled.
+ static bool IsDynamicCategoryEnabled(
+ const DynamicCategory& dynamic_category) {
+ bool enabled = false;
+ Base::template Trace([&](typename Base::TraceContext ctx) {
+ enabled = enabled || IsDynamicCategoryEnabled(&ctx, dynamic_category);
+ });
+ return enabled;
+ }
+
+ // This is the inlined entrypoint for all track event trace points. It tries
+ // to be as lightweight as possible in terms of instructions and aims to
+ // compile down to an unlikely conditional jump to the actual trace writing
+ // function.
+ template <typename Callback>
+ static void CallIfCategoryEnabled(size_t category_index,
+ Callback callback) PERFETTO_ALWAYS_INLINE {
+ Base::template CallIfEnabled<CategoryTracePointTraits>(
+ [&callback](uint32_t instances) { callback(instances); },
+ {category_index});
+ }
+
+ // The following methods forward all arguments to TraceForCategoryBody
+ // while casting string constants to const char* and integer arguments to
+ // int64_t, uint64_t or bool.
+ template <typename CategoryType,
+ typename EventNameType,
+ typename... Arguments>
+ static void TraceForCategory(uint32_t instances,
+ const CategoryType& category,
+ const EventNameType& name,
+ perfetto::protos::pbzero::TrackEvent::Type type,
+ Arguments&&... args) PERFETTO_ALWAYS_INLINE {
+ TraceForCategoryBody(instances, DecayStrType(category), DecayStrType(name),
+ type, DecayArgType(args)...);
+ }
+
+#if PERFETTO_ENABLE_LEGACY_TRACE_EVENTS
+ template <typename TrackType,
+ typename CategoryType,
+ typename EventNameType,
+ typename... Arguments,
+ typename TrackTypeCheck = typename std::enable_if<
+ std::is_convertible<TrackType, Track>::value>::type>
+ static void TraceForCategoryLegacy(
+ uint32_t instances,
+ const CategoryType& category,
+ const EventNameType& event_name,
+ perfetto::protos::pbzero::TrackEvent::Type type,
+ TrackType&& track,
+ char phase,
+ uint32_t flags,
+ Arguments&&... args) PERFETTO_ALWAYS_INLINE {
+ TraceForCategoryLegacyBody(instances, DecayStrType(category),
+ DecayStrType(event_name), type, track, phase,
+ flags, DecayArgType(args)...);
+ }
+
+ template <typename TrackType,
+ typename CategoryType,
+ typename EventNameType,
+ typename TimestampType = uint64_t,
+ typename... Arguments,
+ typename TrackTypeCheck = typename std::enable_if<
+ std::is_convertible<TrackType, Track>::value>::type,
+ typename TimestampTypeCheck = typename std::enable_if<
+ IsValidTimestamp<TimestampType>()>::type>
+ static void TraceForCategoryLegacy(
+ uint32_t instances,
+ const CategoryType& category,
+ const EventNameType& event_name,
+ perfetto::protos::pbzero::TrackEvent::Type type,
+ TrackType&& track,
+ char phase,
+ uint32_t flags,
+ TimestampType&& timestamp,
+ Arguments&&... args) PERFETTO_ALWAYS_INLINE {
+ TraceForCategoryLegacyBody(instances, DecayStrType(category),
+ DecayStrType(event_name), type, track, phase,
+ flags, timestamp, DecayArgType(args)...);
+ }
+
+ template <typename TrackType,
+ typename CategoryType,
+ typename EventNameType,
+ typename ThreadIdType,
+ typename LegacyIdType,
+ typename... Arguments,
+ typename TrackTypeCheck = typename std::enable_if<
+ std::is_convertible<TrackType, Track>::value>::type>
+ static void TraceForCategoryLegacyWithId(
+ uint32_t instances,
+ const CategoryType& category,
+ const EventNameType& event_name,
+ perfetto::protos::pbzero::TrackEvent::Type type,
+ TrackType&& track,
+ char phase,
+ uint32_t flags,
+ ThreadIdType thread_id,
+ LegacyIdType legacy_id,
+ Arguments&&... args) PERFETTO_ALWAYS_INLINE {
+ TraceForCategoryLegacyWithIdBody(
+ instances, DecayStrType(category), DecayStrType(event_name), type,
+ track, phase, flags, thread_id, legacy_id, DecayArgType(args)...);
+ }
+
+ template <typename TrackType,
+ typename CategoryType,
+ typename EventNameType,
+ typename ThreadIdType,
+ typename LegacyIdType,
+ typename TimestampType = uint64_t,
+ typename... Arguments,
+ typename TrackTypeCheck = typename std::enable_if<
+ std::is_convertible<TrackType, Track>::value>::type,
+ typename TimestampTypeCheck = typename std::enable_if<
+ IsValidTimestamp<TimestampType>()>::type>
+ static void TraceForCategoryLegacyWithId(
+ uint32_t instances,
+ const CategoryType& category,
+ const EventNameType& event_name,
+ perfetto::protos::pbzero::TrackEvent::Type type,
+ TrackType&& track,
+ char phase,
+ uint32_t flags,
+ ThreadIdType thread_id,
+ LegacyIdType legacy_id,
+ TimestampType&& timestamp,
+ Arguments&&... args) PERFETTO_ALWAYS_INLINE {
+ TraceForCategoryLegacyWithIdBody(instances, DecayStrType(category),
+ DecayStrType(event_name), type, track,
+ phase, flags, thread_id, legacy_id,
+ timestamp, DecayArgType(args)...);
+ }
+#endif
+
+ // Initialize the track event library. Should be called before tracing is
+ // enabled.
+ static bool Register() {
+ // Registration is performed out-of-line so users don't need to depend on
+ // DataSourceDescriptor C++ bindings.
+ return TrackEventInternal::Initialize(
+ *Registry,
+ [](const DataSourceDescriptor& dsd) { return Base::Register(dsd); });
+ }
+
+ // Record metadata about different types of timeline tracks. See Track.
+ static void SetTrackDescriptor(const Track& track,
+ const protos::gen::TrackDescriptor& desc) {
+ PERFETTO_DCHECK(track.uuid == desc.uuid());
+ TrackRegistry::Get()->UpdateTrack(track, desc.SerializeAsString());
+ Base::template Trace([&](typename Base::TraceContext ctx) {
+ TrackEventInternal::WriteTrackDescriptor(
+ track, ctx.tls_inst_->trace_writer.get(), ctx.GetIncrementalState(),
+ *ctx.GetCustomTlsState(), TrackEventInternal::GetTraceTime());
+ });
+ }
+
+ // DEPRECATED. Only kept for backwards compatibility.
+ static void SetTrackDescriptor(
+ const Track& track,
+ std::function<void(protos::pbzero::TrackDescriptor*)> callback) {
+ SetTrackDescriptorImpl(track, std::move(callback));
+ }
+
+ // DEPRECATED. Only kept for backwards compatibility.
+ static void SetProcessDescriptor(
+ std::function<void(protos::pbzero::TrackDescriptor*)> callback,
+ const ProcessTrack& track = ProcessTrack::Current()) {
+ SetTrackDescriptorImpl(std::move(track), std::move(callback));
+ }
+
+ // DEPRECATED. Only kept for backwards compatibility.
+ static void SetThreadDescriptor(
+ std::function<void(protos::pbzero::TrackDescriptor*)> callback,
+ const ThreadTrack& track = ThreadTrack::Current()) {
+ SetTrackDescriptorImpl(std::move(track), std::move(callback));
+ }
+
+ static void EraseTrackDescriptor(const Track& track) {
+ TrackRegistry::Get()->EraseTrack(track);
+ }
+
+ // Returns the current trace timestamp in nanoseconds. Note the returned
+ // timebase may vary depending on the platform, but will always match the
+ // timestamps recorded by track events (see GetTraceClockId).
+ static uint64_t GetTraceTimeNs() { return TrackEventInternal::GetTimeNs(); }
+
+ // Returns the type of clock used by GetTraceTimeNs().
+ static constexpr protos::pbzero::BuiltinClock GetTraceClockId() {
+ return TrackEventInternal::GetClockId();
+ }
+
+ const protos::gen::TrackEventConfig& GetConfig() const { return config_; }
+
+ private:
+ // The DecayStrType method is used to avoid unnecessary instantiations of
+ // templates on string constants of different sizes. Without it, strings
+ // of different lengths have different types: char[10], char[15] etc.
+ // DecayStrType forwards all types of arguments as is, with the exception
+ // of string constants which are all cast to const char*. This allows to
+ // avoid extra instantiations of TraceForCategory templates.
+ template <typename T>
+ static T&& DecayStrType(T&& t) {
+ return std::forward<T>(t);
+ }
+
+ static const char* DecayStrType(const char* t) { return t; }
+
+ // The DecayArgType method is used to avoid unnecessary instantiations of
+ // templates on:
+ // * string constants of different sizes.
+ // * primitive of different constness (or references).
+ // This avoids extra instantiations of TraceForCategory templates.
+ template <typename T>
+ static T&& DecayArgType(T&& t) {
+ return std::forward<T>(t);
+ }
+
+ static const char* DecayArgType(const char* s) { return s; }
+ static uint64_t DecayArgType(uint64_t u) { return u; }
+ static uint32_t DecayArgType(uint32_t u) { return u; }
+ static uint16_t DecayArgType(uint16_t u) { return u; }
+ static uint8_t DecayArgType(uint8_t u) { return u; }
+ static int64_t DecayArgType(int64_t i) { return i; }
+ static int32_t DecayArgType(int32_t i) { return i; }
+ static int16_t DecayArgType(int16_t i) { return i; }
+ static int8_t DecayArgType(int8_t i) { return i; }
+ static bool DecayArgType(bool b) { return b; }
+ static float DecayArgType(float f) { return f; }
+ static double DecayArgType(double f) { return f; }
+
+ // Once we've determined tracing to be enabled for this category, actually
+ // write a trace event onto this thread's default track. Outlined to avoid
+ // bloating code (mostly stack depth) at the actual trace point.
+ //
+ // The following combination of parameters is supported (in the given order):
+ // - Zero or one track,
+ // - Zero or one custom timestamp,
+ // - Arbitrary number of debug annotations.
+ // - Zero or one lambda.
+
+ // Trace point which does not take a track or timestamp.
+ template <typename CategoryType,
+ typename EventNameType,
+ typename... Arguments>
+ static void TraceForCategoryBody(
+ uint32_t instances,
+ const CategoryType& category,
+ const EventNameType& event_name,
+ perfetto::protos::pbzero::TrackEvent::Type type,
+ Arguments&&... args) PERFETTO_NO_INLINE {
+ TraceForCategoryImplNoTimestamp(instances, category, event_name, type,
+ TrackEventInternal::kDefaultTrack,
+ std::forward<Arguments>(args)...);
+ }
+
+ // Trace point which takes a track, but not timestamp.
+ // NOTE: Here track should be captured using universal reference (TrackType&&)
+ // instead of const TrackType& to ensure that the proper overload is selected
+ // (otherwise the compiler will fail to disambiguate between adding const& and
+ // parsing track as a part of Arguments...).
+ template <typename TrackType,
+ typename CategoryType,
+ typename EventNameType,
+ typename... Arguments,
+ typename TrackTypeCheck = typename std::enable_if<
+ std::is_convertible<TrackType, Track>::value>::type>
+ static void TraceForCategoryBody(
+ uint32_t instances,
+ const CategoryType& category,
+ const EventNameType& event_name,
+ perfetto::protos::pbzero::TrackEvent::Type type,
+ TrackType&& track,
+ Arguments&&... args) PERFETTO_NO_INLINE {
+ TraceForCategoryImplNoTimestamp(instances, category, event_name, type,
+ std::forward<TrackType>(track),
+ std::forward<Arguments>(args)...);
+ }
+
+ // Trace point which takes a timestamp, but not track.
+ template <typename CategoryType,
+ typename EventNameType,
+ typename TimestampType = uint64_t,
+ typename... Arguments,
+ typename TimestampTypeCheck = typename std::enable_if<
+ IsValidTimestamp<TimestampType>()>::type>
+ static void TraceForCategoryBody(
+ uint32_t instances,
+ const CategoryType& category,
+ const EventNameType& event_name,
+ perfetto::protos::pbzero::TrackEvent::Type type,
+ TimestampType&& timestamp,
+ Arguments&&... args) PERFETTO_NO_INLINE {
+ TraceForCategoryImpl(instances, category, event_name, type,
+ TrackEventInternal::kDefaultTrack,
+ std::forward<TimestampType>(timestamp),
+ std::forward<Arguments>(args)...);
+ }
+
+ // Trace point which takes a timestamp and a track.
+ template <typename TrackType,
+ typename CategoryType,
+ typename EventNameType,
+ typename TimestampType = uint64_t,
+ typename... Arguments,
+ typename TrackTypeCheck = typename std::enable_if<
+ std::is_convertible<TrackType, Track>::value>::type,
+ typename TimestampTypeCheck = typename std::enable_if<
+ IsValidTimestamp<TimestampType>()>::type>
+ static void TraceForCategoryBody(
+ uint32_t instances,
+ const CategoryType& category,
+ const EventNameType& event_name,
+ perfetto::protos::pbzero::TrackEvent::Type type,
+ TrackType&& track,
+ TimestampType&& timestamp,
+ Arguments&&... args) PERFETTO_NO_INLINE {
+ TraceForCategoryImpl(instances, category, event_name, type,
+ std::forward<TrackType>(track),
+ std::forward<TimestampType>(timestamp),
+ std::forward<Arguments>(args)...);
+ }
+
+ // Trace point with with a counter sample.
+ template <typename CategoryType, typename EventNameType, typename ValueType>
+ static void TraceForCategoryBody(
+ uint32_t instances,
+ const CategoryType& category,
+ const EventNameType&,
+ perfetto::protos::pbzero::TrackEvent::Type type,
+ CounterTrack track,
+ ValueType value) PERFETTO_ALWAYS_INLINE {
+ PERFETTO_DCHECK(type == perfetto::protos::pbzero::TrackEvent::TYPE_COUNTER);
+ TraceForCategory(instances, category, /*name=*/nullptr, type, track,
+ TrackEventInternal::GetTraceTime(), value);
+ }
+
+ // Trace point with with a timestamp and a counter sample.
+ template <typename CategoryType,
+ typename EventNameType,
+ typename TimestampType = uint64_t,
+ typename TimestampTypeCheck = typename std::enable_if<
+ IsValidTimestamp<TimestampType>()>::type,
+ typename ValueType>
+ static void TraceForCategoryBody(
+ uint32_t instances,
+ const CategoryType& category,
+ const EventNameType&,
+ perfetto::protos::pbzero::TrackEvent::Type type,
+ CounterTrack track,
+ TimestampType timestamp,
+ ValueType value) PERFETTO_NO_INLINE {
+ PERFETTO_DCHECK(type == perfetto::protos::pbzero::TrackEvent::TYPE_COUNTER);
+ TraceForCategoryImpl(
+ instances, category, /*name=*/nullptr, type, track, timestamp,
+ [&](EventContext event_ctx) {
+ if (std::is_integral<ValueType>::value) {
+ int64_t value_int64 = static_cast<int64_t>(value);
+ if (track.is_incremental()) {
+ TrackEventIncrementalState* incr_state =
+ event_ctx.GetIncrementalState();
+ PERFETTO_DCHECK(incr_state != nullptr);
+ auto prv_value =
+ incr_state->last_counter_value_per_track[track.uuid];
+ event_ctx.event()->set_counter_value(value_int64 - prv_value);
+ prv_value = value_int64;
+ incr_state->last_counter_value_per_track[track.uuid] = prv_value;
+ } else {
+ event_ctx.event()->set_counter_value(value_int64);
+ }
+ } else {
+ event_ctx.event()->set_double_counter_value(
+ static_cast<double>(value));
+ }
+ });
+ }
+
+// Additional trace points used in legacy macros.
+// It's possible to implement legacy macros using a common TraceForCategory,
+// by supplying a lambda that sets all necessary legacy fields. But this
+// results in a binary size bloat because every trace point generates its own
+// template instantiation with its own lambda. ICF can't eliminate those as
+// each lambda captures different variables and so the code is not completely
+// identical.
+// What we do instead is define additional TraceForCategoryLegacy templates
+// that take legacy arguments directly. Their instantiations can have the same
+// binary code for at least some macro invocations and so can be successfully
+// folded by the linker.
+#if PERFETTO_ENABLE_LEGACY_TRACE_EVENTS
+ template <typename TrackType,
+ typename CategoryType,
+ typename EventNameType,
+ typename... Arguments,
+ typename TrackTypeCheck = typename std::enable_if<
+ std::is_convertible<TrackType, Track>::value>::type>
+ static void TraceForCategoryLegacyBody(
+ uint32_t instances,
+ const CategoryType& category,
+ const EventNameType& event_name,
+ perfetto::protos::pbzero::TrackEvent::Type type,
+ TrackType&& track,
+ char phase,
+ uint32_t flags,
+ Arguments&&... args) PERFETTO_NO_INLINE {
+ TraceForCategoryImplNoTimestamp(
+ instances, category, event_name, type, track,
+ [&](perfetto::EventContext ctx) PERFETTO_NO_THREAD_SAFETY_ANALYSIS {
+ using ::perfetto::internal::TrackEventLegacy;
+ TrackEventLegacy::WriteLegacyEvent(std::move(ctx), phase, flags,
+ args...);
+ });
+ }
+
+ template <typename TrackType,
+ typename CategoryType,
+ typename EventNameType,
+ typename TimestampType = uint64_t,
+ typename... Arguments,
+ typename TrackTypeCheck = typename std::enable_if<
+ std::is_convertible<TrackType, Track>::value>::type,
+ typename TimestampTypeCheck = typename std::enable_if<
+ IsValidTimestamp<TimestampType>()>::type>
+ static void TraceForCategoryLegacyBody(
+ uint32_t instances,
+ const CategoryType& category,
+ const EventNameType& event_name,
+ perfetto::protos::pbzero::TrackEvent::Type type,
+ TrackType&& track,
+ char phase,
+ uint32_t flags,
+ TimestampType&& timestamp,
+ Arguments&&... args) PERFETTO_NO_INLINE {
+ TraceForCategoryImpl(
+ instances, category, event_name, type, track, timestamp,
+ [&](perfetto::EventContext ctx) PERFETTO_NO_THREAD_SAFETY_ANALYSIS {
+ using ::perfetto::internal::TrackEventLegacy;
+ TrackEventLegacy::WriteLegacyEvent(std::move(ctx), phase, flags,
+ args...);
+ });
+ }
+
+ template <typename TrackType,
+ typename CategoryType,
+ typename EventNameType,
+ typename ThreadIdType,
+ typename LegacyIdType,
+ typename... Arguments,
+ typename TrackTypeCheck = typename std::enable_if<
+ std::is_convertible<TrackType, Track>::value>::type>
+ static void TraceForCategoryLegacyWithIdBody(
+ uint32_t instances,
+ const CategoryType& category,
+ const EventNameType& event_name,
+ perfetto::protos::pbzero::TrackEvent::Type type,
+ TrackType&& track,
+ char phase,
+ uint32_t flags,
+ ThreadIdType thread_id,
+ LegacyIdType legacy_id,
+ Arguments&&... args) PERFETTO_NO_INLINE {
+ TraceForCategoryImplNoTimestamp(
+ instances, category, event_name, type, track,
+ [&](perfetto::EventContext ctx) PERFETTO_NO_THREAD_SAFETY_ANALYSIS {
+ using ::perfetto::internal::TrackEventLegacy;
+ ::perfetto::internal::LegacyTraceId trace_id{legacy_id};
+ TrackEventLegacy::WriteLegacyEventWithIdAndTid(
+ std::move(ctx), phase, flags, trace_id, thread_id, args...);
+ });
+ }
+
+ template <typename TrackType,
+ typename CategoryType,
+ typename EventNameType,
+ typename ThreadIdType,
+ typename LegacyIdType,
+ typename TimestampType = uint64_t,
+ typename... Arguments,
+ typename TrackTypeCheck = typename std::enable_if<
+ std::is_convertible<TrackType, Track>::value>::type,
+ typename TimestampTypeCheck = typename std::enable_if<
+ IsValidTimestamp<TimestampType>()>::type>
+ static void TraceForCategoryLegacyWithIdBody(
+ uint32_t instances,
+ const CategoryType& category,
+ const EventNameType& event_name,
+ perfetto::protos::pbzero::TrackEvent::Type type,
+ TrackType&& track,
+ char phase,
+ uint32_t flags,
+ ThreadIdType thread_id,
+ LegacyIdType legacy_id,
+ TimestampType&& timestamp,
+ Arguments&&... args) PERFETTO_NO_INLINE {
+ TraceForCategoryImpl(
+ instances, category, event_name, type, track, timestamp,
+ [&](perfetto::EventContext ctx) PERFETTO_NO_THREAD_SAFETY_ANALYSIS {
+ using ::perfetto::internal::TrackEventLegacy;
+ ::perfetto::internal::LegacyTraceId trace_id{legacy_id};
+ TrackEventLegacy::WriteLegacyEventWithIdAndTid(
+ std::move(ctx), phase, flags, trace_id, thread_id, args...);
+ });
+ }
+#endif // PERFETTO_ENABLE_LEGACY_TRACE_EVENTS
+
+ // Each category has its own enabled/disabled state, stored in the category
+ // registry.
+ struct CategoryTracePointTraits {
+ // Each trace point with a static category has an associated category index.
+ struct TracePointData {
+ size_t category_index;
+ };
+ // Called to get the enabled state bitmap of a given category.
+ // |data| is the trace point data structure given to
+ // DataSource::TraceWithInstances.
+ static constexpr std::atomic<uint8_t>* GetActiveInstances(
+ TracePointData data) {
+ return Registry->GetCategoryState(data.category_index);
+ }
+ };
+
+ template <typename CategoryType,
+ typename EventNameType,
+ typename TrackType = Track,
+ typename TrackTypeCheck =
+ typename std::enable_if<IsValidTrack<TrackType>()>::type>
+ static perfetto::EventContext WriteTrackEventImpl(
+ typename Base::TraceContext& ctx,
+ const CategoryType& category,
+ const EventNameType& event_name,
+ perfetto::protos::pbzero::TrackEvent::Type type,
+ const TrackType& track,
+ const TraceTimestamp& trace_timestamp) PERFETTO_ALWAYS_INLINE {
+ using CatTraits = CategoryTraits<CategoryType>;
+ const Category* static_category =
+ CatTraits::GetStaticCategory(Registry, category);
+
+ TrackEventTlsState& tls_state = *ctx.GetCustomTlsState();
+ TraceWriterBase* trace_writer = ctx.tls_inst_->trace_writer.get();
+ // Make sure incremental state is valid.
+ TrackEventIncrementalState* incr_state = ctx.GetIncrementalState();
+ TrackEventInternal::ResetIncrementalStateIfRequired(
+ trace_writer, incr_state, tls_state, trace_timestamp);
+
+ // Write the track descriptor before any event on the track.
+ if (track) {
+ TrackEventInternal::WriteTrackDescriptorIfNeeded(
+ track, trace_writer, incr_state, tls_state, trace_timestamp);
+ }
+
+ // Write the event itself.
+ bool on_current_thread_track =
+ (&track == &TrackEventInternal::kDefaultTrack);
+ auto event_ctx = TrackEventInternal::WriteEvent(
+ trace_writer, incr_state, tls_state, static_category, type,
+ trace_timestamp, on_current_thread_track);
+ // event name should be emitted with `TRACE_EVENT_BEGIN` macros
+ // but not with `TRACE_EVENT_END`.
+ if (type != protos::pbzero::TrackEvent::TYPE_SLICE_END) {
+ TrackEventInternal::WriteEventName(event_name, event_ctx, tls_state);
+ }
+ // Write dynamic categories (except for events that don't require
+ // categories). For counter events, the counter name (and optional
+ // category) is stored as part of the track descriptor instead being
+ // recorded with individual events.
+ if (CatTraits::kIsDynamic &&
+ type != protos::pbzero::TrackEvent::TYPE_SLICE_END &&
+ type != protos::pbzero::TrackEvent::TYPE_COUNTER) {
+ DynamicCategory dynamic_category =
+ CatTraits::GetDynamicCategory(category);
+ Category cat = Category::FromDynamicCategory(dynamic_category);
+ cat.ForEachGroupMember([&](const char* member_name, size_t name_size) {
+ event_ctx.event()->add_categories(member_name, name_size);
+ return true;
+ });
+ }
+ if (type == protos::pbzero::TrackEvent::TYPE_UNSPECIFIED) {
+ // Explicitly clear the track, so that the event is not associated
+ // with the default track, but instead uses the legacy mechanism
+ // based on the phase and pid/tid override.
+ event_ctx.event()->set_track_uuid(0);
+ } else if (!on_current_thread_track) {
+ // We emit these events using TrackDescriptors, and we cannot emit
+ // events on behalf of other processes using the TrackDescriptor
+ // format. Chrome is the only user of events with explicit process
+ // ids and currently only Chrome emits PHASE_MEMORY_DUMP events
+ // with an explicit process id, so we should be fine here.
+ // TODO(mohitms): Get rid of events with explicit process ids
+ // entirely.
+ event_ctx.event()->set_track_uuid(track.uuid);
+ }
+
+ return event_ctx;
+ }
+
+ template <typename CategoryType,
+ typename EventNameType,
+ typename TrackType = Track,
+ typename TimestampType = uint64_t,
+ typename TimestampTypeCheck = typename std::enable_if<
+ IsValidTimestamp<TimestampType>()>::type,
+ typename TrackTypeCheck =
+ typename std::enable_if<IsValidTrack<TrackType>()>::type>
+ static perfetto::EventContext WriteTrackEvent(
+ typename Base::TraceContext& ctx,
+ const CategoryType& category,
+ const EventNameType& event_name,
+ perfetto::protos::pbzero::TrackEvent::Type type,
+ const TrackType& track,
+ const TimestampType& timestamp) PERFETTO_NO_INLINE {
+ TraceTimestamp trace_timestamp = ::perfetto::TraceTimestampTraits<
+ TimestampType>::ConvertTimestampToTraceTimeNs(timestamp);
+ return WriteTrackEventImpl(ctx, category, event_name, type, track,
+ trace_timestamp);
+ }
+
+ template <typename CategoryType,
+ typename EventNameType,
+ typename TrackType = Track,
+ typename TrackTypeCheck =
+ typename std::enable_if<IsValidTrack<TrackType>()>::type>
+ static perfetto::EventContext WriteTrackEvent(
+ typename Base::TraceContext& ctx,
+ const CategoryType& category,
+ const EventNameType& event_name,
+ perfetto::protos::pbzero::TrackEvent::Type type,
+ const TrackType& track) PERFETTO_NO_INLINE {
+ TraceTimestamp trace_timestamp = TrackEventInternal::GetTraceTime();
+ return WriteTrackEventImpl(ctx, category, event_name, type, track,
+ trace_timestamp);
+ }
+
+ template <typename CategoryType,
+ typename EventNameType,
+ typename TrackType = Track,
+ typename TimestampType = uint64_t,
+ typename TimestampTypeCheck = typename std::enable_if<
+ IsValidTimestamp<TimestampType>()>::type,
+ typename TrackTypeCheck =
+ typename std::enable_if<IsValidTrack<TrackType>()>::type,
+ typename... Arguments>
+ static void TraceForCategoryImpl(
+ uint32_t instances,
+ const CategoryType& category,
+ const EventNameType& event_name,
+ perfetto::protos::pbzero::TrackEvent::Type type,
+ const TrackType& track,
+ const TimestampType& timestamp,
+ Arguments&&... args) PERFETTO_ALWAYS_INLINE {
+ using CatTraits = CategoryTraits<CategoryType>;
+ TraceWithInstances(
+ instances, category, [&](typename Base::TraceContext ctx) {
+ // If this category is dynamic, first check whether it's enabled.
+ if (CatTraits::kIsDynamic &&
+ !IsDynamicCategoryEnabled(
+ &ctx, CatTraits::GetDynamicCategory(category))) {
+ return;
+ }
+
+ auto event_ctx = WriteTrackEvent(ctx, category, event_name, type,
+ track, timestamp);
+ WriteTrackEventArgs(std::move(event_ctx),
+ std::forward<Arguments>(args)...);
+ });
+ }
+
+ template <typename CategoryType,
+ typename EventNameType,
+ typename TrackType = Track,
+ typename TrackTypeCheck =
+ typename std::enable_if<IsValidTrack<TrackType>()>::type,
+ typename... Arguments>
+ static void TraceForCategoryImplNoTimestamp(
+ uint32_t instances,
+ const CategoryType& category,
+ const EventNameType& event_name,
+ perfetto::protos::pbzero::TrackEvent::Type type,
+ const TrackType& track,
+ Arguments&&... args) PERFETTO_ALWAYS_INLINE {
+ using CatTraits = CategoryTraits<CategoryType>;
+ TraceWithInstances(
+ instances, category, [&](typename Base::TraceContext ctx) {
+ // If this category is dynamic, first check whether it's enabled.
+ if (CatTraits::kIsDynamic &&
+ !IsDynamicCategoryEnabled(
+ &ctx, CatTraits::GetDynamicCategory(category))) {
+ return;
+ }
+
+ auto event_ctx =
+ WriteTrackEvent(ctx, category, event_name, type, track);
+ WriteTrackEventArgs(std::move(event_ctx),
+ std::forward<Arguments>(args)...);
+ });
+ }
+
+ template <typename CategoryType, typename Lambda>
+ static void TraceWithInstances(uint32_t instances,
+ const CategoryType& category,
+ Lambda lambda) PERFETTO_ALWAYS_INLINE {
+ using CatTraits = CategoryTraits<CategoryType>;
+ if (CatTraits::kIsDynamic) {
+ Base::template TraceWithInstances(instances, std::move(lambda));
+ } else {
+ Base::template TraceWithInstances<CategoryTracePointTraits>(
+ instances, std::move(lambda), {CatTraits::GetStaticIndex(category)});
+ }
+ }
+
+ // Records a track descriptor into the track descriptor registry and, if we
+ // are tracing, also mirrors the descriptor into the trace.
+ template <typename TrackType>
+ static void SetTrackDescriptorImpl(
+ const TrackType& track,
+ std::function<void(protos::pbzero::TrackDescriptor*)> callback) {
+ TrackRegistry::Get()->UpdateTrack(track, std::move(callback));
+ Base::template Trace([&](typename Base::TraceContext ctx) {
+ TrackEventInternal::WriteTrackDescriptor(
+ track, ctx.tls_inst_->trace_writer.get(), ctx.GetIncrementalState(),
+ *ctx.GetCustomTlsState(), TrackEventInternal::GetTraceTime());
+ });
+ }
+
+ // Determines if the given dynamic category is enabled, first by checking the
+ // per-trace writer cache or by falling back to computing it based on the
+ // trace config for the given session.
+ static bool IsDynamicCategoryEnabled(
+ typename Base::TraceContext* ctx,
+ const DynamicCategory& dynamic_category) {
+ auto incr_state = ctx->GetIncrementalState();
+ auto it = incr_state->dynamic_categories.find(dynamic_category.name);
+ if (it == incr_state->dynamic_categories.end()) {
+ // We haven't seen this category before. Let's figure out if it's enabled.
+ // This requires grabbing a lock to read the session's trace config.
+ auto ds = ctx->GetDataSourceLocked();
+ if (!ds) {
+ return false;
+ }
+ Category category{Category::FromDynamicCategory(dynamic_category)};
+ bool enabled = TrackEventInternal::IsCategoryEnabled(
+ *Registry, ds->config_, category);
+ // TODO(skyostil): Cap the size of |dynamic_categories|.
+ incr_state->dynamic_categories[dynamic_category.name] = enabled;
+ return enabled;
+ }
+ return it->second;
+ }
+
+ // Config for the current tracing session.
+ protos::gen::TrackEventConfig config_;
+};
+
+} // namespace internal
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_TRACING_INTERNAL_TRACK_EVENT_DATA_SOURCE_H_
+// gen_amalgamated begin header: include/perfetto/tracing/internal/track_event_macros.h
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_TRACING_INTERNAL_TRACK_EVENT_MACROS_H_
+#define INCLUDE_PERFETTO_TRACING_INTERNAL_TRACK_EVENT_MACROS_H_
+
+// This file contains underlying macros for the trace point track event
+// implementation. Perfetto API users typically don't need to use anything here
+// directly.
+
+// gen_amalgamated expanded: #include "perfetto/base/compiler.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/internal/track_event_data_source.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/string_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/track_event_category_registry.h"
+
+// Ignore GCC warning about a missing argument for a variadic macro parameter.
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC system_header
+#endif
+
+// Defines data structures for backing a category registry.
+//
+// Each category has one enabled/disabled bit per possible data source instance.
+// The bits are packed, i.e., each byte holds the state for instances. To
+// improve cache locality, the bits for each instance are stored separately from
+// the names of the categories:
+//
+// byte 0 byte 1
+// (inst0, inst1, ..., inst7), (inst0, inst1, ..., inst7)
+//
+#define PERFETTO_INTERNAL_DECLARE_CATEGORIES(attrs, ...) \
+ namespace internal { \
+ constexpr ::perfetto::Category kCategories[] = {__VA_ARGS__}; \
+ constexpr size_t kCategoryCount = \
+ sizeof(kCategories) / sizeof(kCategories[0]); \
+ /* The per-instance enable/disable state per category */ \
+ attrs extern std::atomic<uint8_t> g_category_state_storage[kCategoryCount]; \
+ /* The category registry which mediates access to the above structures. */ \
+ /* The registry is used for two purposes: */ \
+ /**/ \
+ /* 1) For looking up categories at build (constexpr) time. */ \
+ /* 2) For declaring the per-namespace TrackEvent data source. */ \
+ /**/ \
+ /* Because usage #1 requires a constexpr type and usage #2 requires an */ \
+ /* extern type (to avoid declaring a type based on a translation-unit */ \
+ /* variable), we need two separate copies of the registry with different */ \
+ /* storage specifiers. */ \
+ /**/ \
+ /* Note that because of a Clang/Windows bug, the constexpr category */ \
+ /* registry isn't given the enabled/disabled state array. All access */ \
+ /* to the category states should therefore be done through the */ \
+ /* non-constexpr registry. See */ \
+ /* https://bugs.llvm.org/show_bug.cgi?id=51558 */ \
+ /**/ \
+ /* TODO(skyostil): Unify these using a C++17 inline constexpr variable. */ \
+ constexpr ::perfetto::internal::TrackEventCategoryRegistry \
+ kConstExprCategoryRegistry(kCategoryCount, &kCategories[0], nullptr); \
+ attrs extern const ::perfetto::internal::TrackEventCategoryRegistry \
+ kCategoryRegistry; \
+ static_assert(kConstExprCategoryRegistry.ValidateCategories(), \
+ "Invalid category names found"); \
+ } // namespace internal
+
+// In a .cc file, declares storage for each category's runtime state.
+#define PERFETTO_INTERNAL_CATEGORY_STORAGE(attrs) \
+ namespace internal { \
+ attrs std::atomic<uint8_t> g_category_state_storage[kCategoryCount]; \
+ attrs const ::perfetto::internal::TrackEventCategoryRegistry \
+ kCategoryRegistry(kCategoryCount, \
+ &kCategories[0], \
+ &g_category_state_storage[0]); \
+ } // namespace internal
+
+// Defines the TrackEvent data source for the current track event namespace.
+// `virtual ~TrackEvent` is added to avoid `-Wweak-vtables` warning.
+// Learn more : aosp/2019906
+#define PERFETTO_INTERNAL_DECLARE_TRACK_EVENT_DATA_SOURCE(attrs) \
+ struct attrs TrackEvent : public ::perfetto::internal::TrackEventDataSource< \
+ TrackEvent, &internal::kCategoryRegistry> { \
+ virtual ~TrackEvent(); \
+ }
+
+#define PERFETTO_INTERNAL_DEFINE_TRACK_EVENT_DATA_SOURCE() \
+ TrackEvent::~TrackEvent() = default;
+
+// At compile time, turns a category name represented by a static string into an
+// index into the current category registry. A build error will be generated if
+// the category hasn't been registered or added to the list of allowed dynamic
+// categories. See PERFETTO_DEFINE_CATEGORIES.
+#define PERFETTO_GET_CATEGORY_INDEX(category) \
+ PERFETTO_TRACK_EVENT_NAMESPACE::internal::kConstExprCategoryRegistry.Find( \
+ category, \
+ ::PERFETTO_TRACK_EVENT_NAMESPACE::internal::IsDynamicCategory(category))
+
+// Generate a unique variable name with a given prefix.
+#define PERFETTO_INTERNAL_CONCAT2(a, b) a##b
+#define PERFETTO_INTERNAL_CONCAT(a, b) PERFETTO_INTERNAL_CONCAT2(a, b)
+#define PERFETTO_UID(prefix) PERFETTO_INTERNAL_CONCAT(prefix, __LINE__)
+
+// Efficiently determines whether tracing is enabled for the given category, and
+// if so, emits one trace event with the given arguments.
+#define PERFETTO_INTERNAL_TRACK_EVENT_WITH_METHOD(method, category, name, ...) \
+ do { \
+ ::perfetto::internal::ValidateEventNameType<decltype(name)>(); \
+ namespace tns = PERFETTO_TRACK_EVENT_NAMESPACE; \
+ /* Compute the category index outside the lambda to work around a */ \
+ /* GCC 7 bug */ \
+ constexpr auto PERFETTO_UID( \
+ kCatIndex_ADD_TO_PERFETTO_DEFINE_CATEGORIES_IF_FAILS_) = \
+ PERFETTO_GET_CATEGORY_INDEX(category); \
+ if (::PERFETTO_TRACK_EVENT_NAMESPACE::internal::IsDynamicCategory( \
+ category)) { \
+ tns::TrackEvent::CallIfEnabled( \
+ [&](uint32_t instances) PERFETTO_NO_THREAD_SAFETY_ANALYSIS { \
+ tns::TrackEvent::method(instances, category, name, ##__VA_ARGS__); \
+ }); \
+ } else { \
+ tns::TrackEvent::CallIfCategoryEnabled( \
+ PERFETTO_UID(kCatIndex_ADD_TO_PERFETTO_DEFINE_CATEGORIES_IF_FAILS_), \
+ [&](uint32_t instances) PERFETTO_NO_THREAD_SAFETY_ANALYSIS { \
+ tns::TrackEvent::method( \
+ instances, \
+ PERFETTO_UID( \
+ kCatIndex_ADD_TO_PERFETTO_DEFINE_CATEGORIES_IF_FAILS_), \
+ name, ##__VA_ARGS__); \
+ }); \
+ } \
+ } while (false)
+
+// This internal macro is unused from the repo now, but some improper usage
+// remain outside of the repo.
+// TODO(b/294800182): Remove this.
+#define PERFETTO_INTERNAL_TRACK_EVENT(...) \
+ PERFETTO_INTERNAL_TRACK_EVENT_WITH_METHOD(TraceForCategory, ##__VA_ARGS__)
+
+// C++17 doesn't like a move constructor being defined for the EventFinalizer
+// class but C++11 and MSVC doesn't compile without it being defined so support
+// both.
+#if !PERFETTO_BUILDFLAG(PERFETTO_COMPILER_MSVC)
+#define PERFETTO_INTERNAL_EVENT_FINALIZER_KEYWORD delete
+#else
+#define PERFETTO_INTERNAL_EVENT_FINALIZER_KEYWORD default
+#endif
+
+#define PERFETTO_INTERNAL_SCOPED_EVENT_FINALIZER(category) \
+ struct PERFETTO_UID(ScopedEvent) { \
+ struct EventFinalizer { \
+ /* The parameter is an implementation detail. It allows the */ \
+ /* anonymous struct to use aggregate initialization to invoke the */ \
+ /* lambda (which emits the BEGIN event and returns an integer) */ \
+ /* with the proper reference capture for any */ \
+ /* TrackEventArgumentFunction in |__VA_ARGS__|. This is required so */ \
+ /* that the scoped event is exactly ONE line and can't escape the */ \
+ /* scope if used in a single line if statement. */ \
+ EventFinalizer(...) {} \
+ ~EventFinalizer() { TRACE_EVENT_END(category); } \
+ \
+ EventFinalizer(const EventFinalizer&) = delete; \
+ inline EventFinalizer& operator=(const EventFinalizer&) = delete; \
+ \
+ EventFinalizer(EventFinalizer&&) = \
+ PERFETTO_INTERNAL_EVENT_FINALIZER_KEYWORD; \
+ EventFinalizer& operator=(EventFinalizer&&) = delete; \
+ } finalizer; \
+ }
+
+#define PERFETTO_INTERNAL_SCOPED_TRACK_EVENT(category, name, ...) \
+ PERFETTO_INTERNAL_SCOPED_EVENT_FINALIZER(category) \
+ PERFETTO_UID(scoped_event) { \
+ [&]() { \
+ TRACE_EVENT_BEGIN(category, name, ##__VA_ARGS__); \
+ return 0; \
+ }() \
+ }
+
+#if PERFETTO_ENABLE_LEGACY_TRACE_EVENTS
+// Required for TRACE_EVENT_WITH_FLOW legacy macros, which pass the bind_id as
+// id.
+#define PERFETTO_INTERNAL_SCOPED_LEGACY_TRACK_EVENT_WITH_ID( \
+ category, name, track, flags, thread_id, id, ...) \
+ PERFETTO_INTERNAL_SCOPED_EVENT_FINALIZER(category) \
+ PERFETTO_UID(scoped_event) { \
+ [&]() { \
+ PERFETTO_INTERNAL_TRACK_EVENT_WITH_METHOD( \
+ TraceForCategoryLegacyWithId, category, name, \
+ ::perfetto::protos::pbzero::TrackEvent::TYPE_SLICE_BEGIN, track, \
+ 'B', flags, thread_id, id, ##__VA_ARGS__); \
+ return 0; \
+ }() \
+ }
+#endif // PERFETTO_ENABLE_LEGACY_TRACE_EVENTS
+
+#if PERFETTO_BUILDFLAG(PERFETTO_COMPILER_GCC) || \
+ PERFETTO_BUILDFLAG(PERFETTO_COMPILER_MSVC)
+// On GCC versions <9 there's a bug that prevents using captured constant
+// variables in constexpr evaluation inside a lambda:
+// https://gcc.gnu.org/bugzilla/show_bug.cgi?id=82643
+// TODO(khokhlov): Remove this fallback after Perfetto moves to a more recent
+// GCC version.
+#define PERFETTO_INTERNAL_CATEGORY_ENABLED(category) \
+ (::PERFETTO_TRACK_EVENT_NAMESPACE::internal::IsDynamicCategory(category) \
+ ? PERFETTO_TRACK_EVENT_NAMESPACE::TrackEvent::IsDynamicCategoryEnabled( \
+ ::perfetto::DynamicCategory(category)) \
+ : PERFETTO_TRACK_EVENT_NAMESPACE::TrackEvent::IsCategoryEnabled( \
+ PERFETTO_GET_CATEGORY_INDEX(category)))
+#else // !PERFETTO_BUILDFLAG(PERFETTO_COMPILER_GCC)
+#define PERFETTO_INTERNAL_CATEGORY_ENABLED(category) \
+ [&]() -> bool { \
+ using PERFETTO_TRACK_EVENT_NAMESPACE::TrackEvent; \
+ using ::PERFETTO_TRACK_EVENT_NAMESPACE::internal::IsDynamicCategory; \
+ constexpr auto PERFETTO_UID(index) = \
+ PERFETTO_GET_CATEGORY_INDEX(category); \
+ constexpr auto PERFETTO_UID(dynamic) = IsDynamicCategory(category); \
+ return PERFETTO_UID(dynamic) \
+ ? TrackEvent::IsDynamicCategoryEnabled( \
+ ::perfetto::DynamicCategory(category)) \
+ : TrackEvent::IsCategoryEnabled(PERFETTO_UID(index)); \
+ }()
+#endif // !PERFETTO_BUILDFLAG(PERFETTO_COMPILER_GCC)
+
+// Emits an empty trace packet into the trace to ensure that the service can
+// safely read the last event from the trace buffer. This can be used to
+// periodically "flush" the last event on threads that don't support explicit
+// flushing of the shared memory buffer chunk when the tracing session stops
+// (e.g. thread pool workers in Chromium).
+//
+// This workaround is only required because the tracing service cannot safely
+// read the last trace packet from an incomplete SMB chunk (crbug.com/1021571
+// and b/162206162) when scraping the SMB. Adding an empty trace packet ensures
+// that all prior events can be scraped by the service.
+#define PERFETTO_INTERNAL_ADD_EMPTY_EVENT() \
+ do { \
+ PERFETTO_TRACK_EVENT_NAMESPACE::TrackEvent::Trace( \
+ [](PERFETTO_TRACK_EVENT_NAMESPACE::TrackEvent::TraceContext ctx) { \
+ ctx.AddEmptyTracePacket(); \
+ }); \
+ } while (false)
+
+#endif // INCLUDE_PERFETTO_TRACING_INTERNAL_TRACK_EVENT_MACROS_H_
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_TRACING_TRACK_EVENT_H_
+#define INCLUDE_PERFETTO_TRACING_TRACK_EVENT_H_
+
+// gen_amalgamated expanded: #include "perfetto/tracing/internal/track_event_data_source.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/internal/track_event_internal.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/internal/track_event_macros.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/string_helpers.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/track.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/track_event_category_registry.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/track_event.pbzero.h"
+
+#include <type_traits>
+
+// This file contains a set of macros designed for instrumenting applications
+// with track event trace points. While the underlying TrackEvent API can also
+// be used directly, doing so efficiently requires some care (e.g., to avoid
+// evaluating arguments while tracing is disabled). These types of optimizations
+// are abstracted away by the macros below.
+//
+// ================
+// Quickstart guide
+// ================
+//
+// To add track events to your application, first define your categories in,
+// e.g., my_tracing.h:
+//
+// PERFETTO_DEFINE_CATEGORIES(
+// perfetto::Category("base"),
+// perfetto::Category("v8"),
+// perfetto::Category("cc"));
+//
+// Then in a single .cc file, e.g., my_tracing.cc:
+//
+// #include "my_tracing.h"
+// PERFETTO_TRACK_EVENT_STATIC_STORAGE();
+//
+// Finally, register track events at startup, after which you can record
+// events with the TRACE_EVENT macros:
+//
+// #include "my_tracing.h"
+//
+// int main() {
+// perfetto::TrackEvent::Register();
+//
+// // A basic track event with just a name.
+// TRACE_EVENT("category", "MyEvent");
+//
+// // A track event with (up to two) debug annotations.
+// TRACE_EVENT("category", "MyEvent", "parameter", 42);
+//
+// // A track event with a strongly typed parameter.
+// TRACE_EVENT("category", "MyEvent", [](perfetto::EventContext ctx) {
+// ctx.event()->set_foo(42);
+// ctx.event()->set_bar(.5f);
+// });
+// }
+//
+// Note that track events must be nested consistently, i.e., the following is
+// not allowed:
+//
+// TRACE_EVENT_BEGIN("a", "bar", ...);
+// TRACE_EVENT_BEGIN("b", "foo", ...);
+// TRACE_EVENT_END("a"); // "foo" must be closed before "bar".
+// TRACE_EVENT_END("b");
+//
+// ====================
+// Implementation notes
+// ====================
+//
+// The track event library consists of the following layers and components. The
+// classes the internal namespace shouldn't be considered part of the public
+// API.
+// .--------------------------------.
+// .----| TRACE_EVENT |----.
+// write | | - App instrumentation point | | write
+// event | '--------------------------------' | arguments
+// V V
+// .----------------------------------. .-----------------------------.
+// | TrackEvent | | EventContext |
+// | - Registry of event categories | | - One track event instance |
+// '----------------------------------' '-----------------------------'
+// | |
+// | | look up
+// | is | interning ids
+// V V
+// .----------------------------------. .-----------------------------.
+// | internal::TrackEventDataSource | | TrackEventInternedDataIndex |
+// | - Perfetto data source | | - Corresponds to a field in |
+// | - Has TrackEventIncrementalState | | in interned_data.proto |
+// '----------------------------------' '-----------------------------'
+// | | ^
+// | | owns (1:many) |
+// | write event '-------------------------'
+// V
+// .----------------------------------.
+// | internal::TrackEventInternal |
+// | - Outlined code to serialize |
+// | one track event |
+// '----------------------------------'
+//
+
+// DEPRECATED: Please use PERFETTO_DEFINE_CATEGORIES_IN_NAMESPACE to implement
+// multiple track event category sets in one program.
+//
+// Each compilation unit can be in exactly one track event namespace,
+// allowing the overall program to use multiple track event data sources and
+// category lists if necessary. Use this macro to select the namespace for the
+// current compilation unit.
+//
+// If the program uses multiple track event namespaces, category & track event
+// registration (see quickstart above) needs to happen for both namespaces
+// separately.
+
+#ifndef PERFETTO_TRACK_EVENT_NAMESPACE
+#define PERFETTO_TRACK_EVENT_NAMESPACE perfetto_track_event
+#endif
+
+// Deprecated; see perfetto::Category().
+#define PERFETTO_CATEGORY(name) \
+ ::perfetto::Category { #name }
+
+// Internal helpers for determining if a given category is defined at build or
+// runtime.
+namespace PERFETTO_TRACK_EVENT_NAMESPACE {
+namespace internal {
+
+// By default no statically defined categories are dynamic, but this can be
+// overridden with PERFETTO_DEFINE_TEST_CATEGORY_PREFIXES.
+template <typename... T>
+constexpr bool IsDynamicCategory(const char*) {
+ return false;
+}
+
+// Explicitly dynamic categories are always dynamic.
+constexpr bool IsDynamicCategory(const ::perfetto::DynamicCategory&) {
+ return true;
+}
+
+} // namespace internal
+} // namespace PERFETTO_TRACK_EVENT_NAMESPACE
+
+// Normally all categories are defined statically at build-time (see
+// PERFETTO_DEFINE_CATEGORIES). However, some categories are only used for
+// testing, and we shouldn't publish them to the tracing service or include them
+// in a production binary. Use this macro to define a list of prefixes for these
+// types of categories. Note that trace points using these categories will be
+// slightly less efficient compared to regular trace points.
+#define PERFETTO_DEFINE_TEST_CATEGORY_PREFIXES(...) \
+ namespace PERFETTO_TRACK_EVENT_NAMESPACE { \
+ namespace internal { \
+ template <> \
+ constexpr bool IsDynamicCategory(const char* name) { \
+ return ::perfetto::internal::IsStringInPrefixList(name, __VA_ARGS__); \
+ } \
+ } /* namespace internal */ \
+ } /* namespace PERFETTO_TRACK_EVENT_NAMESPACE */ \
+ PERFETTO_INTERNAL_SWALLOW_SEMICOLON()
+
+// Register the set of available categories by passing a list of categories to
+// this macro: perfetto::Category("cat1"), perfetto::Category("cat2"), ...
+// `ns` is the name of the namespace in which the categories should be declared.
+// `attrs` are linkage attributes for the underlying data source. See
+// PERFETTO_DECLARE_DATA_SOURCE_STATIC_MEMBERS_WITH_ATTRS.
+//
+// Implementation note: the extra namespace (PERFETTO_TRACK_EVENT_NAMESPACE) is
+// kept here only for backward compatibility.
+#define PERFETTO_DEFINE_CATEGORIES_IN_NAMESPACE_WITH_ATTRS(ns, attrs, ...) \
+ namespace ns { \
+ namespace PERFETTO_TRACK_EVENT_NAMESPACE { \
+ /* The list of category names */ \
+ PERFETTO_INTERNAL_DECLARE_CATEGORIES(attrs, __VA_ARGS__) \
+ /* The track event data source for this set of categories */ \
+ PERFETTO_INTERNAL_DECLARE_TRACK_EVENT_DATA_SOURCE(attrs); \
+ } /* namespace PERFETTO_TRACK_EVENT_NAMESPACE */ \
+ using PERFETTO_TRACK_EVENT_NAMESPACE::TrackEvent; \
+ } /* namespace ns */ \
+ PERFETTO_DECLARE_DATA_SOURCE_STATIC_MEMBERS_WITH_ATTRS( \
+ attrs, ns::PERFETTO_TRACK_EVENT_NAMESPACE::TrackEvent, \
+ ::perfetto::internal::TrackEventDataSourceTraits)
+
+// Register the set of available categories by passing a list of categories to
+// this macro: perfetto::Category("cat1"), perfetto::Category("cat2"), ...
+// `ns` is the name of the namespace in which the categories should be declared.
+#define PERFETTO_DEFINE_CATEGORIES_IN_NAMESPACE(ns, ...) \
+ PERFETTO_DEFINE_CATEGORIES_IN_NAMESPACE_WITH_ATTRS( \
+ ns, PERFETTO_COMPONENT_EXPORT, __VA_ARGS__)
+
+// Make categories in a given namespace the default ones used by track events
+// for the current translation unit. Can only be used *once* in a given global
+// or namespace scope.
+#define PERFETTO_USE_CATEGORIES_FROM_NAMESPACE(ns) \
+ namespace PERFETTO_TRACK_EVENT_NAMESPACE { \
+ using ::ns::PERFETTO_TRACK_EVENT_NAMESPACE::TrackEvent; \
+ namespace internal { \
+ using ::ns::PERFETTO_TRACK_EVENT_NAMESPACE::internal::kCategoryRegistry; \
+ using ::ns::PERFETTO_TRACK_EVENT_NAMESPACE::internal:: \
+ kConstExprCategoryRegistry; \
+ } /* namespace internal */ \
+ } /* namespace PERFETTO_TRACK_EVENT_NAMESPACE */ \
+ PERFETTO_INTERNAL_SWALLOW_SEMICOLON()
+
+// Make categories in a given namespace the default ones used by track events
+// for the current block scope. Can only be used in a function or block scope.
+#define PERFETTO_USE_CATEGORIES_FROM_NAMESPACE_SCOPED(ns) \
+ namespace PERFETTO_TRACK_EVENT_NAMESPACE = ns::PERFETTO_TRACK_EVENT_NAMESPACE
+
+// Register categories in the default (global) namespace. Warning: only one set
+// of global categories can be defined in a single program. Create namespaced
+// categories with PERFETTO_DEFINE_CATEGORIES_IN_NAMESPACE to work around this
+// limitation.
+#define PERFETTO_DEFINE_CATEGORIES(...) \
+ PERFETTO_DEFINE_CATEGORIES_IN_NAMESPACE(perfetto, __VA_ARGS__); \
+ PERFETTO_USE_CATEGORIES_FROM_NAMESPACE(perfetto)
+
+// Allocate storage for each category by using this macro once per track event
+// namespace. `ns` is the name of the namespace in which the categories should
+// be declared and `attrs` specify linkage attributes for the data source.
+#define PERFETTO_TRACK_EVENT_STATIC_STORAGE_IN_NAMESPACE_WITH_ATTRS(ns, attrs) \
+ namespace ns { \
+ namespace PERFETTO_TRACK_EVENT_NAMESPACE { \
+ PERFETTO_INTERNAL_CATEGORY_STORAGE(attrs) \
+ PERFETTO_INTERNAL_DEFINE_TRACK_EVENT_DATA_SOURCE() \
+ } /* namespace PERFETTO_TRACK_EVENT_NAMESPACE */ \
+ } /* namespace ns */ \
+ PERFETTO_DEFINE_DATA_SOURCE_STATIC_MEMBERS_WITH_ATTRS( \
+ attrs, ns::PERFETTO_TRACK_EVENT_NAMESPACE::TrackEvent, \
+ ::perfetto::internal::TrackEventDataSourceTraits)
+
+// Allocate storage for each category by using this macro once per track event
+// namespace.
+#define PERFETTO_TRACK_EVENT_STATIC_STORAGE_IN_NAMESPACE(ns) \
+ PERFETTO_TRACK_EVENT_STATIC_STORAGE_IN_NAMESPACE_WITH_ATTRS( \
+ ns, PERFETTO_COMPONENT_EXPORT)
+
+// Allocate storage for each category by using this macro once per track event
+// namespace.
+#define PERFETTO_TRACK_EVENT_STATIC_STORAGE() \
+ PERFETTO_TRACK_EVENT_STATIC_STORAGE_IN_NAMESPACE(perfetto)
+
+// Ignore GCC warning about a missing argument for a variadic macro parameter.
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC system_header
+#endif
+
+// Begin a slice under |category| with the title |name|. Both strings must be
+// static constants. The track event is only recorded if |category| is enabled
+// for a tracing session.
+//
+// The slice is thread-scoped (i.e., written to the default track of the current
+// thread) unless overridden with a custom track object (see Track).
+//
+// |name| must be a string with static lifetime (i.e., the same
+// address must not be used for a different event name in the future). If you
+// want to use a dynamically allocated name, do this:
+//
+// TRACE_EVENT("category", nullptr, [&](perfetto::EventContext ctx) {
+// ctx.event()->set_name(dynamic_name);
+// });
+//
+// The following optional arguments can be passed to `TRACE_EVENT` to add extra
+// information to events:
+//
+// TRACE_EVENT("cat", "name"[, track][, timestamp]
+// [, "debug_name1", debug_value1]
+// [, "debug_name2", debug_value2]
+// ...
+// [, "debug_nameN", debug_valueN]
+// [, lambda]);
+//
+// Some examples of valid combinations:
+//
+// 1. A lambda for writing custom TrackEvent fields:
+//
+// TRACE_EVENT("category", "Name", [&](perfetto::EventContext ctx) {
+// ctx.event()->set_custom_value(...);
+// });
+//
+// 2. A timestamp and a lambda:
+//
+// TRACE_EVENT("category", "Name", time_in_nanoseconds,
+// [&](perfetto::EventContext ctx) {
+// ctx.event()->set_custom_value(...);
+// });
+//
+// |time_in_nanoseconds| should be an uint64_t by default. To support custom
+// timestamp types,
+// |perfetto::TraceTimestampTraits<T>::ConvertTimestampToTraceTimeNs|
+// should be defined. See |ConvertTimestampToTraceTimeNs| for more details.
+//
+// 3. Arbitrary number of debug annotations:
+//
+// TRACE_EVENT("category", "Name", "arg", value);
+// TRACE_EVENT("category", "Name", "arg", value, "arg2", value2);
+// TRACE_EVENT("category", "Name", "arg", value, "arg2", value2,
+// "arg3", value3);
+//
+// See |TracedValue| for recording custom types as debug annotations.
+//
+// 4. Arbitrary number of debug annotations and a lambda:
+//
+// TRACE_EVENT("category", "Name", "arg", value,
+// [&](perfetto::EventContext ctx) {
+// ctx.event()->set_custom_value(...);
+// });
+//
+// 5. An overridden track:
+//
+// TRACE_EVENT("category", "Name", perfetto::Track(1234));
+//
+// See |Track| for other types of tracks which may be used.
+//
+// 6. A track and a lambda:
+//
+// TRACE_EVENT("category", "Name", perfetto::Track(1234),
+// [&](perfetto::EventContext ctx) {
+// ctx.event()->set_custom_value(...);
+// });
+//
+// 7. A track and a timestamp:
+//
+// TRACE_EVENT("category", "Name", perfetto::Track(1234),
+// time_in_nanoseconds);
+//
+// 8. A track, a timestamp and a lambda:
+//
+// TRACE_EVENT("category", "Name", perfetto::Track(1234),
+// time_in_nanoseconds, [&](perfetto::EventContext ctx) {
+// ctx.event()->set_custom_value(...);
+// });
+//
+// 9. A track and an arbitrary number of debug annotions:
+//
+// TRACE_EVENT("category", "Name", perfetto::Track(1234),
+// "arg", value);
+// TRACE_EVENT("category", "Name", perfetto::Track(1234),
+// "arg", value, "arg2", value2);
+//
+#define TRACE_EVENT_BEGIN(category, name, ...) \
+ PERFETTO_INTERNAL_TRACK_EVENT_WITH_METHOD( \
+ TraceForCategory, category, \
+ ::perfetto::internal::DecayEventNameType(name), \
+ ::perfetto::protos::pbzero::TrackEvent::TYPE_SLICE_BEGIN, ##__VA_ARGS__)
+
+// End a slice under |category|.
+#define TRACE_EVENT_END(category, ...) \
+ PERFETTO_INTERNAL_TRACK_EVENT_WITH_METHOD( \
+ TraceForCategory, category, /*name=*/nullptr, \
+ ::perfetto::protos::pbzero::TrackEvent::TYPE_SLICE_END, ##__VA_ARGS__)
+
+// Begin a slice which gets automatically closed when going out of scope.
+#define TRACE_EVENT(category, name, ...) \
+ PERFETTO_INTERNAL_SCOPED_TRACK_EVENT( \
+ category, ::perfetto::internal::DecayEventNameType(name), ##__VA_ARGS__)
+
+// Emit a slice which has zero duration.
+#define TRACE_EVENT_INSTANT(category, name, ...) \
+ PERFETTO_INTERNAL_TRACK_EVENT_WITH_METHOD( \
+ TraceForCategory, category, \
+ ::perfetto::internal::DecayEventNameType(name), \
+ ::perfetto::protos::pbzero::TrackEvent::TYPE_INSTANT, ##__VA_ARGS__)
+
+// Efficiently determine if the given static or dynamic trace category or
+// category group is enabled for tracing.
+#define TRACE_EVENT_CATEGORY_ENABLED(category) \
+ PERFETTO_INTERNAL_CATEGORY_ENABLED(category)
+
+// Time-varying numeric data can be recorded with the TRACE_COUNTER macro:
+//
+// TRACE_COUNTER("cat", counter_track[, timestamp], value);
+//
+// For example, to record a single value for a counter called "MyCounter":
+//
+// TRACE_COUNTER("category", "MyCounter", 1234.5);
+//
+// This data is displayed as a counter track in the Perfetto UI.
+//
+// Both integer and floating point counter values are supported. Counters can
+// also be annotated with additional information such as units, for example, for
+// tracking the rendering framerate in terms of frames per second or "fps":
+//
+// TRACE_COUNTER("category", perfetto::CounterTrack("Framerate", "fps"), 120);
+//
+// As another example, a memory counter that records bytes but accepts samples
+// as kilobytes (to reduce trace binary size) can be defined like this:
+//
+// perfetto::CounterTrack memory_track = perfetto::CounterTrack("Memory")
+// .set_unit("bytes")
+// .set_multiplier(1024);
+// TRACE_COUNTER("category", memory_track, 4 /* = 4096 bytes */);
+//
+// See /protos/perfetto/trace/track_event/counter_descriptor.proto
+// for the full set of attributes for a counter track.
+//
+// To record a counter value at a specific point in time (instead of the current
+// time), you can pass in a custom timestamp:
+//
+// // First record the current time and counter value.
+// uint64_t timestamp = perfetto::TrackEvent::GetTraceTimeNs();
+// int64_t value = 1234;
+//
+// // Later, emit a sample at that point in time.
+// TRACE_COUNTER("category", "MyCounter", timestamp, value);
+//
+#define TRACE_COUNTER(category, track, ...) \
+ PERFETTO_INTERNAL_TRACK_EVENT_WITH_METHOD( \
+ TraceForCategory, category, /*name=*/nullptr, \
+ ::perfetto::protos::pbzero::TrackEvent::TYPE_COUNTER, \
+ ::perfetto::CounterTrack(track), ##__VA_ARGS__)
+
+// TODO(skyostil): Add flow events.
+
+#endif // INCLUDE_PERFETTO_TRACING_TRACK_EVENT_H_
+// gen_amalgamated begin header: include/perfetto/tracing/track_event_interned_data_index.h
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_TRACING_TRACK_EVENT_INTERNED_DATA_INDEX_H_
+#define INCLUDE_PERFETTO_TRACING_TRACK_EVENT_INTERNED_DATA_INDEX_H_
+
+// gen_amalgamated expanded: #include "perfetto/tracing/internal/track_event_internal.h"
+
+// gen_amalgamated expanded: #include "perfetto/base/compiler.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/event_context.h"
+
+#include <map>
+#include <type_traits>
+#include <unordered_map>
+
+// This file has templates for defining your own interned data types to be used
+// with track event. Interned data can be useful for avoiding repeating the same
+// constant data (e.g., strings) throughout the trace.
+//
+// =============
+// Example usage
+// =============
+//
+// First define an interning index for your type. It should map to a specific
+// field of interned_data.proto and define how the interned data is written into
+// that message.
+//
+// struct MyInternedData
+// : public perfetto::TrackEventInternedDataIndex<
+// MyInternedData,
+// perfetto::protos::pbzero::InternedData::kMyInternedDataFieldNumber,
+// const char*> {
+// static void Add(perfetto::protos::pbzero::InternedData* interned_data,
+// size_t iid,
+// const char* value) {
+// auto my_data = interned_data->add_my_interned_data();
+// my_data->set_iid(iid);
+// my_data->set_value(value);
+// }
+// };
+//
+// Next, use your interned data in a trace point as shown below. The interned
+// string will only be emitted the first time the trace point is hit.
+//
+// TRACE_EVENT_BEGIN(
+// "category", "Event", [&](perfetto::EventContext ctx) {
+// auto my_message = ctx.event()->set_my_message();
+// size_t iid = MyInternedData::Get(&ctx, "Some data");
+// my_message->set_iid(iid);
+// });
+//
+
+namespace perfetto {
+
+// By default, the interning index stores a full copy of the interned data. This
+// ensures the same data is always mapped to the same interning id, and there is
+// no danger of collisions. This comes at the cost of memory usage, however, so
+// consider using HashedInternedDataTraits if that may be an issue.
+//
+// This type of index also performs hashing on the stored data for lookups; for
+// types where this isn't necessary (e.g., raw const char*), use
+// SmallInternedDataTraits.
+struct BigInternedDataTraits {
+ template <typename ValueType>
+ class Index {
+ public:
+ bool LookUpOrInsert(size_t* iid, const ValueType& value) {
+ size_t next_id = data_.size() + 1;
+ auto it_and_inserted = data_.insert(std::make_pair(value, next_id));
+ if (!it_and_inserted.second) {
+ *iid = it_and_inserted.first->second;
+ return true;
+ }
+ *iid = next_id;
+ return false;
+ }
+
+ private:
+ std::unordered_map<ValueType, size_t> data_;
+ };
+};
+
+// This type of interning index keeps full copies of interned data without
+// hashing the values. This is a good fit for small types that can be directly
+// used as index keys.
+struct SmallInternedDataTraits {
+ template <typename ValueType>
+ class Index {
+ public:
+ bool LookUpOrInsert(size_t* iid, const ValueType& value) {
+ size_t next_id = data_.size() + 1;
+ auto it_and_inserted = data_.insert(std::make_pair(value, next_id));
+ if (!it_and_inserted.second) {
+ *iid = it_and_inserted.first->second;
+ return true;
+ }
+ *iid = next_id;
+ return false;
+ }
+
+ private:
+ std::map<ValueType, size_t> data_;
+ };
+};
+
+// This type of interning index only stores the hash of the interned values
+// instead of the values themselves. This is more efficient in terms of memory
+// usage, but assumes that there are no hash collisions. If a hash collision
+// occurs, two or more values will be mapped to the same interning id.
+//
+// Note that the given type must have a specialization for std::hash.
+struct HashedInternedDataTraits {
+ template <typename ValueType>
+ class Index {
+ public:
+ bool LookUpOrInsert(size_t* iid, const ValueType& value) {
+ auto key = std::hash<ValueType>()(value);
+ size_t next_id = data_.size() + 1;
+ auto it_and_inserted = data_.insert(std::make_pair(key, next_id));
+ if (!it_and_inserted.second) {
+ *iid = it_and_inserted.first->second;
+ return true;
+ }
+ *iid = next_id;
+ return false;
+ }
+
+ private:
+ std::map<size_t, size_t> data_;
+ };
+};
+
+// A templated base class for an interned data type which corresponds to a field
+// in interned_data.proto.
+//
+// |InternedDataType| must be the type of the subclass.
+// |FieldNumber| is the corresponding protobuf field in InternedData.
+// |ValueType| is the type which is stored in the index. It must be copyable.
+// |Traits| can be used to customize the storage and lookup mechanism.
+//
+// The subclass should define a static method with the following signature for
+// committing interned data together with the interning id |iid| into the trace:
+//
+// static void Add(perfetto::protos::pbzero::InternedData*,
+// size_t iid,
+// const ValueType& value);
+//
+template <typename InternedDataType,
+ size_t FieldNumber,
+ typename ValueType,
+ // Avoid unnecessary hashing for pointers by default.
+ typename Traits =
+ typename std::conditional<(std::is_pointer<ValueType>::value),
+ SmallInternedDataTraits,
+ BigInternedDataTraits>::type>
+class TrackEventInternedDataIndex
+ : public internal::BaseTrackEventInternedDataIndex {
+ public:
+ // Return an interning id for |value|. The returned id can be immediately
+ // written to the trace. The optional |add_args| are passed to the Add()
+ // function.
+ template <typename... Args>
+ static size_t Get(EventContext* ctx,
+ const ValueType& value,
+ Args&&... add_args) {
+ return Get(ctx->incremental_state_, value, std::forward<Args>(add_args)...);
+ }
+
+ template <typename... Args>
+ static size_t Get(internal::TrackEventIncrementalState* incremental_state,
+ const ValueType& value,
+ Args&&... add_args) {
+ // First check if the value exists in the dictionary.
+ auto index_for_field = GetOrCreateIndexForField(incremental_state);
+ size_t iid;
+ if (PERFETTO_LIKELY(index_for_field->index_.LookUpOrInsert(&iid, value))) {
+ PERFETTO_DCHECK(iid);
+ return iid;
+ }
+
+ // If not, we need to serialize the definition of the interned value into
+ // the heap buffered message (which is committed to the trace when the
+ // packet ends).
+ PERFETTO_DCHECK(iid);
+ InternedDataType::Add(incremental_state->serialized_interned_data.get(),
+ iid, std::move(value),
+ std::forward<Args>(add_args)...);
+ return iid;
+ }
+
+ protected:
+ // Some use cases require a custom Get implemention, so they need access to
+ // GetOrCreateIndexForField + the returned index.
+ static InternedDataType* GetOrCreateIndexForField(
+ internal::TrackEventIncrementalState* incremental_state) {
+ // Fast path: look for matching field number.
+ for (const auto& entry : incremental_state->interned_data_indices) {
+ if (entry.first == FieldNumber) {
+#if PERFETTO_DCHECK_IS_ON()
+ if (strcmp(PERFETTO_DEBUG_FUNCTION_IDENTIFIER(),
+ entry.second->type_id_)) {
+ PERFETTO_FATAL(
+ "Interned data accessed under different types! Previous type: "
+ "%s. New type: %s.",
+ entry.second->type_id_, PERFETTO_DEBUG_FUNCTION_IDENTIFIER());
+ }
+ // If an interned data index is defined in an anonymous namespace, we
+ // can end up with multiple copies of it in the same program. Because
+ // they will all share a memory address through TLS, this can lead to
+ // subtle data corruption if all the copies aren't exactly identical.
+ // Try to detect this by checking if the Add() function address remains
+ // constant.
+ if (reinterpret_cast<void*>(&InternedDataType::Add) !=
+ entry.second->add_function_ptr_) {
+ PERFETTO_FATAL(
+ "Inconsistent interned data index. Maybe the index was defined "
+ "in an anonymous namespace in a header or copied to multiple "
+ "files? Duplicate index definitions can lead to memory "
+ "corruption! Type id: %s",
+ entry.second->type_id_);
+ }
+#endif // PERFETTO_DCHECK_IS_ON()
+ return reinterpret_cast<InternedDataType*>(entry.second.get());
+ }
+ }
+ // No match -- add a new entry for this field.
+ for (auto& entry : incremental_state->interned_data_indices) {
+ if (!entry.first) {
+ entry.first = FieldNumber;
+ entry.second.reset(new InternedDataType());
+#if PERFETTO_DCHECK_IS_ON()
+ entry.second->type_id_ = PERFETTO_DEBUG_FUNCTION_IDENTIFIER();
+ entry.second->add_function_ptr_ =
+ reinterpret_cast<void*>(&InternedDataType::Add);
+#endif // PERFETTO_DCHECK_IS_ON()
+ return reinterpret_cast<InternedDataType*>(entry.second.get());
+ }
+ }
+ // Out of space in the interned data index table.
+ PERFETTO_CHECK(false);
+ }
+
+ // The actual interning dictionary for this type of interned data. The actual
+ // container type is defined by |Traits|, hence the extra layer of template
+ // indirection here.
+ typename Traits::template Index<ValueType> index_;
+};
+
+} // namespace perfetto
+
+#endif // INCLUDE_PERFETTO_TRACING_TRACK_EVENT_INTERNED_DATA_INDEX_H_
+// gen_amalgamated begin header: include/perfetto/tracing/track_event_legacy.h
+/*
+ * Copyright (C) 2020 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_TRACING_TRACK_EVENT_LEGACY_H_
+#define INCLUDE_PERFETTO_TRACING_TRACK_EVENT_LEGACY_H_
+
+// This file defines a compatibility shim between legacy (Chrome, V8) trace
+// event macros and track events. To avoid accidentally introducing legacy
+// events in new code, the PERFETTO_ENABLE_LEGACY_TRACE_EVENTS macro must be set
+// to 1 activate the compatibility layer.
+
+// gen_amalgamated expanded: #include "perfetto/base/compiler.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/track_event.h"
+
+#include <stdint.h>
+
+#ifndef PERFETTO_ENABLE_LEGACY_TRACE_EVENTS
+#define PERFETTO_ENABLE_LEGACY_TRACE_EVENTS 0
+#endif
+
+// Ignore GCC warning about a missing argument for a variadic macro parameter.
+#if defined(__GNUC__) || defined(__clang__)
+#pragma GCC system_header
+#endif
+
+// ----------------------------------------------------------------------------
+// Internal legacy trace point implementation.
+// ----------------------------------------------------------------------------
+
+namespace perfetto {
+namespace legacy {
+
+// The following user-provided adaptors are used to serialize user-defined
+// thread id and time types into track events. For full compatibility, the user
+// should also define the following macros appropriately:
+//
+// #define TRACE_TIME_TICKS_NOW() ...
+// #define TRACE_TIME_NOW() ...
+
+// User-provided function to convert an abstract thread id into a thread track.
+template <typename T>
+ThreadTrack ConvertThreadId(const T&);
+
+// Built-in implementation for events referring to the current thread.
+template <>
+ThreadTrack PERFETTO_EXPORT_COMPONENT
+ConvertThreadId(const PerfettoLegacyCurrentThreadId&);
+
+} // namespace legacy
+} // namespace perfetto
+
+#if PERFETTO_ENABLE_LEGACY_TRACE_EVENTS
+
+// Implementations for the INTERNAL_* adapter macros used by the trace points
+// below.
+#define PERFETTO_INTERNAL_LEGACY_EVENT_ON_TRACK(phase, category, name, track, \
+ ...) \
+ PERFETTO_INTERNAL_TRACK_EVENT_WITH_METHOD( \
+ TraceForCategory, category, \
+ ::perfetto::internal::DecayEventNameType(name), \
+ ::perfetto::internal::TrackEventLegacy::PhaseToType(phase), track, \
+ ##__VA_ARGS__);
+
+#define PERFETTO_INTERNAL_LEGACY_EVENT_WITH_FLAGS_ON_TRACK( \
+ phase, category, name, track, flags, ...) \
+ PERFETTO_INTERNAL_TRACK_EVENT_WITH_METHOD( \
+ TraceForCategoryLegacy, category, \
+ ::perfetto::internal::DecayEventNameType(name), \
+ ::perfetto::internal::TrackEventLegacy::PhaseToType(phase), track, \
+ phase, flags, ##__VA_ARGS__);
+
+#define PERFETTO_INTERNAL_LEGACY_EVENT_WITH_ID_ON_TRACK( \
+ phase, category, name, track, flags, thread_id, id, ...) \
+ PERFETTO_INTERNAL_TRACK_EVENT_WITH_METHOD( \
+ TraceForCategoryLegacyWithId, category, \
+ ::perfetto::internal::DecayEventNameType(name), \
+ ::perfetto::internal::TrackEventLegacy::PhaseToType(phase), track, \
+ phase, flags, thread_id, id, ##__VA_ARGS__);
+
+// The main entrypoint for writing unscoped legacy events. This macro
+// determines the right track to write the event on based on |flags| and
+// |thread_id|.
+#define PERFETTO_INTERNAL_LEGACY_EVENT(phase, category, name, flags, \
+ thread_id, ...) \
+ [&]() { \
+ using ::perfetto::internal::TrackEventInternal; \
+ PERFETTO_DCHECK(!(flags & TRACE_EVENT_FLAG_COPY)); \
+ /* First check the scope for instant events. */ \
+ if ((phase) == TRACE_EVENT_PHASE_INSTANT) { \
+ /* Note: Avoids the need to set LegacyEvent::instant_event_scope. */ \
+ auto scope = (flags)&TRACE_EVENT_FLAG_SCOPE_MASK; \
+ switch (scope) { \
+ case TRACE_EVENT_SCOPE_GLOBAL: \
+ PERFETTO_INTERNAL_LEGACY_EVENT_WITH_FLAGS_ON_TRACK( \
+ phase, category, name, ::perfetto::Track::Global(0), flags, \
+ ##__VA_ARGS__); \
+ return; \
+ case TRACE_EVENT_SCOPE_PROCESS: \
+ PERFETTO_INTERNAL_LEGACY_EVENT_WITH_FLAGS_ON_TRACK( \
+ phase, category, name, ::perfetto::ProcessTrack::Current(), \
+ flags, ##__VA_ARGS__); \
+ return; \
+ default: \
+ case TRACE_EVENT_SCOPE_THREAD: \
+ /* Fallthrough. */ \
+ break; \
+ } \
+ } \
+ /* If an event targets the current thread or another process, write \
+ * it on the current thread's track. The process override case is \
+ * handled through |pid_override| in WriteLegacyEvent. */ \
+ if (std::is_same< \
+ decltype(thread_id), \
+ ::perfetto::legacy::PerfettoLegacyCurrentThreadId>::value || \
+ ((flags)&TRACE_EVENT_FLAG_HAS_PROCESS_ID)) { \
+ PERFETTO_INTERNAL_LEGACY_EVENT_WITH_FLAGS_ON_TRACK( \
+ phase, category, name, TrackEventInternal::kDefaultTrack, flags, \
+ ##__VA_ARGS__); \
+ } else { \
+ PERFETTO_INTERNAL_LEGACY_EVENT_WITH_FLAGS_ON_TRACK( \
+ phase, category, name, \
+ ::perfetto::legacy::ConvertThreadId(thread_id), flags, \
+ ##__VA_ARGS__); \
+ } \
+ }()
+
+#define PERFETTO_INTERNAL_LEGACY_EVENT_WITH_ID(phase, category, name, flags, \
+ thread_id, id, ...) \
+ [&]() { \
+ using ::perfetto::internal::TrackEventInternal; \
+ PERFETTO_DCHECK(!(flags & TRACE_EVENT_FLAG_COPY)); \
+ /* First check the scope for instant events. */ \
+ if ((phase) == TRACE_EVENT_PHASE_INSTANT) { \
+ /* Note: Avoids the need to set LegacyEvent::instant_event_scope. */ \
+ auto scope = (flags)&TRACE_EVENT_FLAG_SCOPE_MASK; \
+ switch (scope) { \
+ case TRACE_EVENT_SCOPE_GLOBAL: \
+ PERFETTO_INTERNAL_LEGACY_EVENT_WITH_ID_ON_TRACK( \
+ phase, category, name, ::perfetto::Track::Global(0), flags, \
+ thread_id, id, ##__VA_ARGS__); \
+ return; \
+ case TRACE_EVENT_SCOPE_PROCESS: \
+ PERFETTO_INTERNAL_LEGACY_EVENT_WITH_ID_ON_TRACK( \
+ phase, category, name, ::perfetto::ProcessTrack::Current(), \
+ flags, thread_id, id, ##__VA_ARGS__); \
+ return; \
+ default: \
+ case TRACE_EVENT_SCOPE_THREAD: \
+ /* Fallthrough. */ \
+ break; \
+ } \
+ } \
+ /* If an event targets the current thread or another process, write \
+ * it on the current thread's track. The process override case is \
+ * handled through |pid_override| in WriteLegacyEvent. */ \
+ if (std::is_same< \
+ decltype(thread_id), \
+ ::perfetto::legacy::PerfettoLegacyCurrentThreadId>::value || \
+ ((flags)&TRACE_EVENT_FLAG_HAS_PROCESS_ID)) { \
+ PERFETTO_INTERNAL_LEGACY_EVENT_WITH_ID_ON_TRACK( \
+ phase, category, name, TrackEventInternal::kDefaultTrack, flags, \
+ thread_id, id, ##__VA_ARGS__); \
+ } else { \
+ PERFETTO_INTERNAL_LEGACY_EVENT_WITH_ID_ON_TRACK( \
+ phase, category, name, \
+ ::perfetto::legacy::ConvertThreadId(thread_id), flags, thread_id, \
+ id, ##__VA_ARGS__); \
+ } \
+ }()
+
+#define INTERNAL_TRACE_EVENT_ADD(phase, category, name, flags, ...) \
+ PERFETTO_INTERNAL_LEGACY_EVENT( \
+ phase, category, ::perfetto::internal::DecayEventNameType(name), flags, \
+ ::perfetto::legacy::kCurrentThreadId, ##__VA_ARGS__)
+
+#define INTERNAL_TRACE_EVENT_ADD_SCOPED(category, name, ...) \
+ PERFETTO_INTERNAL_SCOPED_TRACK_EVENT( \
+ category, ::perfetto::internal::DecayEventNameType(name), ##__VA_ARGS__)
+
+#define INTERNAL_TRACE_EVENT_ADD_SCOPED_WITH_FLOW(category, name, bind_id, \
+ flags, ...) \
+ PERFETTO_INTERNAL_SCOPED_LEGACY_TRACK_EVENT_WITH_ID( \
+ category, ::perfetto::internal::DecayEventNameType(name), \
+ ::perfetto::internal::TrackEventInternal::kDefaultTrack, flags, \
+ TRACE_EVENT_API_CURRENT_THREAD_ID, bind_id, ##__VA_ARGS__)
+
+#define INTERNAL_TRACE_EVENT_ADD_WITH_TIMESTAMP(phase, category, name, \
+ timestamp, flags, ...) \
+ PERFETTO_INTERNAL_LEGACY_EVENT( \
+ phase, category, ::perfetto::internal::DecayEventNameType(name), flags, \
+ ::perfetto::legacy::kCurrentThreadId, timestamp, ##__VA_ARGS__)
+
+#define INTERNAL_TRACE_EVENT_ADD_WITH_ID_TID_AND_TIMESTAMP( \
+ phase, category, name, id, thread_id, timestamp, flags, ...) \
+ PERFETTO_INTERNAL_LEGACY_EVENT_WITH_ID( \
+ phase, category, ::perfetto::internal::DecayEventNameType(name), flags, \
+ thread_id, id, timestamp, ##__VA_ARGS__)
+
+#define INTERNAL_TRACE_EVENT_ADD_WITH_ID(phase, category, name, id, flags, \
+ ...) \
+ PERFETTO_INTERNAL_LEGACY_EVENT_WITH_ID( \
+ phase, category, ::perfetto::internal::DecayEventNameType(name), flags, \
+ ::perfetto::legacy::kCurrentThreadId, id, ##__VA_ARGS__)
+
+#define INTERNAL_TRACE_EVENT_METADATA_ADD(category, name, ...) \
+ INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_METADATA, category, name, \
+ TRACE_EVENT_FLAG_NONE)
+
+// ----------------------------------------------------------------------------
+// Legacy tracing common API (adapted from trace_event_common.h).
+// ----------------------------------------------------------------------------
+
+#define TRACE_DISABLED_BY_DEFAULT(name) "disabled-by-default-" name
+
+// Scoped events.
+#define TRACE_EVENT0(category_group, name) \
+ INTERNAL_TRACE_EVENT_ADD_SCOPED(category_group, name)
+#define TRACE_EVENT_WITH_FLOW0(category_group, name, bind_id, flow_flags) \
+ INTERNAL_TRACE_EVENT_ADD_SCOPED_WITH_FLOW(category_group, name, bind_id, \
+ flow_flags)
+#define TRACE_EVENT1(category_group, name, arg1_name, arg1_val) \
+ INTERNAL_TRACE_EVENT_ADD_SCOPED( \
+ category_group, name, arg1_name, \
+ ::perfetto::internal::PossiblyNull(arg1_val))
+#define TRACE_EVENT_WITH_FLOW1(category_group, name, bind_id, flow_flags, \
+ arg1_name, arg1_val) \
+ INTERNAL_TRACE_EVENT_ADD_SCOPED_WITH_FLOW( \
+ category_group, name, bind_id, flow_flags, arg1_name, \
+ ::perfetto::internal::PossiblyNull(arg1_val))
+#define TRACE_EVENT2(category_group, name, arg1_name, arg1_val, arg2_name, \
+ arg2_val) \
+ INTERNAL_TRACE_EVENT_ADD_SCOPED( \
+ category_group, name, arg1_name, \
+ ::perfetto::internal::PossiblyNull(arg1_val), arg2_name, \
+ ::perfetto::internal::PossiblyNull(arg2_val))
+#define TRACE_EVENT_WITH_FLOW2(category_group, name, bind_id, flow_flags, \
+ arg1_name, arg1_val, arg2_name, arg2_val) \
+ INTERNAL_TRACE_EVENT_ADD_SCOPED_WITH_FLOW( \
+ category_group, name, bind_id, flow_flags, arg1_name, \
+ ::perfetto::internal::PossiblyNull(arg1_val), arg2_name, \
+ ::perfetto::internal::PossiblyNull(arg2_val))
+
+// Instant events.
+#define TRACE_EVENT_INSTANT0(category_group, name, scope) \
+ INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_INSTANT, category_group, name, \
+ TRACE_EVENT_FLAG_NONE | scope)
+#define TRACE_EVENT_INSTANT1(category_group, name, scope, arg1_name, arg1_val) \
+ INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_INSTANT, category_group, name, \
+ TRACE_EVENT_FLAG_NONE | scope, arg1_name, \
+ ::perfetto::internal::PossiblyNull(arg1_val))
+#define TRACE_EVENT_INSTANT2(category_group, name, scope, arg1_name, arg1_val, \
+ arg2_name, arg2_val) \
+ INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_INSTANT, category_group, name, \
+ TRACE_EVENT_FLAG_NONE | scope, arg1_name, \
+ ::perfetto::internal::PossiblyNull(arg1_val), \
+ arg2_name, \
+ ::perfetto::internal::PossiblyNull(arg2_val))
+#define TRACE_EVENT_COPY_INSTANT0(category_group, name, scope) \
+ INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_INSTANT, category_group, \
+ ::perfetto::DynamicString{name}, scope)
+#define TRACE_EVENT_COPY_INSTANT1(category_group, name, scope, arg1_name, \
+ arg1_val) \
+ INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_INSTANT, category_group, \
+ ::perfetto::DynamicString{name}, scope, \
+ ::perfetto::DynamicString{arg1_name}, \
+ ::perfetto::internal::PossiblyNull(arg1_val))
+#define TRACE_EVENT_COPY_INSTANT2(category_group, name, scope, arg1_name, \
+ arg1_val, arg2_name, arg2_val) \
+ INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_INSTANT, category_group, \
+ ::perfetto::DynamicString{name}, scope, \
+ ::perfetto::DynamicString{arg1_name}, \
+ ::perfetto::internal::PossiblyNull(arg1_val), \
+ ::perfetto::DynamicString{arg2_name}, \
+ ::perfetto::internal::PossiblyNull(arg2_val))
+#define TRACE_EVENT_INSTANT_WITH_FLAGS0(category_group, name, scope_and_flags) \
+ INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_INSTANT, category_group, name, \
+ scope_and_flags)
+#define TRACE_EVENT_INSTANT_WITH_FLAGS1(category_group, name, scope_and_flags, \
+ arg1_name, arg1_val) \
+ INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_INSTANT, category_group, name, \
+ scope_and_flags, arg1_name, \
+ ::perfetto::internal::PossiblyNull(arg1_val))
+
+// Instant events with explicit timestamps.
+#define TRACE_EVENT_INSTANT_WITH_TIMESTAMP0(category_group, name, scope, \
+ timestamp) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_TIMESTAMP(TRACE_EVENT_PHASE_INSTANT, \
+ category_group, name, timestamp, \
+ TRACE_EVENT_FLAG_NONE | scope)
+
+#define TRACE_EVENT_INSTANT_WITH_TIMESTAMP1(category_group, name, scope, \
+ timestamp, arg_name, arg_val) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_TIMESTAMP( \
+ TRACE_EVENT_PHASE_INSTANT, category_group, name, timestamp, \
+ TRACE_EVENT_FLAG_NONE | scope, arg_name, \
+ ::perfetto::internal::PossiblyNull(arg_val))
+
+// Begin events.
+#define TRACE_EVENT_BEGIN0(category_group, name) \
+ INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_BEGIN, category_group, name, \
+ TRACE_EVENT_FLAG_NONE)
+#define TRACE_EVENT_BEGIN1(category_group, name, arg1_name, arg1_val) \
+ INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_BEGIN, category_group, name, \
+ TRACE_EVENT_FLAG_NONE, arg1_name, \
+ ::perfetto::internal::PossiblyNull(arg1_val))
+#define TRACE_EVENT_BEGIN2(category_group, name, arg1_name, arg1_val, \
+ arg2_name, arg2_val) \
+ INTERNAL_TRACE_EVENT_ADD( \
+ TRACE_EVENT_PHASE_BEGIN, category_group, name, TRACE_EVENT_FLAG_NONE, \
+ arg1_name, ::perfetto::internal::PossiblyNull(arg1_val), arg2_name, \
+ ::perfetto::internal::PossiblyNull(arg2_val))
+#define TRACE_EVENT_BEGIN_WITH_FLAGS0(category_group, name, flags) \
+ INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_BEGIN, category_group, name, flags)
+#define TRACE_EVENT_BEGIN_WITH_FLAGS1(category_group, name, flags, arg1_name, \
+ arg1_val) \
+ INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_BEGIN, category_group, name, \
+ flags, arg1_name, \
+ ::perfetto::internal::PossiblyNull(arg1_val))
+#define TRACE_EVENT_COPY_BEGIN2(category_group, name, arg1_name, arg1_val, \
+ arg2_name, arg2_val) \
+ INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_BEGIN, category_group, \
+ ::perfetto::DynamicString{name}, \
+ TRACE_EVENT_FLAG_NONE, \
+ ::perfetto::DynamicString{arg1_name}, \
+ ::perfetto::internal::PossiblyNull(arg1_val), \
+ ::perfetto::DynamicString{arg2_name}, \
+ ::perfetto::internal::PossiblyNull(arg2_val))
+
+// Begin events with explicit timestamps.
+#define TRACE_EVENT_BEGIN_WITH_ID_TID_AND_TIMESTAMP0(category_group, name, id, \
+ thread_id, timestamp) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID_TID_AND_TIMESTAMP( \
+ TRACE_EVENT_PHASE_ASYNC_BEGIN, category_group, name, id, thread_id, \
+ timestamp, TRACE_EVENT_FLAG_NONE)
+#define TRACE_EVENT_COPY_BEGIN_WITH_ID_TID_AND_TIMESTAMP0( \
+ category_group, name, id, thread_id, timestamp) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID_TID_AND_TIMESTAMP( \
+ TRACE_EVENT_PHASE_ASYNC_BEGIN, category_group, \
+ ::perfetto::DynamicString{name}, id, thread_id, timestamp, \
+ TRACE_EVENT_FLAG_NONE)
+#define TRACE_EVENT_COPY_BEGIN_WITH_ID_TID_AND_TIMESTAMP1( \
+ category_group, name, id, thread_id, timestamp, arg1_name, arg1_val) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID_TID_AND_TIMESTAMP( \
+ TRACE_EVENT_PHASE_ASYNC_BEGIN, category_group, \
+ ::perfetto::DynamicString{name}, id, thread_id, timestamp, \
+ TRACE_EVENT_FLAG_NONE, ::perfetto::DynamicString{arg1_name}, \
+ ::perfetto::internal::PossiblyNull(arg1_val))
+#define TRACE_EVENT_COPY_BEGIN_WITH_ID_TID_AND_TIMESTAMP2( \
+ category_group, name, id, thread_id, timestamp, arg1_name, arg1_val, \
+ arg2_name, arg2_val) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID_TID_AND_TIMESTAMP( \
+ TRACE_EVENT_PHASE_ASYNC_BEGIN, category_group, \
+ ::perfetto::DynamicString{name}, id, thread_id, timestamp, \
+ TRACE_EVENT_FLAG_NONE, ::perfetto::DynamicString{arg1_name}, \
+ ::perfetto::internal::PossiblyNull(arg1_val), \
+ ::perfetto::DynamicString{arg2_name}, \
+ ::perfetto::internal::PossiblyNull(arg2_val))
+
+// End events.
+#define TRACE_EVENT_END0(category_group, name) \
+ INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_END, category_group, name, \
+ TRACE_EVENT_FLAG_NONE)
+#define TRACE_EVENT_END1(category_group, name, arg1_name, arg1_val) \
+ INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_END, category_group, name, \
+ TRACE_EVENT_FLAG_NONE, arg1_name, \
+ ::perfetto::internal::PossiblyNull(arg1_val))
+#define TRACE_EVENT_END2(category_group, name, arg1_name, arg1_val, arg2_name, \
+ arg2_val) \
+ INTERNAL_TRACE_EVENT_ADD( \
+ TRACE_EVENT_PHASE_END, category_group, name, TRACE_EVENT_FLAG_NONE, \
+ arg1_name, ::perfetto::internal::PossiblyNull(arg1_val), arg2_name, \
+ ::perfetto::internal::PossiblyNull(arg2_val))
+#define TRACE_EVENT_END_WITH_FLAGS0(category_group, name, flags) \
+ INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_END, category_group, name, flags)
+#define TRACE_EVENT_END_WITH_FLAGS1(category_group, name, flags, arg1_name, \
+ arg1_val) \
+ INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_END, category_group, name, flags, \
+ arg1_name, \
+ ::perfetto::internal::PossiblyNull(arg1_val))
+#define TRACE_EVENT_COPY_END2(category_group, name, arg1_name, arg1_val, \
+ arg2_name, arg2_val) \
+ INTERNAL_TRACE_EVENT_ADD( \
+ TRACE_EVENT_PHASE_END, category_group, ::perfetto::DynamicString{name}, \
+ TRACE_EVENT_FLAG_NONE, ::perfetto::DynamicString{arg1_name}, \
+ ::perfetto::internal::PossiblyNull(arg1_val), \
+ ::perfetto::DynamicString{arg2_name}, \
+ ::perfetto::internal::PossiblyNull(arg2_val))
+
+// Mark events.
+#define TRACE_EVENT_MARK_WITH_TIMESTAMP0(category_group, name, timestamp) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_TIMESTAMP(TRACE_EVENT_PHASE_MARK, \
+ category_group, name, timestamp, \
+ TRACE_EVENT_FLAG_NONE)
+
+#define TRACE_EVENT_MARK_WITH_TIMESTAMP1(category_group, name, timestamp, \
+ arg1_name, arg1_val) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_TIMESTAMP( \
+ TRACE_EVENT_PHASE_MARK, category_group, name, timestamp, \
+ TRACE_EVENT_FLAG_NONE, arg1_name, \
+ ::perfetto::internal::PossiblyNull(arg1_val))
+
+#define TRACE_EVENT_MARK_WITH_TIMESTAMP2( \
+ category_group, name, timestamp, arg1_name, arg1_val, arg2_name, arg2_val) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_TIMESTAMP( \
+ TRACE_EVENT_PHASE_MARK, category_group, name, timestamp, \
+ TRACE_EVENT_FLAG_NONE, arg1_name, \
+ ::perfetto::internal::PossiblyNull(arg1_val), arg2_name, \
+ ::perfetto::internal::PossiblyNull(arg2_val))
+
+#define TRACE_EVENT_COPY_MARK(category_group, name) \
+ INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_MARK, category_group, \
+ ::perfetto::DynamicString{name}, \
+ TRACE_EVENT_FLAG_NONE)
+
+#define TRACE_EVENT_COPY_MARK1(category_group, name, arg1_name, arg1_val) \
+ INTERNAL_TRACE_EVENT_ADD( \
+ TRACE_EVENT_PHASE_MARK, category_group, ::perfetto::DynamicString{name}, \
+ TRACE_EVENT_FLAG_NONE, ::perfetto::DynamicString{arg1_name}, \
+ ::perfetto::internal::PossiblyNull(arg1_val))
+
+#define TRACE_EVENT_COPY_MARK_WITH_TIMESTAMP(category_group, name, timestamp) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_TIMESTAMP( \
+ TRACE_EVENT_PHASE_MARK, category_group, ::perfetto::DynamicString{name}, \
+ timestamp, TRACE_EVENT_FLAG_NONE)
+
+// End events with explicit thread and timestamp.
+#define TRACE_EVENT_END_WITH_ID_TID_AND_TIMESTAMP0(category_group, name, id, \
+ thread_id, timestamp) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID_TID_AND_TIMESTAMP( \
+ TRACE_EVENT_PHASE_ASYNC_END, category_group, name, id, thread_id, \
+ timestamp, TRACE_EVENT_FLAG_NONE)
+#define TRACE_EVENT_COPY_END_WITH_ID_TID_AND_TIMESTAMP0( \
+ category_group, name, id, thread_id, timestamp) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID_TID_AND_TIMESTAMP( \
+ TRACE_EVENT_PHASE_ASYNC_END, category_group, \
+ ::perfetto::DynamicString{name}, id, thread_id, timestamp, \
+ TRACE_EVENT_FLAG_NONE)
+#define TRACE_EVENT_COPY_END_WITH_ID_TID_AND_TIMESTAMP1( \
+ category_group, name, id, thread_id, timestamp, arg1_name, arg1_val) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID_TID_AND_TIMESTAMP( \
+ TRACE_EVENT_PHASE_ASYNC_END, category_group, \
+ ::perfetto::DynamicString{name}, id, thread_id, timestamp, \
+ TRACE_EVENT_FLAG_NONE, ::perfetto::DynamicString{arg1_name}, \
+ ::perfetto::internal::PossiblyNull(arg1_val))
+#define TRACE_EVENT_COPY_END_WITH_ID_TID_AND_TIMESTAMP2( \
+ category_group, name, id, thread_id, timestamp, arg1_name, arg1_val, \
+ arg2_name, arg2_val) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID_TID_AND_TIMESTAMP( \
+ TRACE_EVENT_PHASE_ASYNC_END, category_group, \
+ ::perfetto::DynamicString{name}, id, thread_id, timestamp, \
+ TRACE_EVENT_FLAG_NONE, ::perfetto::DynamicString{arg1_name}, \
+ ::perfetto::internal::PossiblyNull(arg1_val), \
+ ::perfetto::DynamicString{arg2_name}, \
+ ::perfetto::internal::PossiblyNull(arg2_val))
+
+// Counters.
+#define TRACE_COUNTER1(category_group, name, value) \
+ INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_COUNTER, category_group, name, \
+ TRACE_EVENT_FLAG_NONE, "value", \
+ static_cast<int>(value))
+#define TRACE_COUNTER_WITH_FLAG1(category_group, name, flag, value) \
+ INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_COUNTER, category_group, name, \
+ flag, "value", static_cast<int>(value))
+#define TRACE_COPY_COUNTER1(category_group, name, value) \
+ INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_COUNTER, category_group, \
+ ::perfetto::DynamicString{name}, \
+ TRACE_EVENT_FLAG_NONE, "value", \
+ static_cast<int>(value))
+#define TRACE_COUNTER2(category_group, name, value1_name, value1_val, \
+ value2_name, value2_val) \
+ INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_COUNTER, category_group, name, \
+ TRACE_EVENT_FLAG_NONE, value1_name, \
+ static_cast<int>(value1_val), value2_name, \
+ static_cast<int>(value2_val))
+#define TRACE_COPY_COUNTER2(category_group, name, value1_name, value1_val, \
+ value2_name, value2_val) \
+ INTERNAL_TRACE_EVENT_ADD( \
+ TRACE_EVENT_PHASE_COUNTER, category_group, \
+ ::perfetto::DynamicString{name}, TRACE_EVENT_FLAG_NONE, value1_name, \
+ static_cast<int>(value1_val), value2_name, static_cast<int>(value2_val))
+
+// Counters with explicit timestamps.
+#define TRACE_COUNTER_WITH_TIMESTAMP1(category_group, name, timestamp, value) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_TIMESTAMP( \
+ TRACE_EVENT_PHASE_COUNTER, category_group, name, timestamp, \
+ TRACE_EVENT_FLAG_NONE, "value", static_cast<int>(value))
+
+#define TRACE_COUNTER_WITH_TIMESTAMP2(category_group, name, timestamp, \
+ value1_name, value1_val, value2_name, \
+ value2_val) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_TIMESTAMP( \
+ TRACE_EVENT_PHASE_COUNTER, category_group, name, timestamp, \
+ TRACE_EVENT_FLAG_NONE, value1_name, static_cast<int>(value1_val), \
+ value2_name, static_cast<int>(value2_val))
+
+// Counters with ids.
+#define TRACE_COUNTER_ID1(category_group, name, id, value) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_COUNTER, category_group, \
+ name, id, TRACE_EVENT_FLAG_NONE, "value", \
+ static_cast<int>(value))
+#define TRACE_COPY_COUNTER_ID1(category_group, name, id, value) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_COUNTER, category_group, \
+ ::perfetto::DynamicString{name}, id, \
+ TRACE_EVENT_FLAG_NONE, "value", \
+ static_cast<int>(value))
+#define TRACE_COUNTER_ID2(category_group, name, id, value1_name, value1_val, \
+ value2_name, value2_val) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_COUNTER, category_group, \
+ name, id, TRACE_EVENT_FLAG_NONE, \
+ value1_name, static_cast<int>(value1_val), \
+ value2_name, static_cast<int>(value2_val))
+#define TRACE_COPY_COUNTER_ID2(category_group, name, id, value1_name, \
+ value1_val, value2_name, value2_val) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID( \
+ TRACE_EVENT_PHASE_COUNTER, category_group, \
+ ::perfetto::DynamicString{name}, id, TRACE_EVENT_FLAG_NONE, value1_name, \
+ static_cast<int>(value1_val), value2_name, static_cast<int>(value2_val))
+
+// Sampling profiler events.
+#define TRACE_EVENT_SAMPLE_WITH_ID1(category_group, name, id, arg1_name, \
+ arg1_val) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_SAMPLE, category_group, \
+ name, id, TRACE_EVENT_FLAG_NONE, arg1_name, \
+ arg1_val)
+
+// Legacy async events.
+#define TRACE_EVENT_ASYNC_BEGIN0(category_group, name, id) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_ASYNC_BEGIN, \
+ category_group, name, id, \
+ TRACE_EVENT_FLAG_NONE)
+#define TRACE_EVENT_ASYNC_BEGIN1(category_group, name, id, arg1_name, \
+ arg1_val) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID( \
+ TRACE_EVENT_PHASE_ASYNC_BEGIN, category_group, name, id, \
+ TRACE_EVENT_FLAG_NONE, arg1_name, \
+ ::perfetto::internal::PossiblyNull(arg1_val))
+#define TRACE_EVENT_ASYNC_BEGIN2(category_group, name, id, arg1_name, \
+ arg1_val, arg2_name, arg2_val) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID( \
+ TRACE_EVENT_PHASE_ASYNC_BEGIN, category_group, name, id, \
+ TRACE_EVENT_FLAG_NONE, arg1_name, \
+ ::perfetto::internal::PossiblyNull(arg1_val), arg2_name, \
+ ::perfetto::internal::PossiblyNull(arg2_val))
+#define TRACE_EVENT_COPY_ASYNC_BEGIN0(category_group, name, id) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID( \
+ TRACE_EVENT_PHASE_ASYNC_BEGIN, category_group, \
+ ::perfetto::DynamicString{name}, id, TRACE_EVENT_FLAG_NONE)
+#define TRACE_EVENT_COPY_ASYNC_BEGIN1(category_group, name, id, arg1_name, \
+ arg1_val) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID( \
+ TRACE_EVENT_PHASE_ASYNC_BEGIN, category_group, \
+ ::perfetto::DynamicString{name}, id, TRACE_EVENT_FLAG_NONE, \
+ ::perfetto::DynamicString{arg1_name}, \
+ ::perfetto::internal::PossiblyNull(arg1_val))
+#define TRACE_EVENT_COPY_ASYNC_BEGIN2(category_group, name, id, arg1_name, \
+ arg1_val, arg2_name, arg2_val) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID( \
+ TRACE_EVENT_PHASE_ASYNC_BEGIN, category_group, \
+ ::perfetto::DynamicString{name}, id, TRACE_EVENT_FLAG_NONE, \
+ ::perfetto::DynamicString{arg1_name}, \
+ ::perfetto::internal::PossiblyNull(arg1_val), \
+ ::perfetto::DynamicString{arg2_name}, \
+ ::perfetto::internal::PossiblyNull(arg2_val))
+#define TRACE_EVENT_ASYNC_BEGIN_WITH_FLAGS0(category_group, name, id, flags) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_ASYNC_BEGIN, \
+ category_group, name, id, flags)
+
+// Legacy async events with explicit timestamps.
+#define TRACE_EVENT_ASYNC_BEGIN_WITH_TIMESTAMP0(category_group, name, id, \
+ timestamp) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID_TID_AND_TIMESTAMP( \
+ TRACE_EVENT_PHASE_ASYNC_BEGIN, category_group, name, id, \
+ TRACE_EVENT_API_CURRENT_THREAD_ID, timestamp, TRACE_EVENT_FLAG_NONE)
+#define TRACE_EVENT_ASYNC_BEGIN_WITH_TIMESTAMP1( \
+ category_group, name, id, timestamp, arg1_name, arg1_val) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID_TID_AND_TIMESTAMP( \
+ TRACE_EVENT_PHASE_ASYNC_BEGIN, category_group, name, id, \
+ TRACE_EVENT_API_CURRENT_THREAD_ID, timestamp, TRACE_EVENT_FLAG_NONE, \
+ arg1_name, ::perfetto::internal::PossiblyNull(arg1_val))
+#define TRACE_EVENT_NESTABLE_ASYNC_BEGIN_WITH_TIMESTAMP_AND_FLAGS0( \
+ category_group, name, id, timestamp, flags) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID_TID_AND_TIMESTAMP( \
+ TRACE_EVENT_PHASE_NESTABLE_ASYNC_BEGIN, category_group, name, id, \
+ TRACE_EVENT_API_CURRENT_THREAD_ID, timestamp, flags)
+#define TRACE_EVENT_NESTABLE_ASYNC_END_WITH_TIMESTAMP0(category_group, name, \
+ id, timestamp) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID_TID_AND_TIMESTAMP( \
+ TRACE_EVENT_PHASE_NESTABLE_ASYNC_END, category_group, name, id, \
+ TRACE_EVENT_API_CURRENT_THREAD_ID, timestamp, TRACE_EVENT_FLAG_NONE)
+#define TRACE_EVENT_ASYNC_BEGIN_WITH_TIMESTAMP2(category_group, name, id, \
+ timestamp, arg1_name, \
+ arg1_val, arg2_name, arg2_val) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID_TID_AND_TIMESTAMP( \
+ TRACE_EVENT_PHASE_ASYNC_BEGIN, category_group, name, id, \
+ TRACE_EVENT_API_CURRENT_THREAD_ID, timestamp, TRACE_EVENT_FLAG_NONE, \
+ arg1_name, ::perfetto::internal::PossiblyNull(arg1_val), arg2_name, \
+ ::perfetto::internal::PossiblyNull(arg2_val))
+#define TRACE_EVENT_COPY_ASYNC_BEGIN_WITH_TIMESTAMP0(category_group, name, id, \
+ timestamp) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID_TID_AND_TIMESTAMP( \
+ TRACE_EVENT_PHASE_ASYNC_BEGIN, category_group, \
+ ::perfetto::DynamicString{name}, id, TRACE_EVENT_API_CURRENT_THREAD_ID, \
+ timestamp, TRACE_EVENT_FLAG_NONE)
+#define TRACE_EVENT_ASYNC_BEGIN_WITH_TIMESTAMP_AND_FLAGS0( \
+ category_group, name, id, timestamp, flags) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID_TID_AND_TIMESTAMP( \
+ TRACE_EVENT_PHASE_ASYNC_BEGIN, category_group, name, id, \
+ TRACE_EVENT_API_CURRENT_THREAD_ID, timestamp, flags)
+
+// Legacy async step into events.
+#define TRACE_EVENT_ASYNC_STEP_INTO0(category_group, name, id, step) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_ASYNC_STEP_INTO, \
+ category_group, name, id, \
+ TRACE_EVENT_FLAG_NONE, "step", step)
+#define TRACE_EVENT_ASYNC_STEP_INTO1(category_group, name, id, step, \
+ arg1_name, arg1_val) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID( \
+ TRACE_EVENT_PHASE_ASYNC_STEP_INTO, category_group, name, id, \
+ TRACE_EVENT_FLAG_NONE, "step", step, arg1_name, \
+ ::perfetto::internal::PossiblyNull(arg1_val))
+
+// Legacy async step into events with timestamps.
+#define TRACE_EVENT_ASYNC_STEP_INTO_WITH_TIMESTAMP0(category_group, name, id, \
+ step, timestamp) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID_TID_AND_TIMESTAMP( \
+ TRACE_EVENT_PHASE_ASYNC_STEP_INTO, category_group, name, id, \
+ TRACE_EVENT_API_CURRENT_THREAD_ID, timestamp, TRACE_EVENT_FLAG_NONE, \
+ "step", step)
+
+// Legacy async step past events.
+#define TRACE_EVENT_ASYNC_STEP_PAST0(category_group, name, id, step) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_ASYNC_STEP_PAST, \
+ category_group, name, id, \
+ TRACE_EVENT_FLAG_NONE, "step", step)
+#define TRACE_EVENT_ASYNC_STEP_PAST1(category_group, name, id, step, \
+ arg1_name, arg1_val) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID( \
+ TRACE_EVENT_PHASE_ASYNC_STEP_PAST, category_group, name, id, \
+ TRACE_EVENT_FLAG_NONE, "step", step, arg1_name, \
+ ::perfetto::internal::PossiblyNull(arg1_val))
+
+// Legacy async end events.
+#define TRACE_EVENT_ASYNC_END0(category_group, name, id) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_ASYNC_END, \
+ category_group, name, id, \
+ TRACE_EVENT_FLAG_NONE)
+#define TRACE_EVENT_ASYNC_END1(category_group, name, id, arg1_name, arg1_val) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID( \
+ TRACE_EVENT_PHASE_ASYNC_END, category_group, name, id, \
+ TRACE_EVENT_FLAG_NONE, arg1_name, \
+ ::perfetto::internal::PossiblyNull(arg1_val))
+#define TRACE_EVENT_ASYNC_END2(category_group, name, id, arg1_name, arg1_val, \
+ arg2_name, arg2_val) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID( \
+ TRACE_EVENT_PHASE_ASYNC_END, category_group, name, id, \
+ TRACE_EVENT_FLAG_NONE, arg1_name, \
+ ::perfetto::internal::PossiblyNull(arg1_val), arg2_name, \
+ ::perfetto::internal::PossiblyNull(arg2_val))
+#define TRACE_EVENT_COPY_ASYNC_END0(category_group, name, id) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID( \
+ TRACE_EVENT_PHASE_ASYNC_END, category_group, \
+ ::perfetto::DynamicString{name}, id, TRACE_EVENT_FLAG_NONE)
+#define TRACE_EVENT_COPY_ASYNC_END1(category_group, name, id, arg1_name, \
+ arg1_val) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID( \
+ TRACE_EVENT_PHASE_ASYNC_END, category_group, \
+ ::perfetto::DynamicString{name}, id, TRACE_EVENT_FLAG_NONE, \
+ ::perfetto::DynamicString{arg1_name}, \
+ ::perfetto::internal::PossiblyNull(arg1_val))
+#define TRACE_EVENT_COPY_ASYNC_END2(category_group, name, id, arg1_name, \
+ arg1_val, arg2_name, arg2_val) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID( \
+ TRACE_EVENT_PHASE_ASYNC_END, category_group, \
+ ::perfetto::DynamicString{name}, id, TRACE_EVENT_FLAG_NONE, \
+ ::perfetto::DynamicString{arg1_name}, \
+ ::perfetto::internal::PossiblyNull(arg1_val), \
+ ::perfetto::DynamicString{arg2_name}, \
+ ::perfetto::internal::PossiblyNull(arg2_val))
+#define TRACE_EVENT_ASYNC_END_WITH_FLAGS0(category_group, name, id, flags) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_ASYNC_END, \
+ category_group, name, id, flags)
+
+// Legacy async end events with explicit timestamps.
+#define TRACE_EVENT_ASYNC_END_WITH_TIMESTAMP0(category_group, name, id, \
+ timestamp) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID_TID_AND_TIMESTAMP( \
+ TRACE_EVENT_PHASE_ASYNC_END, category_group, name, id, \
+ TRACE_EVENT_API_CURRENT_THREAD_ID, timestamp, TRACE_EVENT_FLAG_NONE)
+#define TRACE_EVENT_ASYNC_END_WITH_TIMESTAMP1(category_group, name, id, \
+ timestamp, arg1_name, arg1_val) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID_TID_AND_TIMESTAMP( \
+ TRACE_EVENT_PHASE_ASYNC_END, category_group, name, id, \
+ TRACE_EVENT_API_CURRENT_THREAD_ID, timestamp, TRACE_EVENT_FLAG_NONE, \
+ arg1_name, ::perfetto::internal::PossiblyNull(arg1_val))
+#define TRACE_EVENT_ASYNC_END_WITH_TIMESTAMP2(category_group, name, id, \
+ timestamp, arg1_name, arg1_val, \
+ arg2_name, arg2_val) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID_TID_AND_TIMESTAMP( \
+ TRACE_EVENT_PHASE_ASYNC_END, category_group, name, id, \
+ TRACE_EVENT_API_CURRENT_THREAD_ID, timestamp, TRACE_EVENT_FLAG_NONE, \
+ arg1_name, ::perfetto::internal::PossiblyNull(arg1_val), arg2_name, \
+ ::perfetto::internal::PossiblyNull(arg2_val))
+#define TRACE_EVENT_COPY_ASYNC_END_WITH_TIMESTAMP0(category_group, name, id, \
+ timestamp) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID_TID_AND_TIMESTAMP( \
+ TRACE_EVENT_PHASE_ASYNC_END, category_group, \
+ ::perfetto::DynamicString{name}, id, TRACE_EVENT_API_CURRENT_THREAD_ID, \
+ timestamp, TRACE_EVENT_FLAG_NONE)
+#define TRACE_EVENT_ASYNC_END_WITH_TIMESTAMP_AND_FLAGS0(category_group, name, \
+ id, timestamp, flags) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID_TID_AND_TIMESTAMP( \
+ TRACE_EVENT_PHASE_ASYNC_END, category_group, name, id, \
+ TRACE_EVENT_API_CURRENT_THREAD_ID, timestamp, flags)
+
+// Async events.
+#define TRACE_EVENT_NESTABLE_ASYNC_BEGIN0(category_group, name, id) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_NESTABLE_ASYNC_BEGIN, \
+ category_group, name, id, \
+ TRACE_EVENT_FLAG_NONE)
+#define TRACE_EVENT_NESTABLE_ASYNC_BEGIN1(category_group, name, id, arg1_name, \
+ arg1_val) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID( \
+ TRACE_EVENT_PHASE_NESTABLE_ASYNC_BEGIN, category_group, name, id, \
+ TRACE_EVENT_FLAG_NONE, arg1_name, \
+ ::perfetto::internal::PossiblyNull(arg1_val))
+#define TRACE_EVENT_NESTABLE_ASYNC_BEGIN2(category_group, name, id, arg1_name, \
+ arg1_val, arg2_name, arg2_val) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID( \
+ TRACE_EVENT_PHASE_NESTABLE_ASYNC_BEGIN, category_group, name, id, \
+ TRACE_EVENT_FLAG_NONE, arg1_name, \
+ ::perfetto::internal::PossiblyNull(arg1_val), arg2_name, \
+ ::perfetto::internal::PossiblyNull(arg2_val))
+#define TRACE_EVENT_NESTABLE_ASYNC_BEGIN_WITH_FLAGS0(category_group, name, id, \
+ flags) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_NESTABLE_ASYNC_BEGIN, \
+ category_group, name, id, flags)
+#define TRACE_EVENT_NESTABLE_ASYNC_BEGIN_WITH_TIMESTAMP1( \
+ category_group, name, id, timestamp, arg1_name, arg1_val) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID_TID_AND_TIMESTAMP( \
+ TRACE_EVENT_PHASE_NESTABLE_ASYNC_BEGIN, category_group, name, id, \
+ TRACE_EVENT_API_CURRENT_THREAD_ID, timestamp, TRACE_EVENT_FLAG_NONE, \
+ arg1_name, ::perfetto::internal::PossiblyNull(arg1_val))
+
+// Async end events.
+#define TRACE_EVENT_NESTABLE_ASYNC_END0(category_group, name, id) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_NESTABLE_ASYNC_END, \
+ category_group, name, id, \
+ TRACE_EVENT_FLAG_NONE)
+#define TRACE_EVENT_NESTABLE_ASYNC_END1(category_group, name, id, arg1_name, \
+ arg1_val) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID( \
+ TRACE_EVENT_PHASE_NESTABLE_ASYNC_END, category_group, name, id, \
+ TRACE_EVENT_FLAG_NONE, arg1_name, \
+ ::perfetto::internal::PossiblyNull(arg1_val))
+#define TRACE_EVENT_NESTABLE_ASYNC_END2(category_group, name, id, arg1_name, \
+ arg1_val, arg2_name, arg2_val) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID( \
+ TRACE_EVENT_PHASE_NESTABLE_ASYNC_END, category_group, name, id, \
+ TRACE_EVENT_FLAG_NONE, arg1_name, \
+ ::perfetto::internal::PossiblyNull(arg1_val), arg2_name, \
+ ::perfetto::internal::PossiblyNull(arg2_val))
+#define TRACE_EVENT_NESTABLE_ASYNC_END_WITH_FLAGS0(category_group, name, id, \
+ flags) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_NESTABLE_ASYNC_END, \
+ category_group, name, id, flags)
+
+// Async instant events.
+#define TRACE_EVENT_NESTABLE_ASYNC_INSTANT0(category_group, name, id) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_NESTABLE_ASYNC_INSTANT, \
+ category_group, name, id, \
+ TRACE_EVENT_FLAG_NONE)
+#define TRACE_EVENT_NESTABLE_ASYNC_INSTANT1(category_group, name, id, \
+ arg1_name, arg1_val) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID( \
+ TRACE_EVENT_PHASE_NESTABLE_ASYNC_INSTANT, category_group, name, id, \
+ TRACE_EVENT_FLAG_NONE, arg1_name, \
+ ::perfetto::internal::PossiblyNull(arg1_val))
+#define TRACE_EVENT_NESTABLE_ASYNC_INSTANT2( \
+ category_group, name, id, arg1_name, arg1_val, arg2_name, arg2_val) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID( \
+ TRACE_EVENT_PHASE_NESTABLE_ASYNC_INSTANT, category_group, name, id, \
+ TRACE_EVENT_FLAG_NONE, arg1_name, \
+ ::perfetto::internal::PossiblyNull(arg1_val), arg2_name, \
+ ::perfetto::internal::PossiblyNull(arg2_val))
+#define TRACE_EVENT_COPY_NESTABLE_ASYNC_BEGIN_WITH_TTS2( \
+ category_group, name, id, arg1_name, arg1_val, arg2_name, arg2_val) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID( \
+ TRACE_EVENT_PHASE_NESTABLE_ASYNC_BEGIN, category_group, \
+ ::perfetto::DynamicString{name}, id, TRACE_EVENT_FLAG_ASYNC_TTS, \
+ ::perfetto::DynamicString{arg1_name}, \
+ ::perfetto::internal::PossiblyNull(arg1_val), \
+ ::perfetto::DynamicString{arg2_name}, \
+ ::perfetto::internal::PossiblyNull(arg2_val))
+#define TRACE_EVENT_COPY_NESTABLE_ASYNC_END_WITH_TTS2( \
+ category_group, name, id, arg1_name, arg1_val, arg2_name, arg2_val) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID( \
+ TRACE_EVENT_PHASE_NESTABLE_ASYNC_END, category_group, \
+ ::perfetto::DynamicString{name}, id, TRACE_EVENT_FLAG_ASYNC_TTS, \
+ ::perfetto::DynamicString{arg1_name}, \
+ ::perfetto::internal::PossiblyNull(arg1_val), \
+ ::perfetto::DynamicString{arg2_name}, \
+ ::perfetto::internal::PossiblyNull(arg2_val))
+
+// Async events with explicit timestamps.
+#define TRACE_EVENT_NESTABLE_ASYNC_BEGIN_WITH_TIMESTAMP0(category_group, name, \
+ id, timestamp) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID_TID_AND_TIMESTAMP( \
+ TRACE_EVENT_PHASE_NESTABLE_ASYNC_BEGIN, category_group, name, id, \
+ TRACE_EVENT_API_CURRENT_THREAD_ID, timestamp, TRACE_EVENT_FLAG_NONE)
+#define TRACE_EVENT_NESTABLE_ASYNC_END_WITH_TIMESTAMP0(category_group, name, \
+ id, timestamp) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID_TID_AND_TIMESTAMP( \
+ TRACE_EVENT_PHASE_NESTABLE_ASYNC_END, category_group, name, id, \
+ TRACE_EVENT_API_CURRENT_THREAD_ID, timestamp, TRACE_EVENT_FLAG_NONE)
+#define TRACE_EVENT_NESTABLE_ASYNC_END_WITH_TIMESTAMP1( \
+ category_group, name, id, timestamp, arg1_name, arg1_val) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID_TID_AND_TIMESTAMP( \
+ TRACE_EVENT_PHASE_NESTABLE_ASYNC_END, category_group, name, id, \
+ TRACE_EVENT_API_CURRENT_THREAD_ID, timestamp, TRACE_EVENT_FLAG_NONE, \
+ arg1_name, ::perfetto::internal::PossiblyNull(arg1_val))
+#define TRACE_EVENT_NESTABLE_ASYNC_END_WITH_TIMESTAMP2( \
+ category_group, name, id, timestamp, arg1_name, arg1_val, arg2_name, \
+ arg2_val) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID_TID_AND_TIMESTAMP( \
+ TRACE_EVENT_PHASE_NESTABLE_ASYNC_END, category_group, name, id, \
+ TRACE_EVENT_API_CURRENT_THREAD_ID, timestamp, TRACE_EVENT_FLAG_NONE, \
+ arg1_name, ::perfetto::internal::PossiblyNull(arg1_val), arg2_name, \
+ ::perfetto::internal::PossiblyNull(arg2_val))
+#define TRACE_EVENT_NESTABLE_ASYNC_END_WITH_TIMESTAMP_AND_FLAGS0( \
+ category_group, name, id, timestamp, flags) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID_TID_AND_TIMESTAMP( \
+ TRACE_EVENT_PHASE_NESTABLE_ASYNC_END, category_group, name, id, \
+ TRACE_EVENT_API_CURRENT_THREAD_ID, timestamp, flags)
+#define TRACE_EVENT_NESTABLE_ASYNC_INSTANT_WITH_TIMESTAMP0( \
+ category_group, name, id, timestamp) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID_TID_AND_TIMESTAMP( \
+ TRACE_EVENT_PHASE_NESTABLE_ASYNC_INSTANT, category_group, name, id, \
+ TRACE_EVENT_API_CURRENT_THREAD_ID, timestamp, TRACE_EVENT_FLAG_NONE)
+#define TRACE_EVENT_COPY_NESTABLE_ASYNC_BEGIN0(category_group, name, id) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID( \
+ TRACE_EVENT_PHASE_NESTABLE_ASYNC_BEGIN, category_group, \
+ ::perfetto::DynamicString{name}, id, TRACE_EVENT_FLAG_NONE)
+#define TRACE_EVENT_COPY_NESTABLE_ASYNC_BEGIN1(category_group, name, id, \
+ arg1_name, arg1_val) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID( \
+ TRACE_EVENT_PHASE_NESTABLE_ASYNC_BEGIN, category_group, \
+ ::perfetto::DynamicString{name}, id, TRACE_EVENT_FLAG_NONE, \
+ ::perfetto::DynamicString{arg1_name}, \
+ ::perfetto::internal::PossiblyNull(arg1_val))
+#define TRACE_EVENT_COPY_NESTABLE_ASYNC_BEGIN2( \
+ category_group, name, id, arg1_name, arg1_val, arg2_name, arg2_val) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID( \
+ TRACE_EVENT_PHASE_NESTABLE_ASYNC_BEGIN, category_group, \
+ ::perfetto::DynamicString{name}, id, TRACE_EVENT_FLAG_NONE, \
+ ::perfetto::DynamicString{arg1_name}, \
+ ::perfetto::internal::PossiblyNull(arg1_val), \
+ ::perfetto::DynamicString{arg2_name}, \
+ ::perfetto::internal::PossiblyNull(arg2_val))
+#define TRACE_EVENT_COPY_NESTABLE_ASYNC_END0(category_group, name, id) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID( \
+ TRACE_EVENT_PHASE_NESTABLE_ASYNC_END, category_group, \
+ ::perfetto::DynamicString{name}, id, TRACE_EVENT_FLAG_NONE)
+#define TRACE_EVENT_COPY_NESTABLE_ASYNC_BEGIN_WITH_TIMESTAMP0( \
+ category_group, name, id, timestamp) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID_TID_AND_TIMESTAMP( \
+ TRACE_EVENT_PHASE_NESTABLE_ASYNC_BEGIN, category_group, \
+ ::perfetto::DynamicString{name}, id, TRACE_EVENT_API_CURRENT_THREAD_ID, \
+ timestamp, TRACE_EVENT_FLAG_NONE)
+#define TRACE_EVENT_COPY_NESTABLE_ASYNC_BEGIN_WITH_TIMESTAMP1( \
+ category_group, name, id, timestamp, arg1_name, arg1_val) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID_TID_AND_TIMESTAMP( \
+ TRACE_EVENT_PHASE_NESTABLE_ASYNC_BEGIN, category_group, \
+ ::perfetto::DynamicString{name}, id, TRACE_EVENT_API_CURRENT_THREAD_ID, \
+ timestamp, TRACE_EVENT_FLAG_NONE, ::perfetto::DynamicString{arg1_name}, \
+ ::perfetto::internal::PossiblyNull(arg1_val))
+#define TRACE_EVENT_COPY_NESTABLE_ASYNC_END_WITH_TIMESTAMP0( \
+ category_group, name, id, timestamp) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID_TID_AND_TIMESTAMP( \
+ TRACE_EVENT_PHASE_NESTABLE_ASYNC_END, category_group, \
+ ::perfetto::DynamicString{name}, id, TRACE_EVENT_API_CURRENT_THREAD_ID, \
+ timestamp, TRACE_EVENT_FLAG_NONE)
+#define TRACE_EVENT_COPY_NESTABLE_ASYNC_END_WITH_TIMESTAMP2( \
+ category_group, name, id, timestamp, arg1_name, arg1_val, arg2_name, \
+ arg2_val) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID_TID_AND_TIMESTAMP( \
+ TRACE_EVENT_PHASE_NESTABLE_ASYNC_END, category_group, name, id, \
+ TRACE_EVENT_API_CURRENT_THREAD_ID, timestamp, TRACE_EVENT_FLAG_NONE, \
+ ::perfetto::DynamicString{arg1_name}, \
+ ::perfetto::internal::PossiblyNull(arg1_val), \
+ ::perfetto::DynamicString{arg2_name}, \
+ ::perfetto::internal::PossiblyNull(arg2_val))
+
+// Metadata events.
+#define TRACE_EVENT_METADATA1(category_group, name, arg1_name, arg1_val) \
+ INTERNAL_TRACE_EVENT_METADATA_ADD( \
+ category_group, name, arg1_name, \
+ ::perfetto::internal::PossiblyNull(arg1_val))
+
+// Clock sync events.
+#define TRACE_EVENT_CLOCK_SYNC_RECEIVER(sync_id) \
+ INTERNAL_TRACE_EVENT_ADD(TRACE_EVENT_PHASE_CLOCK_SYNC, "__metadata", \
+ "clock_sync", TRACE_EVENT_FLAG_NONE, "sync_id", \
+ sync_id)
+#define TRACE_EVENT_CLOCK_SYNC_ISSUER(sync_id, issue_ts, issue_end_ts) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_TIMESTAMP( \
+ TRACE_EVENT_PHASE_CLOCK_SYNC, "__metadata", "clock_sync", issue_end_ts, \
+ TRACE_EVENT_FLAG_NONE, "sync_id", sync_id, "issue_ts", issue_ts)
+
+// Object events.
+#define TRACE_EVENT_OBJECT_CREATED_WITH_ID(category_group, name, id) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_CREATE_OBJECT, \
+ category_group, name, id, \
+ TRACE_EVENT_FLAG_NONE)
+
+#define TRACE_EVENT_OBJECT_SNAPSHOT_WITH_ID(category_group, name, id, \
+ snapshot) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID( \
+ TRACE_EVENT_PHASE_SNAPSHOT_OBJECT, category_group, name, id, \
+ TRACE_EVENT_FLAG_NONE, "snapshot", snapshot)
+
+#define TRACE_EVENT_OBJECT_SNAPSHOT_WITH_ID_AND_TIMESTAMP( \
+ category_group, name, id, timestamp, snapshot) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID_TID_AND_TIMESTAMP( \
+ TRACE_EVENT_PHASE_SNAPSHOT_OBJECT, category_group, name, id, \
+ TRACE_EVENT_API_CURRENT_THREAD_ID, timestamp, TRACE_EVENT_FLAG_NONE, \
+ "snapshot", snapshot)
+
+#define TRACE_EVENT_OBJECT_DELETED_WITH_ID(category_group, name, id) \
+ INTERNAL_TRACE_EVENT_ADD_WITH_ID(TRACE_EVENT_PHASE_DELETE_OBJECT, \
+ category_group, name, id, \
+ TRACE_EVENT_FLAG_NONE)
+
+// TODO(skyostil): Implement binary-efficient trace events.
+#define TRACE_EVENT_BINARY_EFFICIENT0 TRACE_EVENT0
+#define TRACE_EVENT_BINARY_EFFICIENT1 TRACE_EVENT1
+#define TRACE_EVENT_BINARY_EFFICIENT2 TRACE_EVENT2
+
+// Macro to efficiently determine if a given category group is enabled.
+#define TRACE_EVENT_CATEGORY_GROUP_ENABLED(category, ret) \
+ do { \
+ *ret = TRACE_EVENT_CATEGORY_ENABLED(category); \
+ } while (0)
+
+// Macro to efficiently determine, through polling, if a new trace has begun.
+#define TRACE_EVENT_IS_NEW_TRACE(ret) \
+ do { \
+ static int PERFETTO_UID(prev) = -1; \
+ int PERFETTO_UID(curr) = \
+ ::perfetto::internal::TrackEventInternal::GetSessionCount(); \
+ if (PERFETTO_TRACK_EVENT_NAMESPACE::TrackEvent::IsEnabled() && \
+ (PERFETTO_UID(prev) != PERFETTO_UID(curr))) { \
+ *(ret) = true; \
+ PERFETTO_UID(prev) = PERFETTO_UID(curr); \
+ } else { \
+ *(ret) = false; \
+ } \
+ } while (0)
+
+// ----------------------------------------------------------------------------
+// Legacy tracing API (adapted from trace_event.h).
+// ----------------------------------------------------------------------------
+
+// We can implement the following subset of the legacy tracing API without
+// involvement from the embedder. APIs such as TRACE_EVENT_API_ADD_TRACE_EVENT
+// are still up to the embedder to define.
+
+#define TRACE_STR_COPY(str) \
+ ::perfetto::DynamicString { ::perfetto::internal::PossiblyNull(str) }
+
+#define TRACE_ID_WITH_SCOPE(scope, ...) \
+ ::perfetto::internal::LegacyTraceId::WithScope(scope, ##__VA_ARGS__)
+
+// Use this for ids that are unique across processes. This allows different
+// processes to use the same id to refer to the same event.
+#define TRACE_ID_GLOBAL(id) ::perfetto::internal::LegacyTraceId::GlobalId(id)
+
+// Use this for ids that are unique within a single process. This allows
+// different processes to use the same id to refer to different events.
+#define TRACE_ID_LOCAL(id) ::perfetto::internal::LegacyTraceId::LocalId(id)
+
+// Returns a pointer to a uint8_t which indicates whether tracing is enabled for
+// the given category or not. A zero value means tracing is disabled and
+// non-zero indicates at least one tracing session for this category is active.
+// Note that callers should not make any assumptions at what each bit represents
+// in the status byte. Does not support dynamic categories.
+#define TRACE_EVENT_API_GET_CATEGORY_GROUP_ENABLED(category) \
+ reinterpret_cast<const uint8_t*>( \
+ [&] { \
+ static_assert( \
+ !std::is_same<::perfetto::DynamicCategory, \
+ decltype(category)>::value, \
+ "Enabled flag pointers are not supported for dynamic trace " \
+ "categories."); \
+ }, \
+ PERFETTO_TRACK_EVENT_NAMESPACE::internal::kCategoryRegistry \
+ .GetCategoryState( \
+ PERFETTO_TRACK_EVENT_NAMESPACE::internal::kCategoryRegistry \
+ .Find(category, /*is_dynamic=*/false)))
+
+// Given a pointer returned by TRACE_EVENT_API_GET_CATEGORY_GROUP_ENABLED,
+// yields a pointer to the name of the corresponding category group.
+#define TRACE_EVENT_API_GET_CATEGORY_GROUP_NAME(category_enabled_ptr) \
+ PERFETTO_TRACK_EVENT_NAMESPACE::internal::kCategoryRegistry \
+ .GetCategory( \
+ category_enabled_ptr - \
+ reinterpret_cast<const uint8_t*>( \
+ PERFETTO_TRACK_EVENT_NAMESPACE::internal::kCategoryRegistry \
+ .GetCategoryState(0u))) \
+ ->name
+
+#endif // PERFETTO_ENABLE_LEGACY_TRACE_EVENTS
+
+#endif // INCLUDE_PERFETTO_TRACING_TRACK_EVENT_LEGACY_H_
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_TRACING_H_
+#define INCLUDE_PERFETTO_TRACING_H_
+
+// This headers wraps all the headers necessary to use the public Perfetto
+// Tracing API. Embedders should preferably use this one header to avoid having
+// to figure out the various set of header required for each class.
+// The only exception to this should be large projects where build time is a
+// concern (e.g. chromium), which migh prefer sticking to strict IWYU.
+
+// gen_amalgamated expanded: #include "perfetto/base/time.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/buffer_exhausted_policy.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/console_interceptor.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/core/data_source_config.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/core/data_source_descriptor.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/core/trace_config.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/data_source.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/interceptor.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/platform.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/tracing.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/tracing_backend.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/track_event.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/track_event_interned_data_index.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/track_event_legacy.h"
+// gen_amalgamated expanded: #include "perfetto/tracing/track_event_state_tracker.h"
+
+#endif // INCLUDE_PERFETTO_TRACING_H_
+// gen_amalgamated begin header: gen/protos/perfetto/common/android_energy_consumer_descriptor.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_ANDROID_ENERGY_CONSUMER_DESCRIPTOR_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_ANDROID_ENERGY_CONSUMER_DESCRIPTOR_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class AndroidEnergyConsumerDescriptor;
+class AndroidEnergyConsumer;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+class PERFETTO_EXPORT_COMPONENT AndroidEnergyConsumerDescriptor : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kEnergyConsumersFieldNumber = 1,
+ };
+
+ AndroidEnergyConsumerDescriptor();
+ ~AndroidEnergyConsumerDescriptor() override;
+ AndroidEnergyConsumerDescriptor(AndroidEnergyConsumerDescriptor&&) noexcept;
+ AndroidEnergyConsumerDescriptor& operator=(AndroidEnergyConsumerDescriptor&&);
+ AndroidEnergyConsumerDescriptor(const AndroidEnergyConsumerDescriptor&);
+ AndroidEnergyConsumerDescriptor& operator=(const AndroidEnergyConsumerDescriptor&);
+ bool operator==(const AndroidEnergyConsumerDescriptor&) const;
+ bool operator!=(const AndroidEnergyConsumerDescriptor& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ const std::vector<AndroidEnergyConsumer>& energy_consumers() const { return energy_consumers_; }
+ std::vector<AndroidEnergyConsumer>* mutable_energy_consumers() { return &energy_consumers_; }
+ int energy_consumers_size() const;
+ void clear_energy_consumers();
+ AndroidEnergyConsumer* add_energy_consumers();
+
+ private:
+ std::vector<AndroidEnergyConsumer> energy_consumers_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT AndroidEnergyConsumer : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kEnergyConsumerIdFieldNumber = 1,
+ kOrdinalFieldNumber = 2,
+ kTypeFieldNumber = 3,
+ kNameFieldNumber = 4,
+ };
+
+ AndroidEnergyConsumer();
+ ~AndroidEnergyConsumer() override;
+ AndroidEnergyConsumer(AndroidEnergyConsumer&&) noexcept;
+ AndroidEnergyConsumer& operator=(AndroidEnergyConsumer&&);
+ AndroidEnergyConsumer(const AndroidEnergyConsumer&);
+ AndroidEnergyConsumer& operator=(const AndroidEnergyConsumer&);
+ bool operator==(const AndroidEnergyConsumer&) const;
+ bool operator!=(const AndroidEnergyConsumer& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_energy_consumer_id() const { return _has_field_[1]; }
+ int32_t energy_consumer_id() const { return energy_consumer_id_; }
+ void set_energy_consumer_id(int32_t value) { energy_consumer_id_ = value; _has_field_.set(1); }
+
+ bool has_ordinal() const { return _has_field_[2]; }
+ int32_t ordinal() const { return ordinal_; }
+ void set_ordinal(int32_t value) { ordinal_ = value; _has_field_.set(2); }
+
+ bool has_type() const { return _has_field_[3]; }
+ const std::string& type() const { return type_; }
+ void set_type(const std::string& value) { type_ = value; _has_field_.set(3); }
+
+ bool has_name() const { return _has_field_[4]; }
+ const std::string& name() const { return name_; }
+ void set_name(const std::string& value) { name_ = value; _has_field_.set(4); }
+
+ private:
+ int32_t energy_consumer_id_{};
+ int32_t ordinal_{};
+ std::string type_{};
+ std::string name_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<5> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_ANDROID_ENERGY_CONSUMER_DESCRIPTOR_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/common/android_log_constants.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_ANDROID_LOG_CONSTANTS_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_ANDROID_LOG_CONSTANTS_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+enum AndroidLogId : int;
+enum AndroidLogPriority : int;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+enum AndroidLogId : int {
+ LID_DEFAULT = 0,
+ LID_RADIO = 1,
+ LID_EVENTS = 2,
+ LID_SYSTEM = 3,
+ LID_CRASH = 4,
+ LID_STATS = 5,
+ LID_SECURITY = 6,
+ LID_KERNEL = 7,
+};
+enum AndroidLogPriority : int {
+ PRIO_UNSPECIFIED = 0,
+ PRIO_UNUSED = 1,
+ PRIO_VERBOSE = 2,
+ PRIO_DEBUG = 3,
+ PRIO_INFO = 4,
+ PRIO_WARN = 5,
+ PRIO_ERROR = 6,
+ PRIO_FATAL = 7,
+};
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_ANDROID_LOG_CONSTANTS_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/common/builtin_clock.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_BUILTIN_CLOCK_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_BUILTIN_CLOCK_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+enum BuiltinClock : int;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+enum BuiltinClock : int {
+ BUILTIN_CLOCK_UNKNOWN = 0,
+ BUILTIN_CLOCK_REALTIME = 1,
+ BUILTIN_CLOCK_REALTIME_COARSE = 2,
+ BUILTIN_CLOCK_MONOTONIC = 3,
+ BUILTIN_CLOCK_MONOTONIC_COARSE = 4,
+ BUILTIN_CLOCK_MONOTONIC_RAW = 5,
+ BUILTIN_CLOCK_BOOTTIME = 6,
+ BUILTIN_CLOCK_MAX_ID = 63,
+};
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_BUILTIN_CLOCK_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/common/commit_data_request.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_COMMIT_DATA_REQUEST_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_COMMIT_DATA_REQUEST_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class CommitDataRequest;
+class CommitDataRequest_ChunkToPatch;
+class CommitDataRequest_ChunkToPatch_Patch;
+class CommitDataRequest_ChunksToMove;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+class PERFETTO_EXPORT_COMPONENT CommitDataRequest : public ::protozero::CppMessageObj {
+ public:
+ using ChunksToMove = CommitDataRequest_ChunksToMove;
+ using ChunkToPatch = CommitDataRequest_ChunkToPatch;
+ enum FieldNumbers {
+ kChunksToMoveFieldNumber = 1,
+ kChunksToPatchFieldNumber = 2,
+ kFlushRequestIdFieldNumber = 3,
+ };
+
+ CommitDataRequest();
+ ~CommitDataRequest() override;
+ CommitDataRequest(CommitDataRequest&&) noexcept;
+ CommitDataRequest& operator=(CommitDataRequest&&);
+ CommitDataRequest(const CommitDataRequest&);
+ CommitDataRequest& operator=(const CommitDataRequest&);
+ bool operator==(const CommitDataRequest&) const;
+ bool operator!=(const CommitDataRequest& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ const std::vector<CommitDataRequest_ChunksToMove>& chunks_to_move() const { return chunks_to_move_; }
+ std::vector<CommitDataRequest_ChunksToMove>* mutable_chunks_to_move() { return &chunks_to_move_; }
+ int chunks_to_move_size() const;
+ void clear_chunks_to_move();
+ CommitDataRequest_ChunksToMove* add_chunks_to_move();
+
+ const std::vector<CommitDataRequest_ChunkToPatch>& chunks_to_patch() const { return chunks_to_patch_; }
+ std::vector<CommitDataRequest_ChunkToPatch>* mutable_chunks_to_patch() { return &chunks_to_patch_; }
+ int chunks_to_patch_size() const;
+ void clear_chunks_to_patch();
+ CommitDataRequest_ChunkToPatch* add_chunks_to_patch();
+
+ bool has_flush_request_id() const { return _has_field_[3]; }
+ uint64_t flush_request_id() const { return flush_request_id_; }
+ void set_flush_request_id(uint64_t value) { flush_request_id_ = value; _has_field_.set(3); }
+
+ private:
+ std::vector<CommitDataRequest_ChunksToMove> chunks_to_move_;
+ std::vector<CommitDataRequest_ChunkToPatch> chunks_to_patch_;
+ uint64_t flush_request_id_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<4> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT CommitDataRequest_ChunkToPatch : public ::protozero::CppMessageObj {
+ public:
+ using Patch = CommitDataRequest_ChunkToPatch_Patch;
+ enum FieldNumbers {
+ kTargetBufferFieldNumber = 1,
+ kWriterIdFieldNumber = 2,
+ kChunkIdFieldNumber = 3,
+ kPatchesFieldNumber = 4,
+ kHasMorePatchesFieldNumber = 5,
+ };
+
+ CommitDataRequest_ChunkToPatch();
+ ~CommitDataRequest_ChunkToPatch() override;
+ CommitDataRequest_ChunkToPatch(CommitDataRequest_ChunkToPatch&&) noexcept;
+ CommitDataRequest_ChunkToPatch& operator=(CommitDataRequest_ChunkToPatch&&);
+ CommitDataRequest_ChunkToPatch(const CommitDataRequest_ChunkToPatch&);
+ CommitDataRequest_ChunkToPatch& operator=(const CommitDataRequest_ChunkToPatch&);
+ bool operator==(const CommitDataRequest_ChunkToPatch&) const;
+ bool operator!=(const CommitDataRequest_ChunkToPatch& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_target_buffer() const { return _has_field_[1]; }
+ uint32_t target_buffer() const { return target_buffer_; }
+ void set_target_buffer(uint32_t value) { target_buffer_ = value; _has_field_.set(1); }
+
+ bool has_writer_id() const { return _has_field_[2]; }
+ uint32_t writer_id() const { return writer_id_; }
+ void set_writer_id(uint32_t value) { writer_id_ = value; _has_field_.set(2); }
+
+ bool has_chunk_id() const { return _has_field_[3]; }
+ uint32_t chunk_id() const { return chunk_id_; }
+ void set_chunk_id(uint32_t value) { chunk_id_ = value; _has_field_.set(3); }
+
+ const std::vector<CommitDataRequest_ChunkToPatch_Patch>& patches() const { return patches_; }
+ std::vector<CommitDataRequest_ChunkToPatch_Patch>* mutable_patches() { return &patches_; }
+ int patches_size() const;
+ void clear_patches();
+ CommitDataRequest_ChunkToPatch_Patch* add_patches();
+
+ bool has_has_more_patches() const { return _has_field_[5]; }
+ bool has_more_patches() const { return has_more_patches_; }
+ void set_has_more_patches(bool value) { has_more_patches_ = value; _has_field_.set(5); }
+
+ private:
+ uint32_t target_buffer_{};
+ uint32_t writer_id_{};
+ uint32_t chunk_id_{};
+ std::vector<CommitDataRequest_ChunkToPatch_Patch> patches_;
+ bool has_more_patches_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<6> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT CommitDataRequest_ChunkToPatch_Patch : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kOffsetFieldNumber = 1,
+ kDataFieldNumber = 2,
+ };
+
+ CommitDataRequest_ChunkToPatch_Patch();
+ ~CommitDataRequest_ChunkToPatch_Patch() override;
+ CommitDataRequest_ChunkToPatch_Patch(CommitDataRequest_ChunkToPatch_Patch&&) noexcept;
+ CommitDataRequest_ChunkToPatch_Patch& operator=(CommitDataRequest_ChunkToPatch_Patch&&);
+ CommitDataRequest_ChunkToPatch_Patch(const CommitDataRequest_ChunkToPatch_Patch&);
+ CommitDataRequest_ChunkToPatch_Patch& operator=(const CommitDataRequest_ChunkToPatch_Patch&);
+ bool operator==(const CommitDataRequest_ChunkToPatch_Patch&) const;
+ bool operator!=(const CommitDataRequest_ChunkToPatch_Patch& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_offset() const { return _has_field_[1]; }
+ uint32_t offset() const { return offset_; }
+ void set_offset(uint32_t value) { offset_ = value; _has_field_.set(1); }
+
+ bool has_data() const { return _has_field_[2]; }
+ const std::string& data() const { return data_; }
+ void set_data(const std::string& value) { data_ = value; _has_field_.set(2); }
+ void set_data(const void* p, size_t s) { data_.assign(reinterpret_cast<const char*>(p), s); _has_field_.set(2); }
+
+ private:
+ uint32_t offset_{};
+ std::string data_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<3> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT CommitDataRequest_ChunksToMove : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kPageFieldNumber = 1,
+ kChunkFieldNumber = 2,
+ kTargetBufferFieldNumber = 3,
+ kDataFieldNumber = 4,
+ };
+
+ CommitDataRequest_ChunksToMove();
+ ~CommitDataRequest_ChunksToMove() override;
+ CommitDataRequest_ChunksToMove(CommitDataRequest_ChunksToMove&&) noexcept;
+ CommitDataRequest_ChunksToMove& operator=(CommitDataRequest_ChunksToMove&&);
+ CommitDataRequest_ChunksToMove(const CommitDataRequest_ChunksToMove&);
+ CommitDataRequest_ChunksToMove& operator=(const CommitDataRequest_ChunksToMove&);
+ bool operator==(const CommitDataRequest_ChunksToMove&) const;
+ bool operator!=(const CommitDataRequest_ChunksToMove& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_page() const { return _has_field_[1]; }
+ uint32_t page() const { return page_; }
+ void set_page(uint32_t value) { page_ = value; _has_field_.set(1); }
+
+ bool has_chunk() const { return _has_field_[2]; }
+ uint32_t chunk() const { return chunk_; }
+ void set_chunk(uint32_t value) { chunk_ = value; _has_field_.set(2); }
+
+ bool has_target_buffer() const { return _has_field_[3]; }
+ uint32_t target_buffer() const { return target_buffer_; }
+ void set_target_buffer(uint32_t value) { target_buffer_ = value; _has_field_.set(3); }
+
+ bool has_data() const { return _has_field_[4]; }
+ const std::string& data() const { return data_; }
+ void set_data(const std::string& value) { data_ = value; _has_field_.set(4); }
+ void set_data(const void* p, size_t s) { data_.assign(reinterpret_cast<const char*>(p), s); _has_field_.set(4); }
+
+ private:
+ uint32_t page_{};
+ uint32_t chunk_{};
+ uint32_t target_buffer_{};
+ std::string data_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<5> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_COMMIT_DATA_REQUEST_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/common/descriptor.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_DESCRIPTOR_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_DESCRIPTOR_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class OneofOptions;
+class EnumValueDescriptorProto;
+class EnumDescriptorProto;
+class OneofDescriptorProto;
+class FieldDescriptorProto;
+class FieldOptions;
+class UninterpretedOption;
+class UninterpretedOption_NamePart;
+class DescriptorProto;
+class DescriptorProto_ReservedRange;
+class FileDescriptorProto;
+class FileDescriptorSet;
+enum FieldDescriptorProto_Type : int;
+enum FieldDescriptorProto_Label : int;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+enum FieldDescriptorProto_Type : int {
+ FieldDescriptorProto_Type_TYPE_DOUBLE = 1,
+ FieldDescriptorProto_Type_TYPE_FLOAT = 2,
+ FieldDescriptorProto_Type_TYPE_INT64 = 3,
+ FieldDescriptorProto_Type_TYPE_UINT64 = 4,
+ FieldDescriptorProto_Type_TYPE_INT32 = 5,
+ FieldDescriptorProto_Type_TYPE_FIXED64 = 6,
+ FieldDescriptorProto_Type_TYPE_FIXED32 = 7,
+ FieldDescriptorProto_Type_TYPE_BOOL = 8,
+ FieldDescriptorProto_Type_TYPE_STRING = 9,
+ FieldDescriptorProto_Type_TYPE_GROUP = 10,
+ FieldDescriptorProto_Type_TYPE_MESSAGE = 11,
+ FieldDescriptorProto_Type_TYPE_BYTES = 12,
+ FieldDescriptorProto_Type_TYPE_UINT32 = 13,
+ FieldDescriptorProto_Type_TYPE_ENUM = 14,
+ FieldDescriptorProto_Type_TYPE_SFIXED32 = 15,
+ FieldDescriptorProto_Type_TYPE_SFIXED64 = 16,
+ FieldDescriptorProto_Type_TYPE_SINT32 = 17,
+ FieldDescriptorProto_Type_TYPE_SINT64 = 18,
+};
+enum FieldDescriptorProto_Label : int {
+ FieldDescriptorProto_Label_LABEL_OPTIONAL = 1,
+ FieldDescriptorProto_Label_LABEL_REQUIRED = 2,
+ FieldDescriptorProto_Label_LABEL_REPEATED = 3,
+};
+
+class PERFETTO_EXPORT_COMPONENT OneofOptions : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ };
+
+ OneofOptions();
+ ~OneofOptions() override;
+ OneofOptions(OneofOptions&&) noexcept;
+ OneofOptions& operator=(OneofOptions&&);
+ OneofOptions(const OneofOptions&);
+ OneofOptions& operator=(const OneofOptions&);
+ bool operator==(const OneofOptions&) const;
+ bool operator!=(const OneofOptions& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ private:
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT EnumValueDescriptorProto : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kNameFieldNumber = 1,
+ kNumberFieldNumber = 2,
+ };
+
+ EnumValueDescriptorProto();
+ ~EnumValueDescriptorProto() override;
+ EnumValueDescriptorProto(EnumValueDescriptorProto&&) noexcept;
+ EnumValueDescriptorProto& operator=(EnumValueDescriptorProto&&);
+ EnumValueDescriptorProto(const EnumValueDescriptorProto&);
+ EnumValueDescriptorProto& operator=(const EnumValueDescriptorProto&);
+ bool operator==(const EnumValueDescriptorProto&) const;
+ bool operator!=(const EnumValueDescriptorProto& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_name() const { return _has_field_[1]; }
+ const std::string& name() const { return name_; }
+ void set_name(const std::string& value) { name_ = value; _has_field_.set(1); }
+
+ bool has_number() const { return _has_field_[2]; }
+ int32_t number() const { return number_; }
+ void set_number(int32_t value) { number_ = value; _has_field_.set(2); }
+
+ private:
+ std::string name_{};
+ int32_t number_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<3> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT EnumDescriptorProto : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kNameFieldNumber = 1,
+ kValueFieldNumber = 2,
+ kReservedNameFieldNumber = 5,
+ };
+
+ EnumDescriptorProto();
+ ~EnumDescriptorProto() override;
+ EnumDescriptorProto(EnumDescriptorProto&&) noexcept;
+ EnumDescriptorProto& operator=(EnumDescriptorProto&&);
+ EnumDescriptorProto(const EnumDescriptorProto&);
+ EnumDescriptorProto& operator=(const EnumDescriptorProto&);
+ bool operator==(const EnumDescriptorProto&) const;
+ bool operator!=(const EnumDescriptorProto& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_name() const { return _has_field_[1]; }
+ const std::string& name() const { return name_; }
+ void set_name(const std::string& value) { name_ = value; _has_field_.set(1); }
+
+ const std::vector<EnumValueDescriptorProto>& value() const { return value_; }
+ std::vector<EnumValueDescriptorProto>* mutable_value() { return &value_; }
+ int value_size() const;
+ void clear_value();
+ EnumValueDescriptorProto* add_value();
+
+ const std::vector<std::string>& reserved_name() const { return reserved_name_; }
+ std::vector<std::string>* mutable_reserved_name() { return &reserved_name_; }
+ int reserved_name_size() const { return static_cast<int>(reserved_name_.size()); }
+ void clear_reserved_name() { reserved_name_.clear(); }
+ void add_reserved_name(std::string value) { reserved_name_.emplace_back(value); }
+ std::string* add_reserved_name() { reserved_name_.emplace_back(); return &reserved_name_.back(); }
+
+ private:
+ std::string name_{};
+ std::vector<EnumValueDescriptorProto> value_;
+ std::vector<std::string> reserved_name_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<6> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT OneofDescriptorProto : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kNameFieldNumber = 1,
+ kOptionsFieldNumber = 2,
+ };
+
+ OneofDescriptorProto();
+ ~OneofDescriptorProto() override;
+ OneofDescriptorProto(OneofDescriptorProto&&) noexcept;
+ OneofDescriptorProto& operator=(OneofDescriptorProto&&);
+ OneofDescriptorProto(const OneofDescriptorProto&);
+ OneofDescriptorProto& operator=(const OneofDescriptorProto&);
+ bool operator==(const OneofDescriptorProto&) const;
+ bool operator!=(const OneofDescriptorProto& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_name() const { return _has_field_[1]; }
+ const std::string& name() const { return name_; }
+ void set_name(const std::string& value) { name_ = value; _has_field_.set(1); }
+
+ bool has_options() const { return _has_field_[2]; }
+ const OneofOptions& options() const { return *options_; }
+ OneofOptions* mutable_options() { _has_field_.set(2); return options_.get(); }
+
+ private:
+ std::string name_{};
+ ::protozero::CopyablePtr<OneofOptions> options_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<3> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT FieldDescriptorProto : public ::protozero::CppMessageObj {
+ public:
+ using Type = FieldDescriptorProto_Type;
+ static constexpr auto TYPE_DOUBLE = FieldDescriptorProto_Type_TYPE_DOUBLE;
+ static constexpr auto TYPE_FLOAT = FieldDescriptorProto_Type_TYPE_FLOAT;
+ static constexpr auto TYPE_INT64 = FieldDescriptorProto_Type_TYPE_INT64;
+ static constexpr auto TYPE_UINT64 = FieldDescriptorProto_Type_TYPE_UINT64;
+ static constexpr auto TYPE_INT32 = FieldDescriptorProto_Type_TYPE_INT32;
+ static constexpr auto TYPE_FIXED64 = FieldDescriptorProto_Type_TYPE_FIXED64;
+ static constexpr auto TYPE_FIXED32 = FieldDescriptorProto_Type_TYPE_FIXED32;
+ static constexpr auto TYPE_BOOL = FieldDescriptorProto_Type_TYPE_BOOL;
+ static constexpr auto TYPE_STRING = FieldDescriptorProto_Type_TYPE_STRING;
+ static constexpr auto TYPE_GROUP = FieldDescriptorProto_Type_TYPE_GROUP;
+ static constexpr auto TYPE_MESSAGE = FieldDescriptorProto_Type_TYPE_MESSAGE;
+ static constexpr auto TYPE_BYTES = FieldDescriptorProto_Type_TYPE_BYTES;
+ static constexpr auto TYPE_UINT32 = FieldDescriptorProto_Type_TYPE_UINT32;
+ static constexpr auto TYPE_ENUM = FieldDescriptorProto_Type_TYPE_ENUM;
+ static constexpr auto TYPE_SFIXED32 = FieldDescriptorProto_Type_TYPE_SFIXED32;
+ static constexpr auto TYPE_SFIXED64 = FieldDescriptorProto_Type_TYPE_SFIXED64;
+ static constexpr auto TYPE_SINT32 = FieldDescriptorProto_Type_TYPE_SINT32;
+ static constexpr auto TYPE_SINT64 = FieldDescriptorProto_Type_TYPE_SINT64;
+ static constexpr auto Type_MIN = FieldDescriptorProto_Type_TYPE_DOUBLE;
+ static constexpr auto Type_MAX = FieldDescriptorProto_Type_TYPE_SINT64;
+ using Label = FieldDescriptorProto_Label;
+ static constexpr auto LABEL_OPTIONAL = FieldDescriptorProto_Label_LABEL_OPTIONAL;
+ static constexpr auto LABEL_REQUIRED = FieldDescriptorProto_Label_LABEL_REQUIRED;
+ static constexpr auto LABEL_REPEATED = FieldDescriptorProto_Label_LABEL_REPEATED;
+ static constexpr auto Label_MIN = FieldDescriptorProto_Label_LABEL_OPTIONAL;
+ static constexpr auto Label_MAX = FieldDescriptorProto_Label_LABEL_REPEATED;
+ enum FieldNumbers {
+ kNameFieldNumber = 1,
+ kNumberFieldNumber = 3,
+ kLabelFieldNumber = 4,
+ kTypeFieldNumber = 5,
+ kTypeNameFieldNumber = 6,
+ kExtendeeFieldNumber = 2,
+ kDefaultValueFieldNumber = 7,
+ kOptionsFieldNumber = 8,
+ kOneofIndexFieldNumber = 9,
+ };
+
+ FieldDescriptorProto();
+ ~FieldDescriptorProto() override;
+ FieldDescriptorProto(FieldDescriptorProto&&) noexcept;
+ FieldDescriptorProto& operator=(FieldDescriptorProto&&);
+ FieldDescriptorProto(const FieldDescriptorProto&);
+ FieldDescriptorProto& operator=(const FieldDescriptorProto&);
+ bool operator==(const FieldDescriptorProto&) const;
+ bool operator!=(const FieldDescriptorProto& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_name() const { return _has_field_[1]; }
+ const std::string& name() const { return name_; }
+ void set_name(const std::string& value) { name_ = value; _has_field_.set(1); }
+
+ bool has_number() const { return _has_field_[3]; }
+ int32_t number() const { return number_; }
+ void set_number(int32_t value) { number_ = value; _has_field_.set(3); }
+
+ bool has_label() const { return _has_field_[4]; }
+ FieldDescriptorProto_Label label() const { return label_; }
+ void set_label(FieldDescriptorProto_Label value) { label_ = value; _has_field_.set(4); }
+
+ bool has_type() const { return _has_field_[5]; }
+ FieldDescriptorProto_Type type() const { return type_; }
+ void set_type(FieldDescriptorProto_Type value) { type_ = value; _has_field_.set(5); }
+
+ bool has_type_name() const { return _has_field_[6]; }
+ const std::string& type_name() const { return type_name_; }
+ void set_type_name(const std::string& value) { type_name_ = value; _has_field_.set(6); }
+
+ bool has_extendee() const { return _has_field_[2]; }
+ const std::string& extendee() const { return extendee_; }
+ void set_extendee(const std::string& value) { extendee_ = value; _has_field_.set(2); }
+
+ bool has_default_value() const { return _has_field_[7]; }
+ const std::string& default_value() const { return default_value_; }
+ void set_default_value(const std::string& value) { default_value_ = value; _has_field_.set(7); }
+
+ bool has_options() const { return _has_field_[8]; }
+ const FieldOptions& options() const { return *options_; }
+ FieldOptions* mutable_options() { _has_field_.set(8); return options_.get(); }
+
+ bool has_oneof_index() const { return _has_field_[9]; }
+ int32_t oneof_index() const { return oneof_index_; }
+ void set_oneof_index(int32_t value) { oneof_index_ = value; _has_field_.set(9); }
+
+ private:
+ std::string name_{};
+ int32_t number_{};
+ FieldDescriptorProto_Label label_{};
+ FieldDescriptorProto_Type type_{};
+ std::string type_name_{};
+ std::string extendee_{};
+ std::string default_value_{};
+ ::protozero::CopyablePtr<FieldOptions> options_;
+ int32_t oneof_index_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<10> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT FieldOptions : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kPackedFieldNumber = 2,
+ kUninterpretedOptionFieldNumber = 999,
+ };
+
+ FieldOptions();
+ ~FieldOptions() override;
+ FieldOptions(FieldOptions&&) noexcept;
+ FieldOptions& operator=(FieldOptions&&);
+ FieldOptions(const FieldOptions&);
+ FieldOptions& operator=(const FieldOptions&);
+ bool operator==(const FieldOptions&) const;
+ bool operator!=(const FieldOptions& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_packed() const { return _has_field_[2]; }
+ bool packed() const { return packed_; }
+ void set_packed(bool value) { packed_ = value; _has_field_.set(2); }
+
+ const std::vector<UninterpretedOption>& uninterpreted_option() const { return uninterpreted_option_; }
+ std::vector<UninterpretedOption>* mutable_uninterpreted_option() { return &uninterpreted_option_; }
+ int uninterpreted_option_size() const;
+ void clear_uninterpreted_option();
+ UninterpretedOption* add_uninterpreted_option();
+
+ private:
+ bool packed_{};
+ std::vector<UninterpretedOption> uninterpreted_option_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<1000> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT UninterpretedOption : public ::protozero::CppMessageObj {
+ public:
+ using NamePart = UninterpretedOption_NamePart;
+ enum FieldNumbers {
+ kNameFieldNumber = 2,
+ kIdentifierValueFieldNumber = 3,
+ kPositiveIntValueFieldNumber = 4,
+ kNegativeIntValueFieldNumber = 5,
+ kDoubleValueFieldNumber = 6,
+ kStringValueFieldNumber = 7,
+ kAggregateValueFieldNumber = 8,
+ };
+
+ UninterpretedOption();
+ ~UninterpretedOption() override;
+ UninterpretedOption(UninterpretedOption&&) noexcept;
+ UninterpretedOption& operator=(UninterpretedOption&&);
+ UninterpretedOption(const UninterpretedOption&);
+ UninterpretedOption& operator=(const UninterpretedOption&);
+ bool operator==(const UninterpretedOption&) const;
+ bool operator!=(const UninterpretedOption& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ const std::vector<UninterpretedOption_NamePart>& name() const { return name_; }
+ std::vector<UninterpretedOption_NamePart>* mutable_name() { return &name_; }
+ int name_size() const;
+ void clear_name();
+ UninterpretedOption_NamePart* add_name();
+
+ bool has_identifier_value() const { return _has_field_[3]; }
+ const std::string& identifier_value() const { return identifier_value_; }
+ void set_identifier_value(const std::string& value) { identifier_value_ = value; _has_field_.set(3); }
+
+ bool has_positive_int_value() const { return _has_field_[4]; }
+ uint64_t positive_int_value() const { return positive_int_value_; }
+ void set_positive_int_value(uint64_t value) { positive_int_value_ = value; _has_field_.set(4); }
+
+ bool has_negative_int_value() const { return _has_field_[5]; }
+ int64_t negative_int_value() const { return negative_int_value_; }
+ void set_negative_int_value(int64_t value) { negative_int_value_ = value; _has_field_.set(5); }
+
+ bool has_double_value() const { return _has_field_[6]; }
+ double double_value() const { return double_value_; }
+ void set_double_value(double value) { double_value_ = value; _has_field_.set(6); }
+
+ bool has_string_value() const { return _has_field_[7]; }
+ const std::string& string_value() const { return string_value_; }
+ void set_string_value(const std::string& value) { string_value_ = value; _has_field_.set(7); }
+ void set_string_value(const void* p, size_t s) { string_value_.assign(reinterpret_cast<const char*>(p), s); _has_field_.set(7); }
+
+ bool has_aggregate_value() const { return _has_field_[8]; }
+ const std::string& aggregate_value() const { return aggregate_value_; }
+ void set_aggregate_value(const std::string& value) { aggregate_value_ = value; _has_field_.set(8); }
+
+ private:
+ std::vector<UninterpretedOption_NamePart> name_;
+ std::string identifier_value_{};
+ uint64_t positive_int_value_{};
+ int64_t negative_int_value_{};
+ double double_value_{};
+ std::string string_value_{};
+ std::string aggregate_value_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<9> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT UninterpretedOption_NamePart : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kNamePartFieldNumber = 1,
+ kIsExtensionFieldNumber = 2,
+ };
+
+ UninterpretedOption_NamePart();
+ ~UninterpretedOption_NamePart() override;
+ UninterpretedOption_NamePart(UninterpretedOption_NamePart&&) noexcept;
+ UninterpretedOption_NamePart& operator=(UninterpretedOption_NamePart&&);
+ UninterpretedOption_NamePart(const UninterpretedOption_NamePart&);
+ UninterpretedOption_NamePart& operator=(const UninterpretedOption_NamePart&);
+ bool operator==(const UninterpretedOption_NamePart&) const;
+ bool operator!=(const UninterpretedOption_NamePart& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_name_part() const { return _has_field_[1]; }
+ const std::string& name_part() const { return name_part_; }
+ void set_name_part(const std::string& value) { name_part_ = value; _has_field_.set(1); }
+
+ bool has_is_extension() const { return _has_field_[2]; }
+ bool is_extension() const { return is_extension_; }
+ void set_is_extension(bool value) { is_extension_ = value; _has_field_.set(2); }
+
+ private:
+ std::string name_part_{};
+ bool is_extension_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<3> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT DescriptorProto : public ::protozero::CppMessageObj {
+ public:
+ using ReservedRange = DescriptorProto_ReservedRange;
+ enum FieldNumbers {
+ kNameFieldNumber = 1,
+ kFieldFieldNumber = 2,
+ kExtensionFieldNumber = 6,
+ kNestedTypeFieldNumber = 3,
+ kEnumTypeFieldNumber = 4,
+ kOneofDeclFieldNumber = 8,
+ kReservedRangeFieldNumber = 9,
+ kReservedNameFieldNumber = 10,
+ };
+
+ DescriptorProto();
+ ~DescriptorProto() override;
+ DescriptorProto(DescriptorProto&&) noexcept;
+ DescriptorProto& operator=(DescriptorProto&&);
+ DescriptorProto(const DescriptorProto&);
+ DescriptorProto& operator=(const DescriptorProto&);
+ bool operator==(const DescriptorProto&) const;
+ bool operator!=(const DescriptorProto& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_name() const { return _has_field_[1]; }
+ const std::string& name() const { return name_; }
+ void set_name(const std::string& value) { name_ = value; _has_field_.set(1); }
+
+ const std::vector<FieldDescriptorProto>& field() const { return field_; }
+ std::vector<FieldDescriptorProto>* mutable_field() { return &field_; }
+ int field_size() const;
+ void clear_field();
+ FieldDescriptorProto* add_field();
+
+ const std::vector<FieldDescriptorProto>& extension() const { return extension_; }
+ std::vector<FieldDescriptorProto>* mutable_extension() { return &extension_; }
+ int extension_size() const;
+ void clear_extension();
+ FieldDescriptorProto* add_extension();
+
+ const std::vector<DescriptorProto>& nested_type() const { return nested_type_; }
+ std::vector<DescriptorProto>* mutable_nested_type() { return &nested_type_; }
+ int nested_type_size() const;
+ void clear_nested_type();
+ DescriptorProto* add_nested_type();
+
+ const std::vector<EnumDescriptorProto>& enum_type() const { return enum_type_; }
+ std::vector<EnumDescriptorProto>* mutable_enum_type() { return &enum_type_; }
+ int enum_type_size() const;
+ void clear_enum_type();
+ EnumDescriptorProto* add_enum_type();
+
+ const std::vector<OneofDescriptorProto>& oneof_decl() const { return oneof_decl_; }
+ std::vector<OneofDescriptorProto>* mutable_oneof_decl() { return &oneof_decl_; }
+ int oneof_decl_size() const;
+ void clear_oneof_decl();
+ OneofDescriptorProto* add_oneof_decl();
+
+ const std::vector<DescriptorProto_ReservedRange>& reserved_range() const { return reserved_range_; }
+ std::vector<DescriptorProto_ReservedRange>* mutable_reserved_range() { return &reserved_range_; }
+ int reserved_range_size() const;
+ void clear_reserved_range();
+ DescriptorProto_ReservedRange* add_reserved_range();
+
+ const std::vector<std::string>& reserved_name() const { return reserved_name_; }
+ std::vector<std::string>* mutable_reserved_name() { return &reserved_name_; }
+ int reserved_name_size() const { return static_cast<int>(reserved_name_.size()); }
+ void clear_reserved_name() { reserved_name_.clear(); }
+ void add_reserved_name(std::string value) { reserved_name_.emplace_back(value); }
+ std::string* add_reserved_name() { reserved_name_.emplace_back(); return &reserved_name_.back(); }
+
+ private:
+ std::string name_{};
+ std::vector<FieldDescriptorProto> field_;
+ std::vector<FieldDescriptorProto> extension_;
+ std::vector<DescriptorProto> nested_type_;
+ std::vector<EnumDescriptorProto> enum_type_;
+ std::vector<OneofDescriptorProto> oneof_decl_;
+ std::vector<DescriptorProto_ReservedRange> reserved_range_;
+ std::vector<std::string> reserved_name_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<11> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT DescriptorProto_ReservedRange : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kStartFieldNumber = 1,
+ kEndFieldNumber = 2,
+ };
+
+ DescriptorProto_ReservedRange();
+ ~DescriptorProto_ReservedRange() override;
+ DescriptorProto_ReservedRange(DescriptorProto_ReservedRange&&) noexcept;
+ DescriptorProto_ReservedRange& operator=(DescriptorProto_ReservedRange&&);
+ DescriptorProto_ReservedRange(const DescriptorProto_ReservedRange&);
+ DescriptorProto_ReservedRange& operator=(const DescriptorProto_ReservedRange&);
+ bool operator==(const DescriptorProto_ReservedRange&) const;
+ bool operator!=(const DescriptorProto_ReservedRange& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_start() const { return _has_field_[1]; }
+ int32_t start() const { return start_; }
+ void set_start(int32_t value) { start_ = value; _has_field_.set(1); }
+
+ bool has_end() const { return _has_field_[2]; }
+ int32_t end() const { return end_; }
+ void set_end(int32_t value) { end_ = value; _has_field_.set(2); }
+
+ private:
+ int32_t start_{};
+ int32_t end_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<3> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT FileDescriptorProto : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kNameFieldNumber = 1,
+ kPackageFieldNumber = 2,
+ kDependencyFieldNumber = 3,
+ kPublicDependencyFieldNumber = 10,
+ kWeakDependencyFieldNumber = 11,
+ kMessageTypeFieldNumber = 4,
+ kEnumTypeFieldNumber = 5,
+ kExtensionFieldNumber = 7,
+ };
+
+ FileDescriptorProto();
+ ~FileDescriptorProto() override;
+ FileDescriptorProto(FileDescriptorProto&&) noexcept;
+ FileDescriptorProto& operator=(FileDescriptorProto&&);
+ FileDescriptorProto(const FileDescriptorProto&);
+ FileDescriptorProto& operator=(const FileDescriptorProto&);
+ bool operator==(const FileDescriptorProto&) const;
+ bool operator!=(const FileDescriptorProto& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_name() const { return _has_field_[1]; }
+ const std::string& name() const { return name_; }
+ void set_name(const std::string& value) { name_ = value; _has_field_.set(1); }
+
+ bool has_package() const { return _has_field_[2]; }
+ const std::string& package() const { return package_; }
+ void set_package(const std::string& value) { package_ = value; _has_field_.set(2); }
+
+ const std::vector<std::string>& dependency() const { return dependency_; }
+ std::vector<std::string>* mutable_dependency() { return &dependency_; }
+ int dependency_size() const { return static_cast<int>(dependency_.size()); }
+ void clear_dependency() { dependency_.clear(); }
+ void add_dependency(std::string value) { dependency_.emplace_back(value); }
+ std::string* add_dependency() { dependency_.emplace_back(); return &dependency_.back(); }
+
+ const std::vector<int32_t>& public_dependency() const { return public_dependency_; }
+ std::vector<int32_t>* mutable_public_dependency() { return &public_dependency_; }
+ int public_dependency_size() const { return static_cast<int>(public_dependency_.size()); }
+ void clear_public_dependency() { public_dependency_.clear(); }
+ void add_public_dependency(int32_t value) { public_dependency_.emplace_back(value); }
+ int32_t* add_public_dependency() { public_dependency_.emplace_back(); return &public_dependency_.back(); }
+
+ const std::vector<int32_t>& weak_dependency() const { return weak_dependency_; }
+ std::vector<int32_t>* mutable_weak_dependency() { return &weak_dependency_; }
+ int weak_dependency_size() const { return static_cast<int>(weak_dependency_.size()); }
+ void clear_weak_dependency() { weak_dependency_.clear(); }
+ void add_weak_dependency(int32_t value) { weak_dependency_.emplace_back(value); }
+ int32_t* add_weak_dependency() { weak_dependency_.emplace_back(); return &weak_dependency_.back(); }
+
+ const std::vector<DescriptorProto>& message_type() const { return message_type_; }
+ std::vector<DescriptorProto>* mutable_message_type() { return &message_type_; }
+ int message_type_size() const;
+ void clear_message_type();
+ DescriptorProto* add_message_type();
+
+ const std::vector<EnumDescriptorProto>& enum_type() const { return enum_type_; }
+ std::vector<EnumDescriptorProto>* mutable_enum_type() { return &enum_type_; }
+ int enum_type_size() const;
+ void clear_enum_type();
+ EnumDescriptorProto* add_enum_type();
+
+ const std::vector<FieldDescriptorProto>& extension() const { return extension_; }
+ std::vector<FieldDescriptorProto>* mutable_extension() { return &extension_; }
+ int extension_size() const;
+ void clear_extension();
+ FieldDescriptorProto* add_extension();
+
+ private:
+ std::string name_{};
+ std::string package_{};
+ std::vector<std::string> dependency_;
+ std::vector<int32_t> public_dependency_;
+ std::vector<int32_t> weak_dependency_;
+ std::vector<DescriptorProto> message_type_;
+ std::vector<EnumDescriptorProto> enum_type_;
+ std::vector<FieldDescriptorProto> extension_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<12> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT FileDescriptorSet : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kFileFieldNumber = 1,
+ };
+
+ FileDescriptorSet();
+ ~FileDescriptorSet() override;
+ FileDescriptorSet(FileDescriptorSet&&) noexcept;
+ FileDescriptorSet& operator=(FileDescriptorSet&&);
+ FileDescriptorSet(const FileDescriptorSet&);
+ FileDescriptorSet& operator=(const FileDescriptorSet&);
+ bool operator==(const FileDescriptorSet&) const;
+ bool operator!=(const FileDescriptorSet& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ const std::vector<FileDescriptorProto>& file() const { return file_; }
+ std::vector<FileDescriptorProto>* mutable_file() { return &file_; }
+ int file_size() const;
+ void clear_file();
+ FileDescriptorProto* add_file();
+
+ private:
+ std::vector<FileDescriptorProto> file_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_DESCRIPTOR_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/common/ftrace_descriptor.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_FTRACE_DESCRIPTOR_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_FTRACE_DESCRIPTOR_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class FtraceDescriptor;
+class FtraceDescriptor_AtraceCategory;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+class PERFETTO_EXPORT_COMPONENT FtraceDescriptor : public ::protozero::CppMessageObj {
+ public:
+ using AtraceCategory = FtraceDescriptor_AtraceCategory;
+ enum FieldNumbers {
+ kAtraceCategoriesFieldNumber = 1,
+ };
+
+ FtraceDescriptor();
+ ~FtraceDescriptor() override;
+ FtraceDescriptor(FtraceDescriptor&&) noexcept;
+ FtraceDescriptor& operator=(FtraceDescriptor&&);
+ FtraceDescriptor(const FtraceDescriptor&);
+ FtraceDescriptor& operator=(const FtraceDescriptor&);
+ bool operator==(const FtraceDescriptor&) const;
+ bool operator!=(const FtraceDescriptor& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ const std::vector<FtraceDescriptor_AtraceCategory>& atrace_categories() const { return atrace_categories_; }
+ std::vector<FtraceDescriptor_AtraceCategory>* mutable_atrace_categories() { return &atrace_categories_; }
+ int atrace_categories_size() const;
+ void clear_atrace_categories();
+ FtraceDescriptor_AtraceCategory* add_atrace_categories();
+
+ private:
+ std::vector<FtraceDescriptor_AtraceCategory> atrace_categories_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT FtraceDescriptor_AtraceCategory : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kNameFieldNumber = 1,
+ kDescriptionFieldNumber = 2,
+ };
+
+ FtraceDescriptor_AtraceCategory();
+ ~FtraceDescriptor_AtraceCategory() override;
+ FtraceDescriptor_AtraceCategory(FtraceDescriptor_AtraceCategory&&) noexcept;
+ FtraceDescriptor_AtraceCategory& operator=(FtraceDescriptor_AtraceCategory&&);
+ FtraceDescriptor_AtraceCategory(const FtraceDescriptor_AtraceCategory&);
+ FtraceDescriptor_AtraceCategory& operator=(const FtraceDescriptor_AtraceCategory&);
+ bool operator==(const FtraceDescriptor_AtraceCategory&) const;
+ bool operator!=(const FtraceDescriptor_AtraceCategory& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_name() const { return _has_field_[1]; }
+ const std::string& name() const { return name_; }
+ void set_name(const std::string& value) { name_ = value; _has_field_.set(1); }
+
+ bool has_description() const { return _has_field_[2]; }
+ const std::string& description() const { return description_; }
+ void set_description(const std::string& value) { description_ = value; _has_field_.set(2); }
+
+ private:
+ std::string name_{};
+ std::string description_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<3> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_FTRACE_DESCRIPTOR_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/common/gpu_counter_descriptor.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_GPU_COUNTER_DESCRIPTOR_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_GPU_COUNTER_DESCRIPTOR_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class GpuCounterDescriptor;
+class GpuCounterDescriptor_GpuCounterBlock;
+class GpuCounterDescriptor_GpuCounterSpec;
+enum GpuCounterDescriptor_GpuCounterGroup : int;
+enum GpuCounterDescriptor_MeasureUnit : int;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+enum GpuCounterDescriptor_GpuCounterGroup : int {
+ GpuCounterDescriptor_GpuCounterGroup_UNCLASSIFIED = 0,
+ GpuCounterDescriptor_GpuCounterGroup_SYSTEM = 1,
+ GpuCounterDescriptor_GpuCounterGroup_VERTICES = 2,
+ GpuCounterDescriptor_GpuCounterGroup_FRAGMENTS = 3,
+ GpuCounterDescriptor_GpuCounterGroup_PRIMITIVES = 4,
+ GpuCounterDescriptor_GpuCounterGroup_MEMORY = 5,
+ GpuCounterDescriptor_GpuCounterGroup_COMPUTE = 6,
+};
+enum GpuCounterDescriptor_MeasureUnit : int {
+ GpuCounterDescriptor_MeasureUnit_NONE = 0,
+ GpuCounterDescriptor_MeasureUnit_BIT = 1,
+ GpuCounterDescriptor_MeasureUnit_KILOBIT = 2,
+ GpuCounterDescriptor_MeasureUnit_MEGABIT = 3,
+ GpuCounterDescriptor_MeasureUnit_GIGABIT = 4,
+ GpuCounterDescriptor_MeasureUnit_TERABIT = 5,
+ GpuCounterDescriptor_MeasureUnit_PETABIT = 6,
+ GpuCounterDescriptor_MeasureUnit_BYTE = 7,
+ GpuCounterDescriptor_MeasureUnit_KILOBYTE = 8,
+ GpuCounterDescriptor_MeasureUnit_MEGABYTE = 9,
+ GpuCounterDescriptor_MeasureUnit_GIGABYTE = 10,
+ GpuCounterDescriptor_MeasureUnit_TERABYTE = 11,
+ GpuCounterDescriptor_MeasureUnit_PETABYTE = 12,
+ GpuCounterDescriptor_MeasureUnit_HERTZ = 13,
+ GpuCounterDescriptor_MeasureUnit_KILOHERTZ = 14,
+ GpuCounterDescriptor_MeasureUnit_MEGAHERTZ = 15,
+ GpuCounterDescriptor_MeasureUnit_GIGAHERTZ = 16,
+ GpuCounterDescriptor_MeasureUnit_TERAHERTZ = 17,
+ GpuCounterDescriptor_MeasureUnit_PETAHERTZ = 18,
+ GpuCounterDescriptor_MeasureUnit_NANOSECOND = 19,
+ GpuCounterDescriptor_MeasureUnit_MICROSECOND = 20,
+ GpuCounterDescriptor_MeasureUnit_MILLISECOND = 21,
+ GpuCounterDescriptor_MeasureUnit_SECOND = 22,
+ GpuCounterDescriptor_MeasureUnit_MINUTE = 23,
+ GpuCounterDescriptor_MeasureUnit_HOUR = 24,
+ GpuCounterDescriptor_MeasureUnit_VERTEX = 25,
+ GpuCounterDescriptor_MeasureUnit_PIXEL = 26,
+ GpuCounterDescriptor_MeasureUnit_TRIANGLE = 27,
+ GpuCounterDescriptor_MeasureUnit_PRIMITIVE = 38,
+ GpuCounterDescriptor_MeasureUnit_FRAGMENT = 39,
+ GpuCounterDescriptor_MeasureUnit_MILLIWATT = 28,
+ GpuCounterDescriptor_MeasureUnit_WATT = 29,
+ GpuCounterDescriptor_MeasureUnit_KILOWATT = 30,
+ GpuCounterDescriptor_MeasureUnit_JOULE = 31,
+ GpuCounterDescriptor_MeasureUnit_VOLT = 32,
+ GpuCounterDescriptor_MeasureUnit_AMPERE = 33,
+ GpuCounterDescriptor_MeasureUnit_CELSIUS = 34,
+ GpuCounterDescriptor_MeasureUnit_FAHRENHEIT = 35,
+ GpuCounterDescriptor_MeasureUnit_KELVIN = 36,
+ GpuCounterDescriptor_MeasureUnit_PERCENT = 37,
+ GpuCounterDescriptor_MeasureUnit_INSTRUCTION = 40,
+};
+
+class PERFETTO_EXPORT_COMPONENT GpuCounterDescriptor : public ::protozero::CppMessageObj {
+ public:
+ using GpuCounterSpec = GpuCounterDescriptor_GpuCounterSpec;
+ using GpuCounterBlock = GpuCounterDescriptor_GpuCounterBlock;
+ using GpuCounterGroup = GpuCounterDescriptor_GpuCounterGroup;
+ static constexpr auto UNCLASSIFIED = GpuCounterDescriptor_GpuCounterGroup_UNCLASSIFIED;
+ static constexpr auto SYSTEM = GpuCounterDescriptor_GpuCounterGroup_SYSTEM;
+ static constexpr auto VERTICES = GpuCounterDescriptor_GpuCounterGroup_VERTICES;
+ static constexpr auto FRAGMENTS = GpuCounterDescriptor_GpuCounterGroup_FRAGMENTS;
+ static constexpr auto PRIMITIVES = GpuCounterDescriptor_GpuCounterGroup_PRIMITIVES;
+ static constexpr auto MEMORY = GpuCounterDescriptor_GpuCounterGroup_MEMORY;
+ static constexpr auto COMPUTE = GpuCounterDescriptor_GpuCounterGroup_COMPUTE;
+ static constexpr auto GpuCounterGroup_MIN = GpuCounterDescriptor_GpuCounterGroup_UNCLASSIFIED;
+ static constexpr auto GpuCounterGroup_MAX = GpuCounterDescriptor_GpuCounterGroup_COMPUTE;
+ using MeasureUnit = GpuCounterDescriptor_MeasureUnit;
+ static constexpr auto NONE = GpuCounterDescriptor_MeasureUnit_NONE;
+ static constexpr auto BIT = GpuCounterDescriptor_MeasureUnit_BIT;
+ static constexpr auto KILOBIT = GpuCounterDescriptor_MeasureUnit_KILOBIT;
+ static constexpr auto MEGABIT = GpuCounterDescriptor_MeasureUnit_MEGABIT;
+ static constexpr auto GIGABIT = GpuCounterDescriptor_MeasureUnit_GIGABIT;
+ static constexpr auto TERABIT = GpuCounterDescriptor_MeasureUnit_TERABIT;
+ static constexpr auto PETABIT = GpuCounterDescriptor_MeasureUnit_PETABIT;
+ static constexpr auto BYTE = GpuCounterDescriptor_MeasureUnit_BYTE;
+ static constexpr auto KILOBYTE = GpuCounterDescriptor_MeasureUnit_KILOBYTE;
+ static constexpr auto MEGABYTE = GpuCounterDescriptor_MeasureUnit_MEGABYTE;
+ static constexpr auto GIGABYTE = GpuCounterDescriptor_MeasureUnit_GIGABYTE;
+ static constexpr auto TERABYTE = GpuCounterDescriptor_MeasureUnit_TERABYTE;
+ static constexpr auto PETABYTE = GpuCounterDescriptor_MeasureUnit_PETABYTE;
+ static constexpr auto HERTZ = GpuCounterDescriptor_MeasureUnit_HERTZ;
+ static constexpr auto KILOHERTZ = GpuCounterDescriptor_MeasureUnit_KILOHERTZ;
+ static constexpr auto MEGAHERTZ = GpuCounterDescriptor_MeasureUnit_MEGAHERTZ;
+ static constexpr auto GIGAHERTZ = GpuCounterDescriptor_MeasureUnit_GIGAHERTZ;
+ static constexpr auto TERAHERTZ = GpuCounterDescriptor_MeasureUnit_TERAHERTZ;
+ static constexpr auto PETAHERTZ = GpuCounterDescriptor_MeasureUnit_PETAHERTZ;
+ static constexpr auto NANOSECOND = GpuCounterDescriptor_MeasureUnit_NANOSECOND;
+ static constexpr auto MICROSECOND = GpuCounterDescriptor_MeasureUnit_MICROSECOND;
+ static constexpr auto MILLISECOND = GpuCounterDescriptor_MeasureUnit_MILLISECOND;
+ static constexpr auto SECOND = GpuCounterDescriptor_MeasureUnit_SECOND;
+ static constexpr auto MINUTE = GpuCounterDescriptor_MeasureUnit_MINUTE;
+ static constexpr auto HOUR = GpuCounterDescriptor_MeasureUnit_HOUR;
+ static constexpr auto VERTEX = GpuCounterDescriptor_MeasureUnit_VERTEX;
+ static constexpr auto PIXEL = GpuCounterDescriptor_MeasureUnit_PIXEL;
+ static constexpr auto TRIANGLE = GpuCounterDescriptor_MeasureUnit_TRIANGLE;
+ static constexpr auto PRIMITIVE = GpuCounterDescriptor_MeasureUnit_PRIMITIVE;
+ static constexpr auto FRAGMENT = GpuCounterDescriptor_MeasureUnit_FRAGMENT;
+ static constexpr auto MILLIWATT = GpuCounterDescriptor_MeasureUnit_MILLIWATT;
+ static constexpr auto WATT = GpuCounterDescriptor_MeasureUnit_WATT;
+ static constexpr auto KILOWATT = GpuCounterDescriptor_MeasureUnit_KILOWATT;
+ static constexpr auto JOULE = GpuCounterDescriptor_MeasureUnit_JOULE;
+ static constexpr auto VOLT = GpuCounterDescriptor_MeasureUnit_VOLT;
+ static constexpr auto AMPERE = GpuCounterDescriptor_MeasureUnit_AMPERE;
+ static constexpr auto CELSIUS = GpuCounterDescriptor_MeasureUnit_CELSIUS;
+ static constexpr auto FAHRENHEIT = GpuCounterDescriptor_MeasureUnit_FAHRENHEIT;
+ static constexpr auto KELVIN = GpuCounterDescriptor_MeasureUnit_KELVIN;
+ static constexpr auto PERCENT = GpuCounterDescriptor_MeasureUnit_PERCENT;
+ static constexpr auto INSTRUCTION = GpuCounterDescriptor_MeasureUnit_INSTRUCTION;
+ static constexpr auto MeasureUnit_MIN = GpuCounterDescriptor_MeasureUnit_NONE;
+ static constexpr auto MeasureUnit_MAX = GpuCounterDescriptor_MeasureUnit_INSTRUCTION;
+ enum FieldNumbers {
+ kSpecsFieldNumber = 1,
+ kBlocksFieldNumber = 2,
+ kMinSamplingPeriodNsFieldNumber = 3,
+ kMaxSamplingPeriodNsFieldNumber = 4,
+ kSupportsInstrumentedSamplingFieldNumber = 5,
+ };
+
+ GpuCounterDescriptor();
+ ~GpuCounterDescriptor() override;
+ GpuCounterDescriptor(GpuCounterDescriptor&&) noexcept;
+ GpuCounterDescriptor& operator=(GpuCounterDescriptor&&);
+ GpuCounterDescriptor(const GpuCounterDescriptor&);
+ GpuCounterDescriptor& operator=(const GpuCounterDescriptor&);
+ bool operator==(const GpuCounterDescriptor&) const;
+ bool operator!=(const GpuCounterDescriptor& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ const std::vector<GpuCounterDescriptor_GpuCounterSpec>& specs() const { return specs_; }
+ std::vector<GpuCounterDescriptor_GpuCounterSpec>* mutable_specs() { return &specs_; }
+ int specs_size() const;
+ void clear_specs();
+ GpuCounterDescriptor_GpuCounterSpec* add_specs();
+
+ const std::vector<GpuCounterDescriptor_GpuCounterBlock>& blocks() const { return blocks_; }
+ std::vector<GpuCounterDescriptor_GpuCounterBlock>* mutable_blocks() { return &blocks_; }
+ int blocks_size() const;
+ void clear_blocks();
+ GpuCounterDescriptor_GpuCounterBlock* add_blocks();
+
+ bool has_min_sampling_period_ns() const { return _has_field_[3]; }
+ uint64_t min_sampling_period_ns() const { return min_sampling_period_ns_; }
+ void set_min_sampling_period_ns(uint64_t value) { min_sampling_period_ns_ = value; _has_field_.set(3); }
+
+ bool has_max_sampling_period_ns() const { return _has_field_[4]; }
+ uint64_t max_sampling_period_ns() const { return max_sampling_period_ns_; }
+ void set_max_sampling_period_ns(uint64_t value) { max_sampling_period_ns_ = value; _has_field_.set(4); }
+
+ bool has_supports_instrumented_sampling() const { return _has_field_[5]; }
+ bool supports_instrumented_sampling() const { return supports_instrumented_sampling_; }
+ void set_supports_instrumented_sampling(bool value) { supports_instrumented_sampling_ = value; _has_field_.set(5); }
+
+ private:
+ std::vector<GpuCounterDescriptor_GpuCounterSpec> specs_;
+ std::vector<GpuCounterDescriptor_GpuCounterBlock> blocks_;
+ uint64_t min_sampling_period_ns_{};
+ uint64_t max_sampling_period_ns_{};
+ bool supports_instrumented_sampling_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<6> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT GpuCounterDescriptor_GpuCounterBlock : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kBlockIdFieldNumber = 1,
+ kBlockCapacityFieldNumber = 2,
+ kNameFieldNumber = 3,
+ kDescriptionFieldNumber = 4,
+ kCounterIdsFieldNumber = 5,
+ };
+
+ GpuCounterDescriptor_GpuCounterBlock();
+ ~GpuCounterDescriptor_GpuCounterBlock() override;
+ GpuCounterDescriptor_GpuCounterBlock(GpuCounterDescriptor_GpuCounterBlock&&) noexcept;
+ GpuCounterDescriptor_GpuCounterBlock& operator=(GpuCounterDescriptor_GpuCounterBlock&&);
+ GpuCounterDescriptor_GpuCounterBlock(const GpuCounterDescriptor_GpuCounterBlock&);
+ GpuCounterDescriptor_GpuCounterBlock& operator=(const GpuCounterDescriptor_GpuCounterBlock&);
+ bool operator==(const GpuCounterDescriptor_GpuCounterBlock&) const;
+ bool operator!=(const GpuCounterDescriptor_GpuCounterBlock& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_block_id() const { return _has_field_[1]; }
+ uint32_t block_id() const { return block_id_; }
+ void set_block_id(uint32_t value) { block_id_ = value; _has_field_.set(1); }
+
+ bool has_block_capacity() const { return _has_field_[2]; }
+ uint32_t block_capacity() const { return block_capacity_; }
+ void set_block_capacity(uint32_t value) { block_capacity_ = value; _has_field_.set(2); }
+
+ bool has_name() const { return _has_field_[3]; }
+ const std::string& name() const { return name_; }
+ void set_name(const std::string& value) { name_ = value; _has_field_.set(3); }
+
+ bool has_description() const { return _has_field_[4]; }
+ const std::string& description() const { return description_; }
+ void set_description(const std::string& value) { description_ = value; _has_field_.set(4); }
+
+ const std::vector<uint32_t>& counter_ids() const { return counter_ids_; }
+ std::vector<uint32_t>* mutable_counter_ids() { return &counter_ids_; }
+ int counter_ids_size() const { return static_cast<int>(counter_ids_.size()); }
+ void clear_counter_ids() { counter_ids_.clear(); }
+ void add_counter_ids(uint32_t value) { counter_ids_.emplace_back(value); }
+ uint32_t* add_counter_ids() { counter_ids_.emplace_back(); return &counter_ids_.back(); }
+
+ private:
+ uint32_t block_id_{};
+ uint32_t block_capacity_{};
+ std::string name_{};
+ std::string description_{};
+ std::vector<uint32_t> counter_ids_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<6> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT GpuCounterDescriptor_GpuCounterSpec : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kCounterIdFieldNumber = 1,
+ kNameFieldNumber = 2,
+ kDescriptionFieldNumber = 3,
+ kIntPeakValueFieldNumber = 5,
+ kDoublePeakValueFieldNumber = 6,
+ kNumeratorUnitsFieldNumber = 7,
+ kDenominatorUnitsFieldNumber = 8,
+ kSelectByDefaultFieldNumber = 9,
+ kGroupsFieldNumber = 10,
+ };
+
+ GpuCounterDescriptor_GpuCounterSpec();
+ ~GpuCounterDescriptor_GpuCounterSpec() override;
+ GpuCounterDescriptor_GpuCounterSpec(GpuCounterDescriptor_GpuCounterSpec&&) noexcept;
+ GpuCounterDescriptor_GpuCounterSpec& operator=(GpuCounterDescriptor_GpuCounterSpec&&);
+ GpuCounterDescriptor_GpuCounterSpec(const GpuCounterDescriptor_GpuCounterSpec&);
+ GpuCounterDescriptor_GpuCounterSpec& operator=(const GpuCounterDescriptor_GpuCounterSpec&);
+ bool operator==(const GpuCounterDescriptor_GpuCounterSpec&) const;
+ bool operator!=(const GpuCounterDescriptor_GpuCounterSpec& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_counter_id() const { return _has_field_[1]; }
+ uint32_t counter_id() const { return counter_id_; }
+ void set_counter_id(uint32_t value) { counter_id_ = value; _has_field_.set(1); }
+
+ bool has_name() const { return _has_field_[2]; }
+ const std::string& name() const { return name_; }
+ void set_name(const std::string& value) { name_ = value; _has_field_.set(2); }
+
+ bool has_description() const { return _has_field_[3]; }
+ const std::string& description() const { return description_; }
+ void set_description(const std::string& value) { description_ = value; _has_field_.set(3); }
+
+ bool has_int_peak_value() const { return _has_field_[5]; }
+ int64_t int_peak_value() const { return int_peak_value_; }
+ void set_int_peak_value(int64_t value) { int_peak_value_ = value; _has_field_.set(5); }
+
+ bool has_double_peak_value() const { return _has_field_[6]; }
+ double double_peak_value() const { return double_peak_value_; }
+ void set_double_peak_value(double value) { double_peak_value_ = value; _has_field_.set(6); }
+
+ const std::vector<GpuCounterDescriptor_MeasureUnit>& numerator_units() const { return numerator_units_; }
+ std::vector<GpuCounterDescriptor_MeasureUnit>* mutable_numerator_units() { return &numerator_units_; }
+ int numerator_units_size() const { return static_cast<int>(numerator_units_.size()); }
+ void clear_numerator_units() { numerator_units_.clear(); }
+ void add_numerator_units(GpuCounterDescriptor_MeasureUnit value) { numerator_units_.emplace_back(value); }
+ GpuCounterDescriptor_MeasureUnit* add_numerator_units() { numerator_units_.emplace_back(); return &numerator_units_.back(); }
+
+ const std::vector<GpuCounterDescriptor_MeasureUnit>& denominator_units() const { return denominator_units_; }
+ std::vector<GpuCounterDescriptor_MeasureUnit>* mutable_denominator_units() { return &denominator_units_; }
+ int denominator_units_size() const { return static_cast<int>(denominator_units_.size()); }
+ void clear_denominator_units() { denominator_units_.clear(); }
+ void add_denominator_units(GpuCounterDescriptor_MeasureUnit value) { denominator_units_.emplace_back(value); }
+ GpuCounterDescriptor_MeasureUnit* add_denominator_units() { denominator_units_.emplace_back(); return &denominator_units_.back(); }
+
+ bool has_select_by_default() const { return _has_field_[9]; }
+ bool select_by_default() const { return select_by_default_; }
+ void set_select_by_default(bool value) { select_by_default_ = value; _has_field_.set(9); }
+
+ const std::vector<GpuCounterDescriptor_GpuCounterGroup>& groups() const { return groups_; }
+ std::vector<GpuCounterDescriptor_GpuCounterGroup>* mutable_groups() { return &groups_; }
+ int groups_size() const { return static_cast<int>(groups_.size()); }
+ void clear_groups() { groups_.clear(); }
+ void add_groups(GpuCounterDescriptor_GpuCounterGroup value) { groups_.emplace_back(value); }
+ GpuCounterDescriptor_GpuCounterGroup* add_groups() { groups_.emplace_back(); return &groups_.back(); }
+
+ private:
+ uint32_t counter_id_{};
+ std::string name_{};
+ std::string description_{};
+ int64_t int_peak_value_{};
+ double double_peak_value_{};
+ std::vector<GpuCounterDescriptor_MeasureUnit> numerator_units_;
+ std::vector<GpuCounterDescriptor_MeasureUnit> denominator_units_;
+ bool select_by_default_{};
+ std::vector<GpuCounterDescriptor_GpuCounterGroup> groups_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<11> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_GPU_COUNTER_DESCRIPTOR_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/common/interceptor_descriptor.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_INTERCEPTOR_DESCRIPTOR_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_INTERCEPTOR_DESCRIPTOR_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class InterceptorDescriptor;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+class PERFETTO_EXPORT_COMPONENT InterceptorDescriptor : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kNameFieldNumber = 1,
+ };
+
+ InterceptorDescriptor();
+ ~InterceptorDescriptor() override;
+ InterceptorDescriptor(InterceptorDescriptor&&) noexcept;
+ InterceptorDescriptor& operator=(InterceptorDescriptor&&);
+ InterceptorDescriptor(const InterceptorDescriptor&);
+ InterceptorDescriptor& operator=(const InterceptorDescriptor&);
+ bool operator==(const InterceptorDescriptor&) const;
+ bool operator!=(const InterceptorDescriptor& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_name() const { return _has_field_[1]; }
+ const std::string& name() const { return name_; }
+ void set_name(const std::string& value) { name_ = value; _has_field_.set(1); }
+
+ private:
+ std::string name_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_INTERCEPTOR_DESCRIPTOR_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/common/observable_events.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_OBSERVABLE_EVENTS_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_OBSERVABLE_EVENTS_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class ObservableEvents;
+class ObservableEvents_CloneTriggerHit;
+class ObservableEvents_DataSourceInstanceStateChange;
+enum ObservableEvents_Type : int;
+enum ObservableEvents_DataSourceInstanceState : int;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+enum ObservableEvents_Type : int {
+ ObservableEvents_Type_TYPE_UNSPECIFIED = 0,
+ ObservableEvents_Type_TYPE_DATA_SOURCES_INSTANCES = 1,
+ ObservableEvents_Type_TYPE_ALL_DATA_SOURCES_STARTED = 2,
+ ObservableEvents_Type_TYPE_CLONE_TRIGGER_HIT = 4,
+};
+enum ObservableEvents_DataSourceInstanceState : int {
+ ObservableEvents_DataSourceInstanceState_DATA_SOURCE_INSTANCE_STATE_STOPPED = 1,
+ ObservableEvents_DataSourceInstanceState_DATA_SOURCE_INSTANCE_STATE_STARTED = 2,
+};
+
+class PERFETTO_EXPORT_COMPONENT ObservableEvents : public ::protozero::CppMessageObj {
+ public:
+ using DataSourceInstanceStateChange = ObservableEvents_DataSourceInstanceStateChange;
+ using CloneTriggerHit = ObservableEvents_CloneTriggerHit;
+ using Type = ObservableEvents_Type;
+ static constexpr auto TYPE_UNSPECIFIED = ObservableEvents_Type_TYPE_UNSPECIFIED;
+ static constexpr auto TYPE_DATA_SOURCES_INSTANCES = ObservableEvents_Type_TYPE_DATA_SOURCES_INSTANCES;
+ static constexpr auto TYPE_ALL_DATA_SOURCES_STARTED = ObservableEvents_Type_TYPE_ALL_DATA_SOURCES_STARTED;
+ static constexpr auto TYPE_CLONE_TRIGGER_HIT = ObservableEvents_Type_TYPE_CLONE_TRIGGER_HIT;
+ static constexpr auto Type_MIN = ObservableEvents_Type_TYPE_UNSPECIFIED;
+ static constexpr auto Type_MAX = ObservableEvents_Type_TYPE_CLONE_TRIGGER_HIT;
+ using DataSourceInstanceState = ObservableEvents_DataSourceInstanceState;
+ static constexpr auto DATA_SOURCE_INSTANCE_STATE_STOPPED = ObservableEvents_DataSourceInstanceState_DATA_SOURCE_INSTANCE_STATE_STOPPED;
+ static constexpr auto DATA_SOURCE_INSTANCE_STATE_STARTED = ObservableEvents_DataSourceInstanceState_DATA_SOURCE_INSTANCE_STATE_STARTED;
+ static constexpr auto DataSourceInstanceState_MIN = ObservableEvents_DataSourceInstanceState_DATA_SOURCE_INSTANCE_STATE_STOPPED;
+ static constexpr auto DataSourceInstanceState_MAX = ObservableEvents_DataSourceInstanceState_DATA_SOURCE_INSTANCE_STATE_STARTED;
+ enum FieldNumbers {
+ kInstanceStateChangesFieldNumber = 1,
+ kAllDataSourcesStartedFieldNumber = 2,
+ kCloneTriggerHitFieldNumber = 3,
+ };
+
+ ObservableEvents();
+ ~ObservableEvents() override;
+ ObservableEvents(ObservableEvents&&) noexcept;
+ ObservableEvents& operator=(ObservableEvents&&);
+ ObservableEvents(const ObservableEvents&);
+ ObservableEvents& operator=(const ObservableEvents&);
+ bool operator==(const ObservableEvents&) const;
+ bool operator!=(const ObservableEvents& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ const std::vector<ObservableEvents_DataSourceInstanceStateChange>& instance_state_changes() const { return instance_state_changes_; }
+ std::vector<ObservableEvents_DataSourceInstanceStateChange>* mutable_instance_state_changes() { return &instance_state_changes_; }
+ int instance_state_changes_size() const;
+ void clear_instance_state_changes();
+ ObservableEvents_DataSourceInstanceStateChange* add_instance_state_changes();
+
+ bool has_all_data_sources_started() const { return _has_field_[2]; }
+ bool all_data_sources_started() const { return all_data_sources_started_; }
+ void set_all_data_sources_started(bool value) { all_data_sources_started_ = value; _has_field_.set(2); }
+
+ bool has_clone_trigger_hit() const { return _has_field_[3]; }
+ const ObservableEvents_CloneTriggerHit& clone_trigger_hit() const { return *clone_trigger_hit_; }
+ ObservableEvents_CloneTriggerHit* mutable_clone_trigger_hit() { _has_field_.set(3); return clone_trigger_hit_.get(); }
+
+ private:
+ std::vector<ObservableEvents_DataSourceInstanceStateChange> instance_state_changes_;
+ bool all_data_sources_started_{};
+ ::protozero::CopyablePtr<ObservableEvents_CloneTriggerHit> clone_trigger_hit_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<4> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT ObservableEvents_CloneTriggerHit : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kTracingSessionIdFieldNumber = 1,
+ };
+
+ ObservableEvents_CloneTriggerHit();
+ ~ObservableEvents_CloneTriggerHit() override;
+ ObservableEvents_CloneTriggerHit(ObservableEvents_CloneTriggerHit&&) noexcept;
+ ObservableEvents_CloneTriggerHit& operator=(ObservableEvents_CloneTriggerHit&&);
+ ObservableEvents_CloneTriggerHit(const ObservableEvents_CloneTriggerHit&);
+ ObservableEvents_CloneTriggerHit& operator=(const ObservableEvents_CloneTriggerHit&);
+ bool operator==(const ObservableEvents_CloneTriggerHit&) const;
+ bool operator!=(const ObservableEvents_CloneTriggerHit& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_tracing_session_id() const { return _has_field_[1]; }
+ int64_t tracing_session_id() const { return tracing_session_id_; }
+ void set_tracing_session_id(int64_t value) { tracing_session_id_ = value; _has_field_.set(1); }
+
+ private:
+ int64_t tracing_session_id_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT ObservableEvents_DataSourceInstanceStateChange : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kProducerNameFieldNumber = 1,
+ kDataSourceNameFieldNumber = 2,
+ kStateFieldNumber = 3,
+ };
+
+ ObservableEvents_DataSourceInstanceStateChange();
+ ~ObservableEvents_DataSourceInstanceStateChange() override;
+ ObservableEvents_DataSourceInstanceStateChange(ObservableEvents_DataSourceInstanceStateChange&&) noexcept;
+ ObservableEvents_DataSourceInstanceStateChange& operator=(ObservableEvents_DataSourceInstanceStateChange&&);
+ ObservableEvents_DataSourceInstanceStateChange(const ObservableEvents_DataSourceInstanceStateChange&);
+ ObservableEvents_DataSourceInstanceStateChange& operator=(const ObservableEvents_DataSourceInstanceStateChange&);
+ bool operator==(const ObservableEvents_DataSourceInstanceStateChange&) const;
+ bool operator!=(const ObservableEvents_DataSourceInstanceStateChange& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_producer_name() const { return _has_field_[1]; }
+ const std::string& producer_name() const { return producer_name_; }
+ void set_producer_name(const std::string& value) { producer_name_ = value; _has_field_.set(1); }
+
+ bool has_data_source_name() const { return _has_field_[2]; }
+ const std::string& data_source_name() const { return data_source_name_; }
+ void set_data_source_name(const std::string& value) { data_source_name_ = value; _has_field_.set(2); }
+
+ bool has_state() const { return _has_field_[3]; }
+ ObservableEvents_DataSourceInstanceState state() const { return state_; }
+ void set_state(ObservableEvents_DataSourceInstanceState value) { state_ = value; _has_field_.set(3); }
+
+ private:
+ std::string producer_name_{};
+ std::string data_source_name_{};
+ ObservableEvents_DataSourceInstanceState state_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<4> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_OBSERVABLE_EVENTS_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/common/perf_events.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_PERF_EVENTS_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_PERF_EVENTS_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class PerfEvents;
+class PerfEvents_RawEvent;
+class PerfEvents_Tracepoint;
+class PerfEvents_Timebase;
+enum PerfEvents_Counter : int;
+enum PerfEvents_PerfClock : int;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+enum PerfEvents_Counter : int {
+ PerfEvents_Counter_UNKNOWN_COUNTER = 0,
+ PerfEvents_Counter_SW_CPU_CLOCK = 1,
+ PerfEvents_Counter_SW_PAGE_FAULTS = 2,
+ PerfEvents_Counter_SW_TASK_CLOCK = 3,
+ PerfEvents_Counter_SW_CONTEXT_SWITCHES = 4,
+ PerfEvents_Counter_SW_CPU_MIGRATIONS = 5,
+ PerfEvents_Counter_SW_PAGE_FAULTS_MIN = 6,
+ PerfEvents_Counter_SW_PAGE_FAULTS_MAJ = 7,
+ PerfEvents_Counter_SW_ALIGNMENT_FAULTS = 8,
+ PerfEvents_Counter_SW_EMULATION_FAULTS = 9,
+ PerfEvents_Counter_SW_DUMMY = 20,
+ PerfEvents_Counter_HW_CPU_CYCLES = 10,
+ PerfEvents_Counter_HW_INSTRUCTIONS = 11,
+ PerfEvents_Counter_HW_CACHE_REFERENCES = 12,
+ PerfEvents_Counter_HW_CACHE_MISSES = 13,
+ PerfEvents_Counter_HW_BRANCH_INSTRUCTIONS = 14,
+ PerfEvents_Counter_HW_BRANCH_MISSES = 15,
+ PerfEvents_Counter_HW_BUS_CYCLES = 16,
+ PerfEvents_Counter_HW_STALLED_CYCLES_FRONTEND = 17,
+ PerfEvents_Counter_HW_STALLED_CYCLES_BACKEND = 18,
+ PerfEvents_Counter_HW_REF_CPU_CYCLES = 19,
+};
+enum PerfEvents_PerfClock : int {
+ PerfEvents_PerfClock_UNKNOWN_PERF_CLOCK = 0,
+ PerfEvents_PerfClock_PERF_CLOCK_REALTIME = 1,
+ PerfEvents_PerfClock_PERF_CLOCK_MONOTONIC = 2,
+ PerfEvents_PerfClock_PERF_CLOCK_MONOTONIC_RAW = 3,
+ PerfEvents_PerfClock_PERF_CLOCK_BOOTTIME = 4,
+};
+
+class PERFETTO_EXPORT_COMPONENT PerfEvents : public ::protozero::CppMessageObj {
+ public:
+ using Timebase = PerfEvents_Timebase;
+ using Tracepoint = PerfEvents_Tracepoint;
+ using RawEvent = PerfEvents_RawEvent;
+ using Counter = PerfEvents_Counter;
+ static constexpr auto UNKNOWN_COUNTER = PerfEvents_Counter_UNKNOWN_COUNTER;
+ static constexpr auto SW_CPU_CLOCK = PerfEvents_Counter_SW_CPU_CLOCK;
+ static constexpr auto SW_PAGE_FAULTS = PerfEvents_Counter_SW_PAGE_FAULTS;
+ static constexpr auto SW_TASK_CLOCK = PerfEvents_Counter_SW_TASK_CLOCK;
+ static constexpr auto SW_CONTEXT_SWITCHES = PerfEvents_Counter_SW_CONTEXT_SWITCHES;
+ static constexpr auto SW_CPU_MIGRATIONS = PerfEvents_Counter_SW_CPU_MIGRATIONS;
+ static constexpr auto SW_PAGE_FAULTS_MIN = PerfEvents_Counter_SW_PAGE_FAULTS_MIN;
+ static constexpr auto SW_PAGE_FAULTS_MAJ = PerfEvents_Counter_SW_PAGE_FAULTS_MAJ;
+ static constexpr auto SW_ALIGNMENT_FAULTS = PerfEvents_Counter_SW_ALIGNMENT_FAULTS;
+ static constexpr auto SW_EMULATION_FAULTS = PerfEvents_Counter_SW_EMULATION_FAULTS;
+ static constexpr auto SW_DUMMY = PerfEvents_Counter_SW_DUMMY;
+ static constexpr auto HW_CPU_CYCLES = PerfEvents_Counter_HW_CPU_CYCLES;
+ static constexpr auto HW_INSTRUCTIONS = PerfEvents_Counter_HW_INSTRUCTIONS;
+ static constexpr auto HW_CACHE_REFERENCES = PerfEvents_Counter_HW_CACHE_REFERENCES;
+ static constexpr auto HW_CACHE_MISSES = PerfEvents_Counter_HW_CACHE_MISSES;
+ static constexpr auto HW_BRANCH_INSTRUCTIONS = PerfEvents_Counter_HW_BRANCH_INSTRUCTIONS;
+ static constexpr auto HW_BRANCH_MISSES = PerfEvents_Counter_HW_BRANCH_MISSES;
+ static constexpr auto HW_BUS_CYCLES = PerfEvents_Counter_HW_BUS_CYCLES;
+ static constexpr auto HW_STALLED_CYCLES_FRONTEND = PerfEvents_Counter_HW_STALLED_CYCLES_FRONTEND;
+ static constexpr auto HW_STALLED_CYCLES_BACKEND = PerfEvents_Counter_HW_STALLED_CYCLES_BACKEND;
+ static constexpr auto HW_REF_CPU_CYCLES = PerfEvents_Counter_HW_REF_CPU_CYCLES;
+ static constexpr auto Counter_MIN = PerfEvents_Counter_UNKNOWN_COUNTER;
+ static constexpr auto Counter_MAX = PerfEvents_Counter_SW_DUMMY;
+ using PerfClock = PerfEvents_PerfClock;
+ static constexpr auto UNKNOWN_PERF_CLOCK = PerfEvents_PerfClock_UNKNOWN_PERF_CLOCK;
+ static constexpr auto PERF_CLOCK_REALTIME = PerfEvents_PerfClock_PERF_CLOCK_REALTIME;
+ static constexpr auto PERF_CLOCK_MONOTONIC = PerfEvents_PerfClock_PERF_CLOCK_MONOTONIC;
+ static constexpr auto PERF_CLOCK_MONOTONIC_RAW = PerfEvents_PerfClock_PERF_CLOCK_MONOTONIC_RAW;
+ static constexpr auto PERF_CLOCK_BOOTTIME = PerfEvents_PerfClock_PERF_CLOCK_BOOTTIME;
+ static constexpr auto PerfClock_MIN = PerfEvents_PerfClock_UNKNOWN_PERF_CLOCK;
+ static constexpr auto PerfClock_MAX = PerfEvents_PerfClock_PERF_CLOCK_BOOTTIME;
+ enum FieldNumbers {
+ };
+
+ PerfEvents();
+ ~PerfEvents() override;
+ PerfEvents(PerfEvents&&) noexcept;
+ PerfEvents& operator=(PerfEvents&&);
+ PerfEvents(const PerfEvents&);
+ PerfEvents& operator=(const PerfEvents&);
+ bool operator==(const PerfEvents&) const;
+ bool operator!=(const PerfEvents& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ private:
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT PerfEvents_RawEvent : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kTypeFieldNumber = 1,
+ kConfigFieldNumber = 2,
+ kConfig1FieldNumber = 3,
+ kConfig2FieldNumber = 4,
+ };
+
+ PerfEvents_RawEvent();
+ ~PerfEvents_RawEvent() override;
+ PerfEvents_RawEvent(PerfEvents_RawEvent&&) noexcept;
+ PerfEvents_RawEvent& operator=(PerfEvents_RawEvent&&);
+ PerfEvents_RawEvent(const PerfEvents_RawEvent&);
+ PerfEvents_RawEvent& operator=(const PerfEvents_RawEvent&);
+ bool operator==(const PerfEvents_RawEvent&) const;
+ bool operator!=(const PerfEvents_RawEvent& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_type() const { return _has_field_[1]; }
+ uint32_t type() const { return type_; }
+ void set_type(uint32_t value) { type_ = value; _has_field_.set(1); }
+
+ bool has_config() const { return _has_field_[2]; }
+ uint64_t config() const { return config_; }
+ void set_config(uint64_t value) { config_ = value; _has_field_.set(2); }
+
+ bool has_config1() const { return _has_field_[3]; }
+ uint64_t config1() const { return config1_; }
+ void set_config1(uint64_t value) { config1_ = value; _has_field_.set(3); }
+
+ bool has_config2() const { return _has_field_[4]; }
+ uint64_t config2() const { return config2_; }
+ void set_config2(uint64_t value) { config2_ = value; _has_field_.set(4); }
+
+ private:
+ uint32_t type_{};
+ uint64_t config_{};
+ uint64_t config1_{};
+ uint64_t config2_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<5> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT PerfEvents_Tracepoint : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kNameFieldNumber = 1,
+ kFilterFieldNumber = 2,
+ };
+
+ PerfEvents_Tracepoint();
+ ~PerfEvents_Tracepoint() override;
+ PerfEvents_Tracepoint(PerfEvents_Tracepoint&&) noexcept;
+ PerfEvents_Tracepoint& operator=(PerfEvents_Tracepoint&&);
+ PerfEvents_Tracepoint(const PerfEvents_Tracepoint&);
+ PerfEvents_Tracepoint& operator=(const PerfEvents_Tracepoint&);
+ bool operator==(const PerfEvents_Tracepoint&) const;
+ bool operator!=(const PerfEvents_Tracepoint& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_name() const { return _has_field_[1]; }
+ const std::string& name() const { return name_; }
+ void set_name(const std::string& value) { name_ = value; _has_field_.set(1); }
+
+ bool has_filter() const { return _has_field_[2]; }
+ const std::string& filter() const { return filter_; }
+ void set_filter(const std::string& value) { filter_ = value; _has_field_.set(2); }
+
+ private:
+ std::string name_{};
+ std::string filter_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<3> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT PerfEvents_Timebase : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kFrequencyFieldNumber = 2,
+ kPeriodFieldNumber = 1,
+ kCounterFieldNumber = 4,
+ kTracepointFieldNumber = 3,
+ kRawEventFieldNumber = 5,
+ kTimestampClockFieldNumber = 11,
+ kNameFieldNumber = 10,
+ };
+
+ PerfEvents_Timebase();
+ ~PerfEvents_Timebase() override;
+ PerfEvents_Timebase(PerfEvents_Timebase&&) noexcept;
+ PerfEvents_Timebase& operator=(PerfEvents_Timebase&&);
+ PerfEvents_Timebase(const PerfEvents_Timebase&);
+ PerfEvents_Timebase& operator=(const PerfEvents_Timebase&);
+ bool operator==(const PerfEvents_Timebase&) const;
+ bool operator!=(const PerfEvents_Timebase& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_frequency() const { return _has_field_[2]; }
+ uint64_t frequency() const { return frequency_; }
+ void set_frequency(uint64_t value) { frequency_ = value; _has_field_.set(2); }
+
+ bool has_period() const { return _has_field_[1]; }
+ uint64_t period() const { return period_; }
+ void set_period(uint64_t value) { period_ = value; _has_field_.set(1); }
+
+ bool has_counter() const { return _has_field_[4]; }
+ PerfEvents_Counter counter() const { return counter_; }
+ void set_counter(PerfEvents_Counter value) { counter_ = value; _has_field_.set(4); }
+
+ bool has_tracepoint() const { return _has_field_[3]; }
+ const PerfEvents_Tracepoint& tracepoint() const { return *tracepoint_; }
+ PerfEvents_Tracepoint* mutable_tracepoint() { _has_field_.set(3); return tracepoint_.get(); }
+
+ bool has_raw_event() const { return _has_field_[5]; }
+ const PerfEvents_RawEvent& raw_event() const { return *raw_event_; }
+ PerfEvents_RawEvent* mutable_raw_event() { _has_field_.set(5); return raw_event_.get(); }
+
+ bool has_timestamp_clock() const { return _has_field_[11]; }
+ PerfEvents_PerfClock timestamp_clock() const { return timestamp_clock_; }
+ void set_timestamp_clock(PerfEvents_PerfClock value) { timestamp_clock_ = value; _has_field_.set(11); }
+
+ bool has_name() const { return _has_field_[10]; }
+ const std::string& name() const { return name_; }
+ void set_name(const std::string& value) { name_ = value; _has_field_.set(10); }
+
+ private:
+ uint64_t frequency_{};
+ uint64_t period_{};
+ PerfEvents_Counter counter_{};
+ ::protozero::CopyablePtr<PerfEvents_Tracepoint> tracepoint_;
+ ::protozero::CopyablePtr<PerfEvents_RawEvent> raw_event_;
+ PerfEvents_PerfClock timestamp_clock_{};
+ std::string name_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<12> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_PERF_EVENTS_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/common/protolog_common.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_PROTOLOG_COMMON_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_PROTOLOG_COMMON_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+enum ProtoLogLevel : int;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+enum ProtoLogLevel : int {
+ PROTOLOG_LEVEL_UNDEFINED = 0,
+ PROTOLOG_LEVEL_DEBUG = 1,
+ PROTOLOG_LEVEL_VERBOSE = 2,
+ PROTOLOG_LEVEL_INFO = 3,
+ PROTOLOG_LEVEL_WARN = 4,
+ PROTOLOG_LEVEL_ERROR = 5,
+ PROTOLOG_LEVEL_WTF = 6,
+};
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_PROTOLOG_COMMON_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/common/sys_stats_counters.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_SYS_STATS_COUNTERS_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_SYS_STATS_COUNTERS_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+enum MeminfoCounters : int;
+enum VmstatCounters : int;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+enum MeminfoCounters : int {
+ MEMINFO_UNSPECIFIED = 0,
+ MEMINFO_MEM_TOTAL = 1,
+ MEMINFO_MEM_FREE = 2,
+ MEMINFO_MEM_AVAILABLE = 3,
+ MEMINFO_BUFFERS = 4,
+ MEMINFO_CACHED = 5,
+ MEMINFO_SWAP_CACHED = 6,
+ MEMINFO_ACTIVE = 7,
+ MEMINFO_INACTIVE = 8,
+ MEMINFO_ACTIVE_ANON = 9,
+ MEMINFO_INACTIVE_ANON = 10,
+ MEMINFO_ACTIVE_FILE = 11,
+ MEMINFO_INACTIVE_FILE = 12,
+ MEMINFO_UNEVICTABLE = 13,
+ MEMINFO_MLOCKED = 14,
+ MEMINFO_SWAP_TOTAL = 15,
+ MEMINFO_SWAP_FREE = 16,
+ MEMINFO_DIRTY = 17,
+ MEMINFO_WRITEBACK = 18,
+ MEMINFO_ANON_PAGES = 19,
+ MEMINFO_MAPPED = 20,
+ MEMINFO_SHMEM = 21,
+ MEMINFO_SLAB = 22,
+ MEMINFO_SLAB_RECLAIMABLE = 23,
+ MEMINFO_SLAB_UNRECLAIMABLE = 24,
+ MEMINFO_KERNEL_STACK = 25,
+ MEMINFO_PAGE_TABLES = 26,
+ MEMINFO_COMMIT_LIMIT = 27,
+ MEMINFO_COMMITED_AS = 28,
+ MEMINFO_VMALLOC_TOTAL = 29,
+ MEMINFO_VMALLOC_USED = 30,
+ MEMINFO_VMALLOC_CHUNK = 31,
+ MEMINFO_CMA_TOTAL = 32,
+ MEMINFO_CMA_FREE = 33,
+};
+enum VmstatCounters : int {
+ VMSTAT_UNSPECIFIED = 0,
+ VMSTAT_NR_FREE_PAGES = 1,
+ VMSTAT_NR_ALLOC_BATCH = 2,
+ VMSTAT_NR_INACTIVE_ANON = 3,
+ VMSTAT_NR_ACTIVE_ANON = 4,
+ VMSTAT_NR_INACTIVE_FILE = 5,
+ VMSTAT_NR_ACTIVE_FILE = 6,
+ VMSTAT_NR_UNEVICTABLE = 7,
+ VMSTAT_NR_MLOCK = 8,
+ VMSTAT_NR_ANON_PAGES = 9,
+ VMSTAT_NR_MAPPED = 10,
+ VMSTAT_NR_FILE_PAGES = 11,
+ VMSTAT_NR_DIRTY = 12,
+ VMSTAT_NR_WRITEBACK = 13,
+ VMSTAT_NR_SLAB_RECLAIMABLE = 14,
+ VMSTAT_NR_SLAB_UNRECLAIMABLE = 15,
+ VMSTAT_NR_PAGE_TABLE_PAGES = 16,
+ VMSTAT_NR_KERNEL_STACK = 17,
+ VMSTAT_NR_OVERHEAD = 18,
+ VMSTAT_NR_UNSTABLE = 19,
+ VMSTAT_NR_BOUNCE = 20,
+ VMSTAT_NR_VMSCAN_WRITE = 21,
+ VMSTAT_NR_VMSCAN_IMMEDIATE_RECLAIM = 22,
+ VMSTAT_NR_WRITEBACK_TEMP = 23,
+ VMSTAT_NR_ISOLATED_ANON = 24,
+ VMSTAT_NR_ISOLATED_FILE = 25,
+ VMSTAT_NR_SHMEM = 26,
+ VMSTAT_NR_DIRTIED = 27,
+ VMSTAT_NR_WRITTEN = 28,
+ VMSTAT_NR_PAGES_SCANNED = 29,
+ VMSTAT_WORKINGSET_REFAULT = 30,
+ VMSTAT_WORKINGSET_ACTIVATE = 31,
+ VMSTAT_WORKINGSET_NODERECLAIM = 32,
+ VMSTAT_NR_ANON_TRANSPARENT_HUGEPAGES = 33,
+ VMSTAT_NR_FREE_CMA = 34,
+ VMSTAT_NR_SWAPCACHE = 35,
+ VMSTAT_NR_DIRTY_THRESHOLD = 36,
+ VMSTAT_NR_DIRTY_BACKGROUND_THRESHOLD = 37,
+ VMSTAT_PGPGIN = 38,
+ VMSTAT_PGPGOUT = 39,
+ VMSTAT_PGPGOUTCLEAN = 40,
+ VMSTAT_PSWPIN = 41,
+ VMSTAT_PSWPOUT = 42,
+ VMSTAT_PGALLOC_DMA = 43,
+ VMSTAT_PGALLOC_NORMAL = 44,
+ VMSTAT_PGALLOC_MOVABLE = 45,
+ VMSTAT_PGFREE = 46,
+ VMSTAT_PGACTIVATE = 47,
+ VMSTAT_PGDEACTIVATE = 48,
+ VMSTAT_PGFAULT = 49,
+ VMSTAT_PGMAJFAULT = 50,
+ VMSTAT_PGREFILL_DMA = 51,
+ VMSTAT_PGREFILL_NORMAL = 52,
+ VMSTAT_PGREFILL_MOVABLE = 53,
+ VMSTAT_PGSTEAL_KSWAPD_DMA = 54,
+ VMSTAT_PGSTEAL_KSWAPD_NORMAL = 55,
+ VMSTAT_PGSTEAL_KSWAPD_MOVABLE = 56,
+ VMSTAT_PGSTEAL_DIRECT_DMA = 57,
+ VMSTAT_PGSTEAL_DIRECT_NORMAL = 58,
+ VMSTAT_PGSTEAL_DIRECT_MOVABLE = 59,
+ VMSTAT_PGSCAN_KSWAPD_DMA = 60,
+ VMSTAT_PGSCAN_KSWAPD_NORMAL = 61,
+ VMSTAT_PGSCAN_KSWAPD_MOVABLE = 62,
+ VMSTAT_PGSCAN_DIRECT_DMA = 63,
+ VMSTAT_PGSCAN_DIRECT_NORMAL = 64,
+ VMSTAT_PGSCAN_DIRECT_MOVABLE = 65,
+ VMSTAT_PGSCAN_DIRECT_THROTTLE = 66,
+ VMSTAT_PGINODESTEAL = 67,
+ VMSTAT_SLABS_SCANNED = 68,
+ VMSTAT_KSWAPD_INODESTEAL = 69,
+ VMSTAT_KSWAPD_LOW_WMARK_HIT_QUICKLY = 70,
+ VMSTAT_KSWAPD_HIGH_WMARK_HIT_QUICKLY = 71,
+ VMSTAT_PAGEOUTRUN = 72,
+ VMSTAT_ALLOCSTALL = 73,
+ VMSTAT_PGROTATED = 74,
+ VMSTAT_DROP_PAGECACHE = 75,
+ VMSTAT_DROP_SLAB = 76,
+ VMSTAT_PGMIGRATE_SUCCESS = 77,
+ VMSTAT_PGMIGRATE_FAIL = 78,
+ VMSTAT_COMPACT_MIGRATE_SCANNED = 79,
+ VMSTAT_COMPACT_FREE_SCANNED = 80,
+ VMSTAT_COMPACT_ISOLATED = 81,
+ VMSTAT_COMPACT_STALL = 82,
+ VMSTAT_COMPACT_FAIL = 83,
+ VMSTAT_COMPACT_SUCCESS = 84,
+ VMSTAT_COMPACT_DAEMON_WAKE = 85,
+ VMSTAT_UNEVICTABLE_PGS_CULLED = 86,
+ VMSTAT_UNEVICTABLE_PGS_SCANNED = 87,
+ VMSTAT_UNEVICTABLE_PGS_RESCUED = 88,
+ VMSTAT_UNEVICTABLE_PGS_MLOCKED = 89,
+ VMSTAT_UNEVICTABLE_PGS_MUNLOCKED = 90,
+ VMSTAT_UNEVICTABLE_PGS_CLEARED = 91,
+ VMSTAT_UNEVICTABLE_PGS_STRANDED = 92,
+ VMSTAT_NR_ZSPAGES = 93,
+ VMSTAT_NR_ION_HEAP = 94,
+ VMSTAT_NR_GPU_HEAP = 95,
+ VMSTAT_ALLOCSTALL_DMA = 96,
+ VMSTAT_ALLOCSTALL_MOVABLE = 97,
+ VMSTAT_ALLOCSTALL_NORMAL = 98,
+ VMSTAT_COMPACT_DAEMON_FREE_SCANNED = 99,
+ VMSTAT_COMPACT_DAEMON_MIGRATE_SCANNED = 100,
+ VMSTAT_NR_FASTRPC = 101,
+ VMSTAT_NR_INDIRECTLY_RECLAIMABLE = 102,
+ VMSTAT_NR_ION_HEAP_POOL = 103,
+ VMSTAT_NR_KERNEL_MISC_RECLAIMABLE = 104,
+ VMSTAT_NR_SHADOW_CALL_STACK_BYTES = 105,
+ VMSTAT_NR_SHMEM_HUGEPAGES = 106,
+ VMSTAT_NR_SHMEM_PMDMAPPED = 107,
+ VMSTAT_NR_UNRECLAIMABLE_PAGES = 108,
+ VMSTAT_NR_ZONE_ACTIVE_ANON = 109,
+ VMSTAT_NR_ZONE_ACTIVE_FILE = 110,
+ VMSTAT_NR_ZONE_INACTIVE_ANON = 111,
+ VMSTAT_NR_ZONE_INACTIVE_FILE = 112,
+ VMSTAT_NR_ZONE_UNEVICTABLE = 113,
+ VMSTAT_NR_ZONE_WRITE_PENDING = 114,
+ VMSTAT_OOM_KILL = 115,
+ VMSTAT_PGLAZYFREE = 116,
+ VMSTAT_PGLAZYFREED = 117,
+ VMSTAT_PGREFILL = 118,
+ VMSTAT_PGSCAN_DIRECT = 119,
+ VMSTAT_PGSCAN_KSWAPD = 120,
+ VMSTAT_PGSKIP_DMA = 121,
+ VMSTAT_PGSKIP_MOVABLE = 122,
+ VMSTAT_PGSKIP_NORMAL = 123,
+ VMSTAT_PGSTEAL_DIRECT = 124,
+ VMSTAT_PGSTEAL_KSWAPD = 125,
+ VMSTAT_SWAP_RA = 126,
+ VMSTAT_SWAP_RA_HIT = 127,
+ VMSTAT_WORKINGSET_RESTORE = 128,
+ VMSTAT_ALLOCSTALL_DEVICE = 129,
+ VMSTAT_ALLOCSTALL_DMA32 = 130,
+ VMSTAT_BALLOON_DEFLATE = 131,
+ VMSTAT_BALLOON_INFLATE = 132,
+ VMSTAT_BALLOON_MIGRATE = 133,
+ VMSTAT_CMA_ALLOC_FAIL = 134,
+ VMSTAT_CMA_ALLOC_SUCCESS = 135,
+ VMSTAT_NR_FILE_HUGEPAGES = 136,
+ VMSTAT_NR_FILE_PMDMAPPED = 137,
+ VMSTAT_NR_FOLL_PIN_ACQUIRED = 138,
+ VMSTAT_NR_FOLL_PIN_RELEASED = 139,
+ VMSTAT_NR_SEC_PAGE_TABLE_PAGES = 140,
+ VMSTAT_NR_SHADOW_CALL_STACK = 141,
+ VMSTAT_NR_SWAPCACHED = 142,
+ VMSTAT_NR_THROTTLED_WRITTEN = 143,
+ VMSTAT_PGALLOC_DEVICE = 144,
+ VMSTAT_PGALLOC_DMA32 = 145,
+ VMSTAT_PGDEMOTE_DIRECT = 146,
+ VMSTAT_PGDEMOTE_KSWAPD = 147,
+ VMSTAT_PGREUSE = 148,
+ VMSTAT_PGSCAN_ANON = 149,
+ VMSTAT_PGSCAN_FILE = 150,
+ VMSTAT_PGSKIP_DEVICE = 151,
+ VMSTAT_PGSKIP_DMA32 = 152,
+ VMSTAT_PGSTEAL_ANON = 153,
+ VMSTAT_PGSTEAL_FILE = 154,
+ VMSTAT_THP_COLLAPSE_ALLOC = 155,
+ VMSTAT_THP_COLLAPSE_ALLOC_FAILED = 156,
+ VMSTAT_THP_DEFERRED_SPLIT_PAGE = 157,
+ VMSTAT_THP_FAULT_ALLOC = 158,
+ VMSTAT_THP_FAULT_FALLBACK = 159,
+ VMSTAT_THP_FAULT_FALLBACK_CHARGE = 160,
+ VMSTAT_THP_FILE_ALLOC = 161,
+ VMSTAT_THP_FILE_FALLBACK = 162,
+ VMSTAT_THP_FILE_FALLBACK_CHARGE = 163,
+ VMSTAT_THP_FILE_MAPPED = 164,
+ VMSTAT_THP_MIGRATION_FAIL = 165,
+ VMSTAT_THP_MIGRATION_SPLIT = 166,
+ VMSTAT_THP_MIGRATION_SUCCESS = 167,
+ VMSTAT_THP_SCAN_EXCEED_NONE_PTE = 168,
+ VMSTAT_THP_SCAN_EXCEED_SHARE_PTE = 169,
+ VMSTAT_THP_SCAN_EXCEED_SWAP_PTE = 170,
+ VMSTAT_THP_SPLIT_PAGE = 171,
+ VMSTAT_THP_SPLIT_PAGE_FAILED = 172,
+ VMSTAT_THP_SPLIT_PMD = 173,
+ VMSTAT_THP_SWPOUT = 174,
+ VMSTAT_THP_SWPOUT_FALLBACK = 175,
+ VMSTAT_THP_ZERO_PAGE_ALLOC = 176,
+ VMSTAT_THP_ZERO_PAGE_ALLOC_FAILED = 177,
+ VMSTAT_VMA_LOCK_ABORT = 178,
+ VMSTAT_VMA_LOCK_MISS = 179,
+ VMSTAT_VMA_LOCK_RETRY = 180,
+ VMSTAT_VMA_LOCK_SUCCESS = 181,
+ VMSTAT_WORKINGSET_ACTIVATE_ANON = 182,
+ VMSTAT_WORKINGSET_ACTIVATE_FILE = 183,
+ VMSTAT_WORKINGSET_NODES = 184,
+ VMSTAT_WORKINGSET_REFAULT_ANON = 185,
+ VMSTAT_WORKINGSET_REFAULT_FILE = 186,
+ VMSTAT_WORKINGSET_RESTORE_ANON = 187,
+ VMSTAT_WORKINGSET_RESTORE_FILE = 188,
+};
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_SYS_STATS_COUNTERS_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/common/trace_stats.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_TRACE_STATS_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_TRACE_STATS_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class TraceStats;
+class TraceStats_FilterStats;
+class TraceStats_WriterStats;
+class TraceStats_BufferStats;
+enum TraceStats_FinalFlushOutcome : int;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+enum TraceStats_FinalFlushOutcome : int {
+ TraceStats_FinalFlushOutcome_FINAL_FLUSH_UNSPECIFIED = 0,
+ TraceStats_FinalFlushOutcome_FINAL_FLUSH_SUCCEEDED = 1,
+ TraceStats_FinalFlushOutcome_FINAL_FLUSH_FAILED = 2,
+};
+
+class PERFETTO_EXPORT_COMPONENT TraceStats : public ::protozero::CppMessageObj {
+ public:
+ using BufferStats = TraceStats_BufferStats;
+ using WriterStats = TraceStats_WriterStats;
+ using FilterStats = TraceStats_FilterStats;
+ using FinalFlushOutcome = TraceStats_FinalFlushOutcome;
+ static constexpr auto FINAL_FLUSH_UNSPECIFIED = TraceStats_FinalFlushOutcome_FINAL_FLUSH_UNSPECIFIED;
+ static constexpr auto FINAL_FLUSH_SUCCEEDED = TraceStats_FinalFlushOutcome_FINAL_FLUSH_SUCCEEDED;
+ static constexpr auto FINAL_FLUSH_FAILED = TraceStats_FinalFlushOutcome_FINAL_FLUSH_FAILED;
+ static constexpr auto FinalFlushOutcome_MIN = TraceStats_FinalFlushOutcome_FINAL_FLUSH_UNSPECIFIED;
+ static constexpr auto FinalFlushOutcome_MAX = TraceStats_FinalFlushOutcome_FINAL_FLUSH_FAILED;
+ enum FieldNumbers {
+ kBufferStatsFieldNumber = 1,
+ kChunkPayloadHistogramDefFieldNumber = 17,
+ kWriterStatsFieldNumber = 18,
+ kProducersConnectedFieldNumber = 2,
+ kProducersSeenFieldNumber = 3,
+ kDataSourcesRegisteredFieldNumber = 4,
+ kDataSourcesSeenFieldNumber = 5,
+ kTracingSessionsFieldNumber = 6,
+ kTotalBuffersFieldNumber = 7,
+ kChunksDiscardedFieldNumber = 8,
+ kPatchesDiscardedFieldNumber = 9,
+ kInvalidPacketsFieldNumber = 10,
+ kFilterStatsFieldNumber = 11,
+ kFlushesRequestedFieldNumber = 12,
+ kFlushesSucceededFieldNumber = 13,
+ kFlushesFailedFieldNumber = 14,
+ kFinalFlushOutcomeFieldNumber = 15,
+ };
+
+ TraceStats();
+ ~TraceStats() override;
+ TraceStats(TraceStats&&) noexcept;
+ TraceStats& operator=(TraceStats&&);
+ TraceStats(const TraceStats&);
+ TraceStats& operator=(const TraceStats&);
+ bool operator==(const TraceStats&) const;
+ bool operator!=(const TraceStats& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ const std::vector<TraceStats_BufferStats>& buffer_stats() const { return buffer_stats_; }
+ std::vector<TraceStats_BufferStats>* mutable_buffer_stats() { return &buffer_stats_; }
+ int buffer_stats_size() const;
+ void clear_buffer_stats();
+ TraceStats_BufferStats* add_buffer_stats();
+
+ const std::vector<int64_t>& chunk_payload_histogram_def() const { return chunk_payload_histogram_def_; }
+ std::vector<int64_t>* mutable_chunk_payload_histogram_def() { return &chunk_payload_histogram_def_; }
+ int chunk_payload_histogram_def_size() const { return static_cast<int>(chunk_payload_histogram_def_.size()); }
+ void clear_chunk_payload_histogram_def() { chunk_payload_histogram_def_.clear(); }
+ void add_chunk_payload_histogram_def(int64_t value) { chunk_payload_histogram_def_.emplace_back(value); }
+ int64_t* add_chunk_payload_histogram_def() { chunk_payload_histogram_def_.emplace_back(); return &chunk_payload_histogram_def_.back(); }
+
+ const std::vector<TraceStats_WriterStats>& writer_stats() const { return writer_stats_; }
+ std::vector<TraceStats_WriterStats>* mutable_writer_stats() { return &writer_stats_; }
+ int writer_stats_size() const;
+ void clear_writer_stats();
+ TraceStats_WriterStats* add_writer_stats();
+
+ bool has_producers_connected() const { return _has_field_[2]; }
+ uint32_t producers_connected() const { return producers_connected_; }
+ void set_producers_connected(uint32_t value) { producers_connected_ = value; _has_field_.set(2); }
+
+ bool has_producers_seen() const { return _has_field_[3]; }
+ uint64_t producers_seen() const { return producers_seen_; }
+ void set_producers_seen(uint64_t value) { producers_seen_ = value; _has_field_.set(3); }
+
+ bool has_data_sources_registered() const { return _has_field_[4]; }
+ uint32_t data_sources_registered() const { return data_sources_registered_; }
+ void set_data_sources_registered(uint32_t value) { data_sources_registered_ = value; _has_field_.set(4); }
+
+ bool has_data_sources_seen() const { return _has_field_[5]; }
+ uint64_t data_sources_seen() const { return data_sources_seen_; }
+ void set_data_sources_seen(uint64_t value) { data_sources_seen_ = value; _has_field_.set(5); }
+
+ bool has_tracing_sessions() const { return _has_field_[6]; }
+ uint32_t tracing_sessions() const { return tracing_sessions_; }
+ void set_tracing_sessions(uint32_t value) { tracing_sessions_ = value; _has_field_.set(6); }
+
+ bool has_total_buffers() const { return _has_field_[7]; }
+ uint32_t total_buffers() const { return total_buffers_; }
+ void set_total_buffers(uint32_t value) { total_buffers_ = value; _has_field_.set(7); }
+
+ bool has_chunks_discarded() const { return _has_field_[8]; }
+ uint64_t chunks_discarded() const { return chunks_discarded_; }
+ void set_chunks_discarded(uint64_t value) { chunks_discarded_ = value; _has_field_.set(8); }
+
+ bool has_patches_discarded() const { return _has_field_[9]; }
+ uint64_t patches_discarded() const { return patches_discarded_; }
+ void set_patches_discarded(uint64_t value) { patches_discarded_ = value; _has_field_.set(9); }
+
+ bool has_invalid_packets() const { return _has_field_[10]; }
+ uint64_t invalid_packets() const { return invalid_packets_; }
+ void set_invalid_packets(uint64_t value) { invalid_packets_ = value; _has_field_.set(10); }
+
+ bool has_filter_stats() const { return _has_field_[11]; }
+ const TraceStats_FilterStats& filter_stats() const { return *filter_stats_; }
+ TraceStats_FilterStats* mutable_filter_stats() { _has_field_.set(11); return filter_stats_.get(); }
+
+ bool has_flushes_requested() const { return _has_field_[12]; }
+ uint64_t flushes_requested() const { return flushes_requested_; }
+ void set_flushes_requested(uint64_t value) { flushes_requested_ = value; _has_field_.set(12); }
+
+ bool has_flushes_succeeded() const { return _has_field_[13]; }
+ uint64_t flushes_succeeded() const { return flushes_succeeded_; }
+ void set_flushes_succeeded(uint64_t value) { flushes_succeeded_ = value; _has_field_.set(13); }
+
+ bool has_flushes_failed() const { return _has_field_[14]; }
+ uint64_t flushes_failed() const { return flushes_failed_; }
+ void set_flushes_failed(uint64_t value) { flushes_failed_ = value; _has_field_.set(14); }
+
+ bool has_final_flush_outcome() const { return _has_field_[15]; }
+ TraceStats_FinalFlushOutcome final_flush_outcome() const { return final_flush_outcome_; }
+ void set_final_flush_outcome(TraceStats_FinalFlushOutcome value) { final_flush_outcome_ = value; _has_field_.set(15); }
+
+ private:
+ std::vector<TraceStats_BufferStats> buffer_stats_;
+ std::vector<int64_t> chunk_payload_histogram_def_;
+ std::vector<TraceStats_WriterStats> writer_stats_;
+ uint32_t producers_connected_{};
+ uint64_t producers_seen_{};
+ uint32_t data_sources_registered_{};
+ uint64_t data_sources_seen_{};
+ uint32_t tracing_sessions_{};
+ uint32_t total_buffers_{};
+ uint64_t chunks_discarded_{};
+ uint64_t patches_discarded_{};
+ uint64_t invalid_packets_{};
+ ::protozero::CopyablePtr<TraceStats_FilterStats> filter_stats_;
+ uint64_t flushes_requested_{};
+ uint64_t flushes_succeeded_{};
+ uint64_t flushes_failed_{};
+ TraceStats_FinalFlushOutcome final_flush_outcome_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<19> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT TraceStats_FilterStats : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kInputPacketsFieldNumber = 1,
+ kInputBytesFieldNumber = 2,
+ kOutputBytesFieldNumber = 3,
+ kErrorsFieldNumber = 4,
+ kTimeTakenNsFieldNumber = 5,
+ kBytesDiscardedPerBufferFieldNumber = 20,
+ };
+
+ TraceStats_FilterStats();
+ ~TraceStats_FilterStats() override;
+ TraceStats_FilterStats(TraceStats_FilterStats&&) noexcept;
+ TraceStats_FilterStats& operator=(TraceStats_FilterStats&&);
+ TraceStats_FilterStats(const TraceStats_FilterStats&);
+ TraceStats_FilterStats& operator=(const TraceStats_FilterStats&);
+ bool operator==(const TraceStats_FilterStats&) const;
+ bool operator!=(const TraceStats_FilterStats& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_input_packets() const { return _has_field_[1]; }
+ uint64_t input_packets() const { return input_packets_; }
+ void set_input_packets(uint64_t value) { input_packets_ = value; _has_field_.set(1); }
+
+ bool has_input_bytes() const { return _has_field_[2]; }
+ uint64_t input_bytes() const { return input_bytes_; }
+ void set_input_bytes(uint64_t value) { input_bytes_ = value; _has_field_.set(2); }
+
+ bool has_output_bytes() const { return _has_field_[3]; }
+ uint64_t output_bytes() const { return output_bytes_; }
+ void set_output_bytes(uint64_t value) { output_bytes_ = value; _has_field_.set(3); }
+
+ bool has_errors() const { return _has_field_[4]; }
+ uint64_t errors() const { return errors_; }
+ void set_errors(uint64_t value) { errors_ = value; _has_field_.set(4); }
+
+ bool has_time_taken_ns() const { return _has_field_[5]; }
+ uint64_t time_taken_ns() const { return time_taken_ns_; }
+ void set_time_taken_ns(uint64_t value) { time_taken_ns_ = value; _has_field_.set(5); }
+
+ const std::vector<uint64_t>& bytes_discarded_per_buffer() const { return bytes_discarded_per_buffer_; }
+ std::vector<uint64_t>* mutable_bytes_discarded_per_buffer() { return &bytes_discarded_per_buffer_; }
+ int bytes_discarded_per_buffer_size() const { return static_cast<int>(bytes_discarded_per_buffer_.size()); }
+ void clear_bytes_discarded_per_buffer() { bytes_discarded_per_buffer_.clear(); }
+ void add_bytes_discarded_per_buffer(uint64_t value) { bytes_discarded_per_buffer_.emplace_back(value); }
+ uint64_t* add_bytes_discarded_per_buffer() { bytes_discarded_per_buffer_.emplace_back(); return &bytes_discarded_per_buffer_.back(); }
+
+ private:
+ uint64_t input_packets_{};
+ uint64_t input_bytes_{};
+ uint64_t output_bytes_{};
+ uint64_t errors_{};
+ uint64_t time_taken_ns_{};
+ std::vector<uint64_t> bytes_discarded_per_buffer_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<21> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT TraceStats_WriterStats : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kSequenceIdFieldNumber = 1,
+ kBufferFieldNumber = 4,
+ kChunkPayloadHistogramCountsFieldNumber = 2,
+ kChunkPayloadHistogramSumFieldNumber = 3,
+ };
+
+ TraceStats_WriterStats();
+ ~TraceStats_WriterStats() override;
+ TraceStats_WriterStats(TraceStats_WriterStats&&) noexcept;
+ TraceStats_WriterStats& operator=(TraceStats_WriterStats&&);
+ TraceStats_WriterStats(const TraceStats_WriterStats&);
+ TraceStats_WriterStats& operator=(const TraceStats_WriterStats&);
+ bool operator==(const TraceStats_WriterStats&) const;
+ bool operator!=(const TraceStats_WriterStats& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_sequence_id() const { return _has_field_[1]; }
+ uint64_t sequence_id() const { return sequence_id_; }
+ void set_sequence_id(uint64_t value) { sequence_id_ = value; _has_field_.set(1); }
+
+ bool has_buffer() const { return _has_field_[4]; }
+ uint32_t buffer() const { return buffer_; }
+ void set_buffer(uint32_t value) { buffer_ = value; _has_field_.set(4); }
+
+ const std::vector<uint64_t>& chunk_payload_histogram_counts() const { return chunk_payload_histogram_counts_; }
+ std::vector<uint64_t>* mutable_chunk_payload_histogram_counts() { return &chunk_payload_histogram_counts_; }
+ int chunk_payload_histogram_counts_size() const { return static_cast<int>(chunk_payload_histogram_counts_.size()); }
+ void clear_chunk_payload_histogram_counts() { chunk_payload_histogram_counts_.clear(); }
+ void add_chunk_payload_histogram_counts(uint64_t value) { chunk_payload_histogram_counts_.emplace_back(value); }
+ uint64_t* add_chunk_payload_histogram_counts() { chunk_payload_histogram_counts_.emplace_back(); return &chunk_payload_histogram_counts_.back(); }
+
+ const std::vector<int64_t>& chunk_payload_histogram_sum() const { return chunk_payload_histogram_sum_; }
+ std::vector<int64_t>* mutable_chunk_payload_histogram_sum() { return &chunk_payload_histogram_sum_; }
+ int chunk_payload_histogram_sum_size() const { return static_cast<int>(chunk_payload_histogram_sum_.size()); }
+ void clear_chunk_payload_histogram_sum() { chunk_payload_histogram_sum_.clear(); }
+ void add_chunk_payload_histogram_sum(int64_t value) { chunk_payload_histogram_sum_.emplace_back(value); }
+ int64_t* add_chunk_payload_histogram_sum() { chunk_payload_histogram_sum_.emplace_back(); return &chunk_payload_histogram_sum_.back(); }
+
+ private:
+ uint64_t sequence_id_{};
+ uint32_t buffer_{};
+ std::vector<uint64_t> chunk_payload_histogram_counts_;
+ std::vector<int64_t> chunk_payload_histogram_sum_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<5> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT TraceStats_BufferStats : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kBufferSizeFieldNumber = 12,
+ kBytesWrittenFieldNumber = 1,
+ kBytesOverwrittenFieldNumber = 13,
+ kBytesReadFieldNumber = 14,
+ kPaddingBytesWrittenFieldNumber = 15,
+ kPaddingBytesClearedFieldNumber = 16,
+ kChunksWrittenFieldNumber = 2,
+ kChunksRewrittenFieldNumber = 10,
+ kChunksOverwrittenFieldNumber = 3,
+ kChunksDiscardedFieldNumber = 18,
+ kChunksReadFieldNumber = 17,
+ kChunksCommittedOutOfOrderFieldNumber = 11,
+ kWriteWrapCountFieldNumber = 4,
+ kPatchesSucceededFieldNumber = 5,
+ kPatchesFailedFieldNumber = 6,
+ kReadaheadsSucceededFieldNumber = 7,
+ kReadaheadsFailedFieldNumber = 8,
+ kAbiViolationsFieldNumber = 9,
+ kTraceWriterPacketLossFieldNumber = 19,
+ };
+
+ TraceStats_BufferStats();
+ ~TraceStats_BufferStats() override;
+ TraceStats_BufferStats(TraceStats_BufferStats&&) noexcept;
+ TraceStats_BufferStats& operator=(TraceStats_BufferStats&&);
+ TraceStats_BufferStats(const TraceStats_BufferStats&);
+ TraceStats_BufferStats& operator=(const TraceStats_BufferStats&);
+ bool operator==(const TraceStats_BufferStats&) const;
+ bool operator!=(const TraceStats_BufferStats& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_buffer_size() const { return _has_field_[12]; }
+ uint64_t buffer_size() const { return buffer_size_; }
+ void set_buffer_size(uint64_t value) { buffer_size_ = value; _has_field_.set(12); }
+
+ bool has_bytes_written() const { return _has_field_[1]; }
+ uint64_t bytes_written() const { return bytes_written_; }
+ void set_bytes_written(uint64_t value) { bytes_written_ = value; _has_field_.set(1); }
+
+ bool has_bytes_overwritten() const { return _has_field_[13]; }
+ uint64_t bytes_overwritten() const { return bytes_overwritten_; }
+ void set_bytes_overwritten(uint64_t value) { bytes_overwritten_ = value; _has_field_.set(13); }
+
+ bool has_bytes_read() const { return _has_field_[14]; }
+ uint64_t bytes_read() const { return bytes_read_; }
+ void set_bytes_read(uint64_t value) { bytes_read_ = value; _has_field_.set(14); }
+
+ bool has_padding_bytes_written() const { return _has_field_[15]; }
+ uint64_t padding_bytes_written() const { return padding_bytes_written_; }
+ void set_padding_bytes_written(uint64_t value) { padding_bytes_written_ = value; _has_field_.set(15); }
+
+ bool has_padding_bytes_cleared() const { return _has_field_[16]; }
+ uint64_t padding_bytes_cleared() const { return padding_bytes_cleared_; }
+ void set_padding_bytes_cleared(uint64_t value) { padding_bytes_cleared_ = value; _has_field_.set(16); }
+
+ bool has_chunks_written() const { return _has_field_[2]; }
+ uint64_t chunks_written() const { return chunks_written_; }
+ void set_chunks_written(uint64_t value) { chunks_written_ = value; _has_field_.set(2); }
+
+ bool has_chunks_rewritten() const { return _has_field_[10]; }
+ uint64_t chunks_rewritten() const { return chunks_rewritten_; }
+ void set_chunks_rewritten(uint64_t value) { chunks_rewritten_ = value; _has_field_.set(10); }
+
+ bool has_chunks_overwritten() const { return _has_field_[3]; }
+ uint64_t chunks_overwritten() const { return chunks_overwritten_; }
+ void set_chunks_overwritten(uint64_t value) { chunks_overwritten_ = value; _has_field_.set(3); }
+
+ bool has_chunks_discarded() const { return _has_field_[18]; }
+ uint64_t chunks_discarded() const { return chunks_discarded_; }
+ void set_chunks_discarded(uint64_t value) { chunks_discarded_ = value; _has_field_.set(18); }
+
+ bool has_chunks_read() const { return _has_field_[17]; }
+ uint64_t chunks_read() const { return chunks_read_; }
+ void set_chunks_read(uint64_t value) { chunks_read_ = value; _has_field_.set(17); }
+
+ bool has_chunks_committed_out_of_order() const { return _has_field_[11]; }
+ uint64_t chunks_committed_out_of_order() const { return chunks_committed_out_of_order_; }
+ void set_chunks_committed_out_of_order(uint64_t value) { chunks_committed_out_of_order_ = value; _has_field_.set(11); }
+
+ bool has_write_wrap_count() const { return _has_field_[4]; }
+ uint64_t write_wrap_count() const { return write_wrap_count_; }
+ void set_write_wrap_count(uint64_t value) { write_wrap_count_ = value; _has_field_.set(4); }
+
+ bool has_patches_succeeded() const { return _has_field_[5]; }
+ uint64_t patches_succeeded() const { return patches_succeeded_; }
+ void set_patches_succeeded(uint64_t value) { patches_succeeded_ = value; _has_field_.set(5); }
+
+ bool has_patches_failed() const { return _has_field_[6]; }
+ uint64_t patches_failed() const { return patches_failed_; }
+ void set_patches_failed(uint64_t value) { patches_failed_ = value; _has_field_.set(6); }
+
+ bool has_readaheads_succeeded() const { return _has_field_[7]; }
+ uint64_t readaheads_succeeded() const { return readaheads_succeeded_; }
+ void set_readaheads_succeeded(uint64_t value) { readaheads_succeeded_ = value; _has_field_.set(7); }
+
+ bool has_readaheads_failed() const { return _has_field_[8]; }
+ uint64_t readaheads_failed() const { return readaheads_failed_; }
+ void set_readaheads_failed(uint64_t value) { readaheads_failed_ = value; _has_field_.set(8); }
+
+ bool has_abi_violations() const { return _has_field_[9]; }
+ uint64_t abi_violations() const { return abi_violations_; }
+ void set_abi_violations(uint64_t value) { abi_violations_ = value; _has_field_.set(9); }
+
+ bool has_trace_writer_packet_loss() const { return _has_field_[19]; }
+ uint64_t trace_writer_packet_loss() const { return trace_writer_packet_loss_; }
+ void set_trace_writer_packet_loss(uint64_t value) { trace_writer_packet_loss_ = value; _has_field_.set(19); }
+
+ private:
+ uint64_t buffer_size_{};
+ uint64_t bytes_written_{};
+ uint64_t bytes_overwritten_{};
+ uint64_t bytes_read_{};
+ uint64_t padding_bytes_written_{};
+ uint64_t padding_bytes_cleared_{};
+ uint64_t chunks_written_{};
+ uint64_t chunks_rewritten_{};
+ uint64_t chunks_overwritten_{};
+ uint64_t chunks_discarded_{};
+ uint64_t chunks_read_{};
+ uint64_t chunks_committed_out_of_order_{};
+ uint64_t write_wrap_count_{};
+ uint64_t patches_succeeded_{};
+ uint64_t patches_failed_{};
+ uint64_t readaheads_succeeded_{};
+ uint64_t readaheads_failed_{};
+ uint64_t abi_violations_{};
+ uint64_t trace_writer_packet_loss_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<20> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_TRACE_STATS_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/common/tracing_service_capabilities.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_TRACING_SERVICE_CAPABILITIES_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_TRACING_SERVICE_CAPABILITIES_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class TracingServiceCapabilities;
+enum ObservableEvents_Type : int;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+class PERFETTO_EXPORT_COMPONENT TracingServiceCapabilities : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kHasQueryCapabilitiesFieldNumber = 1,
+ kObservableEventsFieldNumber = 2,
+ kHasTraceConfigOutputPathFieldNumber = 3,
+ kHasCloneSessionFieldNumber = 4,
+ };
+
+ TracingServiceCapabilities();
+ ~TracingServiceCapabilities() override;
+ TracingServiceCapabilities(TracingServiceCapabilities&&) noexcept;
+ TracingServiceCapabilities& operator=(TracingServiceCapabilities&&);
+ TracingServiceCapabilities(const TracingServiceCapabilities&);
+ TracingServiceCapabilities& operator=(const TracingServiceCapabilities&);
+ bool operator==(const TracingServiceCapabilities&) const;
+ bool operator!=(const TracingServiceCapabilities& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_has_query_capabilities() const { return _has_field_[1]; }
+ bool has_query_capabilities() const { return has_query_capabilities_; }
+ void set_has_query_capabilities(bool value) { has_query_capabilities_ = value; _has_field_.set(1); }
+
+ const std::vector<ObservableEvents_Type>& observable_events() const { return observable_events_; }
+ std::vector<ObservableEvents_Type>* mutable_observable_events() { return &observable_events_; }
+ int observable_events_size() const { return static_cast<int>(observable_events_.size()); }
+ void clear_observable_events() { observable_events_.clear(); }
+ void add_observable_events(ObservableEvents_Type value) { observable_events_.emplace_back(value); }
+ ObservableEvents_Type* add_observable_events() { observable_events_.emplace_back(); return &observable_events_.back(); }
+
+ bool has_has_trace_config_output_path() const { return _has_field_[3]; }
+ bool has_trace_config_output_path() const { return has_trace_config_output_path_; }
+ void set_has_trace_config_output_path(bool value) { has_trace_config_output_path_ = value; _has_field_.set(3); }
+
+ bool has_has_clone_session() const { return _has_field_[4]; }
+ bool has_clone_session() const { return has_clone_session_; }
+ void set_has_clone_session(bool value) { has_clone_session_ = value; _has_field_.set(4); }
+
+ private:
+ bool has_query_capabilities_{};
+ std::vector<ObservableEvents_Type> observable_events_;
+ bool has_trace_config_output_path_{};
+ bool has_clone_session_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<5> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_TRACING_SERVICE_CAPABILITIES_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/common/tracing_service_state.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_TRACING_SERVICE_STATE_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_TRACING_SERVICE_STATE_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class TracingServiceState;
+class TracingServiceState_TracingSession;
+class TracingServiceState_DataSource;
+class DataSourceDescriptor;
+class TracingServiceState_Producer;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+class PERFETTO_EXPORT_COMPONENT TracingServiceState : public ::protozero::CppMessageObj {
+ public:
+ using Producer = TracingServiceState_Producer;
+ using DataSource = TracingServiceState_DataSource;
+ using TracingSession = TracingServiceState_TracingSession;
+ enum FieldNumbers {
+ kProducersFieldNumber = 1,
+ kDataSourcesFieldNumber = 2,
+ kTracingSessionsFieldNumber = 6,
+ kSupportsTracingSessionsFieldNumber = 7,
+ kNumSessionsFieldNumber = 3,
+ kNumSessionsStartedFieldNumber = 4,
+ kTracingServiceVersionFieldNumber = 5,
+ };
+
+ TracingServiceState();
+ ~TracingServiceState() override;
+ TracingServiceState(TracingServiceState&&) noexcept;
+ TracingServiceState& operator=(TracingServiceState&&);
+ TracingServiceState(const TracingServiceState&);
+ TracingServiceState& operator=(const TracingServiceState&);
+ bool operator==(const TracingServiceState&) const;
+ bool operator!=(const TracingServiceState& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ const std::vector<TracingServiceState_Producer>& producers() const { return producers_; }
+ std::vector<TracingServiceState_Producer>* mutable_producers() { return &producers_; }
+ int producers_size() const;
+ void clear_producers();
+ TracingServiceState_Producer* add_producers();
+
+ const std::vector<TracingServiceState_DataSource>& data_sources() const { return data_sources_; }
+ std::vector<TracingServiceState_DataSource>* mutable_data_sources() { return &data_sources_; }
+ int data_sources_size() const;
+ void clear_data_sources();
+ TracingServiceState_DataSource* add_data_sources();
+
+ const std::vector<TracingServiceState_TracingSession>& tracing_sessions() const { return tracing_sessions_; }
+ std::vector<TracingServiceState_TracingSession>* mutable_tracing_sessions() { return &tracing_sessions_; }
+ int tracing_sessions_size() const;
+ void clear_tracing_sessions();
+ TracingServiceState_TracingSession* add_tracing_sessions();
+
+ bool has_supports_tracing_sessions() const { return _has_field_[7]; }
+ bool supports_tracing_sessions() const { return supports_tracing_sessions_; }
+ void set_supports_tracing_sessions(bool value) { supports_tracing_sessions_ = value; _has_field_.set(7); }
+
+ bool has_num_sessions() const { return _has_field_[3]; }
+ int32_t num_sessions() const { return num_sessions_; }
+ void set_num_sessions(int32_t value) { num_sessions_ = value; _has_field_.set(3); }
+
+ bool has_num_sessions_started() const { return _has_field_[4]; }
+ int32_t num_sessions_started() const { return num_sessions_started_; }
+ void set_num_sessions_started(int32_t value) { num_sessions_started_ = value; _has_field_.set(4); }
+
+ bool has_tracing_service_version() const { return _has_field_[5]; }
+ const std::string& tracing_service_version() const { return tracing_service_version_; }
+ void set_tracing_service_version(const std::string& value) { tracing_service_version_ = value; _has_field_.set(5); }
+
+ private:
+ std::vector<TracingServiceState_Producer> producers_;
+ std::vector<TracingServiceState_DataSource> data_sources_;
+ std::vector<TracingServiceState_TracingSession> tracing_sessions_;
+ bool supports_tracing_sessions_{};
+ int32_t num_sessions_{};
+ int32_t num_sessions_started_{};
+ std::string tracing_service_version_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<8> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT TracingServiceState_TracingSession : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kIdFieldNumber = 1,
+ kConsumerUidFieldNumber = 2,
+ kStateFieldNumber = 3,
+ kUniqueSessionNameFieldNumber = 4,
+ kBufferSizeKbFieldNumber = 5,
+ kDurationMsFieldNumber = 6,
+ kNumDataSourcesFieldNumber = 7,
+ kStartRealtimeNsFieldNumber = 8,
+ kBugreportScoreFieldNumber = 9,
+ kBugreportFilenameFieldNumber = 10,
+ kIsStartedFieldNumber = 11,
+ };
+
+ TracingServiceState_TracingSession();
+ ~TracingServiceState_TracingSession() override;
+ TracingServiceState_TracingSession(TracingServiceState_TracingSession&&) noexcept;
+ TracingServiceState_TracingSession& operator=(TracingServiceState_TracingSession&&);
+ TracingServiceState_TracingSession(const TracingServiceState_TracingSession&);
+ TracingServiceState_TracingSession& operator=(const TracingServiceState_TracingSession&);
+ bool operator==(const TracingServiceState_TracingSession&) const;
+ bool operator!=(const TracingServiceState_TracingSession& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_id() const { return _has_field_[1]; }
+ uint64_t id() const { return id_; }
+ void set_id(uint64_t value) { id_ = value; _has_field_.set(1); }
+
+ bool has_consumer_uid() const { return _has_field_[2]; }
+ int32_t consumer_uid() const { return consumer_uid_; }
+ void set_consumer_uid(int32_t value) { consumer_uid_ = value; _has_field_.set(2); }
+
+ bool has_state() const { return _has_field_[3]; }
+ const std::string& state() const { return state_; }
+ void set_state(const std::string& value) { state_ = value; _has_field_.set(3); }
+
+ bool has_unique_session_name() const { return _has_field_[4]; }
+ const std::string& unique_session_name() const { return unique_session_name_; }
+ void set_unique_session_name(const std::string& value) { unique_session_name_ = value; _has_field_.set(4); }
+
+ const std::vector<uint32_t>& buffer_size_kb() const { return buffer_size_kb_; }
+ std::vector<uint32_t>* mutable_buffer_size_kb() { return &buffer_size_kb_; }
+ int buffer_size_kb_size() const { return static_cast<int>(buffer_size_kb_.size()); }
+ void clear_buffer_size_kb() { buffer_size_kb_.clear(); }
+ void add_buffer_size_kb(uint32_t value) { buffer_size_kb_.emplace_back(value); }
+ uint32_t* add_buffer_size_kb() { buffer_size_kb_.emplace_back(); return &buffer_size_kb_.back(); }
+
+ bool has_duration_ms() const { return _has_field_[6]; }
+ uint32_t duration_ms() const { return duration_ms_; }
+ void set_duration_ms(uint32_t value) { duration_ms_ = value; _has_field_.set(6); }
+
+ bool has_num_data_sources() const { return _has_field_[7]; }
+ uint32_t num_data_sources() const { return num_data_sources_; }
+ void set_num_data_sources(uint32_t value) { num_data_sources_ = value; _has_field_.set(7); }
+
+ bool has_start_realtime_ns() const { return _has_field_[8]; }
+ int64_t start_realtime_ns() const { return start_realtime_ns_; }
+ void set_start_realtime_ns(int64_t value) { start_realtime_ns_ = value; _has_field_.set(8); }
+
+ bool has_bugreport_score() const { return _has_field_[9]; }
+ int32_t bugreport_score() const { return bugreport_score_; }
+ void set_bugreport_score(int32_t value) { bugreport_score_ = value; _has_field_.set(9); }
+
+ bool has_bugreport_filename() const { return _has_field_[10]; }
+ const std::string& bugreport_filename() const { return bugreport_filename_; }
+ void set_bugreport_filename(const std::string& value) { bugreport_filename_ = value; _has_field_.set(10); }
+
+ bool has_is_started() const { return _has_field_[11]; }
+ bool is_started() const { return is_started_; }
+ void set_is_started(bool value) { is_started_ = value; _has_field_.set(11); }
+
+ private:
+ uint64_t id_{};
+ int32_t consumer_uid_{};
+ std::string state_{};
+ std::string unique_session_name_{};
+ std::vector<uint32_t> buffer_size_kb_;
+ uint32_t duration_ms_{};
+ uint32_t num_data_sources_{};
+ int64_t start_realtime_ns_{};
+ int32_t bugreport_score_{};
+ std::string bugreport_filename_{};
+ bool is_started_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<12> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT TracingServiceState_DataSource : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kDsDescriptorFieldNumber = 1,
+ kProducerIdFieldNumber = 2,
+ };
+
+ TracingServiceState_DataSource();
+ ~TracingServiceState_DataSource() override;
+ TracingServiceState_DataSource(TracingServiceState_DataSource&&) noexcept;
+ TracingServiceState_DataSource& operator=(TracingServiceState_DataSource&&);
+ TracingServiceState_DataSource(const TracingServiceState_DataSource&);
+ TracingServiceState_DataSource& operator=(const TracingServiceState_DataSource&);
+ bool operator==(const TracingServiceState_DataSource&) const;
+ bool operator!=(const TracingServiceState_DataSource& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_ds_descriptor() const { return _has_field_[1]; }
+ const DataSourceDescriptor& ds_descriptor() const { return *ds_descriptor_; }
+ DataSourceDescriptor* mutable_ds_descriptor() { _has_field_.set(1); return ds_descriptor_.get(); }
+
+ bool has_producer_id() const { return _has_field_[2]; }
+ int32_t producer_id() const { return producer_id_; }
+ void set_producer_id(int32_t value) { producer_id_ = value; _has_field_.set(2); }
+
+ private:
+ ::protozero::CopyablePtr<DataSourceDescriptor> ds_descriptor_;
+ int32_t producer_id_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<3> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT TracingServiceState_Producer : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kIdFieldNumber = 1,
+ kNameFieldNumber = 2,
+ kPidFieldNumber = 5,
+ kUidFieldNumber = 3,
+ kSdkVersionFieldNumber = 4,
+ };
+
+ TracingServiceState_Producer();
+ ~TracingServiceState_Producer() override;
+ TracingServiceState_Producer(TracingServiceState_Producer&&) noexcept;
+ TracingServiceState_Producer& operator=(TracingServiceState_Producer&&);
+ TracingServiceState_Producer(const TracingServiceState_Producer&);
+ TracingServiceState_Producer& operator=(const TracingServiceState_Producer&);
+ bool operator==(const TracingServiceState_Producer&) const;
+ bool operator!=(const TracingServiceState_Producer& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_id() const { return _has_field_[1]; }
+ int32_t id() const { return id_; }
+ void set_id(int32_t value) { id_ = value; _has_field_.set(1); }
+
+ bool has_name() const { return _has_field_[2]; }
+ const std::string& name() const { return name_; }
+ void set_name(const std::string& value) { name_ = value; _has_field_.set(2); }
+
+ bool has_pid() const { return _has_field_[5]; }
+ int32_t pid() const { return pid_; }
+ void set_pid(int32_t value) { pid_ = value; _has_field_.set(5); }
+
+ bool has_uid() const { return _has_field_[3]; }
+ int32_t uid() const { return uid_; }
+ void set_uid(int32_t value) { uid_ = value; _has_field_.set(3); }
+
+ bool has_sdk_version() const { return _has_field_[4]; }
+ const std::string& sdk_version() const { return sdk_version_; }
+ void set_sdk_version(const std::string& value) { sdk_version_ = value; _has_field_.set(4); }
+
+ private:
+ int32_t id_{};
+ std::string name_{};
+ int32_t pid_{};
+ int32_t uid_{};
+ std::string sdk_version_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<6> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_TRACING_SERVICE_STATE_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/common/track_event_descriptor.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_TRACK_EVENT_DESCRIPTOR_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_TRACK_EVENT_DESCRIPTOR_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class TrackEventDescriptor;
+class TrackEventCategory;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+class PERFETTO_EXPORT_COMPONENT TrackEventDescriptor : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kAvailableCategoriesFieldNumber = 1,
+ };
+
+ TrackEventDescriptor();
+ ~TrackEventDescriptor() override;
+ TrackEventDescriptor(TrackEventDescriptor&&) noexcept;
+ TrackEventDescriptor& operator=(TrackEventDescriptor&&);
+ TrackEventDescriptor(const TrackEventDescriptor&);
+ TrackEventDescriptor& operator=(const TrackEventDescriptor&);
+ bool operator==(const TrackEventDescriptor&) const;
+ bool operator!=(const TrackEventDescriptor& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ const std::vector<TrackEventCategory>& available_categories() const { return available_categories_; }
+ std::vector<TrackEventCategory>* mutable_available_categories() { return &available_categories_; }
+ int available_categories_size() const;
+ void clear_available_categories();
+ TrackEventCategory* add_available_categories();
+
+ private:
+ std::vector<TrackEventCategory> available_categories_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT TrackEventCategory : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kNameFieldNumber = 1,
+ kDescriptionFieldNumber = 2,
+ kTagsFieldNumber = 3,
+ };
+
+ TrackEventCategory();
+ ~TrackEventCategory() override;
+ TrackEventCategory(TrackEventCategory&&) noexcept;
+ TrackEventCategory& operator=(TrackEventCategory&&);
+ TrackEventCategory(const TrackEventCategory&);
+ TrackEventCategory& operator=(const TrackEventCategory&);
+ bool operator==(const TrackEventCategory&) const;
+ bool operator!=(const TrackEventCategory& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_name() const { return _has_field_[1]; }
+ const std::string& name() const { return name_; }
+ void set_name(const std::string& value) { name_ = value; _has_field_.set(1); }
+
+ bool has_description() const { return _has_field_[2]; }
+ const std::string& description() const { return description_; }
+ void set_description(const std::string& value) { description_ = value; _has_field_.set(2); }
+
+ const std::vector<std::string>& tags() const { return tags_; }
+ std::vector<std::string>* mutable_tags() { return &tags_; }
+ int tags_size() const { return static_cast<int>(tags_.size()); }
+ void clear_tags() { tags_.clear(); }
+ void add_tags(std::string value) { tags_.emplace_back(value); }
+ std::string* add_tags() { tags_.emplace_back(); return &tags_.back(); }
+
+ private:
+ std::string name_{};
+ std::string description_{};
+ std::vector<std::string> tags_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<4> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_TRACK_EVENT_DESCRIPTOR_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/common/android_energy_consumer_descriptor.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_ANDROID_ENERGY_CONSUMER_DESCRIPTOR_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_ANDROID_ENERGY_CONSUMER_DESCRIPTOR_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class AndroidEnergyConsumer;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class AndroidEnergyConsumerDescriptor_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ AndroidEnergyConsumerDescriptor_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit AndroidEnergyConsumerDescriptor_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit AndroidEnergyConsumerDescriptor_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_energy_consumers() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> energy_consumers() const { return GetRepeated<::protozero::ConstBytes>(1); }
+};
+
+class AndroidEnergyConsumerDescriptor : public ::protozero::Message {
+ public:
+ using Decoder = AndroidEnergyConsumerDescriptor_Decoder;
+ enum : int32_t {
+ kEnergyConsumersFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.AndroidEnergyConsumerDescriptor"; }
+
+
+ using FieldMetadata_EnergyConsumers =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ AndroidEnergyConsumer,
+ AndroidEnergyConsumerDescriptor>;
+
+ static constexpr FieldMetadata_EnergyConsumers kEnergyConsumers{};
+ template <typename T = AndroidEnergyConsumer> T* add_energy_consumers() {
+ return BeginNestedMessage<T>(1);
+ }
+
+};
+
+class AndroidEnergyConsumer_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ AndroidEnergyConsumer_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit AndroidEnergyConsumer_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit AndroidEnergyConsumer_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_energy_consumer_id() const { return at<1>().valid(); }
+ int32_t energy_consumer_id() const { return at<1>().as_int32(); }
+ bool has_ordinal() const { return at<2>().valid(); }
+ int32_t ordinal() const { return at<2>().as_int32(); }
+ bool has_type() const { return at<3>().valid(); }
+ ::protozero::ConstChars type() const { return at<3>().as_string(); }
+ bool has_name() const { return at<4>().valid(); }
+ ::protozero::ConstChars name() const { return at<4>().as_string(); }
+};
+
+class AndroidEnergyConsumer : public ::protozero::Message {
+ public:
+ using Decoder = AndroidEnergyConsumer_Decoder;
+ enum : int32_t {
+ kEnergyConsumerIdFieldNumber = 1,
+ kOrdinalFieldNumber = 2,
+ kTypeFieldNumber = 3,
+ kNameFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.AndroidEnergyConsumer"; }
+
+
+ using FieldMetadata_EnergyConsumerId =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ AndroidEnergyConsumer>;
+
+ static constexpr FieldMetadata_EnergyConsumerId kEnergyConsumerId{};
+ void set_energy_consumer_id(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_EnergyConsumerId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ordinal =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ AndroidEnergyConsumer>;
+
+ static constexpr FieldMetadata_Ordinal kOrdinal{};
+ void set_ordinal(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ordinal::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Type =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ AndroidEnergyConsumer>;
+
+ static constexpr FieldMetadata_Type kType{};
+ void set_type(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Type::kFieldId, data, size);
+ }
+ void set_type(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Type::kFieldId, chars.data, chars.size);
+ }
+ void set_type(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Type::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ AndroidEnergyConsumer>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/common/android_log_constants.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_ANDROID_LOG_CONSTANTS_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_ANDROID_LOG_CONSTANTS_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+enum AndroidLogId : int32_t {
+ LID_DEFAULT = 0,
+ LID_RADIO = 1,
+ LID_EVENTS = 2,
+ LID_SYSTEM = 3,
+ LID_CRASH = 4,
+ LID_STATS = 5,
+ LID_SECURITY = 6,
+ LID_KERNEL = 7,
+};
+
+constexpr AndroidLogId AndroidLogId_MIN = AndroidLogId::LID_DEFAULT;
+constexpr AndroidLogId AndroidLogId_MAX = AndroidLogId::LID_KERNEL;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* AndroidLogId_Name(::perfetto::protos::pbzero::AndroidLogId value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::AndroidLogId::LID_DEFAULT:
+ return "LID_DEFAULT";
+
+ case ::perfetto::protos::pbzero::AndroidLogId::LID_RADIO:
+ return "LID_RADIO";
+
+ case ::perfetto::protos::pbzero::AndroidLogId::LID_EVENTS:
+ return "LID_EVENTS";
+
+ case ::perfetto::protos::pbzero::AndroidLogId::LID_SYSTEM:
+ return "LID_SYSTEM";
+
+ case ::perfetto::protos::pbzero::AndroidLogId::LID_CRASH:
+ return "LID_CRASH";
+
+ case ::perfetto::protos::pbzero::AndroidLogId::LID_STATS:
+ return "LID_STATS";
+
+ case ::perfetto::protos::pbzero::AndroidLogId::LID_SECURITY:
+ return "LID_SECURITY";
+
+ case ::perfetto::protos::pbzero::AndroidLogId::LID_KERNEL:
+ return "LID_KERNEL";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+enum AndroidLogPriority : int32_t {
+ PRIO_UNSPECIFIED = 0,
+ PRIO_UNUSED = 1,
+ PRIO_VERBOSE = 2,
+ PRIO_DEBUG = 3,
+ PRIO_INFO = 4,
+ PRIO_WARN = 5,
+ PRIO_ERROR = 6,
+ PRIO_FATAL = 7,
+};
+
+constexpr AndroidLogPriority AndroidLogPriority_MIN = AndroidLogPriority::PRIO_UNSPECIFIED;
+constexpr AndroidLogPriority AndroidLogPriority_MAX = AndroidLogPriority::PRIO_FATAL;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* AndroidLogPriority_Name(::perfetto::protos::pbzero::AndroidLogPriority value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::AndroidLogPriority::PRIO_UNSPECIFIED:
+ return "PRIO_UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::AndroidLogPriority::PRIO_UNUSED:
+ return "PRIO_UNUSED";
+
+ case ::perfetto::protos::pbzero::AndroidLogPriority::PRIO_VERBOSE:
+ return "PRIO_VERBOSE";
+
+ case ::perfetto::protos::pbzero::AndroidLogPriority::PRIO_DEBUG:
+ return "PRIO_DEBUG";
+
+ case ::perfetto::protos::pbzero::AndroidLogPriority::PRIO_INFO:
+ return "PRIO_INFO";
+
+ case ::perfetto::protos::pbzero::AndroidLogPriority::PRIO_WARN:
+ return "PRIO_WARN";
+
+ case ::perfetto::protos::pbzero::AndroidLogPriority::PRIO_ERROR:
+ return "PRIO_ERROR";
+
+ case ::perfetto::protos::pbzero::AndroidLogPriority::PRIO_FATAL:
+ return "PRIO_FATAL";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/common/commit_data_request.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_COMMIT_DATA_REQUEST_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_COMMIT_DATA_REQUEST_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class CommitDataRequest_ChunkToPatch;
+class CommitDataRequest_ChunkToPatch_Patch;
+class CommitDataRequest_ChunksToMove;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class CommitDataRequest_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ CommitDataRequest_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit CommitDataRequest_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit CommitDataRequest_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_chunks_to_move() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> chunks_to_move() const { return GetRepeated<::protozero::ConstBytes>(1); }
+ bool has_chunks_to_patch() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> chunks_to_patch() const { return GetRepeated<::protozero::ConstBytes>(2); }
+ bool has_flush_request_id() const { return at<3>().valid(); }
+ uint64_t flush_request_id() const { return at<3>().as_uint64(); }
+};
+
+class CommitDataRequest : public ::protozero::Message {
+ public:
+ using Decoder = CommitDataRequest_Decoder;
+ enum : int32_t {
+ kChunksToMoveFieldNumber = 1,
+ kChunksToPatchFieldNumber = 2,
+ kFlushRequestIdFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.CommitDataRequest"; }
+
+ using ChunksToMove = ::perfetto::protos::pbzero::CommitDataRequest_ChunksToMove;
+ using ChunkToPatch = ::perfetto::protos::pbzero::CommitDataRequest_ChunkToPatch;
+
+ using FieldMetadata_ChunksToMove =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ CommitDataRequest_ChunksToMove,
+ CommitDataRequest>;
+
+ static constexpr FieldMetadata_ChunksToMove kChunksToMove{};
+ template <typename T = CommitDataRequest_ChunksToMove> T* add_chunks_to_move() {
+ return BeginNestedMessage<T>(1);
+ }
+
+
+ using FieldMetadata_ChunksToPatch =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ CommitDataRequest_ChunkToPatch,
+ CommitDataRequest>;
+
+ static constexpr FieldMetadata_ChunksToPatch kChunksToPatch{};
+ template <typename T = CommitDataRequest_ChunkToPatch> T* add_chunks_to_patch() {
+ return BeginNestedMessage<T>(2);
+ }
+
+
+ using FieldMetadata_FlushRequestId =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ CommitDataRequest>;
+
+ static constexpr FieldMetadata_FlushRequestId kFlushRequestId{};
+ void set_flush_request_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FlushRequestId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class CommitDataRequest_ChunkToPatch_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ CommitDataRequest_ChunkToPatch_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit CommitDataRequest_ChunkToPatch_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit CommitDataRequest_ChunkToPatch_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_target_buffer() const { return at<1>().valid(); }
+ uint32_t target_buffer() const { return at<1>().as_uint32(); }
+ bool has_writer_id() const { return at<2>().valid(); }
+ uint32_t writer_id() const { return at<2>().as_uint32(); }
+ bool has_chunk_id() const { return at<3>().valid(); }
+ uint32_t chunk_id() const { return at<3>().as_uint32(); }
+ bool has_patches() const { return at<4>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> patches() const { return GetRepeated<::protozero::ConstBytes>(4); }
+ bool has_has_more_patches() const { return at<5>().valid(); }
+ bool has_more_patches() const { return at<5>().as_bool(); }
+};
+
+class CommitDataRequest_ChunkToPatch : public ::protozero::Message {
+ public:
+ using Decoder = CommitDataRequest_ChunkToPatch_Decoder;
+ enum : int32_t {
+ kTargetBufferFieldNumber = 1,
+ kWriterIdFieldNumber = 2,
+ kChunkIdFieldNumber = 3,
+ kPatchesFieldNumber = 4,
+ kHasMorePatchesFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.CommitDataRequest.ChunkToPatch"; }
+
+ using Patch = ::perfetto::protos::pbzero::CommitDataRequest_ChunkToPatch_Patch;
+
+ using FieldMetadata_TargetBuffer =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ CommitDataRequest_ChunkToPatch>;
+
+ static constexpr FieldMetadata_TargetBuffer kTargetBuffer{};
+ void set_target_buffer(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TargetBuffer::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_WriterId =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ CommitDataRequest_ChunkToPatch>;
+
+ static constexpr FieldMetadata_WriterId kWriterId{};
+ void set_writer_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_WriterId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ChunkId =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ CommitDataRequest_ChunkToPatch>;
+
+ static constexpr FieldMetadata_ChunkId kChunkId{};
+ void set_chunk_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ChunkId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Patches =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ CommitDataRequest_ChunkToPatch_Patch,
+ CommitDataRequest_ChunkToPatch>;
+
+ static constexpr FieldMetadata_Patches kPatches{};
+ template <typename T = CommitDataRequest_ChunkToPatch_Patch> T* add_patches() {
+ return BeginNestedMessage<T>(4);
+ }
+
+
+ using FieldMetadata_HasMorePatches =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ CommitDataRequest_ChunkToPatch>;
+
+ static constexpr FieldMetadata_HasMorePatches kHasMorePatches{};
+ void set_has_more_patches(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_HasMorePatches::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class CommitDataRequest_ChunkToPatch_Patch_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ CommitDataRequest_ChunkToPatch_Patch_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit CommitDataRequest_ChunkToPatch_Patch_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit CommitDataRequest_ChunkToPatch_Patch_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_offset() const { return at<1>().valid(); }
+ uint32_t offset() const { return at<1>().as_uint32(); }
+ bool has_data() const { return at<2>().valid(); }
+ ::protozero::ConstBytes data() const { return at<2>().as_bytes(); }
+};
+
+class CommitDataRequest_ChunkToPatch_Patch : public ::protozero::Message {
+ public:
+ using Decoder = CommitDataRequest_ChunkToPatch_Patch_Decoder;
+ enum : int32_t {
+ kOffsetFieldNumber = 1,
+ kDataFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.CommitDataRequest.ChunkToPatch.Patch"; }
+
+
+ using FieldMetadata_Offset =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ CommitDataRequest_ChunkToPatch_Patch>;
+
+ static constexpr FieldMetadata_Offset kOffset{};
+ void set_offset(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Offset::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Data =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBytes,
+ std::string,
+ CommitDataRequest_ChunkToPatch_Patch>;
+
+ static constexpr FieldMetadata_Data kData{};
+ void set_data(const uint8_t* data, size_t size) {
+ AppendBytes(FieldMetadata_Data::kFieldId, data, size);
+ }
+ void set_data(::protozero::ConstBytes bytes) {
+ AppendBytes(FieldMetadata_Data::kFieldId, bytes.data, bytes.size);
+ }
+ void set_data(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Data::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBytes>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class CommitDataRequest_ChunksToMove_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ CommitDataRequest_ChunksToMove_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit CommitDataRequest_ChunksToMove_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit CommitDataRequest_ChunksToMove_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_page() const { return at<1>().valid(); }
+ uint32_t page() const { return at<1>().as_uint32(); }
+ bool has_chunk() const { return at<2>().valid(); }
+ uint32_t chunk() const { return at<2>().as_uint32(); }
+ bool has_target_buffer() const { return at<3>().valid(); }
+ uint32_t target_buffer() const { return at<3>().as_uint32(); }
+ bool has_data() const { return at<4>().valid(); }
+ ::protozero::ConstBytes data() const { return at<4>().as_bytes(); }
+};
+
+class CommitDataRequest_ChunksToMove : public ::protozero::Message {
+ public:
+ using Decoder = CommitDataRequest_ChunksToMove_Decoder;
+ enum : int32_t {
+ kPageFieldNumber = 1,
+ kChunkFieldNumber = 2,
+ kTargetBufferFieldNumber = 3,
+ kDataFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.CommitDataRequest.ChunksToMove"; }
+
+
+ using FieldMetadata_Page =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ CommitDataRequest_ChunksToMove>;
+
+ static constexpr FieldMetadata_Page kPage{};
+ void set_page(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Page::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Chunk =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ CommitDataRequest_ChunksToMove>;
+
+ static constexpr FieldMetadata_Chunk kChunk{};
+ void set_chunk(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Chunk::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TargetBuffer =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ CommitDataRequest_ChunksToMove>;
+
+ static constexpr FieldMetadata_TargetBuffer kTargetBuffer{};
+ void set_target_buffer(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TargetBuffer::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Data =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBytes,
+ std::string,
+ CommitDataRequest_ChunksToMove>;
+
+ static constexpr FieldMetadata_Data kData{};
+ void set_data(const uint8_t* data, size_t size) {
+ AppendBytes(FieldMetadata_Data::kFieldId, data, size);
+ }
+ void set_data(::protozero::ConstBytes bytes) {
+ AppendBytes(FieldMetadata_Data::kFieldId, bytes.data, bytes.size);
+ }
+ void set_data(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Data::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBytes>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/common/data_source_descriptor.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_DATA_SOURCE_DESCRIPTOR_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_DATA_SOURCE_DESCRIPTOR_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class FtraceDescriptor;
+class GpuCounterDescriptor;
+class TrackEventDescriptor;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class DataSourceDescriptor_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/9, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ DataSourceDescriptor_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit DataSourceDescriptor_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit DataSourceDescriptor_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars name() const { return at<1>().as_string(); }
+ bool has_id() const { return at<7>().valid(); }
+ uint64_t id() const { return at<7>().as_uint64(); }
+ bool has_will_notify_on_stop() const { return at<2>().valid(); }
+ bool will_notify_on_stop() const { return at<2>().as_bool(); }
+ bool has_will_notify_on_start() const { return at<3>().valid(); }
+ bool will_notify_on_start() const { return at<3>().as_bool(); }
+ bool has_handles_incremental_state_clear() const { return at<4>().valid(); }
+ bool handles_incremental_state_clear() const { return at<4>().as_bool(); }
+ bool has_no_flush() const { return at<9>().valid(); }
+ bool no_flush() const { return at<9>().as_bool(); }
+ bool has_gpu_counter_descriptor() const { return at<5>().valid(); }
+ ::protozero::ConstBytes gpu_counter_descriptor() const { return at<5>().as_bytes(); }
+ bool has_track_event_descriptor() const { return at<6>().valid(); }
+ ::protozero::ConstBytes track_event_descriptor() const { return at<6>().as_bytes(); }
+ bool has_ftrace_descriptor() const { return at<8>().valid(); }
+ ::protozero::ConstBytes ftrace_descriptor() const { return at<8>().as_bytes(); }
+};
+
+class DataSourceDescriptor : public ::protozero::Message {
+ public:
+ using Decoder = DataSourceDescriptor_Decoder;
+ enum : int32_t {
+ kNameFieldNumber = 1,
+ kIdFieldNumber = 7,
+ kWillNotifyOnStopFieldNumber = 2,
+ kWillNotifyOnStartFieldNumber = 3,
+ kHandlesIncrementalStateClearFieldNumber = 4,
+ kNoFlushFieldNumber = 9,
+ kGpuCounterDescriptorFieldNumber = 5,
+ kTrackEventDescriptorFieldNumber = 6,
+ kFtraceDescriptorFieldNumber = 8,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.DataSourceDescriptor"; }
+
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ DataSourceDescriptor>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Id =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ DataSourceDescriptor>;
+
+ static constexpr FieldMetadata_Id kId{};
+ void set_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Id::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_WillNotifyOnStop =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ DataSourceDescriptor>;
+
+ static constexpr FieldMetadata_WillNotifyOnStop kWillNotifyOnStop{};
+ void set_will_notify_on_stop(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_WillNotifyOnStop::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_WillNotifyOnStart =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ DataSourceDescriptor>;
+
+ static constexpr FieldMetadata_WillNotifyOnStart kWillNotifyOnStart{};
+ void set_will_notify_on_start(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_WillNotifyOnStart::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_HandlesIncrementalStateClear =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ DataSourceDescriptor>;
+
+ static constexpr FieldMetadata_HandlesIncrementalStateClear kHandlesIncrementalStateClear{};
+ void set_handles_incremental_state_clear(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_HandlesIncrementalStateClear::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NoFlush =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ DataSourceDescriptor>;
+
+ static constexpr FieldMetadata_NoFlush kNoFlush{};
+ void set_no_flush(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_NoFlush::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_GpuCounterDescriptor =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ GpuCounterDescriptor,
+ DataSourceDescriptor>;
+
+ static constexpr FieldMetadata_GpuCounterDescriptor kGpuCounterDescriptor{};
+ template <typename T = GpuCounterDescriptor> T* set_gpu_counter_descriptor() {
+ return BeginNestedMessage<T>(5);
+ }
+
+ void set_gpu_counter_descriptor_raw(const std::string& raw) {
+ return AppendBytes(5, raw.data(), raw.size());
+ }
+
+
+ using FieldMetadata_TrackEventDescriptor =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TrackEventDescriptor,
+ DataSourceDescriptor>;
+
+ static constexpr FieldMetadata_TrackEventDescriptor kTrackEventDescriptor{};
+ template <typename T = TrackEventDescriptor> T* set_track_event_descriptor() {
+ return BeginNestedMessage<T>(6);
+ }
+
+ void set_track_event_descriptor_raw(const std::string& raw) {
+ return AppendBytes(6, raw.data(), raw.size());
+ }
+
+
+ using FieldMetadata_FtraceDescriptor =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ FtraceDescriptor,
+ DataSourceDescriptor>;
+
+ static constexpr FieldMetadata_FtraceDescriptor kFtraceDescriptor{};
+ template <typename T = FtraceDescriptor> T* set_ftrace_descriptor() {
+ return BeginNestedMessage<T>(8);
+ }
+
+ void set_ftrace_descriptor_raw(const std::string& raw) {
+ return AppendBytes(8, raw.data(), raw.size());
+ }
+
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/common/descriptor.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_DESCRIPTOR_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_DESCRIPTOR_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class DescriptorProto;
+class DescriptorProto_ReservedRange;
+class EnumDescriptorProto;
+class EnumValueDescriptorProto;
+class FieldDescriptorProto;
+class FieldOptions;
+class FileDescriptorProto;
+class OneofDescriptorProto;
+class OneofOptions;
+class UninterpretedOption;
+class UninterpretedOption_NamePart;
+namespace perfetto_pbzero_enum_FieldDescriptorProto {
+enum Label : int32_t;
+} // namespace perfetto_pbzero_enum_FieldDescriptorProto
+using FieldDescriptorProto_Label = perfetto_pbzero_enum_FieldDescriptorProto::Label;
+namespace perfetto_pbzero_enum_FieldDescriptorProto {
+enum Type : int32_t;
+} // namespace perfetto_pbzero_enum_FieldDescriptorProto
+using FieldDescriptorProto_Type = perfetto_pbzero_enum_FieldDescriptorProto::Type;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+namespace perfetto_pbzero_enum_FieldDescriptorProto {
+enum Type : int32_t {
+ TYPE_DOUBLE = 1,
+ TYPE_FLOAT = 2,
+ TYPE_INT64 = 3,
+ TYPE_UINT64 = 4,
+ TYPE_INT32 = 5,
+ TYPE_FIXED64 = 6,
+ TYPE_FIXED32 = 7,
+ TYPE_BOOL = 8,
+ TYPE_STRING = 9,
+ TYPE_GROUP = 10,
+ TYPE_MESSAGE = 11,
+ TYPE_BYTES = 12,
+ TYPE_UINT32 = 13,
+ TYPE_ENUM = 14,
+ TYPE_SFIXED32 = 15,
+ TYPE_SFIXED64 = 16,
+ TYPE_SINT32 = 17,
+ TYPE_SINT64 = 18,
+};
+} // namespace perfetto_pbzero_enum_FieldDescriptorProto
+using FieldDescriptorProto_Type = perfetto_pbzero_enum_FieldDescriptorProto::Type;
+
+
+constexpr FieldDescriptorProto_Type FieldDescriptorProto_Type_MIN = FieldDescriptorProto_Type::TYPE_DOUBLE;
+constexpr FieldDescriptorProto_Type FieldDescriptorProto_Type_MAX = FieldDescriptorProto_Type::TYPE_SINT64;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* FieldDescriptorProto_Type_Name(::perfetto::protos::pbzero::FieldDescriptorProto_Type value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::FieldDescriptorProto_Type::TYPE_DOUBLE:
+ return "TYPE_DOUBLE";
+
+ case ::perfetto::protos::pbzero::FieldDescriptorProto_Type::TYPE_FLOAT:
+ return "TYPE_FLOAT";
+
+ case ::perfetto::protos::pbzero::FieldDescriptorProto_Type::TYPE_INT64:
+ return "TYPE_INT64";
+
+ case ::perfetto::protos::pbzero::FieldDescriptorProto_Type::TYPE_UINT64:
+ return "TYPE_UINT64";
+
+ case ::perfetto::protos::pbzero::FieldDescriptorProto_Type::TYPE_INT32:
+ return "TYPE_INT32";
+
+ case ::perfetto::protos::pbzero::FieldDescriptorProto_Type::TYPE_FIXED64:
+ return "TYPE_FIXED64";
+
+ case ::perfetto::protos::pbzero::FieldDescriptorProto_Type::TYPE_FIXED32:
+ return "TYPE_FIXED32";
+
+ case ::perfetto::protos::pbzero::FieldDescriptorProto_Type::TYPE_BOOL:
+ return "TYPE_BOOL";
+
+ case ::perfetto::protos::pbzero::FieldDescriptorProto_Type::TYPE_STRING:
+ return "TYPE_STRING";
+
+ case ::perfetto::protos::pbzero::FieldDescriptorProto_Type::TYPE_GROUP:
+ return "TYPE_GROUP";
+
+ case ::perfetto::protos::pbzero::FieldDescriptorProto_Type::TYPE_MESSAGE:
+ return "TYPE_MESSAGE";
+
+ case ::perfetto::protos::pbzero::FieldDescriptorProto_Type::TYPE_BYTES:
+ return "TYPE_BYTES";
+
+ case ::perfetto::protos::pbzero::FieldDescriptorProto_Type::TYPE_UINT32:
+ return "TYPE_UINT32";
+
+ case ::perfetto::protos::pbzero::FieldDescriptorProto_Type::TYPE_ENUM:
+ return "TYPE_ENUM";
+
+ case ::perfetto::protos::pbzero::FieldDescriptorProto_Type::TYPE_SFIXED32:
+ return "TYPE_SFIXED32";
+
+ case ::perfetto::protos::pbzero::FieldDescriptorProto_Type::TYPE_SFIXED64:
+ return "TYPE_SFIXED64";
+
+ case ::perfetto::protos::pbzero::FieldDescriptorProto_Type::TYPE_SINT32:
+ return "TYPE_SINT32";
+
+ case ::perfetto::protos::pbzero::FieldDescriptorProto_Type::TYPE_SINT64:
+ return "TYPE_SINT64";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_FieldDescriptorProto {
+enum Label : int32_t {
+ LABEL_OPTIONAL = 1,
+ LABEL_REQUIRED = 2,
+ LABEL_REPEATED = 3,
+};
+} // namespace perfetto_pbzero_enum_FieldDescriptorProto
+using FieldDescriptorProto_Label = perfetto_pbzero_enum_FieldDescriptorProto::Label;
+
+
+constexpr FieldDescriptorProto_Label FieldDescriptorProto_Label_MIN = FieldDescriptorProto_Label::LABEL_OPTIONAL;
+constexpr FieldDescriptorProto_Label FieldDescriptorProto_Label_MAX = FieldDescriptorProto_Label::LABEL_REPEATED;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* FieldDescriptorProto_Label_Name(::perfetto::protos::pbzero::FieldDescriptorProto_Label value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::FieldDescriptorProto_Label::LABEL_OPTIONAL:
+ return "LABEL_OPTIONAL";
+
+ case ::perfetto::protos::pbzero::FieldDescriptorProto_Label::LABEL_REQUIRED:
+ return "LABEL_REQUIRED";
+
+ case ::perfetto::protos::pbzero::FieldDescriptorProto_Label::LABEL_REPEATED:
+ return "LABEL_REPEATED";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+class OneofOptions_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/0, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ OneofOptions_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit OneofOptions_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit OneofOptions_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+};
+
+class OneofOptions : public ::protozero::Message {
+ public:
+ using Decoder = OneofOptions_Decoder;
+ static constexpr const char* GetName() { return ".perfetto.protos.OneofOptions"; }
+
+};
+
+class EnumValueDescriptorProto_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ EnumValueDescriptorProto_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit EnumValueDescriptorProto_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit EnumValueDescriptorProto_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars name() const { return at<1>().as_string(); }
+ bool has_number() const { return at<2>().valid(); }
+ int32_t number() const { return at<2>().as_int32(); }
+};
+
+class EnumValueDescriptorProto : public ::protozero::Message {
+ public:
+ using Decoder = EnumValueDescriptorProto_Decoder;
+ enum : int32_t {
+ kNameFieldNumber = 1,
+ kNumberFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.EnumValueDescriptorProto"; }
+
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ EnumValueDescriptorProto>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Number =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ EnumValueDescriptorProto>;
+
+ static constexpr FieldMetadata_Number kNumber{};
+ void set_number(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Number::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class EnumDescriptorProto_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ EnumDescriptorProto_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit EnumDescriptorProto_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit EnumDescriptorProto_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars name() const { return at<1>().as_string(); }
+ bool has_value() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> value() const { return GetRepeated<::protozero::ConstBytes>(2); }
+ bool has_reserved_name() const { return at<5>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstChars> reserved_name() const { return GetRepeated<::protozero::ConstChars>(5); }
+};
+
+class EnumDescriptorProto : public ::protozero::Message {
+ public:
+ using Decoder = EnumDescriptorProto_Decoder;
+ enum : int32_t {
+ kNameFieldNumber = 1,
+ kValueFieldNumber = 2,
+ kReservedNameFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.EnumDescriptorProto"; }
+
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ EnumDescriptorProto>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Value =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ EnumValueDescriptorProto,
+ EnumDescriptorProto>;
+
+ static constexpr FieldMetadata_Value kValue{};
+ template <typename T = EnumValueDescriptorProto> T* add_value() {
+ return BeginNestedMessage<T>(2);
+ }
+
+
+ using FieldMetadata_ReservedName =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ EnumDescriptorProto>;
+
+ static constexpr FieldMetadata_ReservedName kReservedName{};
+ void add_reserved_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_ReservedName::kFieldId, data, size);
+ }
+ void add_reserved_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_ReservedName::kFieldId, chars.data, chars.size);
+ }
+ void add_reserved_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_ReservedName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class OneofDescriptorProto_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ OneofDescriptorProto_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit OneofDescriptorProto_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit OneofDescriptorProto_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars name() const { return at<1>().as_string(); }
+ bool has_options() const { return at<2>().valid(); }
+ ::protozero::ConstBytes options() const { return at<2>().as_bytes(); }
+};
+
+class OneofDescriptorProto : public ::protozero::Message {
+ public:
+ using Decoder = OneofDescriptorProto_Decoder;
+ enum : int32_t {
+ kNameFieldNumber = 1,
+ kOptionsFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.OneofDescriptorProto"; }
+
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ OneofDescriptorProto>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Options =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ OneofOptions,
+ OneofDescriptorProto>;
+
+ static constexpr FieldMetadata_Options kOptions{};
+ template <typename T = OneofOptions> T* set_options() {
+ return BeginNestedMessage<T>(2);
+ }
+
+};
+
+class FieldDescriptorProto_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/9, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ FieldDescriptorProto_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit FieldDescriptorProto_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit FieldDescriptorProto_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars name() const { return at<1>().as_string(); }
+ bool has_number() const { return at<3>().valid(); }
+ int32_t number() const { return at<3>().as_int32(); }
+ bool has_label() const { return at<4>().valid(); }
+ int32_t label() const { return at<4>().as_int32(); }
+ bool has_type() const { return at<5>().valid(); }
+ int32_t type() const { return at<5>().as_int32(); }
+ bool has_type_name() const { return at<6>().valid(); }
+ ::protozero::ConstChars type_name() const { return at<6>().as_string(); }
+ bool has_extendee() const { return at<2>().valid(); }
+ ::protozero::ConstChars extendee() const { return at<2>().as_string(); }
+ bool has_default_value() const { return at<7>().valid(); }
+ ::protozero::ConstChars default_value() const { return at<7>().as_string(); }
+ bool has_options() const { return at<8>().valid(); }
+ ::protozero::ConstBytes options() const { return at<8>().as_bytes(); }
+ bool has_oneof_index() const { return at<9>().valid(); }
+ int32_t oneof_index() const { return at<9>().as_int32(); }
+};
+
+class FieldDescriptorProto : public ::protozero::Message {
+ public:
+ using Decoder = FieldDescriptorProto_Decoder;
+ enum : int32_t {
+ kNameFieldNumber = 1,
+ kNumberFieldNumber = 3,
+ kLabelFieldNumber = 4,
+ kTypeFieldNumber = 5,
+ kTypeNameFieldNumber = 6,
+ kExtendeeFieldNumber = 2,
+ kDefaultValueFieldNumber = 7,
+ kOptionsFieldNumber = 8,
+ kOneofIndexFieldNumber = 9,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.FieldDescriptorProto"; }
+
+
+ using Type = ::perfetto::protos::pbzero::FieldDescriptorProto_Type;
+ static inline const char* Type_Name(Type value) {
+ return ::perfetto::protos::pbzero::FieldDescriptorProto_Type_Name(value);
+ }
+
+ using Label = ::perfetto::protos::pbzero::FieldDescriptorProto_Label;
+ static inline const char* Label_Name(Label value) {
+ return ::perfetto::protos::pbzero::FieldDescriptorProto_Label_Name(value);
+ }
+ static inline const Type TYPE_DOUBLE = Type::TYPE_DOUBLE;
+ static inline const Type TYPE_FLOAT = Type::TYPE_FLOAT;
+ static inline const Type TYPE_INT64 = Type::TYPE_INT64;
+ static inline const Type TYPE_UINT64 = Type::TYPE_UINT64;
+ static inline const Type TYPE_INT32 = Type::TYPE_INT32;
+ static inline const Type TYPE_FIXED64 = Type::TYPE_FIXED64;
+ static inline const Type TYPE_FIXED32 = Type::TYPE_FIXED32;
+ static inline const Type TYPE_BOOL = Type::TYPE_BOOL;
+ static inline const Type TYPE_STRING = Type::TYPE_STRING;
+ static inline const Type TYPE_GROUP = Type::TYPE_GROUP;
+ static inline const Type TYPE_MESSAGE = Type::TYPE_MESSAGE;
+ static inline const Type TYPE_BYTES = Type::TYPE_BYTES;
+ static inline const Type TYPE_UINT32 = Type::TYPE_UINT32;
+ static inline const Type TYPE_ENUM = Type::TYPE_ENUM;
+ static inline const Type TYPE_SFIXED32 = Type::TYPE_SFIXED32;
+ static inline const Type TYPE_SFIXED64 = Type::TYPE_SFIXED64;
+ static inline const Type TYPE_SINT32 = Type::TYPE_SINT32;
+ static inline const Type TYPE_SINT64 = Type::TYPE_SINT64;
+ static inline const Label LABEL_OPTIONAL = Label::LABEL_OPTIONAL;
+ static inline const Label LABEL_REQUIRED = Label::LABEL_REQUIRED;
+ static inline const Label LABEL_REPEATED = Label::LABEL_REPEATED;
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ FieldDescriptorProto>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Number =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ FieldDescriptorProto>;
+
+ static constexpr FieldMetadata_Number kNumber{};
+ void set_number(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Number::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Label =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ FieldDescriptorProto_Label,
+ FieldDescriptorProto>;
+
+ static constexpr FieldMetadata_Label kLabel{};
+ void set_label(FieldDescriptorProto_Label value) {
+ static constexpr uint32_t field_id = FieldMetadata_Label::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Type =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ FieldDescriptorProto_Type,
+ FieldDescriptorProto>;
+
+ static constexpr FieldMetadata_Type kType{};
+ void set_type(FieldDescriptorProto_Type value) {
+ static constexpr uint32_t field_id = FieldMetadata_Type::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TypeName =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ FieldDescriptorProto>;
+
+ static constexpr FieldMetadata_TypeName kTypeName{};
+ void set_type_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_TypeName::kFieldId, data, size);
+ }
+ void set_type_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_TypeName::kFieldId, chars.data, chars.size);
+ }
+ void set_type_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_TypeName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Extendee =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ FieldDescriptorProto>;
+
+ static constexpr FieldMetadata_Extendee kExtendee{};
+ void set_extendee(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Extendee::kFieldId, data, size);
+ }
+ void set_extendee(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Extendee::kFieldId, chars.data, chars.size);
+ }
+ void set_extendee(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Extendee::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DefaultValue =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ FieldDescriptorProto>;
+
+ static constexpr FieldMetadata_DefaultValue kDefaultValue{};
+ void set_default_value(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_DefaultValue::kFieldId, data, size);
+ }
+ void set_default_value(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_DefaultValue::kFieldId, chars.data, chars.size);
+ }
+ void set_default_value(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_DefaultValue::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Options =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ FieldOptions,
+ FieldDescriptorProto>;
+
+ static constexpr FieldMetadata_Options kOptions{};
+ template <typename T = FieldOptions> T* set_options() {
+ return BeginNestedMessage<T>(8);
+ }
+
+
+ using FieldMetadata_OneofIndex =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ FieldDescriptorProto>;
+
+ static constexpr FieldMetadata_OneofIndex kOneofIndex{};
+ void set_oneof_index(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_OneofIndex::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class FieldOptions_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/999, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ FieldOptions_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit FieldOptions_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit FieldOptions_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_packed() const { return at<2>().valid(); }
+ bool packed() const { return at<2>().as_bool(); }
+ bool has_uninterpreted_option() const { return at<999>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> uninterpreted_option() const { return GetRepeated<::protozero::ConstBytes>(999); }
+};
+
+class FieldOptions : public ::protozero::Message {
+ public:
+ using Decoder = FieldOptions_Decoder;
+ enum : int32_t {
+ kPackedFieldNumber = 2,
+ kUninterpretedOptionFieldNumber = 999,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.FieldOptions"; }
+
+
+ using FieldMetadata_Packed =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ FieldOptions>;
+
+ static constexpr FieldMetadata_Packed kPacked{};
+ void set_packed(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_Packed::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_UninterpretedOption =
+ ::protozero::proto_utils::FieldMetadata<
+ 999,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ UninterpretedOption,
+ FieldOptions>;
+
+ static constexpr FieldMetadata_UninterpretedOption kUninterpretedOption{};
+ template <typename T = UninterpretedOption> T* add_uninterpreted_option() {
+ return BeginNestedMessage<T>(999);
+ }
+
+};
+
+class UninterpretedOption_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/8, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ UninterpretedOption_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit UninterpretedOption_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit UninterpretedOption_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_name() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> name() const { return GetRepeated<::protozero::ConstBytes>(2); }
+ bool has_identifier_value() const { return at<3>().valid(); }
+ ::protozero::ConstChars identifier_value() const { return at<3>().as_string(); }
+ bool has_positive_int_value() const { return at<4>().valid(); }
+ uint64_t positive_int_value() const { return at<4>().as_uint64(); }
+ bool has_negative_int_value() const { return at<5>().valid(); }
+ int64_t negative_int_value() const { return at<5>().as_int64(); }
+ bool has_double_value() const { return at<6>().valid(); }
+ double double_value() const { return at<6>().as_double(); }
+ bool has_string_value() const { return at<7>().valid(); }
+ ::protozero::ConstBytes string_value() const { return at<7>().as_bytes(); }
+ bool has_aggregate_value() const { return at<8>().valid(); }
+ ::protozero::ConstChars aggregate_value() const { return at<8>().as_string(); }
+};
+
+class UninterpretedOption : public ::protozero::Message {
+ public:
+ using Decoder = UninterpretedOption_Decoder;
+ enum : int32_t {
+ kNameFieldNumber = 2,
+ kIdentifierValueFieldNumber = 3,
+ kPositiveIntValueFieldNumber = 4,
+ kNegativeIntValueFieldNumber = 5,
+ kDoubleValueFieldNumber = 6,
+ kStringValueFieldNumber = 7,
+ kAggregateValueFieldNumber = 8,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.UninterpretedOption"; }
+
+ using NamePart = ::perfetto::protos::pbzero::UninterpretedOption_NamePart;
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ UninterpretedOption_NamePart,
+ UninterpretedOption>;
+
+ static constexpr FieldMetadata_Name kName{};
+ template <typename T = UninterpretedOption_NamePart> T* add_name() {
+ return BeginNestedMessage<T>(2);
+ }
+
+
+ using FieldMetadata_IdentifierValue =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ UninterpretedOption>;
+
+ static constexpr FieldMetadata_IdentifierValue kIdentifierValue{};
+ void set_identifier_value(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_IdentifierValue::kFieldId, data, size);
+ }
+ void set_identifier_value(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_IdentifierValue::kFieldId, chars.data, chars.size);
+ }
+ void set_identifier_value(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_IdentifierValue::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PositiveIntValue =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ UninterpretedOption>;
+
+ static constexpr FieldMetadata_PositiveIntValue kPositiveIntValue{};
+ void set_positive_int_value(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PositiveIntValue::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NegativeIntValue =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ UninterpretedOption>;
+
+ static constexpr FieldMetadata_NegativeIntValue kNegativeIntValue{};
+ void set_negative_int_value(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NegativeIntValue::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DoubleValue =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kDouble,
+ double,
+ UninterpretedOption>;
+
+ static constexpr FieldMetadata_DoubleValue kDoubleValue{};
+ void set_double_value(double value) {
+ static constexpr uint32_t field_id = FieldMetadata_DoubleValue::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kDouble>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_StringValue =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBytes,
+ std::string,
+ UninterpretedOption>;
+
+ static constexpr FieldMetadata_StringValue kStringValue{};
+ void set_string_value(const uint8_t* data, size_t size) {
+ AppendBytes(FieldMetadata_StringValue::kFieldId, data, size);
+ }
+ void set_string_value(::protozero::ConstBytes bytes) {
+ AppendBytes(FieldMetadata_StringValue::kFieldId, bytes.data, bytes.size);
+ }
+ void set_string_value(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_StringValue::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBytes>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_AggregateValue =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ UninterpretedOption>;
+
+ static constexpr FieldMetadata_AggregateValue kAggregateValue{};
+ void set_aggregate_value(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_AggregateValue::kFieldId, data, size);
+ }
+ void set_aggregate_value(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_AggregateValue::kFieldId, chars.data, chars.size);
+ }
+ void set_aggregate_value(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_AggregateValue::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class UninterpretedOption_NamePart_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ UninterpretedOption_NamePart_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit UninterpretedOption_NamePart_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit UninterpretedOption_NamePart_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_name_part() const { return at<1>().valid(); }
+ ::protozero::ConstChars name_part() const { return at<1>().as_string(); }
+ bool has_is_extension() const { return at<2>().valid(); }
+ bool is_extension() const { return at<2>().as_bool(); }
+};
+
+class UninterpretedOption_NamePart : public ::protozero::Message {
+ public:
+ using Decoder = UninterpretedOption_NamePart_Decoder;
+ enum : int32_t {
+ kNamePartFieldNumber = 1,
+ kIsExtensionFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.UninterpretedOption.NamePart"; }
+
+
+ using FieldMetadata_NamePart =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ UninterpretedOption_NamePart>;
+
+ static constexpr FieldMetadata_NamePart kNamePart{};
+ void set_name_part(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_NamePart::kFieldId, data, size);
+ }
+ void set_name_part(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_NamePart::kFieldId, chars.data, chars.size);
+ }
+ void set_name_part(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_NamePart::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IsExtension =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ UninterpretedOption_NamePart>;
+
+ static constexpr FieldMetadata_IsExtension kIsExtension{};
+ void set_is_extension(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_IsExtension::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class DescriptorProto_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/10, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ DescriptorProto_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit DescriptorProto_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit DescriptorProto_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars name() const { return at<1>().as_string(); }
+ bool has_field() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> field() const { return GetRepeated<::protozero::ConstBytes>(2); }
+ bool has_extension() const { return at<6>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> extension() const { return GetRepeated<::protozero::ConstBytes>(6); }
+ bool has_nested_type() const { return at<3>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> nested_type() const { return GetRepeated<::protozero::ConstBytes>(3); }
+ bool has_enum_type() const { return at<4>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> enum_type() const { return GetRepeated<::protozero::ConstBytes>(4); }
+ bool has_oneof_decl() const { return at<8>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> oneof_decl() const { return GetRepeated<::protozero::ConstBytes>(8); }
+ bool has_reserved_range() const { return at<9>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> reserved_range() const { return GetRepeated<::protozero::ConstBytes>(9); }
+ bool has_reserved_name() const { return at<10>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstChars> reserved_name() const { return GetRepeated<::protozero::ConstChars>(10); }
+};
+
+class DescriptorProto : public ::protozero::Message {
+ public:
+ using Decoder = DescriptorProto_Decoder;
+ enum : int32_t {
+ kNameFieldNumber = 1,
+ kFieldFieldNumber = 2,
+ kExtensionFieldNumber = 6,
+ kNestedTypeFieldNumber = 3,
+ kEnumTypeFieldNumber = 4,
+ kOneofDeclFieldNumber = 8,
+ kReservedRangeFieldNumber = 9,
+ kReservedNameFieldNumber = 10,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.DescriptorProto"; }
+
+ using ReservedRange = ::perfetto::protos::pbzero::DescriptorProto_ReservedRange;
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ DescriptorProto>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Field =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ FieldDescriptorProto,
+ DescriptorProto>;
+
+ static constexpr FieldMetadata_Field kField{};
+ template <typename T = FieldDescriptorProto> T* add_field() {
+ return BeginNestedMessage<T>(2);
+ }
+
+
+ using FieldMetadata_Extension =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ FieldDescriptorProto,
+ DescriptorProto>;
+
+ static constexpr FieldMetadata_Extension kExtension{};
+ template <typename T = FieldDescriptorProto> T* add_extension() {
+ return BeginNestedMessage<T>(6);
+ }
+
+
+ using FieldMetadata_NestedType =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ DescriptorProto,
+ DescriptorProto>;
+
+ static constexpr FieldMetadata_NestedType kNestedType{};
+ template <typename T = DescriptorProto> T* add_nested_type() {
+ return BeginNestedMessage<T>(3);
+ }
+
+
+ using FieldMetadata_EnumType =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ EnumDescriptorProto,
+ DescriptorProto>;
+
+ static constexpr FieldMetadata_EnumType kEnumType{};
+ template <typename T = EnumDescriptorProto> T* add_enum_type() {
+ return BeginNestedMessage<T>(4);
+ }
+
+
+ using FieldMetadata_OneofDecl =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ OneofDescriptorProto,
+ DescriptorProto>;
+
+ static constexpr FieldMetadata_OneofDecl kOneofDecl{};
+ template <typename T = OneofDescriptorProto> T* add_oneof_decl() {
+ return BeginNestedMessage<T>(8);
+ }
+
+
+ using FieldMetadata_ReservedRange =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ DescriptorProto_ReservedRange,
+ DescriptorProto>;
+
+ static constexpr FieldMetadata_ReservedRange kReservedRange{};
+ template <typename T = DescriptorProto_ReservedRange> T* add_reserved_range() {
+ return BeginNestedMessage<T>(9);
+ }
+
+
+ using FieldMetadata_ReservedName =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ DescriptorProto>;
+
+ static constexpr FieldMetadata_ReservedName kReservedName{};
+ void add_reserved_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_ReservedName::kFieldId, data, size);
+ }
+ void add_reserved_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_ReservedName::kFieldId, chars.data, chars.size);
+ }
+ void add_reserved_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_ReservedName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class DescriptorProto_ReservedRange_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ DescriptorProto_ReservedRange_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit DescriptorProto_ReservedRange_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit DescriptorProto_ReservedRange_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_start() const { return at<1>().valid(); }
+ int32_t start() const { return at<1>().as_int32(); }
+ bool has_end() const { return at<2>().valid(); }
+ int32_t end() const { return at<2>().as_int32(); }
+};
+
+class DescriptorProto_ReservedRange : public ::protozero::Message {
+ public:
+ using Decoder = DescriptorProto_ReservedRange_Decoder;
+ enum : int32_t {
+ kStartFieldNumber = 1,
+ kEndFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.DescriptorProto.ReservedRange"; }
+
+
+ using FieldMetadata_Start =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ DescriptorProto_ReservedRange>;
+
+ static constexpr FieldMetadata_Start kStart{};
+ void set_start(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Start::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_End =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ DescriptorProto_ReservedRange>;
+
+ static constexpr FieldMetadata_End kEnd{};
+ void set_end(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_End::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class FileDescriptorProto_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/11, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ FileDescriptorProto_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit FileDescriptorProto_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit FileDescriptorProto_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars name() const { return at<1>().as_string(); }
+ bool has_package() const { return at<2>().valid(); }
+ ::protozero::ConstChars package() const { return at<2>().as_string(); }
+ bool has_dependency() const { return at<3>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstChars> dependency() const { return GetRepeated<::protozero::ConstChars>(3); }
+ bool has_public_dependency() const { return at<10>().valid(); }
+ ::protozero::RepeatedFieldIterator<int32_t> public_dependency() const { return GetRepeated<int32_t>(10); }
+ bool has_weak_dependency() const { return at<11>().valid(); }
+ ::protozero::RepeatedFieldIterator<int32_t> weak_dependency() const { return GetRepeated<int32_t>(11); }
+ bool has_message_type() const { return at<4>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> message_type() const { return GetRepeated<::protozero::ConstBytes>(4); }
+ bool has_enum_type() const { return at<5>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> enum_type() const { return GetRepeated<::protozero::ConstBytes>(5); }
+ bool has_extension() const { return at<7>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> extension() const { return GetRepeated<::protozero::ConstBytes>(7); }
+};
+
+class FileDescriptorProto : public ::protozero::Message {
+ public:
+ using Decoder = FileDescriptorProto_Decoder;
+ enum : int32_t {
+ kNameFieldNumber = 1,
+ kPackageFieldNumber = 2,
+ kDependencyFieldNumber = 3,
+ kPublicDependencyFieldNumber = 10,
+ kWeakDependencyFieldNumber = 11,
+ kMessageTypeFieldNumber = 4,
+ kEnumTypeFieldNumber = 5,
+ kExtensionFieldNumber = 7,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.FileDescriptorProto"; }
+
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ FileDescriptorProto>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Package =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ FileDescriptorProto>;
+
+ static constexpr FieldMetadata_Package kPackage{};
+ void set_package(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Package::kFieldId, data, size);
+ }
+ void set_package(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Package::kFieldId, chars.data, chars.size);
+ }
+ void set_package(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Package::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Dependency =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ FileDescriptorProto>;
+
+ static constexpr FieldMetadata_Dependency kDependency{};
+ void add_dependency(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Dependency::kFieldId, data, size);
+ }
+ void add_dependency(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Dependency::kFieldId, chars.data, chars.size);
+ }
+ void add_dependency(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dependency::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PublicDependency =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ FileDescriptorProto>;
+
+ static constexpr FieldMetadata_PublicDependency kPublicDependency{};
+ void add_public_dependency(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PublicDependency::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_WeakDependency =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ FileDescriptorProto>;
+
+ static constexpr FieldMetadata_WeakDependency kWeakDependency{};
+ void add_weak_dependency(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_WeakDependency::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MessageType =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ DescriptorProto,
+ FileDescriptorProto>;
+
+ static constexpr FieldMetadata_MessageType kMessageType{};
+ template <typename T = DescriptorProto> T* add_message_type() {
+ return BeginNestedMessage<T>(4);
+ }
+
+
+ using FieldMetadata_EnumType =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ EnumDescriptorProto,
+ FileDescriptorProto>;
+
+ static constexpr FieldMetadata_EnumType kEnumType{};
+ template <typename T = EnumDescriptorProto> T* add_enum_type() {
+ return BeginNestedMessage<T>(5);
+ }
+
+
+ using FieldMetadata_Extension =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ FieldDescriptorProto,
+ FileDescriptorProto>;
+
+ static constexpr FieldMetadata_Extension kExtension{};
+ template <typename T = FieldDescriptorProto> T* add_extension() {
+ return BeginNestedMessage<T>(7);
+ }
+
+};
+
+class FileDescriptorSet_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ FileDescriptorSet_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit FileDescriptorSet_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit FileDescriptorSet_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_file() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> file() const { return GetRepeated<::protozero::ConstBytes>(1); }
+};
+
+class FileDescriptorSet : public ::protozero::Message {
+ public:
+ using Decoder = FileDescriptorSet_Decoder;
+ enum : int32_t {
+ kFileFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.FileDescriptorSet"; }
+
+
+ using FieldMetadata_File =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ FileDescriptorProto,
+ FileDescriptorSet>;
+
+ static constexpr FieldMetadata_File kFile{};
+ template <typename T = FileDescriptorProto> T* add_file() {
+ return BeginNestedMessage<T>(1);
+ }
+
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/common/ftrace_descriptor.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_FTRACE_DESCRIPTOR_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_FTRACE_DESCRIPTOR_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class FtraceDescriptor_AtraceCategory;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class FtraceDescriptor_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ FtraceDescriptor_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit FtraceDescriptor_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit FtraceDescriptor_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_atrace_categories() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> atrace_categories() const { return GetRepeated<::protozero::ConstBytes>(1); }
+};
+
+class FtraceDescriptor : public ::protozero::Message {
+ public:
+ using Decoder = FtraceDescriptor_Decoder;
+ enum : int32_t {
+ kAtraceCategoriesFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.FtraceDescriptor"; }
+
+ using AtraceCategory = ::perfetto::protos::pbzero::FtraceDescriptor_AtraceCategory;
+
+ using FieldMetadata_AtraceCategories =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ FtraceDescriptor_AtraceCategory,
+ FtraceDescriptor>;
+
+ static constexpr FieldMetadata_AtraceCategories kAtraceCategories{};
+ template <typename T = FtraceDescriptor_AtraceCategory> T* add_atrace_categories() {
+ return BeginNestedMessage<T>(1);
+ }
+
+};
+
+class FtraceDescriptor_AtraceCategory_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ FtraceDescriptor_AtraceCategory_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit FtraceDescriptor_AtraceCategory_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit FtraceDescriptor_AtraceCategory_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars name() const { return at<1>().as_string(); }
+ bool has_description() const { return at<2>().valid(); }
+ ::protozero::ConstChars description() const { return at<2>().as_string(); }
+};
+
+class FtraceDescriptor_AtraceCategory : public ::protozero::Message {
+ public:
+ using Decoder = FtraceDescriptor_AtraceCategory_Decoder;
+ enum : int32_t {
+ kNameFieldNumber = 1,
+ kDescriptionFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.FtraceDescriptor.AtraceCategory"; }
+
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ FtraceDescriptor_AtraceCategory>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Description =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ FtraceDescriptor_AtraceCategory>;
+
+ static constexpr FieldMetadata_Description kDescription{};
+ void set_description(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Description::kFieldId, data, size);
+ }
+ void set_description(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Description::kFieldId, chars.data, chars.size);
+ }
+ void set_description(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Description::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/common/gpu_counter_descriptor.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_GPU_COUNTER_DESCRIPTOR_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_GPU_COUNTER_DESCRIPTOR_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class GpuCounterDescriptor_GpuCounterBlock;
+class GpuCounterDescriptor_GpuCounterSpec;
+namespace perfetto_pbzero_enum_GpuCounterDescriptor {
+enum GpuCounterGroup : int32_t;
+} // namespace perfetto_pbzero_enum_GpuCounterDescriptor
+using GpuCounterDescriptor_GpuCounterGroup = perfetto_pbzero_enum_GpuCounterDescriptor::GpuCounterGroup;
+namespace perfetto_pbzero_enum_GpuCounterDescriptor {
+enum MeasureUnit : int32_t;
+} // namespace perfetto_pbzero_enum_GpuCounterDescriptor
+using GpuCounterDescriptor_MeasureUnit = perfetto_pbzero_enum_GpuCounterDescriptor::MeasureUnit;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+namespace perfetto_pbzero_enum_GpuCounterDescriptor {
+enum GpuCounterGroup : int32_t {
+ UNCLASSIFIED = 0,
+ SYSTEM = 1,
+ VERTICES = 2,
+ FRAGMENTS = 3,
+ PRIMITIVES = 4,
+ MEMORY = 5,
+ COMPUTE = 6,
+};
+} // namespace perfetto_pbzero_enum_GpuCounterDescriptor
+using GpuCounterDescriptor_GpuCounterGroup = perfetto_pbzero_enum_GpuCounterDescriptor::GpuCounterGroup;
+
+
+constexpr GpuCounterDescriptor_GpuCounterGroup GpuCounterDescriptor_GpuCounterGroup_MIN = GpuCounterDescriptor_GpuCounterGroup::UNCLASSIFIED;
+constexpr GpuCounterDescriptor_GpuCounterGroup GpuCounterDescriptor_GpuCounterGroup_MAX = GpuCounterDescriptor_GpuCounterGroup::COMPUTE;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* GpuCounterDescriptor_GpuCounterGroup_Name(::perfetto::protos::pbzero::GpuCounterDescriptor_GpuCounterGroup value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::GpuCounterDescriptor_GpuCounterGroup::UNCLASSIFIED:
+ return "UNCLASSIFIED";
+
+ case ::perfetto::protos::pbzero::GpuCounterDescriptor_GpuCounterGroup::SYSTEM:
+ return "SYSTEM";
+
+ case ::perfetto::protos::pbzero::GpuCounterDescriptor_GpuCounterGroup::VERTICES:
+ return "VERTICES";
+
+ case ::perfetto::protos::pbzero::GpuCounterDescriptor_GpuCounterGroup::FRAGMENTS:
+ return "FRAGMENTS";
+
+ case ::perfetto::protos::pbzero::GpuCounterDescriptor_GpuCounterGroup::PRIMITIVES:
+ return "PRIMITIVES";
+
+ case ::perfetto::protos::pbzero::GpuCounterDescriptor_GpuCounterGroup::MEMORY:
+ return "MEMORY";
+
+ case ::perfetto::protos::pbzero::GpuCounterDescriptor_GpuCounterGroup::COMPUTE:
+ return "COMPUTE";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_GpuCounterDescriptor {
+enum MeasureUnit : int32_t {
+ NONE = 0,
+ BIT = 1,
+ KILOBIT = 2,
+ MEGABIT = 3,
+ GIGABIT = 4,
+ TERABIT = 5,
+ PETABIT = 6,
+ BYTE = 7,
+ KILOBYTE = 8,
+ MEGABYTE = 9,
+ GIGABYTE = 10,
+ TERABYTE = 11,
+ PETABYTE = 12,
+ HERTZ = 13,
+ KILOHERTZ = 14,
+ MEGAHERTZ = 15,
+ GIGAHERTZ = 16,
+ TERAHERTZ = 17,
+ PETAHERTZ = 18,
+ NANOSECOND = 19,
+ MICROSECOND = 20,
+ MILLISECOND = 21,
+ SECOND = 22,
+ MINUTE = 23,
+ HOUR = 24,
+ VERTEX = 25,
+ PIXEL = 26,
+ TRIANGLE = 27,
+ PRIMITIVE = 38,
+ FRAGMENT = 39,
+ MILLIWATT = 28,
+ WATT = 29,
+ KILOWATT = 30,
+ JOULE = 31,
+ VOLT = 32,
+ AMPERE = 33,
+ CELSIUS = 34,
+ FAHRENHEIT = 35,
+ KELVIN = 36,
+ PERCENT = 37,
+ INSTRUCTION = 40,
+};
+} // namespace perfetto_pbzero_enum_GpuCounterDescriptor
+using GpuCounterDescriptor_MeasureUnit = perfetto_pbzero_enum_GpuCounterDescriptor::MeasureUnit;
+
+
+constexpr GpuCounterDescriptor_MeasureUnit GpuCounterDescriptor_MeasureUnit_MIN = GpuCounterDescriptor_MeasureUnit::NONE;
+constexpr GpuCounterDescriptor_MeasureUnit GpuCounterDescriptor_MeasureUnit_MAX = GpuCounterDescriptor_MeasureUnit::INSTRUCTION;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* GpuCounterDescriptor_MeasureUnit_Name(::perfetto::protos::pbzero::GpuCounterDescriptor_MeasureUnit value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::GpuCounterDescriptor_MeasureUnit::NONE:
+ return "NONE";
+
+ case ::perfetto::protos::pbzero::GpuCounterDescriptor_MeasureUnit::BIT:
+ return "BIT";
+
+ case ::perfetto::protos::pbzero::GpuCounterDescriptor_MeasureUnit::KILOBIT:
+ return "KILOBIT";
+
+ case ::perfetto::protos::pbzero::GpuCounterDescriptor_MeasureUnit::MEGABIT:
+ return "MEGABIT";
+
+ case ::perfetto::protos::pbzero::GpuCounterDescriptor_MeasureUnit::GIGABIT:
+ return "GIGABIT";
+
+ case ::perfetto::protos::pbzero::GpuCounterDescriptor_MeasureUnit::TERABIT:
+ return "TERABIT";
+
+ case ::perfetto::protos::pbzero::GpuCounterDescriptor_MeasureUnit::PETABIT:
+ return "PETABIT";
+
+ case ::perfetto::protos::pbzero::GpuCounterDescriptor_MeasureUnit::BYTE:
+ return "BYTE";
+
+ case ::perfetto::protos::pbzero::GpuCounterDescriptor_MeasureUnit::KILOBYTE:
+ return "KILOBYTE";
+
+ case ::perfetto::protos::pbzero::GpuCounterDescriptor_MeasureUnit::MEGABYTE:
+ return "MEGABYTE";
+
+ case ::perfetto::protos::pbzero::GpuCounterDescriptor_MeasureUnit::GIGABYTE:
+ return "GIGABYTE";
+
+ case ::perfetto::protos::pbzero::GpuCounterDescriptor_MeasureUnit::TERABYTE:
+ return "TERABYTE";
+
+ case ::perfetto::protos::pbzero::GpuCounterDescriptor_MeasureUnit::PETABYTE:
+ return "PETABYTE";
+
+ case ::perfetto::protos::pbzero::GpuCounterDescriptor_MeasureUnit::HERTZ:
+ return "HERTZ";
+
+ case ::perfetto::protos::pbzero::GpuCounterDescriptor_MeasureUnit::KILOHERTZ:
+ return "KILOHERTZ";
+
+ case ::perfetto::protos::pbzero::GpuCounterDescriptor_MeasureUnit::MEGAHERTZ:
+ return "MEGAHERTZ";
+
+ case ::perfetto::protos::pbzero::GpuCounterDescriptor_MeasureUnit::GIGAHERTZ:
+ return "GIGAHERTZ";
+
+ case ::perfetto::protos::pbzero::GpuCounterDescriptor_MeasureUnit::TERAHERTZ:
+ return "TERAHERTZ";
+
+ case ::perfetto::protos::pbzero::GpuCounterDescriptor_MeasureUnit::PETAHERTZ:
+ return "PETAHERTZ";
+
+ case ::perfetto::protos::pbzero::GpuCounterDescriptor_MeasureUnit::NANOSECOND:
+ return "NANOSECOND";
+
+ case ::perfetto::protos::pbzero::GpuCounterDescriptor_MeasureUnit::MICROSECOND:
+ return "MICROSECOND";
+
+ case ::perfetto::protos::pbzero::GpuCounterDescriptor_MeasureUnit::MILLISECOND:
+ return "MILLISECOND";
+
+ case ::perfetto::protos::pbzero::GpuCounterDescriptor_MeasureUnit::SECOND:
+ return "SECOND";
+
+ case ::perfetto::protos::pbzero::GpuCounterDescriptor_MeasureUnit::MINUTE:
+ return "MINUTE";
+
+ case ::perfetto::protos::pbzero::GpuCounterDescriptor_MeasureUnit::HOUR:
+ return "HOUR";
+
+ case ::perfetto::protos::pbzero::GpuCounterDescriptor_MeasureUnit::VERTEX:
+ return "VERTEX";
+
+ case ::perfetto::protos::pbzero::GpuCounterDescriptor_MeasureUnit::PIXEL:
+ return "PIXEL";
+
+ case ::perfetto::protos::pbzero::GpuCounterDescriptor_MeasureUnit::TRIANGLE:
+ return "TRIANGLE";
+
+ case ::perfetto::protos::pbzero::GpuCounterDescriptor_MeasureUnit::PRIMITIVE:
+ return "PRIMITIVE";
+
+ case ::perfetto::protos::pbzero::GpuCounterDescriptor_MeasureUnit::FRAGMENT:
+ return "FRAGMENT";
+
+ case ::perfetto::protos::pbzero::GpuCounterDescriptor_MeasureUnit::MILLIWATT:
+ return "MILLIWATT";
+
+ case ::perfetto::protos::pbzero::GpuCounterDescriptor_MeasureUnit::WATT:
+ return "WATT";
+
+ case ::perfetto::protos::pbzero::GpuCounterDescriptor_MeasureUnit::KILOWATT:
+ return "KILOWATT";
+
+ case ::perfetto::protos::pbzero::GpuCounterDescriptor_MeasureUnit::JOULE:
+ return "JOULE";
+
+ case ::perfetto::protos::pbzero::GpuCounterDescriptor_MeasureUnit::VOLT:
+ return "VOLT";
+
+ case ::perfetto::protos::pbzero::GpuCounterDescriptor_MeasureUnit::AMPERE:
+ return "AMPERE";
+
+ case ::perfetto::protos::pbzero::GpuCounterDescriptor_MeasureUnit::CELSIUS:
+ return "CELSIUS";
+
+ case ::perfetto::protos::pbzero::GpuCounterDescriptor_MeasureUnit::FAHRENHEIT:
+ return "FAHRENHEIT";
+
+ case ::perfetto::protos::pbzero::GpuCounterDescriptor_MeasureUnit::KELVIN:
+ return "KELVIN";
+
+ case ::perfetto::protos::pbzero::GpuCounterDescriptor_MeasureUnit::PERCENT:
+ return "PERCENT";
+
+ case ::perfetto::protos::pbzero::GpuCounterDescriptor_MeasureUnit::INSTRUCTION:
+ return "INSTRUCTION";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+class GpuCounterDescriptor_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ GpuCounterDescriptor_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit GpuCounterDescriptor_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit GpuCounterDescriptor_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_specs() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> specs() const { return GetRepeated<::protozero::ConstBytes>(1); }
+ bool has_blocks() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> blocks() const { return GetRepeated<::protozero::ConstBytes>(2); }
+ bool has_min_sampling_period_ns() const { return at<3>().valid(); }
+ uint64_t min_sampling_period_ns() const { return at<3>().as_uint64(); }
+ bool has_max_sampling_period_ns() const { return at<4>().valid(); }
+ uint64_t max_sampling_period_ns() const { return at<4>().as_uint64(); }
+ bool has_supports_instrumented_sampling() const { return at<5>().valid(); }
+ bool supports_instrumented_sampling() const { return at<5>().as_bool(); }
+};
+
+class GpuCounterDescriptor : public ::protozero::Message {
+ public:
+ using Decoder = GpuCounterDescriptor_Decoder;
+ enum : int32_t {
+ kSpecsFieldNumber = 1,
+ kBlocksFieldNumber = 2,
+ kMinSamplingPeriodNsFieldNumber = 3,
+ kMaxSamplingPeriodNsFieldNumber = 4,
+ kSupportsInstrumentedSamplingFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.GpuCounterDescriptor"; }
+
+ using GpuCounterSpec = ::perfetto::protos::pbzero::GpuCounterDescriptor_GpuCounterSpec;
+ using GpuCounterBlock = ::perfetto::protos::pbzero::GpuCounterDescriptor_GpuCounterBlock;
+
+ using GpuCounterGroup = ::perfetto::protos::pbzero::GpuCounterDescriptor_GpuCounterGroup;
+ static inline const char* GpuCounterGroup_Name(GpuCounterGroup value) {
+ return ::perfetto::protos::pbzero::GpuCounterDescriptor_GpuCounterGroup_Name(value);
+ }
+
+ using MeasureUnit = ::perfetto::protos::pbzero::GpuCounterDescriptor_MeasureUnit;
+ static inline const char* MeasureUnit_Name(MeasureUnit value) {
+ return ::perfetto::protos::pbzero::GpuCounterDescriptor_MeasureUnit_Name(value);
+ }
+ static inline const GpuCounterGroup UNCLASSIFIED = GpuCounterGroup::UNCLASSIFIED;
+ static inline const GpuCounterGroup SYSTEM = GpuCounterGroup::SYSTEM;
+ static inline const GpuCounterGroup VERTICES = GpuCounterGroup::VERTICES;
+ static inline const GpuCounterGroup FRAGMENTS = GpuCounterGroup::FRAGMENTS;
+ static inline const GpuCounterGroup PRIMITIVES = GpuCounterGroup::PRIMITIVES;
+ static inline const GpuCounterGroup MEMORY = GpuCounterGroup::MEMORY;
+ static inline const GpuCounterGroup COMPUTE = GpuCounterGroup::COMPUTE;
+ static inline const MeasureUnit NONE = MeasureUnit::NONE;
+ static inline const MeasureUnit BIT = MeasureUnit::BIT;
+ static inline const MeasureUnit KILOBIT = MeasureUnit::KILOBIT;
+ static inline const MeasureUnit MEGABIT = MeasureUnit::MEGABIT;
+ static inline const MeasureUnit GIGABIT = MeasureUnit::GIGABIT;
+ static inline const MeasureUnit TERABIT = MeasureUnit::TERABIT;
+ static inline const MeasureUnit PETABIT = MeasureUnit::PETABIT;
+ static inline const MeasureUnit BYTE = MeasureUnit::BYTE;
+ static inline const MeasureUnit KILOBYTE = MeasureUnit::KILOBYTE;
+ static inline const MeasureUnit MEGABYTE = MeasureUnit::MEGABYTE;
+ static inline const MeasureUnit GIGABYTE = MeasureUnit::GIGABYTE;
+ static inline const MeasureUnit TERABYTE = MeasureUnit::TERABYTE;
+ static inline const MeasureUnit PETABYTE = MeasureUnit::PETABYTE;
+ static inline const MeasureUnit HERTZ = MeasureUnit::HERTZ;
+ static inline const MeasureUnit KILOHERTZ = MeasureUnit::KILOHERTZ;
+ static inline const MeasureUnit MEGAHERTZ = MeasureUnit::MEGAHERTZ;
+ static inline const MeasureUnit GIGAHERTZ = MeasureUnit::GIGAHERTZ;
+ static inline const MeasureUnit TERAHERTZ = MeasureUnit::TERAHERTZ;
+ static inline const MeasureUnit PETAHERTZ = MeasureUnit::PETAHERTZ;
+ static inline const MeasureUnit NANOSECOND = MeasureUnit::NANOSECOND;
+ static inline const MeasureUnit MICROSECOND = MeasureUnit::MICROSECOND;
+ static inline const MeasureUnit MILLISECOND = MeasureUnit::MILLISECOND;
+ static inline const MeasureUnit SECOND = MeasureUnit::SECOND;
+ static inline const MeasureUnit MINUTE = MeasureUnit::MINUTE;
+ static inline const MeasureUnit HOUR = MeasureUnit::HOUR;
+ static inline const MeasureUnit VERTEX = MeasureUnit::VERTEX;
+ static inline const MeasureUnit PIXEL = MeasureUnit::PIXEL;
+ static inline const MeasureUnit TRIANGLE = MeasureUnit::TRIANGLE;
+ static inline const MeasureUnit PRIMITIVE = MeasureUnit::PRIMITIVE;
+ static inline const MeasureUnit FRAGMENT = MeasureUnit::FRAGMENT;
+ static inline const MeasureUnit MILLIWATT = MeasureUnit::MILLIWATT;
+ static inline const MeasureUnit WATT = MeasureUnit::WATT;
+ static inline const MeasureUnit KILOWATT = MeasureUnit::KILOWATT;
+ static inline const MeasureUnit JOULE = MeasureUnit::JOULE;
+ static inline const MeasureUnit VOLT = MeasureUnit::VOLT;
+ static inline const MeasureUnit AMPERE = MeasureUnit::AMPERE;
+ static inline const MeasureUnit CELSIUS = MeasureUnit::CELSIUS;
+ static inline const MeasureUnit FAHRENHEIT = MeasureUnit::FAHRENHEIT;
+ static inline const MeasureUnit KELVIN = MeasureUnit::KELVIN;
+ static inline const MeasureUnit PERCENT = MeasureUnit::PERCENT;
+ static inline const MeasureUnit INSTRUCTION = MeasureUnit::INSTRUCTION;
+
+ using FieldMetadata_Specs =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ GpuCounterDescriptor_GpuCounterSpec,
+ GpuCounterDescriptor>;
+
+ static constexpr FieldMetadata_Specs kSpecs{};
+ template <typename T = GpuCounterDescriptor_GpuCounterSpec> T* add_specs() {
+ return BeginNestedMessage<T>(1);
+ }
+
+
+ using FieldMetadata_Blocks =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ GpuCounterDescriptor_GpuCounterBlock,
+ GpuCounterDescriptor>;
+
+ static constexpr FieldMetadata_Blocks kBlocks{};
+ template <typename T = GpuCounterDescriptor_GpuCounterBlock> T* add_blocks() {
+ return BeginNestedMessage<T>(2);
+ }
+
+
+ using FieldMetadata_MinSamplingPeriodNs =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ GpuCounterDescriptor>;
+
+ static constexpr FieldMetadata_MinSamplingPeriodNs kMinSamplingPeriodNs{};
+ void set_min_sampling_period_ns(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MinSamplingPeriodNs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MaxSamplingPeriodNs =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ GpuCounterDescriptor>;
+
+ static constexpr FieldMetadata_MaxSamplingPeriodNs kMaxSamplingPeriodNs{};
+ void set_max_sampling_period_ns(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MaxSamplingPeriodNs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SupportsInstrumentedSampling =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ GpuCounterDescriptor>;
+
+ static constexpr FieldMetadata_SupportsInstrumentedSampling kSupportsInstrumentedSampling{};
+ void set_supports_instrumented_sampling(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_SupportsInstrumentedSampling::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class GpuCounterDescriptor_GpuCounterBlock_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ GpuCounterDescriptor_GpuCounterBlock_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit GpuCounterDescriptor_GpuCounterBlock_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit GpuCounterDescriptor_GpuCounterBlock_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_block_id() const { return at<1>().valid(); }
+ uint32_t block_id() const { return at<1>().as_uint32(); }
+ bool has_block_capacity() const { return at<2>().valid(); }
+ uint32_t block_capacity() const { return at<2>().as_uint32(); }
+ bool has_name() const { return at<3>().valid(); }
+ ::protozero::ConstChars name() const { return at<3>().as_string(); }
+ bool has_description() const { return at<4>().valid(); }
+ ::protozero::ConstChars description() const { return at<4>().as_string(); }
+ bool has_counter_ids() const { return at<5>().valid(); }
+ ::protozero::RepeatedFieldIterator<uint32_t> counter_ids() const { return GetRepeated<uint32_t>(5); }
+};
+
+class GpuCounterDescriptor_GpuCounterBlock : public ::protozero::Message {
+ public:
+ using Decoder = GpuCounterDescriptor_GpuCounterBlock_Decoder;
+ enum : int32_t {
+ kBlockIdFieldNumber = 1,
+ kBlockCapacityFieldNumber = 2,
+ kNameFieldNumber = 3,
+ kDescriptionFieldNumber = 4,
+ kCounterIdsFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.GpuCounterDescriptor.GpuCounterBlock"; }
+
+
+ using FieldMetadata_BlockId =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ GpuCounterDescriptor_GpuCounterBlock>;
+
+ static constexpr FieldMetadata_BlockId kBlockId{};
+ void set_block_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BlockId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BlockCapacity =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ GpuCounterDescriptor_GpuCounterBlock>;
+
+ static constexpr FieldMetadata_BlockCapacity kBlockCapacity{};
+ void set_block_capacity(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BlockCapacity::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ GpuCounterDescriptor_GpuCounterBlock>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Description =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ GpuCounterDescriptor_GpuCounterBlock>;
+
+ static constexpr FieldMetadata_Description kDescription{};
+ void set_description(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Description::kFieldId, data, size);
+ }
+ void set_description(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Description::kFieldId, chars.data, chars.size);
+ }
+ void set_description(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Description::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CounterIds =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ GpuCounterDescriptor_GpuCounterBlock>;
+
+ static constexpr FieldMetadata_CounterIds kCounterIds{};
+ void add_counter_ids(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CounterIds::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class GpuCounterDescriptor_GpuCounterSpec_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/10, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ GpuCounterDescriptor_GpuCounterSpec_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit GpuCounterDescriptor_GpuCounterSpec_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit GpuCounterDescriptor_GpuCounterSpec_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_counter_id() const { return at<1>().valid(); }
+ uint32_t counter_id() const { return at<1>().as_uint32(); }
+ bool has_name() const { return at<2>().valid(); }
+ ::protozero::ConstChars name() const { return at<2>().as_string(); }
+ bool has_description() const { return at<3>().valid(); }
+ ::protozero::ConstChars description() const { return at<3>().as_string(); }
+ bool has_int_peak_value() const { return at<5>().valid(); }
+ int64_t int_peak_value() const { return at<5>().as_int64(); }
+ bool has_double_peak_value() const { return at<6>().valid(); }
+ double double_peak_value() const { return at<6>().as_double(); }
+ bool has_numerator_units() const { return at<7>().valid(); }
+ ::protozero::RepeatedFieldIterator<int32_t> numerator_units() const { return GetRepeated<int32_t>(7); }
+ bool has_denominator_units() const { return at<8>().valid(); }
+ ::protozero::RepeatedFieldIterator<int32_t> denominator_units() const { return GetRepeated<int32_t>(8); }
+ bool has_select_by_default() const { return at<9>().valid(); }
+ bool select_by_default() const { return at<9>().as_bool(); }
+ bool has_groups() const { return at<10>().valid(); }
+ ::protozero::RepeatedFieldIterator<int32_t> groups() const { return GetRepeated<int32_t>(10); }
+};
+
+class GpuCounterDescriptor_GpuCounterSpec : public ::protozero::Message {
+ public:
+ using Decoder = GpuCounterDescriptor_GpuCounterSpec_Decoder;
+ enum : int32_t {
+ kCounterIdFieldNumber = 1,
+ kNameFieldNumber = 2,
+ kDescriptionFieldNumber = 3,
+ kIntPeakValueFieldNumber = 5,
+ kDoublePeakValueFieldNumber = 6,
+ kNumeratorUnitsFieldNumber = 7,
+ kDenominatorUnitsFieldNumber = 8,
+ kSelectByDefaultFieldNumber = 9,
+ kGroupsFieldNumber = 10,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.GpuCounterDescriptor.GpuCounterSpec"; }
+
+
+ using FieldMetadata_CounterId =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ GpuCounterDescriptor_GpuCounterSpec>;
+
+ static constexpr FieldMetadata_CounterId kCounterId{};
+ void set_counter_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CounterId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ GpuCounterDescriptor_GpuCounterSpec>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Description =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ GpuCounterDescriptor_GpuCounterSpec>;
+
+ static constexpr FieldMetadata_Description kDescription{};
+ void set_description(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Description::kFieldId, data, size);
+ }
+ void set_description(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Description::kFieldId, chars.data, chars.size);
+ }
+ void set_description(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Description::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IntPeakValue =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ GpuCounterDescriptor_GpuCounterSpec>;
+
+ static constexpr FieldMetadata_IntPeakValue kIntPeakValue{};
+ void set_int_peak_value(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_IntPeakValue::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DoublePeakValue =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kDouble,
+ double,
+ GpuCounterDescriptor_GpuCounterSpec>;
+
+ static constexpr FieldMetadata_DoublePeakValue kDoublePeakValue{};
+ void set_double_peak_value(double value) {
+ static constexpr uint32_t field_id = FieldMetadata_DoublePeakValue::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kDouble>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NumeratorUnits =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ GpuCounterDescriptor_MeasureUnit,
+ GpuCounterDescriptor_GpuCounterSpec>;
+
+ static constexpr FieldMetadata_NumeratorUnits kNumeratorUnits{};
+ void add_numerator_units(GpuCounterDescriptor_MeasureUnit value) {
+ static constexpr uint32_t field_id = FieldMetadata_NumeratorUnits::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DenominatorUnits =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ GpuCounterDescriptor_MeasureUnit,
+ GpuCounterDescriptor_GpuCounterSpec>;
+
+ static constexpr FieldMetadata_DenominatorUnits kDenominatorUnits{};
+ void add_denominator_units(GpuCounterDescriptor_MeasureUnit value) {
+ static constexpr uint32_t field_id = FieldMetadata_DenominatorUnits::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SelectByDefault =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ GpuCounterDescriptor_GpuCounterSpec>;
+
+ static constexpr FieldMetadata_SelectByDefault kSelectByDefault{};
+ void set_select_by_default(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_SelectByDefault::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Groups =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ GpuCounterDescriptor_GpuCounterGroup,
+ GpuCounterDescriptor_GpuCounterSpec>;
+
+ static constexpr FieldMetadata_Groups kGroups{};
+ void add_groups(GpuCounterDescriptor_GpuCounterGroup value) {
+ static constexpr uint32_t field_id = FieldMetadata_Groups::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/common/interceptor_descriptor.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_INTERCEPTOR_DESCRIPTOR_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_INTERCEPTOR_DESCRIPTOR_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class InterceptorDescriptor_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ InterceptorDescriptor_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit InterceptorDescriptor_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit InterceptorDescriptor_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars name() const { return at<1>().as_string(); }
+};
+
+class InterceptorDescriptor : public ::protozero::Message {
+ public:
+ using Decoder = InterceptorDescriptor_Decoder;
+ enum : int32_t {
+ kNameFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.InterceptorDescriptor"; }
+
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ InterceptorDescriptor>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/common/observable_events.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_OBSERVABLE_EVENTS_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_OBSERVABLE_EVENTS_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class ObservableEvents_CloneTriggerHit;
+class ObservableEvents_DataSourceInstanceStateChange;
+namespace perfetto_pbzero_enum_ObservableEvents {
+enum DataSourceInstanceState : int32_t;
+} // namespace perfetto_pbzero_enum_ObservableEvents
+using ObservableEvents_DataSourceInstanceState = perfetto_pbzero_enum_ObservableEvents::DataSourceInstanceState;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+namespace perfetto_pbzero_enum_ObservableEvents {
+enum Type : int32_t {
+ TYPE_UNSPECIFIED = 0,
+ TYPE_DATA_SOURCES_INSTANCES = 1,
+ TYPE_ALL_DATA_SOURCES_STARTED = 2,
+ TYPE_CLONE_TRIGGER_HIT = 4,
+};
+} // namespace perfetto_pbzero_enum_ObservableEvents
+using ObservableEvents_Type = perfetto_pbzero_enum_ObservableEvents::Type;
+
+
+constexpr ObservableEvents_Type ObservableEvents_Type_MIN = ObservableEvents_Type::TYPE_UNSPECIFIED;
+constexpr ObservableEvents_Type ObservableEvents_Type_MAX = ObservableEvents_Type::TYPE_CLONE_TRIGGER_HIT;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* ObservableEvents_Type_Name(::perfetto::protos::pbzero::ObservableEvents_Type value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::ObservableEvents_Type::TYPE_UNSPECIFIED:
+ return "TYPE_UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::ObservableEvents_Type::TYPE_DATA_SOURCES_INSTANCES:
+ return "TYPE_DATA_SOURCES_INSTANCES";
+
+ case ::perfetto::protos::pbzero::ObservableEvents_Type::TYPE_ALL_DATA_SOURCES_STARTED:
+ return "TYPE_ALL_DATA_SOURCES_STARTED";
+
+ case ::perfetto::protos::pbzero::ObservableEvents_Type::TYPE_CLONE_TRIGGER_HIT:
+ return "TYPE_CLONE_TRIGGER_HIT";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_ObservableEvents {
+enum DataSourceInstanceState : int32_t {
+ DATA_SOURCE_INSTANCE_STATE_STOPPED = 1,
+ DATA_SOURCE_INSTANCE_STATE_STARTED = 2,
+};
+} // namespace perfetto_pbzero_enum_ObservableEvents
+using ObservableEvents_DataSourceInstanceState = perfetto_pbzero_enum_ObservableEvents::DataSourceInstanceState;
+
+
+constexpr ObservableEvents_DataSourceInstanceState ObservableEvents_DataSourceInstanceState_MIN = ObservableEvents_DataSourceInstanceState::DATA_SOURCE_INSTANCE_STATE_STOPPED;
+constexpr ObservableEvents_DataSourceInstanceState ObservableEvents_DataSourceInstanceState_MAX = ObservableEvents_DataSourceInstanceState::DATA_SOURCE_INSTANCE_STATE_STARTED;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* ObservableEvents_DataSourceInstanceState_Name(::perfetto::protos::pbzero::ObservableEvents_DataSourceInstanceState value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::ObservableEvents_DataSourceInstanceState::DATA_SOURCE_INSTANCE_STATE_STOPPED:
+ return "DATA_SOURCE_INSTANCE_STATE_STOPPED";
+
+ case ::perfetto::protos::pbzero::ObservableEvents_DataSourceInstanceState::DATA_SOURCE_INSTANCE_STATE_STARTED:
+ return "DATA_SOURCE_INSTANCE_STATE_STARTED";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+class ObservableEvents_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ ObservableEvents_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ObservableEvents_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ObservableEvents_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_instance_state_changes() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> instance_state_changes() const { return GetRepeated<::protozero::ConstBytes>(1); }
+ bool has_all_data_sources_started() const { return at<2>().valid(); }
+ bool all_data_sources_started() const { return at<2>().as_bool(); }
+ bool has_clone_trigger_hit() const { return at<3>().valid(); }
+ ::protozero::ConstBytes clone_trigger_hit() const { return at<3>().as_bytes(); }
+};
+
+class ObservableEvents : public ::protozero::Message {
+ public:
+ using Decoder = ObservableEvents_Decoder;
+ enum : int32_t {
+ kInstanceStateChangesFieldNumber = 1,
+ kAllDataSourcesStartedFieldNumber = 2,
+ kCloneTriggerHitFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ObservableEvents"; }
+
+ using DataSourceInstanceStateChange = ::perfetto::protos::pbzero::ObservableEvents_DataSourceInstanceStateChange;
+ using CloneTriggerHit = ::perfetto::protos::pbzero::ObservableEvents_CloneTriggerHit;
+
+ using Type = ::perfetto::protos::pbzero::ObservableEvents_Type;
+ static inline const char* Type_Name(Type value) {
+ return ::perfetto::protos::pbzero::ObservableEvents_Type_Name(value);
+ }
+
+ using DataSourceInstanceState = ::perfetto::protos::pbzero::ObservableEvents_DataSourceInstanceState;
+ static inline const char* DataSourceInstanceState_Name(DataSourceInstanceState value) {
+ return ::perfetto::protos::pbzero::ObservableEvents_DataSourceInstanceState_Name(value);
+ }
+ static inline const Type TYPE_UNSPECIFIED = Type::TYPE_UNSPECIFIED;
+ static inline const Type TYPE_DATA_SOURCES_INSTANCES = Type::TYPE_DATA_SOURCES_INSTANCES;
+ static inline const Type TYPE_ALL_DATA_SOURCES_STARTED = Type::TYPE_ALL_DATA_SOURCES_STARTED;
+ static inline const Type TYPE_CLONE_TRIGGER_HIT = Type::TYPE_CLONE_TRIGGER_HIT;
+ static inline const DataSourceInstanceState DATA_SOURCE_INSTANCE_STATE_STOPPED = DataSourceInstanceState::DATA_SOURCE_INSTANCE_STATE_STOPPED;
+ static inline const DataSourceInstanceState DATA_SOURCE_INSTANCE_STATE_STARTED = DataSourceInstanceState::DATA_SOURCE_INSTANCE_STATE_STARTED;
+
+ using FieldMetadata_InstanceStateChanges =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ObservableEvents_DataSourceInstanceStateChange,
+ ObservableEvents>;
+
+ static constexpr FieldMetadata_InstanceStateChanges kInstanceStateChanges{};
+ template <typename T = ObservableEvents_DataSourceInstanceStateChange> T* add_instance_state_changes() {
+ return BeginNestedMessage<T>(1);
+ }
+
+
+ using FieldMetadata_AllDataSourcesStarted =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ObservableEvents>;
+
+ static constexpr FieldMetadata_AllDataSourcesStarted kAllDataSourcesStarted{};
+ void set_all_data_sources_started(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_AllDataSourcesStarted::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CloneTriggerHit =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ObservableEvents_CloneTriggerHit,
+ ObservableEvents>;
+
+ static constexpr FieldMetadata_CloneTriggerHit kCloneTriggerHit{};
+ template <typename T = ObservableEvents_CloneTriggerHit> T* set_clone_trigger_hit() {
+ return BeginNestedMessage<T>(3);
+ }
+
+};
+
+class ObservableEvents_CloneTriggerHit_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ObservableEvents_CloneTriggerHit_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ObservableEvents_CloneTriggerHit_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ObservableEvents_CloneTriggerHit_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_tracing_session_id() const { return at<1>().valid(); }
+ int64_t tracing_session_id() const { return at<1>().as_int64(); }
+};
+
+class ObservableEvents_CloneTriggerHit : public ::protozero::Message {
+ public:
+ using Decoder = ObservableEvents_CloneTriggerHit_Decoder;
+ enum : int32_t {
+ kTracingSessionIdFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ObservableEvents.CloneTriggerHit"; }
+
+
+ using FieldMetadata_TracingSessionId =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ ObservableEvents_CloneTriggerHit>;
+
+ static constexpr FieldMetadata_TracingSessionId kTracingSessionId{};
+ void set_tracing_session_id(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TracingSessionId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class ObservableEvents_DataSourceInstanceStateChange_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ObservableEvents_DataSourceInstanceStateChange_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ObservableEvents_DataSourceInstanceStateChange_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ObservableEvents_DataSourceInstanceStateChange_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_producer_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars producer_name() const { return at<1>().as_string(); }
+ bool has_data_source_name() const { return at<2>().valid(); }
+ ::protozero::ConstChars data_source_name() const { return at<2>().as_string(); }
+ bool has_state() const { return at<3>().valid(); }
+ int32_t state() const { return at<3>().as_int32(); }
+};
+
+class ObservableEvents_DataSourceInstanceStateChange : public ::protozero::Message {
+ public:
+ using Decoder = ObservableEvents_DataSourceInstanceStateChange_Decoder;
+ enum : int32_t {
+ kProducerNameFieldNumber = 1,
+ kDataSourceNameFieldNumber = 2,
+ kStateFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ObservableEvents.DataSourceInstanceStateChange"; }
+
+
+ using FieldMetadata_ProducerName =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ObservableEvents_DataSourceInstanceStateChange>;
+
+ static constexpr FieldMetadata_ProducerName kProducerName{};
+ void set_producer_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_ProducerName::kFieldId, data, size);
+ }
+ void set_producer_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_ProducerName::kFieldId, chars.data, chars.size);
+ }
+ void set_producer_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_ProducerName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DataSourceName =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ObservableEvents_DataSourceInstanceStateChange>;
+
+ static constexpr FieldMetadata_DataSourceName kDataSourceName{};
+ void set_data_source_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_DataSourceName::kFieldId, data, size);
+ }
+ void set_data_source_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_DataSourceName::kFieldId, chars.data, chars.size);
+ }
+ void set_data_source_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_DataSourceName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_State =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ ObservableEvents_DataSourceInstanceState,
+ ObservableEvents_DataSourceInstanceStateChange>;
+
+ static constexpr FieldMetadata_State kState{};
+ void set_state(ObservableEvents_DataSourceInstanceState value) {
+ static constexpr uint32_t field_id = FieldMetadata_State::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/common/perf_events.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_PERF_EVENTS_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_PERF_EVENTS_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class PerfEvents_RawEvent;
+class PerfEvents_Timebase;
+class PerfEvents_Tracepoint;
+namespace perfetto_pbzero_enum_PerfEvents {
+enum Counter : int32_t;
+} // namespace perfetto_pbzero_enum_PerfEvents
+using PerfEvents_Counter = perfetto_pbzero_enum_PerfEvents::Counter;
+namespace perfetto_pbzero_enum_PerfEvents {
+enum PerfClock : int32_t;
+} // namespace perfetto_pbzero_enum_PerfEvents
+using PerfEvents_PerfClock = perfetto_pbzero_enum_PerfEvents::PerfClock;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+namespace perfetto_pbzero_enum_PerfEvents {
+enum Counter : int32_t {
+ UNKNOWN_COUNTER = 0,
+ SW_CPU_CLOCK = 1,
+ SW_PAGE_FAULTS = 2,
+ SW_TASK_CLOCK = 3,
+ SW_CONTEXT_SWITCHES = 4,
+ SW_CPU_MIGRATIONS = 5,
+ SW_PAGE_FAULTS_MIN = 6,
+ SW_PAGE_FAULTS_MAJ = 7,
+ SW_ALIGNMENT_FAULTS = 8,
+ SW_EMULATION_FAULTS = 9,
+ SW_DUMMY = 20,
+ HW_CPU_CYCLES = 10,
+ HW_INSTRUCTIONS = 11,
+ HW_CACHE_REFERENCES = 12,
+ HW_CACHE_MISSES = 13,
+ HW_BRANCH_INSTRUCTIONS = 14,
+ HW_BRANCH_MISSES = 15,
+ HW_BUS_CYCLES = 16,
+ HW_STALLED_CYCLES_FRONTEND = 17,
+ HW_STALLED_CYCLES_BACKEND = 18,
+ HW_REF_CPU_CYCLES = 19,
+};
+} // namespace perfetto_pbzero_enum_PerfEvents
+using PerfEvents_Counter = perfetto_pbzero_enum_PerfEvents::Counter;
+
+
+constexpr PerfEvents_Counter PerfEvents_Counter_MIN = PerfEvents_Counter::UNKNOWN_COUNTER;
+constexpr PerfEvents_Counter PerfEvents_Counter_MAX = PerfEvents_Counter::SW_DUMMY;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* PerfEvents_Counter_Name(::perfetto::protos::pbzero::PerfEvents_Counter value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::PerfEvents_Counter::UNKNOWN_COUNTER:
+ return "UNKNOWN_COUNTER";
+
+ case ::perfetto::protos::pbzero::PerfEvents_Counter::SW_CPU_CLOCK:
+ return "SW_CPU_CLOCK";
+
+ case ::perfetto::protos::pbzero::PerfEvents_Counter::SW_PAGE_FAULTS:
+ return "SW_PAGE_FAULTS";
+
+ case ::perfetto::protos::pbzero::PerfEvents_Counter::SW_TASK_CLOCK:
+ return "SW_TASK_CLOCK";
+
+ case ::perfetto::protos::pbzero::PerfEvents_Counter::SW_CONTEXT_SWITCHES:
+ return "SW_CONTEXT_SWITCHES";
+
+ case ::perfetto::protos::pbzero::PerfEvents_Counter::SW_CPU_MIGRATIONS:
+ return "SW_CPU_MIGRATIONS";
+
+ case ::perfetto::protos::pbzero::PerfEvents_Counter::SW_PAGE_FAULTS_MIN:
+ return "SW_PAGE_FAULTS_MIN";
+
+ case ::perfetto::protos::pbzero::PerfEvents_Counter::SW_PAGE_FAULTS_MAJ:
+ return "SW_PAGE_FAULTS_MAJ";
+
+ case ::perfetto::protos::pbzero::PerfEvents_Counter::SW_ALIGNMENT_FAULTS:
+ return "SW_ALIGNMENT_FAULTS";
+
+ case ::perfetto::protos::pbzero::PerfEvents_Counter::SW_EMULATION_FAULTS:
+ return "SW_EMULATION_FAULTS";
+
+ case ::perfetto::protos::pbzero::PerfEvents_Counter::SW_DUMMY:
+ return "SW_DUMMY";
+
+ case ::perfetto::protos::pbzero::PerfEvents_Counter::HW_CPU_CYCLES:
+ return "HW_CPU_CYCLES";
+
+ case ::perfetto::protos::pbzero::PerfEvents_Counter::HW_INSTRUCTIONS:
+ return "HW_INSTRUCTIONS";
+
+ case ::perfetto::protos::pbzero::PerfEvents_Counter::HW_CACHE_REFERENCES:
+ return "HW_CACHE_REFERENCES";
+
+ case ::perfetto::protos::pbzero::PerfEvents_Counter::HW_CACHE_MISSES:
+ return "HW_CACHE_MISSES";
+
+ case ::perfetto::protos::pbzero::PerfEvents_Counter::HW_BRANCH_INSTRUCTIONS:
+ return "HW_BRANCH_INSTRUCTIONS";
+
+ case ::perfetto::protos::pbzero::PerfEvents_Counter::HW_BRANCH_MISSES:
+ return "HW_BRANCH_MISSES";
+
+ case ::perfetto::protos::pbzero::PerfEvents_Counter::HW_BUS_CYCLES:
+ return "HW_BUS_CYCLES";
+
+ case ::perfetto::protos::pbzero::PerfEvents_Counter::HW_STALLED_CYCLES_FRONTEND:
+ return "HW_STALLED_CYCLES_FRONTEND";
+
+ case ::perfetto::protos::pbzero::PerfEvents_Counter::HW_STALLED_CYCLES_BACKEND:
+ return "HW_STALLED_CYCLES_BACKEND";
+
+ case ::perfetto::protos::pbzero::PerfEvents_Counter::HW_REF_CPU_CYCLES:
+ return "HW_REF_CPU_CYCLES";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_PerfEvents {
+enum PerfClock : int32_t {
+ UNKNOWN_PERF_CLOCK = 0,
+ PERF_CLOCK_REALTIME = 1,
+ PERF_CLOCK_MONOTONIC = 2,
+ PERF_CLOCK_MONOTONIC_RAW = 3,
+ PERF_CLOCK_BOOTTIME = 4,
+};
+} // namespace perfetto_pbzero_enum_PerfEvents
+using PerfEvents_PerfClock = perfetto_pbzero_enum_PerfEvents::PerfClock;
+
+
+constexpr PerfEvents_PerfClock PerfEvents_PerfClock_MIN = PerfEvents_PerfClock::UNKNOWN_PERF_CLOCK;
+constexpr PerfEvents_PerfClock PerfEvents_PerfClock_MAX = PerfEvents_PerfClock::PERF_CLOCK_BOOTTIME;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* PerfEvents_PerfClock_Name(::perfetto::protos::pbzero::PerfEvents_PerfClock value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::PerfEvents_PerfClock::UNKNOWN_PERF_CLOCK:
+ return "UNKNOWN_PERF_CLOCK";
+
+ case ::perfetto::protos::pbzero::PerfEvents_PerfClock::PERF_CLOCK_REALTIME:
+ return "PERF_CLOCK_REALTIME";
+
+ case ::perfetto::protos::pbzero::PerfEvents_PerfClock::PERF_CLOCK_MONOTONIC:
+ return "PERF_CLOCK_MONOTONIC";
+
+ case ::perfetto::protos::pbzero::PerfEvents_PerfClock::PERF_CLOCK_MONOTONIC_RAW:
+ return "PERF_CLOCK_MONOTONIC_RAW";
+
+ case ::perfetto::protos::pbzero::PerfEvents_PerfClock::PERF_CLOCK_BOOTTIME:
+ return "PERF_CLOCK_BOOTTIME";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+class PerfEvents_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/0, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ PerfEvents_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit PerfEvents_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit PerfEvents_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+};
+
+class PerfEvents : public ::protozero::Message {
+ public:
+ using Decoder = PerfEvents_Decoder;
+ static constexpr const char* GetName() { return ".perfetto.protos.PerfEvents"; }
+
+ using Timebase = ::perfetto::protos::pbzero::PerfEvents_Timebase;
+ using Tracepoint = ::perfetto::protos::pbzero::PerfEvents_Tracepoint;
+ using RawEvent = ::perfetto::protos::pbzero::PerfEvents_RawEvent;
+
+ using Counter = ::perfetto::protos::pbzero::PerfEvents_Counter;
+ static inline const char* Counter_Name(Counter value) {
+ return ::perfetto::protos::pbzero::PerfEvents_Counter_Name(value);
+ }
+
+ using PerfClock = ::perfetto::protos::pbzero::PerfEvents_PerfClock;
+ static inline const char* PerfClock_Name(PerfClock value) {
+ return ::perfetto::protos::pbzero::PerfEvents_PerfClock_Name(value);
+ }
+ static inline const Counter UNKNOWN_COUNTER = Counter::UNKNOWN_COUNTER;
+ static inline const Counter SW_CPU_CLOCK = Counter::SW_CPU_CLOCK;
+ static inline const Counter SW_PAGE_FAULTS = Counter::SW_PAGE_FAULTS;
+ static inline const Counter SW_TASK_CLOCK = Counter::SW_TASK_CLOCK;
+ static inline const Counter SW_CONTEXT_SWITCHES = Counter::SW_CONTEXT_SWITCHES;
+ static inline const Counter SW_CPU_MIGRATIONS = Counter::SW_CPU_MIGRATIONS;
+ static inline const Counter SW_PAGE_FAULTS_MIN = Counter::SW_PAGE_FAULTS_MIN;
+ static inline const Counter SW_PAGE_FAULTS_MAJ = Counter::SW_PAGE_FAULTS_MAJ;
+ static inline const Counter SW_ALIGNMENT_FAULTS = Counter::SW_ALIGNMENT_FAULTS;
+ static inline const Counter SW_EMULATION_FAULTS = Counter::SW_EMULATION_FAULTS;
+ static inline const Counter SW_DUMMY = Counter::SW_DUMMY;
+ static inline const Counter HW_CPU_CYCLES = Counter::HW_CPU_CYCLES;
+ static inline const Counter HW_INSTRUCTIONS = Counter::HW_INSTRUCTIONS;
+ static inline const Counter HW_CACHE_REFERENCES = Counter::HW_CACHE_REFERENCES;
+ static inline const Counter HW_CACHE_MISSES = Counter::HW_CACHE_MISSES;
+ static inline const Counter HW_BRANCH_INSTRUCTIONS = Counter::HW_BRANCH_INSTRUCTIONS;
+ static inline const Counter HW_BRANCH_MISSES = Counter::HW_BRANCH_MISSES;
+ static inline const Counter HW_BUS_CYCLES = Counter::HW_BUS_CYCLES;
+ static inline const Counter HW_STALLED_CYCLES_FRONTEND = Counter::HW_STALLED_CYCLES_FRONTEND;
+ static inline const Counter HW_STALLED_CYCLES_BACKEND = Counter::HW_STALLED_CYCLES_BACKEND;
+ static inline const Counter HW_REF_CPU_CYCLES = Counter::HW_REF_CPU_CYCLES;
+ static inline const PerfClock UNKNOWN_PERF_CLOCK = PerfClock::UNKNOWN_PERF_CLOCK;
+ static inline const PerfClock PERF_CLOCK_REALTIME = PerfClock::PERF_CLOCK_REALTIME;
+ static inline const PerfClock PERF_CLOCK_MONOTONIC = PerfClock::PERF_CLOCK_MONOTONIC;
+ static inline const PerfClock PERF_CLOCK_MONOTONIC_RAW = PerfClock::PERF_CLOCK_MONOTONIC_RAW;
+ static inline const PerfClock PERF_CLOCK_BOOTTIME = PerfClock::PERF_CLOCK_BOOTTIME;
+};
+
+class PerfEvents_RawEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ PerfEvents_RawEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit PerfEvents_RawEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit PerfEvents_RawEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_type() const { return at<1>().valid(); }
+ uint32_t type() const { return at<1>().as_uint32(); }
+ bool has_config() const { return at<2>().valid(); }
+ uint64_t config() const { return at<2>().as_uint64(); }
+ bool has_config1() const { return at<3>().valid(); }
+ uint64_t config1() const { return at<3>().as_uint64(); }
+ bool has_config2() const { return at<4>().valid(); }
+ uint64_t config2() const { return at<4>().as_uint64(); }
+};
+
+class PerfEvents_RawEvent : public ::protozero::Message {
+ public:
+ using Decoder = PerfEvents_RawEvent_Decoder;
+ enum : int32_t {
+ kTypeFieldNumber = 1,
+ kConfigFieldNumber = 2,
+ kConfig1FieldNumber = 3,
+ kConfig2FieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.PerfEvents.RawEvent"; }
+
+
+ using FieldMetadata_Type =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ PerfEvents_RawEvent>;
+
+ static constexpr FieldMetadata_Type kType{};
+ void set_type(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Type::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Config =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ PerfEvents_RawEvent>;
+
+ static constexpr FieldMetadata_Config kConfig{};
+ void set_config(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Config::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Config1 =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ PerfEvents_RawEvent>;
+
+ static constexpr FieldMetadata_Config1 kConfig1{};
+ void set_config1(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Config1::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Config2 =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ PerfEvents_RawEvent>;
+
+ static constexpr FieldMetadata_Config2 kConfig2{};
+ void set_config2(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Config2::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class PerfEvents_Tracepoint_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ PerfEvents_Tracepoint_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit PerfEvents_Tracepoint_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit PerfEvents_Tracepoint_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars name() const { return at<1>().as_string(); }
+ bool has_filter() const { return at<2>().valid(); }
+ ::protozero::ConstChars filter() const { return at<2>().as_string(); }
+};
+
+class PerfEvents_Tracepoint : public ::protozero::Message {
+ public:
+ using Decoder = PerfEvents_Tracepoint_Decoder;
+ enum : int32_t {
+ kNameFieldNumber = 1,
+ kFilterFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.PerfEvents.Tracepoint"; }
+
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ PerfEvents_Tracepoint>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Filter =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ PerfEvents_Tracepoint>;
+
+ static constexpr FieldMetadata_Filter kFilter{};
+ void set_filter(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Filter::kFieldId, data, size);
+ }
+ void set_filter(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Filter::kFieldId, chars.data, chars.size);
+ }
+ void set_filter(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Filter::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class PerfEvents_Timebase_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/11, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ PerfEvents_Timebase_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit PerfEvents_Timebase_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit PerfEvents_Timebase_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_frequency() const { return at<2>().valid(); }
+ uint64_t frequency() const { return at<2>().as_uint64(); }
+ bool has_period() const { return at<1>().valid(); }
+ uint64_t period() const { return at<1>().as_uint64(); }
+ bool has_counter() const { return at<4>().valid(); }
+ int32_t counter() const { return at<4>().as_int32(); }
+ bool has_tracepoint() const { return at<3>().valid(); }
+ ::protozero::ConstBytes tracepoint() const { return at<3>().as_bytes(); }
+ bool has_raw_event() const { return at<5>().valid(); }
+ ::protozero::ConstBytes raw_event() const { return at<5>().as_bytes(); }
+ bool has_timestamp_clock() const { return at<11>().valid(); }
+ int32_t timestamp_clock() const { return at<11>().as_int32(); }
+ bool has_name() const { return at<10>().valid(); }
+ ::protozero::ConstChars name() const { return at<10>().as_string(); }
+};
+
+class PerfEvents_Timebase : public ::protozero::Message {
+ public:
+ using Decoder = PerfEvents_Timebase_Decoder;
+ enum : int32_t {
+ kFrequencyFieldNumber = 2,
+ kPeriodFieldNumber = 1,
+ kCounterFieldNumber = 4,
+ kTracepointFieldNumber = 3,
+ kRawEventFieldNumber = 5,
+ kTimestampClockFieldNumber = 11,
+ kNameFieldNumber = 10,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.PerfEvents.Timebase"; }
+
+
+ using FieldMetadata_Frequency =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ PerfEvents_Timebase>;
+
+ static constexpr FieldMetadata_Frequency kFrequency{};
+ void set_frequency(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Frequency::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Period =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ PerfEvents_Timebase>;
+
+ static constexpr FieldMetadata_Period kPeriod{};
+ void set_period(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Period::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Counter =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ PerfEvents_Counter,
+ PerfEvents_Timebase>;
+
+ static constexpr FieldMetadata_Counter kCounter{};
+ void set_counter(PerfEvents_Counter value) {
+ static constexpr uint32_t field_id = FieldMetadata_Counter::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Tracepoint =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ PerfEvents_Tracepoint,
+ PerfEvents_Timebase>;
+
+ static constexpr FieldMetadata_Tracepoint kTracepoint{};
+ template <typename T = PerfEvents_Tracepoint> T* set_tracepoint() {
+ return BeginNestedMessage<T>(3);
+ }
+
+
+ using FieldMetadata_RawEvent =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ PerfEvents_RawEvent,
+ PerfEvents_Timebase>;
+
+ static constexpr FieldMetadata_RawEvent kRawEvent{};
+ template <typename T = PerfEvents_RawEvent> T* set_raw_event() {
+ return BeginNestedMessage<T>(5);
+ }
+
+
+ using FieldMetadata_TimestampClock =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ PerfEvents_PerfClock,
+ PerfEvents_Timebase>;
+
+ static constexpr FieldMetadata_TimestampClock kTimestampClock{};
+ void set_timestamp_clock(PerfEvents_PerfClock value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimestampClock::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ PerfEvents_Timebase>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/common/protolog_common.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_PROTOLOG_COMMON_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_PROTOLOG_COMMON_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+enum ProtoLogLevel : int32_t {
+ PROTOLOG_LEVEL_UNDEFINED = 0,
+ PROTOLOG_LEVEL_DEBUG = 1,
+ PROTOLOG_LEVEL_VERBOSE = 2,
+ PROTOLOG_LEVEL_INFO = 3,
+ PROTOLOG_LEVEL_WARN = 4,
+ PROTOLOG_LEVEL_ERROR = 5,
+ PROTOLOG_LEVEL_WTF = 6,
+};
+
+constexpr ProtoLogLevel ProtoLogLevel_MIN = ProtoLogLevel::PROTOLOG_LEVEL_UNDEFINED;
+constexpr ProtoLogLevel ProtoLogLevel_MAX = ProtoLogLevel::PROTOLOG_LEVEL_WTF;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* ProtoLogLevel_Name(::perfetto::protos::pbzero::ProtoLogLevel value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::ProtoLogLevel::PROTOLOG_LEVEL_UNDEFINED:
+ return "PROTOLOG_LEVEL_UNDEFINED";
+
+ case ::perfetto::protos::pbzero::ProtoLogLevel::PROTOLOG_LEVEL_DEBUG:
+ return "PROTOLOG_LEVEL_DEBUG";
+
+ case ::perfetto::protos::pbzero::ProtoLogLevel::PROTOLOG_LEVEL_VERBOSE:
+ return "PROTOLOG_LEVEL_VERBOSE";
+
+ case ::perfetto::protos::pbzero::ProtoLogLevel::PROTOLOG_LEVEL_INFO:
+ return "PROTOLOG_LEVEL_INFO";
+
+ case ::perfetto::protos::pbzero::ProtoLogLevel::PROTOLOG_LEVEL_WARN:
+ return "PROTOLOG_LEVEL_WARN";
+
+ case ::perfetto::protos::pbzero::ProtoLogLevel::PROTOLOG_LEVEL_ERROR:
+ return "PROTOLOG_LEVEL_ERROR";
+
+ case ::perfetto::protos::pbzero::ProtoLogLevel::PROTOLOG_LEVEL_WTF:
+ return "PROTOLOG_LEVEL_WTF";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/common/sys_stats_counters.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_SYS_STATS_COUNTERS_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_SYS_STATS_COUNTERS_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+enum MeminfoCounters : int32_t {
+ MEMINFO_UNSPECIFIED = 0,
+ MEMINFO_MEM_TOTAL = 1,
+ MEMINFO_MEM_FREE = 2,
+ MEMINFO_MEM_AVAILABLE = 3,
+ MEMINFO_BUFFERS = 4,
+ MEMINFO_CACHED = 5,
+ MEMINFO_SWAP_CACHED = 6,
+ MEMINFO_ACTIVE = 7,
+ MEMINFO_INACTIVE = 8,
+ MEMINFO_ACTIVE_ANON = 9,
+ MEMINFO_INACTIVE_ANON = 10,
+ MEMINFO_ACTIVE_FILE = 11,
+ MEMINFO_INACTIVE_FILE = 12,
+ MEMINFO_UNEVICTABLE = 13,
+ MEMINFO_MLOCKED = 14,
+ MEMINFO_SWAP_TOTAL = 15,
+ MEMINFO_SWAP_FREE = 16,
+ MEMINFO_DIRTY = 17,
+ MEMINFO_WRITEBACK = 18,
+ MEMINFO_ANON_PAGES = 19,
+ MEMINFO_MAPPED = 20,
+ MEMINFO_SHMEM = 21,
+ MEMINFO_SLAB = 22,
+ MEMINFO_SLAB_RECLAIMABLE = 23,
+ MEMINFO_SLAB_UNRECLAIMABLE = 24,
+ MEMINFO_KERNEL_STACK = 25,
+ MEMINFO_PAGE_TABLES = 26,
+ MEMINFO_COMMIT_LIMIT = 27,
+ MEMINFO_COMMITED_AS = 28,
+ MEMINFO_VMALLOC_TOTAL = 29,
+ MEMINFO_VMALLOC_USED = 30,
+ MEMINFO_VMALLOC_CHUNK = 31,
+ MEMINFO_CMA_TOTAL = 32,
+ MEMINFO_CMA_FREE = 33,
+};
+
+constexpr MeminfoCounters MeminfoCounters_MIN = MeminfoCounters::MEMINFO_UNSPECIFIED;
+constexpr MeminfoCounters MeminfoCounters_MAX = MeminfoCounters::MEMINFO_CMA_FREE;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* MeminfoCounters_Name(::perfetto::protos::pbzero::MeminfoCounters value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::MeminfoCounters::MEMINFO_UNSPECIFIED:
+ return "MEMINFO_UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::MeminfoCounters::MEMINFO_MEM_TOTAL:
+ return "MEMINFO_MEM_TOTAL";
+
+ case ::perfetto::protos::pbzero::MeminfoCounters::MEMINFO_MEM_FREE:
+ return "MEMINFO_MEM_FREE";
+
+ case ::perfetto::protos::pbzero::MeminfoCounters::MEMINFO_MEM_AVAILABLE:
+ return "MEMINFO_MEM_AVAILABLE";
+
+ case ::perfetto::protos::pbzero::MeminfoCounters::MEMINFO_BUFFERS:
+ return "MEMINFO_BUFFERS";
+
+ case ::perfetto::protos::pbzero::MeminfoCounters::MEMINFO_CACHED:
+ return "MEMINFO_CACHED";
+
+ case ::perfetto::protos::pbzero::MeminfoCounters::MEMINFO_SWAP_CACHED:
+ return "MEMINFO_SWAP_CACHED";
+
+ case ::perfetto::protos::pbzero::MeminfoCounters::MEMINFO_ACTIVE:
+ return "MEMINFO_ACTIVE";
+
+ case ::perfetto::protos::pbzero::MeminfoCounters::MEMINFO_INACTIVE:
+ return "MEMINFO_INACTIVE";
+
+ case ::perfetto::protos::pbzero::MeminfoCounters::MEMINFO_ACTIVE_ANON:
+ return "MEMINFO_ACTIVE_ANON";
+
+ case ::perfetto::protos::pbzero::MeminfoCounters::MEMINFO_INACTIVE_ANON:
+ return "MEMINFO_INACTIVE_ANON";
+
+ case ::perfetto::protos::pbzero::MeminfoCounters::MEMINFO_ACTIVE_FILE:
+ return "MEMINFO_ACTIVE_FILE";
+
+ case ::perfetto::protos::pbzero::MeminfoCounters::MEMINFO_INACTIVE_FILE:
+ return "MEMINFO_INACTIVE_FILE";
+
+ case ::perfetto::protos::pbzero::MeminfoCounters::MEMINFO_UNEVICTABLE:
+ return "MEMINFO_UNEVICTABLE";
+
+ case ::perfetto::protos::pbzero::MeminfoCounters::MEMINFO_MLOCKED:
+ return "MEMINFO_MLOCKED";
+
+ case ::perfetto::protos::pbzero::MeminfoCounters::MEMINFO_SWAP_TOTAL:
+ return "MEMINFO_SWAP_TOTAL";
+
+ case ::perfetto::protos::pbzero::MeminfoCounters::MEMINFO_SWAP_FREE:
+ return "MEMINFO_SWAP_FREE";
+
+ case ::perfetto::protos::pbzero::MeminfoCounters::MEMINFO_DIRTY:
+ return "MEMINFO_DIRTY";
+
+ case ::perfetto::protos::pbzero::MeminfoCounters::MEMINFO_WRITEBACK:
+ return "MEMINFO_WRITEBACK";
+
+ case ::perfetto::protos::pbzero::MeminfoCounters::MEMINFO_ANON_PAGES:
+ return "MEMINFO_ANON_PAGES";
+
+ case ::perfetto::protos::pbzero::MeminfoCounters::MEMINFO_MAPPED:
+ return "MEMINFO_MAPPED";
+
+ case ::perfetto::protos::pbzero::MeminfoCounters::MEMINFO_SHMEM:
+ return "MEMINFO_SHMEM";
+
+ case ::perfetto::protos::pbzero::MeminfoCounters::MEMINFO_SLAB:
+ return "MEMINFO_SLAB";
+
+ case ::perfetto::protos::pbzero::MeminfoCounters::MEMINFO_SLAB_RECLAIMABLE:
+ return "MEMINFO_SLAB_RECLAIMABLE";
+
+ case ::perfetto::protos::pbzero::MeminfoCounters::MEMINFO_SLAB_UNRECLAIMABLE:
+ return "MEMINFO_SLAB_UNRECLAIMABLE";
+
+ case ::perfetto::protos::pbzero::MeminfoCounters::MEMINFO_KERNEL_STACK:
+ return "MEMINFO_KERNEL_STACK";
+
+ case ::perfetto::protos::pbzero::MeminfoCounters::MEMINFO_PAGE_TABLES:
+ return "MEMINFO_PAGE_TABLES";
+
+ case ::perfetto::protos::pbzero::MeminfoCounters::MEMINFO_COMMIT_LIMIT:
+ return "MEMINFO_COMMIT_LIMIT";
+
+ case ::perfetto::protos::pbzero::MeminfoCounters::MEMINFO_COMMITED_AS:
+ return "MEMINFO_COMMITED_AS";
+
+ case ::perfetto::protos::pbzero::MeminfoCounters::MEMINFO_VMALLOC_TOTAL:
+ return "MEMINFO_VMALLOC_TOTAL";
+
+ case ::perfetto::protos::pbzero::MeminfoCounters::MEMINFO_VMALLOC_USED:
+ return "MEMINFO_VMALLOC_USED";
+
+ case ::perfetto::protos::pbzero::MeminfoCounters::MEMINFO_VMALLOC_CHUNK:
+ return "MEMINFO_VMALLOC_CHUNK";
+
+ case ::perfetto::protos::pbzero::MeminfoCounters::MEMINFO_CMA_TOTAL:
+ return "MEMINFO_CMA_TOTAL";
+
+ case ::perfetto::protos::pbzero::MeminfoCounters::MEMINFO_CMA_FREE:
+ return "MEMINFO_CMA_FREE";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+enum VmstatCounters : int32_t {
+ VMSTAT_UNSPECIFIED = 0,
+ VMSTAT_NR_FREE_PAGES = 1,
+ VMSTAT_NR_ALLOC_BATCH = 2,
+ VMSTAT_NR_INACTIVE_ANON = 3,
+ VMSTAT_NR_ACTIVE_ANON = 4,
+ VMSTAT_NR_INACTIVE_FILE = 5,
+ VMSTAT_NR_ACTIVE_FILE = 6,
+ VMSTAT_NR_UNEVICTABLE = 7,
+ VMSTAT_NR_MLOCK = 8,
+ VMSTAT_NR_ANON_PAGES = 9,
+ VMSTAT_NR_MAPPED = 10,
+ VMSTAT_NR_FILE_PAGES = 11,
+ VMSTAT_NR_DIRTY = 12,
+ VMSTAT_NR_WRITEBACK = 13,
+ VMSTAT_NR_SLAB_RECLAIMABLE = 14,
+ VMSTAT_NR_SLAB_UNRECLAIMABLE = 15,
+ VMSTAT_NR_PAGE_TABLE_PAGES = 16,
+ VMSTAT_NR_KERNEL_STACK = 17,
+ VMSTAT_NR_OVERHEAD = 18,
+ VMSTAT_NR_UNSTABLE = 19,
+ VMSTAT_NR_BOUNCE = 20,
+ VMSTAT_NR_VMSCAN_WRITE = 21,
+ VMSTAT_NR_VMSCAN_IMMEDIATE_RECLAIM = 22,
+ VMSTAT_NR_WRITEBACK_TEMP = 23,
+ VMSTAT_NR_ISOLATED_ANON = 24,
+ VMSTAT_NR_ISOLATED_FILE = 25,
+ VMSTAT_NR_SHMEM = 26,
+ VMSTAT_NR_DIRTIED = 27,
+ VMSTAT_NR_WRITTEN = 28,
+ VMSTAT_NR_PAGES_SCANNED = 29,
+ VMSTAT_WORKINGSET_REFAULT = 30,
+ VMSTAT_WORKINGSET_ACTIVATE = 31,
+ VMSTAT_WORKINGSET_NODERECLAIM = 32,
+ VMSTAT_NR_ANON_TRANSPARENT_HUGEPAGES = 33,
+ VMSTAT_NR_FREE_CMA = 34,
+ VMSTAT_NR_SWAPCACHE = 35,
+ VMSTAT_NR_DIRTY_THRESHOLD = 36,
+ VMSTAT_NR_DIRTY_BACKGROUND_THRESHOLD = 37,
+ VMSTAT_PGPGIN = 38,
+ VMSTAT_PGPGOUT = 39,
+ VMSTAT_PGPGOUTCLEAN = 40,
+ VMSTAT_PSWPIN = 41,
+ VMSTAT_PSWPOUT = 42,
+ VMSTAT_PGALLOC_DMA = 43,
+ VMSTAT_PGALLOC_NORMAL = 44,
+ VMSTAT_PGALLOC_MOVABLE = 45,
+ VMSTAT_PGFREE = 46,
+ VMSTAT_PGACTIVATE = 47,
+ VMSTAT_PGDEACTIVATE = 48,
+ VMSTAT_PGFAULT = 49,
+ VMSTAT_PGMAJFAULT = 50,
+ VMSTAT_PGREFILL_DMA = 51,
+ VMSTAT_PGREFILL_NORMAL = 52,
+ VMSTAT_PGREFILL_MOVABLE = 53,
+ VMSTAT_PGSTEAL_KSWAPD_DMA = 54,
+ VMSTAT_PGSTEAL_KSWAPD_NORMAL = 55,
+ VMSTAT_PGSTEAL_KSWAPD_MOVABLE = 56,
+ VMSTAT_PGSTEAL_DIRECT_DMA = 57,
+ VMSTAT_PGSTEAL_DIRECT_NORMAL = 58,
+ VMSTAT_PGSTEAL_DIRECT_MOVABLE = 59,
+ VMSTAT_PGSCAN_KSWAPD_DMA = 60,
+ VMSTAT_PGSCAN_KSWAPD_NORMAL = 61,
+ VMSTAT_PGSCAN_KSWAPD_MOVABLE = 62,
+ VMSTAT_PGSCAN_DIRECT_DMA = 63,
+ VMSTAT_PGSCAN_DIRECT_NORMAL = 64,
+ VMSTAT_PGSCAN_DIRECT_MOVABLE = 65,
+ VMSTAT_PGSCAN_DIRECT_THROTTLE = 66,
+ VMSTAT_PGINODESTEAL = 67,
+ VMSTAT_SLABS_SCANNED = 68,
+ VMSTAT_KSWAPD_INODESTEAL = 69,
+ VMSTAT_KSWAPD_LOW_WMARK_HIT_QUICKLY = 70,
+ VMSTAT_KSWAPD_HIGH_WMARK_HIT_QUICKLY = 71,
+ VMSTAT_PAGEOUTRUN = 72,
+ VMSTAT_ALLOCSTALL = 73,
+ VMSTAT_PGROTATED = 74,
+ VMSTAT_DROP_PAGECACHE = 75,
+ VMSTAT_DROP_SLAB = 76,
+ VMSTAT_PGMIGRATE_SUCCESS = 77,
+ VMSTAT_PGMIGRATE_FAIL = 78,
+ VMSTAT_COMPACT_MIGRATE_SCANNED = 79,
+ VMSTAT_COMPACT_FREE_SCANNED = 80,
+ VMSTAT_COMPACT_ISOLATED = 81,
+ VMSTAT_COMPACT_STALL = 82,
+ VMSTAT_COMPACT_FAIL = 83,
+ VMSTAT_COMPACT_SUCCESS = 84,
+ VMSTAT_COMPACT_DAEMON_WAKE = 85,
+ VMSTAT_UNEVICTABLE_PGS_CULLED = 86,
+ VMSTAT_UNEVICTABLE_PGS_SCANNED = 87,
+ VMSTAT_UNEVICTABLE_PGS_RESCUED = 88,
+ VMSTAT_UNEVICTABLE_PGS_MLOCKED = 89,
+ VMSTAT_UNEVICTABLE_PGS_MUNLOCKED = 90,
+ VMSTAT_UNEVICTABLE_PGS_CLEARED = 91,
+ VMSTAT_UNEVICTABLE_PGS_STRANDED = 92,
+ VMSTAT_NR_ZSPAGES = 93,
+ VMSTAT_NR_ION_HEAP = 94,
+ VMSTAT_NR_GPU_HEAP = 95,
+ VMSTAT_ALLOCSTALL_DMA = 96,
+ VMSTAT_ALLOCSTALL_MOVABLE = 97,
+ VMSTAT_ALLOCSTALL_NORMAL = 98,
+ VMSTAT_COMPACT_DAEMON_FREE_SCANNED = 99,
+ VMSTAT_COMPACT_DAEMON_MIGRATE_SCANNED = 100,
+ VMSTAT_NR_FASTRPC = 101,
+ VMSTAT_NR_INDIRECTLY_RECLAIMABLE = 102,
+ VMSTAT_NR_ION_HEAP_POOL = 103,
+ VMSTAT_NR_KERNEL_MISC_RECLAIMABLE = 104,
+ VMSTAT_NR_SHADOW_CALL_STACK_BYTES = 105,
+ VMSTAT_NR_SHMEM_HUGEPAGES = 106,
+ VMSTAT_NR_SHMEM_PMDMAPPED = 107,
+ VMSTAT_NR_UNRECLAIMABLE_PAGES = 108,
+ VMSTAT_NR_ZONE_ACTIVE_ANON = 109,
+ VMSTAT_NR_ZONE_ACTIVE_FILE = 110,
+ VMSTAT_NR_ZONE_INACTIVE_ANON = 111,
+ VMSTAT_NR_ZONE_INACTIVE_FILE = 112,
+ VMSTAT_NR_ZONE_UNEVICTABLE = 113,
+ VMSTAT_NR_ZONE_WRITE_PENDING = 114,
+ VMSTAT_OOM_KILL = 115,
+ VMSTAT_PGLAZYFREE = 116,
+ VMSTAT_PGLAZYFREED = 117,
+ VMSTAT_PGREFILL = 118,
+ VMSTAT_PGSCAN_DIRECT = 119,
+ VMSTAT_PGSCAN_KSWAPD = 120,
+ VMSTAT_PGSKIP_DMA = 121,
+ VMSTAT_PGSKIP_MOVABLE = 122,
+ VMSTAT_PGSKIP_NORMAL = 123,
+ VMSTAT_PGSTEAL_DIRECT = 124,
+ VMSTAT_PGSTEAL_KSWAPD = 125,
+ VMSTAT_SWAP_RA = 126,
+ VMSTAT_SWAP_RA_HIT = 127,
+ VMSTAT_WORKINGSET_RESTORE = 128,
+ VMSTAT_ALLOCSTALL_DEVICE = 129,
+ VMSTAT_ALLOCSTALL_DMA32 = 130,
+ VMSTAT_BALLOON_DEFLATE = 131,
+ VMSTAT_BALLOON_INFLATE = 132,
+ VMSTAT_BALLOON_MIGRATE = 133,
+ VMSTAT_CMA_ALLOC_FAIL = 134,
+ VMSTAT_CMA_ALLOC_SUCCESS = 135,
+ VMSTAT_NR_FILE_HUGEPAGES = 136,
+ VMSTAT_NR_FILE_PMDMAPPED = 137,
+ VMSTAT_NR_FOLL_PIN_ACQUIRED = 138,
+ VMSTAT_NR_FOLL_PIN_RELEASED = 139,
+ VMSTAT_NR_SEC_PAGE_TABLE_PAGES = 140,
+ VMSTAT_NR_SHADOW_CALL_STACK = 141,
+ VMSTAT_NR_SWAPCACHED = 142,
+ VMSTAT_NR_THROTTLED_WRITTEN = 143,
+ VMSTAT_PGALLOC_DEVICE = 144,
+ VMSTAT_PGALLOC_DMA32 = 145,
+ VMSTAT_PGDEMOTE_DIRECT = 146,
+ VMSTAT_PGDEMOTE_KSWAPD = 147,
+ VMSTAT_PGREUSE = 148,
+ VMSTAT_PGSCAN_ANON = 149,
+ VMSTAT_PGSCAN_FILE = 150,
+ VMSTAT_PGSKIP_DEVICE = 151,
+ VMSTAT_PGSKIP_DMA32 = 152,
+ VMSTAT_PGSTEAL_ANON = 153,
+ VMSTAT_PGSTEAL_FILE = 154,
+ VMSTAT_THP_COLLAPSE_ALLOC = 155,
+ VMSTAT_THP_COLLAPSE_ALLOC_FAILED = 156,
+ VMSTAT_THP_DEFERRED_SPLIT_PAGE = 157,
+ VMSTAT_THP_FAULT_ALLOC = 158,
+ VMSTAT_THP_FAULT_FALLBACK = 159,
+ VMSTAT_THP_FAULT_FALLBACK_CHARGE = 160,
+ VMSTAT_THP_FILE_ALLOC = 161,
+ VMSTAT_THP_FILE_FALLBACK = 162,
+ VMSTAT_THP_FILE_FALLBACK_CHARGE = 163,
+ VMSTAT_THP_FILE_MAPPED = 164,
+ VMSTAT_THP_MIGRATION_FAIL = 165,
+ VMSTAT_THP_MIGRATION_SPLIT = 166,
+ VMSTAT_THP_MIGRATION_SUCCESS = 167,
+ VMSTAT_THP_SCAN_EXCEED_NONE_PTE = 168,
+ VMSTAT_THP_SCAN_EXCEED_SHARE_PTE = 169,
+ VMSTAT_THP_SCAN_EXCEED_SWAP_PTE = 170,
+ VMSTAT_THP_SPLIT_PAGE = 171,
+ VMSTAT_THP_SPLIT_PAGE_FAILED = 172,
+ VMSTAT_THP_SPLIT_PMD = 173,
+ VMSTAT_THP_SWPOUT = 174,
+ VMSTAT_THP_SWPOUT_FALLBACK = 175,
+ VMSTAT_THP_ZERO_PAGE_ALLOC = 176,
+ VMSTAT_THP_ZERO_PAGE_ALLOC_FAILED = 177,
+ VMSTAT_VMA_LOCK_ABORT = 178,
+ VMSTAT_VMA_LOCK_MISS = 179,
+ VMSTAT_VMA_LOCK_RETRY = 180,
+ VMSTAT_VMA_LOCK_SUCCESS = 181,
+ VMSTAT_WORKINGSET_ACTIVATE_ANON = 182,
+ VMSTAT_WORKINGSET_ACTIVATE_FILE = 183,
+ VMSTAT_WORKINGSET_NODES = 184,
+ VMSTAT_WORKINGSET_REFAULT_ANON = 185,
+ VMSTAT_WORKINGSET_REFAULT_FILE = 186,
+ VMSTAT_WORKINGSET_RESTORE_ANON = 187,
+ VMSTAT_WORKINGSET_RESTORE_FILE = 188,
+};
+
+constexpr VmstatCounters VmstatCounters_MIN = VmstatCounters::VMSTAT_UNSPECIFIED;
+constexpr VmstatCounters VmstatCounters_MAX = VmstatCounters::VMSTAT_WORKINGSET_RESTORE_FILE;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* VmstatCounters_Name(::perfetto::protos::pbzero::VmstatCounters value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_UNSPECIFIED:
+ return "VMSTAT_UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_FREE_PAGES:
+ return "VMSTAT_NR_FREE_PAGES";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_ALLOC_BATCH:
+ return "VMSTAT_NR_ALLOC_BATCH";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_INACTIVE_ANON:
+ return "VMSTAT_NR_INACTIVE_ANON";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_ACTIVE_ANON:
+ return "VMSTAT_NR_ACTIVE_ANON";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_INACTIVE_FILE:
+ return "VMSTAT_NR_INACTIVE_FILE";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_ACTIVE_FILE:
+ return "VMSTAT_NR_ACTIVE_FILE";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_UNEVICTABLE:
+ return "VMSTAT_NR_UNEVICTABLE";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_MLOCK:
+ return "VMSTAT_NR_MLOCK";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_ANON_PAGES:
+ return "VMSTAT_NR_ANON_PAGES";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_MAPPED:
+ return "VMSTAT_NR_MAPPED";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_FILE_PAGES:
+ return "VMSTAT_NR_FILE_PAGES";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_DIRTY:
+ return "VMSTAT_NR_DIRTY";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_WRITEBACK:
+ return "VMSTAT_NR_WRITEBACK";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_SLAB_RECLAIMABLE:
+ return "VMSTAT_NR_SLAB_RECLAIMABLE";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_SLAB_UNRECLAIMABLE:
+ return "VMSTAT_NR_SLAB_UNRECLAIMABLE";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_PAGE_TABLE_PAGES:
+ return "VMSTAT_NR_PAGE_TABLE_PAGES";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_KERNEL_STACK:
+ return "VMSTAT_NR_KERNEL_STACK";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_OVERHEAD:
+ return "VMSTAT_NR_OVERHEAD";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_UNSTABLE:
+ return "VMSTAT_NR_UNSTABLE";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_BOUNCE:
+ return "VMSTAT_NR_BOUNCE";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_VMSCAN_WRITE:
+ return "VMSTAT_NR_VMSCAN_WRITE";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_VMSCAN_IMMEDIATE_RECLAIM:
+ return "VMSTAT_NR_VMSCAN_IMMEDIATE_RECLAIM";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_WRITEBACK_TEMP:
+ return "VMSTAT_NR_WRITEBACK_TEMP";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_ISOLATED_ANON:
+ return "VMSTAT_NR_ISOLATED_ANON";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_ISOLATED_FILE:
+ return "VMSTAT_NR_ISOLATED_FILE";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_SHMEM:
+ return "VMSTAT_NR_SHMEM";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_DIRTIED:
+ return "VMSTAT_NR_DIRTIED";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_WRITTEN:
+ return "VMSTAT_NR_WRITTEN";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_PAGES_SCANNED:
+ return "VMSTAT_NR_PAGES_SCANNED";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_WORKINGSET_REFAULT:
+ return "VMSTAT_WORKINGSET_REFAULT";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_WORKINGSET_ACTIVATE:
+ return "VMSTAT_WORKINGSET_ACTIVATE";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_WORKINGSET_NODERECLAIM:
+ return "VMSTAT_WORKINGSET_NODERECLAIM";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_ANON_TRANSPARENT_HUGEPAGES:
+ return "VMSTAT_NR_ANON_TRANSPARENT_HUGEPAGES";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_FREE_CMA:
+ return "VMSTAT_NR_FREE_CMA";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_SWAPCACHE:
+ return "VMSTAT_NR_SWAPCACHE";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_DIRTY_THRESHOLD:
+ return "VMSTAT_NR_DIRTY_THRESHOLD";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_DIRTY_BACKGROUND_THRESHOLD:
+ return "VMSTAT_NR_DIRTY_BACKGROUND_THRESHOLD";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_PGPGIN:
+ return "VMSTAT_PGPGIN";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_PGPGOUT:
+ return "VMSTAT_PGPGOUT";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_PGPGOUTCLEAN:
+ return "VMSTAT_PGPGOUTCLEAN";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_PSWPIN:
+ return "VMSTAT_PSWPIN";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_PSWPOUT:
+ return "VMSTAT_PSWPOUT";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_PGALLOC_DMA:
+ return "VMSTAT_PGALLOC_DMA";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_PGALLOC_NORMAL:
+ return "VMSTAT_PGALLOC_NORMAL";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_PGALLOC_MOVABLE:
+ return "VMSTAT_PGALLOC_MOVABLE";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_PGFREE:
+ return "VMSTAT_PGFREE";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_PGACTIVATE:
+ return "VMSTAT_PGACTIVATE";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_PGDEACTIVATE:
+ return "VMSTAT_PGDEACTIVATE";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_PGFAULT:
+ return "VMSTAT_PGFAULT";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_PGMAJFAULT:
+ return "VMSTAT_PGMAJFAULT";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_PGREFILL_DMA:
+ return "VMSTAT_PGREFILL_DMA";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_PGREFILL_NORMAL:
+ return "VMSTAT_PGREFILL_NORMAL";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_PGREFILL_MOVABLE:
+ return "VMSTAT_PGREFILL_MOVABLE";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_PGSTEAL_KSWAPD_DMA:
+ return "VMSTAT_PGSTEAL_KSWAPD_DMA";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_PGSTEAL_KSWAPD_NORMAL:
+ return "VMSTAT_PGSTEAL_KSWAPD_NORMAL";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_PGSTEAL_KSWAPD_MOVABLE:
+ return "VMSTAT_PGSTEAL_KSWAPD_MOVABLE";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_PGSTEAL_DIRECT_DMA:
+ return "VMSTAT_PGSTEAL_DIRECT_DMA";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_PGSTEAL_DIRECT_NORMAL:
+ return "VMSTAT_PGSTEAL_DIRECT_NORMAL";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_PGSTEAL_DIRECT_MOVABLE:
+ return "VMSTAT_PGSTEAL_DIRECT_MOVABLE";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_PGSCAN_KSWAPD_DMA:
+ return "VMSTAT_PGSCAN_KSWAPD_DMA";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_PGSCAN_KSWAPD_NORMAL:
+ return "VMSTAT_PGSCAN_KSWAPD_NORMAL";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_PGSCAN_KSWAPD_MOVABLE:
+ return "VMSTAT_PGSCAN_KSWAPD_MOVABLE";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_PGSCAN_DIRECT_DMA:
+ return "VMSTAT_PGSCAN_DIRECT_DMA";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_PGSCAN_DIRECT_NORMAL:
+ return "VMSTAT_PGSCAN_DIRECT_NORMAL";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_PGSCAN_DIRECT_MOVABLE:
+ return "VMSTAT_PGSCAN_DIRECT_MOVABLE";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_PGSCAN_DIRECT_THROTTLE:
+ return "VMSTAT_PGSCAN_DIRECT_THROTTLE";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_PGINODESTEAL:
+ return "VMSTAT_PGINODESTEAL";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_SLABS_SCANNED:
+ return "VMSTAT_SLABS_SCANNED";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_KSWAPD_INODESTEAL:
+ return "VMSTAT_KSWAPD_INODESTEAL";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_KSWAPD_LOW_WMARK_HIT_QUICKLY:
+ return "VMSTAT_KSWAPD_LOW_WMARK_HIT_QUICKLY";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_KSWAPD_HIGH_WMARK_HIT_QUICKLY:
+ return "VMSTAT_KSWAPD_HIGH_WMARK_HIT_QUICKLY";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_PAGEOUTRUN:
+ return "VMSTAT_PAGEOUTRUN";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_ALLOCSTALL:
+ return "VMSTAT_ALLOCSTALL";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_PGROTATED:
+ return "VMSTAT_PGROTATED";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_DROP_PAGECACHE:
+ return "VMSTAT_DROP_PAGECACHE";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_DROP_SLAB:
+ return "VMSTAT_DROP_SLAB";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_PGMIGRATE_SUCCESS:
+ return "VMSTAT_PGMIGRATE_SUCCESS";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_PGMIGRATE_FAIL:
+ return "VMSTAT_PGMIGRATE_FAIL";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_COMPACT_MIGRATE_SCANNED:
+ return "VMSTAT_COMPACT_MIGRATE_SCANNED";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_COMPACT_FREE_SCANNED:
+ return "VMSTAT_COMPACT_FREE_SCANNED";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_COMPACT_ISOLATED:
+ return "VMSTAT_COMPACT_ISOLATED";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_COMPACT_STALL:
+ return "VMSTAT_COMPACT_STALL";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_COMPACT_FAIL:
+ return "VMSTAT_COMPACT_FAIL";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_COMPACT_SUCCESS:
+ return "VMSTAT_COMPACT_SUCCESS";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_COMPACT_DAEMON_WAKE:
+ return "VMSTAT_COMPACT_DAEMON_WAKE";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_UNEVICTABLE_PGS_CULLED:
+ return "VMSTAT_UNEVICTABLE_PGS_CULLED";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_UNEVICTABLE_PGS_SCANNED:
+ return "VMSTAT_UNEVICTABLE_PGS_SCANNED";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_UNEVICTABLE_PGS_RESCUED:
+ return "VMSTAT_UNEVICTABLE_PGS_RESCUED";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_UNEVICTABLE_PGS_MLOCKED:
+ return "VMSTAT_UNEVICTABLE_PGS_MLOCKED";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_UNEVICTABLE_PGS_MUNLOCKED:
+ return "VMSTAT_UNEVICTABLE_PGS_MUNLOCKED";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_UNEVICTABLE_PGS_CLEARED:
+ return "VMSTAT_UNEVICTABLE_PGS_CLEARED";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_UNEVICTABLE_PGS_STRANDED:
+ return "VMSTAT_UNEVICTABLE_PGS_STRANDED";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_ZSPAGES:
+ return "VMSTAT_NR_ZSPAGES";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_ION_HEAP:
+ return "VMSTAT_NR_ION_HEAP";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_GPU_HEAP:
+ return "VMSTAT_NR_GPU_HEAP";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_ALLOCSTALL_DMA:
+ return "VMSTAT_ALLOCSTALL_DMA";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_ALLOCSTALL_MOVABLE:
+ return "VMSTAT_ALLOCSTALL_MOVABLE";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_ALLOCSTALL_NORMAL:
+ return "VMSTAT_ALLOCSTALL_NORMAL";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_COMPACT_DAEMON_FREE_SCANNED:
+ return "VMSTAT_COMPACT_DAEMON_FREE_SCANNED";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_COMPACT_DAEMON_MIGRATE_SCANNED:
+ return "VMSTAT_COMPACT_DAEMON_MIGRATE_SCANNED";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_FASTRPC:
+ return "VMSTAT_NR_FASTRPC";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_INDIRECTLY_RECLAIMABLE:
+ return "VMSTAT_NR_INDIRECTLY_RECLAIMABLE";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_ION_HEAP_POOL:
+ return "VMSTAT_NR_ION_HEAP_POOL";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_KERNEL_MISC_RECLAIMABLE:
+ return "VMSTAT_NR_KERNEL_MISC_RECLAIMABLE";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_SHADOW_CALL_STACK_BYTES:
+ return "VMSTAT_NR_SHADOW_CALL_STACK_BYTES";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_SHMEM_HUGEPAGES:
+ return "VMSTAT_NR_SHMEM_HUGEPAGES";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_SHMEM_PMDMAPPED:
+ return "VMSTAT_NR_SHMEM_PMDMAPPED";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_UNRECLAIMABLE_PAGES:
+ return "VMSTAT_NR_UNRECLAIMABLE_PAGES";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_ZONE_ACTIVE_ANON:
+ return "VMSTAT_NR_ZONE_ACTIVE_ANON";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_ZONE_ACTIVE_FILE:
+ return "VMSTAT_NR_ZONE_ACTIVE_FILE";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_ZONE_INACTIVE_ANON:
+ return "VMSTAT_NR_ZONE_INACTIVE_ANON";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_ZONE_INACTIVE_FILE:
+ return "VMSTAT_NR_ZONE_INACTIVE_FILE";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_ZONE_UNEVICTABLE:
+ return "VMSTAT_NR_ZONE_UNEVICTABLE";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_ZONE_WRITE_PENDING:
+ return "VMSTAT_NR_ZONE_WRITE_PENDING";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_OOM_KILL:
+ return "VMSTAT_OOM_KILL";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_PGLAZYFREE:
+ return "VMSTAT_PGLAZYFREE";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_PGLAZYFREED:
+ return "VMSTAT_PGLAZYFREED";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_PGREFILL:
+ return "VMSTAT_PGREFILL";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_PGSCAN_DIRECT:
+ return "VMSTAT_PGSCAN_DIRECT";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_PGSCAN_KSWAPD:
+ return "VMSTAT_PGSCAN_KSWAPD";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_PGSKIP_DMA:
+ return "VMSTAT_PGSKIP_DMA";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_PGSKIP_MOVABLE:
+ return "VMSTAT_PGSKIP_MOVABLE";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_PGSKIP_NORMAL:
+ return "VMSTAT_PGSKIP_NORMAL";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_PGSTEAL_DIRECT:
+ return "VMSTAT_PGSTEAL_DIRECT";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_PGSTEAL_KSWAPD:
+ return "VMSTAT_PGSTEAL_KSWAPD";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_SWAP_RA:
+ return "VMSTAT_SWAP_RA";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_SWAP_RA_HIT:
+ return "VMSTAT_SWAP_RA_HIT";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_WORKINGSET_RESTORE:
+ return "VMSTAT_WORKINGSET_RESTORE";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_ALLOCSTALL_DEVICE:
+ return "VMSTAT_ALLOCSTALL_DEVICE";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_ALLOCSTALL_DMA32:
+ return "VMSTAT_ALLOCSTALL_DMA32";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_BALLOON_DEFLATE:
+ return "VMSTAT_BALLOON_DEFLATE";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_BALLOON_INFLATE:
+ return "VMSTAT_BALLOON_INFLATE";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_BALLOON_MIGRATE:
+ return "VMSTAT_BALLOON_MIGRATE";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_CMA_ALLOC_FAIL:
+ return "VMSTAT_CMA_ALLOC_FAIL";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_CMA_ALLOC_SUCCESS:
+ return "VMSTAT_CMA_ALLOC_SUCCESS";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_FILE_HUGEPAGES:
+ return "VMSTAT_NR_FILE_HUGEPAGES";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_FILE_PMDMAPPED:
+ return "VMSTAT_NR_FILE_PMDMAPPED";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_FOLL_PIN_ACQUIRED:
+ return "VMSTAT_NR_FOLL_PIN_ACQUIRED";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_FOLL_PIN_RELEASED:
+ return "VMSTAT_NR_FOLL_PIN_RELEASED";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_SEC_PAGE_TABLE_PAGES:
+ return "VMSTAT_NR_SEC_PAGE_TABLE_PAGES";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_SHADOW_CALL_STACK:
+ return "VMSTAT_NR_SHADOW_CALL_STACK";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_SWAPCACHED:
+ return "VMSTAT_NR_SWAPCACHED";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_NR_THROTTLED_WRITTEN:
+ return "VMSTAT_NR_THROTTLED_WRITTEN";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_PGALLOC_DEVICE:
+ return "VMSTAT_PGALLOC_DEVICE";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_PGALLOC_DMA32:
+ return "VMSTAT_PGALLOC_DMA32";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_PGDEMOTE_DIRECT:
+ return "VMSTAT_PGDEMOTE_DIRECT";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_PGDEMOTE_KSWAPD:
+ return "VMSTAT_PGDEMOTE_KSWAPD";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_PGREUSE:
+ return "VMSTAT_PGREUSE";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_PGSCAN_ANON:
+ return "VMSTAT_PGSCAN_ANON";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_PGSCAN_FILE:
+ return "VMSTAT_PGSCAN_FILE";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_PGSKIP_DEVICE:
+ return "VMSTAT_PGSKIP_DEVICE";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_PGSKIP_DMA32:
+ return "VMSTAT_PGSKIP_DMA32";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_PGSTEAL_ANON:
+ return "VMSTAT_PGSTEAL_ANON";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_PGSTEAL_FILE:
+ return "VMSTAT_PGSTEAL_FILE";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_THP_COLLAPSE_ALLOC:
+ return "VMSTAT_THP_COLLAPSE_ALLOC";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_THP_COLLAPSE_ALLOC_FAILED:
+ return "VMSTAT_THP_COLLAPSE_ALLOC_FAILED";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_THP_DEFERRED_SPLIT_PAGE:
+ return "VMSTAT_THP_DEFERRED_SPLIT_PAGE";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_THP_FAULT_ALLOC:
+ return "VMSTAT_THP_FAULT_ALLOC";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_THP_FAULT_FALLBACK:
+ return "VMSTAT_THP_FAULT_FALLBACK";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_THP_FAULT_FALLBACK_CHARGE:
+ return "VMSTAT_THP_FAULT_FALLBACK_CHARGE";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_THP_FILE_ALLOC:
+ return "VMSTAT_THP_FILE_ALLOC";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_THP_FILE_FALLBACK:
+ return "VMSTAT_THP_FILE_FALLBACK";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_THP_FILE_FALLBACK_CHARGE:
+ return "VMSTAT_THP_FILE_FALLBACK_CHARGE";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_THP_FILE_MAPPED:
+ return "VMSTAT_THP_FILE_MAPPED";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_THP_MIGRATION_FAIL:
+ return "VMSTAT_THP_MIGRATION_FAIL";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_THP_MIGRATION_SPLIT:
+ return "VMSTAT_THP_MIGRATION_SPLIT";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_THP_MIGRATION_SUCCESS:
+ return "VMSTAT_THP_MIGRATION_SUCCESS";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_THP_SCAN_EXCEED_NONE_PTE:
+ return "VMSTAT_THP_SCAN_EXCEED_NONE_PTE";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_THP_SCAN_EXCEED_SHARE_PTE:
+ return "VMSTAT_THP_SCAN_EXCEED_SHARE_PTE";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_THP_SCAN_EXCEED_SWAP_PTE:
+ return "VMSTAT_THP_SCAN_EXCEED_SWAP_PTE";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_THP_SPLIT_PAGE:
+ return "VMSTAT_THP_SPLIT_PAGE";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_THP_SPLIT_PAGE_FAILED:
+ return "VMSTAT_THP_SPLIT_PAGE_FAILED";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_THP_SPLIT_PMD:
+ return "VMSTAT_THP_SPLIT_PMD";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_THP_SWPOUT:
+ return "VMSTAT_THP_SWPOUT";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_THP_SWPOUT_FALLBACK:
+ return "VMSTAT_THP_SWPOUT_FALLBACK";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_THP_ZERO_PAGE_ALLOC:
+ return "VMSTAT_THP_ZERO_PAGE_ALLOC";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_THP_ZERO_PAGE_ALLOC_FAILED:
+ return "VMSTAT_THP_ZERO_PAGE_ALLOC_FAILED";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_VMA_LOCK_ABORT:
+ return "VMSTAT_VMA_LOCK_ABORT";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_VMA_LOCK_MISS:
+ return "VMSTAT_VMA_LOCK_MISS";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_VMA_LOCK_RETRY:
+ return "VMSTAT_VMA_LOCK_RETRY";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_VMA_LOCK_SUCCESS:
+ return "VMSTAT_VMA_LOCK_SUCCESS";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_WORKINGSET_ACTIVATE_ANON:
+ return "VMSTAT_WORKINGSET_ACTIVATE_ANON";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_WORKINGSET_ACTIVATE_FILE:
+ return "VMSTAT_WORKINGSET_ACTIVATE_FILE";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_WORKINGSET_NODES:
+ return "VMSTAT_WORKINGSET_NODES";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_WORKINGSET_REFAULT_ANON:
+ return "VMSTAT_WORKINGSET_REFAULT_ANON";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_WORKINGSET_REFAULT_FILE:
+ return "VMSTAT_WORKINGSET_REFAULT_FILE";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_WORKINGSET_RESTORE_ANON:
+ return "VMSTAT_WORKINGSET_RESTORE_ANON";
+
+ case ::perfetto::protos::pbzero::VmstatCounters::VMSTAT_WORKINGSET_RESTORE_FILE:
+ return "VMSTAT_WORKINGSET_RESTORE_FILE";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/common/trace_stats.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_TRACE_STATS_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_TRACE_STATS_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class TraceStats_BufferStats;
+class TraceStats_FilterStats;
+class TraceStats_WriterStats;
+namespace perfetto_pbzero_enum_TraceStats {
+enum FinalFlushOutcome : int32_t;
+} // namespace perfetto_pbzero_enum_TraceStats
+using TraceStats_FinalFlushOutcome = perfetto_pbzero_enum_TraceStats::FinalFlushOutcome;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+namespace perfetto_pbzero_enum_TraceStats {
+enum FinalFlushOutcome : int32_t {
+ FINAL_FLUSH_UNSPECIFIED = 0,
+ FINAL_FLUSH_SUCCEEDED = 1,
+ FINAL_FLUSH_FAILED = 2,
+};
+} // namespace perfetto_pbzero_enum_TraceStats
+using TraceStats_FinalFlushOutcome = perfetto_pbzero_enum_TraceStats::FinalFlushOutcome;
+
+
+constexpr TraceStats_FinalFlushOutcome TraceStats_FinalFlushOutcome_MIN = TraceStats_FinalFlushOutcome::FINAL_FLUSH_UNSPECIFIED;
+constexpr TraceStats_FinalFlushOutcome TraceStats_FinalFlushOutcome_MAX = TraceStats_FinalFlushOutcome::FINAL_FLUSH_FAILED;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* TraceStats_FinalFlushOutcome_Name(::perfetto::protos::pbzero::TraceStats_FinalFlushOutcome value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::TraceStats_FinalFlushOutcome::FINAL_FLUSH_UNSPECIFIED:
+ return "FINAL_FLUSH_UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::TraceStats_FinalFlushOutcome::FINAL_FLUSH_SUCCEEDED:
+ return "FINAL_FLUSH_SUCCEEDED";
+
+ case ::perfetto::protos::pbzero::TraceStats_FinalFlushOutcome::FINAL_FLUSH_FAILED:
+ return "FINAL_FLUSH_FAILED";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+class TraceStats_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/18, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ TraceStats_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TraceStats_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TraceStats_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_buffer_stats() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> buffer_stats() const { return GetRepeated<::protozero::ConstBytes>(1); }
+ bool has_chunk_payload_histogram_def() const { return at<17>().valid(); }
+ ::protozero::RepeatedFieldIterator<int64_t> chunk_payload_histogram_def() const { return GetRepeated<int64_t>(17); }
+ bool has_writer_stats() const { return at<18>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> writer_stats() const { return GetRepeated<::protozero::ConstBytes>(18); }
+ bool has_producers_connected() const { return at<2>().valid(); }
+ uint32_t producers_connected() const { return at<2>().as_uint32(); }
+ bool has_producers_seen() const { return at<3>().valid(); }
+ uint64_t producers_seen() const { return at<3>().as_uint64(); }
+ bool has_data_sources_registered() const { return at<4>().valid(); }
+ uint32_t data_sources_registered() const { return at<4>().as_uint32(); }
+ bool has_data_sources_seen() const { return at<5>().valid(); }
+ uint64_t data_sources_seen() const { return at<5>().as_uint64(); }
+ bool has_tracing_sessions() const { return at<6>().valid(); }
+ uint32_t tracing_sessions() const { return at<6>().as_uint32(); }
+ bool has_total_buffers() const { return at<7>().valid(); }
+ uint32_t total_buffers() const { return at<7>().as_uint32(); }
+ bool has_chunks_discarded() const { return at<8>().valid(); }
+ uint64_t chunks_discarded() const { return at<8>().as_uint64(); }
+ bool has_patches_discarded() const { return at<9>().valid(); }
+ uint64_t patches_discarded() const { return at<9>().as_uint64(); }
+ bool has_invalid_packets() const { return at<10>().valid(); }
+ uint64_t invalid_packets() const { return at<10>().as_uint64(); }
+ bool has_filter_stats() const { return at<11>().valid(); }
+ ::protozero::ConstBytes filter_stats() const { return at<11>().as_bytes(); }
+ bool has_flushes_requested() const { return at<12>().valid(); }
+ uint64_t flushes_requested() const { return at<12>().as_uint64(); }
+ bool has_flushes_succeeded() const { return at<13>().valid(); }
+ uint64_t flushes_succeeded() const { return at<13>().as_uint64(); }
+ bool has_flushes_failed() const { return at<14>().valid(); }
+ uint64_t flushes_failed() const { return at<14>().as_uint64(); }
+ bool has_final_flush_outcome() const { return at<15>().valid(); }
+ int32_t final_flush_outcome() const { return at<15>().as_int32(); }
+};
+
+class TraceStats : public ::protozero::Message {
+ public:
+ using Decoder = TraceStats_Decoder;
+ enum : int32_t {
+ kBufferStatsFieldNumber = 1,
+ kChunkPayloadHistogramDefFieldNumber = 17,
+ kWriterStatsFieldNumber = 18,
+ kProducersConnectedFieldNumber = 2,
+ kProducersSeenFieldNumber = 3,
+ kDataSourcesRegisteredFieldNumber = 4,
+ kDataSourcesSeenFieldNumber = 5,
+ kTracingSessionsFieldNumber = 6,
+ kTotalBuffersFieldNumber = 7,
+ kChunksDiscardedFieldNumber = 8,
+ kPatchesDiscardedFieldNumber = 9,
+ kInvalidPacketsFieldNumber = 10,
+ kFilterStatsFieldNumber = 11,
+ kFlushesRequestedFieldNumber = 12,
+ kFlushesSucceededFieldNumber = 13,
+ kFlushesFailedFieldNumber = 14,
+ kFinalFlushOutcomeFieldNumber = 15,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TraceStats"; }
+
+ using BufferStats = ::perfetto::protos::pbzero::TraceStats_BufferStats;
+ using WriterStats = ::perfetto::protos::pbzero::TraceStats_WriterStats;
+ using FilterStats = ::perfetto::protos::pbzero::TraceStats_FilterStats;
+
+ using FinalFlushOutcome = ::perfetto::protos::pbzero::TraceStats_FinalFlushOutcome;
+ static inline const char* FinalFlushOutcome_Name(FinalFlushOutcome value) {
+ return ::perfetto::protos::pbzero::TraceStats_FinalFlushOutcome_Name(value);
+ }
+ static inline const FinalFlushOutcome FINAL_FLUSH_UNSPECIFIED = FinalFlushOutcome::FINAL_FLUSH_UNSPECIFIED;
+ static inline const FinalFlushOutcome FINAL_FLUSH_SUCCEEDED = FinalFlushOutcome::FINAL_FLUSH_SUCCEEDED;
+ static inline const FinalFlushOutcome FINAL_FLUSH_FAILED = FinalFlushOutcome::FINAL_FLUSH_FAILED;
+
+ using FieldMetadata_BufferStats =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TraceStats_BufferStats,
+ TraceStats>;
+
+ static constexpr FieldMetadata_BufferStats kBufferStats{};
+ template <typename T = TraceStats_BufferStats> T* add_buffer_stats() {
+ return BeginNestedMessage<T>(1);
+ }
+
+
+ using FieldMetadata_ChunkPayloadHistogramDef =
+ ::protozero::proto_utils::FieldMetadata<
+ 17,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ TraceStats>;
+
+ static constexpr FieldMetadata_ChunkPayloadHistogramDef kChunkPayloadHistogramDef{};
+ void add_chunk_payload_histogram_def(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ChunkPayloadHistogramDef::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_WriterStats =
+ ::protozero::proto_utils::FieldMetadata<
+ 18,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TraceStats_WriterStats,
+ TraceStats>;
+
+ static constexpr FieldMetadata_WriterStats kWriterStats{};
+ template <typename T = TraceStats_WriterStats> T* add_writer_stats() {
+ return BeginNestedMessage<T>(18);
+ }
+
+
+ using FieldMetadata_ProducersConnected =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TraceStats>;
+
+ static constexpr FieldMetadata_ProducersConnected kProducersConnected{};
+ void set_producers_connected(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ProducersConnected::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ProducersSeen =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TraceStats>;
+
+ static constexpr FieldMetadata_ProducersSeen kProducersSeen{};
+ void set_producers_seen(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ProducersSeen::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DataSourcesRegistered =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TraceStats>;
+
+ static constexpr FieldMetadata_DataSourcesRegistered kDataSourcesRegistered{};
+ void set_data_sources_registered(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DataSourcesRegistered::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DataSourcesSeen =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TraceStats>;
+
+ static constexpr FieldMetadata_DataSourcesSeen kDataSourcesSeen{};
+ void set_data_sources_seen(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DataSourcesSeen::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TracingSessions =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TraceStats>;
+
+ static constexpr FieldMetadata_TracingSessions kTracingSessions{};
+ void set_tracing_sessions(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TracingSessions::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TotalBuffers =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TraceStats>;
+
+ static constexpr FieldMetadata_TotalBuffers kTotalBuffers{};
+ void set_total_buffers(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TotalBuffers::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ChunksDiscarded =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TraceStats>;
+
+ static constexpr FieldMetadata_ChunksDiscarded kChunksDiscarded{};
+ void set_chunks_discarded(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ChunksDiscarded::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PatchesDiscarded =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TraceStats>;
+
+ static constexpr FieldMetadata_PatchesDiscarded kPatchesDiscarded{};
+ void set_patches_discarded(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PatchesDiscarded::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_InvalidPackets =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TraceStats>;
+
+ static constexpr FieldMetadata_InvalidPackets kInvalidPackets{};
+ void set_invalid_packets(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_InvalidPackets::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FilterStats =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TraceStats_FilterStats,
+ TraceStats>;
+
+ static constexpr FieldMetadata_FilterStats kFilterStats{};
+ template <typename T = TraceStats_FilterStats> T* set_filter_stats() {
+ return BeginNestedMessage<T>(11);
+ }
+
+
+ using FieldMetadata_FlushesRequested =
+ ::protozero::proto_utils::FieldMetadata<
+ 12,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TraceStats>;
+
+ static constexpr FieldMetadata_FlushesRequested kFlushesRequested{};
+ void set_flushes_requested(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FlushesRequested::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FlushesSucceeded =
+ ::protozero::proto_utils::FieldMetadata<
+ 13,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TraceStats>;
+
+ static constexpr FieldMetadata_FlushesSucceeded kFlushesSucceeded{};
+ void set_flushes_succeeded(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FlushesSucceeded::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FlushesFailed =
+ ::protozero::proto_utils::FieldMetadata<
+ 14,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TraceStats>;
+
+ static constexpr FieldMetadata_FlushesFailed kFlushesFailed{};
+ void set_flushes_failed(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FlushesFailed::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FinalFlushOutcome =
+ ::protozero::proto_utils::FieldMetadata<
+ 15,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ TraceStats_FinalFlushOutcome,
+ TraceStats>;
+
+ static constexpr FieldMetadata_FinalFlushOutcome kFinalFlushOutcome{};
+ void set_final_flush_outcome(TraceStats_FinalFlushOutcome value) {
+ static constexpr uint32_t field_id = FieldMetadata_FinalFlushOutcome::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class TraceStats_FilterStats_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/20, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ TraceStats_FilterStats_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TraceStats_FilterStats_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TraceStats_FilterStats_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_input_packets() const { return at<1>().valid(); }
+ uint64_t input_packets() const { return at<1>().as_uint64(); }
+ bool has_input_bytes() const { return at<2>().valid(); }
+ uint64_t input_bytes() const { return at<2>().as_uint64(); }
+ bool has_output_bytes() const { return at<3>().valid(); }
+ uint64_t output_bytes() const { return at<3>().as_uint64(); }
+ bool has_errors() const { return at<4>().valid(); }
+ uint64_t errors() const { return at<4>().as_uint64(); }
+ bool has_time_taken_ns() const { return at<5>().valid(); }
+ uint64_t time_taken_ns() const { return at<5>().as_uint64(); }
+ bool has_bytes_discarded_per_buffer() const { return at<20>().valid(); }
+ ::protozero::RepeatedFieldIterator<uint64_t> bytes_discarded_per_buffer() const { return GetRepeated<uint64_t>(20); }
+};
+
+class TraceStats_FilterStats : public ::protozero::Message {
+ public:
+ using Decoder = TraceStats_FilterStats_Decoder;
+ enum : int32_t {
+ kInputPacketsFieldNumber = 1,
+ kInputBytesFieldNumber = 2,
+ kOutputBytesFieldNumber = 3,
+ kErrorsFieldNumber = 4,
+ kTimeTakenNsFieldNumber = 5,
+ kBytesDiscardedPerBufferFieldNumber = 20,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TraceStats.FilterStats"; }
+
+
+ using FieldMetadata_InputPackets =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TraceStats_FilterStats>;
+
+ static constexpr FieldMetadata_InputPackets kInputPackets{};
+ void set_input_packets(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_InputPackets::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_InputBytes =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TraceStats_FilterStats>;
+
+ static constexpr FieldMetadata_InputBytes kInputBytes{};
+ void set_input_bytes(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_InputBytes::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_OutputBytes =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TraceStats_FilterStats>;
+
+ static constexpr FieldMetadata_OutputBytes kOutputBytes{};
+ void set_output_bytes(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_OutputBytes::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Errors =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TraceStats_FilterStats>;
+
+ static constexpr FieldMetadata_Errors kErrors{};
+ void set_errors(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Errors::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimeTakenNs =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TraceStats_FilterStats>;
+
+ static constexpr FieldMetadata_TimeTakenNs kTimeTakenNs{};
+ void set_time_taken_ns(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimeTakenNs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BytesDiscardedPerBuffer =
+ ::protozero::proto_utils::FieldMetadata<
+ 20,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TraceStats_FilterStats>;
+
+ static constexpr FieldMetadata_BytesDiscardedPerBuffer kBytesDiscardedPerBuffer{};
+ void add_bytes_discarded_per_buffer(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BytesDiscardedPerBuffer::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class TraceStats_WriterStats_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ TraceStats_WriterStats_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TraceStats_WriterStats_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TraceStats_WriterStats_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_sequence_id() const { return at<1>().valid(); }
+ uint64_t sequence_id() const { return at<1>().as_uint64(); }
+ bool has_buffer() const { return at<4>().valid(); }
+ uint32_t buffer() const { return at<4>().as_uint32(); }
+ bool has_chunk_payload_histogram_counts() const { return at<2>().valid(); }
+ ::protozero::PackedRepeatedFieldIterator<::protozero::proto_utils::ProtoWireType::kVarInt, uint64_t> chunk_payload_histogram_counts(bool* parse_error_ptr) const { return GetPackedRepeated<::protozero::proto_utils::ProtoWireType::kVarInt, uint64_t>(2, parse_error_ptr); }
+ bool has_chunk_payload_histogram_sum() const { return at<3>().valid(); }
+ ::protozero::PackedRepeatedFieldIterator<::protozero::proto_utils::ProtoWireType::kVarInt, int64_t> chunk_payload_histogram_sum(bool* parse_error_ptr) const { return GetPackedRepeated<::protozero::proto_utils::ProtoWireType::kVarInt, int64_t>(3, parse_error_ptr); }
+};
+
+class TraceStats_WriterStats : public ::protozero::Message {
+ public:
+ using Decoder = TraceStats_WriterStats_Decoder;
+ enum : int32_t {
+ kSequenceIdFieldNumber = 1,
+ kBufferFieldNumber = 4,
+ kChunkPayloadHistogramCountsFieldNumber = 2,
+ kChunkPayloadHistogramSumFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TraceStats.WriterStats"; }
+
+
+ using FieldMetadata_SequenceId =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TraceStats_WriterStats>;
+
+ static constexpr FieldMetadata_SequenceId kSequenceId{};
+ void set_sequence_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SequenceId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Buffer =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TraceStats_WriterStats>;
+
+ static constexpr FieldMetadata_Buffer kBuffer{};
+ void set_buffer(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Buffer::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ChunkPayloadHistogramCounts =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TraceStats_WriterStats>;
+
+ static constexpr FieldMetadata_ChunkPayloadHistogramCounts kChunkPayloadHistogramCounts{};
+ void set_chunk_payload_histogram_counts(const ::protozero::PackedVarInt& packed_buffer) {
+ AppendBytes(FieldMetadata_ChunkPayloadHistogramCounts::kFieldId, packed_buffer.data(),
+ packed_buffer.size());
+ }
+
+ using FieldMetadata_ChunkPayloadHistogramSum =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kRepeatedPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ TraceStats_WriterStats>;
+
+ static constexpr FieldMetadata_ChunkPayloadHistogramSum kChunkPayloadHistogramSum{};
+ void set_chunk_payload_histogram_sum(const ::protozero::PackedVarInt& packed_buffer) {
+ AppendBytes(FieldMetadata_ChunkPayloadHistogramSum::kFieldId, packed_buffer.data(),
+ packed_buffer.size());
+ }
+};
+
+class TraceStats_BufferStats_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/19, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ TraceStats_BufferStats_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TraceStats_BufferStats_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TraceStats_BufferStats_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_buffer_size() const { return at<12>().valid(); }
+ uint64_t buffer_size() const { return at<12>().as_uint64(); }
+ bool has_bytes_written() const { return at<1>().valid(); }
+ uint64_t bytes_written() const { return at<1>().as_uint64(); }
+ bool has_bytes_overwritten() const { return at<13>().valid(); }
+ uint64_t bytes_overwritten() const { return at<13>().as_uint64(); }
+ bool has_bytes_read() const { return at<14>().valid(); }
+ uint64_t bytes_read() const { return at<14>().as_uint64(); }
+ bool has_padding_bytes_written() const { return at<15>().valid(); }
+ uint64_t padding_bytes_written() const { return at<15>().as_uint64(); }
+ bool has_padding_bytes_cleared() const { return at<16>().valid(); }
+ uint64_t padding_bytes_cleared() const { return at<16>().as_uint64(); }
+ bool has_chunks_written() const { return at<2>().valid(); }
+ uint64_t chunks_written() const { return at<2>().as_uint64(); }
+ bool has_chunks_rewritten() const { return at<10>().valid(); }
+ uint64_t chunks_rewritten() const { return at<10>().as_uint64(); }
+ bool has_chunks_overwritten() const { return at<3>().valid(); }
+ uint64_t chunks_overwritten() const { return at<3>().as_uint64(); }
+ bool has_chunks_discarded() const { return at<18>().valid(); }
+ uint64_t chunks_discarded() const { return at<18>().as_uint64(); }
+ bool has_chunks_read() const { return at<17>().valid(); }
+ uint64_t chunks_read() const { return at<17>().as_uint64(); }
+ bool has_chunks_committed_out_of_order() const { return at<11>().valid(); }
+ uint64_t chunks_committed_out_of_order() const { return at<11>().as_uint64(); }
+ bool has_write_wrap_count() const { return at<4>().valid(); }
+ uint64_t write_wrap_count() const { return at<4>().as_uint64(); }
+ bool has_patches_succeeded() const { return at<5>().valid(); }
+ uint64_t patches_succeeded() const { return at<5>().as_uint64(); }
+ bool has_patches_failed() const { return at<6>().valid(); }
+ uint64_t patches_failed() const { return at<6>().as_uint64(); }
+ bool has_readaheads_succeeded() const { return at<7>().valid(); }
+ uint64_t readaheads_succeeded() const { return at<7>().as_uint64(); }
+ bool has_readaheads_failed() const { return at<8>().valid(); }
+ uint64_t readaheads_failed() const { return at<8>().as_uint64(); }
+ bool has_abi_violations() const { return at<9>().valid(); }
+ uint64_t abi_violations() const { return at<9>().as_uint64(); }
+ bool has_trace_writer_packet_loss() const { return at<19>().valid(); }
+ uint64_t trace_writer_packet_loss() const { return at<19>().as_uint64(); }
+};
+
+class TraceStats_BufferStats : public ::protozero::Message {
+ public:
+ using Decoder = TraceStats_BufferStats_Decoder;
+ enum : int32_t {
+ kBufferSizeFieldNumber = 12,
+ kBytesWrittenFieldNumber = 1,
+ kBytesOverwrittenFieldNumber = 13,
+ kBytesReadFieldNumber = 14,
+ kPaddingBytesWrittenFieldNumber = 15,
+ kPaddingBytesClearedFieldNumber = 16,
+ kChunksWrittenFieldNumber = 2,
+ kChunksRewrittenFieldNumber = 10,
+ kChunksOverwrittenFieldNumber = 3,
+ kChunksDiscardedFieldNumber = 18,
+ kChunksReadFieldNumber = 17,
+ kChunksCommittedOutOfOrderFieldNumber = 11,
+ kWriteWrapCountFieldNumber = 4,
+ kPatchesSucceededFieldNumber = 5,
+ kPatchesFailedFieldNumber = 6,
+ kReadaheadsSucceededFieldNumber = 7,
+ kReadaheadsFailedFieldNumber = 8,
+ kAbiViolationsFieldNumber = 9,
+ kTraceWriterPacketLossFieldNumber = 19,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TraceStats.BufferStats"; }
+
+
+ using FieldMetadata_BufferSize =
+ ::protozero::proto_utils::FieldMetadata<
+ 12,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TraceStats_BufferStats>;
+
+ static constexpr FieldMetadata_BufferSize kBufferSize{};
+ void set_buffer_size(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BufferSize::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BytesWritten =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TraceStats_BufferStats>;
+
+ static constexpr FieldMetadata_BytesWritten kBytesWritten{};
+ void set_bytes_written(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BytesWritten::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BytesOverwritten =
+ ::protozero::proto_utils::FieldMetadata<
+ 13,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TraceStats_BufferStats>;
+
+ static constexpr FieldMetadata_BytesOverwritten kBytesOverwritten{};
+ void set_bytes_overwritten(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BytesOverwritten::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BytesRead =
+ ::protozero::proto_utils::FieldMetadata<
+ 14,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TraceStats_BufferStats>;
+
+ static constexpr FieldMetadata_BytesRead kBytesRead{};
+ void set_bytes_read(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BytesRead::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PaddingBytesWritten =
+ ::protozero::proto_utils::FieldMetadata<
+ 15,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TraceStats_BufferStats>;
+
+ static constexpr FieldMetadata_PaddingBytesWritten kPaddingBytesWritten{};
+ void set_padding_bytes_written(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PaddingBytesWritten::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PaddingBytesCleared =
+ ::protozero::proto_utils::FieldMetadata<
+ 16,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TraceStats_BufferStats>;
+
+ static constexpr FieldMetadata_PaddingBytesCleared kPaddingBytesCleared{};
+ void set_padding_bytes_cleared(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PaddingBytesCleared::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ChunksWritten =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TraceStats_BufferStats>;
+
+ static constexpr FieldMetadata_ChunksWritten kChunksWritten{};
+ void set_chunks_written(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ChunksWritten::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ChunksRewritten =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TraceStats_BufferStats>;
+
+ static constexpr FieldMetadata_ChunksRewritten kChunksRewritten{};
+ void set_chunks_rewritten(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ChunksRewritten::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ChunksOverwritten =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TraceStats_BufferStats>;
+
+ static constexpr FieldMetadata_ChunksOverwritten kChunksOverwritten{};
+ void set_chunks_overwritten(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ChunksOverwritten::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ChunksDiscarded =
+ ::protozero::proto_utils::FieldMetadata<
+ 18,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TraceStats_BufferStats>;
+
+ static constexpr FieldMetadata_ChunksDiscarded kChunksDiscarded{};
+ void set_chunks_discarded(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ChunksDiscarded::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ChunksRead =
+ ::protozero::proto_utils::FieldMetadata<
+ 17,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TraceStats_BufferStats>;
+
+ static constexpr FieldMetadata_ChunksRead kChunksRead{};
+ void set_chunks_read(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ChunksRead::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ChunksCommittedOutOfOrder =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TraceStats_BufferStats>;
+
+ static constexpr FieldMetadata_ChunksCommittedOutOfOrder kChunksCommittedOutOfOrder{};
+ void set_chunks_committed_out_of_order(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ChunksCommittedOutOfOrder::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_WriteWrapCount =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TraceStats_BufferStats>;
+
+ static constexpr FieldMetadata_WriteWrapCount kWriteWrapCount{};
+ void set_write_wrap_count(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_WriteWrapCount::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PatchesSucceeded =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TraceStats_BufferStats>;
+
+ static constexpr FieldMetadata_PatchesSucceeded kPatchesSucceeded{};
+ void set_patches_succeeded(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PatchesSucceeded::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PatchesFailed =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TraceStats_BufferStats>;
+
+ static constexpr FieldMetadata_PatchesFailed kPatchesFailed{};
+ void set_patches_failed(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PatchesFailed::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ReadaheadsSucceeded =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TraceStats_BufferStats>;
+
+ static constexpr FieldMetadata_ReadaheadsSucceeded kReadaheadsSucceeded{};
+ void set_readaheads_succeeded(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ReadaheadsSucceeded::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ReadaheadsFailed =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TraceStats_BufferStats>;
+
+ static constexpr FieldMetadata_ReadaheadsFailed kReadaheadsFailed{};
+ void set_readaheads_failed(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ReadaheadsFailed::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_AbiViolations =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TraceStats_BufferStats>;
+
+ static constexpr FieldMetadata_AbiViolations kAbiViolations{};
+ void set_abi_violations(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_AbiViolations::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TraceWriterPacketLoss =
+ ::protozero::proto_utils::FieldMetadata<
+ 19,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TraceStats_BufferStats>;
+
+ static constexpr FieldMetadata_TraceWriterPacketLoss kTraceWriterPacketLoss{};
+ void set_trace_writer_packet_loss(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TraceWriterPacketLoss::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/common/tracing_service_capabilities.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_TRACING_SERVICE_CAPABILITIES_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_TRACING_SERVICE_CAPABILITIES_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+namespace perfetto_pbzero_enum_ObservableEvents {
+enum Type : int32_t;
+} // namespace perfetto_pbzero_enum_ObservableEvents
+using ObservableEvents_Type = perfetto_pbzero_enum_ObservableEvents::Type;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class TracingServiceCapabilities_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ TracingServiceCapabilities_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TracingServiceCapabilities_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TracingServiceCapabilities_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_has_query_capabilities() const { return at<1>().valid(); }
+ bool has_query_capabilities() const { return at<1>().as_bool(); }
+ bool has_observable_events() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<int32_t> observable_events() const { return GetRepeated<int32_t>(2); }
+ bool has_has_trace_config_output_path() const { return at<3>().valid(); }
+ bool has_trace_config_output_path() const { return at<3>().as_bool(); }
+ bool has_has_clone_session() const { return at<4>().valid(); }
+ bool has_clone_session() const { return at<4>().as_bool(); }
+};
+
+class TracingServiceCapabilities : public ::protozero::Message {
+ public:
+ using Decoder = TracingServiceCapabilities_Decoder;
+ enum : int32_t {
+ kHasQueryCapabilitiesFieldNumber = 1,
+ kObservableEventsFieldNumber = 2,
+ kHasTraceConfigOutputPathFieldNumber = 3,
+ kHasCloneSessionFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TracingServiceCapabilities"; }
+
+
+ using FieldMetadata_HasQueryCapabilities =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ TracingServiceCapabilities>;
+
+ static constexpr FieldMetadata_HasQueryCapabilities kHasQueryCapabilities{};
+ void set_has_query_capabilities(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_HasQueryCapabilities::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ObservableEvents =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ ObservableEvents_Type,
+ TracingServiceCapabilities>;
+
+ static constexpr FieldMetadata_ObservableEvents kObservableEvents{};
+ void add_observable_events(ObservableEvents_Type value) {
+ static constexpr uint32_t field_id = FieldMetadata_ObservableEvents::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_HasTraceConfigOutputPath =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ TracingServiceCapabilities>;
+
+ static constexpr FieldMetadata_HasTraceConfigOutputPath kHasTraceConfigOutputPath{};
+ void set_has_trace_config_output_path(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_HasTraceConfigOutputPath::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_HasCloneSession =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ TracingServiceCapabilities>;
+
+ static constexpr FieldMetadata_HasCloneSession kHasCloneSession{};
+ void set_has_clone_session(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_HasCloneSession::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/common/tracing_service_state.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_TRACING_SERVICE_STATE_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_TRACING_SERVICE_STATE_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class DataSourceDescriptor;
+class TracingServiceState_DataSource;
+class TracingServiceState_Producer;
+class TracingServiceState_TracingSession;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class TracingServiceState_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/7, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ TracingServiceState_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TracingServiceState_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TracingServiceState_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_producers() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> producers() const { return GetRepeated<::protozero::ConstBytes>(1); }
+ bool has_data_sources() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> data_sources() const { return GetRepeated<::protozero::ConstBytes>(2); }
+ bool has_tracing_sessions() const { return at<6>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> tracing_sessions() const { return GetRepeated<::protozero::ConstBytes>(6); }
+ bool has_supports_tracing_sessions() const { return at<7>().valid(); }
+ bool supports_tracing_sessions() const { return at<7>().as_bool(); }
+ bool has_num_sessions() const { return at<3>().valid(); }
+ int32_t num_sessions() const { return at<3>().as_int32(); }
+ bool has_num_sessions_started() const { return at<4>().valid(); }
+ int32_t num_sessions_started() const { return at<4>().as_int32(); }
+ bool has_tracing_service_version() const { return at<5>().valid(); }
+ ::protozero::ConstChars tracing_service_version() const { return at<5>().as_string(); }
+};
+
+class TracingServiceState : public ::protozero::Message {
+ public:
+ using Decoder = TracingServiceState_Decoder;
+ enum : int32_t {
+ kProducersFieldNumber = 1,
+ kDataSourcesFieldNumber = 2,
+ kTracingSessionsFieldNumber = 6,
+ kSupportsTracingSessionsFieldNumber = 7,
+ kNumSessionsFieldNumber = 3,
+ kNumSessionsStartedFieldNumber = 4,
+ kTracingServiceVersionFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TracingServiceState"; }
+
+ using Producer = ::perfetto::protos::pbzero::TracingServiceState_Producer;
+ using DataSource = ::perfetto::protos::pbzero::TracingServiceState_DataSource;
+ using TracingSession = ::perfetto::protos::pbzero::TracingServiceState_TracingSession;
+
+ using FieldMetadata_Producers =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TracingServiceState_Producer,
+ TracingServiceState>;
+
+ static constexpr FieldMetadata_Producers kProducers{};
+ template <typename T = TracingServiceState_Producer> T* add_producers() {
+ return BeginNestedMessage<T>(1);
+ }
+
+
+ using FieldMetadata_DataSources =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TracingServiceState_DataSource,
+ TracingServiceState>;
+
+ static constexpr FieldMetadata_DataSources kDataSources{};
+ template <typename T = TracingServiceState_DataSource> T* add_data_sources() {
+ return BeginNestedMessage<T>(2);
+ }
+
+
+ using FieldMetadata_TracingSessions =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TracingServiceState_TracingSession,
+ TracingServiceState>;
+
+ static constexpr FieldMetadata_TracingSessions kTracingSessions{};
+ template <typename T = TracingServiceState_TracingSession> T* add_tracing_sessions() {
+ return BeginNestedMessage<T>(6);
+ }
+
+
+ using FieldMetadata_SupportsTracingSessions =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ TracingServiceState>;
+
+ static constexpr FieldMetadata_SupportsTracingSessions kSupportsTracingSessions{};
+ void set_supports_tracing_sessions(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_SupportsTracingSessions::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NumSessions =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ TracingServiceState>;
+
+ static constexpr FieldMetadata_NumSessions kNumSessions{};
+ void set_num_sessions(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NumSessions::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NumSessionsStarted =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ TracingServiceState>;
+
+ static constexpr FieldMetadata_NumSessionsStarted kNumSessionsStarted{};
+ void set_num_sessions_started(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NumSessionsStarted::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TracingServiceVersion =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ TracingServiceState>;
+
+ static constexpr FieldMetadata_TracingServiceVersion kTracingServiceVersion{};
+ void set_tracing_service_version(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_TracingServiceVersion::kFieldId, data, size);
+ }
+ void set_tracing_service_version(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_TracingServiceVersion::kFieldId, chars.data, chars.size);
+ }
+ void set_tracing_service_version(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_TracingServiceVersion::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class TracingServiceState_TracingSession_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/11, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ TracingServiceState_TracingSession_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TracingServiceState_TracingSession_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TracingServiceState_TracingSession_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_id() const { return at<1>().valid(); }
+ uint64_t id() const { return at<1>().as_uint64(); }
+ bool has_consumer_uid() const { return at<2>().valid(); }
+ int32_t consumer_uid() const { return at<2>().as_int32(); }
+ bool has_state() const { return at<3>().valid(); }
+ ::protozero::ConstChars state() const { return at<3>().as_string(); }
+ bool has_unique_session_name() const { return at<4>().valid(); }
+ ::protozero::ConstChars unique_session_name() const { return at<4>().as_string(); }
+ bool has_buffer_size_kb() const { return at<5>().valid(); }
+ ::protozero::RepeatedFieldIterator<uint32_t> buffer_size_kb() const { return GetRepeated<uint32_t>(5); }
+ bool has_duration_ms() const { return at<6>().valid(); }
+ uint32_t duration_ms() const { return at<6>().as_uint32(); }
+ bool has_num_data_sources() const { return at<7>().valid(); }
+ uint32_t num_data_sources() const { return at<7>().as_uint32(); }
+ bool has_start_realtime_ns() const { return at<8>().valid(); }
+ int64_t start_realtime_ns() const { return at<8>().as_int64(); }
+ bool has_bugreport_score() const { return at<9>().valid(); }
+ int32_t bugreport_score() const { return at<9>().as_int32(); }
+ bool has_bugreport_filename() const { return at<10>().valid(); }
+ ::protozero::ConstChars bugreport_filename() const { return at<10>().as_string(); }
+ bool has_is_started() const { return at<11>().valid(); }
+ bool is_started() const { return at<11>().as_bool(); }
+};
+
+class TracingServiceState_TracingSession : public ::protozero::Message {
+ public:
+ using Decoder = TracingServiceState_TracingSession_Decoder;
+ enum : int32_t {
+ kIdFieldNumber = 1,
+ kConsumerUidFieldNumber = 2,
+ kStateFieldNumber = 3,
+ kUniqueSessionNameFieldNumber = 4,
+ kBufferSizeKbFieldNumber = 5,
+ kDurationMsFieldNumber = 6,
+ kNumDataSourcesFieldNumber = 7,
+ kStartRealtimeNsFieldNumber = 8,
+ kBugreportScoreFieldNumber = 9,
+ kBugreportFilenameFieldNumber = 10,
+ kIsStartedFieldNumber = 11,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TracingServiceState.TracingSession"; }
+
+
+ using FieldMetadata_Id =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TracingServiceState_TracingSession>;
+
+ static constexpr FieldMetadata_Id kId{};
+ void set_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Id::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ConsumerUid =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ TracingServiceState_TracingSession>;
+
+ static constexpr FieldMetadata_ConsumerUid kConsumerUid{};
+ void set_consumer_uid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ConsumerUid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_State =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ TracingServiceState_TracingSession>;
+
+ static constexpr FieldMetadata_State kState{};
+ void set_state(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_State::kFieldId, data, size);
+ }
+ void set_state(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_State::kFieldId, chars.data, chars.size);
+ }
+ void set_state(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_State::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_UniqueSessionName =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ TracingServiceState_TracingSession>;
+
+ static constexpr FieldMetadata_UniqueSessionName kUniqueSessionName{};
+ void set_unique_session_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_UniqueSessionName::kFieldId, data, size);
+ }
+ void set_unique_session_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_UniqueSessionName::kFieldId, chars.data, chars.size);
+ }
+ void set_unique_session_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_UniqueSessionName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BufferSizeKb =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TracingServiceState_TracingSession>;
+
+ static constexpr FieldMetadata_BufferSizeKb kBufferSizeKb{};
+ void add_buffer_size_kb(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BufferSizeKb::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DurationMs =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TracingServiceState_TracingSession>;
+
+ static constexpr FieldMetadata_DurationMs kDurationMs{};
+ void set_duration_ms(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DurationMs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NumDataSources =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TracingServiceState_TracingSession>;
+
+ static constexpr FieldMetadata_NumDataSources kNumDataSources{};
+ void set_num_data_sources(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NumDataSources::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_StartRealtimeNs =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ TracingServiceState_TracingSession>;
+
+ static constexpr FieldMetadata_StartRealtimeNs kStartRealtimeNs{};
+ void set_start_realtime_ns(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_StartRealtimeNs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BugreportScore =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ TracingServiceState_TracingSession>;
+
+ static constexpr FieldMetadata_BugreportScore kBugreportScore{};
+ void set_bugreport_score(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BugreportScore::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BugreportFilename =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ TracingServiceState_TracingSession>;
+
+ static constexpr FieldMetadata_BugreportFilename kBugreportFilename{};
+ void set_bugreport_filename(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_BugreportFilename::kFieldId, data, size);
+ }
+ void set_bugreport_filename(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_BugreportFilename::kFieldId, chars.data, chars.size);
+ }
+ void set_bugreport_filename(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_BugreportFilename::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IsStarted =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ TracingServiceState_TracingSession>;
+
+ static constexpr FieldMetadata_IsStarted kIsStarted{};
+ void set_is_started(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_IsStarted::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class TracingServiceState_DataSource_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ TracingServiceState_DataSource_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TracingServiceState_DataSource_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TracingServiceState_DataSource_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_ds_descriptor() const { return at<1>().valid(); }
+ ::protozero::ConstBytes ds_descriptor() const { return at<1>().as_bytes(); }
+ bool has_producer_id() const { return at<2>().valid(); }
+ int32_t producer_id() const { return at<2>().as_int32(); }
+};
+
+class TracingServiceState_DataSource : public ::protozero::Message {
+ public:
+ using Decoder = TracingServiceState_DataSource_Decoder;
+ enum : int32_t {
+ kDsDescriptorFieldNumber = 1,
+ kProducerIdFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TracingServiceState.DataSource"; }
+
+
+ using FieldMetadata_DsDescriptor =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ DataSourceDescriptor,
+ TracingServiceState_DataSource>;
+
+ static constexpr FieldMetadata_DsDescriptor kDsDescriptor{};
+ template <typename T = DataSourceDescriptor> T* set_ds_descriptor() {
+ return BeginNestedMessage<T>(1);
+ }
+
+
+ using FieldMetadata_ProducerId =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ TracingServiceState_DataSource>;
+
+ static constexpr FieldMetadata_ProducerId kProducerId{};
+ void set_producer_id(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ProducerId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class TracingServiceState_Producer_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ TracingServiceState_Producer_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TracingServiceState_Producer_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TracingServiceState_Producer_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_id() const { return at<1>().valid(); }
+ int32_t id() const { return at<1>().as_int32(); }
+ bool has_name() const { return at<2>().valid(); }
+ ::protozero::ConstChars name() const { return at<2>().as_string(); }
+ bool has_pid() const { return at<5>().valid(); }
+ int32_t pid() const { return at<5>().as_int32(); }
+ bool has_uid() const { return at<3>().valid(); }
+ int32_t uid() const { return at<3>().as_int32(); }
+ bool has_sdk_version() const { return at<4>().valid(); }
+ ::protozero::ConstChars sdk_version() const { return at<4>().as_string(); }
+};
+
+class TracingServiceState_Producer : public ::protozero::Message {
+ public:
+ using Decoder = TracingServiceState_Producer_Decoder;
+ enum : int32_t {
+ kIdFieldNumber = 1,
+ kNameFieldNumber = 2,
+ kPidFieldNumber = 5,
+ kUidFieldNumber = 3,
+ kSdkVersionFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TracingServiceState.Producer"; }
+
+
+ using FieldMetadata_Id =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ TracingServiceState_Producer>;
+
+ static constexpr FieldMetadata_Id kId{};
+ void set_id(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Id::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ TracingServiceState_Producer>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ TracingServiceState_Producer>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Uid =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ TracingServiceState_Producer>;
+
+ static constexpr FieldMetadata_Uid kUid{};
+ void set_uid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Uid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SdkVersion =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ TracingServiceState_Producer>;
+
+ static constexpr FieldMetadata_SdkVersion kSdkVersion{};
+ void set_sdk_version(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_SdkVersion::kFieldId, data, size);
+ }
+ void set_sdk_version(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_SdkVersion::kFieldId, chars.data, chars.size);
+ }
+ void set_sdk_version(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_SdkVersion::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/common/track_event_descriptor.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_TRACK_EVENT_DESCRIPTOR_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_COMMON_TRACK_EVENT_DESCRIPTOR_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class TrackEventCategory;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class TrackEventDescriptor_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ TrackEventDescriptor_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TrackEventDescriptor_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TrackEventDescriptor_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_available_categories() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> available_categories() const { return GetRepeated<::protozero::ConstBytes>(1); }
+};
+
+class TrackEventDescriptor : public ::protozero::Message {
+ public:
+ using Decoder = TrackEventDescriptor_Decoder;
+ enum : int32_t {
+ kAvailableCategoriesFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TrackEventDescriptor"; }
+
+
+ using FieldMetadata_AvailableCategories =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TrackEventCategory,
+ TrackEventDescriptor>;
+
+ static constexpr FieldMetadata_AvailableCategories kAvailableCategories{};
+ template <typename T = TrackEventCategory> T* add_available_categories() {
+ return BeginNestedMessage<T>(1);
+ }
+
+};
+
+class TrackEventCategory_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ TrackEventCategory_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TrackEventCategory_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TrackEventCategory_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars name() const { return at<1>().as_string(); }
+ bool has_description() const { return at<2>().valid(); }
+ ::protozero::ConstChars description() const { return at<2>().as_string(); }
+ bool has_tags() const { return at<3>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstChars> tags() const { return GetRepeated<::protozero::ConstChars>(3); }
+};
+
+class TrackEventCategory : public ::protozero::Message {
+ public:
+ using Decoder = TrackEventCategory_Decoder;
+ enum : int32_t {
+ kNameFieldNumber = 1,
+ kDescriptionFieldNumber = 2,
+ kTagsFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TrackEventCategory"; }
+
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ TrackEventCategory>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Description =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ TrackEventCategory>;
+
+ static constexpr FieldMetadata_Description kDescription{};
+ void set_description(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Description::kFieldId, data, size);
+ }
+ void set_description(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Description::kFieldId, chars.data, chars.size);
+ }
+ void set_description(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Description::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Tags =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ TrackEventCategory>;
+
+ static constexpr FieldMetadata_Tags kTags{};
+ void add_tags(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Tags::kFieldId, data, size);
+ }
+ void add_tags(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Tags::kFieldId, chars.data, chars.size);
+ }
+ void add_tags(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Tags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/config/android/android_game_intervention_list_config.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ANDROID_ANDROID_GAME_INTERVENTION_LIST_CONFIG_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ANDROID_ANDROID_GAME_INTERVENTION_LIST_CONFIG_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class AndroidGameInterventionListConfig;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+class PERFETTO_EXPORT_COMPONENT AndroidGameInterventionListConfig : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kPackageNameFilterFieldNumber = 1,
+ };
+
+ AndroidGameInterventionListConfig();
+ ~AndroidGameInterventionListConfig() override;
+ AndroidGameInterventionListConfig(AndroidGameInterventionListConfig&&) noexcept;
+ AndroidGameInterventionListConfig& operator=(AndroidGameInterventionListConfig&&);
+ AndroidGameInterventionListConfig(const AndroidGameInterventionListConfig&);
+ AndroidGameInterventionListConfig& operator=(const AndroidGameInterventionListConfig&);
+ bool operator==(const AndroidGameInterventionListConfig&) const;
+ bool operator!=(const AndroidGameInterventionListConfig& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ const std::vector<std::string>& package_name_filter() const { return package_name_filter_; }
+ std::vector<std::string>* mutable_package_name_filter() { return &package_name_filter_; }
+ int package_name_filter_size() const { return static_cast<int>(package_name_filter_.size()); }
+ void clear_package_name_filter() { package_name_filter_.clear(); }
+ void add_package_name_filter(std::string value) { package_name_filter_.emplace_back(value); }
+ std::string* add_package_name_filter() { package_name_filter_.emplace_back(); return &package_name_filter_.back(); }
+
+ private:
+ std::vector<std::string> package_name_filter_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ANDROID_ANDROID_GAME_INTERVENTION_LIST_CONFIG_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/config/android/android_input_event_config.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ANDROID_ANDROID_INPUT_EVENT_CONFIG_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ANDROID_ANDROID_INPUT_EVENT_CONFIG_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class AndroidInputEventConfig;
+class AndroidInputEventConfig_TraceRule;
+enum AndroidInputEventConfig_TraceMode : int;
+enum AndroidInputEventConfig_TraceLevel : int;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+enum AndroidInputEventConfig_TraceMode : int {
+ AndroidInputEventConfig_TraceMode_TRACE_MODE_TRACE_ALL = 0,
+ AndroidInputEventConfig_TraceMode_TRACE_MODE_USE_RULES = 1,
+};
+enum AndroidInputEventConfig_TraceLevel : int {
+ AndroidInputEventConfig_TraceLevel_TRACE_LEVEL_NONE = 0,
+ AndroidInputEventConfig_TraceLevel_TRACE_LEVEL_REDACTED = 1,
+ AndroidInputEventConfig_TraceLevel_TRACE_LEVEL_COMPLETE = 2,
+};
+
+class PERFETTO_EXPORT_COMPONENT AndroidInputEventConfig : public ::protozero::CppMessageObj {
+ public:
+ using TraceRule = AndroidInputEventConfig_TraceRule;
+ using TraceMode = AndroidInputEventConfig_TraceMode;
+ static constexpr auto TRACE_MODE_TRACE_ALL = AndroidInputEventConfig_TraceMode_TRACE_MODE_TRACE_ALL;
+ static constexpr auto TRACE_MODE_USE_RULES = AndroidInputEventConfig_TraceMode_TRACE_MODE_USE_RULES;
+ static constexpr auto TraceMode_MIN = AndroidInputEventConfig_TraceMode_TRACE_MODE_TRACE_ALL;
+ static constexpr auto TraceMode_MAX = AndroidInputEventConfig_TraceMode_TRACE_MODE_USE_RULES;
+ using TraceLevel = AndroidInputEventConfig_TraceLevel;
+ static constexpr auto TRACE_LEVEL_NONE = AndroidInputEventConfig_TraceLevel_TRACE_LEVEL_NONE;
+ static constexpr auto TRACE_LEVEL_REDACTED = AndroidInputEventConfig_TraceLevel_TRACE_LEVEL_REDACTED;
+ static constexpr auto TRACE_LEVEL_COMPLETE = AndroidInputEventConfig_TraceLevel_TRACE_LEVEL_COMPLETE;
+ static constexpr auto TraceLevel_MIN = AndroidInputEventConfig_TraceLevel_TRACE_LEVEL_NONE;
+ static constexpr auto TraceLevel_MAX = AndroidInputEventConfig_TraceLevel_TRACE_LEVEL_COMPLETE;
+ enum FieldNumbers {
+ kModeFieldNumber = 1,
+ kRulesFieldNumber = 2,
+ kTraceDispatcherInputEventsFieldNumber = 3,
+ kTraceDispatcherWindowDispatchFieldNumber = 4,
+ };
+
+ AndroidInputEventConfig();
+ ~AndroidInputEventConfig() override;
+ AndroidInputEventConfig(AndroidInputEventConfig&&) noexcept;
+ AndroidInputEventConfig& operator=(AndroidInputEventConfig&&);
+ AndroidInputEventConfig(const AndroidInputEventConfig&);
+ AndroidInputEventConfig& operator=(const AndroidInputEventConfig&);
+ bool operator==(const AndroidInputEventConfig&) const;
+ bool operator!=(const AndroidInputEventConfig& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_mode() const { return _has_field_[1]; }
+ AndroidInputEventConfig_TraceMode mode() const { return mode_; }
+ void set_mode(AndroidInputEventConfig_TraceMode value) { mode_ = value; _has_field_.set(1); }
+
+ const std::vector<AndroidInputEventConfig_TraceRule>& rules() const { return rules_; }
+ std::vector<AndroidInputEventConfig_TraceRule>* mutable_rules() { return &rules_; }
+ int rules_size() const;
+ void clear_rules();
+ AndroidInputEventConfig_TraceRule* add_rules();
+
+ bool has_trace_dispatcher_input_events() const { return _has_field_[3]; }
+ bool trace_dispatcher_input_events() const { return trace_dispatcher_input_events_; }
+ void set_trace_dispatcher_input_events(bool value) { trace_dispatcher_input_events_ = value; _has_field_.set(3); }
+
+ bool has_trace_dispatcher_window_dispatch() const { return _has_field_[4]; }
+ bool trace_dispatcher_window_dispatch() const { return trace_dispatcher_window_dispatch_; }
+ void set_trace_dispatcher_window_dispatch(bool value) { trace_dispatcher_window_dispatch_ = value; _has_field_.set(4); }
+
+ private:
+ AndroidInputEventConfig_TraceMode mode_{};
+ std::vector<AndroidInputEventConfig_TraceRule> rules_;
+ bool trace_dispatcher_input_events_{};
+ bool trace_dispatcher_window_dispatch_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<5> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT AndroidInputEventConfig_TraceRule : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kTraceLevelFieldNumber = 1,
+ kMatchAllPackagesFieldNumber = 2,
+ kMatchAnyPackagesFieldNumber = 3,
+ kMatchSecureFieldNumber = 4,
+ kMatchImeConnectionActiveFieldNumber = 5,
+ };
+
+ AndroidInputEventConfig_TraceRule();
+ ~AndroidInputEventConfig_TraceRule() override;
+ AndroidInputEventConfig_TraceRule(AndroidInputEventConfig_TraceRule&&) noexcept;
+ AndroidInputEventConfig_TraceRule& operator=(AndroidInputEventConfig_TraceRule&&);
+ AndroidInputEventConfig_TraceRule(const AndroidInputEventConfig_TraceRule&);
+ AndroidInputEventConfig_TraceRule& operator=(const AndroidInputEventConfig_TraceRule&);
+ bool operator==(const AndroidInputEventConfig_TraceRule&) const;
+ bool operator!=(const AndroidInputEventConfig_TraceRule& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_trace_level() const { return _has_field_[1]; }
+ AndroidInputEventConfig_TraceLevel trace_level() const { return trace_level_; }
+ void set_trace_level(AndroidInputEventConfig_TraceLevel value) { trace_level_ = value; _has_field_.set(1); }
+
+ const std::vector<std::string>& match_all_packages() const { return match_all_packages_; }
+ std::vector<std::string>* mutable_match_all_packages() { return &match_all_packages_; }
+ int match_all_packages_size() const { return static_cast<int>(match_all_packages_.size()); }
+ void clear_match_all_packages() { match_all_packages_.clear(); }
+ void add_match_all_packages(std::string value) { match_all_packages_.emplace_back(value); }
+ std::string* add_match_all_packages() { match_all_packages_.emplace_back(); return &match_all_packages_.back(); }
+
+ const std::vector<std::string>& match_any_packages() const { return match_any_packages_; }
+ std::vector<std::string>* mutable_match_any_packages() { return &match_any_packages_; }
+ int match_any_packages_size() const { return static_cast<int>(match_any_packages_.size()); }
+ void clear_match_any_packages() { match_any_packages_.clear(); }
+ void add_match_any_packages(std::string value) { match_any_packages_.emplace_back(value); }
+ std::string* add_match_any_packages() { match_any_packages_.emplace_back(); return &match_any_packages_.back(); }
+
+ bool has_match_secure() const { return _has_field_[4]; }
+ bool match_secure() const { return match_secure_; }
+ void set_match_secure(bool value) { match_secure_ = value; _has_field_.set(4); }
+
+ bool has_match_ime_connection_active() const { return _has_field_[5]; }
+ bool match_ime_connection_active() const { return match_ime_connection_active_; }
+ void set_match_ime_connection_active(bool value) { match_ime_connection_active_ = value; _has_field_.set(5); }
+
+ private:
+ AndroidInputEventConfig_TraceLevel trace_level_{};
+ std::vector<std::string> match_all_packages_;
+ std::vector<std::string> match_any_packages_;
+ bool match_secure_{};
+ bool match_ime_connection_active_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<6> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ANDROID_ANDROID_INPUT_EVENT_CONFIG_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/config/android/android_log_config.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ANDROID_ANDROID_LOG_CONFIG_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ANDROID_ANDROID_LOG_CONFIG_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class AndroidLogConfig;
+enum AndroidLogId : int;
+enum AndroidLogPriority : int;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+class PERFETTO_EXPORT_COMPONENT AndroidLogConfig : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kLogIdsFieldNumber = 1,
+ kMinPrioFieldNumber = 3,
+ kFilterTagsFieldNumber = 4,
+ };
+
+ AndroidLogConfig();
+ ~AndroidLogConfig() override;
+ AndroidLogConfig(AndroidLogConfig&&) noexcept;
+ AndroidLogConfig& operator=(AndroidLogConfig&&);
+ AndroidLogConfig(const AndroidLogConfig&);
+ AndroidLogConfig& operator=(const AndroidLogConfig&);
+ bool operator==(const AndroidLogConfig&) const;
+ bool operator!=(const AndroidLogConfig& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ const std::vector<AndroidLogId>& log_ids() const { return log_ids_; }
+ std::vector<AndroidLogId>* mutable_log_ids() { return &log_ids_; }
+ int log_ids_size() const { return static_cast<int>(log_ids_.size()); }
+ void clear_log_ids() { log_ids_.clear(); }
+ void add_log_ids(AndroidLogId value) { log_ids_.emplace_back(value); }
+ AndroidLogId* add_log_ids() { log_ids_.emplace_back(); return &log_ids_.back(); }
+
+ bool has_min_prio() const { return _has_field_[3]; }
+ AndroidLogPriority min_prio() const { return min_prio_; }
+ void set_min_prio(AndroidLogPriority value) { min_prio_ = value; _has_field_.set(3); }
+
+ const std::vector<std::string>& filter_tags() const { return filter_tags_; }
+ std::vector<std::string>* mutable_filter_tags() { return &filter_tags_; }
+ int filter_tags_size() const { return static_cast<int>(filter_tags_.size()); }
+ void clear_filter_tags() { filter_tags_.clear(); }
+ void add_filter_tags(std::string value) { filter_tags_.emplace_back(value); }
+ std::string* add_filter_tags() { filter_tags_.emplace_back(); return &filter_tags_.back(); }
+
+ private:
+ std::vector<AndroidLogId> log_ids_;
+ AndroidLogPriority min_prio_{};
+ std::vector<std::string> filter_tags_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<5> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ANDROID_ANDROID_LOG_CONFIG_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/config/android/android_polled_state_config.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ANDROID_ANDROID_POLLED_STATE_CONFIG_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ANDROID_ANDROID_POLLED_STATE_CONFIG_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class AndroidPolledStateConfig;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+class PERFETTO_EXPORT_COMPONENT AndroidPolledStateConfig : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kPollMsFieldNumber = 1,
+ };
+
+ AndroidPolledStateConfig();
+ ~AndroidPolledStateConfig() override;
+ AndroidPolledStateConfig(AndroidPolledStateConfig&&) noexcept;
+ AndroidPolledStateConfig& operator=(AndroidPolledStateConfig&&);
+ AndroidPolledStateConfig(const AndroidPolledStateConfig&);
+ AndroidPolledStateConfig& operator=(const AndroidPolledStateConfig&);
+ bool operator==(const AndroidPolledStateConfig&) const;
+ bool operator!=(const AndroidPolledStateConfig& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_poll_ms() const { return _has_field_[1]; }
+ uint32_t poll_ms() const { return poll_ms_; }
+ void set_poll_ms(uint32_t value) { poll_ms_ = value; _has_field_.set(1); }
+
+ private:
+ uint32_t poll_ms_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ANDROID_ANDROID_POLLED_STATE_CONFIG_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/config/android/android_sdk_sysprop_guard_config.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ANDROID_ANDROID_SDK_SYSPROP_GUARD_CONFIG_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ANDROID_ANDROID_SDK_SYSPROP_GUARD_CONFIG_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class AndroidSdkSyspropGuardConfig;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+class PERFETTO_EXPORT_COMPONENT AndroidSdkSyspropGuardConfig : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kSurfaceflingerSkiaTrackEventsFieldNumber = 1,
+ kHwuiSkiaTrackEventsFieldNumber = 2,
+ kHwuiPackageNameFilterFieldNumber = 3,
+ };
+
+ AndroidSdkSyspropGuardConfig();
+ ~AndroidSdkSyspropGuardConfig() override;
+ AndroidSdkSyspropGuardConfig(AndroidSdkSyspropGuardConfig&&) noexcept;
+ AndroidSdkSyspropGuardConfig& operator=(AndroidSdkSyspropGuardConfig&&);
+ AndroidSdkSyspropGuardConfig(const AndroidSdkSyspropGuardConfig&);
+ AndroidSdkSyspropGuardConfig& operator=(const AndroidSdkSyspropGuardConfig&);
+ bool operator==(const AndroidSdkSyspropGuardConfig&) const;
+ bool operator!=(const AndroidSdkSyspropGuardConfig& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_surfaceflinger_skia_track_events() const { return _has_field_[1]; }
+ bool surfaceflinger_skia_track_events() const { return surfaceflinger_skia_track_events_; }
+ void set_surfaceflinger_skia_track_events(bool value) { surfaceflinger_skia_track_events_ = value; _has_field_.set(1); }
+
+ bool has_hwui_skia_track_events() const { return _has_field_[2]; }
+ bool hwui_skia_track_events() const { return hwui_skia_track_events_; }
+ void set_hwui_skia_track_events(bool value) { hwui_skia_track_events_ = value; _has_field_.set(2); }
+
+ const std::vector<std::string>& hwui_package_name_filter() const { return hwui_package_name_filter_; }
+ std::vector<std::string>* mutable_hwui_package_name_filter() { return &hwui_package_name_filter_; }
+ int hwui_package_name_filter_size() const { return static_cast<int>(hwui_package_name_filter_.size()); }
+ void clear_hwui_package_name_filter() { hwui_package_name_filter_.clear(); }
+ void add_hwui_package_name_filter(std::string value) { hwui_package_name_filter_.emplace_back(value); }
+ std::string* add_hwui_package_name_filter() { hwui_package_name_filter_.emplace_back(); return &hwui_package_name_filter_.back(); }
+
+ private:
+ bool surfaceflinger_skia_track_events_{};
+ bool hwui_skia_track_events_{};
+ std::vector<std::string> hwui_package_name_filter_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<4> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ANDROID_ANDROID_SDK_SYSPROP_GUARD_CONFIG_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/config/android/android_system_property_config.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ANDROID_ANDROID_SYSTEM_PROPERTY_CONFIG_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ANDROID_ANDROID_SYSTEM_PROPERTY_CONFIG_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class AndroidSystemPropertyConfig;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+class PERFETTO_EXPORT_COMPONENT AndroidSystemPropertyConfig : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kPollMsFieldNumber = 1,
+ kPropertyNameFieldNumber = 2,
+ };
+
+ AndroidSystemPropertyConfig();
+ ~AndroidSystemPropertyConfig() override;
+ AndroidSystemPropertyConfig(AndroidSystemPropertyConfig&&) noexcept;
+ AndroidSystemPropertyConfig& operator=(AndroidSystemPropertyConfig&&);
+ AndroidSystemPropertyConfig(const AndroidSystemPropertyConfig&);
+ AndroidSystemPropertyConfig& operator=(const AndroidSystemPropertyConfig&);
+ bool operator==(const AndroidSystemPropertyConfig&) const;
+ bool operator!=(const AndroidSystemPropertyConfig& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_poll_ms() const { return _has_field_[1]; }
+ uint32_t poll_ms() const { return poll_ms_; }
+ void set_poll_ms(uint32_t value) { poll_ms_ = value; _has_field_.set(1); }
+
+ const std::vector<std::string>& property_name() const { return property_name_; }
+ std::vector<std::string>* mutable_property_name() { return &property_name_; }
+ int property_name_size() const { return static_cast<int>(property_name_.size()); }
+ void clear_property_name() { property_name_.clear(); }
+ void add_property_name(std::string value) { property_name_.emplace_back(value); }
+ std::string* add_property_name() { property_name_.emplace_back(); return &property_name_.back(); }
+
+ private:
+ uint32_t poll_ms_{};
+ std::vector<std::string> property_name_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<3> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ANDROID_ANDROID_SYSTEM_PROPERTY_CONFIG_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/config/android/network_trace_config.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ANDROID_NETWORK_TRACE_CONFIG_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ANDROID_NETWORK_TRACE_CONFIG_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class NetworkPacketTraceConfig;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+class PERFETTO_EXPORT_COMPONENT NetworkPacketTraceConfig : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kPollMsFieldNumber = 1,
+ kAggregationThresholdFieldNumber = 2,
+ kInternLimitFieldNumber = 3,
+ kDropLocalPortFieldNumber = 4,
+ kDropRemotePortFieldNumber = 5,
+ kDropTcpFlagsFieldNumber = 6,
+ };
+
+ NetworkPacketTraceConfig();
+ ~NetworkPacketTraceConfig() override;
+ NetworkPacketTraceConfig(NetworkPacketTraceConfig&&) noexcept;
+ NetworkPacketTraceConfig& operator=(NetworkPacketTraceConfig&&);
+ NetworkPacketTraceConfig(const NetworkPacketTraceConfig&);
+ NetworkPacketTraceConfig& operator=(const NetworkPacketTraceConfig&);
+ bool operator==(const NetworkPacketTraceConfig&) const;
+ bool operator!=(const NetworkPacketTraceConfig& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_poll_ms() const { return _has_field_[1]; }
+ uint32_t poll_ms() const { return poll_ms_; }
+ void set_poll_ms(uint32_t value) { poll_ms_ = value; _has_field_.set(1); }
+
+ bool has_aggregation_threshold() const { return _has_field_[2]; }
+ uint32_t aggregation_threshold() const { return aggregation_threshold_; }
+ void set_aggregation_threshold(uint32_t value) { aggregation_threshold_ = value; _has_field_.set(2); }
+
+ bool has_intern_limit() const { return _has_field_[3]; }
+ uint32_t intern_limit() const { return intern_limit_; }
+ void set_intern_limit(uint32_t value) { intern_limit_ = value; _has_field_.set(3); }
+
+ bool has_drop_local_port() const { return _has_field_[4]; }
+ bool drop_local_port() const { return drop_local_port_; }
+ void set_drop_local_port(bool value) { drop_local_port_ = value; _has_field_.set(4); }
+
+ bool has_drop_remote_port() const { return _has_field_[5]; }
+ bool drop_remote_port() const { return drop_remote_port_; }
+ void set_drop_remote_port(bool value) { drop_remote_port_ = value; _has_field_.set(5); }
+
+ bool has_drop_tcp_flags() const { return _has_field_[6]; }
+ bool drop_tcp_flags() const { return drop_tcp_flags_; }
+ void set_drop_tcp_flags(bool value) { drop_tcp_flags_ = value; _has_field_.set(6); }
+
+ private:
+ uint32_t poll_ms_{};
+ uint32_t aggregation_threshold_{};
+ uint32_t intern_limit_{};
+ bool drop_local_port_{};
+ bool drop_remote_port_{};
+ bool drop_tcp_flags_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<7> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ANDROID_NETWORK_TRACE_CONFIG_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/config/android/packages_list_config.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ANDROID_PACKAGES_LIST_CONFIG_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ANDROID_PACKAGES_LIST_CONFIG_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class PackagesListConfig;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+class PERFETTO_EXPORT_COMPONENT PackagesListConfig : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kPackageNameFilterFieldNumber = 1,
+ };
+
+ PackagesListConfig();
+ ~PackagesListConfig() override;
+ PackagesListConfig(PackagesListConfig&&) noexcept;
+ PackagesListConfig& operator=(PackagesListConfig&&);
+ PackagesListConfig(const PackagesListConfig&);
+ PackagesListConfig& operator=(const PackagesListConfig&);
+ bool operator==(const PackagesListConfig&) const;
+ bool operator!=(const PackagesListConfig& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ const std::vector<std::string>& package_name_filter() const { return package_name_filter_; }
+ std::vector<std::string>* mutable_package_name_filter() { return &package_name_filter_; }
+ int package_name_filter_size() const { return static_cast<int>(package_name_filter_.size()); }
+ void clear_package_name_filter() { package_name_filter_.clear(); }
+ void add_package_name_filter(std::string value) { package_name_filter_.emplace_back(value); }
+ std::string* add_package_name_filter() { package_name_filter_.emplace_back(); return &package_name_filter_.back(); }
+
+ private:
+ std::vector<std::string> package_name_filter_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ANDROID_PACKAGES_LIST_CONFIG_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/config/android/protolog_config.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ANDROID_PROTOLOG_CONFIG_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ANDROID_PROTOLOG_CONFIG_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class ProtoLogGroup;
+class ProtoLogConfig;
+enum ProtoLogLevel : int;
+enum ProtoLogConfig_TracingMode : int;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+enum ProtoLogConfig_TracingMode : int {
+ ProtoLogConfig_TracingMode_DEFAULT = 0,
+ ProtoLogConfig_TracingMode_ENABLE_ALL = 1,
+};
+
+class PERFETTO_EXPORT_COMPONENT ProtoLogGroup : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kGroupNameFieldNumber = 1,
+ kLogFromFieldNumber = 2,
+ kCollectStacktraceFieldNumber = 3,
+ };
+
+ ProtoLogGroup();
+ ~ProtoLogGroup() override;
+ ProtoLogGroup(ProtoLogGroup&&) noexcept;
+ ProtoLogGroup& operator=(ProtoLogGroup&&);
+ ProtoLogGroup(const ProtoLogGroup&);
+ ProtoLogGroup& operator=(const ProtoLogGroup&);
+ bool operator==(const ProtoLogGroup&) const;
+ bool operator!=(const ProtoLogGroup& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_group_name() const { return _has_field_[1]; }
+ const std::string& group_name() const { return group_name_; }
+ void set_group_name(const std::string& value) { group_name_ = value; _has_field_.set(1); }
+
+ bool has_log_from() const { return _has_field_[2]; }
+ ProtoLogLevel log_from() const { return log_from_; }
+ void set_log_from(ProtoLogLevel value) { log_from_ = value; _has_field_.set(2); }
+
+ bool has_collect_stacktrace() const { return _has_field_[3]; }
+ bool collect_stacktrace() const { return collect_stacktrace_; }
+ void set_collect_stacktrace(bool value) { collect_stacktrace_ = value; _has_field_.set(3); }
+
+ private:
+ std::string group_name_{};
+ ProtoLogLevel log_from_{};
+ bool collect_stacktrace_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<4> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT ProtoLogConfig : public ::protozero::CppMessageObj {
+ public:
+ using TracingMode = ProtoLogConfig_TracingMode;
+ static constexpr auto DEFAULT = ProtoLogConfig_TracingMode_DEFAULT;
+ static constexpr auto ENABLE_ALL = ProtoLogConfig_TracingMode_ENABLE_ALL;
+ static constexpr auto TracingMode_MIN = ProtoLogConfig_TracingMode_DEFAULT;
+ static constexpr auto TracingMode_MAX = ProtoLogConfig_TracingMode_ENABLE_ALL;
+ enum FieldNumbers {
+ kGroupOverridesFieldNumber = 1,
+ kTracingModeFieldNumber = 2,
+ };
+
+ ProtoLogConfig();
+ ~ProtoLogConfig() override;
+ ProtoLogConfig(ProtoLogConfig&&) noexcept;
+ ProtoLogConfig& operator=(ProtoLogConfig&&);
+ ProtoLogConfig(const ProtoLogConfig&);
+ ProtoLogConfig& operator=(const ProtoLogConfig&);
+ bool operator==(const ProtoLogConfig&) const;
+ bool operator!=(const ProtoLogConfig& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ const std::vector<ProtoLogGroup>& group_overrides() const { return group_overrides_; }
+ std::vector<ProtoLogGroup>* mutable_group_overrides() { return &group_overrides_; }
+ int group_overrides_size() const;
+ void clear_group_overrides();
+ ProtoLogGroup* add_group_overrides();
+
+ bool has_tracing_mode() const { return _has_field_[2]; }
+ ProtoLogConfig_TracingMode tracing_mode() const { return tracing_mode_; }
+ void set_tracing_mode(ProtoLogConfig_TracingMode value) { tracing_mode_ = value; _has_field_.set(2); }
+
+ private:
+ std::vector<ProtoLogGroup> group_overrides_;
+ ProtoLogConfig_TracingMode tracing_mode_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<3> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ANDROID_PROTOLOG_CONFIG_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/config/android/surfaceflinger_layers_config.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ANDROID_SURFACEFLINGER_LAYERS_CONFIG_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ANDROID_SURFACEFLINGER_LAYERS_CONFIG_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class SurfaceFlingerLayersConfig;
+enum SurfaceFlingerLayersConfig_Mode : int;
+enum SurfaceFlingerLayersConfig_TraceFlag : int;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+enum SurfaceFlingerLayersConfig_Mode : int {
+ SurfaceFlingerLayersConfig_Mode_MODE_UNSPECIFIED = 0,
+ SurfaceFlingerLayersConfig_Mode_MODE_ACTIVE = 1,
+ SurfaceFlingerLayersConfig_Mode_MODE_GENERATED = 2,
+ SurfaceFlingerLayersConfig_Mode_MODE_DUMP = 3,
+ SurfaceFlingerLayersConfig_Mode_MODE_GENERATED_BUGREPORT_ONLY = 4,
+};
+enum SurfaceFlingerLayersConfig_TraceFlag : int {
+ SurfaceFlingerLayersConfig_TraceFlag_TRACE_FLAG_UNSPECIFIED = 0,
+ SurfaceFlingerLayersConfig_TraceFlag_TRACE_FLAG_INPUT = 2,
+ SurfaceFlingerLayersConfig_TraceFlag_TRACE_FLAG_COMPOSITION = 4,
+ SurfaceFlingerLayersConfig_TraceFlag_TRACE_FLAG_EXTRA = 8,
+ SurfaceFlingerLayersConfig_TraceFlag_TRACE_FLAG_HWC = 16,
+ SurfaceFlingerLayersConfig_TraceFlag_TRACE_FLAG_BUFFERS = 32,
+ SurfaceFlingerLayersConfig_TraceFlag_TRACE_FLAG_VIRTUAL_DISPLAYS = 64,
+ SurfaceFlingerLayersConfig_TraceFlag_TRACE_FLAG_ALL = 14,
+};
+
+class PERFETTO_EXPORT_COMPONENT SurfaceFlingerLayersConfig : public ::protozero::CppMessageObj {
+ public:
+ using Mode = SurfaceFlingerLayersConfig_Mode;
+ static constexpr auto MODE_UNSPECIFIED = SurfaceFlingerLayersConfig_Mode_MODE_UNSPECIFIED;
+ static constexpr auto MODE_ACTIVE = SurfaceFlingerLayersConfig_Mode_MODE_ACTIVE;
+ static constexpr auto MODE_GENERATED = SurfaceFlingerLayersConfig_Mode_MODE_GENERATED;
+ static constexpr auto MODE_DUMP = SurfaceFlingerLayersConfig_Mode_MODE_DUMP;
+ static constexpr auto MODE_GENERATED_BUGREPORT_ONLY = SurfaceFlingerLayersConfig_Mode_MODE_GENERATED_BUGREPORT_ONLY;
+ static constexpr auto Mode_MIN = SurfaceFlingerLayersConfig_Mode_MODE_UNSPECIFIED;
+ static constexpr auto Mode_MAX = SurfaceFlingerLayersConfig_Mode_MODE_GENERATED_BUGREPORT_ONLY;
+ using TraceFlag = SurfaceFlingerLayersConfig_TraceFlag;
+ static constexpr auto TRACE_FLAG_UNSPECIFIED = SurfaceFlingerLayersConfig_TraceFlag_TRACE_FLAG_UNSPECIFIED;
+ static constexpr auto TRACE_FLAG_INPUT = SurfaceFlingerLayersConfig_TraceFlag_TRACE_FLAG_INPUT;
+ static constexpr auto TRACE_FLAG_COMPOSITION = SurfaceFlingerLayersConfig_TraceFlag_TRACE_FLAG_COMPOSITION;
+ static constexpr auto TRACE_FLAG_EXTRA = SurfaceFlingerLayersConfig_TraceFlag_TRACE_FLAG_EXTRA;
+ static constexpr auto TRACE_FLAG_HWC = SurfaceFlingerLayersConfig_TraceFlag_TRACE_FLAG_HWC;
+ static constexpr auto TRACE_FLAG_BUFFERS = SurfaceFlingerLayersConfig_TraceFlag_TRACE_FLAG_BUFFERS;
+ static constexpr auto TRACE_FLAG_VIRTUAL_DISPLAYS = SurfaceFlingerLayersConfig_TraceFlag_TRACE_FLAG_VIRTUAL_DISPLAYS;
+ static constexpr auto TRACE_FLAG_ALL = SurfaceFlingerLayersConfig_TraceFlag_TRACE_FLAG_ALL;
+ static constexpr auto TraceFlag_MIN = SurfaceFlingerLayersConfig_TraceFlag_TRACE_FLAG_UNSPECIFIED;
+ static constexpr auto TraceFlag_MAX = SurfaceFlingerLayersConfig_TraceFlag_TRACE_FLAG_VIRTUAL_DISPLAYS;
+ enum FieldNumbers {
+ kModeFieldNumber = 1,
+ kTraceFlagsFieldNumber = 2,
+ };
+
+ SurfaceFlingerLayersConfig();
+ ~SurfaceFlingerLayersConfig() override;
+ SurfaceFlingerLayersConfig(SurfaceFlingerLayersConfig&&) noexcept;
+ SurfaceFlingerLayersConfig& operator=(SurfaceFlingerLayersConfig&&);
+ SurfaceFlingerLayersConfig(const SurfaceFlingerLayersConfig&);
+ SurfaceFlingerLayersConfig& operator=(const SurfaceFlingerLayersConfig&);
+ bool operator==(const SurfaceFlingerLayersConfig&) const;
+ bool operator!=(const SurfaceFlingerLayersConfig& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_mode() const { return _has_field_[1]; }
+ SurfaceFlingerLayersConfig_Mode mode() const { return mode_; }
+ void set_mode(SurfaceFlingerLayersConfig_Mode value) { mode_ = value; _has_field_.set(1); }
+
+ const std::vector<SurfaceFlingerLayersConfig_TraceFlag>& trace_flags() const { return trace_flags_; }
+ std::vector<SurfaceFlingerLayersConfig_TraceFlag>* mutable_trace_flags() { return &trace_flags_; }
+ int trace_flags_size() const { return static_cast<int>(trace_flags_.size()); }
+ void clear_trace_flags() { trace_flags_.clear(); }
+ void add_trace_flags(SurfaceFlingerLayersConfig_TraceFlag value) { trace_flags_.emplace_back(value); }
+ SurfaceFlingerLayersConfig_TraceFlag* add_trace_flags() { trace_flags_.emplace_back(); return &trace_flags_.back(); }
+
+ private:
+ SurfaceFlingerLayersConfig_Mode mode_{};
+ std::vector<SurfaceFlingerLayersConfig_TraceFlag> trace_flags_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<3> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ANDROID_SURFACEFLINGER_LAYERS_CONFIG_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/config/android/surfaceflinger_transactions_config.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ANDROID_SURFACEFLINGER_TRANSACTIONS_CONFIG_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ANDROID_SURFACEFLINGER_TRANSACTIONS_CONFIG_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class SurfaceFlingerTransactionsConfig;
+enum SurfaceFlingerTransactionsConfig_Mode : int;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+enum SurfaceFlingerTransactionsConfig_Mode : int {
+ SurfaceFlingerTransactionsConfig_Mode_MODE_UNSPECIFIED = 0,
+ SurfaceFlingerTransactionsConfig_Mode_MODE_CONTINUOUS = 1,
+ SurfaceFlingerTransactionsConfig_Mode_MODE_ACTIVE = 2,
+};
+
+class PERFETTO_EXPORT_COMPONENT SurfaceFlingerTransactionsConfig : public ::protozero::CppMessageObj {
+ public:
+ using Mode = SurfaceFlingerTransactionsConfig_Mode;
+ static constexpr auto MODE_UNSPECIFIED = SurfaceFlingerTransactionsConfig_Mode_MODE_UNSPECIFIED;
+ static constexpr auto MODE_CONTINUOUS = SurfaceFlingerTransactionsConfig_Mode_MODE_CONTINUOUS;
+ static constexpr auto MODE_ACTIVE = SurfaceFlingerTransactionsConfig_Mode_MODE_ACTIVE;
+ static constexpr auto Mode_MIN = SurfaceFlingerTransactionsConfig_Mode_MODE_UNSPECIFIED;
+ static constexpr auto Mode_MAX = SurfaceFlingerTransactionsConfig_Mode_MODE_ACTIVE;
+ enum FieldNumbers {
+ kModeFieldNumber = 1,
+ };
+
+ SurfaceFlingerTransactionsConfig();
+ ~SurfaceFlingerTransactionsConfig() override;
+ SurfaceFlingerTransactionsConfig(SurfaceFlingerTransactionsConfig&&) noexcept;
+ SurfaceFlingerTransactionsConfig& operator=(SurfaceFlingerTransactionsConfig&&);
+ SurfaceFlingerTransactionsConfig(const SurfaceFlingerTransactionsConfig&);
+ SurfaceFlingerTransactionsConfig& operator=(const SurfaceFlingerTransactionsConfig&);
+ bool operator==(const SurfaceFlingerTransactionsConfig&) const;
+ bool operator!=(const SurfaceFlingerTransactionsConfig& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_mode() const { return _has_field_[1]; }
+ SurfaceFlingerTransactionsConfig_Mode mode() const { return mode_; }
+ void set_mode(SurfaceFlingerTransactionsConfig_Mode value) { mode_ = value; _has_field_.set(1); }
+
+ private:
+ SurfaceFlingerTransactionsConfig_Mode mode_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ANDROID_SURFACEFLINGER_TRANSACTIONS_CONFIG_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/config/ftrace/ftrace_config.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_FTRACE_FTRACE_CONFIG_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_FTRACE_FTRACE_CONFIG_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class FtraceConfig;
+class FtraceConfig_PrintFilter;
+class FtraceConfig_PrintFilter_Rule;
+class FtraceConfig_PrintFilter_Rule_AtraceMessage;
+class FtraceConfig_CompactSchedConfig;
+enum FtraceConfig_KsymsMemPolicy : int;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+enum FtraceConfig_KsymsMemPolicy : int {
+ FtraceConfig_KsymsMemPolicy_KSYMS_UNSPECIFIED = 0,
+ FtraceConfig_KsymsMemPolicy_KSYMS_CLEANUP_ON_STOP = 1,
+ FtraceConfig_KsymsMemPolicy_KSYMS_RETAIN = 2,
+};
+
+class PERFETTO_EXPORT_COMPONENT FtraceConfig : public ::protozero::CppMessageObj {
+ public:
+ using CompactSchedConfig = FtraceConfig_CompactSchedConfig;
+ using PrintFilter = FtraceConfig_PrintFilter;
+ using KsymsMemPolicy = FtraceConfig_KsymsMemPolicy;
+ static constexpr auto KSYMS_UNSPECIFIED = FtraceConfig_KsymsMemPolicy_KSYMS_UNSPECIFIED;
+ static constexpr auto KSYMS_CLEANUP_ON_STOP = FtraceConfig_KsymsMemPolicy_KSYMS_CLEANUP_ON_STOP;
+ static constexpr auto KSYMS_RETAIN = FtraceConfig_KsymsMemPolicy_KSYMS_RETAIN;
+ static constexpr auto KsymsMemPolicy_MIN = FtraceConfig_KsymsMemPolicy_KSYMS_UNSPECIFIED;
+ static constexpr auto KsymsMemPolicy_MAX = FtraceConfig_KsymsMemPolicy_KSYMS_RETAIN;
+ enum FieldNumbers {
+ kFtraceEventsFieldNumber = 1,
+ kAtraceCategoriesFieldNumber = 2,
+ kAtraceAppsFieldNumber = 3,
+ kBufferSizeKbFieldNumber = 10,
+ kDrainPeriodMsFieldNumber = 11,
+ kDrainBufferPercentFieldNumber = 26,
+ kCompactSchedFieldNumber = 12,
+ kPrintFilterFieldNumber = 22,
+ kSymbolizeKsymsFieldNumber = 13,
+ kKsymsMemPolicyFieldNumber = 17,
+ kInitializeKsymsSynchronouslyForTestingFieldNumber = 14,
+ kThrottleRssStatFieldNumber = 15,
+ kDisableGenericEventsFieldNumber = 16,
+ kSyscallEventsFieldNumber = 18,
+ kEnableFunctionGraphFieldNumber = 19,
+ kFunctionFiltersFieldNumber = 20,
+ kFunctionGraphRootsFieldNumber = 21,
+ kPreserveFtraceBufferFieldNumber = 23,
+ kUseMonotonicRawClockFieldNumber = 24,
+ kInstanceNameFieldNumber = 25,
+ kBufferSizeLowerBoundFieldNumber = 27,
+ };
+
+ FtraceConfig();
+ ~FtraceConfig() override;
+ FtraceConfig(FtraceConfig&&) noexcept;
+ FtraceConfig& operator=(FtraceConfig&&);
+ FtraceConfig(const FtraceConfig&);
+ FtraceConfig& operator=(const FtraceConfig&);
+ bool operator==(const FtraceConfig&) const;
+ bool operator!=(const FtraceConfig& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ const std::vector<std::string>& ftrace_events() const { return ftrace_events_; }
+ std::vector<std::string>* mutable_ftrace_events() { return &ftrace_events_; }
+ int ftrace_events_size() const { return static_cast<int>(ftrace_events_.size()); }
+ void clear_ftrace_events() { ftrace_events_.clear(); }
+ void add_ftrace_events(std::string value) { ftrace_events_.emplace_back(value); }
+ std::string* add_ftrace_events() { ftrace_events_.emplace_back(); return &ftrace_events_.back(); }
+
+ const std::vector<std::string>& atrace_categories() const { return atrace_categories_; }
+ std::vector<std::string>* mutable_atrace_categories() { return &atrace_categories_; }
+ int atrace_categories_size() const { return static_cast<int>(atrace_categories_.size()); }
+ void clear_atrace_categories() { atrace_categories_.clear(); }
+ void add_atrace_categories(std::string value) { atrace_categories_.emplace_back(value); }
+ std::string* add_atrace_categories() { atrace_categories_.emplace_back(); return &atrace_categories_.back(); }
+
+ const std::vector<std::string>& atrace_apps() const { return atrace_apps_; }
+ std::vector<std::string>* mutable_atrace_apps() { return &atrace_apps_; }
+ int atrace_apps_size() const { return static_cast<int>(atrace_apps_.size()); }
+ void clear_atrace_apps() { atrace_apps_.clear(); }
+ void add_atrace_apps(std::string value) { atrace_apps_.emplace_back(value); }
+ std::string* add_atrace_apps() { atrace_apps_.emplace_back(); return &atrace_apps_.back(); }
+
+ bool has_buffer_size_kb() const { return _has_field_[10]; }
+ uint32_t buffer_size_kb() const { return buffer_size_kb_; }
+ void set_buffer_size_kb(uint32_t value) { buffer_size_kb_ = value; _has_field_.set(10); }
+
+ bool has_drain_period_ms() const { return _has_field_[11]; }
+ uint32_t drain_period_ms() const { return drain_period_ms_; }
+ void set_drain_period_ms(uint32_t value) { drain_period_ms_ = value; _has_field_.set(11); }
+
+ bool has_drain_buffer_percent() const { return _has_field_[26]; }
+ uint32_t drain_buffer_percent() const { return drain_buffer_percent_; }
+ void set_drain_buffer_percent(uint32_t value) { drain_buffer_percent_ = value; _has_field_.set(26); }
+
+ bool has_compact_sched() const { return _has_field_[12]; }
+ const FtraceConfig_CompactSchedConfig& compact_sched() const { return *compact_sched_; }
+ FtraceConfig_CompactSchedConfig* mutable_compact_sched() { _has_field_.set(12); return compact_sched_.get(); }
+
+ bool has_print_filter() const { return _has_field_[22]; }
+ const FtraceConfig_PrintFilter& print_filter() const { return *print_filter_; }
+ FtraceConfig_PrintFilter* mutable_print_filter() { _has_field_.set(22); return print_filter_.get(); }
+
+ bool has_symbolize_ksyms() const { return _has_field_[13]; }
+ bool symbolize_ksyms() const { return symbolize_ksyms_; }
+ void set_symbolize_ksyms(bool value) { symbolize_ksyms_ = value; _has_field_.set(13); }
+
+ bool has_ksyms_mem_policy() const { return _has_field_[17]; }
+ FtraceConfig_KsymsMemPolicy ksyms_mem_policy() const { return ksyms_mem_policy_; }
+ void set_ksyms_mem_policy(FtraceConfig_KsymsMemPolicy value) { ksyms_mem_policy_ = value; _has_field_.set(17); }
+
+ bool has_initialize_ksyms_synchronously_for_testing() const { return _has_field_[14]; }
+ bool initialize_ksyms_synchronously_for_testing() const { return initialize_ksyms_synchronously_for_testing_; }
+ void set_initialize_ksyms_synchronously_for_testing(bool value) { initialize_ksyms_synchronously_for_testing_ = value; _has_field_.set(14); }
+
+ bool has_throttle_rss_stat() const { return _has_field_[15]; }
+ bool throttle_rss_stat() const { return throttle_rss_stat_; }
+ void set_throttle_rss_stat(bool value) { throttle_rss_stat_ = value; _has_field_.set(15); }
+
+ bool has_disable_generic_events() const { return _has_field_[16]; }
+ bool disable_generic_events() const { return disable_generic_events_; }
+ void set_disable_generic_events(bool value) { disable_generic_events_ = value; _has_field_.set(16); }
+
+ const std::vector<std::string>& syscall_events() const { return syscall_events_; }
+ std::vector<std::string>* mutable_syscall_events() { return &syscall_events_; }
+ int syscall_events_size() const { return static_cast<int>(syscall_events_.size()); }
+ void clear_syscall_events() { syscall_events_.clear(); }
+ void add_syscall_events(std::string value) { syscall_events_.emplace_back(value); }
+ std::string* add_syscall_events() { syscall_events_.emplace_back(); return &syscall_events_.back(); }
+
+ bool has_enable_function_graph() const { return _has_field_[19]; }
+ bool enable_function_graph() const { return enable_function_graph_; }
+ void set_enable_function_graph(bool value) { enable_function_graph_ = value; _has_field_.set(19); }
+
+ const std::vector<std::string>& function_filters() const { return function_filters_; }
+ std::vector<std::string>* mutable_function_filters() { return &function_filters_; }
+ int function_filters_size() const { return static_cast<int>(function_filters_.size()); }
+ void clear_function_filters() { function_filters_.clear(); }
+ void add_function_filters(std::string value) { function_filters_.emplace_back(value); }
+ std::string* add_function_filters() { function_filters_.emplace_back(); return &function_filters_.back(); }
+
+ const std::vector<std::string>& function_graph_roots() const { return function_graph_roots_; }
+ std::vector<std::string>* mutable_function_graph_roots() { return &function_graph_roots_; }
+ int function_graph_roots_size() const { return static_cast<int>(function_graph_roots_.size()); }
+ void clear_function_graph_roots() { function_graph_roots_.clear(); }
+ void add_function_graph_roots(std::string value) { function_graph_roots_.emplace_back(value); }
+ std::string* add_function_graph_roots() { function_graph_roots_.emplace_back(); return &function_graph_roots_.back(); }
+
+ bool has_preserve_ftrace_buffer() const { return _has_field_[23]; }
+ bool preserve_ftrace_buffer() const { return preserve_ftrace_buffer_; }
+ void set_preserve_ftrace_buffer(bool value) { preserve_ftrace_buffer_ = value; _has_field_.set(23); }
+
+ bool has_use_monotonic_raw_clock() const { return _has_field_[24]; }
+ bool use_monotonic_raw_clock() const { return use_monotonic_raw_clock_; }
+ void set_use_monotonic_raw_clock(bool value) { use_monotonic_raw_clock_ = value; _has_field_.set(24); }
+
+ bool has_instance_name() const { return _has_field_[25]; }
+ const std::string& instance_name() const { return instance_name_; }
+ void set_instance_name(const std::string& value) { instance_name_ = value; _has_field_.set(25); }
+
+ bool has_buffer_size_lower_bound() const { return _has_field_[27]; }
+ bool buffer_size_lower_bound() const { return buffer_size_lower_bound_; }
+ void set_buffer_size_lower_bound(bool value) { buffer_size_lower_bound_ = value; _has_field_.set(27); }
+
+ private:
+ std::vector<std::string> ftrace_events_;
+ std::vector<std::string> atrace_categories_;
+ std::vector<std::string> atrace_apps_;
+ uint32_t buffer_size_kb_{};
+ uint32_t drain_period_ms_{};
+ uint32_t drain_buffer_percent_{};
+ ::protozero::CopyablePtr<FtraceConfig_CompactSchedConfig> compact_sched_;
+ ::protozero::CopyablePtr<FtraceConfig_PrintFilter> print_filter_;
+ bool symbolize_ksyms_{};
+ FtraceConfig_KsymsMemPolicy ksyms_mem_policy_{};
+ bool initialize_ksyms_synchronously_for_testing_{};
+ bool throttle_rss_stat_{};
+ bool disable_generic_events_{};
+ std::vector<std::string> syscall_events_;
+ bool enable_function_graph_{};
+ std::vector<std::string> function_filters_;
+ std::vector<std::string> function_graph_roots_;
+ bool preserve_ftrace_buffer_{};
+ bool use_monotonic_raw_clock_{};
+ std::string instance_name_{};
+ bool buffer_size_lower_bound_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<28> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT FtraceConfig_PrintFilter : public ::protozero::CppMessageObj {
+ public:
+ using Rule = FtraceConfig_PrintFilter_Rule;
+ enum FieldNumbers {
+ kRulesFieldNumber = 1,
+ };
+
+ FtraceConfig_PrintFilter();
+ ~FtraceConfig_PrintFilter() override;
+ FtraceConfig_PrintFilter(FtraceConfig_PrintFilter&&) noexcept;
+ FtraceConfig_PrintFilter& operator=(FtraceConfig_PrintFilter&&);
+ FtraceConfig_PrintFilter(const FtraceConfig_PrintFilter&);
+ FtraceConfig_PrintFilter& operator=(const FtraceConfig_PrintFilter&);
+ bool operator==(const FtraceConfig_PrintFilter&) const;
+ bool operator!=(const FtraceConfig_PrintFilter& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ const std::vector<FtraceConfig_PrintFilter_Rule>& rules() const { return rules_; }
+ std::vector<FtraceConfig_PrintFilter_Rule>* mutable_rules() { return &rules_; }
+ int rules_size() const;
+ void clear_rules();
+ FtraceConfig_PrintFilter_Rule* add_rules();
+
+ private:
+ std::vector<FtraceConfig_PrintFilter_Rule> rules_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT FtraceConfig_PrintFilter_Rule : public ::protozero::CppMessageObj {
+ public:
+ using AtraceMessage = FtraceConfig_PrintFilter_Rule_AtraceMessage;
+ enum FieldNumbers {
+ kPrefixFieldNumber = 1,
+ kAtraceMsgFieldNumber = 3,
+ kAllowFieldNumber = 2,
+ };
+
+ FtraceConfig_PrintFilter_Rule();
+ ~FtraceConfig_PrintFilter_Rule() override;
+ FtraceConfig_PrintFilter_Rule(FtraceConfig_PrintFilter_Rule&&) noexcept;
+ FtraceConfig_PrintFilter_Rule& operator=(FtraceConfig_PrintFilter_Rule&&);
+ FtraceConfig_PrintFilter_Rule(const FtraceConfig_PrintFilter_Rule&);
+ FtraceConfig_PrintFilter_Rule& operator=(const FtraceConfig_PrintFilter_Rule&);
+ bool operator==(const FtraceConfig_PrintFilter_Rule&) const;
+ bool operator!=(const FtraceConfig_PrintFilter_Rule& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_prefix() const { return _has_field_[1]; }
+ const std::string& prefix() const { return prefix_; }
+ void set_prefix(const std::string& value) { prefix_ = value; _has_field_.set(1); }
+
+ bool has_atrace_msg() const { return _has_field_[3]; }
+ const FtraceConfig_PrintFilter_Rule_AtraceMessage& atrace_msg() const { return *atrace_msg_; }
+ FtraceConfig_PrintFilter_Rule_AtraceMessage* mutable_atrace_msg() { _has_field_.set(3); return atrace_msg_.get(); }
+
+ bool has_allow() const { return _has_field_[2]; }
+ bool allow() const { return allow_; }
+ void set_allow(bool value) { allow_ = value; _has_field_.set(2); }
+
+ private:
+ std::string prefix_{};
+ ::protozero::CopyablePtr<FtraceConfig_PrintFilter_Rule_AtraceMessage> atrace_msg_;
+ bool allow_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<4> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT FtraceConfig_PrintFilter_Rule_AtraceMessage : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kTypeFieldNumber = 1,
+ kPrefixFieldNumber = 2,
+ };
+
+ FtraceConfig_PrintFilter_Rule_AtraceMessage();
+ ~FtraceConfig_PrintFilter_Rule_AtraceMessage() override;
+ FtraceConfig_PrintFilter_Rule_AtraceMessage(FtraceConfig_PrintFilter_Rule_AtraceMessage&&) noexcept;
+ FtraceConfig_PrintFilter_Rule_AtraceMessage& operator=(FtraceConfig_PrintFilter_Rule_AtraceMessage&&);
+ FtraceConfig_PrintFilter_Rule_AtraceMessage(const FtraceConfig_PrintFilter_Rule_AtraceMessage&);
+ FtraceConfig_PrintFilter_Rule_AtraceMessage& operator=(const FtraceConfig_PrintFilter_Rule_AtraceMessage&);
+ bool operator==(const FtraceConfig_PrintFilter_Rule_AtraceMessage&) const;
+ bool operator!=(const FtraceConfig_PrintFilter_Rule_AtraceMessage& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_type() const { return _has_field_[1]; }
+ const std::string& type() const { return type_; }
+ void set_type(const std::string& value) { type_ = value; _has_field_.set(1); }
+
+ bool has_prefix() const { return _has_field_[2]; }
+ const std::string& prefix() const { return prefix_; }
+ void set_prefix(const std::string& value) { prefix_ = value; _has_field_.set(2); }
+
+ private:
+ std::string type_{};
+ std::string prefix_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<3> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT FtraceConfig_CompactSchedConfig : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kEnabledFieldNumber = 1,
+ };
+
+ FtraceConfig_CompactSchedConfig();
+ ~FtraceConfig_CompactSchedConfig() override;
+ FtraceConfig_CompactSchedConfig(FtraceConfig_CompactSchedConfig&&) noexcept;
+ FtraceConfig_CompactSchedConfig& operator=(FtraceConfig_CompactSchedConfig&&);
+ FtraceConfig_CompactSchedConfig(const FtraceConfig_CompactSchedConfig&);
+ FtraceConfig_CompactSchedConfig& operator=(const FtraceConfig_CompactSchedConfig&);
+ bool operator==(const FtraceConfig_CompactSchedConfig&) const;
+ bool operator!=(const FtraceConfig_CompactSchedConfig& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_enabled() const { return _has_field_[1]; }
+ bool enabled() const { return enabled_; }
+ void set_enabled(bool value) { enabled_ = value; _has_field_.set(1); }
+
+ private:
+ bool enabled_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_FTRACE_FTRACE_CONFIG_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/config/gpu/gpu_counter_config.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_GPU_GPU_COUNTER_CONFIG_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_GPU_GPU_COUNTER_CONFIG_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class GpuCounterConfig;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+class PERFETTO_EXPORT_COMPONENT GpuCounterConfig : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kCounterPeriodNsFieldNumber = 1,
+ kCounterIdsFieldNumber = 2,
+ kInstrumentedSamplingFieldNumber = 3,
+ kFixGpuClockFieldNumber = 4,
+ };
+
+ GpuCounterConfig();
+ ~GpuCounterConfig() override;
+ GpuCounterConfig(GpuCounterConfig&&) noexcept;
+ GpuCounterConfig& operator=(GpuCounterConfig&&);
+ GpuCounterConfig(const GpuCounterConfig&);
+ GpuCounterConfig& operator=(const GpuCounterConfig&);
+ bool operator==(const GpuCounterConfig&) const;
+ bool operator!=(const GpuCounterConfig& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_counter_period_ns() const { return _has_field_[1]; }
+ uint64_t counter_period_ns() const { return counter_period_ns_; }
+ void set_counter_period_ns(uint64_t value) { counter_period_ns_ = value; _has_field_.set(1); }
+
+ const std::vector<uint32_t>& counter_ids() const { return counter_ids_; }
+ std::vector<uint32_t>* mutable_counter_ids() { return &counter_ids_; }
+ int counter_ids_size() const { return static_cast<int>(counter_ids_.size()); }
+ void clear_counter_ids() { counter_ids_.clear(); }
+ void add_counter_ids(uint32_t value) { counter_ids_.emplace_back(value); }
+ uint32_t* add_counter_ids() { counter_ids_.emplace_back(); return &counter_ids_.back(); }
+
+ bool has_instrumented_sampling() const { return _has_field_[3]; }
+ bool instrumented_sampling() const { return instrumented_sampling_; }
+ void set_instrumented_sampling(bool value) { instrumented_sampling_ = value; _has_field_.set(3); }
+
+ bool has_fix_gpu_clock() const { return _has_field_[4]; }
+ bool fix_gpu_clock() const { return fix_gpu_clock_; }
+ void set_fix_gpu_clock(bool value) { fix_gpu_clock_ = value; _has_field_.set(4); }
+
+ private:
+ uint64_t counter_period_ns_{};
+ std::vector<uint32_t> counter_ids_;
+ bool instrumented_sampling_{};
+ bool fix_gpu_clock_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<5> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_GPU_GPU_COUNTER_CONFIG_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/config/gpu/vulkan_memory_config.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_GPU_VULKAN_MEMORY_CONFIG_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_GPU_VULKAN_MEMORY_CONFIG_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class VulkanMemoryConfig;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+class PERFETTO_EXPORT_COMPONENT VulkanMemoryConfig : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kTrackDriverMemoryUsageFieldNumber = 1,
+ kTrackDeviceMemoryUsageFieldNumber = 2,
+ };
+
+ VulkanMemoryConfig();
+ ~VulkanMemoryConfig() override;
+ VulkanMemoryConfig(VulkanMemoryConfig&&) noexcept;
+ VulkanMemoryConfig& operator=(VulkanMemoryConfig&&);
+ VulkanMemoryConfig(const VulkanMemoryConfig&);
+ VulkanMemoryConfig& operator=(const VulkanMemoryConfig&);
+ bool operator==(const VulkanMemoryConfig&) const;
+ bool operator!=(const VulkanMemoryConfig& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_track_driver_memory_usage() const { return _has_field_[1]; }
+ bool track_driver_memory_usage() const { return track_driver_memory_usage_; }
+ void set_track_driver_memory_usage(bool value) { track_driver_memory_usage_ = value; _has_field_.set(1); }
+
+ bool has_track_device_memory_usage() const { return _has_field_[2]; }
+ bool track_device_memory_usage() const { return track_device_memory_usage_; }
+ void set_track_device_memory_usage(bool value) { track_device_memory_usage_ = value; _has_field_.set(2); }
+
+ private:
+ bool track_driver_memory_usage_{};
+ bool track_device_memory_usage_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<3> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_GPU_VULKAN_MEMORY_CONFIG_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/config/inode_file/inode_file_config.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_INODE_FILE_INODE_FILE_CONFIG_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_INODE_FILE_INODE_FILE_CONFIG_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class InodeFileConfig;
+class InodeFileConfig_MountPointMappingEntry;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+class PERFETTO_EXPORT_COMPONENT InodeFileConfig : public ::protozero::CppMessageObj {
+ public:
+ using MountPointMappingEntry = InodeFileConfig_MountPointMappingEntry;
+ enum FieldNumbers {
+ kScanIntervalMsFieldNumber = 1,
+ kScanDelayMsFieldNumber = 2,
+ kScanBatchSizeFieldNumber = 3,
+ kDoNotScanFieldNumber = 4,
+ kScanMountPointsFieldNumber = 5,
+ kMountPointMappingFieldNumber = 6,
+ };
+
+ InodeFileConfig();
+ ~InodeFileConfig() override;
+ InodeFileConfig(InodeFileConfig&&) noexcept;
+ InodeFileConfig& operator=(InodeFileConfig&&);
+ InodeFileConfig(const InodeFileConfig&);
+ InodeFileConfig& operator=(const InodeFileConfig&);
+ bool operator==(const InodeFileConfig&) const;
+ bool operator!=(const InodeFileConfig& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_scan_interval_ms() const { return _has_field_[1]; }
+ uint32_t scan_interval_ms() const { return scan_interval_ms_; }
+ void set_scan_interval_ms(uint32_t value) { scan_interval_ms_ = value; _has_field_.set(1); }
+
+ bool has_scan_delay_ms() const { return _has_field_[2]; }
+ uint32_t scan_delay_ms() const { return scan_delay_ms_; }
+ void set_scan_delay_ms(uint32_t value) { scan_delay_ms_ = value; _has_field_.set(2); }
+
+ bool has_scan_batch_size() const { return _has_field_[3]; }
+ uint32_t scan_batch_size() const { return scan_batch_size_; }
+ void set_scan_batch_size(uint32_t value) { scan_batch_size_ = value; _has_field_.set(3); }
+
+ bool has_do_not_scan() const { return _has_field_[4]; }
+ bool do_not_scan() const { return do_not_scan_; }
+ void set_do_not_scan(bool value) { do_not_scan_ = value; _has_field_.set(4); }
+
+ const std::vector<std::string>& scan_mount_points() const { return scan_mount_points_; }
+ std::vector<std::string>* mutable_scan_mount_points() { return &scan_mount_points_; }
+ int scan_mount_points_size() const { return static_cast<int>(scan_mount_points_.size()); }
+ void clear_scan_mount_points() { scan_mount_points_.clear(); }
+ void add_scan_mount_points(std::string value) { scan_mount_points_.emplace_back(value); }
+ std::string* add_scan_mount_points() { scan_mount_points_.emplace_back(); return &scan_mount_points_.back(); }
+
+ const std::vector<InodeFileConfig_MountPointMappingEntry>& mount_point_mapping() const { return mount_point_mapping_; }
+ std::vector<InodeFileConfig_MountPointMappingEntry>* mutable_mount_point_mapping() { return &mount_point_mapping_; }
+ int mount_point_mapping_size() const;
+ void clear_mount_point_mapping();
+ InodeFileConfig_MountPointMappingEntry* add_mount_point_mapping();
+
+ private:
+ uint32_t scan_interval_ms_{};
+ uint32_t scan_delay_ms_{};
+ uint32_t scan_batch_size_{};
+ bool do_not_scan_{};
+ std::vector<std::string> scan_mount_points_;
+ std::vector<InodeFileConfig_MountPointMappingEntry> mount_point_mapping_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<7> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT InodeFileConfig_MountPointMappingEntry : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kMountpointFieldNumber = 1,
+ kScanRootsFieldNumber = 2,
+ };
+
+ InodeFileConfig_MountPointMappingEntry();
+ ~InodeFileConfig_MountPointMappingEntry() override;
+ InodeFileConfig_MountPointMappingEntry(InodeFileConfig_MountPointMappingEntry&&) noexcept;
+ InodeFileConfig_MountPointMappingEntry& operator=(InodeFileConfig_MountPointMappingEntry&&);
+ InodeFileConfig_MountPointMappingEntry(const InodeFileConfig_MountPointMappingEntry&);
+ InodeFileConfig_MountPointMappingEntry& operator=(const InodeFileConfig_MountPointMappingEntry&);
+ bool operator==(const InodeFileConfig_MountPointMappingEntry&) const;
+ bool operator!=(const InodeFileConfig_MountPointMappingEntry& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_mountpoint() const { return _has_field_[1]; }
+ const std::string& mountpoint() const { return mountpoint_; }
+ void set_mountpoint(const std::string& value) { mountpoint_ = value; _has_field_.set(1); }
+
+ const std::vector<std::string>& scan_roots() const { return scan_roots_; }
+ std::vector<std::string>* mutable_scan_roots() { return &scan_roots_; }
+ int scan_roots_size() const { return static_cast<int>(scan_roots_.size()); }
+ void clear_scan_roots() { scan_roots_.clear(); }
+ void add_scan_roots(std::string value) { scan_roots_.emplace_back(value); }
+ std::string* add_scan_roots() { scan_roots_.emplace_back(); return &scan_roots_.back(); }
+
+ private:
+ std::string mountpoint_{};
+ std::vector<std::string> scan_roots_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<3> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_INODE_FILE_INODE_FILE_CONFIG_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/config/interceptors/console_config.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_INTERCEPTORS_CONSOLE_CONFIG_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_INTERCEPTORS_CONSOLE_CONFIG_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class ConsoleConfig;
+enum ConsoleConfig_Output : int;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+enum ConsoleConfig_Output : int {
+ ConsoleConfig_Output_OUTPUT_UNSPECIFIED = 0,
+ ConsoleConfig_Output_OUTPUT_STDOUT = 1,
+ ConsoleConfig_Output_OUTPUT_STDERR = 2,
+};
+
+class PERFETTO_EXPORT_COMPONENT ConsoleConfig : public ::protozero::CppMessageObj {
+ public:
+ using Output = ConsoleConfig_Output;
+ static constexpr auto OUTPUT_UNSPECIFIED = ConsoleConfig_Output_OUTPUT_UNSPECIFIED;
+ static constexpr auto OUTPUT_STDOUT = ConsoleConfig_Output_OUTPUT_STDOUT;
+ static constexpr auto OUTPUT_STDERR = ConsoleConfig_Output_OUTPUT_STDERR;
+ static constexpr auto Output_MIN = ConsoleConfig_Output_OUTPUT_UNSPECIFIED;
+ static constexpr auto Output_MAX = ConsoleConfig_Output_OUTPUT_STDERR;
+ enum FieldNumbers {
+ kOutputFieldNumber = 1,
+ kEnableColorsFieldNumber = 2,
+ };
+
+ ConsoleConfig();
+ ~ConsoleConfig() override;
+ ConsoleConfig(ConsoleConfig&&) noexcept;
+ ConsoleConfig& operator=(ConsoleConfig&&);
+ ConsoleConfig(const ConsoleConfig&);
+ ConsoleConfig& operator=(const ConsoleConfig&);
+ bool operator==(const ConsoleConfig&) const;
+ bool operator!=(const ConsoleConfig& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_output() const { return _has_field_[1]; }
+ ConsoleConfig_Output output() const { return output_; }
+ void set_output(ConsoleConfig_Output value) { output_ = value; _has_field_.set(1); }
+
+ bool has_enable_colors() const { return _has_field_[2]; }
+ bool enable_colors() const { return enable_colors_; }
+ void set_enable_colors(bool value) { enable_colors_ = value; _has_field_.set(2); }
+
+ private:
+ ConsoleConfig_Output output_{};
+ bool enable_colors_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<3> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_INTERCEPTORS_CONSOLE_CONFIG_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/config/power/android_power_config.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_POWER_ANDROID_POWER_CONFIG_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_POWER_ANDROID_POWER_CONFIG_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class AndroidPowerConfig;
+enum AndroidPowerConfig_BatteryCounters : int;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+enum AndroidPowerConfig_BatteryCounters : int {
+ AndroidPowerConfig_BatteryCounters_BATTERY_COUNTER_UNSPECIFIED = 0,
+ AndroidPowerConfig_BatteryCounters_BATTERY_COUNTER_CHARGE = 1,
+ AndroidPowerConfig_BatteryCounters_BATTERY_COUNTER_CAPACITY_PERCENT = 2,
+ AndroidPowerConfig_BatteryCounters_BATTERY_COUNTER_CURRENT = 3,
+ AndroidPowerConfig_BatteryCounters_BATTERY_COUNTER_CURRENT_AVG = 4,
+ AndroidPowerConfig_BatteryCounters_BATTERY_COUNTER_VOLTAGE = 5,
+};
+
+class PERFETTO_EXPORT_COMPONENT AndroidPowerConfig : public ::protozero::CppMessageObj {
+ public:
+ using BatteryCounters = AndroidPowerConfig_BatteryCounters;
+ static constexpr auto BATTERY_COUNTER_UNSPECIFIED = AndroidPowerConfig_BatteryCounters_BATTERY_COUNTER_UNSPECIFIED;
+ static constexpr auto BATTERY_COUNTER_CHARGE = AndroidPowerConfig_BatteryCounters_BATTERY_COUNTER_CHARGE;
+ static constexpr auto BATTERY_COUNTER_CAPACITY_PERCENT = AndroidPowerConfig_BatteryCounters_BATTERY_COUNTER_CAPACITY_PERCENT;
+ static constexpr auto BATTERY_COUNTER_CURRENT = AndroidPowerConfig_BatteryCounters_BATTERY_COUNTER_CURRENT;
+ static constexpr auto BATTERY_COUNTER_CURRENT_AVG = AndroidPowerConfig_BatteryCounters_BATTERY_COUNTER_CURRENT_AVG;
+ static constexpr auto BATTERY_COUNTER_VOLTAGE = AndroidPowerConfig_BatteryCounters_BATTERY_COUNTER_VOLTAGE;
+ static constexpr auto BatteryCounters_MIN = AndroidPowerConfig_BatteryCounters_BATTERY_COUNTER_UNSPECIFIED;
+ static constexpr auto BatteryCounters_MAX = AndroidPowerConfig_BatteryCounters_BATTERY_COUNTER_VOLTAGE;
+ enum FieldNumbers {
+ kBatteryPollMsFieldNumber = 1,
+ kBatteryCountersFieldNumber = 2,
+ kCollectPowerRailsFieldNumber = 3,
+ kCollectEnergyEstimationBreakdownFieldNumber = 4,
+ kCollectEntityStateResidencyFieldNumber = 5,
+ };
+
+ AndroidPowerConfig();
+ ~AndroidPowerConfig() override;
+ AndroidPowerConfig(AndroidPowerConfig&&) noexcept;
+ AndroidPowerConfig& operator=(AndroidPowerConfig&&);
+ AndroidPowerConfig(const AndroidPowerConfig&);
+ AndroidPowerConfig& operator=(const AndroidPowerConfig&);
+ bool operator==(const AndroidPowerConfig&) const;
+ bool operator!=(const AndroidPowerConfig& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_battery_poll_ms() const { return _has_field_[1]; }
+ uint32_t battery_poll_ms() const { return battery_poll_ms_; }
+ void set_battery_poll_ms(uint32_t value) { battery_poll_ms_ = value; _has_field_.set(1); }
+
+ const std::vector<AndroidPowerConfig_BatteryCounters>& battery_counters() const { return battery_counters_; }
+ std::vector<AndroidPowerConfig_BatteryCounters>* mutable_battery_counters() { return &battery_counters_; }
+ int battery_counters_size() const { return static_cast<int>(battery_counters_.size()); }
+ void clear_battery_counters() { battery_counters_.clear(); }
+ void add_battery_counters(AndroidPowerConfig_BatteryCounters value) { battery_counters_.emplace_back(value); }
+ AndroidPowerConfig_BatteryCounters* add_battery_counters() { battery_counters_.emplace_back(); return &battery_counters_.back(); }
+
+ bool has_collect_power_rails() const { return _has_field_[3]; }
+ bool collect_power_rails() const { return collect_power_rails_; }
+ void set_collect_power_rails(bool value) { collect_power_rails_ = value; _has_field_.set(3); }
+
+ bool has_collect_energy_estimation_breakdown() const { return _has_field_[4]; }
+ bool collect_energy_estimation_breakdown() const { return collect_energy_estimation_breakdown_; }
+ void set_collect_energy_estimation_breakdown(bool value) { collect_energy_estimation_breakdown_ = value; _has_field_.set(4); }
+
+ bool has_collect_entity_state_residency() const { return _has_field_[5]; }
+ bool collect_entity_state_residency() const { return collect_entity_state_residency_; }
+ void set_collect_entity_state_residency(bool value) { collect_entity_state_residency_ = value; _has_field_.set(5); }
+
+ private:
+ uint32_t battery_poll_ms_{};
+ std::vector<AndroidPowerConfig_BatteryCounters> battery_counters_;
+ bool collect_power_rails_{};
+ bool collect_energy_estimation_breakdown_{};
+ bool collect_entity_state_residency_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<6> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_POWER_ANDROID_POWER_CONFIG_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/config/process_stats/process_stats_config.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_PROCESS_STATS_PROCESS_STATS_CONFIG_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_PROCESS_STATS_PROCESS_STATS_CONFIG_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class ProcessStatsConfig;
+enum ProcessStatsConfig_Quirks : int;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+enum ProcessStatsConfig_Quirks : int {
+ ProcessStatsConfig_Quirks_QUIRKS_UNSPECIFIED = 0,
+ ProcessStatsConfig_Quirks_DISABLE_INITIAL_DUMP = 1,
+ ProcessStatsConfig_Quirks_DISABLE_ON_DEMAND = 2,
+};
+
+class PERFETTO_EXPORT_COMPONENT ProcessStatsConfig : public ::protozero::CppMessageObj {
+ public:
+ using Quirks = ProcessStatsConfig_Quirks;
+ static constexpr auto QUIRKS_UNSPECIFIED = ProcessStatsConfig_Quirks_QUIRKS_UNSPECIFIED;
+ static constexpr auto DISABLE_INITIAL_DUMP = ProcessStatsConfig_Quirks_DISABLE_INITIAL_DUMP;
+ static constexpr auto DISABLE_ON_DEMAND = ProcessStatsConfig_Quirks_DISABLE_ON_DEMAND;
+ static constexpr auto Quirks_MIN = ProcessStatsConfig_Quirks_QUIRKS_UNSPECIFIED;
+ static constexpr auto Quirks_MAX = ProcessStatsConfig_Quirks_DISABLE_ON_DEMAND;
+ enum FieldNumbers {
+ kQuirksFieldNumber = 1,
+ kScanAllProcessesOnStartFieldNumber = 2,
+ kRecordThreadNamesFieldNumber = 3,
+ kProcStatsPollMsFieldNumber = 4,
+ kProcStatsCacheTtlMsFieldNumber = 6,
+ kResolveProcessFdsFieldNumber = 9,
+ kScanSmapsRollupFieldNumber = 10,
+ kRecordProcessAgeFieldNumber = 11,
+ kRecordProcessRuntimeFieldNumber = 12,
+ };
+
+ ProcessStatsConfig();
+ ~ProcessStatsConfig() override;
+ ProcessStatsConfig(ProcessStatsConfig&&) noexcept;
+ ProcessStatsConfig& operator=(ProcessStatsConfig&&);
+ ProcessStatsConfig(const ProcessStatsConfig&);
+ ProcessStatsConfig& operator=(const ProcessStatsConfig&);
+ bool operator==(const ProcessStatsConfig&) const;
+ bool operator!=(const ProcessStatsConfig& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ const std::vector<ProcessStatsConfig_Quirks>& quirks() const { return quirks_; }
+ std::vector<ProcessStatsConfig_Quirks>* mutable_quirks() { return &quirks_; }
+ int quirks_size() const { return static_cast<int>(quirks_.size()); }
+ void clear_quirks() { quirks_.clear(); }
+ void add_quirks(ProcessStatsConfig_Quirks value) { quirks_.emplace_back(value); }
+ ProcessStatsConfig_Quirks* add_quirks() { quirks_.emplace_back(); return &quirks_.back(); }
+
+ bool has_scan_all_processes_on_start() const { return _has_field_[2]; }
+ bool scan_all_processes_on_start() const { return scan_all_processes_on_start_; }
+ void set_scan_all_processes_on_start(bool value) { scan_all_processes_on_start_ = value; _has_field_.set(2); }
+
+ bool has_record_thread_names() const { return _has_field_[3]; }
+ bool record_thread_names() const { return record_thread_names_; }
+ void set_record_thread_names(bool value) { record_thread_names_ = value; _has_field_.set(3); }
+
+ bool has_proc_stats_poll_ms() const { return _has_field_[4]; }
+ uint32_t proc_stats_poll_ms() const { return proc_stats_poll_ms_; }
+ void set_proc_stats_poll_ms(uint32_t value) { proc_stats_poll_ms_ = value; _has_field_.set(4); }
+
+ bool has_proc_stats_cache_ttl_ms() const { return _has_field_[6]; }
+ uint32_t proc_stats_cache_ttl_ms() const { return proc_stats_cache_ttl_ms_; }
+ void set_proc_stats_cache_ttl_ms(uint32_t value) { proc_stats_cache_ttl_ms_ = value; _has_field_.set(6); }
+
+ bool has_resolve_process_fds() const { return _has_field_[9]; }
+ bool resolve_process_fds() const { return resolve_process_fds_; }
+ void set_resolve_process_fds(bool value) { resolve_process_fds_ = value; _has_field_.set(9); }
+
+ bool has_scan_smaps_rollup() const { return _has_field_[10]; }
+ bool scan_smaps_rollup() const { return scan_smaps_rollup_; }
+ void set_scan_smaps_rollup(bool value) { scan_smaps_rollup_ = value; _has_field_.set(10); }
+
+ bool has_record_process_age() const { return _has_field_[11]; }
+ bool record_process_age() const { return record_process_age_; }
+ void set_record_process_age(bool value) { record_process_age_ = value; _has_field_.set(11); }
+
+ bool has_record_process_runtime() const { return _has_field_[12]; }
+ bool record_process_runtime() const { return record_process_runtime_; }
+ void set_record_process_runtime(bool value) { record_process_runtime_ = value; _has_field_.set(12); }
+
+ private:
+ std::vector<ProcessStatsConfig_Quirks> quirks_;
+ bool scan_all_processes_on_start_{};
+ bool record_thread_names_{};
+ uint32_t proc_stats_poll_ms_{};
+ uint32_t proc_stats_cache_ttl_ms_{};
+ bool resolve_process_fds_{};
+ bool scan_smaps_rollup_{};
+ bool record_process_age_{};
+ bool record_process_runtime_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<13> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_PROCESS_STATS_PROCESS_STATS_CONFIG_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/config/profiling/heapprofd_config.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_PROFILING_HEAPPROFD_CONFIG_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_PROFILING_HEAPPROFD_CONFIG_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class HeapprofdConfig;
+class HeapprofdConfig_ContinuousDumpConfig;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+class PERFETTO_EXPORT_COMPONENT HeapprofdConfig : public ::protozero::CppMessageObj {
+ public:
+ using ContinuousDumpConfig = HeapprofdConfig_ContinuousDumpConfig;
+ enum FieldNumbers {
+ kSamplingIntervalBytesFieldNumber = 1,
+ kAdaptiveSamplingShmemThresholdFieldNumber = 24,
+ kAdaptiveSamplingMaxSamplingIntervalBytesFieldNumber = 25,
+ kProcessCmdlineFieldNumber = 2,
+ kPidFieldNumber = 4,
+ kTargetInstalledByFieldNumber = 26,
+ kHeapsFieldNumber = 20,
+ kExcludeHeapsFieldNumber = 27,
+ kStreamAllocationsFieldNumber = 23,
+ kHeapSamplingIntervalsFieldNumber = 22,
+ kAllHeapsFieldNumber = 21,
+ kAllFieldNumber = 5,
+ kMinAnonymousMemoryKbFieldNumber = 15,
+ kMaxHeapprofdMemoryKbFieldNumber = 16,
+ kMaxHeapprofdCpuSecsFieldNumber = 17,
+ kSkipSymbolPrefixFieldNumber = 7,
+ kContinuousDumpConfigFieldNumber = 6,
+ kShmemSizeBytesFieldNumber = 8,
+ kBlockClientFieldNumber = 9,
+ kBlockClientTimeoutUsFieldNumber = 14,
+ kNoStartupFieldNumber = 10,
+ kNoRunningFieldNumber = 11,
+ kDumpAtMaxFieldNumber = 13,
+ kDisableForkTeardownFieldNumber = 18,
+ kDisableVforkDetectionFieldNumber = 19,
+ };
+
+ HeapprofdConfig();
+ ~HeapprofdConfig() override;
+ HeapprofdConfig(HeapprofdConfig&&) noexcept;
+ HeapprofdConfig& operator=(HeapprofdConfig&&);
+ HeapprofdConfig(const HeapprofdConfig&);
+ HeapprofdConfig& operator=(const HeapprofdConfig&);
+ bool operator==(const HeapprofdConfig&) const;
+ bool operator!=(const HeapprofdConfig& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_sampling_interval_bytes() const { return _has_field_[1]; }
+ uint64_t sampling_interval_bytes() const { return sampling_interval_bytes_; }
+ void set_sampling_interval_bytes(uint64_t value) { sampling_interval_bytes_ = value; _has_field_.set(1); }
+
+ bool has_adaptive_sampling_shmem_threshold() const { return _has_field_[24]; }
+ uint64_t adaptive_sampling_shmem_threshold() const { return adaptive_sampling_shmem_threshold_; }
+ void set_adaptive_sampling_shmem_threshold(uint64_t value) { adaptive_sampling_shmem_threshold_ = value; _has_field_.set(24); }
+
+ bool has_adaptive_sampling_max_sampling_interval_bytes() const { return _has_field_[25]; }
+ uint64_t adaptive_sampling_max_sampling_interval_bytes() const { return adaptive_sampling_max_sampling_interval_bytes_; }
+ void set_adaptive_sampling_max_sampling_interval_bytes(uint64_t value) { adaptive_sampling_max_sampling_interval_bytes_ = value; _has_field_.set(25); }
+
+ const std::vector<std::string>& process_cmdline() const { return process_cmdline_; }
+ std::vector<std::string>* mutable_process_cmdline() { return &process_cmdline_; }
+ int process_cmdline_size() const { return static_cast<int>(process_cmdline_.size()); }
+ void clear_process_cmdline() { process_cmdline_.clear(); }
+ void add_process_cmdline(std::string value) { process_cmdline_.emplace_back(value); }
+ std::string* add_process_cmdline() { process_cmdline_.emplace_back(); return &process_cmdline_.back(); }
+
+ const std::vector<uint64_t>& pid() const { return pid_; }
+ std::vector<uint64_t>* mutable_pid() { return &pid_; }
+ int pid_size() const { return static_cast<int>(pid_.size()); }
+ void clear_pid() { pid_.clear(); }
+ void add_pid(uint64_t value) { pid_.emplace_back(value); }
+ uint64_t* add_pid() { pid_.emplace_back(); return &pid_.back(); }
+
+ const std::vector<std::string>& target_installed_by() const { return target_installed_by_; }
+ std::vector<std::string>* mutable_target_installed_by() { return &target_installed_by_; }
+ int target_installed_by_size() const { return static_cast<int>(target_installed_by_.size()); }
+ void clear_target_installed_by() { target_installed_by_.clear(); }
+ void add_target_installed_by(std::string value) { target_installed_by_.emplace_back(value); }
+ std::string* add_target_installed_by() { target_installed_by_.emplace_back(); return &target_installed_by_.back(); }
+
+ const std::vector<std::string>& heaps() const { return heaps_; }
+ std::vector<std::string>* mutable_heaps() { return &heaps_; }
+ int heaps_size() const { return static_cast<int>(heaps_.size()); }
+ void clear_heaps() { heaps_.clear(); }
+ void add_heaps(std::string value) { heaps_.emplace_back(value); }
+ std::string* add_heaps() { heaps_.emplace_back(); return &heaps_.back(); }
+
+ const std::vector<std::string>& exclude_heaps() const { return exclude_heaps_; }
+ std::vector<std::string>* mutable_exclude_heaps() { return &exclude_heaps_; }
+ int exclude_heaps_size() const { return static_cast<int>(exclude_heaps_.size()); }
+ void clear_exclude_heaps() { exclude_heaps_.clear(); }
+ void add_exclude_heaps(std::string value) { exclude_heaps_.emplace_back(value); }
+ std::string* add_exclude_heaps() { exclude_heaps_.emplace_back(); return &exclude_heaps_.back(); }
+
+ bool has_stream_allocations() const { return _has_field_[23]; }
+ bool stream_allocations() const { return stream_allocations_; }
+ void set_stream_allocations(bool value) { stream_allocations_ = value; _has_field_.set(23); }
+
+ const std::vector<uint64_t>& heap_sampling_intervals() const { return heap_sampling_intervals_; }
+ std::vector<uint64_t>* mutable_heap_sampling_intervals() { return &heap_sampling_intervals_; }
+ int heap_sampling_intervals_size() const { return static_cast<int>(heap_sampling_intervals_.size()); }
+ void clear_heap_sampling_intervals() { heap_sampling_intervals_.clear(); }
+ void add_heap_sampling_intervals(uint64_t value) { heap_sampling_intervals_.emplace_back(value); }
+ uint64_t* add_heap_sampling_intervals() { heap_sampling_intervals_.emplace_back(); return &heap_sampling_intervals_.back(); }
+
+ bool has_all_heaps() const { return _has_field_[21]; }
+ bool all_heaps() const { return all_heaps_; }
+ void set_all_heaps(bool value) { all_heaps_ = value; _has_field_.set(21); }
+
+ bool has_all() const { return _has_field_[5]; }
+ bool all() const { return all_; }
+ void set_all(bool value) { all_ = value; _has_field_.set(5); }
+
+ bool has_min_anonymous_memory_kb() const { return _has_field_[15]; }
+ uint32_t min_anonymous_memory_kb() const { return min_anonymous_memory_kb_; }
+ void set_min_anonymous_memory_kb(uint32_t value) { min_anonymous_memory_kb_ = value; _has_field_.set(15); }
+
+ bool has_max_heapprofd_memory_kb() const { return _has_field_[16]; }
+ uint32_t max_heapprofd_memory_kb() const { return max_heapprofd_memory_kb_; }
+ void set_max_heapprofd_memory_kb(uint32_t value) { max_heapprofd_memory_kb_ = value; _has_field_.set(16); }
+
+ bool has_max_heapprofd_cpu_secs() const { return _has_field_[17]; }
+ uint64_t max_heapprofd_cpu_secs() const { return max_heapprofd_cpu_secs_; }
+ void set_max_heapprofd_cpu_secs(uint64_t value) { max_heapprofd_cpu_secs_ = value; _has_field_.set(17); }
+
+ const std::vector<std::string>& skip_symbol_prefix() const { return skip_symbol_prefix_; }
+ std::vector<std::string>* mutable_skip_symbol_prefix() { return &skip_symbol_prefix_; }
+ int skip_symbol_prefix_size() const { return static_cast<int>(skip_symbol_prefix_.size()); }
+ void clear_skip_symbol_prefix() { skip_symbol_prefix_.clear(); }
+ void add_skip_symbol_prefix(std::string value) { skip_symbol_prefix_.emplace_back(value); }
+ std::string* add_skip_symbol_prefix() { skip_symbol_prefix_.emplace_back(); return &skip_symbol_prefix_.back(); }
+
+ bool has_continuous_dump_config() const { return _has_field_[6]; }
+ const HeapprofdConfig_ContinuousDumpConfig& continuous_dump_config() const { return *continuous_dump_config_; }
+ HeapprofdConfig_ContinuousDumpConfig* mutable_continuous_dump_config() { _has_field_.set(6); return continuous_dump_config_.get(); }
+
+ bool has_shmem_size_bytes() const { return _has_field_[8]; }
+ uint64_t shmem_size_bytes() const { return shmem_size_bytes_; }
+ void set_shmem_size_bytes(uint64_t value) { shmem_size_bytes_ = value; _has_field_.set(8); }
+
+ bool has_block_client() const { return _has_field_[9]; }
+ bool block_client() const { return block_client_; }
+ void set_block_client(bool value) { block_client_ = value; _has_field_.set(9); }
+
+ bool has_block_client_timeout_us() const { return _has_field_[14]; }
+ uint32_t block_client_timeout_us() const { return block_client_timeout_us_; }
+ void set_block_client_timeout_us(uint32_t value) { block_client_timeout_us_ = value; _has_field_.set(14); }
+
+ bool has_no_startup() const { return _has_field_[10]; }
+ bool no_startup() const { return no_startup_; }
+ void set_no_startup(bool value) { no_startup_ = value; _has_field_.set(10); }
+
+ bool has_no_running() const { return _has_field_[11]; }
+ bool no_running() const { return no_running_; }
+ void set_no_running(bool value) { no_running_ = value; _has_field_.set(11); }
+
+ bool has_dump_at_max() const { return _has_field_[13]; }
+ bool dump_at_max() const { return dump_at_max_; }
+ void set_dump_at_max(bool value) { dump_at_max_ = value; _has_field_.set(13); }
+
+ bool has_disable_fork_teardown() const { return _has_field_[18]; }
+ bool disable_fork_teardown() const { return disable_fork_teardown_; }
+ void set_disable_fork_teardown(bool value) { disable_fork_teardown_ = value; _has_field_.set(18); }
+
+ bool has_disable_vfork_detection() const { return _has_field_[19]; }
+ bool disable_vfork_detection() const { return disable_vfork_detection_; }
+ void set_disable_vfork_detection(bool value) { disable_vfork_detection_ = value; _has_field_.set(19); }
+
+ private:
+ uint64_t sampling_interval_bytes_{};
+ uint64_t adaptive_sampling_shmem_threshold_{};
+ uint64_t adaptive_sampling_max_sampling_interval_bytes_{};
+ std::vector<std::string> process_cmdline_;
+ std::vector<uint64_t> pid_;
+ std::vector<std::string> target_installed_by_;
+ std::vector<std::string> heaps_;
+ std::vector<std::string> exclude_heaps_;
+ bool stream_allocations_{};
+ std::vector<uint64_t> heap_sampling_intervals_;
+ bool all_heaps_{};
+ bool all_{};
+ uint32_t min_anonymous_memory_kb_{};
+ uint32_t max_heapprofd_memory_kb_{};
+ uint64_t max_heapprofd_cpu_secs_{};
+ std::vector<std::string> skip_symbol_prefix_;
+ ::protozero::CopyablePtr<HeapprofdConfig_ContinuousDumpConfig> continuous_dump_config_;
+ uint64_t shmem_size_bytes_{};
+ bool block_client_{};
+ uint32_t block_client_timeout_us_{};
+ bool no_startup_{};
+ bool no_running_{};
+ bool dump_at_max_{};
+ bool disable_fork_teardown_{};
+ bool disable_vfork_detection_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<28> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT HeapprofdConfig_ContinuousDumpConfig : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kDumpPhaseMsFieldNumber = 5,
+ kDumpIntervalMsFieldNumber = 6,
+ };
+
+ HeapprofdConfig_ContinuousDumpConfig();
+ ~HeapprofdConfig_ContinuousDumpConfig() override;
+ HeapprofdConfig_ContinuousDumpConfig(HeapprofdConfig_ContinuousDumpConfig&&) noexcept;
+ HeapprofdConfig_ContinuousDumpConfig& operator=(HeapprofdConfig_ContinuousDumpConfig&&);
+ HeapprofdConfig_ContinuousDumpConfig(const HeapprofdConfig_ContinuousDumpConfig&);
+ HeapprofdConfig_ContinuousDumpConfig& operator=(const HeapprofdConfig_ContinuousDumpConfig&);
+ bool operator==(const HeapprofdConfig_ContinuousDumpConfig&) const;
+ bool operator!=(const HeapprofdConfig_ContinuousDumpConfig& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_dump_phase_ms() const { return _has_field_[5]; }
+ uint32_t dump_phase_ms() const { return dump_phase_ms_; }
+ void set_dump_phase_ms(uint32_t value) { dump_phase_ms_ = value; _has_field_.set(5); }
+
+ bool has_dump_interval_ms() const { return _has_field_[6]; }
+ uint32_t dump_interval_ms() const { return dump_interval_ms_; }
+ void set_dump_interval_ms(uint32_t value) { dump_interval_ms_ = value; _has_field_.set(6); }
+
+ private:
+ uint32_t dump_phase_ms_{};
+ uint32_t dump_interval_ms_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<7> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_PROFILING_HEAPPROFD_CONFIG_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/config/profiling/java_hprof_config.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_PROFILING_JAVA_HPROF_CONFIG_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_PROFILING_JAVA_HPROF_CONFIG_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class JavaHprofConfig;
+class JavaHprofConfig_ContinuousDumpConfig;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+class PERFETTO_EXPORT_COMPONENT JavaHprofConfig : public ::protozero::CppMessageObj {
+ public:
+ using ContinuousDumpConfig = JavaHprofConfig_ContinuousDumpConfig;
+ enum FieldNumbers {
+ kProcessCmdlineFieldNumber = 1,
+ kPidFieldNumber = 2,
+ kTargetInstalledByFieldNumber = 7,
+ kContinuousDumpConfigFieldNumber = 3,
+ kMinAnonymousMemoryKbFieldNumber = 4,
+ kDumpSmapsFieldNumber = 5,
+ kIgnoredTypesFieldNumber = 6,
+ };
+
+ JavaHprofConfig();
+ ~JavaHprofConfig() override;
+ JavaHprofConfig(JavaHprofConfig&&) noexcept;
+ JavaHprofConfig& operator=(JavaHprofConfig&&);
+ JavaHprofConfig(const JavaHprofConfig&);
+ JavaHprofConfig& operator=(const JavaHprofConfig&);
+ bool operator==(const JavaHprofConfig&) const;
+ bool operator!=(const JavaHprofConfig& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ const std::vector<std::string>& process_cmdline() const { return process_cmdline_; }
+ std::vector<std::string>* mutable_process_cmdline() { return &process_cmdline_; }
+ int process_cmdline_size() const { return static_cast<int>(process_cmdline_.size()); }
+ void clear_process_cmdline() { process_cmdline_.clear(); }
+ void add_process_cmdline(std::string value) { process_cmdline_.emplace_back(value); }
+ std::string* add_process_cmdline() { process_cmdline_.emplace_back(); return &process_cmdline_.back(); }
+
+ const std::vector<uint64_t>& pid() const { return pid_; }
+ std::vector<uint64_t>* mutable_pid() { return &pid_; }
+ int pid_size() const { return static_cast<int>(pid_.size()); }
+ void clear_pid() { pid_.clear(); }
+ void add_pid(uint64_t value) { pid_.emplace_back(value); }
+ uint64_t* add_pid() { pid_.emplace_back(); return &pid_.back(); }
+
+ const std::vector<std::string>& target_installed_by() const { return target_installed_by_; }
+ std::vector<std::string>* mutable_target_installed_by() { return &target_installed_by_; }
+ int target_installed_by_size() const { return static_cast<int>(target_installed_by_.size()); }
+ void clear_target_installed_by() { target_installed_by_.clear(); }
+ void add_target_installed_by(std::string value) { target_installed_by_.emplace_back(value); }
+ std::string* add_target_installed_by() { target_installed_by_.emplace_back(); return &target_installed_by_.back(); }
+
+ bool has_continuous_dump_config() const { return _has_field_[3]; }
+ const JavaHprofConfig_ContinuousDumpConfig& continuous_dump_config() const { return *continuous_dump_config_; }
+ JavaHprofConfig_ContinuousDumpConfig* mutable_continuous_dump_config() { _has_field_.set(3); return continuous_dump_config_.get(); }
+
+ bool has_min_anonymous_memory_kb() const { return _has_field_[4]; }
+ uint32_t min_anonymous_memory_kb() const { return min_anonymous_memory_kb_; }
+ void set_min_anonymous_memory_kb(uint32_t value) { min_anonymous_memory_kb_ = value; _has_field_.set(4); }
+
+ bool has_dump_smaps() const { return _has_field_[5]; }
+ bool dump_smaps() const { return dump_smaps_; }
+ void set_dump_smaps(bool value) { dump_smaps_ = value; _has_field_.set(5); }
+
+ const std::vector<std::string>& ignored_types() const { return ignored_types_; }
+ std::vector<std::string>* mutable_ignored_types() { return &ignored_types_; }
+ int ignored_types_size() const { return static_cast<int>(ignored_types_.size()); }
+ void clear_ignored_types() { ignored_types_.clear(); }
+ void add_ignored_types(std::string value) { ignored_types_.emplace_back(value); }
+ std::string* add_ignored_types() { ignored_types_.emplace_back(); return &ignored_types_.back(); }
+
+ private:
+ std::vector<std::string> process_cmdline_;
+ std::vector<uint64_t> pid_;
+ std::vector<std::string> target_installed_by_;
+ ::protozero::CopyablePtr<JavaHprofConfig_ContinuousDumpConfig> continuous_dump_config_;
+ uint32_t min_anonymous_memory_kb_{};
+ bool dump_smaps_{};
+ std::vector<std::string> ignored_types_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<8> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT JavaHprofConfig_ContinuousDumpConfig : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kDumpPhaseMsFieldNumber = 1,
+ kDumpIntervalMsFieldNumber = 2,
+ kScanPidsOnlyOnStartFieldNumber = 3,
+ };
+
+ JavaHprofConfig_ContinuousDumpConfig();
+ ~JavaHprofConfig_ContinuousDumpConfig() override;
+ JavaHprofConfig_ContinuousDumpConfig(JavaHprofConfig_ContinuousDumpConfig&&) noexcept;
+ JavaHprofConfig_ContinuousDumpConfig& operator=(JavaHprofConfig_ContinuousDumpConfig&&);
+ JavaHprofConfig_ContinuousDumpConfig(const JavaHprofConfig_ContinuousDumpConfig&);
+ JavaHprofConfig_ContinuousDumpConfig& operator=(const JavaHprofConfig_ContinuousDumpConfig&);
+ bool operator==(const JavaHprofConfig_ContinuousDumpConfig&) const;
+ bool operator!=(const JavaHprofConfig_ContinuousDumpConfig& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_dump_phase_ms() const { return _has_field_[1]; }
+ uint32_t dump_phase_ms() const { return dump_phase_ms_; }
+ void set_dump_phase_ms(uint32_t value) { dump_phase_ms_ = value; _has_field_.set(1); }
+
+ bool has_dump_interval_ms() const { return _has_field_[2]; }
+ uint32_t dump_interval_ms() const { return dump_interval_ms_; }
+ void set_dump_interval_ms(uint32_t value) { dump_interval_ms_ = value; _has_field_.set(2); }
+
+ bool has_scan_pids_only_on_start() const { return _has_field_[3]; }
+ bool scan_pids_only_on_start() const { return scan_pids_only_on_start_; }
+ void set_scan_pids_only_on_start(bool value) { scan_pids_only_on_start_ = value; _has_field_.set(3); }
+
+ private:
+ uint32_t dump_phase_ms_{};
+ uint32_t dump_interval_ms_{};
+ bool scan_pids_only_on_start_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<4> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_PROFILING_JAVA_HPROF_CONFIG_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/config/profiling/perf_event_config.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_PROFILING_PERF_EVENT_CONFIG_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_PROFILING_PERF_EVENT_CONFIG_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class PerfEventConfig;
+class PerfEventConfig_CallstackSampling;
+class PerfEventConfig_Scope;
+class PerfEvents_Timebase;
+class PerfEvents_RawEvent;
+class PerfEvents_Tracepoint;
+enum PerfEventConfig_UnwindMode : int;
+enum PerfEvents_Counter : int;
+enum PerfEvents_PerfClock : int;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+enum PerfEventConfig_UnwindMode : int {
+ PerfEventConfig_UnwindMode_UNWIND_UNKNOWN = 0,
+ PerfEventConfig_UnwindMode_UNWIND_SKIP = 1,
+ PerfEventConfig_UnwindMode_UNWIND_DWARF = 2,
+};
+
+class PERFETTO_EXPORT_COMPONENT PerfEventConfig : public ::protozero::CppMessageObj {
+ public:
+ using CallstackSampling = PerfEventConfig_CallstackSampling;
+ using Scope = PerfEventConfig_Scope;
+ using UnwindMode = PerfEventConfig_UnwindMode;
+ static constexpr auto UNWIND_UNKNOWN = PerfEventConfig_UnwindMode_UNWIND_UNKNOWN;
+ static constexpr auto UNWIND_SKIP = PerfEventConfig_UnwindMode_UNWIND_SKIP;
+ static constexpr auto UNWIND_DWARF = PerfEventConfig_UnwindMode_UNWIND_DWARF;
+ static constexpr auto UnwindMode_MIN = PerfEventConfig_UnwindMode_UNWIND_UNKNOWN;
+ static constexpr auto UnwindMode_MAX = PerfEventConfig_UnwindMode_UNWIND_DWARF;
+ enum FieldNumbers {
+ kTimebaseFieldNumber = 15,
+ kCallstackSamplingFieldNumber = 16,
+ kRingBufferReadPeriodMsFieldNumber = 8,
+ kRingBufferPagesFieldNumber = 3,
+ kMaxEnqueuedFootprintKbFieldNumber = 17,
+ kMaxDaemonMemoryKbFieldNumber = 13,
+ kRemoteDescriptorTimeoutMsFieldNumber = 9,
+ kUnwindStateClearPeriodMsFieldNumber = 10,
+ kTargetInstalledByFieldNumber = 18,
+ kAllCpusFieldNumber = 1,
+ kSamplingFrequencyFieldNumber = 2,
+ kKernelFramesFieldNumber = 12,
+ kTargetPidFieldNumber = 4,
+ kTargetCmdlineFieldNumber = 5,
+ kExcludePidFieldNumber = 6,
+ kExcludeCmdlineFieldNumber = 7,
+ kAdditionalCmdlineCountFieldNumber = 11,
+ };
+
+ PerfEventConfig();
+ ~PerfEventConfig() override;
+ PerfEventConfig(PerfEventConfig&&) noexcept;
+ PerfEventConfig& operator=(PerfEventConfig&&);
+ PerfEventConfig(const PerfEventConfig&);
+ PerfEventConfig& operator=(const PerfEventConfig&);
+ bool operator==(const PerfEventConfig&) const;
+ bool operator!=(const PerfEventConfig& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_timebase() const { return _has_field_[15]; }
+ const PerfEvents_Timebase& timebase() const { return *timebase_; }
+ PerfEvents_Timebase* mutable_timebase() { _has_field_.set(15); return timebase_.get(); }
+
+ bool has_callstack_sampling() const { return _has_field_[16]; }
+ const PerfEventConfig_CallstackSampling& callstack_sampling() const { return *callstack_sampling_; }
+ PerfEventConfig_CallstackSampling* mutable_callstack_sampling() { _has_field_.set(16); return callstack_sampling_.get(); }
+
+ bool has_ring_buffer_read_period_ms() const { return _has_field_[8]; }
+ uint32_t ring_buffer_read_period_ms() const { return ring_buffer_read_period_ms_; }
+ void set_ring_buffer_read_period_ms(uint32_t value) { ring_buffer_read_period_ms_ = value; _has_field_.set(8); }
+
+ bool has_ring_buffer_pages() const { return _has_field_[3]; }
+ uint32_t ring_buffer_pages() const { return ring_buffer_pages_; }
+ void set_ring_buffer_pages(uint32_t value) { ring_buffer_pages_ = value; _has_field_.set(3); }
+
+ bool has_max_enqueued_footprint_kb() const { return _has_field_[17]; }
+ uint64_t max_enqueued_footprint_kb() const { return max_enqueued_footprint_kb_; }
+ void set_max_enqueued_footprint_kb(uint64_t value) { max_enqueued_footprint_kb_ = value; _has_field_.set(17); }
+
+ bool has_max_daemon_memory_kb() const { return _has_field_[13]; }
+ uint32_t max_daemon_memory_kb() const { return max_daemon_memory_kb_; }
+ void set_max_daemon_memory_kb(uint32_t value) { max_daemon_memory_kb_ = value; _has_field_.set(13); }
+
+ bool has_remote_descriptor_timeout_ms() const { return _has_field_[9]; }
+ uint32_t remote_descriptor_timeout_ms() const { return remote_descriptor_timeout_ms_; }
+ void set_remote_descriptor_timeout_ms(uint32_t value) { remote_descriptor_timeout_ms_ = value; _has_field_.set(9); }
+
+ bool has_unwind_state_clear_period_ms() const { return _has_field_[10]; }
+ uint32_t unwind_state_clear_period_ms() const { return unwind_state_clear_period_ms_; }
+ void set_unwind_state_clear_period_ms(uint32_t value) { unwind_state_clear_period_ms_ = value; _has_field_.set(10); }
+
+ const std::vector<std::string>& target_installed_by() const { return target_installed_by_; }
+ std::vector<std::string>* mutable_target_installed_by() { return &target_installed_by_; }
+ int target_installed_by_size() const { return static_cast<int>(target_installed_by_.size()); }
+ void clear_target_installed_by() { target_installed_by_.clear(); }
+ void add_target_installed_by(std::string value) { target_installed_by_.emplace_back(value); }
+ std::string* add_target_installed_by() { target_installed_by_.emplace_back(); return &target_installed_by_.back(); }
+
+ bool has_all_cpus() const { return _has_field_[1]; }
+ bool all_cpus() const { return all_cpus_; }
+ void set_all_cpus(bool value) { all_cpus_ = value; _has_field_.set(1); }
+
+ bool has_sampling_frequency() const { return _has_field_[2]; }
+ uint32_t sampling_frequency() const { return sampling_frequency_; }
+ void set_sampling_frequency(uint32_t value) { sampling_frequency_ = value; _has_field_.set(2); }
+
+ bool has_kernel_frames() const { return _has_field_[12]; }
+ bool kernel_frames() const { return kernel_frames_; }
+ void set_kernel_frames(bool value) { kernel_frames_ = value; _has_field_.set(12); }
+
+ const std::vector<int32_t>& target_pid() const { return target_pid_; }
+ std::vector<int32_t>* mutable_target_pid() { return &target_pid_; }
+ int target_pid_size() const { return static_cast<int>(target_pid_.size()); }
+ void clear_target_pid() { target_pid_.clear(); }
+ void add_target_pid(int32_t value) { target_pid_.emplace_back(value); }
+ int32_t* add_target_pid() { target_pid_.emplace_back(); return &target_pid_.back(); }
+
+ const std::vector<std::string>& target_cmdline() const { return target_cmdline_; }
+ std::vector<std::string>* mutable_target_cmdline() { return &target_cmdline_; }
+ int target_cmdline_size() const { return static_cast<int>(target_cmdline_.size()); }
+ void clear_target_cmdline() { target_cmdline_.clear(); }
+ void add_target_cmdline(std::string value) { target_cmdline_.emplace_back(value); }
+ std::string* add_target_cmdline() { target_cmdline_.emplace_back(); return &target_cmdline_.back(); }
+
+ const std::vector<int32_t>& exclude_pid() const { return exclude_pid_; }
+ std::vector<int32_t>* mutable_exclude_pid() { return &exclude_pid_; }
+ int exclude_pid_size() const { return static_cast<int>(exclude_pid_.size()); }
+ void clear_exclude_pid() { exclude_pid_.clear(); }
+ void add_exclude_pid(int32_t value) { exclude_pid_.emplace_back(value); }
+ int32_t* add_exclude_pid() { exclude_pid_.emplace_back(); return &exclude_pid_.back(); }
+
+ const std::vector<std::string>& exclude_cmdline() const { return exclude_cmdline_; }
+ std::vector<std::string>* mutable_exclude_cmdline() { return &exclude_cmdline_; }
+ int exclude_cmdline_size() const { return static_cast<int>(exclude_cmdline_.size()); }
+ void clear_exclude_cmdline() { exclude_cmdline_.clear(); }
+ void add_exclude_cmdline(std::string value) { exclude_cmdline_.emplace_back(value); }
+ std::string* add_exclude_cmdline() { exclude_cmdline_.emplace_back(); return &exclude_cmdline_.back(); }
+
+ bool has_additional_cmdline_count() const { return _has_field_[11]; }
+ uint32_t additional_cmdline_count() const { return additional_cmdline_count_; }
+ void set_additional_cmdline_count(uint32_t value) { additional_cmdline_count_ = value; _has_field_.set(11); }
+
+ private:
+ ::protozero::CopyablePtr<PerfEvents_Timebase> timebase_;
+ ::protozero::CopyablePtr<PerfEventConfig_CallstackSampling> callstack_sampling_;
+ uint32_t ring_buffer_read_period_ms_{};
+ uint32_t ring_buffer_pages_{};
+ uint64_t max_enqueued_footprint_kb_{};
+ uint32_t max_daemon_memory_kb_{};
+ uint32_t remote_descriptor_timeout_ms_{};
+ uint32_t unwind_state_clear_period_ms_{};
+ std::vector<std::string> target_installed_by_;
+ bool all_cpus_{};
+ uint32_t sampling_frequency_{};
+ bool kernel_frames_{};
+ std::vector<int32_t> target_pid_;
+ std::vector<std::string> target_cmdline_;
+ std::vector<int32_t> exclude_pid_;
+ std::vector<std::string> exclude_cmdline_;
+ uint32_t additional_cmdline_count_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<19> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT PerfEventConfig_CallstackSampling : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kScopeFieldNumber = 1,
+ kKernelFramesFieldNumber = 2,
+ kUserFramesFieldNumber = 3,
+ };
+
+ PerfEventConfig_CallstackSampling();
+ ~PerfEventConfig_CallstackSampling() override;
+ PerfEventConfig_CallstackSampling(PerfEventConfig_CallstackSampling&&) noexcept;
+ PerfEventConfig_CallstackSampling& operator=(PerfEventConfig_CallstackSampling&&);
+ PerfEventConfig_CallstackSampling(const PerfEventConfig_CallstackSampling&);
+ PerfEventConfig_CallstackSampling& operator=(const PerfEventConfig_CallstackSampling&);
+ bool operator==(const PerfEventConfig_CallstackSampling&) const;
+ bool operator!=(const PerfEventConfig_CallstackSampling& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_scope() const { return _has_field_[1]; }
+ const PerfEventConfig_Scope& scope() const { return *scope_; }
+ PerfEventConfig_Scope* mutable_scope() { _has_field_.set(1); return scope_.get(); }
+
+ bool has_kernel_frames() const { return _has_field_[2]; }
+ bool kernel_frames() const { return kernel_frames_; }
+ void set_kernel_frames(bool value) { kernel_frames_ = value; _has_field_.set(2); }
+
+ bool has_user_frames() const { return _has_field_[3]; }
+ PerfEventConfig_UnwindMode user_frames() const { return user_frames_; }
+ void set_user_frames(PerfEventConfig_UnwindMode value) { user_frames_ = value; _has_field_.set(3); }
+
+ private:
+ ::protozero::CopyablePtr<PerfEventConfig_Scope> scope_;
+ bool kernel_frames_{};
+ PerfEventConfig_UnwindMode user_frames_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<4> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT PerfEventConfig_Scope : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kTargetPidFieldNumber = 1,
+ kTargetCmdlineFieldNumber = 2,
+ kExcludePidFieldNumber = 3,
+ kExcludeCmdlineFieldNumber = 4,
+ kAdditionalCmdlineCountFieldNumber = 5,
+ kProcessShardCountFieldNumber = 6,
+ };
+
+ PerfEventConfig_Scope();
+ ~PerfEventConfig_Scope() override;
+ PerfEventConfig_Scope(PerfEventConfig_Scope&&) noexcept;
+ PerfEventConfig_Scope& operator=(PerfEventConfig_Scope&&);
+ PerfEventConfig_Scope(const PerfEventConfig_Scope&);
+ PerfEventConfig_Scope& operator=(const PerfEventConfig_Scope&);
+ bool operator==(const PerfEventConfig_Scope&) const;
+ bool operator!=(const PerfEventConfig_Scope& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ const std::vector<int32_t>& target_pid() const { return target_pid_; }
+ std::vector<int32_t>* mutable_target_pid() { return &target_pid_; }
+ int target_pid_size() const { return static_cast<int>(target_pid_.size()); }
+ void clear_target_pid() { target_pid_.clear(); }
+ void add_target_pid(int32_t value) { target_pid_.emplace_back(value); }
+ int32_t* add_target_pid() { target_pid_.emplace_back(); return &target_pid_.back(); }
+
+ const std::vector<std::string>& target_cmdline() const { return target_cmdline_; }
+ std::vector<std::string>* mutable_target_cmdline() { return &target_cmdline_; }
+ int target_cmdline_size() const { return static_cast<int>(target_cmdline_.size()); }
+ void clear_target_cmdline() { target_cmdline_.clear(); }
+ void add_target_cmdline(std::string value) { target_cmdline_.emplace_back(value); }
+ std::string* add_target_cmdline() { target_cmdline_.emplace_back(); return &target_cmdline_.back(); }
+
+ const std::vector<int32_t>& exclude_pid() const { return exclude_pid_; }
+ std::vector<int32_t>* mutable_exclude_pid() { return &exclude_pid_; }
+ int exclude_pid_size() const { return static_cast<int>(exclude_pid_.size()); }
+ void clear_exclude_pid() { exclude_pid_.clear(); }
+ void add_exclude_pid(int32_t value) { exclude_pid_.emplace_back(value); }
+ int32_t* add_exclude_pid() { exclude_pid_.emplace_back(); return &exclude_pid_.back(); }
+
+ const std::vector<std::string>& exclude_cmdline() const { return exclude_cmdline_; }
+ std::vector<std::string>* mutable_exclude_cmdline() { return &exclude_cmdline_; }
+ int exclude_cmdline_size() const { return static_cast<int>(exclude_cmdline_.size()); }
+ void clear_exclude_cmdline() { exclude_cmdline_.clear(); }
+ void add_exclude_cmdline(std::string value) { exclude_cmdline_.emplace_back(value); }
+ std::string* add_exclude_cmdline() { exclude_cmdline_.emplace_back(); return &exclude_cmdline_.back(); }
+
+ bool has_additional_cmdline_count() const { return _has_field_[5]; }
+ uint32_t additional_cmdline_count() const { return additional_cmdline_count_; }
+ void set_additional_cmdline_count(uint32_t value) { additional_cmdline_count_ = value; _has_field_.set(5); }
+
+ bool has_process_shard_count() const { return _has_field_[6]; }
+ uint32_t process_shard_count() const { return process_shard_count_; }
+ void set_process_shard_count(uint32_t value) { process_shard_count_ = value; _has_field_.set(6); }
+
+ private:
+ std::vector<int32_t> target_pid_;
+ std::vector<std::string> target_cmdline_;
+ std::vector<int32_t> exclude_pid_;
+ std::vector<std::string> exclude_cmdline_;
+ uint32_t additional_cmdline_count_{};
+ uint32_t process_shard_count_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<7> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_PROFILING_PERF_EVENT_CONFIG_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/config/statsd/atom_ids.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_STATSD_ATOM_IDS_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_STATSD_ATOM_IDS_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+enum AtomId : int;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+enum AtomId : int {
+ ATOM_UNSPECIFIED = 0,
+ ATOM_BLE_SCAN_STATE_CHANGED = 2,
+ ATOM_PROCESS_STATE_CHANGED = 3,
+ ATOM_BLE_SCAN_RESULT_RECEIVED = 4,
+ ATOM_SENSOR_STATE_CHANGED = 5,
+ ATOM_GPS_SCAN_STATE_CHANGED = 6,
+ ATOM_SYNC_STATE_CHANGED = 7,
+ ATOM_SCHEDULED_JOB_STATE_CHANGED = 8,
+ ATOM_SCREEN_BRIGHTNESS_CHANGED = 9,
+ ATOM_WAKELOCK_STATE_CHANGED = 10,
+ ATOM_LONG_PARTIAL_WAKELOCK_STATE_CHANGED = 11,
+ ATOM_MOBILE_RADIO_POWER_STATE_CHANGED = 12,
+ ATOM_WIFI_RADIO_POWER_STATE_CHANGED = 13,
+ ATOM_ACTIVITY_MANAGER_SLEEP_STATE_CHANGED = 14,
+ ATOM_MEMORY_FACTOR_STATE_CHANGED = 15,
+ ATOM_EXCESSIVE_CPU_USAGE_REPORTED = 16,
+ ATOM_CACHED_KILL_REPORTED = 17,
+ ATOM_PROCESS_MEMORY_STAT_REPORTED = 18,
+ ATOM_LAUNCHER_EVENT = 19,
+ ATOM_BATTERY_SAVER_MODE_STATE_CHANGED = 20,
+ ATOM_DEVICE_IDLE_MODE_STATE_CHANGED = 21,
+ ATOM_DEVICE_IDLING_MODE_STATE_CHANGED = 22,
+ ATOM_AUDIO_STATE_CHANGED = 23,
+ ATOM_MEDIA_CODEC_STATE_CHANGED = 24,
+ ATOM_CAMERA_STATE_CHANGED = 25,
+ ATOM_FLASHLIGHT_STATE_CHANGED = 26,
+ ATOM_UID_PROCESS_STATE_CHANGED = 27,
+ ATOM_PROCESS_LIFE_CYCLE_STATE_CHANGED = 28,
+ ATOM_SCREEN_STATE_CHANGED = 29,
+ ATOM_BATTERY_LEVEL_CHANGED = 30,
+ ATOM_CHARGING_STATE_CHANGED = 31,
+ ATOM_PLUGGED_STATE_CHANGED = 32,
+ ATOM_INTERACTIVE_STATE_CHANGED = 33,
+ ATOM_TOUCH_EVENT_REPORTED = 34,
+ ATOM_WAKEUP_ALARM_OCCURRED = 35,
+ ATOM_KERNEL_WAKEUP_REPORTED = 36,
+ ATOM_WIFI_LOCK_STATE_CHANGED = 37,
+ ATOM_WIFI_SIGNAL_STRENGTH_CHANGED = 38,
+ ATOM_WIFI_SCAN_STATE_CHANGED = 39,
+ ATOM_PHONE_SIGNAL_STRENGTH_CHANGED = 40,
+ ATOM_SETTING_CHANGED = 41,
+ ATOM_ACTIVITY_FOREGROUND_STATE_CHANGED = 42,
+ ATOM_ISOLATED_UID_CHANGED = 43,
+ ATOM_PACKET_WAKEUP_OCCURRED = 44,
+ ATOM_WALL_CLOCK_TIME_SHIFTED = 45,
+ ATOM_ANOMALY_DETECTED = 46,
+ ATOM_APP_BREADCRUMB_REPORTED = 47,
+ ATOM_APP_START_OCCURRED = 48,
+ ATOM_APP_START_CANCELED = 49,
+ ATOM_APP_START_FULLY_DRAWN = 50,
+ ATOM_LMK_KILL_OCCURRED = 51,
+ ATOM_PICTURE_IN_PICTURE_STATE_CHANGED = 52,
+ ATOM_WIFI_MULTICAST_LOCK_STATE_CHANGED = 53,
+ ATOM_LMK_STATE_CHANGED = 54,
+ ATOM_APP_START_MEMORY_STATE_CAPTURED = 55,
+ ATOM_SHUTDOWN_SEQUENCE_REPORTED = 56,
+ ATOM_BOOT_SEQUENCE_REPORTED = 57,
+ ATOM_DAVEY_OCCURRED = 58,
+ ATOM_OVERLAY_STATE_CHANGED = 59,
+ ATOM_FOREGROUND_SERVICE_STATE_CHANGED = 60,
+ ATOM_CALL_STATE_CHANGED = 61,
+ ATOM_KEYGUARD_STATE_CHANGED = 62,
+ ATOM_KEYGUARD_BOUNCER_STATE_CHANGED = 63,
+ ATOM_KEYGUARD_BOUNCER_PASSWORD_ENTERED = 64,
+ ATOM_APP_DIED = 65,
+ ATOM_RESOURCE_CONFIGURATION_CHANGED = 66,
+ ATOM_BLUETOOTH_ENABLED_STATE_CHANGED = 67,
+ ATOM_BLUETOOTH_CONNECTION_STATE_CHANGED = 68,
+ ATOM_GPS_SIGNAL_QUALITY_CHANGED = 69,
+ ATOM_USB_CONNECTOR_STATE_CHANGED = 70,
+ ATOM_SPEAKER_IMPEDANCE_REPORTED = 71,
+ ATOM_HARDWARE_FAILED = 72,
+ ATOM_PHYSICAL_DROP_DETECTED = 73,
+ ATOM_CHARGE_CYCLES_REPORTED = 74,
+ ATOM_MOBILE_CONNECTION_STATE_CHANGED = 75,
+ ATOM_MOBILE_RADIO_TECHNOLOGY_CHANGED = 76,
+ ATOM_USB_DEVICE_ATTACHED = 77,
+ ATOM_APP_CRASH_OCCURRED = 78,
+ ATOM_ANR_OCCURRED = 79,
+ ATOM_WTF_OCCURRED = 80,
+ ATOM_LOW_MEM_REPORTED = 81,
+ ATOM_GENERIC_ATOM = 82,
+ ATOM_VIBRATOR_STATE_CHANGED = 84,
+ ATOM_DEFERRED_JOB_STATS_REPORTED = 85,
+ ATOM_THERMAL_THROTTLING = 86,
+ ATOM_BIOMETRIC_ACQUIRED = 87,
+ ATOM_BIOMETRIC_AUTHENTICATED = 88,
+ ATOM_BIOMETRIC_ERROR_OCCURRED = 89,
+ ATOM_UI_EVENT_REPORTED = 90,
+ ATOM_BATTERY_HEALTH_SNAPSHOT = 91,
+ ATOM_SLOW_IO = 92,
+ ATOM_BATTERY_CAUSED_SHUTDOWN = 93,
+ ATOM_PHONE_SERVICE_STATE_CHANGED = 94,
+ ATOM_PHONE_STATE_CHANGED = 95,
+ ATOM_USER_RESTRICTION_CHANGED = 96,
+ ATOM_SETTINGS_UI_CHANGED = 97,
+ ATOM_CONNECTIVITY_STATE_CHANGED = 98,
+ ATOM_SERVICE_STATE_CHANGED = 99,
+ ATOM_SERVICE_LAUNCH_REPORTED = 100,
+ ATOM_FLAG_FLIP_UPDATE_OCCURRED = 101,
+ ATOM_BINARY_PUSH_STATE_CHANGED = 102,
+ ATOM_DEVICE_POLICY_EVENT = 103,
+ ATOM_DOCS_UI_FILE_OP_CANCELED = 104,
+ ATOM_DOCS_UI_FILE_OP_COPY_MOVE_MODE_REPORTED = 105,
+ ATOM_DOCS_UI_FILE_OP_FAILURE = 106,
+ ATOM_DOCS_UI_PROVIDER_FILE_OP = 107,
+ ATOM_DOCS_UI_INVALID_SCOPED_ACCESS_REQUEST = 108,
+ ATOM_DOCS_UI_LAUNCH_REPORTED = 109,
+ ATOM_DOCS_UI_ROOT_VISITED = 110,
+ ATOM_DOCS_UI_STARTUP_MS = 111,
+ ATOM_DOCS_UI_USER_ACTION_REPORTED = 112,
+ ATOM_WIFI_ENABLED_STATE_CHANGED = 113,
+ ATOM_WIFI_RUNNING_STATE_CHANGED = 114,
+ ATOM_APP_COMPACTED = 115,
+ ATOM_NETWORK_DNS_EVENT_REPORTED = 116,
+ ATOM_DOCS_UI_PICKER_LAUNCHED_FROM_REPORTED = 117,
+ ATOM_DOCS_UI_PICK_RESULT_REPORTED = 118,
+ ATOM_DOCS_UI_SEARCH_MODE_REPORTED = 119,
+ ATOM_DOCS_UI_SEARCH_TYPE_REPORTED = 120,
+ ATOM_DATA_STALL_EVENT = 121,
+ ATOM_RESCUE_PARTY_RESET_REPORTED = 122,
+ ATOM_SIGNED_CONFIG_REPORTED = 123,
+ ATOM_GNSS_NI_EVENT_REPORTED = 124,
+ ATOM_BLUETOOTH_LINK_LAYER_CONNECTION_EVENT = 125,
+ ATOM_BLUETOOTH_ACL_CONNECTION_STATE_CHANGED = 126,
+ ATOM_BLUETOOTH_SCO_CONNECTION_STATE_CHANGED = 127,
+ ATOM_APP_DOWNGRADED = 128,
+ ATOM_APP_OPTIMIZED_AFTER_DOWNGRADED = 129,
+ ATOM_LOW_STORAGE_STATE_CHANGED = 130,
+ ATOM_GNSS_NFW_NOTIFICATION_REPORTED = 131,
+ ATOM_GNSS_CONFIGURATION_REPORTED = 132,
+ ATOM_USB_PORT_OVERHEAT_EVENT_REPORTED = 133,
+ ATOM_NFC_ERROR_OCCURRED = 134,
+ ATOM_NFC_STATE_CHANGED = 135,
+ ATOM_NFC_BEAM_OCCURRED = 136,
+ ATOM_NFC_CARDEMULATION_OCCURRED = 137,
+ ATOM_NFC_TAG_OCCURRED = 138,
+ ATOM_NFC_HCE_TRANSACTION_OCCURRED = 139,
+ ATOM_SE_STATE_CHANGED = 140,
+ ATOM_SE_OMAPI_REPORTED = 141,
+ ATOM_BROADCAST_DISPATCH_LATENCY_REPORTED = 142,
+ ATOM_ATTENTION_MANAGER_SERVICE_RESULT_REPORTED = 143,
+ ATOM_ADB_CONNECTION_CHANGED = 144,
+ ATOM_SPEECH_DSP_STAT_REPORTED = 145,
+ ATOM_USB_CONTAMINANT_REPORTED = 146,
+ ATOM_WATCHDOG_ROLLBACK_OCCURRED = 147,
+ ATOM_BIOMETRIC_SYSTEM_HEALTH_ISSUE_DETECTED = 148,
+ ATOM_BUBBLE_UI_CHANGED = 149,
+ ATOM_SCHEDULED_JOB_CONSTRAINT_CHANGED = 150,
+ ATOM_BLUETOOTH_ACTIVE_DEVICE_CHANGED = 151,
+ ATOM_BLUETOOTH_A2DP_PLAYBACK_STATE_CHANGED = 152,
+ ATOM_BLUETOOTH_A2DP_CODEC_CONFIG_CHANGED = 153,
+ ATOM_BLUETOOTH_A2DP_CODEC_CAPABILITY_CHANGED = 154,
+ ATOM_BLUETOOTH_A2DP_AUDIO_UNDERRUN_REPORTED = 155,
+ ATOM_BLUETOOTH_A2DP_AUDIO_OVERRUN_REPORTED = 156,
+ ATOM_BLUETOOTH_DEVICE_RSSI_REPORTED = 157,
+ ATOM_BLUETOOTH_DEVICE_FAILED_CONTACT_COUNTER_REPORTED = 158,
+ ATOM_BLUETOOTH_DEVICE_TX_POWER_LEVEL_REPORTED = 159,
+ ATOM_BLUETOOTH_HCI_TIMEOUT_REPORTED = 160,
+ ATOM_BLUETOOTH_QUALITY_REPORT_REPORTED = 161,
+ ATOM_BLUETOOTH_DEVICE_INFO_REPORTED = 162,
+ ATOM_BLUETOOTH_REMOTE_VERSION_INFO_REPORTED = 163,
+ ATOM_BLUETOOTH_SDP_ATTRIBUTE_REPORTED = 164,
+ ATOM_BLUETOOTH_BOND_STATE_CHANGED = 165,
+ ATOM_BLUETOOTH_CLASSIC_PAIRING_EVENT_REPORTED = 166,
+ ATOM_BLUETOOTH_SMP_PAIRING_EVENT_REPORTED = 167,
+ ATOM_SCREEN_TIMEOUT_EXTENSION_REPORTED = 168,
+ ATOM_PROCESS_START_TIME = 169,
+ ATOM_PERMISSION_GRANT_REQUEST_RESULT_REPORTED = 170,
+ ATOM_BLUETOOTH_SOCKET_CONNECTION_STATE_CHANGED = 171,
+ ATOM_DEVICE_IDENTIFIER_ACCESS_DENIED = 172,
+ ATOM_BUBBLE_DEVELOPER_ERROR_REPORTED = 173,
+ ATOM_ASSIST_GESTURE_STAGE_REPORTED = 174,
+ ATOM_ASSIST_GESTURE_FEEDBACK_REPORTED = 175,
+ ATOM_ASSIST_GESTURE_PROGRESS_REPORTED = 176,
+ ATOM_TOUCH_GESTURE_CLASSIFIED = 177,
+ ATOM_HIDDEN_API_USED = 178,
+ ATOM_STYLE_UI_CHANGED = 179,
+ ATOM_PRIVACY_INDICATORS_INTERACTED = 180,
+ ATOM_APP_INSTALL_ON_EXTERNAL_STORAGE_REPORTED = 181,
+ ATOM_NETWORK_STACK_REPORTED = 182,
+ ATOM_APP_MOVED_STORAGE_REPORTED = 183,
+ ATOM_BIOMETRIC_ENROLLED = 184,
+ ATOM_SYSTEM_SERVER_WATCHDOG_OCCURRED = 185,
+ ATOM_TOMB_STONE_OCCURRED = 186,
+ ATOM_BLUETOOTH_CLASS_OF_DEVICE_REPORTED = 187,
+ ATOM_INTELLIGENCE_EVENT_REPORTED = 188,
+ ATOM_THERMAL_THROTTLING_SEVERITY_STATE_CHANGED = 189,
+ ATOM_ROLE_REQUEST_RESULT_REPORTED = 190,
+ ATOM_MEDIAMETRICS_AUDIOPOLICY_REPORTED = 191,
+ ATOM_MEDIAMETRICS_AUDIORECORD_REPORTED = 192,
+ ATOM_MEDIAMETRICS_AUDIOTHREAD_REPORTED = 193,
+ ATOM_MEDIAMETRICS_AUDIOTRACK_REPORTED = 194,
+ ATOM_MEDIAMETRICS_CODEC_REPORTED = 195,
+ ATOM_MEDIAMETRICS_DRM_WIDEVINE_REPORTED = 196,
+ ATOM_MEDIAMETRICS_EXTRACTOR_REPORTED = 197,
+ ATOM_MEDIAMETRICS_MEDIADRM_REPORTED = 198,
+ ATOM_MEDIAMETRICS_NUPLAYER_REPORTED = 199,
+ ATOM_MEDIAMETRICS_RECORDER_REPORTED = 200,
+ ATOM_MEDIAMETRICS_DRMMANAGER_REPORTED = 201,
+ ATOM_CAR_POWER_STATE_CHANGED = 203,
+ ATOM_GARAGE_MODE_INFO = 204,
+ ATOM_TEST_ATOM_REPORTED = 205,
+ ATOM_CONTENT_CAPTURE_CALLER_MISMATCH_REPORTED = 206,
+ ATOM_CONTENT_CAPTURE_SERVICE_EVENTS = 207,
+ ATOM_CONTENT_CAPTURE_SESSION_EVENTS = 208,
+ ATOM_CONTENT_CAPTURE_FLUSHED = 209,
+ ATOM_LOCATION_MANAGER_API_USAGE_REPORTED = 210,
+ ATOM_REVIEW_PERMISSIONS_FRAGMENT_RESULT_REPORTED = 211,
+ ATOM_RUNTIME_PERMISSIONS_UPGRADE_RESULT = 212,
+ ATOM_GRANT_PERMISSIONS_ACTIVITY_BUTTON_ACTIONS = 213,
+ ATOM_LOCATION_ACCESS_CHECK_NOTIFICATION_ACTION = 214,
+ ATOM_APP_PERMISSION_FRAGMENT_ACTION_REPORTED = 215,
+ ATOM_APP_PERMISSION_FRAGMENT_VIEWED = 216,
+ ATOM_APP_PERMISSIONS_FRAGMENT_VIEWED = 217,
+ ATOM_PERMISSION_APPS_FRAGMENT_VIEWED = 218,
+ ATOM_TEXT_SELECTION_EVENT = 219,
+ ATOM_TEXT_LINKIFY_EVENT = 220,
+ ATOM_CONVERSATION_ACTIONS_EVENT = 221,
+ ATOM_LANGUAGE_DETECTION_EVENT = 222,
+ ATOM_EXCLUSION_RECT_STATE_CHANGED = 223,
+ ATOM_BACK_GESTURE_REPORTED_REPORTED = 224,
+ ATOM_UPDATE_ENGINE_UPDATE_ATTEMPT_REPORTED = 225,
+ ATOM_UPDATE_ENGINE_SUCCESSFUL_UPDATE_REPORTED = 226,
+ ATOM_CAMERA_ACTION_EVENT = 227,
+ ATOM_APP_COMPATIBILITY_CHANGE_REPORTED = 228,
+ ATOM_PERFETTO_UPLOADED = 229,
+ ATOM_VMS_CLIENT_CONNECTION_STATE_CHANGED = 230,
+ ATOM_MEDIA_PROVIDER_SCAN_OCCURRED = 233,
+ ATOM_MEDIA_CONTENT_DELETED = 234,
+ ATOM_MEDIA_PROVIDER_PERMISSION_REQUESTED = 235,
+ ATOM_MEDIA_PROVIDER_SCHEMA_CHANGED = 236,
+ ATOM_MEDIA_PROVIDER_IDLE_MAINTENANCE_FINISHED = 237,
+ ATOM_REBOOT_ESCROW_RECOVERY_REPORTED = 238,
+ ATOM_BOOT_TIME_EVENT_DURATION_REPORTED = 239,
+ ATOM_BOOT_TIME_EVENT_ELAPSED_TIME_REPORTED = 240,
+ ATOM_BOOT_TIME_EVENT_UTC_TIME_REPORTED = 241,
+ ATOM_BOOT_TIME_EVENT_ERROR_CODE_REPORTED = 242,
+ ATOM_USERSPACE_REBOOT_REPORTED = 243,
+ ATOM_NOTIFICATION_REPORTED = 244,
+ ATOM_NOTIFICATION_PANEL_REPORTED = 245,
+ ATOM_NOTIFICATION_CHANNEL_MODIFIED = 246,
+ ATOM_INTEGRITY_CHECK_RESULT_REPORTED = 247,
+ ATOM_INTEGRITY_RULES_PUSHED = 248,
+ ATOM_CB_MESSAGE_REPORTED = 249,
+ ATOM_CB_MESSAGE_ERROR = 250,
+ ATOM_WIFI_HEALTH_STAT_REPORTED = 251,
+ ATOM_WIFI_FAILURE_STAT_REPORTED = 252,
+ ATOM_WIFI_CONNECTION_RESULT_REPORTED = 253,
+ ATOM_APP_FREEZE_CHANGED = 254,
+ ATOM_SNAPSHOT_MERGE_REPORTED = 255,
+ ATOM_FOREGROUND_SERVICE_APP_OP_SESSION_ENDED = 256,
+ ATOM_DISPLAY_JANK_REPORTED = 257,
+ ATOM_APP_STANDBY_BUCKET_CHANGED = 258,
+ ATOM_SHARESHEET_STARTED = 259,
+ ATOM_RANKING_SELECTED = 260,
+ ATOM_TVSETTINGS_UI_INTERACTED = 261,
+ ATOM_LAUNCHER_SNAPSHOT = 262,
+ ATOM_PACKAGE_INSTALLER_V2_REPORTED = 263,
+ ATOM_USER_LIFECYCLE_JOURNEY_REPORTED = 264,
+ ATOM_USER_LIFECYCLE_EVENT_OCCURRED = 265,
+ ATOM_ACCESSIBILITY_SHORTCUT_REPORTED = 266,
+ ATOM_ACCESSIBILITY_SERVICE_REPORTED = 267,
+ ATOM_DOCS_UI_DRAG_AND_DROP_REPORTED = 268,
+ ATOM_APP_USAGE_EVENT_OCCURRED = 269,
+ ATOM_AUTO_REVOKE_NOTIFICATION_CLICKED = 270,
+ ATOM_AUTO_REVOKE_FRAGMENT_APP_VIEWED = 271,
+ ATOM_AUTO_REVOKED_APP_INTERACTION = 272,
+ ATOM_APP_PERMISSION_GROUPS_FRAGMENT_AUTO_REVOKE_ACTION = 273,
+ ATOM_EVS_USAGE_STATS_REPORTED = 274,
+ ATOM_AUDIO_POWER_USAGE_DATA_REPORTED = 275,
+ ATOM_TV_TUNER_STATE_CHANGED = 276,
+ ATOM_MEDIAOUTPUT_OP_SWITCH_REPORTED = 277,
+ ATOM_CB_MESSAGE_FILTERED = 278,
+ ATOM_TV_TUNER_DVR_STATUS = 279,
+ ATOM_TV_CAS_SESSION_OPEN_STATUS = 280,
+ ATOM_ASSISTANT_INVOCATION_REPORTED = 281,
+ ATOM_DISPLAY_WAKE_REPORTED = 282,
+ ATOM_CAR_USER_HAL_MODIFY_USER_REQUEST_REPORTED = 283,
+ ATOM_CAR_USER_HAL_MODIFY_USER_RESPONSE_REPORTED = 284,
+ ATOM_CAR_USER_HAL_POST_SWITCH_RESPONSE_REPORTED = 285,
+ ATOM_CAR_USER_HAL_INITIAL_USER_INFO_REQUEST_REPORTED = 286,
+ ATOM_CAR_USER_HAL_INITIAL_USER_INFO_RESPONSE_REPORTED = 287,
+ ATOM_CAR_USER_HAL_USER_ASSOCIATION_REQUEST_REPORTED = 288,
+ ATOM_CAR_USER_HAL_SET_USER_ASSOCIATION_RESPONSE_REPORTED = 289,
+ ATOM_NETWORK_IP_PROVISIONING_REPORTED = 290,
+ ATOM_NETWORK_DHCP_RENEW_REPORTED = 291,
+ ATOM_NETWORK_VALIDATION_REPORTED = 292,
+ ATOM_NETWORK_STACK_QUIRK_REPORTED = 293,
+ ATOM_MEDIAMETRICS_AUDIORECORDDEVICEUSAGE_REPORTED = 294,
+ ATOM_MEDIAMETRICS_AUDIOTHREADDEVICEUSAGE_REPORTED = 295,
+ ATOM_MEDIAMETRICS_AUDIOTRACKDEVICEUSAGE_REPORTED = 296,
+ ATOM_MEDIAMETRICS_AUDIODEVICECONNECTION_REPORTED = 297,
+ ATOM_BLOB_COMMITTED = 298,
+ ATOM_BLOB_LEASED = 299,
+ ATOM_BLOB_OPENED = 300,
+ ATOM_CONTACTS_PROVIDER_STATUS_REPORTED = 301,
+ ATOM_KEYSTORE_KEY_EVENT_REPORTED = 302,
+ ATOM_NETWORK_TETHERING_REPORTED = 303,
+ ATOM_IME_TOUCH_REPORTED = 304,
+ ATOM_UI_INTERACTION_FRAME_INFO_REPORTED = 305,
+ ATOM_UI_ACTION_LATENCY_REPORTED = 306,
+ ATOM_WIFI_DISCONNECT_REPORTED = 307,
+ ATOM_WIFI_CONNECTION_STATE_CHANGED = 308,
+ ATOM_HDMI_CEC_ACTIVE_SOURCE_CHANGED = 309,
+ ATOM_HDMI_CEC_MESSAGE_REPORTED = 310,
+ ATOM_AIRPLANE_MODE = 311,
+ ATOM_MODEM_RESTART = 312,
+ ATOM_CARRIER_ID_MISMATCH_REPORTED = 313,
+ ATOM_CARRIER_ID_TABLE_UPDATED = 314,
+ ATOM_DATA_STALL_RECOVERY_REPORTED = 315,
+ ATOM_MEDIAMETRICS_MEDIAPARSER_REPORTED = 316,
+ ATOM_TLS_HANDSHAKE_REPORTED = 317,
+ ATOM_TEXT_CLASSIFIER_API_USAGE_REPORTED = 318,
+ ATOM_CAR_WATCHDOG_KILL_STATS_REPORTED = 319,
+ ATOM_MEDIAMETRICS_PLAYBACK_REPORTED = 320,
+ ATOM_MEDIA_NETWORK_INFO_CHANGED = 321,
+ ATOM_MEDIA_PLAYBACK_STATE_CHANGED = 322,
+ ATOM_MEDIA_PLAYBACK_ERROR_REPORTED = 323,
+ ATOM_MEDIA_PLAYBACK_TRACK_CHANGED = 324,
+ ATOM_WIFI_SCAN_REPORTED = 325,
+ ATOM_WIFI_PNO_SCAN_REPORTED = 326,
+ ATOM_TIF_TUNE_CHANGED = 327,
+ ATOM_AUTO_ROTATE_REPORTED = 328,
+ ATOM_PERFETTO_TRIGGER = 329,
+ ATOM_TRANSCODING_DATA = 330,
+ ATOM_IMS_SERVICE_ENTITLEMENT_UPDATED = 331,
+ ATOM_DEVICE_ROTATED = 333,
+ ATOM_SIM_SPECIFIC_SETTINGS_RESTORED = 334,
+ ATOM_TEXT_CLASSIFIER_DOWNLOAD_REPORTED = 335,
+ ATOM_PIN_STORAGE_EVENT = 336,
+ ATOM_FACE_DOWN_REPORTED = 337,
+ ATOM_BLUETOOTH_HAL_CRASH_REASON_REPORTED = 338,
+ ATOM_REBOOT_ESCROW_PREPARATION_REPORTED = 339,
+ ATOM_REBOOT_ESCROW_LSKF_CAPTURE_REPORTED = 340,
+ ATOM_REBOOT_ESCROW_REBOOT_REPORTED = 341,
+ ATOM_BINDER_LATENCY_REPORTED = 342,
+ ATOM_MEDIAMETRICS_AAUDIOSTREAM_REPORTED = 343,
+ ATOM_MEDIA_TRANSCODING_SESSION_ENDED = 344,
+ ATOM_MAGNIFICATION_USAGE_REPORTED = 345,
+ ATOM_MAGNIFICATION_MODE_WITH_IME_ON_REPORTED = 346,
+ ATOM_APP_SEARCH_CALL_STATS_REPORTED = 347,
+ ATOM_APP_SEARCH_PUT_DOCUMENT_STATS_REPORTED = 348,
+ ATOM_DEVICE_CONTROL_CHANGED = 349,
+ ATOM_DEVICE_STATE_CHANGED = 350,
+ ATOM_INPUTDEVICE_REGISTERED = 351,
+ ATOM_SMARTSPACE_CARD_REPORTED = 352,
+ ATOM_AUTH_PROMPT_AUTHENTICATE_INVOKED = 353,
+ ATOM_AUTH_MANAGER_CAN_AUTHENTICATE_INVOKED = 354,
+ ATOM_AUTH_ENROLL_ACTION_INVOKED = 355,
+ ATOM_AUTH_DEPRECATED_API_USED = 356,
+ ATOM_UNATTENDED_REBOOT_OCCURRED = 357,
+ ATOM_LONG_REBOOT_BLOCKING_REPORTED = 358,
+ ATOM_LOCATION_TIME_ZONE_PROVIDER_STATE_CHANGED = 359,
+ ATOM_FDTRACK_EVENT_OCCURRED = 364,
+ ATOM_TIMEOUT_AUTO_EXTENDED_REPORTED = 365,
+ ATOM_ALARM_BATCH_DELIVERED = 367,
+ ATOM_ALARM_SCHEDULED = 368,
+ ATOM_CAR_WATCHDOG_IO_OVERUSE_STATS_REPORTED = 369,
+ ATOM_USER_LEVEL_HIBERNATION_STATE_CHANGED = 370,
+ ATOM_APP_SEARCH_INITIALIZE_STATS_REPORTED = 371,
+ ATOM_APP_SEARCH_QUERY_STATS_REPORTED = 372,
+ ATOM_APP_PROCESS_DIED = 373,
+ ATOM_NETWORK_IP_REACHABILITY_MONITOR_REPORTED = 374,
+ ATOM_SLOW_INPUT_EVENT_REPORTED = 375,
+ ATOM_ANR_OCCURRED_PROCESSING_STARTED = 376,
+ ATOM_APP_SEARCH_REMOVE_STATS_REPORTED = 377,
+ ATOM_MEDIA_CODEC_REPORTED = 378,
+ ATOM_PERMISSION_USAGE_FRAGMENT_INTERACTION = 379,
+ ATOM_PERMISSION_DETAILS_INTERACTION = 380,
+ ATOM_PRIVACY_SENSOR_TOGGLE_INTERACTION = 381,
+ ATOM_PRIVACY_TOGGLE_DIALOG_INTERACTION = 382,
+ ATOM_APP_SEARCH_OPTIMIZE_STATS_REPORTED = 383,
+ ATOM_NON_A11Y_TOOL_SERVICE_WARNING_REPORT = 384,
+ ATOM_APP_SEARCH_SET_SCHEMA_STATS_REPORTED = 385,
+ ATOM_APP_COMPAT_STATE_CHANGED = 386,
+ ATOM_SIZE_COMPAT_RESTART_BUTTON_EVENT_REPORTED = 387,
+ ATOM_SPLITSCREEN_UI_CHANGED = 388,
+ ATOM_NETWORK_DNS_HANDSHAKE_REPORTED = 389,
+ ATOM_BLUETOOTH_CODE_PATH_COUNTER = 390,
+ ATOM_BLUETOOTH_LE_BATCH_SCAN_REPORT_DELAY = 392,
+ ATOM_ACCESSIBILITY_FLOATING_MENU_UI_CHANGED = 393,
+ ATOM_NEURALNETWORKS_COMPILATION_COMPLETED = 394,
+ ATOM_NEURALNETWORKS_EXECUTION_COMPLETED = 395,
+ ATOM_NEURALNETWORKS_COMPILATION_FAILED = 396,
+ ATOM_NEURALNETWORKS_EXECUTION_FAILED = 397,
+ ATOM_CONTEXT_HUB_BOOTED = 398,
+ ATOM_CONTEXT_HUB_RESTARTED = 399,
+ ATOM_CONTEXT_HUB_LOADED_NANOAPP_SNAPSHOT_REPORTED = 400,
+ ATOM_CHRE_CODE_DOWNLOAD_TRANSACTED = 401,
+ ATOM_UWB_SESSION_INITED = 402,
+ ATOM_UWB_SESSION_CLOSED = 403,
+ ATOM_UWB_FIRST_RANGING_RECEIVED = 404,
+ ATOM_UWB_RANGING_MEASUREMENT_RECEIVED = 405,
+ ATOM_TEXT_CLASSIFIER_DOWNLOAD_WORK_SCHEDULED = 406,
+ ATOM_TEXT_CLASSIFIER_DOWNLOAD_WORK_COMPLETED = 407,
+ ATOM_CLIPBOARD_CLEARED = 408,
+ ATOM_VM_CREATION_REQUESTED = 409,
+ ATOM_NEARBY_DEVICE_SCAN_STATE_CHANGED = 410,
+ ATOM_CAMERA_COMPAT_CONTROL_EVENT_REPORTED = 411,
+ ATOM_APPLICATION_LOCALES_CHANGED = 412,
+ ATOM_MEDIAMETRICS_AUDIOTRACKSTATUS_REPORTED = 413,
+ ATOM_FOLD_STATE_DURATION_REPORTED = 414,
+ ATOM_LOCATION_TIME_ZONE_PROVIDER_CONTROLLER_STATE_CHANGED = 415,
+ ATOM_DISPLAY_HBM_STATE_CHANGED = 416,
+ ATOM_DISPLAY_HBM_BRIGHTNESS_CHANGED = 417,
+ ATOM_PERSISTENT_URI_PERMISSIONS_FLUSHED = 418,
+ ATOM_EARLY_BOOT_COMP_OS_ARTIFACTS_CHECK_REPORTED = 419,
+ ATOM_VBMETA_DIGEST_REPORTED = 420,
+ ATOM_APEX_INFO_GATHERED = 421,
+ ATOM_PVM_INFO_GATHERED = 422,
+ ATOM_WEAR_SETTINGS_UI_INTERACTED = 423,
+ ATOM_TRACING_SERVICE_REPORT_EVENT = 424,
+ ATOM_MEDIAMETRICS_AUDIORECORDSTATUS_REPORTED = 425,
+ ATOM_LAUNCHER_LATENCY = 426,
+ ATOM_DROPBOX_ENTRY_DROPPED = 427,
+ ATOM_WIFI_P2P_CONNECTION_REPORTED = 428,
+ ATOM_GAME_STATE_CHANGED = 429,
+ ATOM_HOTWORD_DETECTOR_CREATE_REQUESTED = 430,
+ ATOM_HOTWORD_DETECTION_SERVICE_INIT_RESULT_REPORTED = 431,
+ ATOM_HOTWORD_DETECTION_SERVICE_RESTARTED = 432,
+ ATOM_HOTWORD_DETECTOR_KEYPHRASE_TRIGGERED = 433,
+ ATOM_HOTWORD_DETECTOR_EVENTS = 434,
+ ATOM_AD_SERVICES_API_CALLED = 435,
+ ATOM_AD_SERVICES_MESUREMENT_REPORTS_UPLOADED = 436,
+ ATOM_BOOT_COMPLETED_BROADCAST_COMPLETION_LATENCY_REPORTED = 437,
+ ATOM_CONTACTS_INDEXER_UPDATE_STATS_REPORTED = 440,
+ ATOM_APP_BACKGROUND_RESTRICTIONS_INFO = 441,
+ ATOM_MMS_SMS_PROVIDER_GET_THREAD_ID_FAILED = 442,
+ ATOM_MMS_SMS_DATABASE_HELPER_ON_UPGRADE_FAILED = 443,
+ ATOM_PERMISSION_REMINDER_NOTIFICATION_INTERACTED = 444,
+ ATOM_RECENT_PERMISSION_DECISIONS_INTERACTED = 445,
+ ATOM_GNSS_PSDS_DOWNLOAD_REPORTED = 446,
+ ATOM_LE_AUDIO_CONNECTION_SESSION_REPORTED = 447,
+ ATOM_LE_AUDIO_BROADCAST_SESSION_REPORTED = 448,
+ ATOM_DREAM_UI_EVENT_REPORTED = 449,
+ ATOM_TASK_MANAGER_EVENT_REPORTED = 450,
+ ATOM_CDM_ASSOCIATION_ACTION = 451,
+ ATOM_MAGNIFICATION_TRIPLE_TAP_AND_HOLD_ACTIVATED_SESSION_REPORTED = 452,
+ ATOM_MAGNIFICATION_FOLLOW_TYPING_FOCUS_ACTIVATED_SESSION_REPORTED = 453,
+ ATOM_ACCESSIBILITY_TEXT_READING_OPTIONS_CHANGED = 454,
+ ATOM_WIFI_SETUP_FAILURE_CRASH_REPORTED = 455,
+ ATOM_UWB_DEVICE_ERROR_REPORTED = 456,
+ ATOM_ISOLATED_COMPILATION_SCHEDULED = 457,
+ ATOM_ISOLATED_COMPILATION_ENDED = 458,
+ ATOM_ONS_OPPORTUNISTIC_ESIM_PROVISIONING_COMPLETE = 459,
+ ATOM_SYSTEM_SERVER_PRE_WATCHDOG_OCCURRED = 460,
+ ATOM_TELEPHONY_ANOMALY_DETECTED = 461,
+ ATOM_LETTERBOX_POSITION_CHANGED = 462,
+ ATOM_REMOTE_KEY_PROVISIONING_ATTEMPT = 463,
+ ATOM_REMOTE_KEY_PROVISIONING_NETWORK_INFO = 464,
+ ATOM_REMOTE_KEY_PROVISIONING_TIMING = 465,
+ ATOM_MEDIAOUTPUT_OP_INTERACTION_REPORT = 466,
+ ATOM_SYNC_EXEMPTION_OCCURRED = 468,
+ ATOM_AUTOFILL_PRESENTATION_EVENT_REPORTED = 469,
+ ATOM_DOCK_STATE_CHANGED = 470,
+ ATOM_SAFETY_SOURCE_STATE_COLLECTED = 471,
+ ATOM_SAFETY_CENTER_SYSTEM_EVENT_REPORTED = 472,
+ ATOM_SAFETY_CENTER_INTERACTION_REPORTED = 473,
+ ATOM_SETTINGS_PROVIDER_SETTING_CHANGED = 474,
+ ATOM_BROADCAST_DELIVERY_EVENT_REPORTED = 475,
+ ATOM_SERVICE_REQUEST_EVENT_REPORTED = 476,
+ ATOM_PROVIDER_ACQUISITION_EVENT_REPORTED = 477,
+ ATOM_BLUETOOTH_DEVICE_NAME_REPORTED = 478,
+ ATOM_CB_CONFIG_UPDATED = 479,
+ ATOM_CB_MODULE_ERROR_REPORTED = 480,
+ ATOM_CB_SERVICE_FEATURE_CHANGED = 481,
+ ATOM_CB_RECEIVER_FEATURE_CHANGED = 482,
+ ATOM_JSSCRIPTENGINE_LATENCY_REPORTED = 483,
+ ATOM_PRIVACY_SIGNAL_NOTIFICATION_INTERACTION = 484,
+ ATOM_PRIVACY_SIGNAL_ISSUE_CARD_INTERACTION = 485,
+ ATOM_PRIVACY_SIGNALS_JOB_FAILURE = 486,
+ ATOM_VIBRATION_REPORTED = 487,
+ ATOM_UWB_RANGING_START = 489,
+ ATOM_MOBILE_DATA_DOWNLOAD_FILE_GROUP_STATUS_REPORTED = 490,
+ ATOM_APP_COMPACTED_V2 = 491,
+ ATOM_AD_SERVICES_SETTINGS_USAGE_REPORTED = 493,
+ ATOM_DISPLAY_BRIGHTNESS_CHANGED = 494,
+ ATOM_ACTIVITY_ACTION_BLOCKED = 495,
+ ATOM_BACKGROUND_FETCH_PROCESS_REPORTED = 496,
+ ATOM_UPDATE_CUSTOM_AUDIENCE_PROCESS_REPORTED = 497,
+ ATOM_RUN_AD_BIDDING_PROCESS_REPORTED = 498,
+ ATOM_RUN_AD_SCORING_PROCESS_REPORTED = 499,
+ ATOM_RUN_AD_SELECTION_PROCESS_REPORTED = 500,
+ ATOM_RUN_AD_BIDDING_PER_CA_PROCESS_REPORTED = 501,
+ ATOM_MOBILE_DATA_DOWNLOAD_DOWNLOAD_RESULT_REPORTED = 502,
+ ATOM_MOBILE_DATA_DOWNLOAD_FILE_GROUP_STORAGE_STATS_REPORTED = 503,
+ ATOM_NETWORK_DNS_SERVER_SUPPORT_REPORTED = 504,
+ ATOM_VM_BOOTED = 505,
+ ATOM_VM_EXITED = 506,
+ ATOM_AMBIENT_BRIGHTNESS_STATS_REPORTED = 507,
+ ATOM_MEDIAMETRICS_SPATIALIZERCAPABILITIES_REPORTED = 508,
+ ATOM_MEDIAMETRICS_SPATIALIZERDEVICEENABLED_REPORTED = 509,
+ ATOM_MEDIAMETRICS_HEADTRACKERDEVICEENABLED_REPORTED = 510,
+ ATOM_MEDIAMETRICS_HEADTRACKERDEVICESUPPORTED_REPORTED = 511,
+ ATOM_AD_SERVICES_MEASUREMENT_REGISTRATIONS = 512,
+ ATOM_HEARING_AID_INFO_REPORTED = 513,
+ ATOM_DEVICE_WIDE_JOB_CONSTRAINT_CHANGED = 514,
+ ATOM_AMBIENT_MODE_CHANGED = 515,
+ ATOM_ANR_LATENCY_REPORTED = 516,
+ ATOM_RESOURCE_API_INFO = 517,
+ ATOM_SYSTEM_DEFAULT_NETWORK_CHANGED = 518,
+ ATOM_IWLAN_SETUP_DATA_CALL_RESULT_REPORTED = 519,
+ ATOM_IWLAN_PDN_DISCONNECTED_REASON_REPORTED = 520,
+ ATOM_AIRPLANE_MODE_SESSION_REPORTED = 521,
+ ATOM_VM_CPU_STATUS_REPORTED = 522,
+ ATOM_VM_MEM_STATUS_REPORTED = 523,
+ ATOM_PACKAGE_INSTALLATION_SESSION_REPORTED = 524,
+ ATOM_DEFAULT_NETWORK_REMATCH_INFO = 525,
+ ATOM_NETWORK_SELECTION_PERFORMANCE = 526,
+ ATOM_NETWORK_NSD_REPORTED = 527,
+ ATOM_BLUETOOTH_DISCONNECTION_REASON_REPORTED = 529,
+ ATOM_BLUETOOTH_LOCAL_VERSIONS_REPORTED = 530,
+ ATOM_BLUETOOTH_REMOTE_SUPPORTED_FEATURES_REPORTED = 531,
+ ATOM_BLUETOOTH_LOCAL_SUPPORTED_FEATURES_REPORTED = 532,
+ ATOM_BLUETOOTH_GATT_APP_INFO = 533,
+ ATOM_BRIGHTNESS_CONFIGURATION_UPDATED = 534,
+ ATOM_AD_SERVICES_GET_TOPICS_REPORTED = 535,
+ ATOM_AD_SERVICES_EPOCH_COMPUTATION_GET_TOP_TOPICS_REPORTED = 536,
+ ATOM_AD_SERVICES_EPOCH_COMPUTATION_CLASSIFIER_REPORTED = 537,
+ ATOM_WEAR_MEDIA_OUTPUT_SWITCHER_LAUNCHED = 538,
+ ATOM_WEAR_MEDIA_OUTPUT_SWITCHER_FINISHED = 539,
+ ATOM_WEAR_MEDIA_OUTPUT_SWITCHER_CONNECTION_REPORTED = 540,
+ ATOM_WEAR_MEDIA_OUTPUT_SWITCHER_DEVICE_SCAN_TRIGGERED = 541,
+ ATOM_WEAR_MEDIA_OUTPUT_SWITCHER_FIRST_DEVICE_SCAN_LATENCY = 542,
+ ATOM_WEAR_MEDIA_OUTPUT_SWITCHER_CONNECT_DEVICE_LATENCY = 543,
+ ATOM_PACKAGE_MANAGER_SNAPSHOT_REPORTED = 544,
+ ATOM_PACKAGE_MANAGER_APPS_FILTER_CACHE_BUILD_REPORTED = 545,
+ ATOM_PACKAGE_MANAGER_APPS_FILTER_CACHE_UPDATE_REPORTED = 546,
+ ATOM_LAUNCHER_IMPRESSION_EVENT = 547,
+ ATOM_WEAR_MEDIA_OUTPUT_SWITCHER_ALL_DEVICES_SCAN_LATENCY = 549,
+ ATOM_WS_WATCH_FACE_EDITED = 551,
+ ATOM_WS_WATCH_FACE_FAVORITE_ACTION_REPORTED = 552,
+ ATOM_WS_WATCH_FACE_SET_ACTION_REPORTED = 553,
+ ATOM_PACKAGE_UNINSTALLATION_REPORTED = 554,
+ ATOM_GAME_MODE_CHANGED = 555,
+ ATOM_GAME_MODE_CONFIGURATION_CHANGED = 556,
+ ATOM_BEDTIME_MODE_STATE_CHANGED = 557,
+ ATOM_NETWORK_SLICE_SESSION_ENDED = 558,
+ ATOM_NETWORK_SLICE_DAILY_DATA_USAGE_REPORTED = 559,
+ ATOM_NFC_TAG_TYPE_OCCURRED = 560,
+ ATOM_NFC_AID_CONFLICT_OCCURRED = 561,
+ ATOM_NFC_READER_CONFLICT_OCCURRED = 562,
+ ATOM_WS_TILE_LIST_CHANGED = 563,
+ ATOM_GET_TYPE_ACCESSED_WITHOUT_PERMISSION = 564,
+ ATOM_MOBILE_BUNDLED_APP_INFO_GATHERED = 566,
+ ATOM_WS_WATCH_FACE_COMPLICATION_SET_CHANGED = 567,
+ ATOM_MEDIA_DRM_CREATED = 568,
+ ATOM_MEDIA_DRM_ERRORED = 569,
+ ATOM_MEDIA_DRM_SESSION_OPENED = 570,
+ ATOM_MEDIA_DRM_SESSION_CLOSED = 571,
+ ATOM_USER_SELECTED_RESOLUTION = 572,
+ ATOM_UNSAFE_INTENT_EVENT_REPORTED = 573,
+ ATOM_PERFORMANCE_HINT_SESSION_REPORTED = 574,
+ ATOM_MEDIAMETRICS_MIDI_DEVICE_CLOSE_REPORTED = 576,
+ ATOM_BIOMETRIC_TOUCH_REPORTED = 577,
+ ATOM_HOTWORD_AUDIO_EGRESS_EVENT_REPORTED = 578,
+ ATOM_APP_SEARCH_SCHEMA_MIGRATION_STATS_REPORTED = 579,
+ ATOM_LOCATION_ENABLED_STATE_CHANGED = 580,
+ ATOM_IME_REQUEST_FINISHED = 581,
+ ATOM_USB_COMPLIANCE_WARNINGS_REPORTED = 582,
+ ATOM_APP_SUPPORTED_LOCALES_CHANGED = 583,
+ ATOM_GRAMMATICAL_INFLECTION_CHANGED = 584,
+ ATOM_MEDIA_PROVIDER_VOLUME_RECOVERY_REPORTED = 586,
+ ATOM_BIOMETRIC_PROPERTIES_COLLECTED = 587,
+ ATOM_KERNEL_WAKEUP_ATTRIBUTED = 588,
+ ATOM_SCREEN_STATE_CHANGED_V2 = 589,
+ ATOM_WS_BACKUP_ACTION_REPORTED = 590,
+ ATOM_WS_RESTORE_ACTION_REPORTED = 591,
+ ATOM_DEVICE_LOG_ACCESS_EVENT_REPORTED = 592,
+ ATOM_MEDIA_SESSION_UPDATED = 594,
+ ATOM_WEAR_OOBE_STATE_CHANGED = 595,
+ ATOM_WS_NOTIFICATION_UPDATED = 596,
+ ATOM_NETWORK_VALIDATION_FAILURE_STATS_DAILY_REPORTED = 601,
+ ATOM_WS_COMPLICATION_TAPPED = 602,
+ ATOM_WS_WEAR_TIME_SESSION = 610,
+ ATOM_WIFI_BYTES_TRANSFER = 10000,
+ ATOM_WIFI_BYTES_TRANSFER_BY_FG_BG = 10001,
+ ATOM_MOBILE_BYTES_TRANSFER = 10002,
+ ATOM_MOBILE_BYTES_TRANSFER_BY_FG_BG = 10003,
+ ATOM_BLUETOOTH_BYTES_TRANSFER = 10006,
+ ATOM_KERNEL_WAKELOCK = 10004,
+ ATOM_SUBSYSTEM_SLEEP_STATE = 10005,
+ ATOM_CPU_TIME_PER_UID = 10009,
+ ATOM_CPU_TIME_PER_UID_FREQ = 10010,
+ ATOM_WIFI_ACTIVITY_INFO = 10011,
+ ATOM_MODEM_ACTIVITY_INFO = 10012,
+ ATOM_BLUETOOTH_ACTIVITY_INFO = 10007,
+ ATOM_PROCESS_MEMORY_STATE = 10013,
+ ATOM_SYSTEM_ELAPSED_REALTIME = 10014,
+ ATOM_SYSTEM_UPTIME = 10015,
+ ATOM_CPU_ACTIVE_TIME = 10016,
+ ATOM_CPU_CLUSTER_TIME = 10017,
+ ATOM_DISK_SPACE = 10018,
+ ATOM_REMAINING_BATTERY_CAPACITY = 10019,
+ ATOM_FULL_BATTERY_CAPACITY = 10020,
+ ATOM_TEMPERATURE = 10021,
+ ATOM_BINDER_CALLS = 10022,
+ ATOM_BINDER_CALLS_EXCEPTIONS = 10023,
+ ATOM_LOOPER_STATS = 10024,
+ ATOM_DISK_STATS = 10025,
+ ATOM_DIRECTORY_USAGE = 10026,
+ ATOM_APP_SIZE = 10027,
+ ATOM_CATEGORY_SIZE = 10028,
+ ATOM_PROC_STATS = 10029,
+ ATOM_BATTERY_VOLTAGE = 10030,
+ ATOM_NUM_FINGERPRINTS_ENROLLED = 10031,
+ ATOM_DISK_IO = 10032,
+ ATOM_POWER_PROFILE = 10033,
+ ATOM_PROC_STATS_PKG_PROC = 10034,
+ ATOM_PROCESS_CPU_TIME = 10035,
+ ATOM_CPU_TIME_PER_THREAD_FREQ = 10037,
+ ATOM_ON_DEVICE_POWER_MEASUREMENT = 10038,
+ ATOM_DEVICE_CALCULATED_POWER_USE = 10039,
+ ATOM_PROCESS_MEMORY_HIGH_WATER_MARK = 10042,
+ ATOM_BATTERY_LEVEL = 10043,
+ ATOM_BUILD_INFORMATION = 10044,
+ ATOM_BATTERY_CYCLE_COUNT = 10045,
+ ATOM_DEBUG_ELAPSED_CLOCK = 10046,
+ ATOM_DEBUG_FAILING_ELAPSED_CLOCK = 10047,
+ ATOM_NUM_FACES_ENROLLED = 10048,
+ ATOM_ROLE_HOLDER = 10049,
+ ATOM_DANGEROUS_PERMISSION_STATE = 10050,
+ ATOM_TRAIN_INFO = 10051,
+ ATOM_TIME_ZONE_DATA_INFO = 10052,
+ ATOM_EXTERNAL_STORAGE_INFO = 10053,
+ ATOM_GPU_STATS_GLOBAL_INFO = 10054,
+ ATOM_GPU_STATS_APP_INFO = 10055,
+ ATOM_SYSTEM_ION_HEAP_SIZE = 10056,
+ ATOM_APPS_ON_EXTERNAL_STORAGE_INFO = 10057,
+ ATOM_FACE_SETTINGS = 10058,
+ ATOM_COOLING_DEVICE = 10059,
+ ATOM_APP_OPS = 10060,
+ ATOM_PROCESS_SYSTEM_ION_HEAP_SIZE = 10061,
+ ATOM_SURFACEFLINGER_STATS_GLOBAL_INFO = 10062,
+ ATOM_SURFACEFLINGER_STATS_LAYER_INFO = 10063,
+ ATOM_PROCESS_MEMORY_SNAPSHOT = 10064,
+ ATOM_VMS_CLIENT_STATS = 10065,
+ ATOM_NOTIFICATION_REMOTE_VIEWS = 10066,
+ ATOM_DANGEROUS_PERMISSION_STATE_SAMPLED = 10067,
+ ATOM_GRAPHICS_STATS = 10068,
+ ATOM_RUNTIME_APP_OP_ACCESS = 10069,
+ ATOM_ION_HEAP_SIZE = 10070,
+ ATOM_PACKAGE_NOTIFICATION_PREFERENCES = 10071,
+ ATOM_PACKAGE_NOTIFICATION_CHANNEL_PREFERENCES = 10072,
+ ATOM_PACKAGE_NOTIFICATION_CHANNEL_GROUP_PREFERENCES = 10073,
+ ATOM_GNSS_STATS = 10074,
+ ATOM_ATTRIBUTED_APP_OPS = 10075,
+ ATOM_VOICE_CALL_SESSION = 10076,
+ ATOM_VOICE_CALL_RAT_USAGE = 10077,
+ ATOM_SIM_SLOT_STATE = 10078,
+ ATOM_SUPPORTED_RADIO_ACCESS_FAMILY = 10079,
+ ATOM_SETTING_SNAPSHOT = 10080,
+ ATOM_BLOB_INFO = 10081,
+ ATOM_DATA_USAGE_BYTES_TRANSFER = 10082,
+ ATOM_BYTES_TRANSFER_BY_TAG_AND_METERED = 10083,
+ ATOM_DND_MODE_RULE = 10084,
+ ATOM_GENERAL_EXTERNAL_STORAGE_ACCESS_STATS = 10085,
+ ATOM_INCOMING_SMS = 10086,
+ ATOM_OUTGOING_SMS = 10087,
+ ATOM_CARRIER_ID_TABLE_VERSION = 10088,
+ ATOM_DATA_CALL_SESSION = 10089,
+ ATOM_CELLULAR_SERVICE_STATE = 10090,
+ ATOM_CELLULAR_DATA_SERVICE_SWITCH = 10091,
+ ATOM_SYSTEM_MEMORY = 10092,
+ ATOM_IMS_REGISTRATION_TERMINATION = 10093,
+ ATOM_IMS_REGISTRATION_STATS = 10094,
+ ATOM_CPU_TIME_PER_CLUSTER_FREQ = 10095,
+ ATOM_CPU_CYCLES_PER_UID_CLUSTER = 10096,
+ ATOM_DEVICE_ROTATED_DATA = 10097,
+ ATOM_CPU_CYCLES_PER_THREAD_GROUP_CLUSTER = 10098,
+ ATOM_MEDIA_DRM_ACTIVITY_INFO = 10099,
+ ATOM_OEM_MANAGED_BYTES_TRANSFER = 10100,
+ ATOM_GNSS_POWER_STATS = 10101,
+ ATOM_TIME_ZONE_DETECTOR_STATE = 10102,
+ ATOM_KEYSTORE2_STORAGE_STATS = 10103,
+ ATOM_RKP_POOL_STATS = 10104,
+ ATOM_PROCESS_DMABUF_MEMORY = 10105,
+ ATOM_PENDING_ALARM_INFO = 10106,
+ ATOM_USER_LEVEL_HIBERNATED_APPS = 10107,
+ ATOM_LAUNCHER_LAYOUT_SNAPSHOT = 10108,
+ ATOM_GLOBAL_HIBERNATED_APPS = 10109,
+ ATOM_INPUT_EVENT_LATENCY_SKETCH = 10110,
+ ATOM_BATTERY_USAGE_STATS_BEFORE_RESET = 10111,
+ ATOM_BATTERY_USAGE_STATS_SINCE_RESET = 10112,
+ ATOM_BATTERY_USAGE_STATS_SINCE_RESET_USING_POWER_PROFILE_MODEL = 10113,
+ ATOM_INSTALLED_INCREMENTAL_PACKAGE = 10114,
+ ATOM_TELEPHONY_NETWORK_REQUESTS = 10115,
+ ATOM_APP_SEARCH_STORAGE_INFO = 10116,
+ ATOM_VMSTAT = 10117,
+ ATOM_KEYSTORE2_KEY_CREATION_WITH_GENERAL_INFO = 10118,
+ ATOM_KEYSTORE2_KEY_CREATION_WITH_AUTH_INFO = 10119,
+ ATOM_KEYSTORE2_KEY_CREATION_WITH_PURPOSE_AND_MODES_INFO = 10120,
+ ATOM_KEYSTORE2_ATOM_WITH_OVERFLOW = 10121,
+ ATOM_KEYSTORE2_KEY_OPERATION_WITH_PURPOSE_AND_MODES_INFO = 10122,
+ ATOM_KEYSTORE2_KEY_OPERATION_WITH_GENERAL_INFO = 10123,
+ ATOM_RKP_ERROR_STATS = 10124,
+ ATOM_KEYSTORE2_CRASH_STATS = 10125,
+ ATOM_VENDOR_APEX_INFO = 10126,
+ ATOM_ACCESSIBILITY_SHORTCUT_STATS = 10127,
+ ATOM_ACCESSIBILITY_FLOATING_MENU_STATS = 10128,
+ ATOM_DATA_USAGE_BYTES_TRANSFER_V2 = 10129,
+ ATOM_MEDIA_CAPABILITIES = 10130,
+ ATOM_CAR_WATCHDOG_SYSTEM_IO_USAGE_SUMMARY = 10131,
+ ATOM_CAR_WATCHDOG_UID_IO_USAGE_SUMMARY = 10132,
+ ATOM_IMS_REGISTRATION_FEATURE_TAG_STATS = 10133,
+ ATOM_RCS_CLIENT_PROVISIONING_STATS = 10134,
+ ATOM_RCS_ACS_PROVISIONING_STATS = 10135,
+ ATOM_SIP_DELEGATE_STATS = 10136,
+ ATOM_SIP_TRANSPORT_FEATURE_TAG_STATS = 10137,
+ ATOM_SIP_MESSAGE_RESPONSE = 10138,
+ ATOM_SIP_TRANSPORT_SESSION = 10139,
+ ATOM_IMS_DEDICATED_BEARER_LISTENER_EVENT = 10140,
+ ATOM_IMS_DEDICATED_BEARER_EVENT = 10141,
+ ATOM_IMS_REGISTRATION_SERVICE_DESC_STATS = 10142,
+ ATOM_UCE_EVENT_STATS = 10143,
+ ATOM_PRESENCE_NOTIFY_EVENT = 10144,
+ ATOM_GBA_EVENT = 10145,
+ ATOM_PER_SIM_STATUS = 10146,
+ ATOM_GPU_WORK_PER_UID = 10147,
+ ATOM_PERSISTENT_URI_PERMISSIONS_AMOUNT_PER_PACKAGE = 10148,
+ ATOM_SIGNED_PARTITION_INFO = 10149,
+ ATOM_PINNED_FILE_SIZES_PER_PACKAGE = 10150,
+ ATOM_PENDING_INTENTS_PER_PACKAGE = 10151,
+ ATOM_USER_INFO = 10152,
+ ATOM_TELEPHONY_NETWORK_REQUESTS_V2 = 10153,
+ ATOM_DEVICE_TELEPHONY_PROPERTIES = 10154,
+ ATOM_REMOTE_KEY_PROVISIONING_ERROR_COUNTS = 10155,
+ ATOM_SAFETY_STATE = 10156,
+ ATOM_INCOMING_MMS = 10157,
+ ATOM_OUTGOING_MMS = 10158,
+ ATOM_MULTI_USER_INFO = 10160,
+ ATOM_NETWORK_BPF_MAP_INFO = 10161,
+ ATOM_OUTGOING_SHORT_CODE_SMS = 10162,
+ ATOM_CONNECTIVITY_STATE_SAMPLE = 10163,
+ ATOM_NETWORK_SELECTION_REMATCH_REASONS_INFO = 10164,
+ ATOM_GAME_MODE_INFO = 10165,
+ ATOM_GAME_MODE_CONFIGURATION = 10166,
+ ATOM_GAME_MODE_LISTENER = 10167,
+ ATOM_NETWORK_SLICE_REQUEST_COUNT = 10168,
+ ATOM_WS_TILE_SNAPSHOT = 10169,
+ ATOM_WS_ACTIVE_WATCH_FACE_COMPLICATION_SET_SNAPSHOT = 10170,
+ ATOM_PROCESS_STATE = 10171,
+ ATOM_PROCESS_ASSOCIATION = 10172,
+ ATOM_ADPF_SYSTEM_COMPONENT_INFO = 10173,
+ ATOM_NOTIFICATION_MEMORY_USE = 10174,
+ ATOM_HDR_CAPABILITIES = 10175,
+ ATOM_WS_FAVOURITE_WATCH_FACE_LIST_SNAPSHOT = 10176,
+ ATOM_WIFI_AWARE_NDP_REPORTED = 638,
+ ATOM_WIFI_AWARE_ATTACH_REPORTED = 639,
+ ATOM_WIFI_SELF_RECOVERY_TRIGGERED = 661,
+ ATOM_SOFT_AP_STARTED = 680,
+ ATOM_SOFT_AP_STOPPED = 681,
+ ATOM_WIFI_LOCK_RELEASED = 687,
+ ATOM_WIFI_LOCK_DEACTIVATED = 688,
+ ATOM_WIFI_CONFIG_SAVED = 689,
+ ATOM_WIFI_AWARE_RESOURCE_USING_CHANGED = 690,
+ ATOM_WIFI_AWARE_HAL_API_CALLED = 691,
+ ATOM_WIFI_LOCAL_ONLY_REQUEST_RECEIVED = 692,
+ ATOM_WIFI_LOCAL_ONLY_REQUEST_SCAN_TRIGGERED = 693,
+ ATOM_WIFI_THREAD_TASK_EXECUTED = 694,
+ ATOM_WIFI_STATE_CHANGED = 700,
+ ATOM_WIFI_AWARE_CAPABILITIES = 10190,
+ ATOM_WIFI_MODULE_INFO = 10193,
+ ATOM_SETTINGS_SPA_REPORTED = 622,
+ ATOM_EXPRESS_EVENT_REPORTED = 528,
+ ATOM_EXPRESS_HISTOGRAM_SAMPLE_REPORTED = 593,
+ ATOM_EXPRESS_UID_EVENT_REPORTED = 644,
+ ATOM_EXPRESS_UID_HISTOGRAM_SAMPLE_REPORTED = 658,
+ ATOM_PERMISSION_RATIONALE_DIALOG_VIEWED = 645,
+ ATOM_PERMISSION_RATIONALE_DIALOG_ACTION_REPORTED = 646,
+ ATOM_APP_DATA_SHARING_UPDATES_NOTIFICATION_INTERACTION = 647,
+ ATOM_APP_DATA_SHARING_UPDATES_FRAGMENT_VIEWED = 648,
+ ATOM_APP_DATA_SHARING_UPDATES_FRAGMENT_ACTION_REPORTED = 649,
+ ATOM_WS_INCOMING_CALL_ACTION_REPORTED = 626,
+ ATOM_WS_CALL_DISCONNECTION_REPORTED = 627,
+ ATOM_WS_CALL_DURATION_REPORTED = 628,
+ ATOM_WS_CALL_USER_EXPERIENCE_LATENCY_REPORTED = 629,
+ ATOM_WS_CALL_INTERACTION_REPORTED = 630,
+ ATOM_FULL_SCREEN_INTENT_LAUNCHED = 631,
+ ATOM_BAL_ALLOWED = 632,
+ ATOM_IN_TASK_ACTIVITY_STARTED = 685,
+ ATOM_CACHED_APPS_HIGH_WATERMARK = 10189,
+ ATOM_ODREFRESH_REPORTED = 366,
+ ATOM_ODSIGN_REPORTED = 548,
+ ATOM_ART_DATUM_REPORTED = 332,
+ ATOM_ART_DEVICE_DATUM_REPORTED = 550,
+ ATOM_ART_DATUM_DELTA_REPORTED = 565,
+ ATOM_BACKGROUND_DEXOPT_JOB_ENDED = 467,
+ ATOM_WEAR_ADAPTIVE_SUSPEND_STATS_REPORTED = 619,
+ ATOM_WEAR_POWER_ANOMALY_SERVICE_OPERATIONAL_STATS_REPORTED = 620,
+ ATOM_WEAR_POWER_ANOMALY_SERVICE_EVENT_STATS_REPORTED = 621,
+ ATOM_EMERGENCY_STATE_CHANGED = 633,
+ ATOM_DND_STATE_CHANGED = 657,
+ ATOM_MTE_STATE = 10181,
+ ATOM_AD_SERVICES_BACK_COMPAT_GET_TOPICS_REPORTED = 598,
+ ATOM_AD_SERVICES_BACK_COMPAT_EPOCH_COMPUTATION_CLASSIFIER_REPORTED = 599,
+ ATOM_AD_SERVICES_MEASUREMENT_DEBUG_KEYS = 640,
+ ATOM_AD_SERVICES_ERROR_REPORTED = 662,
+ ATOM_AD_SERVICES_BACKGROUND_JOBS_EXECUTION_REPORTED = 663,
+ ATOM_AD_SERVICES_MEASUREMENT_DELAYED_SOURCE_REGISTRATION = 673,
+ ATOM_AD_SERVICES_MEASUREMENT_ATTRIBUTION = 674,
+ ATOM_AD_SERVICES_MEASUREMENT_JOBS = 675,
+ ATOM_AD_SERVICES_MEASUREMENT_WIPEOUT = 676,
+ ATOM_AD_SERVICES_CONSENT_MIGRATED = 702,
+ ATOM_RKPD_POOL_STATS = 664,
+ ATOM_RKPD_CLIENT_OPERATION = 665,
+ ATOM_AUTOFILL_UI_EVENT_REPORTED = 603,
+ ATOM_AUTOFILL_FILL_REQUEST_REPORTED = 604,
+ ATOM_AUTOFILL_FILL_RESPONSE_REPORTED = 605,
+ ATOM_AUTOFILL_SAVE_EVENT_REPORTED = 606,
+ ATOM_AUTOFILL_SESSION_COMMITTED = 607,
+ ATOM_AUTOFILL_FIELD_CLASSIFICATION_EVENT_REPORTED = 659,
+ ATOM_TEST_EXTENSION_ATOM_REPORTED = 660,
+ ATOM_TEST_RESTRICTED_ATOM_REPORTED = 672,
+ ATOM_STATS_SOCKET_LOSS_REPORTED = 752,
+ ATOM_PLUGIN_INITIALIZED = 655,
+ ATOM_TV_LOW_POWER_STANDBY_POLICY = 679,
+ ATOM_LOCKSCREEN_SHORTCUT_SELECTED = 611,
+ ATOM_LOCKSCREEN_SHORTCUT_TRIGGERED = 612,
+ ATOM_EMERGENCY_NUMBERS_INFO = 10180,
+ ATOM_QUALIFIED_RAT_LIST_CHANGED = 634,
+ ATOM_QNS_IMS_CALL_DROP_STATS = 635,
+ ATOM_QNS_FALLBACK_RESTRICTION_CHANGED = 636,
+ ATOM_QNS_RAT_PREFERENCE_MISMATCH_INFO = 10177,
+ ATOM_QNS_HANDOVER_TIME_MILLIS = 10178,
+ ATOM_QNS_HANDOVER_PINGPONG = 10179,
+ ATOM_SATELLITE_CONTROLLER = 10182,
+ ATOM_SATELLITE_SESSION = 10183,
+ ATOM_SATELLITE_INCOMING_DATAGRAM = 10184,
+ ATOM_SATELLITE_OUTGOING_DATAGRAM = 10185,
+ ATOM_SATELLITE_PROVISION = 10186,
+ ATOM_SATELLITE_SOS_MESSAGE_RECOMMENDER = 10187,
+ ATOM_IKE_SESSION_TERMINATED = 678,
+ ATOM_IKE_LIVENESS_CHECK_SESSION_VALIDATED = 760,
+ ATOM_BLUETOOTH_HASHED_DEVICE_NAME_REPORTED = 613,
+ ATOM_BLUETOOTH_L2CAP_COC_CLIENT_CONNECTION = 614,
+ ATOM_BLUETOOTH_L2CAP_COC_SERVER_CONNECTION = 615,
+ ATOM_BLUETOOTH_LE_SESSION_CONNECTED = 656,
+ ATOM_RESTRICTED_BLUETOOTH_DEVICE_NAME_REPORTED = 666,
+ ATOM_BLUETOOTH_PROFILE_CONNECTION_ATTEMPTED = 696,
+ ATOM_HEALTH_CONNECT_UI_IMPRESSION = 623,
+ ATOM_HEALTH_CONNECT_UI_INTERACTION = 624,
+ ATOM_HEALTH_CONNECT_APP_OPENED_REPORTED = 625,
+ ATOM_HEALTH_CONNECT_API_CALLED = 616,
+ ATOM_HEALTH_CONNECT_USAGE_STATS = 617,
+ ATOM_HEALTH_CONNECT_STORAGE_STATS = 618,
+ ATOM_HEALTH_CONNECT_API_INVOKED = 643,
+ ATOM_EXERCISE_ROUTE_API_CALLED = 654,
+ ATOM_ATOM_9999 = 9999,
+ ATOM_ATOM_99999 = 99999,
+ ATOM_THREADNETWORK_TELEMETRY_DATA_REPORTED = 738,
+ ATOM_THREADNETWORK_TOPO_ENTRY_REPEATED = 739,
+ ATOM_THREADNETWORK_DEVICE_INFO_REPORTED = 740,
+ ATOM_EMERGENCY_NUMBER_DIALED = 637,
+ ATOM_SANDBOX_API_CALLED = 488,
+ ATOM_SANDBOX_ACTIVITY_EVENT_OCCURRED = 735,
+ ATOM_SANDBOX_SDK_STORAGE = 10159,
+ ATOM_CRONET_ENGINE_CREATED = 703,
+ ATOM_CRONET_TRAFFIC_REPORTED = 704,
+ ATOM_CRONET_ENGINE_BUILDER_INITIALIZED = 762,
+ ATOM_CRONET_HTTP_FLAGS_INITIALIZED = 763,
+ ATOM_CRONET_INITIALIZED = 764,
+ ATOM_DAILY_KEEPALIVE_INFO_REPORTED = 650,
+ ATOM_IP_CLIENT_RA_INFO_REPORTED = 778,
+ ATOM_APF_SESSION_INFO_REPORTED = 777,
+ ATOM_CREDENTIAL_MANAGER_API_CALLED = 585,
+ ATOM_CREDENTIAL_MANAGER_INIT_PHASE_REPORTED = 651,
+ ATOM_CREDENTIAL_MANAGER_CANDIDATE_PHASE_REPORTED = 652,
+ ATOM_CREDENTIAL_MANAGER_FINAL_PHASE_REPORTED = 653,
+ ATOM_CREDENTIAL_MANAGER_TOTAL_REPORTED = 667,
+ ATOM_CREDENTIAL_MANAGER_FINALNOUID_REPORTED = 668,
+ ATOM_CREDENTIAL_MANAGER_GET_REPORTED = 669,
+ ATOM_CREDENTIAL_MANAGER_AUTH_CLICK_REPORTED = 670,
+ ATOM_CREDENTIAL_MANAGER_APIV2_CALLED = 671,
+ ATOM_UWB_ACTIVITY_INFO = 10188,
+ ATOM_MEDIA_ACTION_REPORTED = 608,
+ ATOM_MEDIA_CONTROLS_LAUNCHED = 609,
+ ATOM_MEDIA_CODEC_RECLAIM_REQUEST_COMPLETED = 600,
+ ATOM_MEDIA_CODEC_STARTED = 641,
+ ATOM_MEDIA_CODEC_STOPPED = 642,
+ ATOM_MEDIA_CODEC_RENDERED = 684,
+};
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_STATSD_ATOM_IDS_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/config/statsd/statsd_tracing_config.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_STATSD_STATSD_TRACING_CONFIG_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_STATSD_STATSD_TRACING_CONFIG_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class StatsdPullAtomConfig;
+class StatsdTracingConfig;
+enum AtomId : int;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+class PERFETTO_EXPORT_COMPONENT StatsdPullAtomConfig : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kPullAtomIdFieldNumber = 1,
+ kRawPullAtomIdFieldNumber = 2,
+ kPullFrequencyMsFieldNumber = 3,
+ kPackagesFieldNumber = 4,
+ };
+
+ StatsdPullAtomConfig();
+ ~StatsdPullAtomConfig() override;
+ StatsdPullAtomConfig(StatsdPullAtomConfig&&) noexcept;
+ StatsdPullAtomConfig& operator=(StatsdPullAtomConfig&&);
+ StatsdPullAtomConfig(const StatsdPullAtomConfig&);
+ StatsdPullAtomConfig& operator=(const StatsdPullAtomConfig&);
+ bool operator==(const StatsdPullAtomConfig&) const;
+ bool operator!=(const StatsdPullAtomConfig& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ const std::vector<AtomId>& pull_atom_id() const { return pull_atom_id_; }
+ std::vector<AtomId>* mutable_pull_atom_id() { return &pull_atom_id_; }
+ int pull_atom_id_size() const { return static_cast<int>(pull_atom_id_.size()); }
+ void clear_pull_atom_id() { pull_atom_id_.clear(); }
+ void add_pull_atom_id(AtomId value) { pull_atom_id_.emplace_back(value); }
+ AtomId* add_pull_atom_id() { pull_atom_id_.emplace_back(); return &pull_atom_id_.back(); }
+
+ const std::vector<int32_t>& raw_pull_atom_id() const { return raw_pull_atom_id_; }
+ std::vector<int32_t>* mutable_raw_pull_atom_id() { return &raw_pull_atom_id_; }
+ int raw_pull_atom_id_size() const { return static_cast<int>(raw_pull_atom_id_.size()); }
+ void clear_raw_pull_atom_id() { raw_pull_atom_id_.clear(); }
+ void add_raw_pull_atom_id(int32_t value) { raw_pull_atom_id_.emplace_back(value); }
+ int32_t* add_raw_pull_atom_id() { raw_pull_atom_id_.emplace_back(); return &raw_pull_atom_id_.back(); }
+
+ bool has_pull_frequency_ms() const { return _has_field_[3]; }
+ int32_t pull_frequency_ms() const { return pull_frequency_ms_; }
+ void set_pull_frequency_ms(int32_t value) { pull_frequency_ms_ = value; _has_field_.set(3); }
+
+ const std::vector<std::string>& packages() const { return packages_; }
+ std::vector<std::string>* mutable_packages() { return &packages_; }
+ int packages_size() const { return static_cast<int>(packages_.size()); }
+ void clear_packages() { packages_.clear(); }
+ void add_packages(std::string value) { packages_.emplace_back(value); }
+ std::string* add_packages() { packages_.emplace_back(); return &packages_.back(); }
+
+ private:
+ std::vector<AtomId> pull_atom_id_;
+ std::vector<int32_t> raw_pull_atom_id_;
+ int32_t pull_frequency_ms_{};
+ std::vector<std::string> packages_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<5> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT StatsdTracingConfig : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kPushAtomIdFieldNumber = 1,
+ kRawPushAtomIdFieldNumber = 2,
+ kPullConfigFieldNumber = 3,
+ };
+
+ StatsdTracingConfig();
+ ~StatsdTracingConfig() override;
+ StatsdTracingConfig(StatsdTracingConfig&&) noexcept;
+ StatsdTracingConfig& operator=(StatsdTracingConfig&&);
+ StatsdTracingConfig(const StatsdTracingConfig&);
+ StatsdTracingConfig& operator=(const StatsdTracingConfig&);
+ bool operator==(const StatsdTracingConfig&) const;
+ bool operator!=(const StatsdTracingConfig& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ const std::vector<AtomId>& push_atom_id() const { return push_atom_id_; }
+ std::vector<AtomId>* mutable_push_atom_id() { return &push_atom_id_; }
+ int push_atom_id_size() const { return static_cast<int>(push_atom_id_.size()); }
+ void clear_push_atom_id() { push_atom_id_.clear(); }
+ void add_push_atom_id(AtomId value) { push_atom_id_.emplace_back(value); }
+ AtomId* add_push_atom_id() { push_atom_id_.emplace_back(); return &push_atom_id_.back(); }
+
+ const std::vector<int32_t>& raw_push_atom_id() const { return raw_push_atom_id_; }
+ std::vector<int32_t>* mutable_raw_push_atom_id() { return &raw_push_atom_id_; }
+ int raw_push_atom_id_size() const { return static_cast<int>(raw_push_atom_id_.size()); }
+ void clear_raw_push_atom_id() { raw_push_atom_id_.clear(); }
+ void add_raw_push_atom_id(int32_t value) { raw_push_atom_id_.emplace_back(value); }
+ int32_t* add_raw_push_atom_id() { raw_push_atom_id_.emplace_back(); return &raw_push_atom_id_.back(); }
+
+ const std::vector<StatsdPullAtomConfig>& pull_config() const { return pull_config_; }
+ std::vector<StatsdPullAtomConfig>* mutable_pull_config() { return &pull_config_; }
+ int pull_config_size() const;
+ void clear_pull_config();
+ StatsdPullAtomConfig* add_pull_config();
+
+ private:
+ std::vector<AtomId> push_atom_id_;
+ std::vector<int32_t> raw_push_atom_id_;
+ std::vector<StatsdPullAtomConfig> pull_config_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<4> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_STATSD_STATSD_TRACING_CONFIG_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/config/sys_stats/sys_stats_config.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_SYS_STATS_SYS_STATS_CONFIG_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_SYS_STATS_SYS_STATS_CONFIG_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class SysStatsConfig;
+enum SysStatsConfig_StatCounters : int;
+enum MeminfoCounters : int;
+enum VmstatCounters : int;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+enum SysStatsConfig_StatCounters : int {
+ SysStatsConfig_StatCounters_STAT_UNSPECIFIED = 0,
+ SysStatsConfig_StatCounters_STAT_CPU_TIMES = 1,
+ SysStatsConfig_StatCounters_STAT_IRQ_COUNTS = 2,
+ SysStatsConfig_StatCounters_STAT_SOFTIRQ_COUNTS = 3,
+ SysStatsConfig_StatCounters_STAT_FORK_COUNT = 4,
+};
+
+class PERFETTO_EXPORT_COMPONENT SysStatsConfig : public ::protozero::CppMessageObj {
+ public:
+ using StatCounters = SysStatsConfig_StatCounters;
+ static constexpr auto STAT_UNSPECIFIED = SysStatsConfig_StatCounters_STAT_UNSPECIFIED;
+ static constexpr auto STAT_CPU_TIMES = SysStatsConfig_StatCounters_STAT_CPU_TIMES;
+ static constexpr auto STAT_IRQ_COUNTS = SysStatsConfig_StatCounters_STAT_IRQ_COUNTS;
+ static constexpr auto STAT_SOFTIRQ_COUNTS = SysStatsConfig_StatCounters_STAT_SOFTIRQ_COUNTS;
+ static constexpr auto STAT_FORK_COUNT = SysStatsConfig_StatCounters_STAT_FORK_COUNT;
+ static constexpr auto StatCounters_MIN = SysStatsConfig_StatCounters_STAT_UNSPECIFIED;
+ static constexpr auto StatCounters_MAX = SysStatsConfig_StatCounters_STAT_FORK_COUNT;
+ enum FieldNumbers {
+ kMeminfoPeriodMsFieldNumber = 1,
+ kMeminfoCountersFieldNumber = 2,
+ kVmstatPeriodMsFieldNumber = 3,
+ kVmstatCountersFieldNumber = 4,
+ kStatPeriodMsFieldNumber = 5,
+ kStatCountersFieldNumber = 6,
+ kDevfreqPeriodMsFieldNumber = 7,
+ kCpufreqPeriodMsFieldNumber = 8,
+ kBuddyinfoPeriodMsFieldNumber = 9,
+ kDiskstatPeriodMsFieldNumber = 10,
+ kPsiPeriodMsFieldNumber = 11,
+ };
+
+ SysStatsConfig();
+ ~SysStatsConfig() override;
+ SysStatsConfig(SysStatsConfig&&) noexcept;
+ SysStatsConfig& operator=(SysStatsConfig&&);
+ SysStatsConfig(const SysStatsConfig&);
+ SysStatsConfig& operator=(const SysStatsConfig&);
+ bool operator==(const SysStatsConfig&) const;
+ bool operator!=(const SysStatsConfig& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_meminfo_period_ms() const { return _has_field_[1]; }
+ uint32_t meminfo_period_ms() const { return meminfo_period_ms_; }
+ void set_meminfo_period_ms(uint32_t value) { meminfo_period_ms_ = value; _has_field_.set(1); }
+
+ const std::vector<MeminfoCounters>& meminfo_counters() const { return meminfo_counters_; }
+ std::vector<MeminfoCounters>* mutable_meminfo_counters() { return &meminfo_counters_; }
+ int meminfo_counters_size() const { return static_cast<int>(meminfo_counters_.size()); }
+ void clear_meminfo_counters() { meminfo_counters_.clear(); }
+ void add_meminfo_counters(MeminfoCounters value) { meminfo_counters_.emplace_back(value); }
+ MeminfoCounters* add_meminfo_counters() { meminfo_counters_.emplace_back(); return &meminfo_counters_.back(); }
+
+ bool has_vmstat_period_ms() const { return _has_field_[3]; }
+ uint32_t vmstat_period_ms() const { return vmstat_period_ms_; }
+ void set_vmstat_period_ms(uint32_t value) { vmstat_period_ms_ = value; _has_field_.set(3); }
+
+ const std::vector<VmstatCounters>& vmstat_counters() const { return vmstat_counters_; }
+ std::vector<VmstatCounters>* mutable_vmstat_counters() { return &vmstat_counters_; }
+ int vmstat_counters_size() const { return static_cast<int>(vmstat_counters_.size()); }
+ void clear_vmstat_counters() { vmstat_counters_.clear(); }
+ void add_vmstat_counters(VmstatCounters value) { vmstat_counters_.emplace_back(value); }
+ VmstatCounters* add_vmstat_counters() { vmstat_counters_.emplace_back(); return &vmstat_counters_.back(); }
+
+ bool has_stat_period_ms() const { return _has_field_[5]; }
+ uint32_t stat_period_ms() const { return stat_period_ms_; }
+ void set_stat_period_ms(uint32_t value) { stat_period_ms_ = value; _has_field_.set(5); }
+
+ const std::vector<SysStatsConfig_StatCounters>& stat_counters() const { return stat_counters_; }
+ std::vector<SysStatsConfig_StatCounters>* mutable_stat_counters() { return &stat_counters_; }
+ int stat_counters_size() const { return static_cast<int>(stat_counters_.size()); }
+ void clear_stat_counters() { stat_counters_.clear(); }
+ void add_stat_counters(SysStatsConfig_StatCounters value) { stat_counters_.emplace_back(value); }
+ SysStatsConfig_StatCounters* add_stat_counters() { stat_counters_.emplace_back(); return &stat_counters_.back(); }
+
+ bool has_devfreq_period_ms() const { return _has_field_[7]; }
+ uint32_t devfreq_period_ms() const { return devfreq_period_ms_; }
+ void set_devfreq_period_ms(uint32_t value) { devfreq_period_ms_ = value; _has_field_.set(7); }
+
+ bool has_cpufreq_period_ms() const { return _has_field_[8]; }
+ uint32_t cpufreq_period_ms() const { return cpufreq_period_ms_; }
+ void set_cpufreq_period_ms(uint32_t value) { cpufreq_period_ms_ = value; _has_field_.set(8); }
+
+ bool has_buddyinfo_period_ms() const { return _has_field_[9]; }
+ uint32_t buddyinfo_period_ms() const { return buddyinfo_period_ms_; }
+ void set_buddyinfo_period_ms(uint32_t value) { buddyinfo_period_ms_ = value; _has_field_.set(9); }
+
+ bool has_diskstat_period_ms() const { return _has_field_[10]; }
+ uint32_t diskstat_period_ms() const { return diskstat_period_ms_; }
+ void set_diskstat_period_ms(uint32_t value) { diskstat_period_ms_ = value; _has_field_.set(10); }
+
+ bool has_psi_period_ms() const { return _has_field_[11]; }
+ uint32_t psi_period_ms() const { return psi_period_ms_; }
+ void set_psi_period_ms(uint32_t value) { psi_period_ms_ = value; _has_field_.set(11); }
+
+ private:
+ uint32_t meminfo_period_ms_{};
+ std::vector<MeminfoCounters> meminfo_counters_;
+ uint32_t vmstat_period_ms_{};
+ std::vector<VmstatCounters> vmstat_counters_;
+ uint32_t stat_period_ms_{};
+ std::vector<SysStatsConfig_StatCounters> stat_counters_;
+ uint32_t devfreq_period_ms_{};
+ uint32_t cpufreq_period_ms_{};
+ uint32_t buddyinfo_period_ms_{};
+ uint32_t diskstat_period_ms_{};
+ uint32_t psi_period_ms_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<12> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_SYS_STATS_SYS_STATS_CONFIG_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/config/system_info/system_info.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_SYSTEM_INFO_SYSTEM_INFO_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_SYSTEM_INFO_SYSTEM_INFO_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class SystemInfoConfig;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+class PERFETTO_EXPORT_COMPONENT SystemInfoConfig : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ };
+
+ SystemInfoConfig();
+ ~SystemInfoConfig() override;
+ SystemInfoConfig(SystemInfoConfig&&) noexcept;
+ SystemInfoConfig& operator=(SystemInfoConfig&&);
+ SystemInfoConfig(const SystemInfoConfig&);
+ SystemInfoConfig& operator=(const SystemInfoConfig&);
+ bool operator==(const SystemInfoConfig&) const;
+ bool operator!=(const SystemInfoConfig& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ private:
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_SYSTEM_INFO_SYSTEM_INFO_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/config/chrome/chrome_config.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_CHROME_CHROME_CONFIG_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_CHROME_CHROME_CONFIG_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class ChromeConfig;
+enum ChromeConfig_ClientPriority : int;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+enum ChromeConfig_ClientPriority : int {
+ ChromeConfig_ClientPriority_UNKNOWN = 0,
+ ChromeConfig_ClientPriority_BACKGROUND = 1,
+ ChromeConfig_ClientPriority_USER_INITIATED = 2,
+};
+
+class PERFETTO_EXPORT_COMPONENT ChromeConfig : public ::protozero::CppMessageObj {
+ public:
+ using ClientPriority = ChromeConfig_ClientPriority;
+ static constexpr auto UNKNOWN = ChromeConfig_ClientPriority_UNKNOWN;
+ static constexpr auto BACKGROUND = ChromeConfig_ClientPriority_BACKGROUND;
+ static constexpr auto USER_INITIATED = ChromeConfig_ClientPriority_USER_INITIATED;
+ static constexpr auto ClientPriority_MIN = ChromeConfig_ClientPriority_UNKNOWN;
+ static constexpr auto ClientPriority_MAX = ChromeConfig_ClientPriority_USER_INITIATED;
+ enum FieldNumbers {
+ kTraceConfigFieldNumber = 1,
+ kPrivacyFilteringEnabledFieldNumber = 2,
+ kConvertToLegacyJsonFieldNumber = 3,
+ kClientPriorityFieldNumber = 4,
+ kJsonAgentLabelFilterFieldNumber = 5,
+ };
+
+ ChromeConfig();
+ ~ChromeConfig() override;
+ ChromeConfig(ChromeConfig&&) noexcept;
+ ChromeConfig& operator=(ChromeConfig&&);
+ ChromeConfig(const ChromeConfig&);
+ ChromeConfig& operator=(const ChromeConfig&);
+ bool operator==(const ChromeConfig&) const;
+ bool operator!=(const ChromeConfig& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_trace_config() const { return _has_field_[1]; }
+ const std::string& trace_config() const { return trace_config_; }
+ void set_trace_config(const std::string& value) { trace_config_ = value; _has_field_.set(1); }
+
+ bool has_privacy_filtering_enabled() const { return _has_field_[2]; }
+ bool privacy_filtering_enabled() const { return privacy_filtering_enabled_; }
+ void set_privacy_filtering_enabled(bool value) { privacy_filtering_enabled_ = value; _has_field_.set(2); }
+
+ bool has_convert_to_legacy_json() const { return _has_field_[3]; }
+ bool convert_to_legacy_json() const { return convert_to_legacy_json_; }
+ void set_convert_to_legacy_json(bool value) { convert_to_legacy_json_ = value; _has_field_.set(3); }
+
+ bool has_client_priority() const { return _has_field_[4]; }
+ ChromeConfig_ClientPriority client_priority() const { return client_priority_; }
+ void set_client_priority(ChromeConfig_ClientPriority value) { client_priority_ = value; _has_field_.set(4); }
+
+ bool has_json_agent_label_filter() const { return _has_field_[5]; }
+ const std::string& json_agent_label_filter() const { return json_agent_label_filter_; }
+ void set_json_agent_label_filter(const std::string& value) { json_agent_label_filter_ = value; _has_field_.set(5); }
+
+ private:
+ std::string trace_config_{};
+ bool privacy_filtering_enabled_{};
+ bool convert_to_legacy_json_{};
+ ChromeConfig_ClientPriority client_priority_{};
+ std::string json_agent_label_filter_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<6> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_CHROME_CHROME_CONFIG_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/config/chrome/scenario_config.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_CHROME_SCENARIO_CONFIG_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_CHROME_SCENARIO_CONFIG_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class TracingTriggerRulesConfig;
+class TriggerRule;
+class TriggerRule_RepeatingInterval;
+class TriggerRule_HistogramTrigger;
+class ChromeFieldTracingConfig;
+class ScenarioConfig;
+class NestedScenarioConfig;
+class TraceConfig;
+class TraceConfig_CmdTraceStartDelay;
+class TraceConfig_AndroidReportConfig;
+class TraceConfig_TraceFilter;
+class TraceConfig_TraceFilter_StringFilterChain;
+class TraceConfig_TraceFilter_StringFilterRule;
+class TraceConfig_IncidentReportConfig;
+class TraceConfig_IncrementalStateConfig;
+class TraceConfig_TriggerConfig;
+class TraceConfig_TriggerConfig_Trigger;
+class TraceConfig_GuardrailOverrides;
+class TraceConfig_StatsdMetadata;
+class TraceConfig_ProducerConfig;
+class TraceConfig_BuiltinDataSource;
+class TraceConfig_DataSource;
+class DataSourceConfig;
+class TestConfig;
+class TestConfig_DummyFields;
+class InterceptorConfig;
+class ConsoleConfig;
+class ChromeConfig;
+class SystemInfoConfig;
+class TraceConfig_BufferConfig;
+enum TraceConfig_LockdownModeOperation : int;
+enum TraceConfig_CompressionType : int;
+enum TraceConfig_StatsdLogging : int;
+enum TraceConfig_TraceFilter_StringFilterPolicy : int;
+enum TraceConfig_TriggerConfig_TriggerMode : int;
+enum BuiltinClock : int;
+enum DataSourceConfig_SessionInitiator : int;
+enum ConsoleConfig_Output : int;
+enum ChromeConfig_ClientPriority : int;
+enum TraceConfig_BufferConfig_FillPolicy : int;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+class PERFETTO_EXPORT_COMPONENT TracingTriggerRulesConfig : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kRulesFieldNumber = 1,
+ };
+
+ TracingTriggerRulesConfig();
+ ~TracingTriggerRulesConfig() override;
+ TracingTriggerRulesConfig(TracingTriggerRulesConfig&&) noexcept;
+ TracingTriggerRulesConfig& operator=(TracingTriggerRulesConfig&&);
+ TracingTriggerRulesConfig(const TracingTriggerRulesConfig&);
+ TracingTriggerRulesConfig& operator=(const TracingTriggerRulesConfig&);
+ bool operator==(const TracingTriggerRulesConfig&) const;
+ bool operator!=(const TracingTriggerRulesConfig& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ const std::vector<TriggerRule>& rules() const { return rules_; }
+ std::vector<TriggerRule>* mutable_rules() { return &rules_; }
+ int rules_size() const;
+ void clear_rules();
+ TriggerRule* add_rules();
+
+ private:
+ std::vector<TriggerRule> rules_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT TriggerRule : public ::protozero::CppMessageObj {
+ public:
+ using HistogramTrigger = TriggerRule_HistogramTrigger;
+ using RepeatingInterval = TriggerRule_RepeatingInterval;
+ enum FieldNumbers {
+ kNameFieldNumber = 1,
+ kTriggerChanceFieldNumber = 2,
+ kDelayMsFieldNumber = 3,
+ kActivationDelayMsFieldNumber = 8,
+ kManualTriggerNameFieldNumber = 4,
+ kHistogramFieldNumber = 5,
+ kRepeatingIntervalFieldNumber = 6,
+ };
+
+ TriggerRule();
+ ~TriggerRule() override;
+ TriggerRule(TriggerRule&&) noexcept;
+ TriggerRule& operator=(TriggerRule&&);
+ TriggerRule(const TriggerRule&);
+ TriggerRule& operator=(const TriggerRule&);
+ bool operator==(const TriggerRule&) const;
+ bool operator!=(const TriggerRule& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_name() const { return _has_field_[1]; }
+ const std::string& name() const { return name_; }
+ void set_name(const std::string& value) { name_ = value; _has_field_.set(1); }
+
+ bool has_trigger_chance() const { return _has_field_[2]; }
+ float trigger_chance() const { return trigger_chance_; }
+ void set_trigger_chance(float value) { trigger_chance_ = value; _has_field_.set(2); }
+
+ bool has_delay_ms() const { return _has_field_[3]; }
+ uint64_t delay_ms() const { return delay_ms_; }
+ void set_delay_ms(uint64_t value) { delay_ms_ = value; _has_field_.set(3); }
+
+ bool has_activation_delay_ms() const { return _has_field_[8]; }
+ uint64_t activation_delay_ms() const { return activation_delay_ms_; }
+ void set_activation_delay_ms(uint64_t value) { activation_delay_ms_ = value; _has_field_.set(8); }
+
+ bool has_manual_trigger_name() const { return _has_field_[4]; }
+ const std::string& manual_trigger_name() const { return manual_trigger_name_; }
+ void set_manual_trigger_name(const std::string& value) { manual_trigger_name_ = value; _has_field_.set(4); }
+
+ bool has_histogram() const { return _has_field_[5]; }
+ const TriggerRule_HistogramTrigger& histogram() const { return *histogram_; }
+ TriggerRule_HistogramTrigger* mutable_histogram() { _has_field_.set(5); return histogram_.get(); }
+
+ bool has_repeating_interval() const { return _has_field_[6]; }
+ const TriggerRule_RepeatingInterval& repeating_interval() const { return *repeating_interval_; }
+ TriggerRule_RepeatingInterval* mutable_repeating_interval() { _has_field_.set(6); return repeating_interval_.get(); }
+
+ private:
+ std::string name_{};
+ float trigger_chance_{};
+ uint64_t delay_ms_{};
+ uint64_t activation_delay_ms_{};
+ std::string manual_trigger_name_{};
+ ::protozero::CopyablePtr<TriggerRule_HistogramTrigger> histogram_;
+ ::protozero::CopyablePtr<TriggerRule_RepeatingInterval> repeating_interval_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<9> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT TriggerRule_RepeatingInterval : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kPeriodMsFieldNumber = 1,
+ kRandomizedFieldNumber = 2,
+ };
+
+ TriggerRule_RepeatingInterval();
+ ~TriggerRule_RepeatingInterval() override;
+ TriggerRule_RepeatingInterval(TriggerRule_RepeatingInterval&&) noexcept;
+ TriggerRule_RepeatingInterval& operator=(TriggerRule_RepeatingInterval&&);
+ TriggerRule_RepeatingInterval(const TriggerRule_RepeatingInterval&);
+ TriggerRule_RepeatingInterval& operator=(const TriggerRule_RepeatingInterval&);
+ bool operator==(const TriggerRule_RepeatingInterval&) const;
+ bool operator!=(const TriggerRule_RepeatingInterval& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_period_ms() const { return _has_field_[1]; }
+ uint64_t period_ms() const { return period_ms_; }
+ void set_period_ms(uint64_t value) { period_ms_ = value; _has_field_.set(1); }
+
+ bool has_randomized() const { return _has_field_[2]; }
+ bool randomized() const { return randomized_; }
+ void set_randomized(bool value) { randomized_ = value; _has_field_.set(2); }
+
+ private:
+ uint64_t period_ms_{};
+ bool randomized_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<3> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT TriggerRule_HistogramTrigger : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kHistogramNameFieldNumber = 1,
+ kMinValueFieldNumber = 2,
+ kMaxValueFieldNumber = 3,
+ };
+
+ TriggerRule_HistogramTrigger();
+ ~TriggerRule_HistogramTrigger() override;
+ TriggerRule_HistogramTrigger(TriggerRule_HistogramTrigger&&) noexcept;
+ TriggerRule_HistogramTrigger& operator=(TriggerRule_HistogramTrigger&&);
+ TriggerRule_HistogramTrigger(const TriggerRule_HistogramTrigger&);
+ TriggerRule_HistogramTrigger& operator=(const TriggerRule_HistogramTrigger&);
+ bool operator==(const TriggerRule_HistogramTrigger&) const;
+ bool operator!=(const TriggerRule_HistogramTrigger& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_histogram_name() const { return _has_field_[1]; }
+ const std::string& histogram_name() const { return histogram_name_; }
+ void set_histogram_name(const std::string& value) { histogram_name_ = value; _has_field_.set(1); }
+
+ bool has_min_value() const { return _has_field_[2]; }
+ int64_t min_value() const { return min_value_; }
+ void set_min_value(int64_t value) { min_value_ = value; _has_field_.set(2); }
+
+ bool has_max_value() const { return _has_field_[3]; }
+ int64_t max_value() const { return max_value_; }
+ void set_max_value(int64_t value) { max_value_ = value; _has_field_.set(3); }
+
+ private:
+ std::string histogram_name_{};
+ int64_t min_value_{};
+ int64_t max_value_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<4> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT ChromeFieldTracingConfig : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kScenariosFieldNumber = 1,
+ };
+
+ ChromeFieldTracingConfig();
+ ~ChromeFieldTracingConfig() override;
+ ChromeFieldTracingConfig(ChromeFieldTracingConfig&&) noexcept;
+ ChromeFieldTracingConfig& operator=(ChromeFieldTracingConfig&&);
+ ChromeFieldTracingConfig(const ChromeFieldTracingConfig&);
+ ChromeFieldTracingConfig& operator=(const ChromeFieldTracingConfig&);
+ bool operator==(const ChromeFieldTracingConfig&) const;
+ bool operator!=(const ChromeFieldTracingConfig& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ const std::vector<ScenarioConfig>& scenarios() const { return scenarios_; }
+ std::vector<ScenarioConfig>* mutable_scenarios() { return &scenarios_; }
+ int scenarios_size() const;
+ void clear_scenarios();
+ ScenarioConfig* add_scenarios();
+
+ private:
+ std::vector<ScenarioConfig> scenarios_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT ScenarioConfig : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kScenarioNameFieldNumber = 1,
+ kStartRulesFieldNumber = 2,
+ kStopRulesFieldNumber = 3,
+ kUploadRulesFieldNumber = 4,
+ kSetupRulesFieldNumber = 5,
+ kTraceConfigFieldNumber = 6,
+ kNestedScenariosFieldNumber = 7,
+ };
+
+ ScenarioConfig();
+ ~ScenarioConfig() override;
+ ScenarioConfig(ScenarioConfig&&) noexcept;
+ ScenarioConfig& operator=(ScenarioConfig&&);
+ ScenarioConfig(const ScenarioConfig&);
+ ScenarioConfig& operator=(const ScenarioConfig&);
+ bool operator==(const ScenarioConfig&) const;
+ bool operator!=(const ScenarioConfig& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_scenario_name() const { return _has_field_[1]; }
+ const std::string& scenario_name() const { return scenario_name_; }
+ void set_scenario_name(const std::string& value) { scenario_name_ = value; _has_field_.set(1); }
+
+ const std::vector<TriggerRule>& start_rules() const { return start_rules_; }
+ std::vector<TriggerRule>* mutable_start_rules() { return &start_rules_; }
+ int start_rules_size() const;
+ void clear_start_rules();
+ TriggerRule* add_start_rules();
+
+ const std::vector<TriggerRule>& stop_rules() const { return stop_rules_; }
+ std::vector<TriggerRule>* mutable_stop_rules() { return &stop_rules_; }
+ int stop_rules_size() const;
+ void clear_stop_rules();
+ TriggerRule* add_stop_rules();
+
+ const std::vector<TriggerRule>& upload_rules() const { return upload_rules_; }
+ std::vector<TriggerRule>* mutable_upload_rules() { return &upload_rules_; }
+ int upload_rules_size() const;
+ void clear_upload_rules();
+ TriggerRule* add_upload_rules();
+
+ const std::vector<TriggerRule>& setup_rules() const { return setup_rules_; }
+ std::vector<TriggerRule>* mutable_setup_rules() { return &setup_rules_; }
+ int setup_rules_size() const;
+ void clear_setup_rules();
+ TriggerRule* add_setup_rules();
+
+ bool has_trace_config() const { return _has_field_[6]; }
+ const TraceConfig& trace_config() const { return *trace_config_; }
+ TraceConfig* mutable_trace_config() { _has_field_.set(6); return trace_config_.get(); }
+
+ const std::vector<NestedScenarioConfig>& nested_scenarios() const { return nested_scenarios_; }
+ std::vector<NestedScenarioConfig>* mutable_nested_scenarios() { return &nested_scenarios_; }
+ int nested_scenarios_size() const;
+ void clear_nested_scenarios();
+ NestedScenarioConfig* add_nested_scenarios();
+
+ private:
+ std::string scenario_name_{};
+ std::vector<TriggerRule> start_rules_;
+ std::vector<TriggerRule> stop_rules_;
+ std::vector<TriggerRule> upload_rules_;
+ std::vector<TriggerRule> setup_rules_;
+ ::protozero::CopyablePtr<TraceConfig> trace_config_;
+ std::vector<NestedScenarioConfig> nested_scenarios_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<8> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT NestedScenarioConfig : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kScenarioNameFieldNumber = 1,
+ kStartRulesFieldNumber = 2,
+ kStopRulesFieldNumber = 3,
+ kUploadRulesFieldNumber = 4,
+ };
+
+ NestedScenarioConfig();
+ ~NestedScenarioConfig() override;
+ NestedScenarioConfig(NestedScenarioConfig&&) noexcept;
+ NestedScenarioConfig& operator=(NestedScenarioConfig&&);
+ NestedScenarioConfig(const NestedScenarioConfig&);
+ NestedScenarioConfig& operator=(const NestedScenarioConfig&);
+ bool operator==(const NestedScenarioConfig&) const;
+ bool operator!=(const NestedScenarioConfig& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_scenario_name() const { return _has_field_[1]; }
+ const std::string& scenario_name() const { return scenario_name_; }
+ void set_scenario_name(const std::string& value) { scenario_name_ = value; _has_field_.set(1); }
+
+ const std::vector<TriggerRule>& start_rules() const { return start_rules_; }
+ std::vector<TriggerRule>* mutable_start_rules() { return &start_rules_; }
+ int start_rules_size() const;
+ void clear_start_rules();
+ TriggerRule* add_start_rules();
+
+ const std::vector<TriggerRule>& stop_rules() const { return stop_rules_; }
+ std::vector<TriggerRule>* mutable_stop_rules() { return &stop_rules_; }
+ int stop_rules_size() const;
+ void clear_stop_rules();
+ TriggerRule* add_stop_rules();
+
+ const std::vector<TriggerRule>& upload_rules() const { return upload_rules_; }
+ std::vector<TriggerRule>* mutable_upload_rules() { return &upload_rules_; }
+ int upload_rules_size() const;
+ void clear_upload_rules();
+ TriggerRule* add_upload_rules();
+
+ private:
+ std::string scenario_name_{};
+ std::vector<TriggerRule> start_rules_;
+ std::vector<TriggerRule> stop_rules_;
+ std::vector<TriggerRule> upload_rules_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<5> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_CHROME_SCENARIO_CONFIG_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/config/chrome/v8_config.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_CHROME_V8_CONFIG_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_CHROME_V8_CONFIG_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class V8Config;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+class PERFETTO_EXPORT_COMPONENT V8Config : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kLogScriptSourcesFieldNumber = 1,
+ kLogInstructionsFieldNumber = 2,
+ };
+
+ V8Config();
+ ~V8Config() override;
+ V8Config(V8Config&&) noexcept;
+ V8Config& operator=(V8Config&&);
+ V8Config(const V8Config&);
+ V8Config& operator=(const V8Config&);
+ bool operator==(const V8Config&) const;
+ bool operator!=(const V8Config& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_log_script_sources() const { return _has_field_[1]; }
+ bool log_script_sources() const { return log_script_sources_; }
+ void set_log_script_sources(bool value) { log_script_sources_ = value; _has_field_.set(1); }
+
+ bool has_log_instructions() const { return _has_field_[2]; }
+ bool log_instructions() const { return log_instructions_; }
+ void set_log_instructions(bool value) { log_instructions_ = value; _has_field_.set(2); }
+
+ private:
+ bool log_script_sources_{};
+ bool log_instructions_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<3> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_CHROME_V8_CONFIG_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/config/etw/etw_config.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ETW_ETW_CONFIG_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ETW_ETW_CONFIG_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class EtwConfig;
+enum EtwConfig_KernelFlag : int;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+enum EtwConfig_KernelFlag : int {
+ EtwConfig_KernelFlag_CSWITCH = 0,
+ EtwConfig_KernelFlag_DISPATCHER = 1,
+};
+
+class PERFETTO_EXPORT_COMPONENT EtwConfig : public ::protozero::CppMessageObj {
+ public:
+ using KernelFlag = EtwConfig_KernelFlag;
+ static constexpr auto CSWITCH = EtwConfig_KernelFlag_CSWITCH;
+ static constexpr auto DISPATCHER = EtwConfig_KernelFlag_DISPATCHER;
+ static constexpr auto KernelFlag_MIN = EtwConfig_KernelFlag_CSWITCH;
+ static constexpr auto KernelFlag_MAX = EtwConfig_KernelFlag_DISPATCHER;
+ enum FieldNumbers {
+ kKernelFlagsFieldNumber = 1,
+ };
+
+ EtwConfig();
+ ~EtwConfig() override;
+ EtwConfig(EtwConfig&&) noexcept;
+ EtwConfig& operator=(EtwConfig&&);
+ EtwConfig(const EtwConfig&);
+ EtwConfig& operator=(const EtwConfig&);
+ bool operator==(const EtwConfig&) const;
+ bool operator!=(const EtwConfig& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ const std::vector<EtwConfig_KernelFlag>& kernel_flags() const { return kernel_flags_; }
+ std::vector<EtwConfig_KernelFlag>* mutable_kernel_flags() { return &kernel_flags_; }
+ int kernel_flags_size() const { return static_cast<int>(kernel_flags_.size()); }
+ void clear_kernel_flags() { kernel_flags_.clear(); }
+ void add_kernel_flags(EtwConfig_KernelFlag value) { kernel_flags_.emplace_back(value); }
+ EtwConfig_KernelFlag* add_kernel_flags() { kernel_flags_.emplace_back(); return &kernel_flags_.back(); }
+
+ private:
+ std::vector<EtwConfig_KernelFlag> kernel_flags_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ETW_ETW_CONFIG_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/config/interceptor_config.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_INTERCEPTOR_CONFIG_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_INTERCEPTOR_CONFIG_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class InterceptorConfig;
+class ConsoleConfig;
+enum ConsoleConfig_Output : int;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+class PERFETTO_EXPORT_COMPONENT InterceptorConfig : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kNameFieldNumber = 1,
+ kConsoleConfigFieldNumber = 100,
+ };
+
+ InterceptorConfig();
+ ~InterceptorConfig() override;
+ InterceptorConfig(InterceptorConfig&&) noexcept;
+ InterceptorConfig& operator=(InterceptorConfig&&);
+ InterceptorConfig(const InterceptorConfig&);
+ InterceptorConfig& operator=(const InterceptorConfig&);
+ bool operator==(const InterceptorConfig&) const;
+ bool operator!=(const InterceptorConfig& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_name() const { return _has_field_[1]; }
+ const std::string& name() const { return name_; }
+ void set_name(const std::string& value) { name_ = value; _has_field_.set(1); }
+
+ bool has_console_config() const { return _has_field_[100]; }
+ const ConsoleConfig& console_config() const { return *console_config_; }
+ ConsoleConfig* mutable_console_config() { _has_field_.set(100); return console_config_.get(); }
+
+ private:
+ std::string name_{};
+ ::protozero::CopyablePtr<ConsoleConfig> console_config_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<101> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_INTERCEPTOR_CONFIG_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/config/stress_test_config.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_STRESS_TEST_CONFIG_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_STRESS_TEST_CONFIG_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class StressTestConfig;
+class StressTestConfig_WriterTiming;
+class TraceConfig;
+class TraceConfig_CmdTraceStartDelay;
+class TraceConfig_AndroidReportConfig;
+class TraceConfig_TraceFilter;
+class TraceConfig_TraceFilter_StringFilterChain;
+class TraceConfig_TraceFilter_StringFilterRule;
+class TraceConfig_IncidentReportConfig;
+class TraceConfig_IncrementalStateConfig;
+class TraceConfig_TriggerConfig;
+class TraceConfig_TriggerConfig_Trigger;
+class TraceConfig_GuardrailOverrides;
+class TraceConfig_StatsdMetadata;
+class TraceConfig_ProducerConfig;
+class TraceConfig_BuiltinDataSource;
+class TraceConfig_DataSource;
+class DataSourceConfig;
+class TestConfig;
+class TestConfig_DummyFields;
+class InterceptorConfig;
+class ConsoleConfig;
+class ChromeConfig;
+class SystemInfoConfig;
+class TraceConfig_BufferConfig;
+enum TraceConfig_LockdownModeOperation : int;
+enum TraceConfig_CompressionType : int;
+enum TraceConfig_StatsdLogging : int;
+enum TraceConfig_TraceFilter_StringFilterPolicy : int;
+enum TraceConfig_TriggerConfig_TriggerMode : int;
+enum BuiltinClock : int;
+enum DataSourceConfig_SessionInitiator : int;
+enum ConsoleConfig_Output : int;
+enum ChromeConfig_ClientPriority : int;
+enum TraceConfig_BufferConfig_FillPolicy : int;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+class PERFETTO_EXPORT_COMPONENT StressTestConfig : public ::protozero::CppMessageObj {
+ public:
+ using WriterTiming = StressTestConfig_WriterTiming;
+ enum FieldNumbers {
+ kTraceConfigFieldNumber = 1,
+ kShmemSizeKbFieldNumber = 2,
+ kShmemPageSizeKbFieldNumber = 3,
+ kNumProcessesFieldNumber = 4,
+ kNumThreadsFieldNumber = 5,
+ kMaxEventsFieldNumber = 6,
+ kNestingFieldNumber = 7,
+ kSteadyStateTimingsFieldNumber = 8,
+ kBurstPeriodMsFieldNumber = 9,
+ kBurstDurationMsFieldNumber = 10,
+ kBurstTimingsFieldNumber = 11,
+ };
+
+ StressTestConfig();
+ ~StressTestConfig() override;
+ StressTestConfig(StressTestConfig&&) noexcept;
+ StressTestConfig& operator=(StressTestConfig&&);
+ StressTestConfig(const StressTestConfig&);
+ StressTestConfig& operator=(const StressTestConfig&);
+ bool operator==(const StressTestConfig&) const;
+ bool operator!=(const StressTestConfig& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_trace_config() const { return _has_field_[1]; }
+ const TraceConfig& trace_config() const { return *trace_config_; }
+ TraceConfig* mutable_trace_config() { _has_field_.set(1); return trace_config_.get(); }
+
+ bool has_shmem_size_kb() const { return _has_field_[2]; }
+ uint32_t shmem_size_kb() const { return shmem_size_kb_; }
+ void set_shmem_size_kb(uint32_t value) { shmem_size_kb_ = value; _has_field_.set(2); }
+
+ bool has_shmem_page_size_kb() const { return _has_field_[3]; }
+ uint32_t shmem_page_size_kb() const { return shmem_page_size_kb_; }
+ void set_shmem_page_size_kb(uint32_t value) { shmem_page_size_kb_ = value; _has_field_.set(3); }
+
+ bool has_num_processes() const { return _has_field_[4]; }
+ uint32_t num_processes() const { return num_processes_; }
+ void set_num_processes(uint32_t value) { num_processes_ = value; _has_field_.set(4); }
+
+ bool has_num_threads() const { return _has_field_[5]; }
+ uint32_t num_threads() const { return num_threads_; }
+ void set_num_threads(uint32_t value) { num_threads_ = value; _has_field_.set(5); }
+
+ bool has_max_events() const { return _has_field_[6]; }
+ uint32_t max_events() const { return max_events_; }
+ void set_max_events(uint32_t value) { max_events_ = value; _has_field_.set(6); }
+
+ bool has_nesting() const { return _has_field_[7]; }
+ uint32_t nesting() const { return nesting_; }
+ void set_nesting(uint32_t value) { nesting_ = value; _has_field_.set(7); }
+
+ bool has_steady_state_timings() const { return _has_field_[8]; }
+ const StressTestConfig_WriterTiming& steady_state_timings() const { return *steady_state_timings_; }
+ StressTestConfig_WriterTiming* mutable_steady_state_timings() { _has_field_.set(8); return steady_state_timings_.get(); }
+
+ bool has_burst_period_ms() const { return _has_field_[9]; }
+ uint32_t burst_period_ms() const { return burst_period_ms_; }
+ void set_burst_period_ms(uint32_t value) { burst_period_ms_ = value; _has_field_.set(9); }
+
+ bool has_burst_duration_ms() const { return _has_field_[10]; }
+ uint32_t burst_duration_ms() const { return burst_duration_ms_; }
+ void set_burst_duration_ms(uint32_t value) { burst_duration_ms_ = value; _has_field_.set(10); }
+
+ bool has_burst_timings() const { return _has_field_[11]; }
+ const StressTestConfig_WriterTiming& burst_timings() const { return *burst_timings_; }
+ StressTestConfig_WriterTiming* mutable_burst_timings() { _has_field_.set(11); return burst_timings_.get(); }
+
+ private:
+ ::protozero::CopyablePtr<TraceConfig> trace_config_;
+ uint32_t shmem_size_kb_{};
+ uint32_t shmem_page_size_kb_{};
+ uint32_t num_processes_{};
+ uint32_t num_threads_{};
+ uint32_t max_events_{};
+ uint32_t nesting_{};
+ ::protozero::CopyablePtr<StressTestConfig_WriterTiming> steady_state_timings_;
+ uint32_t burst_period_ms_{};
+ uint32_t burst_duration_ms_{};
+ ::protozero::CopyablePtr<StressTestConfig_WriterTiming> burst_timings_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<12> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT StressTestConfig_WriterTiming : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kPayloadMeanFieldNumber = 1,
+ kPayloadStddevFieldNumber = 2,
+ kRateMeanFieldNumber = 3,
+ kRateStddevFieldNumber = 4,
+ kPayloadWriteTimeMsFieldNumber = 5,
+ };
+
+ StressTestConfig_WriterTiming();
+ ~StressTestConfig_WriterTiming() override;
+ StressTestConfig_WriterTiming(StressTestConfig_WriterTiming&&) noexcept;
+ StressTestConfig_WriterTiming& operator=(StressTestConfig_WriterTiming&&);
+ StressTestConfig_WriterTiming(const StressTestConfig_WriterTiming&);
+ StressTestConfig_WriterTiming& operator=(const StressTestConfig_WriterTiming&);
+ bool operator==(const StressTestConfig_WriterTiming&) const;
+ bool operator!=(const StressTestConfig_WriterTiming& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_payload_mean() const { return _has_field_[1]; }
+ double payload_mean() const { return payload_mean_; }
+ void set_payload_mean(double value) { payload_mean_ = value; _has_field_.set(1); }
+
+ bool has_payload_stddev() const { return _has_field_[2]; }
+ double payload_stddev() const { return payload_stddev_; }
+ void set_payload_stddev(double value) { payload_stddev_ = value; _has_field_.set(2); }
+
+ bool has_rate_mean() const { return _has_field_[3]; }
+ double rate_mean() const { return rate_mean_; }
+ void set_rate_mean(double value) { rate_mean_ = value; _has_field_.set(3); }
+
+ bool has_rate_stddev() const { return _has_field_[4]; }
+ double rate_stddev() const { return rate_stddev_; }
+ void set_rate_stddev(double value) { rate_stddev_ = value; _has_field_.set(4); }
+
+ bool has_payload_write_time_ms() const { return _has_field_[5]; }
+ uint32_t payload_write_time_ms() const { return payload_write_time_ms_; }
+ void set_payload_write_time_ms(uint32_t value) { payload_write_time_ms_ = value; _has_field_.set(5); }
+
+ private:
+ double payload_mean_{};
+ double payload_stddev_{};
+ double rate_mean_{};
+ double rate_stddev_{};
+ uint32_t payload_write_time_ms_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<6> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_STRESS_TEST_CONFIG_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/config/test_config.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_TEST_CONFIG_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_TEST_CONFIG_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class TestConfig;
+class TestConfig_DummyFields;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+class PERFETTO_EXPORT_COMPONENT TestConfig : public ::protozero::CppMessageObj {
+ public:
+ using DummyFields = TestConfig_DummyFields;
+ enum FieldNumbers {
+ kMessageCountFieldNumber = 1,
+ kMaxMessagesPerSecondFieldNumber = 2,
+ kSeedFieldNumber = 3,
+ kMessageSizeFieldNumber = 4,
+ kSendBatchOnRegisterFieldNumber = 5,
+ kDummyFieldsFieldNumber = 6,
+ };
+
+ TestConfig();
+ ~TestConfig() override;
+ TestConfig(TestConfig&&) noexcept;
+ TestConfig& operator=(TestConfig&&);
+ TestConfig(const TestConfig&);
+ TestConfig& operator=(const TestConfig&);
+ bool operator==(const TestConfig&) const;
+ bool operator!=(const TestConfig& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_message_count() const { return _has_field_[1]; }
+ uint32_t message_count() const { return message_count_; }
+ void set_message_count(uint32_t value) { message_count_ = value; _has_field_.set(1); }
+
+ bool has_max_messages_per_second() const { return _has_field_[2]; }
+ uint32_t max_messages_per_second() const { return max_messages_per_second_; }
+ void set_max_messages_per_second(uint32_t value) { max_messages_per_second_ = value; _has_field_.set(2); }
+
+ bool has_seed() const { return _has_field_[3]; }
+ uint32_t seed() const { return seed_; }
+ void set_seed(uint32_t value) { seed_ = value; _has_field_.set(3); }
+
+ bool has_message_size() const { return _has_field_[4]; }
+ uint32_t message_size() const { return message_size_; }
+ void set_message_size(uint32_t value) { message_size_ = value; _has_field_.set(4); }
+
+ bool has_send_batch_on_register() const { return _has_field_[5]; }
+ bool send_batch_on_register() const { return send_batch_on_register_; }
+ void set_send_batch_on_register(bool value) { send_batch_on_register_ = value; _has_field_.set(5); }
+
+ bool has_dummy_fields() const { return _has_field_[6]; }
+ const TestConfig_DummyFields& dummy_fields() const { return *dummy_fields_; }
+ TestConfig_DummyFields* mutable_dummy_fields() { _has_field_.set(6); return dummy_fields_.get(); }
+
+ private:
+ uint32_t message_count_{};
+ uint32_t max_messages_per_second_{};
+ uint32_t seed_{};
+ uint32_t message_size_{};
+ bool send_batch_on_register_{};
+ ::protozero::CopyablePtr<TestConfig_DummyFields> dummy_fields_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<7> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT TestConfig_DummyFields : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kFieldUint32FieldNumber = 1,
+ kFieldInt32FieldNumber = 2,
+ kFieldUint64FieldNumber = 3,
+ kFieldInt64FieldNumber = 4,
+ kFieldFixed64FieldNumber = 5,
+ kFieldSfixed64FieldNumber = 6,
+ kFieldFixed32FieldNumber = 7,
+ kFieldSfixed32FieldNumber = 8,
+ kFieldDoubleFieldNumber = 9,
+ kFieldFloatFieldNumber = 10,
+ kFieldSint64FieldNumber = 11,
+ kFieldSint32FieldNumber = 12,
+ kFieldStringFieldNumber = 13,
+ kFieldBytesFieldNumber = 14,
+ };
+
+ TestConfig_DummyFields();
+ ~TestConfig_DummyFields() override;
+ TestConfig_DummyFields(TestConfig_DummyFields&&) noexcept;
+ TestConfig_DummyFields& operator=(TestConfig_DummyFields&&);
+ TestConfig_DummyFields(const TestConfig_DummyFields&);
+ TestConfig_DummyFields& operator=(const TestConfig_DummyFields&);
+ bool operator==(const TestConfig_DummyFields&) const;
+ bool operator!=(const TestConfig_DummyFields& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_field_uint32() const { return _has_field_[1]; }
+ uint32_t field_uint32() const { return field_uint32_; }
+ void set_field_uint32(uint32_t value) { field_uint32_ = value; _has_field_.set(1); }
+
+ bool has_field_int32() const { return _has_field_[2]; }
+ int32_t field_int32() const { return field_int32_; }
+ void set_field_int32(int32_t value) { field_int32_ = value; _has_field_.set(2); }
+
+ bool has_field_uint64() const { return _has_field_[3]; }
+ uint64_t field_uint64() const { return field_uint64_; }
+ void set_field_uint64(uint64_t value) { field_uint64_ = value; _has_field_.set(3); }
+
+ bool has_field_int64() const { return _has_field_[4]; }
+ int64_t field_int64() const { return field_int64_; }
+ void set_field_int64(int64_t value) { field_int64_ = value; _has_field_.set(4); }
+
+ bool has_field_fixed64() const { return _has_field_[5]; }
+ uint64_t field_fixed64() const { return field_fixed64_; }
+ void set_field_fixed64(uint64_t value) { field_fixed64_ = value; _has_field_.set(5); }
+
+ bool has_field_sfixed64() const { return _has_field_[6]; }
+ int64_t field_sfixed64() const { return field_sfixed64_; }
+ void set_field_sfixed64(int64_t value) { field_sfixed64_ = value; _has_field_.set(6); }
+
+ bool has_field_fixed32() const { return _has_field_[7]; }
+ uint32_t field_fixed32() const { return field_fixed32_; }
+ void set_field_fixed32(uint32_t value) { field_fixed32_ = value; _has_field_.set(7); }
+
+ bool has_field_sfixed32() const { return _has_field_[8]; }
+ int32_t field_sfixed32() const { return field_sfixed32_; }
+ void set_field_sfixed32(int32_t value) { field_sfixed32_ = value; _has_field_.set(8); }
+
+ bool has_field_double() const { return _has_field_[9]; }
+ double field_double() const { return field_double_; }
+ void set_field_double(double value) { field_double_ = value; _has_field_.set(9); }
+
+ bool has_field_float() const { return _has_field_[10]; }
+ float field_float() const { return field_float_; }
+ void set_field_float(float value) { field_float_ = value; _has_field_.set(10); }
+
+ bool has_field_sint64() const { return _has_field_[11]; }
+ int64_t field_sint64() const { return field_sint64_; }
+ void set_field_sint64(int64_t value) { field_sint64_ = value; _has_field_.set(11); }
+
+ bool has_field_sint32() const { return _has_field_[12]; }
+ int32_t field_sint32() const { return field_sint32_; }
+ void set_field_sint32(int32_t value) { field_sint32_ = value; _has_field_.set(12); }
+
+ bool has_field_string() const { return _has_field_[13]; }
+ const std::string& field_string() const { return field_string_; }
+ void set_field_string(const std::string& value) { field_string_ = value; _has_field_.set(13); }
+
+ bool has_field_bytes() const { return _has_field_[14]; }
+ const std::string& field_bytes() const { return field_bytes_; }
+ void set_field_bytes(const std::string& value) { field_bytes_ = value; _has_field_.set(14); }
+ void set_field_bytes(const void* p, size_t s) { field_bytes_.assign(reinterpret_cast<const char*>(p), s); _has_field_.set(14); }
+
+ private:
+ uint32_t field_uint32_{};
+ int32_t field_int32_{};
+ uint64_t field_uint64_{};
+ int64_t field_int64_{};
+ uint64_t field_fixed64_{};
+ int64_t field_sfixed64_{};
+ uint32_t field_fixed32_{};
+ int32_t field_sfixed32_{};
+ double field_double_{};
+ float field_float_{};
+ int64_t field_sint64_{};
+ int32_t field_sint32_{};
+ std::string field_string_{};
+ std::string field_bytes_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<15> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_TEST_CONFIG_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/config/android/android_game_intervention_list_config.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ANDROID_ANDROID_GAME_INTERVENTION_LIST_CONFIG_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ANDROID_ANDROID_GAME_INTERVENTION_LIST_CONFIG_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class AndroidGameInterventionListConfig_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ AndroidGameInterventionListConfig_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit AndroidGameInterventionListConfig_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit AndroidGameInterventionListConfig_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_package_name_filter() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstChars> package_name_filter() const { return GetRepeated<::protozero::ConstChars>(1); }
+};
+
+class AndroidGameInterventionListConfig : public ::protozero::Message {
+ public:
+ using Decoder = AndroidGameInterventionListConfig_Decoder;
+ enum : int32_t {
+ kPackageNameFilterFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.AndroidGameInterventionListConfig"; }
+
+
+ using FieldMetadata_PackageNameFilter =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ AndroidGameInterventionListConfig>;
+
+ static constexpr FieldMetadata_PackageNameFilter kPackageNameFilter{};
+ void add_package_name_filter(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_PackageNameFilter::kFieldId, data, size);
+ }
+ void add_package_name_filter(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_PackageNameFilter::kFieldId, chars.data, chars.size);
+ }
+ void add_package_name_filter(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_PackageNameFilter::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/config/android/android_input_event_config.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ANDROID_ANDROID_INPUT_EVENT_CONFIG_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ANDROID_ANDROID_INPUT_EVENT_CONFIG_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class AndroidInputEventConfig_TraceRule;
+namespace perfetto_pbzero_enum_AndroidInputEventConfig {
+enum TraceLevel : int32_t;
+} // namespace perfetto_pbzero_enum_AndroidInputEventConfig
+using AndroidInputEventConfig_TraceLevel = perfetto_pbzero_enum_AndroidInputEventConfig::TraceLevel;
+namespace perfetto_pbzero_enum_AndroidInputEventConfig {
+enum TraceMode : int32_t;
+} // namespace perfetto_pbzero_enum_AndroidInputEventConfig
+using AndroidInputEventConfig_TraceMode = perfetto_pbzero_enum_AndroidInputEventConfig::TraceMode;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+namespace perfetto_pbzero_enum_AndroidInputEventConfig {
+enum TraceMode : int32_t {
+ TRACE_MODE_TRACE_ALL = 0,
+ TRACE_MODE_USE_RULES = 1,
+};
+} // namespace perfetto_pbzero_enum_AndroidInputEventConfig
+using AndroidInputEventConfig_TraceMode = perfetto_pbzero_enum_AndroidInputEventConfig::TraceMode;
+
+
+constexpr AndroidInputEventConfig_TraceMode AndroidInputEventConfig_TraceMode_MIN = AndroidInputEventConfig_TraceMode::TRACE_MODE_TRACE_ALL;
+constexpr AndroidInputEventConfig_TraceMode AndroidInputEventConfig_TraceMode_MAX = AndroidInputEventConfig_TraceMode::TRACE_MODE_USE_RULES;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* AndroidInputEventConfig_TraceMode_Name(::perfetto::protos::pbzero::AndroidInputEventConfig_TraceMode value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::AndroidInputEventConfig_TraceMode::TRACE_MODE_TRACE_ALL:
+ return "TRACE_MODE_TRACE_ALL";
+
+ case ::perfetto::protos::pbzero::AndroidInputEventConfig_TraceMode::TRACE_MODE_USE_RULES:
+ return "TRACE_MODE_USE_RULES";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_AndroidInputEventConfig {
+enum TraceLevel : int32_t {
+ TRACE_LEVEL_NONE = 0,
+ TRACE_LEVEL_REDACTED = 1,
+ TRACE_LEVEL_COMPLETE = 2,
+};
+} // namespace perfetto_pbzero_enum_AndroidInputEventConfig
+using AndroidInputEventConfig_TraceLevel = perfetto_pbzero_enum_AndroidInputEventConfig::TraceLevel;
+
+
+constexpr AndroidInputEventConfig_TraceLevel AndroidInputEventConfig_TraceLevel_MIN = AndroidInputEventConfig_TraceLevel::TRACE_LEVEL_NONE;
+constexpr AndroidInputEventConfig_TraceLevel AndroidInputEventConfig_TraceLevel_MAX = AndroidInputEventConfig_TraceLevel::TRACE_LEVEL_COMPLETE;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* AndroidInputEventConfig_TraceLevel_Name(::perfetto::protos::pbzero::AndroidInputEventConfig_TraceLevel value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::AndroidInputEventConfig_TraceLevel::TRACE_LEVEL_NONE:
+ return "TRACE_LEVEL_NONE";
+
+ case ::perfetto::protos::pbzero::AndroidInputEventConfig_TraceLevel::TRACE_LEVEL_REDACTED:
+ return "TRACE_LEVEL_REDACTED";
+
+ case ::perfetto::protos::pbzero::AndroidInputEventConfig_TraceLevel::TRACE_LEVEL_COMPLETE:
+ return "TRACE_LEVEL_COMPLETE";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+class AndroidInputEventConfig_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ AndroidInputEventConfig_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit AndroidInputEventConfig_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit AndroidInputEventConfig_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_mode() const { return at<1>().valid(); }
+ int32_t mode() const { return at<1>().as_int32(); }
+ bool has_rules() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> rules() const { return GetRepeated<::protozero::ConstBytes>(2); }
+ bool has_trace_dispatcher_input_events() const { return at<3>().valid(); }
+ bool trace_dispatcher_input_events() const { return at<3>().as_bool(); }
+ bool has_trace_dispatcher_window_dispatch() const { return at<4>().valid(); }
+ bool trace_dispatcher_window_dispatch() const { return at<4>().as_bool(); }
+};
+
+class AndroidInputEventConfig : public ::protozero::Message {
+ public:
+ using Decoder = AndroidInputEventConfig_Decoder;
+ enum : int32_t {
+ kModeFieldNumber = 1,
+ kRulesFieldNumber = 2,
+ kTraceDispatcherInputEventsFieldNumber = 3,
+ kTraceDispatcherWindowDispatchFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.AndroidInputEventConfig"; }
+
+ using TraceRule = ::perfetto::protos::pbzero::AndroidInputEventConfig_TraceRule;
+
+ using TraceMode = ::perfetto::protos::pbzero::AndroidInputEventConfig_TraceMode;
+ static inline const char* TraceMode_Name(TraceMode value) {
+ return ::perfetto::protos::pbzero::AndroidInputEventConfig_TraceMode_Name(value);
+ }
+
+ using TraceLevel = ::perfetto::protos::pbzero::AndroidInputEventConfig_TraceLevel;
+ static inline const char* TraceLevel_Name(TraceLevel value) {
+ return ::perfetto::protos::pbzero::AndroidInputEventConfig_TraceLevel_Name(value);
+ }
+ static inline const TraceMode TRACE_MODE_TRACE_ALL = TraceMode::TRACE_MODE_TRACE_ALL;
+ static inline const TraceMode TRACE_MODE_USE_RULES = TraceMode::TRACE_MODE_USE_RULES;
+ static inline const TraceLevel TRACE_LEVEL_NONE = TraceLevel::TRACE_LEVEL_NONE;
+ static inline const TraceLevel TRACE_LEVEL_REDACTED = TraceLevel::TRACE_LEVEL_REDACTED;
+ static inline const TraceLevel TRACE_LEVEL_COMPLETE = TraceLevel::TRACE_LEVEL_COMPLETE;
+
+ using FieldMetadata_Mode =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ AndroidInputEventConfig_TraceMode,
+ AndroidInputEventConfig>;
+
+ static constexpr FieldMetadata_Mode kMode{};
+ void set_mode(AndroidInputEventConfig_TraceMode value) {
+ static constexpr uint32_t field_id = FieldMetadata_Mode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Rules =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ AndroidInputEventConfig_TraceRule,
+ AndroidInputEventConfig>;
+
+ static constexpr FieldMetadata_Rules kRules{};
+ template <typename T = AndroidInputEventConfig_TraceRule> T* add_rules() {
+ return BeginNestedMessage<T>(2);
+ }
+
+
+ using FieldMetadata_TraceDispatcherInputEvents =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ AndroidInputEventConfig>;
+
+ static constexpr FieldMetadata_TraceDispatcherInputEvents kTraceDispatcherInputEvents{};
+ void set_trace_dispatcher_input_events(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_TraceDispatcherInputEvents::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TraceDispatcherWindowDispatch =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ AndroidInputEventConfig>;
+
+ static constexpr FieldMetadata_TraceDispatcherWindowDispatch kTraceDispatcherWindowDispatch{};
+ void set_trace_dispatcher_window_dispatch(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_TraceDispatcherWindowDispatch::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class AndroidInputEventConfig_TraceRule_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ AndroidInputEventConfig_TraceRule_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit AndroidInputEventConfig_TraceRule_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit AndroidInputEventConfig_TraceRule_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_trace_level() const { return at<1>().valid(); }
+ int32_t trace_level() const { return at<1>().as_int32(); }
+ bool has_match_all_packages() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstChars> match_all_packages() const { return GetRepeated<::protozero::ConstChars>(2); }
+ bool has_match_any_packages() const { return at<3>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstChars> match_any_packages() const { return GetRepeated<::protozero::ConstChars>(3); }
+ bool has_match_secure() const { return at<4>().valid(); }
+ bool match_secure() const { return at<4>().as_bool(); }
+ bool has_match_ime_connection_active() const { return at<5>().valid(); }
+ bool match_ime_connection_active() const { return at<5>().as_bool(); }
+};
+
+class AndroidInputEventConfig_TraceRule : public ::protozero::Message {
+ public:
+ using Decoder = AndroidInputEventConfig_TraceRule_Decoder;
+ enum : int32_t {
+ kTraceLevelFieldNumber = 1,
+ kMatchAllPackagesFieldNumber = 2,
+ kMatchAnyPackagesFieldNumber = 3,
+ kMatchSecureFieldNumber = 4,
+ kMatchImeConnectionActiveFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.AndroidInputEventConfig.TraceRule"; }
+
+
+ using FieldMetadata_TraceLevel =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ AndroidInputEventConfig_TraceLevel,
+ AndroidInputEventConfig_TraceRule>;
+
+ static constexpr FieldMetadata_TraceLevel kTraceLevel{};
+ void set_trace_level(AndroidInputEventConfig_TraceLevel value) {
+ static constexpr uint32_t field_id = FieldMetadata_TraceLevel::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MatchAllPackages =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ AndroidInputEventConfig_TraceRule>;
+
+ static constexpr FieldMetadata_MatchAllPackages kMatchAllPackages{};
+ void add_match_all_packages(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_MatchAllPackages::kFieldId, data, size);
+ }
+ void add_match_all_packages(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_MatchAllPackages::kFieldId, chars.data, chars.size);
+ }
+ void add_match_all_packages(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_MatchAllPackages::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MatchAnyPackages =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ AndroidInputEventConfig_TraceRule>;
+
+ static constexpr FieldMetadata_MatchAnyPackages kMatchAnyPackages{};
+ void add_match_any_packages(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_MatchAnyPackages::kFieldId, data, size);
+ }
+ void add_match_any_packages(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_MatchAnyPackages::kFieldId, chars.data, chars.size);
+ }
+ void add_match_any_packages(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_MatchAnyPackages::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MatchSecure =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ AndroidInputEventConfig_TraceRule>;
+
+ static constexpr FieldMetadata_MatchSecure kMatchSecure{};
+ void set_match_secure(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_MatchSecure::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MatchImeConnectionActive =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ AndroidInputEventConfig_TraceRule>;
+
+ static constexpr FieldMetadata_MatchImeConnectionActive kMatchImeConnectionActive{};
+ void set_match_ime_connection_active(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_MatchImeConnectionActive::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/config/android/android_log_config.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ANDROID_ANDROID_LOG_CONFIG_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ANDROID_ANDROID_LOG_CONFIG_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+enum AndroidLogId : int32_t;
+enum AndroidLogPriority : int32_t;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class AndroidLogConfig_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ AndroidLogConfig_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit AndroidLogConfig_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit AndroidLogConfig_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_log_ids() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<int32_t> log_ids() const { return GetRepeated<int32_t>(1); }
+ bool has_min_prio() const { return at<3>().valid(); }
+ int32_t min_prio() const { return at<3>().as_int32(); }
+ bool has_filter_tags() const { return at<4>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstChars> filter_tags() const { return GetRepeated<::protozero::ConstChars>(4); }
+};
+
+class AndroidLogConfig : public ::protozero::Message {
+ public:
+ using Decoder = AndroidLogConfig_Decoder;
+ enum : int32_t {
+ kLogIdsFieldNumber = 1,
+ kMinPrioFieldNumber = 3,
+ kFilterTagsFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.AndroidLogConfig"; }
+
+
+ using FieldMetadata_LogIds =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ AndroidLogId,
+ AndroidLogConfig>;
+
+ static constexpr FieldMetadata_LogIds kLogIds{};
+ void add_log_ids(AndroidLogId value) {
+ static constexpr uint32_t field_id = FieldMetadata_LogIds::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MinPrio =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ AndroidLogPriority,
+ AndroidLogConfig>;
+
+ static constexpr FieldMetadata_MinPrio kMinPrio{};
+ void set_min_prio(AndroidLogPriority value) {
+ static constexpr uint32_t field_id = FieldMetadata_MinPrio::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FilterTags =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ AndroidLogConfig>;
+
+ static constexpr FieldMetadata_FilterTags kFilterTags{};
+ void add_filter_tags(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_FilterTags::kFieldId, data, size);
+ }
+ void add_filter_tags(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_FilterTags::kFieldId, chars.data, chars.size);
+ }
+ void add_filter_tags(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_FilterTags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/config/android/android_polled_state_config.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ANDROID_ANDROID_POLLED_STATE_CONFIG_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ANDROID_ANDROID_POLLED_STATE_CONFIG_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class AndroidPolledStateConfig_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ AndroidPolledStateConfig_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit AndroidPolledStateConfig_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit AndroidPolledStateConfig_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_poll_ms() const { return at<1>().valid(); }
+ uint32_t poll_ms() const { return at<1>().as_uint32(); }
+};
+
+class AndroidPolledStateConfig : public ::protozero::Message {
+ public:
+ using Decoder = AndroidPolledStateConfig_Decoder;
+ enum : int32_t {
+ kPollMsFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.AndroidPolledStateConfig"; }
+
+
+ using FieldMetadata_PollMs =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ AndroidPolledStateConfig>;
+
+ static constexpr FieldMetadata_PollMs kPollMs{};
+ void set_poll_ms(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PollMs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/config/android/android_sdk_sysprop_guard_config.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ANDROID_ANDROID_SDK_SYSPROP_GUARD_CONFIG_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ANDROID_ANDROID_SDK_SYSPROP_GUARD_CONFIG_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class AndroidSdkSyspropGuardConfig_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ AndroidSdkSyspropGuardConfig_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit AndroidSdkSyspropGuardConfig_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit AndroidSdkSyspropGuardConfig_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_surfaceflinger_skia_track_events() const { return at<1>().valid(); }
+ bool surfaceflinger_skia_track_events() const { return at<1>().as_bool(); }
+ bool has_hwui_skia_track_events() const { return at<2>().valid(); }
+ bool hwui_skia_track_events() const { return at<2>().as_bool(); }
+ bool has_hwui_package_name_filter() const { return at<3>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstChars> hwui_package_name_filter() const { return GetRepeated<::protozero::ConstChars>(3); }
+};
+
+class AndroidSdkSyspropGuardConfig : public ::protozero::Message {
+ public:
+ using Decoder = AndroidSdkSyspropGuardConfig_Decoder;
+ enum : int32_t {
+ kSurfaceflingerSkiaTrackEventsFieldNumber = 1,
+ kHwuiSkiaTrackEventsFieldNumber = 2,
+ kHwuiPackageNameFilterFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.AndroidSdkSyspropGuardConfig"; }
+
+
+ using FieldMetadata_SurfaceflingerSkiaTrackEvents =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ AndroidSdkSyspropGuardConfig>;
+
+ static constexpr FieldMetadata_SurfaceflingerSkiaTrackEvents kSurfaceflingerSkiaTrackEvents{};
+ void set_surfaceflinger_skia_track_events(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_SurfaceflingerSkiaTrackEvents::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_HwuiSkiaTrackEvents =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ AndroidSdkSyspropGuardConfig>;
+
+ static constexpr FieldMetadata_HwuiSkiaTrackEvents kHwuiSkiaTrackEvents{};
+ void set_hwui_skia_track_events(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_HwuiSkiaTrackEvents::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_HwuiPackageNameFilter =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ AndroidSdkSyspropGuardConfig>;
+
+ static constexpr FieldMetadata_HwuiPackageNameFilter kHwuiPackageNameFilter{};
+ void add_hwui_package_name_filter(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_HwuiPackageNameFilter::kFieldId, data, size);
+ }
+ void add_hwui_package_name_filter(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_HwuiPackageNameFilter::kFieldId, chars.data, chars.size);
+ }
+ void add_hwui_package_name_filter(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_HwuiPackageNameFilter::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/config/android/android_system_property_config.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ANDROID_ANDROID_SYSTEM_PROPERTY_CONFIG_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ANDROID_ANDROID_SYSTEM_PROPERTY_CONFIG_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class AndroidSystemPropertyConfig_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ AndroidSystemPropertyConfig_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit AndroidSystemPropertyConfig_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit AndroidSystemPropertyConfig_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_poll_ms() const { return at<1>().valid(); }
+ uint32_t poll_ms() const { return at<1>().as_uint32(); }
+ bool has_property_name() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstChars> property_name() const { return GetRepeated<::protozero::ConstChars>(2); }
+};
+
+class AndroidSystemPropertyConfig : public ::protozero::Message {
+ public:
+ using Decoder = AndroidSystemPropertyConfig_Decoder;
+ enum : int32_t {
+ kPollMsFieldNumber = 1,
+ kPropertyNameFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.AndroidSystemPropertyConfig"; }
+
+
+ using FieldMetadata_PollMs =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ AndroidSystemPropertyConfig>;
+
+ static constexpr FieldMetadata_PollMs kPollMs{};
+ void set_poll_ms(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PollMs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PropertyName =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ AndroidSystemPropertyConfig>;
+
+ static constexpr FieldMetadata_PropertyName kPropertyName{};
+ void add_property_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_PropertyName::kFieldId, data, size);
+ }
+ void add_property_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_PropertyName::kFieldId, chars.data, chars.size);
+ }
+ void add_property_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_PropertyName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/config/android/network_trace_config.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ANDROID_NETWORK_TRACE_CONFIG_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ANDROID_NETWORK_TRACE_CONFIG_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class NetworkPacketTraceConfig_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/6, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ NetworkPacketTraceConfig_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit NetworkPacketTraceConfig_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit NetworkPacketTraceConfig_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_poll_ms() const { return at<1>().valid(); }
+ uint32_t poll_ms() const { return at<1>().as_uint32(); }
+ bool has_aggregation_threshold() const { return at<2>().valid(); }
+ uint32_t aggregation_threshold() const { return at<2>().as_uint32(); }
+ bool has_intern_limit() const { return at<3>().valid(); }
+ uint32_t intern_limit() const { return at<3>().as_uint32(); }
+ bool has_drop_local_port() const { return at<4>().valid(); }
+ bool drop_local_port() const { return at<4>().as_bool(); }
+ bool has_drop_remote_port() const { return at<5>().valid(); }
+ bool drop_remote_port() const { return at<5>().as_bool(); }
+ bool has_drop_tcp_flags() const { return at<6>().valid(); }
+ bool drop_tcp_flags() const { return at<6>().as_bool(); }
+};
+
+class NetworkPacketTraceConfig : public ::protozero::Message {
+ public:
+ using Decoder = NetworkPacketTraceConfig_Decoder;
+ enum : int32_t {
+ kPollMsFieldNumber = 1,
+ kAggregationThresholdFieldNumber = 2,
+ kInternLimitFieldNumber = 3,
+ kDropLocalPortFieldNumber = 4,
+ kDropRemotePortFieldNumber = 5,
+ kDropTcpFlagsFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.NetworkPacketTraceConfig"; }
+
+
+ using FieldMetadata_PollMs =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ NetworkPacketTraceConfig>;
+
+ static constexpr FieldMetadata_PollMs kPollMs{};
+ void set_poll_ms(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PollMs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_AggregationThreshold =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ NetworkPacketTraceConfig>;
+
+ static constexpr FieldMetadata_AggregationThreshold kAggregationThreshold{};
+ void set_aggregation_threshold(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_AggregationThreshold::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_InternLimit =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ NetworkPacketTraceConfig>;
+
+ static constexpr FieldMetadata_InternLimit kInternLimit{};
+ void set_intern_limit(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_InternLimit::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DropLocalPort =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ NetworkPacketTraceConfig>;
+
+ static constexpr FieldMetadata_DropLocalPort kDropLocalPort{};
+ void set_drop_local_port(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_DropLocalPort::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DropRemotePort =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ NetworkPacketTraceConfig>;
+
+ static constexpr FieldMetadata_DropRemotePort kDropRemotePort{};
+ void set_drop_remote_port(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_DropRemotePort::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DropTcpFlags =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ NetworkPacketTraceConfig>;
+
+ static constexpr FieldMetadata_DropTcpFlags kDropTcpFlags{};
+ void set_drop_tcp_flags(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_DropTcpFlags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/config/android/packages_list_config.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ANDROID_PACKAGES_LIST_CONFIG_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ANDROID_PACKAGES_LIST_CONFIG_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class PackagesListConfig_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ PackagesListConfig_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit PackagesListConfig_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit PackagesListConfig_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_package_name_filter() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstChars> package_name_filter() const { return GetRepeated<::protozero::ConstChars>(1); }
+};
+
+class PackagesListConfig : public ::protozero::Message {
+ public:
+ using Decoder = PackagesListConfig_Decoder;
+ enum : int32_t {
+ kPackageNameFilterFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.PackagesListConfig"; }
+
+
+ using FieldMetadata_PackageNameFilter =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ PackagesListConfig>;
+
+ static constexpr FieldMetadata_PackageNameFilter kPackageNameFilter{};
+ void add_package_name_filter(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_PackageNameFilter::kFieldId, data, size);
+ }
+ void add_package_name_filter(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_PackageNameFilter::kFieldId, chars.data, chars.size);
+ }
+ void add_package_name_filter(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_PackageNameFilter::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/config/android/protolog_config.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ANDROID_PROTOLOG_CONFIG_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ANDROID_PROTOLOG_CONFIG_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class ProtoLogGroup;
+namespace perfetto_pbzero_enum_ProtoLogConfig {
+enum TracingMode : int32_t;
+} // namespace perfetto_pbzero_enum_ProtoLogConfig
+using ProtoLogConfig_TracingMode = perfetto_pbzero_enum_ProtoLogConfig::TracingMode;
+enum ProtoLogLevel : int32_t;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+namespace perfetto_pbzero_enum_ProtoLogConfig {
+enum TracingMode : int32_t {
+ DEFAULT = 0,
+ ENABLE_ALL = 1,
+};
+} // namespace perfetto_pbzero_enum_ProtoLogConfig
+using ProtoLogConfig_TracingMode = perfetto_pbzero_enum_ProtoLogConfig::TracingMode;
+
+
+constexpr ProtoLogConfig_TracingMode ProtoLogConfig_TracingMode_MIN = ProtoLogConfig_TracingMode::DEFAULT;
+constexpr ProtoLogConfig_TracingMode ProtoLogConfig_TracingMode_MAX = ProtoLogConfig_TracingMode::ENABLE_ALL;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* ProtoLogConfig_TracingMode_Name(::perfetto::protos::pbzero::ProtoLogConfig_TracingMode value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::ProtoLogConfig_TracingMode::DEFAULT:
+ return "DEFAULT";
+
+ case ::perfetto::protos::pbzero::ProtoLogConfig_TracingMode::ENABLE_ALL:
+ return "ENABLE_ALL";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+class ProtoLogGroup_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ProtoLogGroup_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ProtoLogGroup_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ProtoLogGroup_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_group_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars group_name() const { return at<1>().as_string(); }
+ bool has_log_from() const { return at<2>().valid(); }
+ int32_t log_from() const { return at<2>().as_int32(); }
+ bool has_collect_stacktrace() const { return at<3>().valid(); }
+ bool collect_stacktrace() const { return at<3>().as_bool(); }
+};
+
+class ProtoLogGroup : public ::protozero::Message {
+ public:
+ using Decoder = ProtoLogGroup_Decoder;
+ enum : int32_t {
+ kGroupNameFieldNumber = 1,
+ kLogFromFieldNumber = 2,
+ kCollectStacktraceFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ProtoLogGroup"; }
+
+
+ using FieldMetadata_GroupName =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ProtoLogGroup>;
+
+ static constexpr FieldMetadata_GroupName kGroupName{};
+ void set_group_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_GroupName::kFieldId, data, size);
+ }
+ void set_group_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_GroupName::kFieldId, chars.data, chars.size);
+ }
+ void set_group_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_GroupName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_LogFrom =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ ProtoLogLevel,
+ ProtoLogGroup>;
+
+ static constexpr FieldMetadata_LogFrom kLogFrom{};
+ void set_log_from(ProtoLogLevel value) {
+ static constexpr uint32_t field_id = FieldMetadata_LogFrom::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CollectStacktrace =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ProtoLogGroup>;
+
+ static constexpr FieldMetadata_CollectStacktrace kCollectStacktrace{};
+ void set_collect_stacktrace(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_CollectStacktrace::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class ProtoLogConfig_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ ProtoLogConfig_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ProtoLogConfig_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ProtoLogConfig_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_group_overrides() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> group_overrides() const { return GetRepeated<::protozero::ConstBytes>(1); }
+ bool has_tracing_mode() const { return at<2>().valid(); }
+ int32_t tracing_mode() const { return at<2>().as_int32(); }
+};
+
+class ProtoLogConfig : public ::protozero::Message {
+ public:
+ using Decoder = ProtoLogConfig_Decoder;
+ enum : int32_t {
+ kGroupOverridesFieldNumber = 1,
+ kTracingModeFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ProtoLogConfig"; }
+
+
+ using TracingMode = ::perfetto::protos::pbzero::ProtoLogConfig_TracingMode;
+ static inline const char* TracingMode_Name(TracingMode value) {
+ return ::perfetto::protos::pbzero::ProtoLogConfig_TracingMode_Name(value);
+ }
+ static inline const TracingMode DEFAULT = TracingMode::DEFAULT;
+ static inline const TracingMode ENABLE_ALL = TracingMode::ENABLE_ALL;
+
+ using FieldMetadata_GroupOverrides =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ProtoLogGroup,
+ ProtoLogConfig>;
+
+ static constexpr FieldMetadata_GroupOverrides kGroupOverrides{};
+ template <typename T = ProtoLogGroup> T* add_group_overrides() {
+ return BeginNestedMessage<T>(1);
+ }
+
+
+ using FieldMetadata_TracingMode =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ ProtoLogConfig_TracingMode,
+ ProtoLogConfig>;
+
+ static constexpr FieldMetadata_TracingMode kTracingMode{};
+ void set_tracing_mode(ProtoLogConfig_TracingMode value) {
+ static constexpr uint32_t field_id = FieldMetadata_TracingMode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/config/android/surfaceflinger_layers_config.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ANDROID_SURFACEFLINGER_LAYERS_CONFIG_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ANDROID_SURFACEFLINGER_LAYERS_CONFIG_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+namespace perfetto_pbzero_enum_SurfaceFlingerLayersConfig {
+enum Mode : int32_t;
+} // namespace perfetto_pbzero_enum_SurfaceFlingerLayersConfig
+using SurfaceFlingerLayersConfig_Mode = perfetto_pbzero_enum_SurfaceFlingerLayersConfig::Mode;
+namespace perfetto_pbzero_enum_SurfaceFlingerLayersConfig {
+enum TraceFlag : int32_t;
+} // namespace perfetto_pbzero_enum_SurfaceFlingerLayersConfig
+using SurfaceFlingerLayersConfig_TraceFlag = perfetto_pbzero_enum_SurfaceFlingerLayersConfig::TraceFlag;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+namespace perfetto_pbzero_enum_SurfaceFlingerLayersConfig {
+enum Mode : int32_t {
+ MODE_UNSPECIFIED = 0,
+ MODE_ACTIVE = 1,
+ MODE_GENERATED = 2,
+ MODE_DUMP = 3,
+ MODE_GENERATED_BUGREPORT_ONLY = 4,
+};
+} // namespace perfetto_pbzero_enum_SurfaceFlingerLayersConfig
+using SurfaceFlingerLayersConfig_Mode = perfetto_pbzero_enum_SurfaceFlingerLayersConfig::Mode;
+
+
+constexpr SurfaceFlingerLayersConfig_Mode SurfaceFlingerLayersConfig_Mode_MIN = SurfaceFlingerLayersConfig_Mode::MODE_UNSPECIFIED;
+constexpr SurfaceFlingerLayersConfig_Mode SurfaceFlingerLayersConfig_Mode_MAX = SurfaceFlingerLayersConfig_Mode::MODE_GENERATED_BUGREPORT_ONLY;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* SurfaceFlingerLayersConfig_Mode_Name(::perfetto::protos::pbzero::SurfaceFlingerLayersConfig_Mode value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::SurfaceFlingerLayersConfig_Mode::MODE_UNSPECIFIED:
+ return "MODE_UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::SurfaceFlingerLayersConfig_Mode::MODE_ACTIVE:
+ return "MODE_ACTIVE";
+
+ case ::perfetto::protos::pbzero::SurfaceFlingerLayersConfig_Mode::MODE_GENERATED:
+ return "MODE_GENERATED";
+
+ case ::perfetto::protos::pbzero::SurfaceFlingerLayersConfig_Mode::MODE_DUMP:
+ return "MODE_DUMP";
+
+ case ::perfetto::protos::pbzero::SurfaceFlingerLayersConfig_Mode::MODE_GENERATED_BUGREPORT_ONLY:
+ return "MODE_GENERATED_BUGREPORT_ONLY";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_SurfaceFlingerLayersConfig {
+enum TraceFlag : int32_t {
+ TRACE_FLAG_UNSPECIFIED = 0,
+ TRACE_FLAG_INPUT = 2,
+ TRACE_FLAG_COMPOSITION = 4,
+ TRACE_FLAG_EXTRA = 8,
+ TRACE_FLAG_HWC = 16,
+ TRACE_FLAG_BUFFERS = 32,
+ TRACE_FLAG_VIRTUAL_DISPLAYS = 64,
+ TRACE_FLAG_ALL = 14,
+};
+} // namespace perfetto_pbzero_enum_SurfaceFlingerLayersConfig
+using SurfaceFlingerLayersConfig_TraceFlag = perfetto_pbzero_enum_SurfaceFlingerLayersConfig::TraceFlag;
+
+
+constexpr SurfaceFlingerLayersConfig_TraceFlag SurfaceFlingerLayersConfig_TraceFlag_MIN = SurfaceFlingerLayersConfig_TraceFlag::TRACE_FLAG_UNSPECIFIED;
+constexpr SurfaceFlingerLayersConfig_TraceFlag SurfaceFlingerLayersConfig_TraceFlag_MAX = SurfaceFlingerLayersConfig_TraceFlag::TRACE_FLAG_VIRTUAL_DISPLAYS;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* SurfaceFlingerLayersConfig_TraceFlag_Name(::perfetto::protos::pbzero::SurfaceFlingerLayersConfig_TraceFlag value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::SurfaceFlingerLayersConfig_TraceFlag::TRACE_FLAG_UNSPECIFIED:
+ return "TRACE_FLAG_UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::SurfaceFlingerLayersConfig_TraceFlag::TRACE_FLAG_INPUT:
+ return "TRACE_FLAG_INPUT";
+
+ case ::perfetto::protos::pbzero::SurfaceFlingerLayersConfig_TraceFlag::TRACE_FLAG_COMPOSITION:
+ return "TRACE_FLAG_COMPOSITION";
+
+ case ::perfetto::protos::pbzero::SurfaceFlingerLayersConfig_TraceFlag::TRACE_FLAG_EXTRA:
+ return "TRACE_FLAG_EXTRA";
+
+ case ::perfetto::protos::pbzero::SurfaceFlingerLayersConfig_TraceFlag::TRACE_FLAG_HWC:
+ return "TRACE_FLAG_HWC";
+
+ case ::perfetto::protos::pbzero::SurfaceFlingerLayersConfig_TraceFlag::TRACE_FLAG_BUFFERS:
+ return "TRACE_FLAG_BUFFERS";
+
+ case ::perfetto::protos::pbzero::SurfaceFlingerLayersConfig_TraceFlag::TRACE_FLAG_VIRTUAL_DISPLAYS:
+ return "TRACE_FLAG_VIRTUAL_DISPLAYS";
+
+ case ::perfetto::protos::pbzero::SurfaceFlingerLayersConfig_TraceFlag::TRACE_FLAG_ALL:
+ return "TRACE_FLAG_ALL";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+class SurfaceFlingerLayersConfig_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ SurfaceFlingerLayersConfig_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SurfaceFlingerLayersConfig_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SurfaceFlingerLayersConfig_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_mode() const { return at<1>().valid(); }
+ int32_t mode() const { return at<1>().as_int32(); }
+ bool has_trace_flags() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<int32_t> trace_flags() const { return GetRepeated<int32_t>(2); }
+};
+
+class SurfaceFlingerLayersConfig : public ::protozero::Message {
+ public:
+ using Decoder = SurfaceFlingerLayersConfig_Decoder;
+ enum : int32_t {
+ kModeFieldNumber = 1,
+ kTraceFlagsFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SurfaceFlingerLayersConfig"; }
+
+
+ using Mode = ::perfetto::protos::pbzero::SurfaceFlingerLayersConfig_Mode;
+ static inline const char* Mode_Name(Mode value) {
+ return ::perfetto::protos::pbzero::SurfaceFlingerLayersConfig_Mode_Name(value);
+ }
+
+ using TraceFlag = ::perfetto::protos::pbzero::SurfaceFlingerLayersConfig_TraceFlag;
+ static inline const char* TraceFlag_Name(TraceFlag value) {
+ return ::perfetto::protos::pbzero::SurfaceFlingerLayersConfig_TraceFlag_Name(value);
+ }
+ static inline const Mode MODE_UNSPECIFIED = Mode::MODE_UNSPECIFIED;
+ static inline const Mode MODE_ACTIVE = Mode::MODE_ACTIVE;
+ static inline const Mode MODE_GENERATED = Mode::MODE_GENERATED;
+ static inline const Mode MODE_DUMP = Mode::MODE_DUMP;
+ static inline const Mode MODE_GENERATED_BUGREPORT_ONLY = Mode::MODE_GENERATED_BUGREPORT_ONLY;
+ static inline const TraceFlag TRACE_FLAG_UNSPECIFIED = TraceFlag::TRACE_FLAG_UNSPECIFIED;
+ static inline const TraceFlag TRACE_FLAG_INPUT = TraceFlag::TRACE_FLAG_INPUT;
+ static inline const TraceFlag TRACE_FLAG_COMPOSITION = TraceFlag::TRACE_FLAG_COMPOSITION;
+ static inline const TraceFlag TRACE_FLAG_EXTRA = TraceFlag::TRACE_FLAG_EXTRA;
+ static inline const TraceFlag TRACE_FLAG_HWC = TraceFlag::TRACE_FLAG_HWC;
+ static inline const TraceFlag TRACE_FLAG_BUFFERS = TraceFlag::TRACE_FLAG_BUFFERS;
+ static inline const TraceFlag TRACE_FLAG_VIRTUAL_DISPLAYS = TraceFlag::TRACE_FLAG_VIRTUAL_DISPLAYS;
+ static inline const TraceFlag TRACE_FLAG_ALL = TraceFlag::TRACE_FLAG_ALL;
+
+ using FieldMetadata_Mode =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ SurfaceFlingerLayersConfig_Mode,
+ SurfaceFlingerLayersConfig>;
+
+ static constexpr FieldMetadata_Mode kMode{};
+ void set_mode(SurfaceFlingerLayersConfig_Mode value) {
+ static constexpr uint32_t field_id = FieldMetadata_Mode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TraceFlags =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ SurfaceFlingerLayersConfig_TraceFlag,
+ SurfaceFlingerLayersConfig>;
+
+ static constexpr FieldMetadata_TraceFlags kTraceFlags{};
+ void add_trace_flags(SurfaceFlingerLayersConfig_TraceFlag value) {
+ static constexpr uint32_t field_id = FieldMetadata_TraceFlags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/config/android/surfaceflinger_transactions_config.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ANDROID_SURFACEFLINGER_TRANSACTIONS_CONFIG_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ANDROID_SURFACEFLINGER_TRANSACTIONS_CONFIG_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+namespace perfetto_pbzero_enum_SurfaceFlingerTransactionsConfig {
+enum Mode : int32_t;
+} // namespace perfetto_pbzero_enum_SurfaceFlingerTransactionsConfig
+using SurfaceFlingerTransactionsConfig_Mode = perfetto_pbzero_enum_SurfaceFlingerTransactionsConfig::Mode;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+namespace perfetto_pbzero_enum_SurfaceFlingerTransactionsConfig {
+enum Mode : int32_t {
+ MODE_UNSPECIFIED = 0,
+ MODE_CONTINUOUS = 1,
+ MODE_ACTIVE = 2,
+};
+} // namespace perfetto_pbzero_enum_SurfaceFlingerTransactionsConfig
+using SurfaceFlingerTransactionsConfig_Mode = perfetto_pbzero_enum_SurfaceFlingerTransactionsConfig::Mode;
+
+
+constexpr SurfaceFlingerTransactionsConfig_Mode SurfaceFlingerTransactionsConfig_Mode_MIN = SurfaceFlingerTransactionsConfig_Mode::MODE_UNSPECIFIED;
+constexpr SurfaceFlingerTransactionsConfig_Mode SurfaceFlingerTransactionsConfig_Mode_MAX = SurfaceFlingerTransactionsConfig_Mode::MODE_ACTIVE;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* SurfaceFlingerTransactionsConfig_Mode_Name(::perfetto::protos::pbzero::SurfaceFlingerTransactionsConfig_Mode value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::SurfaceFlingerTransactionsConfig_Mode::MODE_UNSPECIFIED:
+ return "MODE_UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::SurfaceFlingerTransactionsConfig_Mode::MODE_CONTINUOUS:
+ return "MODE_CONTINUOUS";
+
+ case ::perfetto::protos::pbzero::SurfaceFlingerTransactionsConfig_Mode::MODE_ACTIVE:
+ return "MODE_ACTIVE";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+class SurfaceFlingerTransactionsConfig_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ SurfaceFlingerTransactionsConfig_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SurfaceFlingerTransactionsConfig_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SurfaceFlingerTransactionsConfig_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_mode() const { return at<1>().valid(); }
+ int32_t mode() const { return at<1>().as_int32(); }
+};
+
+class SurfaceFlingerTransactionsConfig : public ::protozero::Message {
+ public:
+ using Decoder = SurfaceFlingerTransactionsConfig_Decoder;
+ enum : int32_t {
+ kModeFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SurfaceFlingerTransactionsConfig"; }
+
+
+ using Mode = ::perfetto::protos::pbzero::SurfaceFlingerTransactionsConfig_Mode;
+ static inline const char* Mode_Name(Mode value) {
+ return ::perfetto::protos::pbzero::SurfaceFlingerTransactionsConfig_Mode_Name(value);
+ }
+ static inline const Mode MODE_UNSPECIFIED = Mode::MODE_UNSPECIFIED;
+ static inline const Mode MODE_CONTINUOUS = Mode::MODE_CONTINUOUS;
+ static inline const Mode MODE_ACTIVE = Mode::MODE_ACTIVE;
+
+ using FieldMetadata_Mode =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ SurfaceFlingerTransactionsConfig_Mode,
+ SurfaceFlingerTransactionsConfig>;
+
+ static constexpr FieldMetadata_Mode kMode{};
+ void set_mode(SurfaceFlingerTransactionsConfig_Mode value) {
+ static constexpr uint32_t field_id = FieldMetadata_Mode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/config/ftrace/ftrace_config.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_FTRACE_FTRACE_CONFIG_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_FTRACE_FTRACE_CONFIG_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class FtraceConfig_CompactSchedConfig;
+class FtraceConfig_PrintFilter;
+class FtraceConfig_PrintFilter_Rule;
+class FtraceConfig_PrintFilter_Rule_AtraceMessage;
+namespace perfetto_pbzero_enum_FtraceConfig {
+enum KsymsMemPolicy : int32_t;
+} // namespace perfetto_pbzero_enum_FtraceConfig
+using FtraceConfig_KsymsMemPolicy = perfetto_pbzero_enum_FtraceConfig::KsymsMemPolicy;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+namespace perfetto_pbzero_enum_FtraceConfig {
+enum KsymsMemPolicy : int32_t {
+ KSYMS_UNSPECIFIED = 0,
+ KSYMS_CLEANUP_ON_STOP = 1,
+ KSYMS_RETAIN = 2,
+};
+} // namespace perfetto_pbzero_enum_FtraceConfig
+using FtraceConfig_KsymsMemPolicy = perfetto_pbzero_enum_FtraceConfig::KsymsMemPolicy;
+
+
+constexpr FtraceConfig_KsymsMemPolicy FtraceConfig_KsymsMemPolicy_MIN = FtraceConfig_KsymsMemPolicy::KSYMS_UNSPECIFIED;
+constexpr FtraceConfig_KsymsMemPolicy FtraceConfig_KsymsMemPolicy_MAX = FtraceConfig_KsymsMemPolicy::KSYMS_RETAIN;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* FtraceConfig_KsymsMemPolicy_Name(::perfetto::protos::pbzero::FtraceConfig_KsymsMemPolicy value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::FtraceConfig_KsymsMemPolicy::KSYMS_UNSPECIFIED:
+ return "KSYMS_UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::FtraceConfig_KsymsMemPolicy::KSYMS_CLEANUP_ON_STOP:
+ return "KSYMS_CLEANUP_ON_STOP";
+
+ case ::perfetto::protos::pbzero::FtraceConfig_KsymsMemPolicy::KSYMS_RETAIN:
+ return "KSYMS_RETAIN";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+class FtraceConfig_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/27, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ FtraceConfig_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit FtraceConfig_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit FtraceConfig_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_ftrace_events() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstChars> ftrace_events() const { return GetRepeated<::protozero::ConstChars>(1); }
+ bool has_atrace_categories() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstChars> atrace_categories() const { return GetRepeated<::protozero::ConstChars>(2); }
+ bool has_atrace_apps() const { return at<3>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstChars> atrace_apps() const { return GetRepeated<::protozero::ConstChars>(3); }
+ bool has_buffer_size_kb() const { return at<10>().valid(); }
+ uint32_t buffer_size_kb() const { return at<10>().as_uint32(); }
+ bool has_drain_period_ms() const { return at<11>().valid(); }
+ uint32_t drain_period_ms() const { return at<11>().as_uint32(); }
+ bool has_drain_buffer_percent() const { return at<26>().valid(); }
+ uint32_t drain_buffer_percent() const { return at<26>().as_uint32(); }
+ bool has_compact_sched() const { return at<12>().valid(); }
+ ::protozero::ConstBytes compact_sched() const { return at<12>().as_bytes(); }
+ bool has_print_filter() const { return at<22>().valid(); }
+ ::protozero::ConstBytes print_filter() const { return at<22>().as_bytes(); }
+ bool has_symbolize_ksyms() const { return at<13>().valid(); }
+ bool symbolize_ksyms() const { return at<13>().as_bool(); }
+ bool has_ksyms_mem_policy() const { return at<17>().valid(); }
+ int32_t ksyms_mem_policy() const { return at<17>().as_int32(); }
+ bool has_initialize_ksyms_synchronously_for_testing() const { return at<14>().valid(); }
+ bool initialize_ksyms_synchronously_for_testing() const { return at<14>().as_bool(); }
+ bool has_throttle_rss_stat() const { return at<15>().valid(); }
+ bool throttle_rss_stat() const { return at<15>().as_bool(); }
+ bool has_disable_generic_events() const { return at<16>().valid(); }
+ bool disable_generic_events() const { return at<16>().as_bool(); }
+ bool has_syscall_events() const { return at<18>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstChars> syscall_events() const { return GetRepeated<::protozero::ConstChars>(18); }
+ bool has_enable_function_graph() const { return at<19>().valid(); }
+ bool enable_function_graph() const { return at<19>().as_bool(); }
+ bool has_function_filters() const { return at<20>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstChars> function_filters() const { return GetRepeated<::protozero::ConstChars>(20); }
+ bool has_function_graph_roots() const { return at<21>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstChars> function_graph_roots() const { return GetRepeated<::protozero::ConstChars>(21); }
+ bool has_preserve_ftrace_buffer() const { return at<23>().valid(); }
+ bool preserve_ftrace_buffer() const { return at<23>().as_bool(); }
+ bool has_use_monotonic_raw_clock() const { return at<24>().valid(); }
+ bool use_monotonic_raw_clock() const { return at<24>().as_bool(); }
+ bool has_instance_name() const { return at<25>().valid(); }
+ ::protozero::ConstChars instance_name() const { return at<25>().as_string(); }
+ bool has_buffer_size_lower_bound() const { return at<27>().valid(); }
+ bool buffer_size_lower_bound() const { return at<27>().as_bool(); }
+};
+
+class FtraceConfig : public ::protozero::Message {
+ public:
+ using Decoder = FtraceConfig_Decoder;
+ enum : int32_t {
+ kFtraceEventsFieldNumber = 1,
+ kAtraceCategoriesFieldNumber = 2,
+ kAtraceAppsFieldNumber = 3,
+ kBufferSizeKbFieldNumber = 10,
+ kDrainPeriodMsFieldNumber = 11,
+ kDrainBufferPercentFieldNumber = 26,
+ kCompactSchedFieldNumber = 12,
+ kPrintFilterFieldNumber = 22,
+ kSymbolizeKsymsFieldNumber = 13,
+ kKsymsMemPolicyFieldNumber = 17,
+ kInitializeKsymsSynchronouslyForTestingFieldNumber = 14,
+ kThrottleRssStatFieldNumber = 15,
+ kDisableGenericEventsFieldNumber = 16,
+ kSyscallEventsFieldNumber = 18,
+ kEnableFunctionGraphFieldNumber = 19,
+ kFunctionFiltersFieldNumber = 20,
+ kFunctionGraphRootsFieldNumber = 21,
+ kPreserveFtraceBufferFieldNumber = 23,
+ kUseMonotonicRawClockFieldNumber = 24,
+ kInstanceNameFieldNumber = 25,
+ kBufferSizeLowerBoundFieldNumber = 27,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.FtraceConfig"; }
+
+ using CompactSchedConfig = ::perfetto::protos::pbzero::FtraceConfig_CompactSchedConfig;
+ using PrintFilter = ::perfetto::protos::pbzero::FtraceConfig_PrintFilter;
+
+ using KsymsMemPolicy = ::perfetto::protos::pbzero::FtraceConfig_KsymsMemPolicy;
+ static inline const char* KsymsMemPolicy_Name(KsymsMemPolicy value) {
+ return ::perfetto::protos::pbzero::FtraceConfig_KsymsMemPolicy_Name(value);
+ }
+ static inline const KsymsMemPolicy KSYMS_UNSPECIFIED = KsymsMemPolicy::KSYMS_UNSPECIFIED;
+ static inline const KsymsMemPolicy KSYMS_CLEANUP_ON_STOP = KsymsMemPolicy::KSYMS_CLEANUP_ON_STOP;
+ static inline const KsymsMemPolicy KSYMS_RETAIN = KsymsMemPolicy::KSYMS_RETAIN;
+
+ using FieldMetadata_FtraceEvents =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ FtraceConfig>;
+
+ static constexpr FieldMetadata_FtraceEvents kFtraceEvents{};
+ void add_ftrace_events(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_FtraceEvents::kFieldId, data, size);
+ }
+ void add_ftrace_events(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_FtraceEvents::kFieldId, chars.data, chars.size);
+ }
+ void add_ftrace_events(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_FtraceEvents::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_AtraceCategories =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ FtraceConfig>;
+
+ static constexpr FieldMetadata_AtraceCategories kAtraceCategories{};
+ void add_atrace_categories(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_AtraceCategories::kFieldId, data, size);
+ }
+ void add_atrace_categories(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_AtraceCategories::kFieldId, chars.data, chars.size);
+ }
+ void add_atrace_categories(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_AtraceCategories::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_AtraceApps =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ FtraceConfig>;
+
+ static constexpr FieldMetadata_AtraceApps kAtraceApps{};
+ void add_atrace_apps(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_AtraceApps::kFieldId, data, size);
+ }
+ void add_atrace_apps(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_AtraceApps::kFieldId, chars.data, chars.size);
+ }
+ void add_atrace_apps(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_AtraceApps::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BufferSizeKb =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ FtraceConfig>;
+
+ static constexpr FieldMetadata_BufferSizeKb kBufferSizeKb{};
+ void set_buffer_size_kb(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BufferSizeKb::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DrainPeriodMs =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ FtraceConfig>;
+
+ static constexpr FieldMetadata_DrainPeriodMs kDrainPeriodMs{};
+ void set_drain_period_ms(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DrainPeriodMs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DrainBufferPercent =
+ ::protozero::proto_utils::FieldMetadata<
+ 26,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ FtraceConfig>;
+
+ static constexpr FieldMetadata_DrainBufferPercent kDrainBufferPercent{};
+ void set_drain_buffer_percent(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DrainBufferPercent::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CompactSched =
+ ::protozero::proto_utils::FieldMetadata<
+ 12,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ FtraceConfig_CompactSchedConfig,
+ FtraceConfig>;
+
+ static constexpr FieldMetadata_CompactSched kCompactSched{};
+ template <typename T = FtraceConfig_CompactSchedConfig> T* set_compact_sched() {
+ return BeginNestedMessage<T>(12);
+ }
+
+
+ using FieldMetadata_PrintFilter =
+ ::protozero::proto_utils::FieldMetadata<
+ 22,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ FtraceConfig_PrintFilter,
+ FtraceConfig>;
+
+ static constexpr FieldMetadata_PrintFilter kPrintFilter{};
+ template <typename T = FtraceConfig_PrintFilter> T* set_print_filter() {
+ return BeginNestedMessage<T>(22);
+ }
+
+
+ using FieldMetadata_SymbolizeKsyms =
+ ::protozero::proto_utils::FieldMetadata<
+ 13,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ FtraceConfig>;
+
+ static constexpr FieldMetadata_SymbolizeKsyms kSymbolizeKsyms{};
+ void set_symbolize_ksyms(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_SymbolizeKsyms::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_KsymsMemPolicy =
+ ::protozero::proto_utils::FieldMetadata<
+ 17,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ FtraceConfig_KsymsMemPolicy,
+ FtraceConfig>;
+
+ static constexpr FieldMetadata_KsymsMemPolicy kKsymsMemPolicy{};
+ void set_ksyms_mem_policy(FtraceConfig_KsymsMemPolicy value) {
+ static constexpr uint32_t field_id = FieldMetadata_KsymsMemPolicy::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_InitializeKsymsSynchronouslyForTesting =
+ ::protozero::proto_utils::FieldMetadata<
+ 14,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ FtraceConfig>;
+
+ static constexpr FieldMetadata_InitializeKsymsSynchronouslyForTesting kInitializeKsymsSynchronouslyForTesting{};
+ void set_initialize_ksyms_synchronously_for_testing(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_InitializeKsymsSynchronouslyForTesting::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ThrottleRssStat =
+ ::protozero::proto_utils::FieldMetadata<
+ 15,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ FtraceConfig>;
+
+ static constexpr FieldMetadata_ThrottleRssStat kThrottleRssStat{};
+ void set_throttle_rss_stat(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_ThrottleRssStat::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DisableGenericEvents =
+ ::protozero::proto_utils::FieldMetadata<
+ 16,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ FtraceConfig>;
+
+ static constexpr FieldMetadata_DisableGenericEvents kDisableGenericEvents{};
+ void set_disable_generic_events(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_DisableGenericEvents::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SyscallEvents =
+ ::protozero::proto_utils::FieldMetadata<
+ 18,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ FtraceConfig>;
+
+ static constexpr FieldMetadata_SyscallEvents kSyscallEvents{};
+ void add_syscall_events(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_SyscallEvents::kFieldId, data, size);
+ }
+ void add_syscall_events(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_SyscallEvents::kFieldId, chars.data, chars.size);
+ }
+ void add_syscall_events(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_SyscallEvents::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_EnableFunctionGraph =
+ ::protozero::proto_utils::FieldMetadata<
+ 19,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ FtraceConfig>;
+
+ static constexpr FieldMetadata_EnableFunctionGraph kEnableFunctionGraph{};
+ void set_enable_function_graph(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_EnableFunctionGraph::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FunctionFilters =
+ ::protozero::proto_utils::FieldMetadata<
+ 20,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ FtraceConfig>;
+
+ static constexpr FieldMetadata_FunctionFilters kFunctionFilters{};
+ void add_function_filters(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_FunctionFilters::kFieldId, data, size);
+ }
+ void add_function_filters(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_FunctionFilters::kFieldId, chars.data, chars.size);
+ }
+ void add_function_filters(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_FunctionFilters::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FunctionGraphRoots =
+ ::protozero::proto_utils::FieldMetadata<
+ 21,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ FtraceConfig>;
+
+ static constexpr FieldMetadata_FunctionGraphRoots kFunctionGraphRoots{};
+ void add_function_graph_roots(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_FunctionGraphRoots::kFieldId, data, size);
+ }
+ void add_function_graph_roots(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_FunctionGraphRoots::kFieldId, chars.data, chars.size);
+ }
+ void add_function_graph_roots(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_FunctionGraphRoots::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PreserveFtraceBuffer =
+ ::protozero::proto_utils::FieldMetadata<
+ 23,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ FtraceConfig>;
+
+ static constexpr FieldMetadata_PreserveFtraceBuffer kPreserveFtraceBuffer{};
+ void set_preserve_ftrace_buffer(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_PreserveFtraceBuffer::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_UseMonotonicRawClock =
+ ::protozero::proto_utils::FieldMetadata<
+ 24,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ FtraceConfig>;
+
+ static constexpr FieldMetadata_UseMonotonicRawClock kUseMonotonicRawClock{};
+ void set_use_monotonic_raw_clock(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_UseMonotonicRawClock::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_InstanceName =
+ ::protozero::proto_utils::FieldMetadata<
+ 25,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ FtraceConfig>;
+
+ static constexpr FieldMetadata_InstanceName kInstanceName{};
+ void set_instance_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_InstanceName::kFieldId, data, size);
+ }
+ void set_instance_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_InstanceName::kFieldId, chars.data, chars.size);
+ }
+ void set_instance_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_InstanceName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BufferSizeLowerBound =
+ ::protozero::proto_utils::FieldMetadata<
+ 27,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ FtraceConfig>;
+
+ static constexpr FieldMetadata_BufferSizeLowerBound kBufferSizeLowerBound{};
+ void set_buffer_size_lower_bound(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_BufferSizeLowerBound::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class FtraceConfig_PrintFilter_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ FtraceConfig_PrintFilter_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit FtraceConfig_PrintFilter_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit FtraceConfig_PrintFilter_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_rules() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> rules() const { return GetRepeated<::protozero::ConstBytes>(1); }
+};
+
+class FtraceConfig_PrintFilter : public ::protozero::Message {
+ public:
+ using Decoder = FtraceConfig_PrintFilter_Decoder;
+ enum : int32_t {
+ kRulesFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.FtraceConfig.PrintFilter"; }
+
+ using Rule = ::perfetto::protos::pbzero::FtraceConfig_PrintFilter_Rule;
+
+ using FieldMetadata_Rules =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ FtraceConfig_PrintFilter_Rule,
+ FtraceConfig_PrintFilter>;
+
+ static constexpr FieldMetadata_Rules kRules{};
+ template <typename T = FtraceConfig_PrintFilter_Rule> T* add_rules() {
+ return BeginNestedMessage<T>(1);
+ }
+
+};
+
+class FtraceConfig_PrintFilter_Rule_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ FtraceConfig_PrintFilter_Rule_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit FtraceConfig_PrintFilter_Rule_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit FtraceConfig_PrintFilter_Rule_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_prefix() const { return at<1>().valid(); }
+ ::protozero::ConstChars prefix() const { return at<1>().as_string(); }
+ bool has_atrace_msg() const { return at<3>().valid(); }
+ ::protozero::ConstBytes atrace_msg() const { return at<3>().as_bytes(); }
+ bool has_allow() const { return at<2>().valid(); }
+ bool allow() const { return at<2>().as_bool(); }
+};
+
+class FtraceConfig_PrintFilter_Rule : public ::protozero::Message {
+ public:
+ using Decoder = FtraceConfig_PrintFilter_Rule_Decoder;
+ enum : int32_t {
+ kPrefixFieldNumber = 1,
+ kAtraceMsgFieldNumber = 3,
+ kAllowFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.FtraceConfig.PrintFilter.Rule"; }
+
+ using AtraceMessage = ::perfetto::protos::pbzero::FtraceConfig_PrintFilter_Rule_AtraceMessage;
+
+ using FieldMetadata_Prefix =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ FtraceConfig_PrintFilter_Rule>;
+
+ static constexpr FieldMetadata_Prefix kPrefix{};
+ void set_prefix(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Prefix::kFieldId, data, size);
+ }
+ void set_prefix(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Prefix::kFieldId, chars.data, chars.size);
+ }
+ void set_prefix(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Prefix::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_AtraceMsg =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ FtraceConfig_PrintFilter_Rule_AtraceMessage,
+ FtraceConfig_PrintFilter_Rule>;
+
+ static constexpr FieldMetadata_AtraceMsg kAtraceMsg{};
+ template <typename T = FtraceConfig_PrintFilter_Rule_AtraceMessage> T* set_atrace_msg() {
+ return BeginNestedMessage<T>(3);
+ }
+
+
+ using FieldMetadata_Allow =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ FtraceConfig_PrintFilter_Rule>;
+
+ static constexpr FieldMetadata_Allow kAllow{};
+ void set_allow(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_Allow::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class FtraceConfig_PrintFilter_Rule_AtraceMessage_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ FtraceConfig_PrintFilter_Rule_AtraceMessage_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit FtraceConfig_PrintFilter_Rule_AtraceMessage_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit FtraceConfig_PrintFilter_Rule_AtraceMessage_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_type() const { return at<1>().valid(); }
+ ::protozero::ConstChars type() const { return at<1>().as_string(); }
+ bool has_prefix() const { return at<2>().valid(); }
+ ::protozero::ConstChars prefix() const { return at<2>().as_string(); }
+};
+
+class FtraceConfig_PrintFilter_Rule_AtraceMessage : public ::protozero::Message {
+ public:
+ using Decoder = FtraceConfig_PrintFilter_Rule_AtraceMessage_Decoder;
+ enum : int32_t {
+ kTypeFieldNumber = 1,
+ kPrefixFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.FtraceConfig.PrintFilter.Rule.AtraceMessage"; }
+
+
+ using FieldMetadata_Type =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ FtraceConfig_PrintFilter_Rule_AtraceMessage>;
+
+ static constexpr FieldMetadata_Type kType{};
+ void set_type(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Type::kFieldId, data, size);
+ }
+ void set_type(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Type::kFieldId, chars.data, chars.size);
+ }
+ void set_type(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Type::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Prefix =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ FtraceConfig_PrintFilter_Rule_AtraceMessage>;
+
+ static constexpr FieldMetadata_Prefix kPrefix{};
+ void set_prefix(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Prefix::kFieldId, data, size);
+ }
+ void set_prefix(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Prefix::kFieldId, chars.data, chars.size);
+ }
+ void set_prefix(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Prefix::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class FtraceConfig_CompactSchedConfig_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ FtraceConfig_CompactSchedConfig_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit FtraceConfig_CompactSchedConfig_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit FtraceConfig_CompactSchedConfig_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_enabled() const { return at<1>().valid(); }
+ bool enabled() const { return at<1>().as_bool(); }
+};
+
+class FtraceConfig_CompactSchedConfig : public ::protozero::Message {
+ public:
+ using Decoder = FtraceConfig_CompactSchedConfig_Decoder;
+ enum : int32_t {
+ kEnabledFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.FtraceConfig.CompactSchedConfig"; }
+
+
+ using FieldMetadata_Enabled =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ FtraceConfig_CompactSchedConfig>;
+
+ static constexpr FieldMetadata_Enabled kEnabled{};
+ void set_enabled(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_Enabled::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/config/gpu/gpu_counter_config.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_GPU_GPU_COUNTER_CONFIG_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_GPU_GPU_COUNTER_CONFIG_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class GpuCounterConfig_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ GpuCounterConfig_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit GpuCounterConfig_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit GpuCounterConfig_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_counter_period_ns() const { return at<1>().valid(); }
+ uint64_t counter_period_ns() const { return at<1>().as_uint64(); }
+ bool has_counter_ids() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<uint32_t> counter_ids() const { return GetRepeated<uint32_t>(2); }
+ bool has_instrumented_sampling() const { return at<3>().valid(); }
+ bool instrumented_sampling() const { return at<3>().as_bool(); }
+ bool has_fix_gpu_clock() const { return at<4>().valid(); }
+ bool fix_gpu_clock() const { return at<4>().as_bool(); }
+};
+
+class GpuCounterConfig : public ::protozero::Message {
+ public:
+ using Decoder = GpuCounterConfig_Decoder;
+ enum : int32_t {
+ kCounterPeriodNsFieldNumber = 1,
+ kCounterIdsFieldNumber = 2,
+ kInstrumentedSamplingFieldNumber = 3,
+ kFixGpuClockFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.GpuCounterConfig"; }
+
+
+ using FieldMetadata_CounterPeriodNs =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ GpuCounterConfig>;
+
+ static constexpr FieldMetadata_CounterPeriodNs kCounterPeriodNs{};
+ void set_counter_period_ns(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CounterPeriodNs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CounterIds =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ GpuCounterConfig>;
+
+ static constexpr FieldMetadata_CounterIds kCounterIds{};
+ void add_counter_ids(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CounterIds::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_InstrumentedSampling =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ GpuCounterConfig>;
+
+ static constexpr FieldMetadata_InstrumentedSampling kInstrumentedSampling{};
+ void set_instrumented_sampling(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_InstrumentedSampling::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FixGpuClock =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ GpuCounterConfig>;
+
+ static constexpr FieldMetadata_FixGpuClock kFixGpuClock{};
+ void set_fix_gpu_clock(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_FixGpuClock::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/config/gpu/vulkan_memory_config.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_GPU_VULKAN_MEMORY_CONFIG_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_GPU_VULKAN_MEMORY_CONFIG_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class VulkanMemoryConfig_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ VulkanMemoryConfig_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit VulkanMemoryConfig_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit VulkanMemoryConfig_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_track_driver_memory_usage() const { return at<1>().valid(); }
+ bool track_driver_memory_usage() const { return at<1>().as_bool(); }
+ bool has_track_device_memory_usage() const { return at<2>().valid(); }
+ bool track_device_memory_usage() const { return at<2>().as_bool(); }
+};
+
+class VulkanMemoryConfig : public ::protozero::Message {
+ public:
+ using Decoder = VulkanMemoryConfig_Decoder;
+ enum : int32_t {
+ kTrackDriverMemoryUsageFieldNumber = 1,
+ kTrackDeviceMemoryUsageFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.VulkanMemoryConfig"; }
+
+
+ using FieldMetadata_TrackDriverMemoryUsage =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ VulkanMemoryConfig>;
+
+ static constexpr FieldMetadata_TrackDriverMemoryUsage kTrackDriverMemoryUsage{};
+ void set_track_driver_memory_usage(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_TrackDriverMemoryUsage::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TrackDeviceMemoryUsage =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ VulkanMemoryConfig>;
+
+ static constexpr FieldMetadata_TrackDeviceMemoryUsage kTrackDeviceMemoryUsage{};
+ void set_track_device_memory_usage(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_TrackDeviceMemoryUsage::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/config/inode_file/inode_file_config.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_INODE_FILE_INODE_FILE_CONFIG_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_INODE_FILE_INODE_FILE_CONFIG_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class InodeFileConfig_MountPointMappingEntry;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class InodeFileConfig_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/6, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ InodeFileConfig_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit InodeFileConfig_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit InodeFileConfig_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_scan_interval_ms() const { return at<1>().valid(); }
+ uint32_t scan_interval_ms() const { return at<1>().as_uint32(); }
+ bool has_scan_delay_ms() const { return at<2>().valid(); }
+ uint32_t scan_delay_ms() const { return at<2>().as_uint32(); }
+ bool has_scan_batch_size() const { return at<3>().valid(); }
+ uint32_t scan_batch_size() const { return at<3>().as_uint32(); }
+ bool has_do_not_scan() const { return at<4>().valid(); }
+ bool do_not_scan() const { return at<4>().as_bool(); }
+ bool has_scan_mount_points() const { return at<5>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstChars> scan_mount_points() const { return GetRepeated<::protozero::ConstChars>(5); }
+ bool has_mount_point_mapping() const { return at<6>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> mount_point_mapping() const { return GetRepeated<::protozero::ConstBytes>(6); }
+};
+
+class InodeFileConfig : public ::protozero::Message {
+ public:
+ using Decoder = InodeFileConfig_Decoder;
+ enum : int32_t {
+ kScanIntervalMsFieldNumber = 1,
+ kScanDelayMsFieldNumber = 2,
+ kScanBatchSizeFieldNumber = 3,
+ kDoNotScanFieldNumber = 4,
+ kScanMountPointsFieldNumber = 5,
+ kMountPointMappingFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.InodeFileConfig"; }
+
+ using MountPointMappingEntry = ::perfetto::protos::pbzero::InodeFileConfig_MountPointMappingEntry;
+
+ using FieldMetadata_ScanIntervalMs =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ InodeFileConfig>;
+
+ static constexpr FieldMetadata_ScanIntervalMs kScanIntervalMs{};
+ void set_scan_interval_ms(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ScanIntervalMs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ScanDelayMs =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ InodeFileConfig>;
+
+ static constexpr FieldMetadata_ScanDelayMs kScanDelayMs{};
+ void set_scan_delay_ms(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ScanDelayMs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ScanBatchSize =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ InodeFileConfig>;
+
+ static constexpr FieldMetadata_ScanBatchSize kScanBatchSize{};
+ void set_scan_batch_size(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ScanBatchSize::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DoNotScan =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ InodeFileConfig>;
+
+ static constexpr FieldMetadata_DoNotScan kDoNotScan{};
+ void set_do_not_scan(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_DoNotScan::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ScanMountPoints =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ InodeFileConfig>;
+
+ static constexpr FieldMetadata_ScanMountPoints kScanMountPoints{};
+ void add_scan_mount_points(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_ScanMountPoints::kFieldId, data, size);
+ }
+ void add_scan_mount_points(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_ScanMountPoints::kFieldId, chars.data, chars.size);
+ }
+ void add_scan_mount_points(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_ScanMountPoints::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MountPointMapping =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ InodeFileConfig_MountPointMappingEntry,
+ InodeFileConfig>;
+
+ static constexpr FieldMetadata_MountPointMapping kMountPointMapping{};
+ template <typename T = InodeFileConfig_MountPointMappingEntry> T* add_mount_point_mapping() {
+ return BeginNestedMessage<T>(6);
+ }
+
+};
+
+class InodeFileConfig_MountPointMappingEntry_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ InodeFileConfig_MountPointMappingEntry_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit InodeFileConfig_MountPointMappingEntry_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit InodeFileConfig_MountPointMappingEntry_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_mountpoint() const { return at<1>().valid(); }
+ ::protozero::ConstChars mountpoint() const { return at<1>().as_string(); }
+ bool has_scan_roots() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstChars> scan_roots() const { return GetRepeated<::protozero::ConstChars>(2); }
+};
+
+class InodeFileConfig_MountPointMappingEntry : public ::protozero::Message {
+ public:
+ using Decoder = InodeFileConfig_MountPointMappingEntry_Decoder;
+ enum : int32_t {
+ kMountpointFieldNumber = 1,
+ kScanRootsFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.InodeFileConfig.MountPointMappingEntry"; }
+
+
+ using FieldMetadata_Mountpoint =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ InodeFileConfig_MountPointMappingEntry>;
+
+ static constexpr FieldMetadata_Mountpoint kMountpoint{};
+ void set_mountpoint(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Mountpoint::kFieldId, data, size);
+ }
+ void set_mountpoint(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Mountpoint::kFieldId, chars.data, chars.size);
+ }
+ void set_mountpoint(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Mountpoint::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ScanRoots =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ InodeFileConfig_MountPointMappingEntry>;
+
+ static constexpr FieldMetadata_ScanRoots kScanRoots{};
+ void add_scan_roots(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_ScanRoots::kFieldId, data, size);
+ }
+ void add_scan_roots(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_ScanRoots::kFieldId, chars.data, chars.size);
+ }
+ void add_scan_roots(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_ScanRoots::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/config/interceptors/console_config.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_INTERCEPTORS_CONSOLE_CONFIG_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_INTERCEPTORS_CONSOLE_CONFIG_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+namespace perfetto_pbzero_enum_ConsoleConfig {
+enum Output : int32_t;
+} // namespace perfetto_pbzero_enum_ConsoleConfig
+using ConsoleConfig_Output = perfetto_pbzero_enum_ConsoleConfig::Output;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+namespace perfetto_pbzero_enum_ConsoleConfig {
+enum Output : int32_t {
+ OUTPUT_UNSPECIFIED = 0,
+ OUTPUT_STDOUT = 1,
+ OUTPUT_STDERR = 2,
+};
+} // namespace perfetto_pbzero_enum_ConsoleConfig
+using ConsoleConfig_Output = perfetto_pbzero_enum_ConsoleConfig::Output;
+
+
+constexpr ConsoleConfig_Output ConsoleConfig_Output_MIN = ConsoleConfig_Output::OUTPUT_UNSPECIFIED;
+constexpr ConsoleConfig_Output ConsoleConfig_Output_MAX = ConsoleConfig_Output::OUTPUT_STDERR;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* ConsoleConfig_Output_Name(::perfetto::protos::pbzero::ConsoleConfig_Output value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::ConsoleConfig_Output::OUTPUT_UNSPECIFIED:
+ return "OUTPUT_UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::ConsoleConfig_Output::OUTPUT_STDOUT:
+ return "OUTPUT_STDOUT";
+
+ case ::perfetto::protos::pbzero::ConsoleConfig_Output::OUTPUT_STDERR:
+ return "OUTPUT_STDERR";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+class ConsoleConfig_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ConsoleConfig_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ConsoleConfig_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ConsoleConfig_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_output() const { return at<1>().valid(); }
+ int32_t output() const { return at<1>().as_int32(); }
+ bool has_enable_colors() const { return at<2>().valid(); }
+ bool enable_colors() const { return at<2>().as_bool(); }
+};
+
+class ConsoleConfig : public ::protozero::Message {
+ public:
+ using Decoder = ConsoleConfig_Decoder;
+ enum : int32_t {
+ kOutputFieldNumber = 1,
+ kEnableColorsFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ConsoleConfig"; }
+
+
+ using Output = ::perfetto::protos::pbzero::ConsoleConfig_Output;
+ static inline const char* Output_Name(Output value) {
+ return ::perfetto::protos::pbzero::ConsoleConfig_Output_Name(value);
+ }
+ static inline const Output OUTPUT_UNSPECIFIED = Output::OUTPUT_UNSPECIFIED;
+ static inline const Output OUTPUT_STDOUT = Output::OUTPUT_STDOUT;
+ static inline const Output OUTPUT_STDERR = Output::OUTPUT_STDERR;
+
+ using FieldMetadata_Output =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ ConsoleConfig_Output,
+ ConsoleConfig>;
+
+ static constexpr FieldMetadata_Output kOutput{};
+ void set_output(ConsoleConfig_Output value) {
+ static constexpr uint32_t field_id = FieldMetadata_Output::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_EnableColors =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ConsoleConfig>;
+
+ static constexpr FieldMetadata_EnableColors kEnableColors{};
+ void set_enable_colors(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_EnableColors::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/config/power/android_power_config.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_POWER_ANDROID_POWER_CONFIG_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_POWER_ANDROID_POWER_CONFIG_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+namespace perfetto_pbzero_enum_AndroidPowerConfig {
+enum BatteryCounters : int32_t;
+} // namespace perfetto_pbzero_enum_AndroidPowerConfig
+using AndroidPowerConfig_BatteryCounters = perfetto_pbzero_enum_AndroidPowerConfig::BatteryCounters;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+namespace perfetto_pbzero_enum_AndroidPowerConfig {
+enum BatteryCounters : int32_t {
+ BATTERY_COUNTER_UNSPECIFIED = 0,
+ BATTERY_COUNTER_CHARGE = 1,
+ BATTERY_COUNTER_CAPACITY_PERCENT = 2,
+ BATTERY_COUNTER_CURRENT = 3,
+ BATTERY_COUNTER_CURRENT_AVG = 4,
+ BATTERY_COUNTER_VOLTAGE = 5,
+};
+} // namespace perfetto_pbzero_enum_AndroidPowerConfig
+using AndroidPowerConfig_BatteryCounters = perfetto_pbzero_enum_AndroidPowerConfig::BatteryCounters;
+
+
+constexpr AndroidPowerConfig_BatteryCounters AndroidPowerConfig_BatteryCounters_MIN = AndroidPowerConfig_BatteryCounters::BATTERY_COUNTER_UNSPECIFIED;
+constexpr AndroidPowerConfig_BatteryCounters AndroidPowerConfig_BatteryCounters_MAX = AndroidPowerConfig_BatteryCounters::BATTERY_COUNTER_VOLTAGE;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* AndroidPowerConfig_BatteryCounters_Name(::perfetto::protos::pbzero::AndroidPowerConfig_BatteryCounters value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::AndroidPowerConfig_BatteryCounters::BATTERY_COUNTER_UNSPECIFIED:
+ return "BATTERY_COUNTER_UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::AndroidPowerConfig_BatteryCounters::BATTERY_COUNTER_CHARGE:
+ return "BATTERY_COUNTER_CHARGE";
+
+ case ::perfetto::protos::pbzero::AndroidPowerConfig_BatteryCounters::BATTERY_COUNTER_CAPACITY_PERCENT:
+ return "BATTERY_COUNTER_CAPACITY_PERCENT";
+
+ case ::perfetto::protos::pbzero::AndroidPowerConfig_BatteryCounters::BATTERY_COUNTER_CURRENT:
+ return "BATTERY_COUNTER_CURRENT";
+
+ case ::perfetto::protos::pbzero::AndroidPowerConfig_BatteryCounters::BATTERY_COUNTER_CURRENT_AVG:
+ return "BATTERY_COUNTER_CURRENT_AVG";
+
+ case ::perfetto::protos::pbzero::AndroidPowerConfig_BatteryCounters::BATTERY_COUNTER_VOLTAGE:
+ return "BATTERY_COUNTER_VOLTAGE";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+class AndroidPowerConfig_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ AndroidPowerConfig_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit AndroidPowerConfig_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit AndroidPowerConfig_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_battery_poll_ms() const { return at<1>().valid(); }
+ uint32_t battery_poll_ms() const { return at<1>().as_uint32(); }
+ bool has_battery_counters() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<int32_t> battery_counters() const { return GetRepeated<int32_t>(2); }
+ bool has_collect_power_rails() const { return at<3>().valid(); }
+ bool collect_power_rails() const { return at<3>().as_bool(); }
+ bool has_collect_energy_estimation_breakdown() const { return at<4>().valid(); }
+ bool collect_energy_estimation_breakdown() const { return at<4>().as_bool(); }
+ bool has_collect_entity_state_residency() const { return at<5>().valid(); }
+ bool collect_entity_state_residency() const { return at<5>().as_bool(); }
+};
+
+class AndroidPowerConfig : public ::protozero::Message {
+ public:
+ using Decoder = AndroidPowerConfig_Decoder;
+ enum : int32_t {
+ kBatteryPollMsFieldNumber = 1,
+ kBatteryCountersFieldNumber = 2,
+ kCollectPowerRailsFieldNumber = 3,
+ kCollectEnergyEstimationBreakdownFieldNumber = 4,
+ kCollectEntityStateResidencyFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.AndroidPowerConfig"; }
+
+
+ using BatteryCounters = ::perfetto::protos::pbzero::AndroidPowerConfig_BatteryCounters;
+ static inline const char* BatteryCounters_Name(BatteryCounters value) {
+ return ::perfetto::protos::pbzero::AndroidPowerConfig_BatteryCounters_Name(value);
+ }
+ static inline const BatteryCounters BATTERY_COUNTER_UNSPECIFIED = BatteryCounters::BATTERY_COUNTER_UNSPECIFIED;
+ static inline const BatteryCounters BATTERY_COUNTER_CHARGE = BatteryCounters::BATTERY_COUNTER_CHARGE;
+ static inline const BatteryCounters BATTERY_COUNTER_CAPACITY_PERCENT = BatteryCounters::BATTERY_COUNTER_CAPACITY_PERCENT;
+ static inline const BatteryCounters BATTERY_COUNTER_CURRENT = BatteryCounters::BATTERY_COUNTER_CURRENT;
+ static inline const BatteryCounters BATTERY_COUNTER_CURRENT_AVG = BatteryCounters::BATTERY_COUNTER_CURRENT_AVG;
+ static inline const BatteryCounters BATTERY_COUNTER_VOLTAGE = BatteryCounters::BATTERY_COUNTER_VOLTAGE;
+
+ using FieldMetadata_BatteryPollMs =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ AndroidPowerConfig>;
+
+ static constexpr FieldMetadata_BatteryPollMs kBatteryPollMs{};
+ void set_battery_poll_ms(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BatteryPollMs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BatteryCounters =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ AndroidPowerConfig_BatteryCounters,
+ AndroidPowerConfig>;
+
+ static constexpr FieldMetadata_BatteryCounters kBatteryCounters{};
+ void add_battery_counters(AndroidPowerConfig_BatteryCounters value) {
+ static constexpr uint32_t field_id = FieldMetadata_BatteryCounters::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CollectPowerRails =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ AndroidPowerConfig>;
+
+ static constexpr FieldMetadata_CollectPowerRails kCollectPowerRails{};
+ void set_collect_power_rails(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_CollectPowerRails::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CollectEnergyEstimationBreakdown =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ AndroidPowerConfig>;
+
+ static constexpr FieldMetadata_CollectEnergyEstimationBreakdown kCollectEnergyEstimationBreakdown{};
+ void set_collect_energy_estimation_breakdown(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_CollectEnergyEstimationBreakdown::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CollectEntityStateResidency =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ AndroidPowerConfig>;
+
+ static constexpr FieldMetadata_CollectEntityStateResidency kCollectEntityStateResidency{};
+ void set_collect_entity_state_residency(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_CollectEntityStateResidency::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/config/process_stats/process_stats_config.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_PROCESS_STATS_PROCESS_STATS_CONFIG_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_PROCESS_STATS_PROCESS_STATS_CONFIG_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+namespace perfetto_pbzero_enum_ProcessStatsConfig {
+enum Quirks : int32_t;
+} // namespace perfetto_pbzero_enum_ProcessStatsConfig
+using ProcessStatsConfig_Quirks = perfetto_pbzero_enum_ProcessStatsConfig::Quirks;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+namespace perfetto_pbzero_enum_ProcessStatsConfig {
+enum Quirks : int32_t {
+ QUIRKS_UNSPECIFIED = 0,
+ DISABLE_INITIAL_DUMP = 1,
+ DISABLE_ON_DEMAND = 2,
+};
+} // namespace perfetto_pbzero_enum_ProcessStatsConfig
+using ProcessStatsConfig_Quirks = perfetto_pbzero_enum_ProcessStatsConfig::Quirks;
+
+
+constexpr ProcessStatsConfig_Quirks ProcessStatsConfig_Quirks_MIN = ProcessStatsConfig_Quirks::QUIRKS_UNSPECIFIED;
+constexpr ProcessStatsConfig_Quirks ProcessStatsConfig_Quirks_MAX = ProcessStatsConfig_Quirks::DISABLE_ON_DEMAND;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* ProcessStatsConfig_Quirks_Name(::perfetto::protos::pbzero::ProcessStatsConfig_Quirks value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::ProcessStatsConfig_Quirks::QUIRKS_UNSPECIFIED:
+ return "QUIRKS_UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::ProcessStatsConfig_Quirks::DISABLE_INITIAL_DUMP:
+ return "DISABLE_INITIAL_DUMP";
+
+ case ::perfetto::protos::pbzero::ProcessStatsConfig_Quirks::DISABLE_ON_DEMAND:
+ return "DISABLE_ON_DEMAND";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+class ProcessStatsConfig_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/12, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ ProcessStatsConfig_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ProcessStatsConfig_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ProcessStatsConfig_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_quirks() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<int32_t> quirks() const { return GetRepeated<int32_t>(1); }
+ bool has_scan_all_processes_on_start() const { return at<2>().valid(); }
+ bool scan_all_processes_on_start() const { return at<2>().as_bool(); }
+ bool has_record_thread_names() const { return at<3>().valid(); }
+ bool record_thread_names() const { return at<3>().as_bool(); }
+ bool has_proc_stats_poll_ms() const { return at<4>().valid(); }
+ uint32_t proc_stats_poll_ms() const { return at<4>().as_uint32(); }
+ bool has_proc_stats_cache_ttl_ms() const { return at<6>().valid(); }
+ uint32_t proc_stats_cache_ttl_ms() const { return at<6>().as_uint32(); }
+ bool has_resolve_process_fds() const { return at<9>().valid(); }
+ bool resolve_process_fds() const { return at<9>().as_bool(); }
+ bool has_scan_smaps_rollup() const { return at<10>().valid(); }
+ bool scan_smaps_rollup() const { return at<10>().as_bool(); }
+ bool has_record_process_age() const { return at<11>().valid(); }
+ bool record_process_age() const { return at<11>().as_bool(); }
+ bool has_record_process_runtime() const { return at<12>().valid(); }
+ bool record_process_runtime() const { return at<12>().as_bool(); }
+};
+
+class ProcessStatsConfig : public ::protozero::Message {
+ public:
+ using Decoder = ProcessStatsConfig_Decoder;
+ enum : int32_t {
+ kQuirksFieldNumber = 1,
+ kScanAllProcessesOnStartFieldNumber = 2,
+ kRecordThreadNamesFieldNumber = 3,
+ kProcStatsPollMsFieldNumber = 4,
+ kProcStatsCacheTtlMsFieldNumber = 6,
+ kResolveProcessFdsFieldNumber = 9,
+ kScanSmapsRollupFieldNumber = 10,
+ kRecordProcessAgeFieldNumber = 11,
+ kRecordProcessRuntimeFieldNumber = 12,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ProcessStatsConfig"; }
+
+
+ using Quirks = ::perfetto::protos::pbzero::ProcessStatsConfig_Quirks;
+ static inline const char* Quirks_Name(Quirks value) {
+ return ::perfetto::protos::pbzero::ProcessStatsConfig_Quirks_Name(value);
+ }
+ static inline const Quirks QUIRKS_UNSPECIFIED = Quirks::QUIRKS_UNSPECIFIED;
+ static inline const Quirks DISABLE_INITIAL_DUMP = Quirks::DISABLE_INITIAL_DUMP;
+ static inline const Quirks DISABLE_ON_DEMAND = Quirks::DISABLE_ON_DEMAND;
+
+ using FieldMetadata_Quirks =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ ProcessStatsConfig_Quirks,
+ ProcessStatsConfig>;
+
+ static constexpr FieldMetadata_Quirks kQuirks{};
+ void add_quirks(ProcessStatsConfig_Quirks value) {
+ static constexpr uint32_t field_id = FieldMetadata_Quirks::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ScanAllProcessesOnStart =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ProcessStatsConfig>;
+
+ static constexpr FieldMetadata_ScanAllProcessesOnStart kScanAllProcessesOnStart{};
+ void set_scan_all_processes_on_start(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_ScanAllProcessesOnStart::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_RecordThreadNames =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ProcessStatsConfig>;
+
+ static constexpr FieldMetadata_RecordThreadNames kRecordThreadNames{};
+ void set_record_thread_names(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_RecordThreadNames::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ProcStatsPollMs =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ ProcessStatsConfig>;
+
+ static constexpr FieldMetadata_ProcStatsPollMs kProcStatsPollMs{};
+ void set_proc_stats_poll_ms(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ProcStatsPollMs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ProcStatsCacheTtlMs =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ ProcessStatsConfig>;
+
+ static constexpr FieldMetadata_ProcStatsCacheTtlMs kProcStatsCacheTtlMs{};
+ void set_proc_stats_cache_ttl_ms(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ProcStatsCacheTtlMs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ResolveProcessFds =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ProcessStatsConfig>;
+
+ static constexpr FieldMetadata_ResolveProcessFds kResolveProcessFds{};
+ void set_resolve_process_fds(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_ResolveProcessFds::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ScanSmapsRollup =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ProcessStatsConfig>;
+
+ static constexpr FieldMetadata_ScanSmapsRollup kScanSmapsRollup{};
+ void set_scan_smaps_rollup(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_ScanSmapsRollup::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_RecordProcessAge =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ProcessStatsConfig>;
+
+ static constexpr FieldMetadata_RecordProcessAge kRecordProcessAge{};
+ void set_record_process_age(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_RecordProcessAge::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_RecordProcessRuntime =
+ ::protozero::proto_utils::FieldMetadata<
+ 12,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ProcessStatsConfig>;
+
+ static constexpr FieldMetadata_RecordProcessRuntime kRecordProcessRuntime{};
+ void set_record_process_runtime(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_RecordProcessRuntime::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/config/profiling/heapprofd_config.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_PROFILING_HEAPPROFD_CONFIG_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_PROFILING_HEAPPROFD_CONFIG_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class HeapprofdConfig_ContinuousDumpConfig;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class HeapprofdConfig_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/27, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ HeapprofdConfig_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit HeapprofdConfig_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit HeapprofdConfig_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_sampling_interval_bytes() const { return at<1>().valid(); }
+ uint64_t sampling_interval_bytes() const { return at<1>().as_uint64(); }
+ bool has_adaptive_sampling_shmem_threshold() const { return at<24>().valid(); }
+ uint64_t adaptive_sampling_shmem_threshold() const { return at<24>().as_uint64(); }
+ bool has_adaptive_sampling_max_sampling_interval_bytes() const { return at<25>().valid(); }
+ uint64_t adaptive_sampling_max_sampling_interval_bytes() const { return at<25>().as_uint64(); }
+ bool has_process_cmdline() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstChars> process_cmdline() const { return GetRepeated<::protozero::ConstChars>(2); }
+ bool has_pid() const { return at<4>().valid(); }
+ ::protozero::RepeatedFieldIterator<uint64_t> pid() const { return GetRepeated<uint64_t>(4); }
+ bool has_target_installed_by() const { return at<26>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstChars> target_installed_by() const { return GetRepeated<::protozero::ConstChars>(26); }
+ bool has_heaps() const { return at<20>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstChars> heaps() const { return GetRepeated<::protozero::ConstChars>(20); }
+ bool has_exclude_heaps() const { return at<27>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstChars> exclude_heaps() const { return GetRepeated<::protozero::ConstChars>(27); }
+ bool has_stream_allocations() const { return at<23>().valid(); }
+ bool stream_allocations() const { return at<23>().as_bool(); }
+ bool has_heap_sampling_intervals() const { return at<22>().valid(); }
+ ::protozero::RepeatedFieldIterator<uint64_t> heap_sampling_intervals() const { return GetRepeated<uint64_t>(22); }
+ bool has_all_heaps() const { return at<21>().valid(); }
+ bool all_heaps() const { return at<21>().as_bool(); }
+ bool has_all() const { return at<5>().valid(); }
+ bool all() const { return at<5>().as_bool(); }
+ bool has_min_anonymous_memory_kb() const { return at<15>().valid(); }
+ uint32_t min_anonymous_memory_kb() const { return at<15>().as_uint32(); }
+ bool has_max_heapprofd_memory_kb() const { return at<16>().valid(); }
+ uint32_t max_heapprofd_memory_kb() const { return at<16>().as_uint32(); }
+ bool has_max_heapprofd_cpu_secs() const { return at<17>().valid(); }
+ uint64_t max_heapprofd_cpu_secs() const { return at<17>().as_uint64(); }
+ bool has_skip_symbol_prefix() const { return at<7>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstChars> skip_symbol_prefix() const { return GetRepeated<::protozero::ConstChars>(7); }
+ bool has_continuous_dump_config() const { return at<6>().valid(); }
+ ::protozero::ConstBytes continuous_dump_config() const { return at<6>().as_bytes(); }
+ bool has_shmem_size_bytes() const { return at<8>().valid(); }
+ uint64_t shmem_size_bytes() const { return at<8>().as_uint64(); }
+ bool has_block_client() const { return at<9>().valid(); }
+ bool block_client() const { return at<9>().as_bool(); }
+ bool has_block_client_timeout_us() const { return at<14>().valid(); }
+ uint32_t block_client_timeout_us() const { return at<14>().as_uint32(); }
+ bool has_no_startup() const { return at<10>().valid(); }
+ bool no_startup() const { return at<10>().as_bool(); }
+ bool has_no_running() const { return at<11>().valid(); }
+ bool no_running() const { return at<11>().as_bool(); }
+ bool has_dump_at_max() const { return at<13>().valid(); }
+ bool dump_at_max() const { return at<13>().as_bool(); }
+ bool has_disable_fork_teardown() const { return at<18>().valid(); }
+ bool disable_fork_teardown() const { return at<18>().as_bool(); }
+ bool has_disable_vfork_detection() const { return at<19>().valid(); }
+ bool disable_vfork_detection() const { return at<19>().as_bool(); }
+};
+
+class HeapprofdConfig : public ::protozero::Message {
+ public:
+ using Decoder = HeapprofdConfig_Decoder;
+ enum : int32_t {
+ kSamplingIntervalBytesFieldNumber = 1,
+ kAdaptiveSamplingShmemThresholdFieldNumber = 24,
+ kAdaptiveSamplingMaxSamplingIntervalBytesFieldNumber = 25,
+ kProcessCmdlineFieldNumber = 2,
+ kPidFieldNumber = 4,
+ kTargetInstalledByFieldNumber = 26,
+ kHeapsFieldNumber = 20,
+ kExcludeHeapsFieldNumber = 27,
+ kStreamAllocationsFieldNumber = 23,
+ kHeapSamplingIntervalsFieldNumber = 22,
+ kAllHeapsFieldNumber = 21,
+ kAllFieldNumber = 5,
+ kMinAnonymousMemoryKbFieldNumber = 15,
+ kMaxHeapprofdMemoryKbFieldNumber = 16,
+ kMaxHeapprofdCpuSecsFieldNumber = 17,
+ kSkipSymbolPrefixFieldNumber = 7,
+ kContinuousDumpConfigFieldNumber = 6,
+ kShmemSizeBytesFieldNumber = 8,
+ kBlockClientFieldNumber = 9,
+ kBlockClientTimeoutUsFieldNumber = 14,
+ kNoStartupFieldNumber = 10,
+ kNoRunningFieldNumber = 11,
+ kDumpAtMaxFieldNumber = 13,
+ kDisableForkTeardownFieldNumber = 18,
+ kDisableVforkDetectionFieldNumber = 19,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.HeapprofdConfig"; }
+
+ using ContinuousDumpConfig = ::perfetto::protos::pbzero::HeapprofdConfig_ContinuousDumpConfig;
+
+ using FieldMetadata_SamplingIntervalBytes =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ HeapprofdConfig>;
+
+ static constexpr FieldMetadata_SamplingIntervalBytes kSamplingIntervalBytes{};
+ void set_sampling_interval_bytes(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SamplingIntervalBytes::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_AdaptiveSamplingShmemThreshold =
+ ::protozero::proto_utils::FieldMetadata<
+ 24,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ HeapprofdConfig>;
+
+ static constexpr FieldMetadata_AdaptiveSamplingShmemThreshold kAdaptiveSamplingShmemThreshold{};
+ void set_adaptive_sampling_shmem_threshold(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_AdaptiveSamplingShmemThreshold::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_AdaptiveSamplingMaxSamplingIntervalBytes =
+ ::protozero::proto_utils::FieldMetadata<
+ 25,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ HeapprofdConfig>;
+
+ static constexpr FieldMetadata_AdaptiveSamplingMaxSamplingIntervalBytes kAdaptiveSamplingMaxSamplingIntervalBytes{};
+ void set_adaptive_sampling_max_sampling_interval_bytes(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_AdaptiveSamplingMaxSamplingIntervalBytes::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ProcessCmdline =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ HeapprofdConfig>;
+
+ static constexpr FieldMetadata_ProcessCmdline kProcessCmdline{};
+ void add_process_cmdline(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_ProcessCmdline::kFieldId, data, size);
+ }
+ void add_process_cmdline(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_ProcessCmdline::kFieldId, chars.data, chars.size);
+ }
+ void add_process_cmdline(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_ProcessCmdline::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ HeapprofdConfig>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void add_pid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TargetInstalledBy =
+ ::protozero::proto_utils::FieldMetadata<
+ 26,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ HeapprofdConfig>;
+
+ static constexpr FieldMetadata_TargetInstalledBy kTargetInstalledBy{};
+ void add_target_installed_by(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_TargetInstalledBy::kFieldId, data, size);
+ }
+ void add_target_installed_by(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_TargetInstalledBy::kFieldId, chars.data, chars.size);
+ }
+ void add_target_installed_by(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_TargetInstalledBy::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Heaps =
+ ::protozero::proto_utils::FieldMetadata<
+ 20,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ HeapprofdConfig>;
+
+ static constexpr FieldMetadata_Heaps kHeaps{};
+ void add_heaps(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Heaps::kFieldId, data, size);
+ }
+ void add_heaps(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Heaps::kFieldId, chars.data, chars.size);
+ }
+ void add_heaps(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Heaps::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ExcludeHeaps =
+ ::protozero::proto_utils::FieldMetadata<
+ 27,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ HeapprofdConfig>;
+
+ static constexpr FieldMetadata_ExcludeHeaps kExcludeHeaps{};
+ void add_exclude_heaps(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_ExcludeHeaps::kFieldId, data, size);
+ }
+ void add_exclude_heaps(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_ExcludeHeaps::kFieldId, chars.data, chars.size);
+ }
+ void add_exclude_heaps(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_ExcludeHeaps::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_StreamAllocations =
+ ::protozero::proto_utils::FieldMetadata<
+ 23,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ HeapprofdConfig>;
+
+ static constexpr FieldMetadata_StreamAllocations kStreamAllocations{};
+ void set_stream_allocations(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_StreamAllocations::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_HeapSamplingIntervals =
+ ::protozero::proto_utils::FieldMetadata<
+ 22,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ HeapprofdConfig>;
+
+ static constexpr FieldMetadata_HeapSamplingIntervals kHeapSamplingIntervals{};
+ void add_heap_sampling_intervals(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_HeapSamplingIntervals::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_AllHeaps =
+ ::protozero::proto_utils::FieldMetadata<
+ 21,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ HeapprofdConfig>;
+
+ static constexpr FieldMetadata_AllHeaps kAllHeaps{};
+ void set_all_heaps(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_AllHeaps::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_All =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ HeapprofdConfig>;
+
+ static constexpr FieldMetadata_All kAll{};
+ void set_all(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_All::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MinAnonymousMemoryKb =
+ ::protozero::proto_utils::FieldMetadata<
+ 15,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ HeapprofdConfig>;
+
+ static constexpr FieldMetadata_MinAnonymousMemoryKb kMinAnonymousMemoryKb{};
+ void set_min_anonymous_memory_kb(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MinAnonymousMemoryKb::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MaxHeapprofdMemoryKb =
+ ::protozero::proto_utils::FieldMetadata<
+ 16,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ HeapprofdConfig>;
+
+ static constexpr FieldMetadata_MaxHeapprofdMemoryKb kMaxHeapprofdMemoryKb{};
+ void set_max_heapprofd_memory_kb(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MaxHeapprofdMemoryKb::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MaxHeapprofdCpuSecs =
+ ::protozero::proto_utils::FieldMetadata<
+ 17,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ HeapprofdConfig>;
+
+ static constexpr FieldMetadata_MaxHeapprofdCpuSecs kMaxHeapprofdCpuSecs{};
+ void set_max_heapprofd_cpu_secs(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MaxHeapprofdCpuSecs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SkipSymbolPrefix =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ HeapprofdConfig>;
+
+ static constexpr FieldMetadata_SkipSymbolPrefix kSkipSymbolPrefix{};
+ void add_skip_symbol_prefix(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_SkipSymbolPrefix::kFieldId, data, size);
+ }
+ void add_skip_symbol_prefix(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_SkipSymbolPrefix::kFieldId, chars.data, chars.size);
+ }
+ void add_skip_symbol_prefix(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_SkipSymbolPrefix::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ContinuousDumpConfig =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ HeapprofdConfig_ContinuousDumpConfig,
+ HeapprofdConfig>;
+
+ static constexpr FieldMetadata_ContinuousDumpConfig kContinuousDumpConfig{};
+ template <typename T = HeapprofdConfig_ContinuousDumpConfig> T* set_continuous_dump_config() {
+ return BeginNestedMessage<T>(6);
+ }
+
+
+ using FieldMetadata_ShmemSizeBytes =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ HeapprofdConfig>;
+
+ static constexpr FieldMetadata_ShmemSizeBytes kShmemSizeBytes{};
+ void set_shmem_size_bytes(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ShmemSizeBytes::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BlockClient =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ HeapprofdConfig>;
+
+ static constexpr FieldMetadata_BlockClient kBlockClient{};
+ void set_block_client(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_BlockClient::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BlockClientTimeoutUs =
+ ::protozero::proto_utils::FieldMetadata<
+ 14,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ HeapprofdConfig>;
+
+ static constexpr FieldMetadata_BlockClientTimeoutUs kBlockClientTimeoutUs{};
+ void set_block_client_timeout_us(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BlockClientTimeoutUs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NoStartup =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ HeapprofdConfig>;
+
+ static constexpr FieldMetadata_NoStartup kNoStartup{};
+ void set_no_startup(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_NoStartup::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NoRunning =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ HeapprofdConfig>;
+
+ static constexpr FieldMetadata_NoRunning kNoRunning{};
+ void set_no_running(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_NoRunning::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DumpAtMax =
+ ::protozero::proto_utils::FieldMetadata<
+ 13,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ HeapprofdConfig>;
+
+ static constexpr FieldMetadata_DumpAtMax kDumpAtMax{};
+ void set_dump_at_max(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_DumpAtMax::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DisableForkTeardown =
+ ::protozero::proto_utils::FieldMetadata<
+ 18,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ HeapprofdConfig>;
+
+ static constexpr FieldMetadata_DisableForkTeardown kDisableForkTeardown{};
+ void set_disable_fork_teardown(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_DisableForkTeardown::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DisableVforkDetection =
+ ::protozero::proto_utils::FieldMetadata<
+ 19,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ HeapprofdConfig>;
+
+ static constexpr FieldMetadata_DisableVforkDetection kDisableVforkDetection{};
+ void set_disable_vfork_detection(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_DisableVforkDetection::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class HeapprofdConfig_ContinuousDumpConfig_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/6, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ HeapprofdConfig_ContinuousDumpConfig_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit HeapprofdConfig_ContinuousDumpConfig_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit HeapprofdConfig_ContinuousDumpConfig_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dump_phase_ms() const { return at<5>().valid(); }
+ uint32_t dump_phase_ms() const { return at<5>().as_uint32(); }
+ bool has_dump_interval_ms() const { return at<6>().valid(); }
+ uint32_t dump_interval_ms() const { return at<6>().as_uint32(); }
+};
+
+class HeapprofdConfig_ContinuousDumpConfig : public ::protozero::Message {
+ public:
+ using Decoder = HeapprofdConfig_ContinuousDumpConfig_Decoder;
+ enum : int32_t {
+ kDumpPhaseMsFieldNumber = 5,
+ kDumpIntervalMsFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.HeapprofdConfig.ContinuousDumpConfig"; }
+
+
+ using FieldMetadata_DumpPhaseMs =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ HeapprofdConfig_ContinuousDumpConfig>;
+
+ static constexpr FieldMetadata_DumpPhaseMs kDumpPhaseMs{};
+ void set_dump_phase_ms(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DumpPhaseMs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DumpIntervalMs =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ HeapprofdConfig_ContinuousDumpConfig>;
+
+ static constexpr FieldMetadata_DumpIntervalMs kDumpIntervalMs{};
+ void set_dump_interval_ms(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DumpIntervalMs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/config/profiling/java_hprof_config.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_PROFILING_JAVA_HPROF_CONFIG_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_PROFILING_JAVA_HPROF_CONFIG_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class JavaHprofConfig_ContinuousDumpConfig;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class JavaHprofConfig_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/7, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ JavaHprofConfig_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit JavaHprofConfig_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit JavaHprofConfig_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_process_cmdline() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstChars> process_cmdline() const { return GetRepeated<::protozero::ConstChars>(1); }
+ bool has_pid() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<uint64_t> pid() const { return GetRepeated<uint64_t>(2); }
+ bool has_target_installed_by() const { return at<7>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstChars> target_installed_by() const { return GetRepeated<::protozero::ConstChars>(7); }
+ bool has_continuous_dump_config() const { return at<3>().valid(); }
+ ::protozero::ConstBytes continuous_dump_config() const { return at<3>().as_bytes(); }
+ bool has_min_anonymous_memory_kb() const { return at<4>().valid(); }
+ uint32_t min_anonymous_memory_kb() const { return at<4>().as_uint32(); }
+ bool has_dump_smaps() const { return at<5>().valid(); }
+ bool dump_smaps() const { return at<5>().as_bool(); }
+ bool has_ignored_types() const { return at<6>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstChars> ignored_types() const { return GetRepeated<::protozero::ConstChars>(6); }
+};
+
+class JavaHprofConfig : public ::protozero::Message {
+ public:
+ using Decoder = JavaHprofConfig_Decoder;
+ enum : int32_t {
+ kProcessCmdlineFieldNumber = 1,
+ kPidFieldNumber = 2,
+ kTargetInstalledByFieldNumber = 7,
+ kContinuousDumpConfigFieldNumber = 3,
+ kMinAnonymousMemoryKbFieldNumber = 4,
+ kDumpSmapsFieldNumber = 5,
+ kIgnoredTypesFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.JavaHprofConfig"; }
+
+ using ContinuousDumpConfig = ::perfetto::protos::pbzero::JavaHprofConfig_ContinuousDumpConfig;
+
+ using FieldMetadata_ProcessCmdline =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ JavaHprofConfig>;
+
+ static constexpr FieldMetadata_ProcessCmdline kProcessCmdline{};
+ void add_process_cmdline(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_ProcessCmdline::kFieldId, data, size);
+ }
+ void add_process_cmdline(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_ProcessCmdline::kFieldId, chars.data, chars.size);
+ }
+ void add_process_cmdline(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_ProcessCmdline::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ JavaHprofConfig>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void add_pid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TargetInstalledBy =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ JavaHprofConfig>;
+
+ static constexpr FieldMetadata_TargetInstalledBy kTargetInstalledBy{};
+ void add_target_installed_by(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_TargetInstalledBy::kFieldId, data, size);
+ }
+ void add_target_installed_by(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_TargetInstalledBy::kFieldId, chars.data, chars.size);
+ }
+ void add_target_installed_by(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_TargetInstalledBy::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ContinuousDumpConfig =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ JavaHprofConfig_ContinuousDumpConfig,
+ JavaHprofConfig>;
+
+ static constexpr FieldMetadata_ContinuousDumpConfig kContinuousDumpConfig{};
+ template <typename T = JavaHprofConfig_ContinuousDumpConfig> T* set_continuous_dump_config() {
+ return BeginNestedMessage<T>(3);
+ }
+
+
+ using FieldMetadata_MinAnonymousMemoryKb =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ JavaHprofConfig>;
+
+ static constexpr FieldMetadata_MinAnonymousMemoryKb kMinAnonymousMemoryKb{};
+ void set_min_anonymous_memory_kb(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MinAnonymousMemoryKb::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DumpSmaps =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ JavaHprofConfig>;
+
+ static constexpr FieldMetadata_DumpSmaps kDumpSmaps{};
+ void set_dump_smaps(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_DumpSmaps::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IgnoredTypes =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ JavaHprofConfig>;
+
+ static constexpr FieldMetadata_IgnoredTypes kIgnoredTypes{};
+ void add_ignored_types(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_IgnoredTypes::kFieldId, data, size);
+ }
+ void add_ignored_types(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_IgnoredTypes::kFieldId, chars.data, chars.size);
+ }
+ void add_ignored_types(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_IgnoredTypes::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class JavaHprofConfig_ContinuousDumpConfig_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ JavaHprofConfig_ContinuousDumpConfig_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit JavaHprofConfig_ContinuousDumpConfig_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit JavaHprofConfig_ContinuousDumpConfig_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dump_phase_ms() const { return at<1>().valid(); }
+ uint32_t dump_phase_ms() const { return at<1>().as_uint32(); }
+ bool has_dump_interval_ms() const { return at<2>().valid(); }
+ uint32_t dump_interval_ms() const { return at<2>().as_uint32(); }
+ bool has_scan_pids_only_on_start() const { return at<3>().valid(); }
+ bool scan_pids_only_on_start() const { return at<3>().as_bool(); }
+};
+
+class JavaHprofConfig_ContinuousDumpConfig : public ::protozero::Message {
+ public:
+ using Decoder = JavaHprofConfig_ContinuousDumpConfig_Decoder;
+ enum : int32_t {
+ kDumpPhaseMsFieldNumber = 1,
+ kDumpIntervalMsFieldNumber = 2,
+ kScanPidsOnlyOnStartFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.JavaHprofConfig.ContinuousDumpConfig"; }
+
+
+ using FieldMetadata_DumpPhaseMs =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ JavaHprofConfig_ContinuousDumpConfig>;
+
+ static constexpr FieldMetadata_DumpPhaseMs kDumpPhaseMs{};
+ void set_dump_phase_ms(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DumpPhaseMs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DumpIntervalMs =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ JavaHprofConfig_ContinuousDumpConfig>;
+
+ static constexpr FieldMetadata_DumpIntervalMs kDumpIntervalMs{};
+ void set_dump_interval_ms(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DumpIntervalMs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ScanPidsOnlyOnStart =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ JavaHprofConfig_ContinuousDumpConfig>;
+
+ static constexpr FieldMetadata_ScanPidsOnlyOnStart kScanPidsOnlyOnStart{};
+ void set_scan_pids_only_on_start(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_ScanPidsOnlyOnStart::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/config/profiling/perf_event_config.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_PROFILING_PERF_EVENT_CONFIG_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_PROFILING_PERF_EVENT_CONFIG_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class PerfEventConfig_CallstackSampling;
+class PerfEventConfig_Scope;
+class PerfEvents_Timebase;
+namespace perfetto_pbzero_enum_PerfEventConfig {
+enum UnwindMode : int32_t;
+} // namespace perfetto_pbzero_enum_PerfEventConfig
+using PerfEventConfig_UnwindMode = perfetto_pbzero_enum_PerfEventConfig::UnwindMode;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+namespace perfetto_pbzero_enum_PerfEventConfig {
+enum UnwindMode : int32_t {
+ UNWIND_UNKNOWN = 0,
+ UNWIND_SKIP = 1,
+ UNWIND_DWARF = 2,
+};
+} // namespace perfetto_pbzero_enum_PerfEventConfig
+using PerfEventConfig_UnwindMode = perfetto_pbzero_enum_PerfEventConfig::UnwindMode;
+
+
+constexpr PerfEventConfig_UnwindMode PerfEventConfig_UnwindMode_MIN = PerfEventConfig_UnwindMode::UNWIND_UNKNOWN;
+constexpr PerfEventConfig_UnwindMode PerfEventConfig_UnwindMode_MAX = PerfEventConfig_UnwindMode::UNWIND_DWARF;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* PerfEventConfig_UnwindMode_Name(::perfetto::protos::pbzero::PerfEventConfig_UnwindMode value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::PerfEventConfig_UnwindMode::UNWIND_UNKNOWN:
+ return "UNWIND_UNKNOWN";
+
+ case ::perfetto::protos::pbzero::PerfEventConfig_UnwindMode::UNWIND_SKIP:
+ return "UNWIND_SKIP";
+
+ case ::perfetto::protos::pbzero::PerfEventConfig_UnwindMode::UNWIND_DWARF:
+ return "UNWIND_DWARF";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+class PerfEventConfig_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/18, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ PerfEventConfig_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit PerfEventConfig_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit PerfEventConfig_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_timebase() const { return at<15>().valid(); }
+ ::protozero::ConstBytes timebase() const { return at<15>().as_bytes(); }
+ bool has_callstack_sampling() const { return at<16>().valid(); }
+ ::protozero::ConstBytes callstack_sampling() const { return at<16>().as_bytes(); }
+ bool has_ring_buffer_read_period_ms() const { return at<8>().valid(); }
+ uint32_t ring_buffer_read_period_ms() const { return at<8>().as_uint32(); }
+ bool has_ring_buffer_pages() const { return at<3>().valid(); }
+ uint32_t ring_buffer_pages() const { return at<3>().as_uint32(); }
+ bool has_max_enqueued_footprint_kb() const { return at<17>().valid(); }
+ uint64_t max_enqueued_footprint_kb() const { return at<17>().as_uint64(); }
+ bool has_max_daemon_memory_kb() const { return at<13>().valid(); }
+ uint32_t max_daemon_memory_kb() const { return at<13>().as_uint32(); }
+ bool has_remote_descriptor_timeout_ms() const { return at<9>().valid(); }
+ uint32_t remote_descriptor_timeout_ms() const { return at<9>().as_uint32(); }
+ bool has_unwind_state_clear_period_ms() const { return at<10>().valid(); }
+ uint32_t unwind_state_clear_period_ms() const { return at<10>().as_uint32(); }
+ bool has_target_installed_by() const { return at<18>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstChars> target_installed_by() const { return GetRepeated<::protozero::ConstChars>(18); }
+ bool has_all_cpus() const { return at<1>().valid(); }
+ bool all_cpus() const { return at<1>().as_bool(); }
+ bool has_sampling_frequency() const { return at<2>().valid(); }
+ uint32_t sampling_frequency() const { return at<2>().as_uint32(); }
+ bool has_kernel_frames() const { return at<12>().valid(); }
+ bool kernel_frames() const { return at<12>().as_bool(); }
+ bool has_target_pid() const { return at<4>().valid(); }
+ ::protozero::RepeatedFieldIterator<int32_t> target_pid() const { return GetRepeated<int32_t>(4); }
+ bool has_target_cmdline() const { return at<5>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstChars> target_cmdline() const { return GetRepeated<::protozero::ConstChars>(5); }
+ bool has_exclude_pid() const { return at<6>().valid(); }
+ ::protozero::RepeatedFieldIterator<int32_t> exclude_pid() const { return GetRepeated<int32_t>(6); }
+ bool has_exclude_cmdline() const { return at<7>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstChars> exclude_cmdline() const { return GetRepeated<::protozero::ConstChars>(7); }
+ bool has_additional_cmdline_count() const { return at<11>().valid(); }
+ uint32_t additional_cmdline_count() const { return at<11>().as_uint32(); }
+};
+
+class PerfEventConfig : public ::protozero::Message {
+ public:
+ using Decoder = PerfEventConfig_Decoder;
+ enum : int32_t {
+ kTimebaseFieldNumber = 15,
+ kCallstackSamplingFieldNumber = 16,
+ kRingBufferReadPeriodMsFieldNumber = 8,
+ kRingBufferPagesFieldNumber = 3,
+ kMaxEnqueuedFootprintKbFieldNumber = 17,
+ kMaxDaemonMemoryKbFieldNumber = 13,
+ kRemoteDescriptorTimeoutMsFieldNumber = 9,
+ kUnwindStateClearPeriodMsFieldNumber = 10,
+ kTargetInstalledByFieldNumber = 18,
+ kAllCpusFieldNumber = 1,
+ kSamplingFrequencyFieldNumber = 2,
+ kKernelFramesFieldNumber = 12,
+ kTargetPidFieldNumber = 4,
+ kTargetCmdlineFieldNumber = 5,
+ kExcludePidFieldNumber = 6,
+ kExcludeCmdlineFieldNumber = 7,
+ kAdditionalCmdlineCountFieldNumber = 11,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.PerfEventConfig"; }
+
+ using CallstackSampling = ::perfetto::protos::pbzero::PerfEventConfig_CallstackSampling;
+ using Scope = ::perfetto::protos::pbzero::PerfEventConfig_Scope;
+
+ using UnwindMode = ::perfetto::protos::pbzero::PerfEventConfig_UnwindMode;
+ static inline const char* UnwindMode_Name(UnwindMode value) {
+ return ::perfetto::protos::pbzero::PerfEventConfig_UnwindMode_Name(value);
+ }
+ static inline const UnwindMode UNWIND_UNKNOWN = UnwindMode::UNWIND_UNKNOWN;
+ static inline const UnwindMode UNWIND_SKIP = UnwindMode::UNWIND_SKIP;
+ static inline const UnwindMode UNWIND_DWARF = UnwindMode::UNWIND_DWARF;
+
+ using FieldMetadata_Timebase =
+ ::protozero::proto_utils::FieldMetadata<
+ 15,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ PerfEvents_Timebase,
+ PerfEventConfig>;
+
+ static constexpr FieldMetadata_Timebase kTimebase{};
+ template <typename T = PerfEvents_Timebase> T* set_timebase() {
+ return BeginNestedMessage<T>(15);
+ }
+
+
+ using FieldMetadata_CallstackSampling =
+ ::protozero::proto_utils::FieldMetadata<
+ 16,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ PerfEventConfig_CallstackSampling,
+ PerfEventConfig>;
+
+ static constexpr FieldMetadata_CallstackSampling kCallstackSampling{};
+ template <typename T = PerfEventConfig_CallstackSampling> T* set_callstack_sampling() {
+ return BeginNestedMessage<T>(16);
+ }
+
+
+ using FieldMetadata_RingBufferReadPeriodMs =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ PerfEventConfig>;
+
+ static constexpr FieldMetadata_RingBufferReadPeriodMs kRingBufferReadPeriodMs{};
+ void set_ring_buffer_read_period_ms(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_RingBufferReadPeriodMs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_RingBufferPages =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ PerfEventConfig>;
+
+ static constexpr FieldMetadata_RingBufferPages kRingBufferPages{};
+ void set_ring_buffer_pages(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_RingBufferPages::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MaxEnqueuedFootprintKb =
+ ::protozero::proto_utils::FieldMetadata<
+ 17,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ PerfEventConfig>;
+
+ static constexpr FieldMetadata_MaxEnqueuedFootprintKb kMaxEnqueuedFootprintKb{};
+ void set_max_enqueued_footprint_kb(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MaxEnqueuedFootprintKb::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MaxDaemonMemoryKb =
+ ::protozero::proto_utils::FieldMetadata<
+ 13,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ PerfEventConfig>;
+
+ static constexpr FieldMetadata_MaxDaemonMemoryKb kMaxDaemonMemoryKb{};
+ void set_max_daemon_memory_kb(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MaxDaemonMemoryKb::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_RemoteDescriptorTimeoutMs =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ PerfEventConfig>;
+
+ static constexpr FieldMetadata_RemoteDescriptorTimeoutMs kRemoteDescriptorTimeoutMs{};
+ void set_remote_descriptor_timeout_ms(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_RemoteDescriptorTimeoutMs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_UnwindStateClearPeriodMs =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ PerfEventConfig>;
+
+ static constexpr FieldMetadata_UnwindStateClearPeriodMs kUnwindStateClearPeriodMs{};
+ void set_unwind_state_clear_period_ms(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_UnwindStateClearPeriodMs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TargetInstalledBy =
+ ::protozero::proto_utils::FieldMetadata<
+ 18,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ PerfEventConfig>;
+
+ static constexpr FieldMetadata_TargetInstalledBy kTargetInstalledBy{};
+ void add_target_installed_by(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_TargetInstalledBy::kFieldId, data, size);
+ }
+ void add_target_installed_by(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_TargetInstalledBy::kFieldId, chars.data, chars.size);
+ }
+ void add_target_installed_by(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_TargetInstalledBy::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_AllCpus =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ PerfEventConfig>;
+
+ static constexpr FieldMetadata_AllCpus kAllCpus{};
+ void set_all_cpus(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_AllCpus::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SamplingFrequency =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ PerfEventConfig>;
+
+ static constexpr FieldMetadata_SamplingFrequency kSamplingFrequency{};
+ void set_sampling_frequency(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SamplingFrequency::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_KernelFrames =
+ ::protozero::proto_utils::FieldMetadata<
+ 12,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ PerfEventConfig>;
+
+ static constexpr FieldMetadata_KernelFrames kKernelFrames{};
+ void set_kernel_frames(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_KernelFrames::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TargetPid =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ PerfEventConfig>;
+
+ static constexpr FieldMetadata_TargetPid kTargetPid{};
+ void add_target_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TargetPid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TargetCmdline =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ PerfEventConfig>;
+
+ static constexpr FieldMetadata_TargetCmdline kTargetCmdline{};
+ void add_target_cmdline(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_TargetCmdline::kFieldId, data, size);
+ }
+ void add_target_cmdline(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_TargetCmdline::kFieldId, chars.data, chars.size);
+ }
+ void add_target_cmdline(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_TargetCmdline::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ExcludePid =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ PerfEventConfig>;
+
+ static constexpr FieldMetadata_ExcludePid kExcludePid{};
+ void add_exclude_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ExcludePid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ExcludeCmdline =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ PerfEventConfig>;
+
+ static constexpr FieldMetadata_ExcludeCmdline kExcludeCmdline{};
+ void add_exclude_cmdline(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_ExcludeCmdline::kFieldId, data, size);
+ }
+ void add_exclude_cmdline(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_ExcludeCmdline::kFieldId, chars.data, chars.size);
+ }
+ void add_exclude_cmdline(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_ExcludeCmdline::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_AdditionalCmdlineCount =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ PerfEventConfig>;
+
+ static constexpr FieldMetadata_AdditionalCmdlineCount kAdditionalCmdlineCount{};
+ void set_additional_cmdline_count(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_AdditionalCmdlineCount::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class PerfEventConfig_Scope_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/6, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ PerfEventConfig_Scope_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit PerfEventConfig_Scope_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit PerfEventConfig_Scope_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_target_pid() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<int32_t> target_pid() const { return GetRepeated<int32_t>(1); }
+ bool has_target_cmdline() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstChars> target_cmdline() const { return GetRepeated<::protozero::ConstChars>(2); }
+ bool has_exclude_pid() const { return at<3>().valid(); }
+ ::protozero::RepeatedFieldIterator<int32_t> exclude_pid() const { return GetRepeated<int32_t>(3); }
+ bool has_exclude_cmdline() const { return at<4>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstChars> exclude_cmdline() const { return GetRepeated<::protozero::ConstChars>(4); }
+ bool has_additional_cmdline_count() const { return at<5>().valid(); }
+ uint32_t additional_cmdline_count() const { return at<5>().as_uint32(); }
+ bool has_process_shard_count() const { return at<6>().valid(); }
+ uint32_t process_shard_count() const { return at<6>().as_uint32(); }
+};
+
+class PerfEventConfig_Scope : public ::protozero::Message {
+ public:
+ using Decoder = PerfEventConfig_Scope_Decoder;
+ enum : int32_t {
+ kTargetPidFieldNumber = 1,
+ kTargetCmdlineFieldNumber = 2,
+ kExcludePidFieldNumber = 3,
+ kExcludeCmdlineFieldNumber = 4,
+ kAdditionalCmdlineCountFieldNumber = 5,
+ kProcessShardCountFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.PerfEventConfig.Scope"; }
+
+
+ using FieldMetadata_TargetPid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ PerfEventConfig_Scope>;
+
+ static constexpr FieldMetadata_TargetPid kTargetPid{};
+ void add_target_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TargetPid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TargetCmdline =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ PerfEventConfig_Scope>;
+
+ static constexpr FieldMetadata_TargetCmdline kTargetCmdline{};
+ void add_target_cmdline(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_TargetCmdline::kFieldId, data, size);
+ }
+ void add_target_cmdline(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_TargetCmdline::kFieldId, chars.data, chars.size);
+ }
+ void add_target_cmdline(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_TargetCmdline::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ExcludePid =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ PerfEventConfig_Scope>;
+
+ static constexpr FieldMetadata_ExcludePid kExcludePid{};
+ void add_exclude_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ExcludePid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ExcludeCmdline =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ PerfEventConfig_Scope>;
+
+ static constexpr FieldMetadata_ExcludeCmdline kExcludeCmdline{};
+ void add_exclude_cmdline(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_ExcludeCmdline::kFieldId, data, size);
+ }
+ void add_exclude_cmdline(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_ExcludeCmdline::kFieldId, chars.data, chars.size);
+ }
+ void add_exclude_cmdline(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_ExcludeCmdline::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_AdditionalCmdlineCount =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ PerfEventConfig_Scope>;
+
+ static constexpr FieldMetadata_AdditionalCmdlineCount kAdditionalCmdlineCount{};
+ void set_additional_cmdline_count(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_AdditionalCmdlineCount::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ProcessShardCount =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ PerfEventConfig_Scope>;
+
+ static constexpr FieldMetadata_ProcessShardCount kProcessShardCount{};
+ void set_process_shard_count(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ProcessShardCount::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class PerfEventConfig_CallstackSampling_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ PerfEventConfig_CallstackSampling_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit PerfEventConfig_CallstackSampling_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit PerfEventConfig_CallstackSampling_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_scope() const { return at<1>().valid(); }
+ ::protozero::ConstBytes scope() const { return at<1>().as_bytes(); }
+ bool has_kernel_frames() const { return at<2>().valid(); }
+ bool kernel_frames() const { return at<2>().as_bool(); }
+ bool has_user_frames() const { return at<3>().valid(); }
+ int32_t user_frames() const { return at<3>().as_int32(); }
+};
+
+class PerfEventConfig_CallstackSampling : public ::protozero::Message {
+ public:
+ using Decoder = PerfEventConfig_CallstackSampling_Decoder;
+ enum : int32_t {
+ kScopeFieldNumber = 1,
+ kKernelFramesFieldNumber = 2,
+ kUserFramesFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.PerfEventConfig.CallstackSampling"; }
+
+
+ using FieldMetadata_Scope =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ PerfEventConfig_Scope,
+ PerfEventConfig_CallstackSampling>;
+
+ static constexpr FieldMetadata_Scope kScope{};
+ template <typename T = PerfEventConfig_Scope> T* set_scope() {
+ return BeginNestedMessage<T>(1);
+ }
+
+
+ using FieldMetadata_KernelFrames =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ PerfEventConfig_CallstackSampling>;
+
+ static constexpr FieldMetadata_KernelFrames kKernelFrames{};
+ void set_kernel_frames(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_KernelFrames::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_UserFrames =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ PerfEventConfig_UnwindMode,
+ PerfEventConfig_CallstackSampling>;
+
+ static constexpr FieldMetadata_UserFrames kUserFrames{};
+ void set_user_frames(PerfEventConfig_UnwindMode value) {
+ static constexpr uint32_t field_id = FieldMetadata_UserFrames::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/config/statsd/atom_ids.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_STATSD_ATOM_IDS_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_STATSD_ATOM_IDS_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+enum AtomId : int32_t {
+ ATOM_UNSPECIFIED = 0,
+ ATOM_BLE_SCAN_STATE_CHANGED = 2,
+ ATOM_PROCESS_STATE_CHANGED = 3,
+ ATOM_BLE_SCAN_RESULT_RECEIVED = 4,
+ ATOM_SENSOR_STATE_CHANGED = 5,
+ ATOM_GPS_SCAN_STATE_CHANGED = 6,
+ ATOM_SYNC_STATE_CHANGED = 7,
+ ATOM_SCHEDULED_JOB_STATE_CHANGED = 8,
+ ATOM_SCREEN_BRIGHTNESS_CHANGED = 9,
+ ATOM_WAKELOCK_STATE_CHANGED = 10,
+ ATOM_LONG_PARTIAL_WAKELOCK_STATE_CHANGED = 11,
+ ATOM_MOBILE_RADIO_POWER_STATE_CHANGED = 12,
+ ATOM_WIFI_RADIO_POWER_STATE_CHANGED = 13,
+ ATOM_ACTIVITY_MANAGER_SLEEP_STATE_CHANGED = 14,
+ ATOM_MEMORY_FACTOR_STATE_CHANGED = 15,
+ ATOM_EXCESSIVE_CPU_USAGE_REPORTED = 16,
+ ATOM_CACHED_KILL_REPORTED = 17,
+ ATOM_PROCESS_MEMORY_STAT_REPORTED = 18,
+ ATOM_LAUNCHER_EVENT = 19,
+ ATOM_BATTERY_SAVER_MODE_STATE_CHANGED = 20,
+ ATOM_DEVICE_IDLE_MODE_STATE_CHANGED = 21,
+ ATOM_DEVICE_IDLING_MODE_STATE_CHANGED = 22,
+ ATOM_AUDIO_STATE_CHANGED = 23,
+ ATOM_MEDIA_CODEC_STATE_CHANGED = 24,
+ ATOM_CAMERA_STATE_CHANGED = 25,
+ ATOM_FLASHLIGHT_STATE_CHANGED = 26,
+ ATOM_UID_PROCESS_STATE_CHANGED = 27,
+ ATOM_PROCESS_LIFE_CYCLE_STATE_CHANGED = 28,
+ ATOM_SCREEN_STATE_CHANGED = 29,
+ ATOM_BATTERY_LEVEL_CHANGED = 30,
+ ATOM_CHARGING_STATE_CHANGED = 31,
+ ATOM_PLUGGED_STATE_CHANGED = 32,
+ ATOM_INTERACTIVE_STATE_CHANGED = 33,
+ ATOM_TOUCH_EVENT_REPORTED = 34,
+ ATOM_WAKEUP_ALARM_OCCURRED = 35,
+ ATOM_KERNEL_WAKEUP_REPORTED = 36,
+ ATOM_WIFI_LOCK_STATE_CHANGED = 37,
+ ATOM_WIFI_SIGNAL_STRENGTH_CHANGED = 38,
+ ATOM_WIFI_SCAN_STATE_CHANGED = 39,
+ ATOM_PHONE_SIGNAL_STRENGTH_CHANGED = 40,
+ ATOM_SETTING_CHANGED = 41,
+ ATOM_ACTIVITY_FOREGROUND_STATE_CHANGED = 42,
+ ATOM_ISOLATED_UID_CHANGED = 43,
+ ATOM_PACKET_WAKEUP_OCCURRED = 44,
+ ATOM_WALL_CLOCK_TIME_SHIFTED = 45,
+ ATOM_ANOMALY_DETECTED = 46,
+ ATOM_APP_BREADCRUMB_REPORTED = 47,
+ ATOM_APP_START_OCCURRED = 48,
+ ATOM_APP_START_CANCELED = 49,
+ ATOM_APP_START_FULLY_DRAWN = 50,
+ ATOM_LMK_KILL_OCCURRED = 51,
+ ATOM_PICTURE_IN_PICTURE_STATE_CHANGED = 52,
+ ATOM_WIFI_MULTICAST_LOCK_STATE_CHANGED = 53,
+ ATOM_LMK_STATE_CHANGED = 54,
+ ATOM_APP_START_MEMORY_STATE_CAPTURED = 55,
+ ATOM_SHUTDOWN_SEQUENCE_REPORTED = 56,
+ ATOM_BOOT_SEQUENCE_REPORTED = 57,
+ ATOM_DAVEY_OCCURRED = 58,
+ ATOM_OVERLAY_STATE_CHANGED = 59,
+ ATOM_FOREGROUND_SERVICE_STATE_CHANGED = 60,
+ ATOM_CALL_STATE_CHANGED = 61,
+ ATOM_KEYGUARD_STATE_CHANGED = 62,
+ ATOM_KEYGUARD_BOUNCER_STATE_CHANGED = 63,
+ ATOM_KEYGUARD_BOUNCER_PASSWORD_ENTERED = 64,
+ ATOM_APP_DIED = 65,
+ ATOM_RESOURCE_CONFIGURATION_CHANGED = 66,
+ ATOM_BLUETOOTH_ENABLED_STATE_CHANGED = 67,
+ ATOM_BLUETOOTH_CONNECTION_STATE_CHANGED = 68,
+ ATOM_GPS_SIGNAL_QUALITY_CHANGED = 69,
+ ATOM_USB_CONNECTOR_STATE_CHANGED = 70,
+ ATOM_SPEAKER_IMPEDANCE_REPORTED = 71,
+ ATOM_HARDWARE_FAILED = 72,
+ ATOM_PHYSICAL_DROP_DETECTED = 73,
+ ATOM_CHARGE_CYCLES_REPORTED = 74,
+ ATOM_MOBILE_CONNECTION_STATE_CHANGED = 75,
+ ATOM_MOBILE_RADIO_TECHNOLOGY_CHANGED = 76,
+ ATOM_USB_DEVICE_ATTACHED = 77,
+ ATOM_APP_CRASH_OCCURRED = 78,
+ ATOM_ANR_OCCURRED = 79,
+ ATOM_WTF_OCCURRED = 80,
+ ATOM_LOW_MEM_REPORTED = 81,
+ ATOM_GENERIC_ATOM = 82,
+ ATOM_VIBRATOR_STATE_CHANGED = 84,
+ ATOM_DEFERRED_JOB_STATS_REPORTED = 85,
+ ATOM_THERMAL_THROTTLING = 86,
+ ATOM_BIOMETRIC_ACQUIRED = 87,
+ ATOM_BIOMETRIC_AUTHENTICATED = 88,
+ ATOM_BIOMETRIC_ERROR_OCCURRED = 89,
+ ATOM_UI_EVENT_REPORTED = 90,
+ ATOM_BATTERY_HEALTH_SNAPSHOT = 91,
+ ATOM_SLOW_IO = 92,
+ ATOM_BATTERY_CAUSED_SHUTDOWN = 93,
+ ATOM_PHONE_SERVICE_STATE_CHANGED = 94,
+ ATOM_PHONE_STATE_CHANGED = 95,
+ ATOM_USER_RESTRICTION_CHANGED = 96,
+ ATOM_SETTINGS_UI_CHANGED = 97,
+ ATOM_CONNECTIVITY_STATE_CHANGED = 98,
+ ATOM_SERVICE_STATE_CHANGED = 99,
+ ATOM_SERVICE_LAUNCH_REPORTED = 100,
+ ATOM_FLAG_FLIP_UPDATE_OCCURRED = 101,
+ ATOM_BINARY_PUSH_STATE_CHANGED = 102,
+ ATOM_DEVICE_POLICY_EVENT = 103,
+ ATOM_DOCS_UI_FILE_OP_CANCELED = 104,
+ ATOM_DOCS_UI_FILE_OP_COPY_MOVE_MODE_REPORTED = 105,
+ ATOM_DOCS_UI_FILE_OP_FAILURE = 106,
+ ATOM_DOCS_UI_PROVIDER_FILE_OP = 107,
+ ATOM_DOCS_UI_INVALID_SCOPED_ACCESS_REQUEST = 108,
+ ATOM_DOCS_UI_LAUNCH_REPORTED = 109,
+ ATOM_DOCS_UI_ROOT_VISITED = 110,
+ ATOM_DOCS_UI_STARTUP_MS = 111,
+ ATOM_DOCS_UI_USER_ACTION_REPORTED = 112,
+ ATOM_WIFI_ENABLED_STATE_CHANGED = 113,
+ ATOM_WIFI_RUNNING_STATE_CHANGED = 114,
+ ATOM_APP_COMPACTED = 115,
+ ATOM_NETWORK_DNS_EVENT_REPORTED = 116,
+ ATOM_DOCS_UI_PICKER_LAUNCHED_FROM_REPORTED = 117,
+ ATOM_DOCS_UI_PICK_RESULT_REPORTED = 118,
+ ATOM_DOCS_UI_SEARCH_MODE_REPORTED = 119,
+ ATOM_DOCS_UI_SEARCH_TYPE_REPORTED = 120,
+ ATOM_DATA_STALL_EVENT = 121,
+ ATOM_RESCUE_PARTY_RESET_REPORTED = 122,
+ ATOM_SIGNED_CONFIG_REPORTED = 123,
+ ATOM_GNSS_NI_EVENT_REPORTED = 124,
+ ATOM_BLUETOOTH_LINK_LAYER_CONNECTION_EVENT = 125,
+ ATOM_BLUETOOTH_ACL_CONNECTION_STATE_CHANGED = 126,
+ ATOM_BLUETOOTH_SCO_CONNECTION_STATE_CHANGED = 127,
+ ATOM_APP_DOWNGRADED = 128,
+ ATOM_APP_OPTIMIZED_AFTER_DOWNGRADED = 129,
+ ATOM_LOW_STORAGE_STATE_CHANGED = 130,
+ ATOM_GNSS_NFW_NOTIFICATION_REPORTED = 131,
+ ATOM_GNSS_CONFIGURATION_REPORTED = 132,
+ ATOM_USB_PORT_OVERHEAT_EVENT_REPORTED = 133,
+ ATOM_NFC_ERROR_OCCURRED = 134,
+ ATOM_NFC_STATE_CHANGED = 135,
+ ATOM_NFC_BEAM_OCCURRED = 136,
+ ATOM_NFC_CARDEMULATION_OCCURRED = 137,
+ ATOM_NFC_TAG_OCCURRED = 138,
+ ATOM_NFC_HCE_TRANSACTION_OCCURRED = 139,
+ ATOM_SE_STATE_CHANGED = 140,
+ ATOM_SE_OMAPI_REPORTED = 141,
+ ATOM_BROADCAST_DISPATCH_LATENCY_REPORTED = 142,
+ ATOM_ATTENTION_MANAGER_SERVICE_RESULT_REPORTED = 143,
+ ATOM_ADB_CONNECTION_CHANGED = 144,
+ ATOM_SPEECH_DSP_STAT_REPORTED = 145,
+ ATOM_USB_CONTAMINANT_REPORTED = 146,
+ ATOM_WATCHDOG_ROLLBACK_OCCURRED = 147,
+ ATOM_BIOMETRIC_SYSTEM_HEALTH_ISSUE_DETECTED = 148,
+ ATOM_BUBBLE_UI_CHANGED = 149,
+ ATOM_SCHEDULED_JOB_CONSTRAINT_CHANGED = 150,
+ ATOM_BLUETOOTH_ACTIVE_DEVICE_CHANGED = 151,
+ ATOM_BLUETOOTH_A2DP_PLAYBACK_STATE_CHANGED = 152,
+ ATOM_BLUETOOTH_A2DP_CODEC_CONFIG_CHANGED = 153,
+ ATOM_BLUETOOTH_A2DP_CODEC_CAPABILITY_CHANGED = 154,
+ ATOM_BLUETOOTH_A2DP_AUDIO_UNDERRUN_REPORTED = 155,
+ ATOM_BLUETOOTH_A2DP_AUDIO_OVERRUN_REPORTED = 156,
+ ATOM_BLUETOOTH_DEVICE_RSSI_REPORTED = 157,
+ ATOM_BLUETOOTH_DEVICE_FAILED_CONTACT_COUNTER_REPORTED = 158,
+ ATOM_BLUETOOTH_DEVICE_TX_POWER_LEVEL_REPORTED = 159,
+ ATOM_BLUETOOTH_HCI_TIMEOUT_REPORTED = 160,
+ ATOM_BLUETOOTH_QUALITY_REPORT_REPORTED = 161,
+ ATOM_BLUETOOTH_DEVICE_INFO_REPORTED = 162,
+ ATOM_BLUETOOTH_REMOTE_VERSION_INFO_REPORTED = 163,
+ ATOM_BLUETOOTH_SDP_ATTRIBUTE_REPORTED = 164,
+ ATOM_BLUETOOTH_BOND_STATE_CHANGED = 165,
+ ATOM_BLUETOOTH_CLASSIC_PAIRING_EVENT_REPORTED = 166,
+ ATOM_BLUETOOTH_SMP_PAIRING_EVENT_REPORTED = 167,
+ ATOM_SCREEN_TIMEOUT_EXTENSION_REPORTED = 168,
+ ATOM_PROCESS_START_TIME = 169,
+ ATOM_PERMISSION_GRANT_REQUEST_RESULT_REPORTED = 170,
+ ATOM_BLUETOOTH_SOCKET_CONNECTION_STATE_CHANGED = 171,
+ ATOM_DEVICE_IDENTIFIER_ACCESS_DENIED = 172,
+ ATOM_BUBBLE_DEVELOPER_ERROR_REPORTED = 173,
+ ATOM_ASSIST_GESTURE_STAGE_REPORTED = 174,
+ ATOM_ASSIST_GESTURE_FEEDBACK_REPORTED = 175,
+ ATOM_ASSIST_GESTURE_PROGRESS_REPORTED = 176,
+ ATOM_TOUCH_GESTURE_CLASSIFIED = 177,
+ ATOM_HIDDEN_API_USED = 178,
+ ATOM_STYLE_UI_CHANGED = 179,
+ ATOM_PRIVACY_INDICATORS_INTERACTED = 180,
+ ATOM_APP_INSTALL_ON_EXTERNAL_STORAGE_REPORTED = 181,
+ ATOM_NETWORK_STACK_REPORTED = 182,
+ ATOM_APP_MOVED_STORAGE_REPORTED = 183,
+ ATOM_BIOMETRIC_ENROLLED = 184,
+ ATOM_SYSTEM_SERVER_WATCHDOG_OCCURRED = 185,
+ ATOM_TOMB_STONE_OCCURRED = 186,
+ ATOM_BLUETOOTH_CLASS_OF_DEVICE_REPORTED = 187,
+ ATOM_INTELLIGENCE_EVENT_REPORTED = 188,
+ ATOM_THERMAL_THROTTLING_SEVERITY_STATE_CHANGED = 189,
+ ATOM_ROLE_REQUEST_RESULT_REPORTED = 190,
+ ATOM_MEDIAMETRICS_AUDIOPOLICY_REPORTED = 191,
+ ATOM_MEDIAMETRICS_AUDIORECORD_REPORTED = 192,
+ ATOM_MEDIAMETRICS_AUDIOTHREAD_REPORTED = 193,
+ ATOM_MEDIAMETRICS_AUDIOTRACK_REPORTED = 194,
+ ATOM_MEDIAMETRICS_CODEC_REPORTED = 195,
+ ATOM_MEDIAMETRICS_DRM_WIDEVINE_REPORTED = 196,
+ ATOM_MEDIAMETRICS_EXTRACTOR_REPORTED = 197,
+ ATOM_MEDIAMETRICS_MEDIADRM_REPORTED = 198,
+ ATOM_MEDIAMETRICS_NUPLAYER_REPORTED = 199,
+ ATOM_MEDIAMETRICS_RECORDER_REPORTED = 200,
+ ATOM_MEDIAMETRICS_DRMMANAGER_REPORTED = 201,
+ ATOM_CAR_POWER_STATE_CHANGED = 203,
+ ATOM_GARAGE_MODE_INFO = 204,
+ ATOM_TEST_ATOM_REPORTED = 205,
+ ATOM_CONTENT_CAPTURE_CALLER_MISMATCH_REPORTED = 206,
+ ATOM_CONTENT_CAPTURE_SERVICE_EVENTS = 207,
+ ATOM_CONTENT_CAPTURE_SESSION_EVENTS = 208,
+ ATOM_CONTENT_CAPTURE_FLUSHED = 209,
+ ATOM_LOCATION_MANAGER_API_USAGE_REPORTED = 210,
+ ATOM_REVIEW_PERMISSIONS_FRAGMENT_RESULT_REPORTED = 211,
+ ATOM_RUNTIME_PERMISSIONS_UPGRADE_RESULT = 212,
+ ATOM_GRANT_PERMISSIONS_ACTIVITY_BUTTON_ACTIONS = 213,
+ ATOM_LOCATION_ACCESS_CHECK_NOTIFICATION_ACTION = 214,
+ ATOM_APP_PERMISSION_FRAGMENT_ACTION_REPORTED = 215,
+ ATOM_APP_PERMISSION_FRAGMENT_VIEWED = 216,
+ ATOM_APP_PERMISSIONS_FRAGMENT_VIEWED = 217,
+ ATOM_PERMISSION_APPS_FRAGMENT_VIEWED = 218,
+ ATOM_TEXT_SELECTION_EVENT = 219,
+ ATOM_TEXT_LINKIFY_EVENT = 220,
+ ATOM_CONVERSATION_ACTIONS_EVENT = 221,
+ ATOM_LANGUAGE_DETECTION_EVENT = 222,
+ ATOM_EXCLUSION_RECT_STATE_CHANGED = 223,
+ ATOM_BACK_GESTURE_REPORTED_REPORTED = 224,
+ ATOM_UPDATE_ENGINE_UPDATE_ATTEMPT_REPORTED = 225,
+ ATOM_UPDATE_ENGINE_SUCCESSFUL_UPDATE_REPORTED = 226,
+ ATOM_CAMERA_ACTION_EVENT = 227,
+ ATOM_APP_COMPATIBILITY_CHANGE_REPORTED = 228,
+ ATOM_PERFETTO_UPLOADED = 229,
+ ATOM_VMS_CLIENT_CONNECTION_STATE_CHANGED = 230,
+ ATOM_MEDIA_PROVIDER_SCAN_OCCURRED = 233,
+ ATOM_MEDIA_CONTENT_DELETED = 234,
+ ATOM_MEDIA_PROVIDER_PERMISSION_REQUESTED = 235,
+ ATOM_MEDIA_PROVIDER_SCHEMA_CHANGED = 236,
+ ATOM_MEDIA_PROVIDER_IDLE_MAINTENANCE_FINISHED = 237,
+ ATOM_REBOOT_ESCROW_RECOVERY_REPORTED = 238,
+ ATOM_BOOT_TIME_EVENT_DURATION_REPORTED = 239,
+ ATOM_BOOT_TIME_EVENT_ELAPSED_TIME_REPORTED = 240,
+ ATOM_BOOT_TIME_EVENT_UTC_TIME_REPORTED = 241,
+ ATOM_BOOT_TIME_EVENT_ERROR_CODE_REPORTED = 242,
+ ATOM_USERSPACE_REBOOT_REPORTED = 243,
+ ATOM_NOTIFICATION_REPORTED = 244,
+ ATOM_NOTIFICATION_PANEL_REPORTED = 245,
+ ATOM_NOTIFICATION_CHANNEL_MODIFIED = 246,
+ ATOM_INTEGRITY_CHECK_RESULT_REPORTED = 247,
+ ATOM_INTEGRITY_RULES_PUSHED = 248,
+ ATOM_CB_MESSAGE_REPORTED = 249,
+ ATOM_CB_MESSAGE_ERROR = 250,
+ ATOM_WIFI_HEALTH_STAT_REPORTED = 251,
+ ATOM_WIFI_FAILURE_STAT_REPORTED = 252,
+ ATOM_WIFI_CONNECTION_RESULT_REPORTED = 253,
+ ATOM_APP_FREEZE_CHANGED = 254,
+ ATOM_SNAPSHOT_MERGE_REPORTED = 255,
+ ATOM_FOREGROUND_SERVICE_APP_OP_SESSION_ENDED = 256,
+ ATOM_DISPLAY_JANK_REPORTED = 257,
+ ATOM_APP_STANDBY_BUCKET_CHANGED = 258,
+ ATOM_SHARESHEET_STARTED = 259,
+ ATOM_RANKING_SELECTED = 260,
+ ATOM_TVSETTINGS_UI_INTERACTED = 261,
+ ATOM_LAUNCHER_SNAPSHOT = 262,
+ ATOM_PACKAGE_INSTALLER_V2_REPORTED = 263,
+ ATOM_USER_LIFECYCLE_JOURNEY_REPORTED = 264,
+ ATOM_USER_LIFECYCLE_EVENT_OCCURRED = 265,
+ ATOM_ACCESSIBILITY_SHORTCUT_REPORTED = 266,
+ ATOM_ACCESSIBILITY_SERVICE_REPORTED = 267,
+ ATOM_DOCS_UI_DRAG_AND_DROP_REPORTED = 268,
+ ATOM_APP_USAGE_EVENT_OCCURRED = 269,
+ ATOM_AUTO_REVOKE_NOTIFICATION_CLICKED = 270,
+ ATOM_AUTO_REVOKE_FRAGMENT_APP_VIEWED = 271,
+ ATOM_AUTO_REVOKED_APP_INTERACTION = 272,
+ ATOM_APP_PERMISSION_GROUPS_FRAGMENT_AUTO_REVOKE_ACTION = 273,
+ ATOM_EVS_USAGE_STATS_REPORTED = 274,
+ ATOM_AUDIO_POWER_USAGE_DATA_REPORTED = 275,
+ ATOM_TV_TUNER_STATE_CHANGED = 276,
+ ATOM_MEDIAOUTPUT_OP_SWITCH_REPORTED = 277,
+ ATOM_CB_MESSAGE_FILTERED = 278,
+ ATOM_TV_TUNER_DVR_STATUS = 279,
+ ATOM_TV_CAS_SESSION_OPEN_STATUS = 280,
+ ATOM_ASSISTANT_INVOCATION_REPORTED = 281,
+ ATOM_DISPLAY_WAKE_REPORTED = 282,
+ ATOM_CAR_USER_HAL_MODIFY_USER_REQUEST_REPORTED = 283,
+ ATOM_CAR_USER_HAL_MODIFY_USER_RESPONSE_REPORTED = 284,
+ ATOM_CAR_USER_HAL_POST_SWITCH_RESPONSE_REPORTED = 285,
+ ATOM_CAR_USER_HAL_INITIAL_USER_INFO_REQUEST_REPORTED = 286,
+ ATOM_CAR_USER_HAL_INITIAL_USER_INFO_RESPONSE_REPORTED = 287,
+ ATOM_CAR_USER_HAL_USER_ASSOCIATION_REQUEST_REPORTED = 288,
+ ATOM_CAR_USER_HAL_SET_USER_ASSOCIATION_RESPONSE_REPORTED = 289,
+ ATOM_NETWORK_IP_PROVISIONING_REPORTED = 290,
+ ATOM_NETWORK_DHCP_RENEW_REPORTED = 291,
+ ATOM_NETWORK_VALIDATION_REPORTED = 292,
+ ATOM_NETWORK_STACK_QUIRK_REPORTED = 293,
+ ATOM_MEDIAMETRICS_AUDIORECORDDEVICEUSAGE_REPORTED = 294,
+ ATOM_MEDIAMETRICS_AUDIOTHREADDEVICEUSAGE_REPORTED = 295,
+ ATOM_MEDIAMETRICS_AUDIOTRACKDEVICEUSAGE_REPORTED = 296,
+ ATOM_MEDIAMETRICS_AUDIODEVICECONNECTION_REPORTED = 297,
+ ATOM_BLOB_COMMITTED = 298,
+ ATOM_BLOB_LEASED = 299,
+ ATOM_BLOB_OPENED = 300,
+ ATOM_CONTACTS_PROVIDER_STATUS_REPORTED = 301,
+ ATOM_KEYSTORE_KEY_EVENT_REPORTED = 302,
+ ATOM_NETWORK_TETHERING_REPORTED = 303,
+ ATOM_IME_TOUCH_REPORTED = 304,
+ ATOM_UI_INTERACTION_FRAME_INFO_REPORTED = 305,
+ ATOM_UI_ACTION_LATENCY_REPORTED = 306,
+ ATOM_WIFI_DISCONNECT_REPORTED = 307,
+ ATOM_WIFI_CONNECTION_STATE_CHANGED = 308,
+ ATOM_HDMI_CEC_ACTIVE_SOURCE_CHANGED = 309,
+ ATOM_HDMI_CEC_MESSAGE_REPORTED = 310,
+ ATOM_AIRPLANE_MODE = 311,
+ ATOM_MODEM_RESTART = 312,
+ ATOM_CARRIER_ID_MISMATCH_REPORTED = 313,
+ ATOM_CARRIER_ID_TABLE_UPDATED = 314,
+ ATOM_DATA_STALL_RECOVERY_REPORTED = 315,
+ ATOM_MEDIAMETRICS_MEDIAPARSER_REPORTED = 316,
+ ATOM_TLS_HANDSHAKE_REPORTED = 317,
+ ATOM_TEXT_CLASSIFIER_API_USAGE_REPORTED = 318,
+ ATOM_CAR_WATCHDOG_KILL_STATS_REPORTED = 319,
+ ATOM_MEDIAMETRICS_PLAYBACK_REPORTED = 320,
+ ATOM_MEDIA_NETWORK_INFO_CHANGED = 321,
+ ATOM_MEDIA_PLAYBACK_STATE_CHANGED = 322,
+ ATOM_MEDIA_PLAYBACK_ERROR_REPORTED = 323,
+ ATOM_MEDIA_PLAYBACK_TRACK_CHANGED = 324,
+ ATOM_WIFI_SCAN_REPORTED = 325,
+ ATOM_WIFI_PNO_SCAN_REPORTED = 326,
+ ATOM_TIF_TUNE_CHANGED = 327,
+ ATOM_AUTO_ROTATE_REPORTED = 328,
+ ATOM_PERFETTO_TRIGGER = 329,
+ ATOM_TRANSCODING_DATA = 330,
+ ATOM_IMS_SERVICE_ENTITLEMENT_UPDATED = 331,
+ ATOM_DEVICE_ROTATED = 333,
+ ATOM_SIM_SPECIFIC_SETTINGS_RESTORED = 334,
+ ATOM_TEXT_CLASSIFIER_DOWNLOAD_REPORTED = 335,
+ ATOM_PIN_STORAGE_EVENT = 336,
+ ATOM_FACE_DOWN_REPORTED = 337,
+ ATOM_BLUETOOTH_HAL_CRASH_REASON_REPORTED = 338,
+ ATOM_REBOOT_ESCROW_PREPARATION_REPORTED = 339,
+ ATOM_REBOOT_ESCROW_LSKF_CAPTURE_REPORTED = 340,
+ ATOM_REBOOT_ESCROW_REBOOT_REPORTED = 341,
+ ATOM_BINDER_LATENCY_REPORTED = 342,
+ ATOM_MEDIAMETRICS_AAUDIOSTREAM_REPORTED = 343,
+ ATOM_MEDIA_TRANSCODING_SESSION_ENDED = 344,
+ ATOM_MAGNIFICATION_USAGE_REPORTED = 345,
+ ATOM_MAGNIFICATION_MODE_WITH_IME_ON_REPORTED = 346,
+ ATOM_APP_SEARCH_CALL_STATS_REPORTED = 347,
+ ATOM_APP_SEARCH_PUT_DOCUMENT_STATS_REPORTED = 348,
+ ATOM_DEVICE_CONTROL_CHANGED = 349,
+ ATOM_DEVICE_STATE_CHANGED = 350,
+ ATOM_INPUTDEVICE_REGISTERED = 351,
+ ATOM_SMARTSPACE_CARD_REPORTED = 352,
+ ATOM_AUTH_PROMPT_AUTHENTICATE_INVOKED = 353,
+ ATOM_AUTH_MANAGER_CAN_AUTHENTICATE_INVOKED = 354,
+ ATOM_AUTH_ENROLL_ACTION_INVOKED = 355,
+ ATOM_AUTH_DEPRECATED_API_USED = 356,
+ ATOM_UNATTENDED_REBOOT_OCCURRED = 357,
+ ATOM_LONG_REBOOT_BLOCKING_REPORTED = 358,
+ ATOM_LOCATION_TIME_ZONE_PROVIDER_STATE_CHANGED = 359,
+ ATOM_FDTRACK_EVENT_OCCURRED = 364,
+ ATOM_TIMEOUT_AUTO_EXTENDED_REPORTED = 365,
+ ATOM_ALARM_BATCH_DELIVERED = 367,
+ ATOM_ALARM_SCHEDULED = 368,
+ ATOM_CAR_WATCHDOG_IO_OVERUSE_STATS_REPORTED = 369,
+ ATOM_USER_LEVEL_HIBERNATION_STATE_CHANGED = 370,
+ ATOM_APP_SEARCH_INITIALIZE_STATS_REPORTED = 371,
+ ATOM_APP_SEARCH_QUERY_STATS_REPORTED = 372,
+ ATOM_APP_PROCESS_DIED = 373,
+ ATOM_NETWORK_IP_REACHABILITY_MONITOR_REPORTED = 374,
+ ATOM_SLOW_INPUT_EVENT_REPORTED = 375,
+ ATOM_ANR_OCCURRED_PROCESSING_STARTED = 376,
+ ATOM_APP_SEARCH_REMOVE_STATS_REPORTED = 377,
+ ATOM_MEDIA_CODEC_REPORTED = 378,
+ ATOM_PERMISSION_USAGE_FRAGMENT_INTERACTION = 379,
+ ATOM_PERMISSION_DETAILS_INTERACTION = 380,
+ ATOM_PRIVACY_SENSOR_TOGGLE_INTERACTION = 381,
+ ATOM_PRIVACY_TOGGLE_DIALOG_INTERACTION = 382,
+ ATOM_APP_SEARCH_OPTIMIZE_STATS_REPORTED = 383,
+ ATOM_NON_A11Y_TOOL_SERVICE_WARNING_REPORT = 384,
+ ATOM_APP_SEARCH_SET_SCHEMA_STATS_REPORTED = 385,
+ ATOM_APP_COMPAT_STATE_CHANGED = 386,
+ ATOM_SIZE_COMPAT_RESTART_BUTTON_EVENT_REPORTED = 387,
+ ATOM_SPLITSCREEN_UI_CHANGED = 388,
+ ATOM_NETWORK_DNS_HANDSHAKE_REPORTED = 389,
+ ATOM_BLUETOOTH_CODE_PATH_COUNTER = 390,
+ ATOM_BLUETOOTH_LE_BATCH_SCAN_REPORT_DELAY = 392,
+ ATOM_ACCESSIBILITY_FLOATING_MENU_UI_CHANGED = 393,
+ ATOM_NEURALNETWORKS_COMPILATION_COMPLETED = 394,
+ ATOM_NEURALNETWORKS_EXECUTION_COMPLETED = 395,
+ ATOM_NEURALNETWORKS_COMPILATION_FAILED = 396,
+ ATOM_NEURALNETWORKS_EXECUTION_FAILED = 397,
+ ATOM_CONTEXT_HUB_BOOTED = 398,
+ ATOM_CONTEXT_HUB_RESTARTED = 399,
+ ATOM_CONTEXT_HUB_LOADED_NANOAPP_SNAPSHOT_REPORTED = 400,
+ ATOM_CHRE_CODE_DOWNLOAD_TRANSACTED = 401,
+ ATOM_UWB_SESSION_INITED = 402,
+ ATOM_UWB_SESSION_CLOSED = 403,
+ ATOM_UWB_FIRST_RANGING_RECEIVED = 404,
+ ATOM_UWB_RANGING_MEASUREMENT_RECEIVED = 405,
+ ATOM_TEXT_CLASSIFIER_DOWNLOAD_WORK_SCHEDULED = 406,
+ ATOM_TEXT_CLASSIFIER_DOWNLOAD_WORK_COMPLETED = 407,
+ ATOM_CLIPBOARD_CLEARED = 408,
+ ATOM_VM_CREATION_REQUESTED = 409,
+ ATOM_NEARBY_DEVICE_SCAN_STATE_CHANGED = 410,
+ ATOM_CAMERA_COMPAT_CONTROL_EVENT_REPORTED = 411,
+ ATOM_APPLICATION_LOCALES_CHANGED = 412,
+ ATOM_MEDIAMETRICS_AUDIOTRACKSTATUS_REPORTED = 413,
+ ATOM_FOLD_STATE_DURATION_REPORTED = 414,
+ ATOM_LOCATION_TIME_ZONE_PROVIDER_CONTROLLER_STATE_CHANGED = 415,
+ ATOM_DISPLAY_HBM_STATE_CHANGED = 416,
+ ATOM_DISPLAY_HBM_BRIGHTNESS_CHANGED = 417,
+ ATOM_PERSISTENT_URI_PERMISSIONS_FLUSHED = 418,
+ ATOM_EARLY_BOOT_COMP_OS_ARTIFACTS_CHECK_REPORTED = 419,
+ ATOM_VBMETA_DIGEST_REPORTED = 420,
+ ATOM_APEX_INFO_GATHERED = 421,
+ ATOM_PVM_INFO_GATHERED = 422,
+ ATOM_WEAR_SETTINGS_UI_INTERACTED = 423,
+ ATOM_TRACING_SERVICE_REPORT_EVENT = 424,
+ ATOM_MEDIAMETRICS_AUDIORECORDSTATUS_REPORTED = 425,
+ ATOM_LAUNCHER_LATENCY = 426,
+ ATOM_DROPBOX_ENTRY_DROPPED = 427,
+ ATOM_WIFI_P2P_CONNECTION_REPORTED = 428,
+ ATOM_GAME_STATE_CHANGED = 429,
+ ATOM_HOTWORD_DETECTOR_CREATE_REQUESTED = 430,
+ ATOM_HOTWORD_DETECTION_SERVICE_INIT_RESULT_REPORTED = 431,
+ ATOM_HOTWORD_DETECTION_SERVICE_RESTARTED = 432,
+ ATOM_HOTWORD_DETECTOR_KEYPHRASE_TRIGGERED = 433,
+ ATOM_HOTWORD_DETECTOR_EVENTS = 434,
+ ATOM_AD_SERVICES_API_CALLED = 435,
+ ATOM_AD_SERVICES_MESUREMENT_REPORTS_UPLOADED = 436,
+ ATOM_BOOT_COMPLETED_BROADCAST_COMPLETION_LATENCY_REPORTED = 437,
+ ATOM_CONTACTS_INDEXER_UPDATE_STATS_REPORTED = 440,
+ ATOM_APP_BACKGROUND_RESTRICTIONS_INFO = 441,
+ ATOM_MMS_SMS_PROVIDER_GET_THREAD_ID_FAILED = 442,
+ ATOM_MMS_SMS_DATABASE_HELPER_ON_UPGRADE_FAILED = 443,
+ ATOM_PERMISSION_REMINDER_NOTIFICATION_INTERACTED = 444,
+ ATOM_RECENT_PERMISSION_DECISIONS_INTERACTED = 445,
+ ATOM_GNSS_PSDS_DOWNLOAD_REPORTED = 446,
+ ATOM_LE_AUDIO_CONNECTION_SESSION_REPORTED = 447,
+ ATOM_LE_AUDIO_BROADCAST_SESSION_REPORTED = 448,
+ ATOM_DREAM_UI_EVENT_REPORTED = 449,
+ ATOM_TASK_MANAGER_EVENT_REPORTED = 450,
+ ATOM_CDM_ASSOCIATION_ACTION = 451,
+ ATOM_MAGNIFICATION_TRIPLE_TAP_AND_HOLD_ACTIVATED_SESSION_REPORTED = 452,
+ ATOM_MAGNIFICATION_FOLLOW_TYPING_FOCUS_ACTIVATED_SESSION_REPORTED = 453,
+ ATOM_ACCESSIBILITY_TEXT_READING_OPTIONS_CHANGED = 454,
+ ATOM_WIFI_SETUP_FAILURE_CRASH_REPORTED = 455,
+ ATOM_UWB_DEVICE_ERROR_REPORTED = 456,
+ ATOM_ISOLATED_COMPILATION_SCHEDULED = 457,
+ ATOM_ISOLATED_COMPILATION_ENDED = 458,
+ ATOM_ONS_OPPORTUNISTIC_ESIM_PROVISIONING_COMPLETE = 459,
+ ATOM_SYSTEM_SERVER_PRE_WATCHDOG_OCCURRED = 460,
+ ATOM_TELEPHONY_ANOMALY_DETECTED = 461,
+ ATOM_LETTERBOX_POSITION_CHANGED = 462,
+ ATOM_REMOTE_KEY_PROVISIONING_ATTEMPT = 463,
+ ATOM_REMOTE_KEY_PROVISIONING_NETWORK_INFO = 464,
+ ATOM_REMOTE_KEY_PROVISIONING_TIMING = 465,
+ ATOM_MEDIAOUTPUT_OP_INTERACTION_REPORT = 466,
+ ATOM_SYNC_EXEMPTION_OCCURRED = 468,
+ ATOM_AUTOFILL_PRESENTATION_EVENT_REPORTED = 469,
+ ATOM_DOCK_STATE_CHANGED = 470,
+ ATOM_SAFETY_SOURCE_STATE_COLLECTED = 471,
+ ATOM_SAFETY_CENTER_SYSTEM_EVENT_REPORTED = 472,
+ ATOM_SAFETY_CENTER_INTERACTION_REPORTED = 473,
+ ATOM_SETTINGS_PROVIDER_SETTING_CHANGED = 474,
+ ATOM_BROADCAST_DELIVERY_EVENT_REPORTED = 475,
+ ATOM_SERVICE_REQUEST_EVENT_REPORTED = 476,
+ ATOM_PROVIDER_ACQUISITION_EVENT_REPORTED = 477,
+ ATOM_BLUETOOTH_DEVICE_NAME_REPORTED = 478,
+ ATOM_CB_CONFIG_UPDATED = 479,
+ ATOM_CB_MODULE_ERROR_REPORTED = 480,
+ ATOM_CB_SERVICE_FEATURE_CHANGED = 481,
+ ATOM_CB_RECEIVER_FEATURE_CHANGED = 482,
+ ATOM_JSSCRIPTENGINE_LATENCY_REPORTED = 483,
+ ATOM_PRIVACY_SIGNAL_NOTIFICATION_INTERACTION = 484,
+ ATOM_PRIVACY_SIGNAL_ISSUE_CARD_INTERACTION = 485,
+ ATOM_PRIVACY_SIGNALS_JOB_FAILURE = 486,
+ ATOM_VIBRATION_REPORTED = 487,
+ ATOM_UWB_RANGING_START = 489,
+ ATOM_MOBILE_DATA_DOWNLOAD_FILE_GROUP_STATUS_REPORTED = 490,
+ ATOM_APP_COMPACTED_V2 = 491,
+ ATOM_AD_SERVICES_SETTINGS_USAGE_REPORTED = 493,
+ ATOM_DISPLAY_BRIGHTNESS_CHANGED = 494,
+ ATOM_ACTIVITY_ACTION_BLOCKED = 495,
+ ATOM_BACKGROUND_FETCH_PROCESS_REPORTED = 496,
+ ATOM_UPDATE_CUSTOM_AUDIENCE_PROCESS_REPORTED = 497,
+ ATOM_RUN_AD_BIDDING_PROCESS_REPORTED = 498,
+ ATOM_RUN_AD_SCORING_PROCESS_REPORTED = 499,
+ ATOM_RUN_AD_SELECTION_PROCESS_REPORTED = 500,
+ ATOM_RUN_AD_BIDDING_PER_CA_PROCESS_REPORTED = 501,
+ ATOM_MOBILE_DATA_DOWNLOAD_DOWNLOAD_RESULT_REPORTED = 502,
+ ATOM_MOBILE_DATA_DOWNLOAD_FILE_GROUP_STORAGE_STATS_REPORTED = 503,
+ ATOM_NETWORK_DNS_SERVER_SUPPORT_REPORTED = 504,
+ ATOM_VM_BOOTED = 505,
+ ATOM_VM_EXITED = 506,
+ ATOM_AMBIENT_BRIGHTNESS_STATS_REPORTED = 507,
+ ATOM_MEDIAMETRICS_SPATIALIZERCAPABILITIES_REPORTED = 508,
+ ATOM_MEDIAMETRICS_SPATIALIZERDEVICEENABLED_REPORTED = 509,
+ ATOM_MEDIAMETRICS_HEADTRACKERDEVICEENABLED_REPORTED = 510,
+ ATOM_MEDIAMETRICS_HEADTRACKERDEVICESUPPORTED_REPORTED = 511,
+ ATOM_AD_SERVICES_MEASUREMENT_REGISTRATIONS = 512,
+ ATOM_HEARING_AID_INFO_REPORTED = 513,
+ ATOM_DEVICE_WIDE_JOB_CONSTRAINT_CHANGED = 514,
+ ATOM_AMBIENT_MODE_CHANGED = 515,
+ ATOM_ANR_LATENCY_REPORTED = 516,
+ ATOM_RESOURCE_API_INFO = 517,
+ ATOM_SYSTEM_DEFAULT_NETWORK_CHANGED = 518,
+ ATOM_IWLAN_SETUP_DATA_CALL_RESULT_REPORTED = 519,
+ ATOM_IWLAN_PDN_DISCONNECTED_REASON_REPORTED = 520,
+ ATOM_AIRPLANE_MODE_SESSION_REPORTED = 521,
+ ATOM_VM_CPU_STATUS_REPORTED = 522,
+ ATOM_VM_MEM_STATUS_REPORTED = 523,
+ ATOM_PACKAGE_INSTALLATION_SESSION_REPORTED = 524,
+ ATOM_DEFAULT_NETWORK_REMATCH_INFO = 525,
+ ATOM_NETWORK_SELECTION_PERFORMANCE = 526,
+ ATOM_NETWORK_NSD_REPORTED = 527,
+ ATOM_BLUETOOTH_DISCONNECTION_REASON_REPORTED = 529,
+ ATOM_BLUETOOTH_LOCAL_VERSIONS_REPORTED = 530,
+ ATOM_BLUETOOTH_REMOTE_SUPPORTED_FEATURES_REPORTED = 531,
+ ATOM_BLUETOOTH_LOCAL_SUPPORTED_FEATURES_REPORTED = 532,
+ ATOM_BLUETOOTH_GATT_APP_INFO = 533,
+ ATOM_BRIGHTNESS_CONFIGURATION_UPDATED = 534,
+ ATOM_AD_SERVICES_GET_TOPICS_REPORTED = 535,
+ ATOM_AD_SERVICES_EPOCH_COMPUTATION_GET_TOP_TOPICS_REPORTED = 536,
+ ATOM_AD_SERVICES_EPOCH_COMPUTATION_CLASSIFIER_REPORTED = 537,
+ ATOM_WEAR_MEDIA_OUTPUT_SWITCHER_LAUNCHED = 538,
+ ATOM_WEAR_MEDIA_OUTPUT_SWITCHER_FINISHED = 539,
+ ATOM_WEAR_MEDIA_OUTPUT_SWITCHER_CONNECTION_REPORTED = 540,
+ ATOM_WEAR_MEDIA_OUTPUT_SWITCHER_DEVICE_SCAN_TRIGGERED = 541,
+ ATOM_WEAR_MEDIA_OUTPUT_SWITCHER_FIRST_DEVICE_SCAN_LATENCY = 542,
+ ATOM_WEAR_MEDIA_OUTPUT_SWITCHER_CONNECT_DEVICE_LATENCY = 543,
+ ATOM_PACKAGE_MANAGER_SNAPSHOT_REPORTED = 544,
+ ATOM_PACKAGE_MANAGER_APPS_FILTER_CACHE_BUILD_REPORTED = 545,
+ ATOM_PACKAGE_MANAGER_APPS_FILTER_CACHE_UPDATE_REPORTED = 546,
+ ATOM_LAUNCHER_IMPRESSION_EVENT = 547,
+ ATOM_WEAR_MEDIA_OUTPUT_SWITCHER_ALL_DEVICES_SCAN_LATENCY = 549,
+ ATOM_WS_WATCH_FACE_EDITED = 551,
+ ATOM_WS_WATCH_FACE_FAVORITE_ACTION_REPORTED = 552,
+ ATOM_WS_WATCH_FACE_SET_ACTION_REPORTED = 553,
+ ATOM_PACKAGE_UNINSTALLATION_REPORTED = 554,
+ ATOM_GAME_MODE_CHANGED = 555,
+ ATOM_GAME_MODE_CONFIGURATION_CHANGED = 556,
+ ATOM_BEDTIME_MODE_STATE_CHANGED = 557,
+ ATOM_NETWORK_SLICE_SESSION_ENDED = 558,
+ ATOM_NETWORK_SLICE_DAILY_DATA_USAGE_REPORTED = 559,
+ ATOM_NFC_TAG_TYPE_OCCURRED = 560,
+ ATOM_NFC_AID_CONFLICT_OCCURRED = 561,
+ ATOM_NFC_READER_CONFLICT_OCCURRED = 562,
+ ATOM_WS_TILE_LIST_CHANGED = 563,
+ ATOM_GET_TYPE_ACCESSED_WITHOUT_PERMISSION = 564,
+ ATOM_MOBILE_BUNDLED_APP_INFO_GATHERED = 566,
+ ATOM_WS_WATCH_FACE_COMPLICATION_SET_CHANGED = 567,
+ ATOM_MEDIA_DRM_CREATED = 568,
+ ATOM_MEDIA_DRM_ERRORED = 569,
+ ATOM_MEDIA_DRM_SESSION_OPENED = 570,
+ ATOM_MEDIA_DRM_SESSION_CLOSED = 571,
+ ATOM_USER_SELECTED_RESOLUTION = 572,
+ ATOM_UNSAFE_INTENT_EVENT_REPORTED = 573,
+ ATOM_PERFORMANCE_HINT_SESSION_REPORTED = 574,
+ ATOM_MEDIAMETRICS_MIDI_DEVICE_CLOSE_REPORTED = 576,
+ ATOM_BIOMETRIC_TOUCH_REPORTED = 577,
+ ATOM_HOTWORD_AUDIO_EGRESS_EVENT_REPORTED = 578,
+ ATOM_APP_SEARCH_SCHEMA_MIGRATION_STATS_REPORTED = 579,
+ ATOM_LOCATION_ENABLED_STATE_CHANGED = 580,
+ ATOM_IME_REQUEST_FINISHED = 581,
+ ATOM_USB_COMPLIANCE_WARNINGS_REPORTED = 582,
+ ATOM_APP_SUPPORTED_LOCALES_CHANGED = 583,
+ ATOM_GRAMMATICAL_INFLECTION_CHANGED = 584,
+ ATOM_MEDIA_PROVIDER_VOLUME_RECOVERY_REPORTED = 586,
+ ATOM_BIOMETRIC_PROPERTIES_COLLECTED = 587,
+ ATOM_KERNEL_WAKEUP_ATTRIBUTED = 588,
+ ATOM_SCREEN_STATE_CHANGED_V2 = 589,
+ ATOM_WS_BACKUP_ACTION_REPORTED = 590,
+ ATOM_WS_RESTORE_ACTION_REPORTED = 591,
+ ATOM_DEVICE_LOG_ACCESS_EVENT_REPORTED = 592,
+ ATOM_MEDIA_SESSION_UPDATED = 594,
+ ATOM_WEAR_OOBE_STATE_CHANGED = 595,
+ ATOM_WS_NOTIFICATION_UPDATED = 596,
+ ATOM_NETWORK_VALIDATION_FAILURE_STATS_DAILY_REPORTED = 601,
+ ATOM_WS_COMPLICATION_TAPPED = 602,
+ ATOM_WS_WEAR_TIME_SESSION = 610,
+ ATOM_WIFI_BYTES_TRANSFER = 10000,
+ ATOM_WIFI_BYTES_TRANSFER_BY_FG_BG = 10001,
+ ATOM_MOBILE_BYTES_TRANSFER = 10002,
+ ATOM_MOBILE_BYTES_TRANSFER_BY_FG_BG = 10003,
+ ATOM_BLUETOOTH_BYTES_TRANSFER = 10006,
+ ATOM_KERNEL_WAKELOCK = 10004,
+ ATOM_SUBSYSTEM_SLEEP_STATE = 10005,
+ ATOM_CPU_TIME_PER_UID = 10009,
+ ATOM_CPU_TIME_PER_UID_FREQ = 10010,
+ ATOM_WIFI_ACTIVITY_INFO = 10011,
+ ATOM_MODEM_ACTIVITY_INFO = 10012,
+ ATOM_BLUETOOTH_ACTIVITY_INFO = 10007,
+ ATOM_PROCESS_MEMORY_STATE = 10013,
+ ATOM_SYSTEM_ELAPSED_REALTIME = 10014,
+ ATOM_SYSTEM_UPTIME = 10015,
+ ATOM_CPU_ACTIVE_TIME = 10016,
+ ATOM_CPU_CLUSTER_TIME = 10017,
+ ATOM_DISK_SPACE = 10018,
+ ATOM_REMAINING_BATTERY_CAPACITY = 10019,
+ ATOM_FULL_BATTERY_CAPACITY = 10020,
+ ATOM_TEMPERATURE = 10021,
+ ATOM_BINDER_CALLS = 10022,
+ ATOM_BINDER_CALLS_EXCEPTIONS = 10023,
+ ATOM_LOOPER_STATS = 10024,
+ ATOM_DISK_STATS = 10025,
+ ATOM_DIRECTORY_USAGE = 10026,
+ ATOM_APP_SIZE = 10027,
+ ATOM_CATEGORY_SIZE = 10028,
+ ATOM_PROC_STATS = 10029,
+ ATOM_BATTERY_VOLTAGE = 10030,
+ ATOM_NUM_FINGERPRINTS_ENROLLED = 10031,
+ ATOM_DISK_IO = 10032,
+ ATOM_POWER_PROFILE = 10033,
+ ATOM_PROC_STATS_PKG_PROC = 10034,
+ ATOM_PROCESS_CPU_TIME = 10035,
+ ATOM_CPU_TIME_PER_THREAD_FREQ = 10037,
+ ATOM_ON_DEVICE_POWER_MEASUREMENT = 10038,
+ ATOM_DEVICE_CALCULATED_POWER_USE = 10039,
+ ATOM_PROCESS_MEMORY_HIGH_WATER_MARK = 10042,
+ ATOM_BATTERY_LEVEL = 10043,
+ ATOM_BUILD_INFORMATION = 10044,
+ ATOM_BATTERY_CYCLE_COUNT = 10045,
+ ATOM_DEBUG_ELAPSED_CLOCK = 10046,
+ ATOM_DEBUG_FAILING_ELAPSED_CLOCK = 10047,
+ ATOM_NUM_FACES_ENROLLED = 10048,
+ ATOM_ROLE_HOLDER = 10049,
+ ATOM_DANGEROUS_PERMISSION_STATE = 10050,
+ ATOM_TRAIN_INFO = 10051,
+ ATOM_TIME_ZONE_DATA_INFO = 10052,
+ ATOM_EXTERNAL_STORAGE_INFO = 10053,
+ ATOM_GPU_STATS_GLOBAL_INFO = 10054,
+ ATOM_GPU_STATS_APP_INFO = 10055,
+ ATOM_SYSTEM_ION_HEAP_SIZE = 10056,
+ ATOM_APPS_ON_EXTERNAL_STORAGE_INFO = 10057,
+ ATOM_FACE_SETTINGS = 10058,
+ ATOM_COOLING_DEVICE = 10059,
+ ATOM_APP_OPS = 10060,
+ ATOM_PROCESS_SYSTEM_ION_HEAP_SIZE = 10061,
+ ATOM_SURFACEFLINGER_STATS_GLOBAL_INFO = 10062,
+ ATOM_SURFACEFLINGER_STATS_LAYER_INFO = 10063,
+ ATOM_PROCESS_MEMORY_SNAPSHOT = 10064,
+ ATOM_VMS_CLIENT_STATS = 10065,
+ ATOM_NOTIFICATION_REMOTE_VIEWS = 10066,
+ ATOM_DANGEROUS_PERMISSION_STATE_SAMPLED = 10067,
+ ATOM_GRAPHICS_STATS = 10068,
+ ATOM_RUNTIME_APP_OP_ACCESS = 10069,
+ ATOM_ION_HEAP_SIZE = 10070,
+ ATOM_PACKAGE_NOTIFICATION_PREFERENCES = 10071,
+ ATOM_PACKAGE_NOTIFICATION_CHANNEL_PREFERENCES = 10072,
+ ATOM_PACKAGE_NOTIFICATION_CHANNEL_GROUP_PREFERENCES = 10073,
+ ATOM_GNSS_STATS = 10074,
+ ATOM_ATTRIBUTED_APP_OPS = 10075,
+ ATOM_VOICE_CALL_SESSION = 10076,
+ ATOM_VOICE_CALL_RAT_USAGE = 10077,
+ ATOM_SIM_SLOT_STATE = 10078,
+ ATOM_SUPPORTED_RADIO_ACCESS_FAMILY = 10079,
+ ATOM_SETTING_SNAPSHOT = 10080,
+ ATOM_BLOB_INFO = 10081,
+ ATOM_DATA_USAGE_BYTES_TRANSFER = 10082,
+ ATOM_BYTES_TRANSFER_BY_TAG_AND_METERED = 10083,
+ ATOM_DND_MODE_RULE = 10084,
+ ATOM_GENERAL_EXTERNAL_STORAGE_ACCESS_STATS = 10085,
+ ATOM_INCOMING_SMS = 10086,
+ ATOM_OUTGOING_SMS = 10087,
+ ATOM_CARRIER_ID_TABLE_VERSION = 10088,
+ ATOM_DATA_CALL_SESSION = 10089,
+ ATOM_CELLULAR_SERVICE_STATE = 10090,
+ ATOM_CELLULAR_DATA_SERVICE_SWITCH = 10091,
+ ATOM_SYSTEM_MEMORY = 10092,
+ ATOM_IMS_REGISTRATION_TERMINATION = 10093,
+ ATOM_IMS_REGISTRATION_STATS = 10094,
+ ATOM_CPU_TIME_PER_CLUSTER_FREQ = 10095,
+ ATOM_CPU_CYCLES_PER_UID_CLUSTER = 10096,
+ ATOM_DEVICE_ROTATED_DATA = 10097,
+ ATOM_CPU_CYCLES_PER_THREAD_GROUP_CLUSTER = 10098,
+ ATOM_MEDIA_DRM_ACTIVITY_INFO = 10099,
+ ATOM_OEM_MANAGED_BYTES_TRANSFER = 10100,
+ ATOM_GNSS_POWER_STATS = 10101,
+ ATOM_TIME_ZONE_DETECTOR_STATE = 10102,
+ ATOM_KEYSTORE2_STORAGE_STATS = 10103,
+ ATOM_RKP_POOL_STATS = 10104,
+ ATOM_PROCESS_DMABUF_MEMORY = 10105,
+ ATOM_PENDING_ALARM_INFO = 10106,
+ ATOM_USER_LEVEL_HIBERNATED_APPS = 10107,
+ ATOM_LAUNCHER_LAYOUT_SNAPSHOT = 10108,
+ ATOM_GLOBAL_HIBERNATED_APPS = 10109,
+ ATOM_INPUT_EVENT_LATENCY_SKETCH = 10110,
+ ATOM_BATTERY_USAGE_STATS_BEFORE_RESET = 10111,
+ ATOM_BATTERY_USAGE_STATS_SINCE_RESET = 10112,
+ ATOM_BATTERY_USAGE_STATS_SINCE_RESET_USING_POWER_PROFILE_MODEL = 10113,
+ ATOM_INSTALLED_INCREMENTAL_PACKAGE = 10114,
+ ATOM_TELEPHONY_NETWORK_REQUESTS = 10115,
+ ATOM_APP_SEARCH_STORAGE_INFO = 10116,
+ ATOM_VMSTAT = 10117,
+ ATOM_KEYSTORE2_KEY_CREATION_WITH_GENERAL_INFO = 10118,
+ ATOM_KEYSTORE2_KEY_CREATION_WITH_AUTH_INFO = 10119,
+ ATOM_KEYSTORE2_KEY_CREATION_WITH_PURPOSE_AND_MODES_INFO = 10120,
+ ATOM_KEYSTORE2_ATOM_WITH_OVERFLOW = 10121,
+ ATOM_KEYSTORE2_KEY_OPERATION_WITH_PURPOSE_AND_MODES_INFO = 10122,
+ ATOM_KEYSTORE2_KEY_OPERATION_WITH_GENERAL_INFO = 10123,
+ ATOM_RKP_ERROR_STATS = 10124,
+ ATOM_KEYSTORE2_CRASH_STATS = 10125,
+ ATOM_VENDOR_APEX_INFO = 10126,
+ ATOM_ACCESSIBILITY_SHORTCUT_STATS = 10127,
+ ATOM_ACCESSIBILITY_FLOATING_MENU_STATS = 10128,
+ ATOM_DATA_USAGE_BYTES_TRANSFER_V2 = 10129,
+ ATOM_MEDIA_CAPABILITIES = 10130,
+ ATOM_CAR_WATCHDOG_SYSTEM_IO_USAGE_SUMMARY = 10131,
+ ATOM_CAR_WATCHDOG_UID_IO_USAGE_SUMMARY = 10132,
+ ATOM_IMS_REGISTRATION_FEATURE_TAG_STATS = 10133,
+ ATOM_RCS_CLIENT_PROVISIONING_STATS = 10134,
+ ATOM_RCS_ACS_PROVISIONING_STATS = 10135,
+ ATOM_SIP_DELEGATE_STATS = 10136,
+ ATOM_SIP_TRANSPORT_FEATURE_TAG_STATS = 10137,
+ ATOM_SIP_MESSAGE_RESPONSE = 10138,
+ ATOM_SIP_TRANSPORT_SESSION = 10139,
+ ATOM_IMS_DEDICATED_BEARER_LISTENER_EVENT = 10140,
+ ATOM_IMS_DEDICATED_BEARER_EVENT = 10141,
+ ATOM_IMS_REGISTRATION_SERVICE_DESC_STATS = 10142,
+ ATOM_UCE_EVENT_STATS = 10143,
+ ATOM_PRESENCE_NOTIFY_EVENT = 10144,
+ ATOM_GBA_EVENT = 10145,
+ ATOM_PER_SIM_STATUS = 10146,
+ ATOM_GPU_WORK_PER_UID = 10147,
+ ATOM_PERSISTENT_URI_PERMISSIONS_AMOUNT_PER_PACKAGE = 10148,
+ ATOM_SIGNED_PARTITION_INFO = 10149,
+ ATOM_PINNED_FILE_SIZES_PER_PACKAGE = 10150,
+ ATOM_PENDING_INTENTS_PER_PACKAGE = 10151,
+ ATOM_USER_INFO = 10152,
+ ATOM_TELEPHONY_NETWORK_REQUESTS_V2 = 10153,
+ ATOM_DEVICE_TELEPHONY_PROPERTIES = 10154,
+ ATOM_REMOTE_KEY_PROVISIONING_ERROR_COUNTS = 10155,
+ ATOM_SAFETY_STATE = 10156,
+ ATOM_INCOMING_MMS = 10157,
+ ATOM_OUTGOING_MMS = 10158,
+ ATOM_MULTI_USER_INFO = 10160,
+ ATOM_NETWORK_BPF_MAP_INFO = 10161,
+ ATOM_OUTGOING_SHORT_CODE_SMS = 10162,
+ ATOM_CONNECTIVITY_STATE_SAMPLE = 10163,
+ ATOM_NETWORK_SELECTION_REMATCH_REASONS_INFO = 10164,
+ ATOM_GAME_MODE_INFO = 10165,
+ ATOM_GAME_MODE_CONFIGURATION = 10166,
+ ATOM_GAME_MODE_LISTENER = 10167,
+ ATOM_NETWORK_SLICE_REQUEST_COUNT = 10168,
+ ATOM_WS_TILE_SNAPSHOT = 10169,
+ ATOM_WS_ACTIVE_WATCH_FACE_COMPLICATION_SET_SNAPSHOT = 10170,
+ ATOM_PROCESS_STATE = 10171,
+ ATOM_PROCESS_ASSOCIATION = 10172,
+ ATOM_ADPF_SYSTEM_COMPONENT_INFO = 10173,
+ ATOM_NOTIFICATION_MEMORY_USE = 10174,
+ ATOM_HDR_CAPABILITIES = 10175,
+ ATOM_WS_FAVOURITE_WATCH_FACE_LIST_SNAPSHOT = 10176,
+ ATOM_WIFI_AWARE_NDP_REPORTED = 638,
+ ATOM_WIFI_AWARE_ATTACH_REPORTED = 639,
+ ATOM_WIFI_SELF_RECOVERY_TRIGGERED = 661,
+ ATOM_SOFT_AP_STARTED = 680,
+ ATOM_SOFT_AP_STOPPED = 681,
+ ATOM_WIFI_LOCK_RELEASED = 687,
+ ATOM_WIFI_LOCK_DEACTIVATED = 688,
+ ATOM_WIFI_CONFIG_SAVED = 689,
+ ATOM_WIFI_AWARE_RESOURCE_USING_CHANGED = 690,
+ ATOM_WIFI_AWARE_HAL_API_CALLED = 691,
+ ATOM_WIFI_LOCAL_ONLY_REQUEST_RECEIVED = 692,
+ ATOM_WIFI_LOCAL_ONLY_REQUEST_SCAN_TRIGGERED = 693,
+ ATOM_WIFI_THREAD_TASK_EXECUTED = 694,
+ ATOM_WIFI_STATE_CHANGED = 700,
+ ATOM_WIFI_AWARE_CAPABILITIES = 10190,
+ ATOM_WIFI_MODULE_INFO = 10193,
+ ATOM_SETTINGS_SPA_REPORTED = 622,
+ ATOM_EXPRESS_EVENT_REPORTED = 528,
+ ATOM_EXPRESS_HISTOGRAM_SAMPLE_REPORTED = 593,
+ ATOM_EXPRESS_UID_EVENT_REPORTED = 644,
+ ATOM_EXPRESS_UID_HISTOGRAM_SAMPLE_REPORTED = 658,
+ ATOM_PERMISSION_RATIONALE_DIALOG_VIEWED = 645,
+ ATOM_PERMISSION_RATIONALE_DIALOG_ACTION_REPORTED = 646,
+ ATOM_APP_DATA_SHARING_UPDATES_NOTIFICATION_INTERACTION = 647,
+ ATOM_APP_DATA_SHARING_UPDATES_FRAGMENT_VIEWED = 648,
+ ATOM_APP_DATA_SHARING_UPDATES_FRAGMENT_ACTION_REPORTED = 649,
+ ATOM_WS_INCOMING_CALL_ACTION_REPORTED = 626,
+ ATOM_WS_CALL_DISCONNECTION_REPORTED = 627,
+ ATOM_WS_CALL_DURATION_REPORTED = 628,
+ ATOM_WS_CALL_USER_EXPERIENCE_LATENCY_REPORTED = 629,
+ ATOM_WS_CALL_INTERACTION_REPORTED = 630,
+ ATOM_FULL_SCREEN_INTENT_LAUNCHED = 631,
+ ATOM_BAL_ALLOWED = 632,
+ ATOM_IN_TASK_ACTIVITY_STARTED = 685,
+ ATOM_CACHED_APPS_HIGH_WATERMARK = 10189,
+ ATOM_ODREFRESH_REPORTED = 366,
+ ATOM_ODSIGN_REPORTED = 548,
+ ATOM_ART_DATUM_REPORTED = 332,
+ ATOM_ART_DEVICE_DATUM_REPORTED = 550,
+ ATOM_ART_DATUM_DELTA_REPORTED = 565,
+ ATOM_BACKGROUND_DEXOPT_JOB_ENDED = 467,
+ ATOM_WEAR_ADAPTIVE_SUSPEND_STATS_REPORTED = 619,
+ ATOM_WEAR_POWER_ANOMALY_SERVICE_OPERATIONAL_STATS_REPORTED = 620,
+ ATOM_WEAR_POWER_ANOMALY_SERVICE_EVENT_STATS_REPORTED = 621,
+ ATOM_EMERGENCY_STATE_CHANGED = 633,
+ ATOM_DND_STATE_CHANGED = 657,
+ ATOM_MTE_STATE = 10181,
+ ATOM_AD_SERVICES_BACK_COMPAT_GET_TOPICS_REPORTED = 598,
+ ATOM_AD_SERVICES_BACK_COMPAT_EPOCH_COMPUTATION_CLASSIFIER_REPORTED = 599,
+ ATOM_AD_SERVICES_MEASUREMENT_DEBUG_KEYS = 640,
+ ATOM_AD_SERVICES_ERROR_REPORTED = 662,
+ ATOM_AD_SERVICES_BACKGROUND_JOBS_EXECUTION_REPORTED = 663,
+ ATOM_AD_SERVICES_MEASUREMENT_DELAYED_SOURCE_REGISTRATION = 673,
+ ATOM_AD_SERVICES_MEASUREMENT_ATTRIBUTION = 674,
+ ATOM_AD_SERVICES_MEASUREMENT_JOBS = 675,
+ ATOM_AD_SERVICES_MEASUREMENT_WIPEOUT = 676,
+ ATOM_AD_SERVICES_CONSENT_MIGRATED = 702,
+ ATOM_RKPD_POOL_STATS = 664,
+ ATOM_RKPD_CLIENT_OPERATION = 665,
+ ATOM_AUTOFILL_UI_EVENT_REPORTED = 603,
+ ATOM_AUTOFILL_FILL_REQUEST_REPORTED = 604,
+ ATOM_AUTOFILL_FILL_RESPONSE_REPORTED = 605,
+ ATOM_AUTOFILL_SAVE_EVENT_REPORTED = 606,
+ ATOM_AUTOFILL_SESSION_COMMITTED = 607,
+ ATOM_AUTOFILL_FIELD_CLASSIFICATION_EVENT_REPORTED = 659,
+ ATOM_TEST_EXTENSION_ATOM_REPORTED = 660,
+ ATOM_TEST_RESTRICTED_ATOM_REPORTED = 672,
+ ATOM_STATS_SOCKET_LOSS_REPORTED = 752,
+ ATOM_PLUGIN_INITIALIZED = 655,
+ ATOM_TV_LOW_POWER_STANDBY_POLICY = 679,
+ ATOM_LOCKSCREEN_SHORTCUT_SELECTED = 611,
+ ATOM_LOCKSCREEN_SHORTCUT_TRIGGERED = 612,
+ ATOM_EMERGENCY_NUMBERS_INFO = 10180,
+ ATOM_QUALIFIED_RAT_LIST_CHANGED = 634,
+ ATOM_QNS_IMS_CALL_DROP_STATS = 635,
+ ATOM_QNS_FALLBACK_RESTRICTION_CHANGED = 636,
+ ATOM_QNS_RAT_PREFERENCE_MISMATCH_INFO = 10177,
+ ATOM_QNS_HANDOVER_TIME_MILLIS = 10178,
+ ATOM_QNS_HANDOVER_PINGPONG = 10179,
+ ATOM_SATELLITE_CONTROLLER = 10182,
+ ATOM_SATELLITE_SESSION = 10183,
+ ATOM_SATELLITE_INCOMING_DATAGRAM = 10184,
+ ATOM_SATELLITE_OUTGOING_DATAGRAM = 10185,
+ ATOM_SATELLITE_PROVISION = 10186,
+ ATOM_SATELLITE_SOS_MESSAGE_RECOMMENDER = 10187,
+ ATOM_IKE_SESSION_TERMINATED = 678,
+ ATOM_IKE_LIVENESS_CHECK_SESSION_VALIDATED = 760,
+ ATOM_BLUETOOTH_HASHED_DEVICE_NAME_REPORTED = 613,
+ ATOM_BLUETOOTH_L2CAP_COC_CLIENT_CONNECTION = 614,
+ ATOM_BLUETOOTH_L2CAP_COC_SERVER_CONNECTION = 615,
+ ATOM_BLUETOOTH_LE_SESSION_CONNECTED = 656,
+ ATOM_RESTRICTED_BLUETOOTH_DEVICE_NAME_REPORTED = 666,
+ ATOM_BLUETOOTH_PROFILE_CONNECTION_ATTEMPTED = 696,
+ ATOM_HEALTH_CONNECT_UI_IMPRESSION = 623,
+ ATOM_HEALTH_CONNECT_UI_INTERACTION = 624,
+ ATOM_HEALTH_CONNECT_APP_OPENED_REPORTED = 625,
+ ATOM_HEALTH_CONNECT_API_CALLED = 616,
+ ATOM_HEALTH_CONNECT_USAGE_STATS = 617,
+ ATOM_HEALTH_CONNECT_STORAGE_STATS = 618,
+ ATOM_HEALTH_CONNECT_API_INVOKED = 643,
+ ATOM_EXERCISE_ROUTE_API_CALLED = 654,
+ ATOM_ATOM_9999 = 9999,
+ ATOM_ATOM_99999 = 99999,
+ ATOM_THREADNETWORK_TELEMETRY_DATA_REPORTED = 738,
+ ATOM_THREADNETWORK_TOPO_ENTRY_REPEATED = 739,
+ ATOM_THREADNETWORK_DEVICE_INFO_REPORTED = 740,
+ ATOM_EMERGENCY_NUMBER_DIALED = 637,
+ ATOM_SANDBOX_API_CALLED = 488,
+ ATOM_SANDBOX_ACTIVITY_EVENT_OCCURRED = 735,
+ ATOM_SANDBOX_SDK_STORAGE = 10159,
+ ATOM_CRONET_ENGINE_CREATED = 703,
+ ATOM_CRONET_TRAFFIC_REPORTED = 704,
+ ATOM_CRONET_ENGINE_BUILDER_INITIALIZED = 762,
+ ATOM_CRONET_HTTP_FLAGS_INITIALIZED = 763,
+ ATOM_CRONET_INITIALIZED = 764,
+ ATOM_DAILY_KEEPALIVE_INFO_REPORTED = 650,
+ ATOM_IP_CLIENT_RA_INFO_REPORTED = 778,
+ ATOM_APF_SESSION_INFO_REPORTED = 777,
+ ATOM_CREDENTIAL_MANAGER_API_CALLED = 585,
+ ATOM_CREDENTIAL_MANAGER_INIT_PHASE_REPORTED = 651,
+ ATOM_CREDENTIAL_MANAGER_CANDIDATE_PHASE_REPORTED = 652,
+ ATOM_CREDENTIAL_MANAGER_FINAL_PHASE_REPORTED = 653,
+ ATOM_CREDENTIAL_MANAGER_TOTAL_REPORTED = 667,
+ ATOM_CREDENTIAL_MANAGER_FINALNOUID_REPORTED = 668,
+ ATOM_CREDENTIAL_MANAGER_GET_REPORTED = 669,
+ ATOM_CREDENTIAL_MANAGER_AUTH_CLICK_REPORTED = 670,
+ ATOM_CREDENTIAL_MANAGER_APIV2_CALLED = 671,
+ ATOM_UWB_ACTIVITY_INFO = 10188,
+ ATOM_MEDIA_ACTION_REPORTED = 608,
+ ATOM_MEDIA_CONTROLS_LAUNCHED = 609,
+ ATOM_MEDIA_CODEC_RECLAIM_REQUEST_COMPLETED = 600,
+ ATOM_MEDIA_CODEC_STARTED = 641,
+ ATOM_MEDIA_CODEC_STOPPED = 642,
+ ATOM_MEDIA_CODEC_RENDERED = 684,
+};
+
+constexpr AtomId AtomId_MIN = AtomId::ATOM_UNSPECIFIED;
+constexpr AtomId AtomId_MAX = AtomId::ATOM_ATOM_99999;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* AtomId_Name(::perfetto::protos::pbzero::AtomId value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::AtomId::ATOM_UNSPECIFIED:
+ return "ATOM_UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BLE_SCAN_STATE_CHANGED:
+ return "ATOM_BLE_SCAN_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_PROCESS_STATE_CHANGED:
+ return "ATOM_PROCESS_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BLE_SCAN_RESULT_RECEIVED:
+ return "ATOM_BLE_SCAN_RESULT_RECEIVED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SENSOR_STATE_CHANGED:
+ return "ATOM_SENSOR_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_GPS_SCAN_STATE_CHANGED:
+ return "ATOM_GPS_SCAN_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SYNC_STATE_CHANGED:
+ return "ATOM_SYNC_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SCHEDULED_JOB_STATE_CHANGED:
+ return "ATOM_SCHEDULED_JOB_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SCREEN_BRIGHTNESS_CHANGED:
+ return "ATOM_SCREEN_BRIGHTNESS_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WAKELOCK_STATE_CHANGED:
+ return "ATOM_WAKELOCK_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_LONG_PARTIAL_WAKELOCK_STATE_CHANGED:
+ return "ATOM_LONG_PARTIAL_WAKELOCK_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MOBILE_RADIO_POWER_STATE_CHANGED:
+ return "ATOM_MOBILE_RADIO_POWER_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WIFI_RADIO_POWER_STATE_CHANGED:
+ return "ATOM_WIFI_RADIO_POWER_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_ACTIVITY_MANAGER_SLEEP_STATE_CHANGED:
+ return "ATOM_ACTIVITY_MANAGER_SLEEP_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MEMORY_FACTOR_STATE_CHANGED:
+ return "ATOM_MEMORY_FACTOR_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_EXCESSIVE_CPU_USAGE_REPORTED:
+ return "ATOM_EXCESSIVE_CPU_USAGE_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CACHED_KILL_REPORTED:
+ return "ATOM_CACHED_KILL_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_PROCESS_MEMORY_STAT_REPORTED:
+ return "ATOM_PROCESS_MEMORY_STAT_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_LAUNCHER_EVENT:
+ return "ATOM_LAUNCHER_EVENT";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BATTERY_SAVER_MODE_STATE_CHANGED:
+ return "ATOM_BATTERY_SAVER_MODE_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_DEVICE_IDLE_MODE_STATE_CHANGED:
+ return "ATOM_DEVICE_IDLE_MODE_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_DEVICE_IDLING_MODE_STATE_CHANGED:
+ return "ATOM_DEVICE_IDLING_MODE_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_AUDIO_STATE_CHANGED:
+ return "ATOM_AUDIO_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MEDIA_CODEC_STATE_CHANGED:
+ return "ATOM_MEDIA_CODEC_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CAMERA_STATE_CHANGED:
+ return "ATOM_CAMERA_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_FLASHLIGHT_STATE_CHANGED:
+ return "ATOM_FLASHLIGHT_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_UID_PROCESS_STATE_CHANGED:
+ return "ATOM_UID_PROCESS_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_PROCESS_LIFE_CYCLE_STATE_CHANGED:
+ return "ATOM_PROCESS_LIFE_CYCLE_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SCREEN_STATE_CHANGED:
+ return "ATOM_SCREEN_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BATTERY_LEVEL_CHANGED:
+ return "ATOM_BATTERY_LEVEL_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CHARGING_STATE_CHANGED:
+ return "ATOM_CHARGING_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_PLUGGED_STATE_CHANGED:
+ return "ATOM_PLUGGED_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_INTERACTIVE_STATE_CHANGED:
+ return "ATOM_INTERACTIVE_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_TOUCH_EVENT_REPORTED:
+ return "ATOM_TOUCH_EVENT_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WAKEUP_ALARM_OCCURRED:
+ return "ATOM_WAKEUP_ALARM_OCCURRED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_KERNEL_WAKEUP_REPORTED:
+ return "ATOM_KERNEL_WAKEUP_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WIFI_LOCK_STATE_CHANGED:
+ return "ATOM_WIFI_LOCK_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WIFI_SIGNAL_STRENGTH_CHANGED:
+ return "ATOM_WIFI_SIGNAL_STRENGTH_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WIFI_SCAN_STATE_CHANGED:
+ return "ATOM_WIFI_SCAN_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_PHONE_SIGNAL_STRENGTH_CHANGED:
+ return "ATOM_PHONE_SIGNAL_STRENGTH_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SETTING_CHANGED:
+ return "ATOM_SETTING_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_ACTIVITY_FOREGROUND_STATE_CHANGED:
+ return "ATOM_ACTIVITY_FOREGROUND_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_ISOLATED_UID_CHANGED:
+ return "ATOM_ISOLATED_UID_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_PACKET_WAKEUP_OCCURRED:
+ return "ATOM_PACKET_WAKEUP_OCCURRED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WALL_CLOCK_TIME_SHIFTED:
+ return "ATOM_WALL_CLOCK_TIME_SHIFTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_ANOMALY_DETECTED:
+ return "ATOM_ANOMALY_DETECTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_APP_BREADCRUMB_REPORTED:
+ return "ATOM_APP_BREADCRUMB_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_APP_START_OCCURRED:
+ return "ATOM_APP_START_OCCURRED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_APP_START_CANCELED:
+ return "ATOM_APP_START_CANCELED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_APP_START_FULLY_DRAWN:
+ return "ATOM_APP_START_FULLY_DRAWN";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_LMK_KILL_OCCURRED:
+ return "ATOM_LMK_KILL_OCCURRED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_PICTURE_IN_PICTURE_STATE_CHANGED:
+ return "ATOM_PICTURE_IN_PICTURE_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WIFI_MULTICAST_LOCK_STATE_CHANGED:
+ return "ATOM_WIFI_MULTICAST_LOCK_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_LMK_STATE_CHANGED:
+ return "ATOM_LMK_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_APP_START_MEMORY_STATE_CAPTURED:
+ return "ATOM_APP_START_MEMORY_STATE_CAPTURED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SHUTDOWN_SEQUENCE_REPORTED:
+ return "ATOM_SHUTDOWN_SEQUENCE_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BOOT_SEQUENCE_REPORTED:
+ return "ATOM_BOOT_SEQUENCE_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_DAVEY_OCCURRED:
+ return "ATOM_DAVEY_OCCURRED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_OVERLAY_STATE_CHANGED:
+ return "ATOM_OVERLAY_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_FOREGROUND_SERVICE_STATE_CHANGED:
+ return "ATOM_FOREGROUND_SERVICE_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CALL_STATE_CHANGED:
+ return "ATOM_CALL_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_KEYGUARD_STATE_CHANGED:
+ return "ATOM_KEYGUARD_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_KEYGUARD_BOUNCER_STATE_CHANGED:
+ return "ATOM_KEYGUARD_BOUNCER_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_KEYGUARD_BOUNCER_PASSWORD_ENTERED:
+ return "ATOM_KEYGUARD_BOUNCER_PASSWORD_ENTERED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_APP_DIED:
+ return "ATOM_APP_DIED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_RESOURCE_CONFIGURATION_CHANGED:
+ return "ATOM_RESOURCE_CONFIGURATION_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BLUETOOTH_ENABLED_STATE_CHANGED:
+ return "ATOM_BLUETOOTH_ENABLED_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BLUETOOTH_CONNECTION_STATE_CHANGED:
+ return "ATOM_BLUETOOTH_CONNECTION_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_GPS_SIGNAL_QUALITY_CHANGED:
+ return "ATOM_GPS_SIGNAL_QUALITY_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_USB_CONNECTOR_STATE_CHANGED:
+ return "ATOM_USB_CONNECTOR_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SPEAKER_IMPEDANCE_REPORTED:
+ return "ATOM_SPEAKER_IMPEDANCE_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_HARDWARE_FAILED:
+ return "ATOM_HARDWARE_FAILED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_PHYSICAL_DROP_DETECTED:
+ return "ATOM_PHYSICAL_DROP_DETECTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CHARGE_CYCLES_REPORTED:
+ return "ATOM_CHARGE_CYCLES_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MOBILE_CONNECTION_STATE_CHANGED:
+ return "ATOM_MOBILE_CONNECTION_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MOBILE_RADIO_TECHNOLOGY_CHANGED:
+ return "ATOM_MOBILE_RADIO_TECHNOLOGY_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_USB_DEVICE_ATTACHED:
+ return "ATOM_USB_DEVICE_ATTACHED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_APP_CRASH_OCCURRED:
+ return "ATOM_APP_CRASH_OCCURRED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_ANR_OCCURRED:
+ return "ATOM_ANR_OCCURRED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WTF_OCCURRED:
+ return "ATOM_WTF_OCCURRED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_LOW_MEM_REPORTED:
+ return "ATOM_LOW_MEM_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_GENERIC_ATOM:
+ return "ATOM_GENERIC_ATOM";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_VIBRATOR_STATE_CHANGED:
+ return "ATOM_VIBRATOR_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_DEFERRED_JOB_STATS_REPORTED:
+ return "ATOM_DEFERRED_JOB_STATS_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_THERMAL_THROTTLING:
+ return "ATOM_THERMAL_THROTTLING";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BIOMETRIC_ACQUIRED:
+ return "ATOM_BIOMETRIC_ACQUIRED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BIOMETRIC_AUTHENTICATED:
+ return "ATOM_BIOMETRIC_AUTHENTICATED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BIOMETRIC_ERROR_OCCURRED:
+ return "ATOM_BIOMETRIC_ERROR_OCCURRED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_UI_EVENT_REPORTED:
+ return "ATOM_UI_EVENT_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BATTERY_HEALTH_SNAPSHOT:
+ return "ATOM_BATTERY_HEALTH_SNAPSHOT";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SLOW_IO:
+ return "ATOM_SLOW_IO";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BATTERY_CAUSED_SHUTDOWN:
+ return "ATOM_BATTERY_CAUSED_SHUTDOWN";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_PHONE_SERVICE_STATE_CHANGED:
+ return "ATOM_PHONE_SERVICE_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_PHONE_STATE_CHANGED:
+ return "ATOM_PHONE_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_USER_RESTRICTION_CHANGED:
+ return "ATOM_USER_RESTRICTION_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SETTINGS_UI_CHANGED:
+ return "ATOM_SETTINGS_UI_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CONNECTIVITY_STATE_CHANGED:
+ return "ATOM_CONNECTIVITY_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SERVICE_STATE_CHANGED:
+ return "ATOM_SERVICE_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SERVICE_LAUNCH_REPORTED:
+ return "ATOM_SERVICE_LAUNCH_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_FLAG_FLIP_UPDATE_OCCURRED:
+ return "ATOM_FLAG_FLIP_UPDATE_OCCURRED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BINARY_PUSH_STATE_CHANGED:
+ return "ATOM_BINARY_PUSH_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_DEVICE_POLICY_EVENT:
+ return "ATOM_DEVICE_POLICY_EVENT";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_DOCS_UI_FILE_OP_CANCELED:
+ return "ATOM_DOCS_UI_FILE_OP_CANCELED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_DOCS_UI_FILE_OP_COPY_MOVE_MODE_REPORTED:
+ return "ATOM_DOCS_UI_FILE_OP_COPY_MOVE_MODE_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_DOCS_UI_FILE_OP_FAILURE:
+ return "ATOM_DOCS_UI_FILE_OP_FAILURE";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_DOCS_UI_PROVIDER_FILE_OP:
+ return "ATOM_DOCS_UI_PROVIDER_FILE_OP";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_DOCS_UI_INVALID_SCOPED_ACCESS_REQUEST:
+ return "ATOM_DOCS_UI_INVALID_SCOPED_ACCESS_REQUEST";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_DOCS_UI_LAUNCH_REPORTED:
+ return "ATOM_DOCS_UI_LAUNCH_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_DOCS_UI_ROOT_VISITED:
+ return "ATOM_DOCS_UI_ROOT_VISITED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_DOCS_UI_STARTUP_MS:
+ return "ATOM_DOCS_UI_STARTUP_MS";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_DOCS_UI_USER_ACTION_REPORTED:
+ return "ATOM_DOCS_UI_USER_ACTION_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WIFI_ENABLED_STATE_CHANGED:
+ return "ATOM_WIFI_ENABLED_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WIFI_RUNNING_STATE_CHANGED:
+ return "ATOM_WIFI_RUNNING_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_APP_COMPACTED:
+ return "ATOM_APP_COMPACTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_NETWORK_DNS_EVENT_REPORTED:
+ return "ATOM_NETWORK_DNS_EVENT_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_DOCS_UI_PICKER_LAUNCHED_FROM_REPORTED:
+ return "ATOM_DOCS_UI_PICKER_LAUNCHED_FROM_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_DOCS_UI_PICK_RESULT_REPORTED:
+ return "ATOM_DOCS_UI_PICK_RESULT_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_DOCS_UI_SEARCH_MODE_REPORTED:
+ return "ATOM_DOCS_UI_SEARCH_MODE_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_DOCS_UI_SEARCH_TYPE_REPORTED:
+ return "ATOM_DOCS_UI_SEARCH_TYPE_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_DATA_STALL_EVENT:
+ return "ATOM_DATA_STALL_EVENT";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_RESCUE_PARTY_RESET_REPORTED:
+ return "ATOM_RESCUE_PARTY_RESET_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SIGNED_CONFIG_REPORTED:
+ return "ATOM_SIGNED_CONFIG_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_GNSS_NI_EVENT_REPORTED:
+ return "ATOM_GNSS_NI_EVENT_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BLUETOOTH_LINK_LAYER_CONNECTION_EVENT:
+ return "ATOM_BLUETOOTH_LINK_LAYER_CONNECTION_EVENT";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BLUETOOTH_ACL_CONNECTION_STATE_CHANGED:
+ return "ATOM_BLUETOOTH_ACL_CONNECTION_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BLUETOOTH_SCO_CONNECTION_STATE_CHANGED:
+ return "ATOM_BLUETOOTH_SCO_CONNECTION_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_APP_DOWNGRADED:
+ return "ATOM_APP_DOWNGRADED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_APP_OPTIMIZED_AFTER_DOWNGRADED:
+ return "ATOM_APP_OPTIMIZED_AFTER_DOWNGRADED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_LOW_STORAGE_STATE_CHANGED:
+ return "ATOM_LOW_STORAGE_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_GNSS_NFW_NOTIFICATION_REPORTED:
+ return "ATOM_GNSS_NFW_NOTIFICATION_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_GNSS_CONFIGURATION_REPORTED:
+ return "ATOM_GNSS_CONFIGURATION_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_USB_PORT_OVERHEAT_EVENT_REPORTED:
+ return "ATOM_USB_PORT_OVERHEAT_EVENT_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_NFC_ERROR_OCCURRED:
+ return "ATOM_NFC_ERROR_OCCURRED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_NFC_STATE_CHANGED:
+ return "ATOM_NFC_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_NFC_BEAM_OCCURRED:
+ return "ATOM_NFC_BEAM_OCCURRED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_NFC_CARDEMULATION_OCCURRED:
+ return "ATOM_NFC_CARDEMULATION_OCCURRED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_NFC_TAG_OCCURRED:
+ return "ATOM_NFC_TAG_OCCURRED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_NFC_HCE_TRANSACTION_OCCURRED:
+ return "ATOM_NFC_HCE_TRANSACTION_OCCURRED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SE_STATE_CHANGED:
+ return "ATOM_SE_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SE_OMAPI_REPORTED:
+ return "ATOM_SE_OMAPI_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BROADCAST_DISPATCH_LATENCY_REPORTED:
+ return "ATOM_BROADCAST_DISPATCH_LATENCY_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_ATTENTION_MANAGER_SERVICE_RESULT_REPORTED:
+ return "ATOM_ATTENTION_MANAGER_SERVICE_RESULT_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_ADB_CONNECTION_CHANGED:
+ return "ATOM_ADB_CONNECTION_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SPEECH_DSP_STAT_REPORTED:
+ return "ATOM_SPEECH_DSP_STAT_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_USB_CONTAMINANT_REPORTED:
+ return "ATOM_USB_CONTAMINANT_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WATCHDOG_ROLLBACK_OCCURRED:
+ return "ATOM_WATCHDOG_ROLLBACK_OCCURRED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BIOMETRIC_SYSTEM_HEALTH_ISSUE_DETECTED:
+ return "ATOM_BIOMETRIC_SYSTEM_HEALTH_ISSUE_DETECTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BUBBLE_UI_CHANGED:
+ return "ATOM_BUBBLE_UI_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SCHEDULED_JOB_CONSTRAINT_CHANGED:
+ return "ATOM_SCHEDULED_JOB_CONSTRAINT_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BLUETOOTH_ACTIVE_DEVICE_CHANGED:
+ return "ATOM_BLUETOOTH_ACTIVE_DEVICE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BLUETOOTH_A2DP_PLAYBACK_STATE_CHANGED:
+ return "ATOM_BLUETOOTH_A2DP_PLAYBACK_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BLUETOOTH_A2DP_CODEC_CONFIG_CHANGED:
+ return "ATOM_BLUETOOTH_A2DP_CODEC_CONFIG_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BLUETOOTH_A2DP_CODEC_CAPABILITY_CHANGED:
+ return "ATOM_BLUETOOTH_A2DP_CODEC_CAPABILITY_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BLUETOOTH_A2DP_AUDIO_UNDERRUN_REPORTED:
+ return "ATOM_BLUETOOTH_A2DP_AUDIO_UNDERRUN_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BLUETOOTH_A2DP_AUDIO_OVERRUN_REPORTED:
+ return "ATOM_BLUETOOTH_A2DP_AUDIO_OVERRUN_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BLUETOOTH_DEVICE_RSSI_REPORTED:
+ return "ATOM_BLUETOOTH_DEVICE_RSSI_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BLUETOOTH_DEVICE_FAILED_CONTACT_COUNTER_REPORTED:
+ return "ATOM_BLUETOOTH_DEVICE_FAILED_CONTACT_COUNTER_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BLUETOOTH_DEVICE_TX_POWER_LEVEL_REPORTED:
+ return "ATOM_BLUETOOTH_DEVICE_TX_POWER_LEVEL_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BLUETOOTH_HCI_TIMEOUT_REPORTED:
+ return "ATOM_BLUETOOTH_HCI_TIMEOUT_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BLUETOOTH_QUALITY_REPORT_REPORTED:
+ return "ATOM_BLUETOOTH_QUALITY_REPORT_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BLUETOOTH_DEVICE_INFO_REPORTED:
+ return "ATOM_BLUETOOTH_DEVICE_INFO_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BLUETOOTH_REMOTE_VERSION_INFO_REPORTED:
+ return "ATOM_BLUETOOTH_REMOTE_VERSION_INFO_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BLUETOOTH_SDP_ATTRIBUTE_REPORTED:
+ return "ATOM_BLUETOOTH_SDP_ATTRIBUTE_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BLUETOOTH_BOND_STATE_CHANGED:
+ return "ATOM_BLUETOOTH_BOND_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BLUETOOTH_CLASSIC_PAIRING_EVENT_REPORTED:
+ return "ATOM_BLUETOOTH_CLASSIC_PAIRING_EVENT_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BLUETOOTH_SMP_PAIRING_EVENT_REPORTED:
+ return "ATOM_BLUETOOTH_SMP_PAIRING_EVENT_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SCREEN_TIMEOUT_EXTENSION_REPORTED:
+ return "ATOM_SCREEN_TIMEOUT_EXTENSION_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_PROCESS_START_TIME:
+ return "ATOM_PROCESS_START_TIME";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_PERMISSION_GRANT_REQUEST_RESULT_REPORTED:
+ return "ATOM_PERMISSION_GRANT_REQUEST_RESULT_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BLUETOOTH_SOCKET_CONNECTION_STATE_CHANGED:
+ return "ATOM_BLUETOOTH_SOCKET_CONNECTION_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_DEVICE_IDENTIFIER_ACCESS_DENIED:
+ return "ATOM_DEVICE_IDENTIFIER_ACCESS_DENIED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BUBBLE_DEVELOPER_ERROR_REPORTED:
+ return "ATOM_BUBBLE_DEVELOPER_ERROR_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_ASSIST_GESTURE_STAGE_REPORTED:
+ return "ATOM_ASSIST_GESTURE_STAGE_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_ASSIST_GESTURE_FEEDBACK_REPORTED:
+ return "ATOM_ASSIST_GESTURE_FEEDBACK_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_ASSIST_GESTURE_PROGRESS_REPORTED:
+ return "ATOM_ASSIST_GESTURE_PROGRESS_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_TOUCH_GESTURE_CLASSIFIED:
+ return "ATOM_TOUCH_GESTURE_CLASSIFIED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_HIDDEN_API_USED:
+ return "ATOM_HIDDEN_API_USED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_STYLE_UI_CHANGED:
+ return "ATOM_STYLE_UI_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_PRIVACY_INDICATORS_INTERACTED:
+ return "ATOM_PRIVACY_INDICATORS_INTERACTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_APP_INSTALL_ON_EXTERNAL_STORAGE_REPORTED:
+ return "ATOM_APP_INSTALL_ON_EXTERNAL_STORAGE_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_NETWORK_STACK_REPORTED:
+ return "ATOM_NETWORK_STACK_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_APP_MOVED_STORAGE_REPORTED:
+ return "ATOM_APP_MOVED_STORAGE_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BIOMETRIC_ENROLLED:
+ return "ATOM_BIOMETRIC_ENROLLED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SYSTEM_SERVER_WATCHDOG_OCCURRED:
+ return "ATOM_SYSTEM_SERVER_WATCHDOG_OCCURRED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_TOMB_STONE_OCCURRED:
+ return "ATOM_TOMB_STONE_OCCURRED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BLUETOOTH_CLASS_OF_DEVICE_REPORTED:
+ return "ATOM_BLUETOOTH_CLASS_OF_DEVICE_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_INTELLIGENCE_EVENT_REPORTED:
+ return "ATOM_INTELLIGENCE_EVENT_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_THERMAL_THROTTLING_SEVERITY_STATE_CHANGED:
+ return "ATOM_THERMAL_THROTTLING_SEVERITY_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_ROLE_REQUEST_RESULT_REPORTED:
+ return "ATOM_ROLE_REQUEST_RESULT_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MEDIAMETRICS_AUDIOPOLICY_REPORTED:
+ return "ATOM_MEDIAMETRICS_AUDIOPOLICY_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MEDIAMETRICS_AUDIORECORD_REPORTED:
+ return "ATOM_MEDIAMETRICS_AUDIORECORD_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MEDIAMETRICS_AUDIOTHREAD_REPORTED:
+ return "ATOM_MEDIAMETRICS_AUDIOTHREAD_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MEDIAMETRICS_AUDIOTRACK_REPORTED:
+ return "ATOM_MEDIAMETRICS_AUDIOTRACK_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MEDIAMETRICS_CODEC_REPORTED:
+ return "ATOM_MEDIAMETRICS_CODEC_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MEDIAMETRICS_DRM_WIDEVINE_REPORTED:
+ return "ATOM_MEDIAMETRICS_DRM_WIDEVINE_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MEDIAMETRICS_EXTRACTOR_REPORTED:
+ return "ATOM_MEDIAMETRICS_EXTRACTOR_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MEDIAMETRICS_MEDIADRM_REPORTED:
+ return "ATOM_MEDIAMETRICS_MEDIADRM_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MEDIAMETRICS_NUPLAYER_REPORTED:
+ return "ATOM_MEDIAMETRICS_NUPLAYER_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MEDIAMETRICS_RECORDER_REPORTED:
+ return "ATOM_MEDIAMETRICS_RECORDER_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MEDIAMETRICS_DRMMANAGER_REPORTED:
+ return "ATOM_MEDIAMETRICS_DRMMANAGER_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CAR_POWER_STATE_CHANGED:
+ return "ATOM_CAR_POWER_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_GARAGE_MODE_INFO:
+ return "ATOM_GARAGE_MODE_INFO";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_TEST_ATOM_REPORTED:
+ return "ATOM_TEST_ATOM_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CONTENT_CAPTURE_CALLER_MISMATCH_REPORTED:
+ return "ATOM_CONTENT_CAPTURE_CALLER_MISMATCH_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CONTENT_CAPTURE_SERVICE_EVENTS:
+ return "ATOM_CONTENT_CAPTURE_SERVICE_EVENTS";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CONTENT_CAPTURE_SESSION_EVENTS:
+ return "ATOM_CONTENT_CAPTURE_SESSION_EVENTS";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CONTENT_CAPTURE_FLUSHED:
+ return "ATOM_CONTENT_CAPTURE_FLUSHED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_LOCATION_MANAGER_API_USAGE_REPORTED:
+ return "ATOM_LOCATION_MANAGER_API_USAGE_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_REVIEW_PERMISSIONS_FRAGMENT_RESULT_REPORTED:
+ return "ATOM_REVIEW_PERMISSIONS_FRAGMENT_RESULT_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_RUNTIME_PERMISSIONS_UPGRADE_RESULT:
+ return "ATOM_RUNTIME_PERMISSIONS_UPGRADE_RESULT";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_GRANT_PERMISSIONS_ACTIVITY_BUTTON_ACTIONS:
+ return "ATOM_GRANT_PERMISSIONS_ACTIVITY_BUTTON_ACTIONS";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_LOCATION_ACCESS_CHECK_NOTIFICATION_ACTION:
+ return "ATOM_LOCATION_ACCESS_CHECK_NOTIFICATION_ACTION";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_APP_PERMISSION_FRAGMENT_ACTION_REPORTED:
+ return "ATOM_APP_PERMISSION_FRAGMENT_ACTION_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_APP_PERMISSION_FRAGMENT_VIEWED:
+ return "ATOM_APP_PERMISSION_FRAGMENT_VIEWED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_APP_PERMISSIONS_FRAGMENT_VIEWED:
+ return "ATOM_APP_PERMISSIONS_FRAGMENT_VIEWED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_PERMISSION_APPS_FRAGMENT_VIEWED:
+ return "ATOM_PERMISSION_APPS_FRAGMENT_VIEWED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_TEXT_SELECTION_EVENT:
+ return "ATOM_TEXT_SELECTION_EVENT";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_TEXT_LINKIFY_EVENT:
+ return "ATOM_TEXT_LINKIFY_EVENT";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CONVERSATION_ACTIONS_EVENT:
+ return "ATOM_CONVERSATION_ACTIONS_EVENT";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_LANGUAGE_DETECTION_EVENT:
+ return "ATOM_LANGUAGE_DETECTION_EVENT";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_EXCLUSION_RECT_STATE_CHANGED:
+ return "ATOM_EXCLUSION_RECT_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BACK_GESTURE_REPORTED_REPORTED:
+ return "ATOM_BACK_GESTURE_REPORTED_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_UPDATE_ENGINE_UPDATE_ATTEMPT_REPORTED:
+ return "ATOM_UPDATE_ENGINE_UPDATE_ATTEMPT_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_UPDATE_ENGINE_SUCCESSFUL_UPDATE_REPORTED:
+ return "ATOM_UPDATE_ENGINE_SUCCESSFUL_UPDATE_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CAMERA_ACTION_EVENT:
+ return "ATOM_CAMERA_ACTION_EVENT";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_APP_COMPATIBILITY_CHANGE_REPORTED:
+ return "ATOM_APP_COMPATIBILITY_CHANGE_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_PERFETTO_UPLOADED:
+ return "ATOM_PERFETTO_UPLOADED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_VMS_CLIENT_CONNECTION_STATE_CHANGED:
+ return "ATOM_VMS_CLIENT_CONNECTION_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MEDIA_PROVIDER_SCAN_OCCURRED:
+ return "ATOM_MEDIA_PROVIDER_SCAN_OCCURRED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MEDIA_CONTENT_DELETED:
+ return "ATOM_MEDIA_CONTENT_DELETED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MEDIA_PROVIDER_PERMISSION_REQUESTED:
+ return "ATOM_MEDIA_PROVIDER_PERMISSION_REQUESTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MEDIA_PROVIDER_SCHEMA_CHANGED:
+ return "ATOM_MEDIA_PROVIDER_SCHEMA_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MEDIA_PROVIDER_IDLE_MAINTENANCE_FINISHED:
+ return "ATOM_MEDIA_PROVIDER_IDLE_MAINTENANCE_FINISHED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_REBOOT_ESCROW_RECOVERY_REPORTED:
+ return "ATOM_REBOOT_ESCROW_RECOVERY_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BOOT_TIME_EVENT_DURATION_REPORTED:
+ return "ATOM_BOOT_TIME_EVENT_DURATION_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BOOT_TIME_EVENT_ELAPSED_TIME_REPORTED:
+ return "ATOM_BOOT_TIME_EVENT_ELAPSED_TIME_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BOOT_TIME_EVENT_UTC_TIME_REPORTED:
+ return "ATOM_BOOT_TIME_EVENT_UTC_TIME_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BOOT_TIME_EVENT_ERROR_CODE_REPORTED:
+ return "ATOM_BOOT_TIME_EVENT_ERROR_CODE_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_USERSPACE_REBOOT_REPORTED:
+ return "ATOM_USERSPACE_REBOOT_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_NOTIFICATION_REPORTED:
+ return "ATOM_NOTIFICATION_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_NOTIFICATION_PANEL_REPORTED:
+ return "ATOM_NOTIFICATION_PANEL_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_NOTIFICATION_CHANNEL_MODIFIED:
+ return "ATOM_NOTIFICATION_CHANNEL_MODIFIED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_INTEGRITY_CHECK_RESULT_REPORTED:
+ return "ATOM_INTEGRITY_CHECK_RESULT_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_INTEGRITY_RULES_PUSHED:
+ return "ATOM_INTEGRITY_RULES_PUSHED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CB_MESSAGE_REPORTED:
+ return "ATOM_CB_MESSAGE_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CB_MESSAGE_ERROR:
+ return "ATOM_CB_MESSAGE_ERROR";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WIFI_HEALTH_STAT_REPORTED:
+ return "ATOM_WIFI_HEALTH_STAT_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WIFI_FAILURE_STAT_REPORTED:
+ return "ATOM_WIFI_FAILURE_STAT_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WIFI_CONNECTION_RESULT_REPORTED:
+ return "ATOM_WIFI_CONNECTION_RESULT_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_APP_FREEZE_CHANGED:
+ return "ATOM_APP_FREEZE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SNAPSHOT_MERGE_REPORTED:
+ return "ATOM_SNAPSHOT_MERGE_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_FOREGROUND_SERVICE_APP_OP_SESSION_ENDED:
+ return "ATOM_FOREGROUND_SERVICE_APP_OP_SESSION_ENDED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_DISPLAY_JANK_REPORTED:
+ return "ATOM_DISPLAY_JANK_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_APP_STANDBY_BUCKET_CHANGED:
+ return "ATOM_APP_STANDBY_BUCKET_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SHARESHEET_STARTED:
+ return "ATOM_SHARESHEET_STARTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_RANKING_SELECTED:
+ return "ATOM_RANKING_SELECTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_TVSETTINGS_UI_INTERACTED:
+ return "ATOM_TVSETTINGS_UI_INTERACTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_LAUNCHER_SNAPSHOT:
+ return "ATOM_LAUNCHER_SNAPSHOT";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_PACKAGE_INSTALLER_V2_REPORTED:
+ return "ATOM_PACKAGE_INSTALLER_V2_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_USER_LIFECYCLE_JOURNEY_REPORTED:
+ return "ATOM_USER_LIFECYCLE_JOURNEY_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_USER_LIFECYCLE_EVENT_OCCURRED:
+ return "ATOM_USER_LIFECYCLE_EVENT_OCCURRED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_ACCESSIBILITY_SHORTCUT_REPORTED:
+ return "ATOM_ACCESSIBILITY_SHORTCUT_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_ACCESSIBILITY_SERVICE_REPORTED:
+ return "ATOM_ACCESSIBILITY_SERVICE_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_DOCS_UI_DRAG_AND_DROP_REPORTED:
+ return "ATOM_DOCS_UI_DRAG_AND_DROP_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_APP_USAGE_EVENT_OCCURRED:
+ return "ATOM_APP_USAGE_EVENT_OCCURRED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_AUTO_REVOKE_NOTIFICATION_CLICKED:
+ return "ATOM_AUTO_REVOKE_NOTIFICATION_CLICKED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_AUTO_REVOKE_FRAGMENT_APP_VIEWED:
+ return "ATOM_AUTO_REVOKE_FRAGMENT_APP_VIEWED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_AUTO_REVOKED_APP_INTERACTION:
+ return "ATOM_AUTO_REVOKED_APP_INTERACTION";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_APP_PERMISSION_GROUPS_FRAGMENT_AUTO_REVOKE_ACTION:
+ return "ATOM_APP_PERMISSION_GROUPS_FRAGMENT_AUTO_REVOKE_ACTION";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_EVS_USAGE_STATS_REPORTED:
+ return "ATOM_EVS_USAGE_STATS_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_AUDIO_POWER_USAGE_DATA_REPORTED:
+ return "ATOM_AUDIO_POWER_USAGE_DATA_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_TV_TUNER_STATE_CHANGED:
+ return "ATOM_TV_TUNER_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MEDIAOUTPUT_OP_SWITCH_REPORTED:
+ return "ATOM_MEDIAOUTPUT_OP_SWITCH_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CB_MESSAGE_FILTERED:
+ return "ATOM_CB_MESSAGE_FILTERED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_TV_TUNER_DVR_STATUS:
+ return "ATOM_TV_TUNER_DVR_STATUS";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_TV_CAS_SESSION_OPEN_STATUS:
+ return "ATOM_TV_CAS_SESSION_OPEN_STATUS";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_ASSISTANT_INVOCATION_REPORTED:
+ return "ATOM_ASSISTANT_INVOCATION_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_DISPLAY_WAKE_REPORTED:
+ return "ATOM_DISPLAY_WAKE_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CAR_USER_HAL_MODIFY_USER_REQUEST_REPORTED:
+ return "ATOM_CAR_USER_HAL_MODIFY_USER_REQUEST_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CAR_USER_HAL_MODIFY_USER_RESPONSE_REPORTED:
+ return "ATOM_CAR_USER_HAL_MODIFY_USER_RESPONSE_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CAR_USER_HAL_POST_SWITCH_RESPONSE_REPORTED:
+ return "ATOM_CAR_USER_HAL_POST_SWITCH_RESPONSE_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CAR_USER_HAL_INITIAL_USER_INFO_REQUEST_REPORTED:
+ return "ATOM_CAR_USER_HAL_INITIAL_USER_INFO_REQUEST_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CAR_USER_HAL_INITIAL_USER_INFO_RESPONSE_REPORTED:
+ return "ATOM_CAR_USER_HAL_INITIAL_USER_INFO_RESPONSE_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CAR_USER_HAL_USER_ASSOCIATION_REQUEST_REPORTED:
+ return "ATOM_CAR_USER_HAL_USER_ASSOCIATION_REQUEST_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CAR_USER_HAL_SET_USER_ASSOCIATION_RESPONSE_REPORTED:
+ return "ATOM_CAR_USER_HAL_SET_USER_ASSOCIATION_RESPONSE_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_NETWORK_IP_PROVISIONING_REPORTED:
+ return "ATOM_NETWORK_IP_PROVISIONING_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_NETWORK_DHCP_RENEW_REPORTED:
+ return "ATOM_NETWORK_DHCP_RENEW_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_NETWORK_VALIDATION_REPORTED:
+ return "ATOM_NETWORK_VALIDATION_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_NETWORK_STACK_QUIRK_REPORTED:
+ return "ATOM_NETWORK_STACK_QUIRK_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MEDIAMETRICS_AUDIORECORDDEVICEUSAGE_REPORTED:
+ return "ATOM_MEDIAMETRICS_AUDIORECORDDEVICEUSAGE_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MEDIAMETRICS_AUDIOTHREADDEVICEUSAGE_REPORTED:
+ return "ATOM_MEDIAMETRICS_AUDIOTHREADDEVICEUSAGE_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MEDIAMETRICS_AUDIOTRACKDEVICEUSAGE_REPORTED:
+ return "ATOM_MEDIAMETRICS_AUDIOTRACKDEVICEUSAGE_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MEDIAMETRICS_AUDIODEVICECONNECTION_REPORTED:
+ return "ATOM_MEDIAMETRICS_AUDIODEVICECONNECTION_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BLOB_COMMITTED:
+ return "ATOM_BLOB_COMMITTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BLOB_LEASED:
+ return "ATOM_BLOB_LEASED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BLOB_OPENED:
+ return "ATOM_BLOB_OPENED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CONTACTS_PROVIDER_STATUS_REPORTED:
+ return "ATOM_CONTACTS_PROVIDER_STATUS_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_KEYSTORE_KEY_EVENT_REPORTED:
+ return "ATOM_KEYSTORE_KEY_EVENT_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_NETWORK_TETHERING_REPORTED:
+ return "ATOM_NETWORK_TETHERING_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_IME_TOUCH_REPORTED:
+ return "ATOM_IME_TOUCH_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_UI_INTERACTION_FRAME_INFO_REPORTED:
+ return "ATOM_UI_INTERACTION_FRAME_INFO_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_UI_ACTION_LATENCY_REPORTED:
+ return "ATOM_UI_ACTION_LATENCY_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WIFI_DISCONNECT_REPORTED:
+ return "ATOM_WIFI_DISCONNECT_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WIFI_CONNECTION_STATE_CHANGED:
+ return "ATOM_WIFI_CONNECTION_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_HDMI_CEC_ACTIVE_SOURCE_CHANGED:
+ return "ATOM_HDMI_CEC_ACTIVE_SOURCE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_HDMI_CEC_MESSAGE_REPORTED:
+ return "ATOM_HDMI_CEC_MESSAGE_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_AIRPLANE_MODE:
+ return "ATOM_AIRPLANE_MODE";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MODEM_RESTART:
+ return "ATOM_MODEM_RESTART";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CARRIER_ID_MISMATCH_REPORTED:
+ return "ATOM_CARRIER_ID_MISMATCH_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CARRIER_ID_TABLE_UPDATED:
+ return "ATOM_CARRIER_ID_TABLE_UPDATED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_DATA_STALL_RECOVERY_REPORTED:
+ return "ATOM_DATA_STALL_RECOVERY_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MEDIAMETRICS_MEDIAPARSER_REPORTED:
+ return "ATOM_MEDIAMETRICS_MEDIAPARSER_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_TLS_HANDSHAKE_REPORTED:
+ return "ATOM_TLS_HANDSHAKE_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_TEXT_CLASSIFIER_API_USAGE_REPORTED:
+ return "ATOM_TEXT_CLASSIFIER_API_USAGE_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CAR_WATCHDOG_KILL_STATS_REPORTED:
+ return "ATOM_CAR_WATCHDOG_KILL_STATS_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MEDIAMETRICS_PLAYBACK_REPORTED:
+ return "ATOM_MEDIAMETRICS_PLAYBACK_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MEDIA_NETWORK_INFO_CHANGED:
+ return "ATOM_MEDIA_NETWORK_INFO_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MEDIA_PLAYBACK_STATE_CHANGED:
+ return "ATOM_MEDIA_PLAYBACK_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MEDIA_PLAYBACK_ERROR_REPORTED:
+ return "ATOM_MEDIA_PLAYBACK_ERROR_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MEDIA_PLAYBACK_TRACK_CHANGED:
+ return "ATOM_MEDIA_PLAYBACK_TRACK_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WIFI_SCAN_REPORTED:
+ return "ATOM_WIFI_SCAN_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WIFI_PNO_SCAN_REPORTED:
+ return "ATOM_WIFI_PNO_SCAN_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_TIF_TUNE_CHANGED:
+ return "ATOM_TIF_TUNE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_AUTO_ROTATE_REPORTED:
+ return "ATOM_AUTO_ROTATE_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_PERFETTO_TRIGGER:
+ return "ATOM_PERFETTO_TRIGGER";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_TRANSCODING_DATA:
+ return "ATOM_TRANSCODING_DATA";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_IMS_SERVICE_ENTITLEMENT_UPDATED:
+ return "ATOM_IMS_SERVICE_ENTITLEMENT_UPDATED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_DEVICE_ROTATED:
+ return "ATOM_DEVICE_ROTATED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SIM_SPECIFIC_SETTINGS_RESTORED:
+ return "ATOM_SIM_SPECIFIC_SETTINGS_RESTORED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_TEXT_CLASSIFIER_DOWNLOAD_REPORTED:
+ return "ATOM_TEXT_CLASSIFIER_DOWNLOAD_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_PIN_STORAGE_EVENT:
+ return "ATOM_PIN_STORAGE_EVENT";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_FACE_DOWN_REPORTED:
+ return "ATOM_FACE_DOWN_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BLUETOOTH_HAL_CRASH_REASON_REPORTED:
+ return "ATOM_BLUETOOTH_HAL_CRASH_REASON_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_REBOOT_ESCROW_PREPARATION_REPORTED:
+ return "ATOM_REBOOT_ESCROW_PREPARATION_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_REBOOT_ESCROW_LSKF_CAPTURE_REPORTED:
+ return "ATOM_REBOOT_ESCROW_LSKF_CAPTURE_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_REBOOT_ESCROW_REBOOT_REPORTED:
+ return "ATOM_REBOOT_ESCROW_REBOOT_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BINDER_LATENCY_REPORTED:
+ return "ATOM_BINDER_LATENCY_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MEDIAMETRICS_AAUDIOSTREAM_REPORTED:
+ return "ATOM_MEDIAMETRICS_AAUDIOSTREAM_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MEDIA_TRANSCODING_SESSION_ENDED:
+ return "ATOM_MEDIA_TRANSCODING_SESSION_ENDED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MAGNIFICATION_USAGE_REPORTED:
+ return "ATOM_MAGNIFICATION_USAGE_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MAGNIFICATION_MODE_WITH_IME_ON_REPORTED:
+ return "ATOM_MAGNIFICATION_MODE_WITH_IME_ON_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_APP_SEARCH_CALL_STATS_REPORTED:
+ return "ATOM_APP_SEARCH_CALL_STATS_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_APP_SEARCH_PUT_DOCUMENT_STATS_REPORTED:
+ return "ATOM_APP_SEARCH_PUT_DOCUMENT_STATS_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_DEVICE_CONTROL_CHANGED:
+ return "ATOM_DEVICE_CONTROL_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_DEVICE_STATE_CHANGED:
+ return "ATOM_DEVICE_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_INPUTDEVICE_REGISTERED:
+ return "ATOM_INPUTDEVICE_REGISTERED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SMARTSPACE_CARD_REPORTED:
+ return "ATOM_SMARTSPACE_CARD_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_AUTH_PROMPT_AUTHENTICATE_INVOKED:
+ return "ATOM_AUTH_PROMPT_AUTHENTICATE_INVOKED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_AUTH_MANAGER_CAN_AUTHENTICATE_INVOKED:
+ return "ATOM_AUTH_MANAGER_CAN_AUTHENTICATE_INVOKED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_AUTH_ENROLL_ACTION_INVOKED:
+ return "ATOM_AUTH_ENROLL_ACTION_INVOKED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_AUTH_DEPRECATED_API_USED:
+ return "ATOM_AUTH_DEPRECATED_API_USED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_UNATTENDED_REBOOT_OCCURRED:
+ return "ATOM_UNATTENDED_REBOOT_OCCURRED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_LONG_REBOOT_BLOCKING_REPORTED:
+ return "ATOM_LONG_REBOOT_BLOCKING_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_LOCATION_TIME_ZONE_PROVIDER_STATE_CHANGED:
+ return "ATOM_LOCATION_TIME_ZONE_PROVIDER_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_FDTRACK_EVENT_OCCURRED:
+ return "ATOM_FDTRACK_EVENT_OCCURRED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_TIMEOUT_AUTO_EXTENDED_REPORTED:
+ return "ATOM_TIMEOUT_AUTO_EXTENDED_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_ALARM_BATCH_DELIVERED:
+ return "ATOM_ALARM_BATCH_DELIVERED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_ALARM_SCHEDULED:
+ return "ATOM_ALARM_SCHEDULED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CAR_WATCHDOG_IO_OVERUSE_STATS_REPORTED:
+ return "ATOM_CAR_WATCHDOG_IO_OVERUSE_STATS_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_USER_LEVEL_HIBERNATION_STATE_CHANGED:
+ return "ATOM_USER_LEVEL_HIBERNATION_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_APP_SEARCH_INITIALIZE_STATS_REPORTED:
+ return "ATOM_APP_SEARCH_INITIALIZE_STATS_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_APP_SEARCH_QUERY_STATS_REPORTED:
+ return "ATOM_APP_SEARCH_QUERY_STATS_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_APP_PROCESS_DIED:
+ return "ATOM_APP_PROCESS_DIED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_NETWORK_IP_REACHABILITY_MONITOR_REPORTED:
+ return "ATOM_NETWORK_IP_REACHABILITY_MONITOR_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SLOW_INPUT_EVENT_REPORTED:
+ return "ATOM_SLOW_INPUT_EVENT_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_ANR_OCCURRED_PROCESSING_STARTED:
+ return "ATOM_ANR_OCCURRED_PROCESSING_STARTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_APP_SEARCH_REMOVE_STATS_REPORTED:
+ return "ATOM_APP_SEARCH_REMOVE_STATS_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MEDIA_CODEC_REPORTED:
+ return "ATOM_MEDIA_CODEC_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_PERMISSION_USAGE_FRAGMENT_INTERACTION:
+ return "ATOM_PERMISSION_USAGE_FRAGMENT_INTERACTION";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_PERMISSION_DETAILS_INTERACTION:
+ return "ATOM_PERMISSION_DETAILS_INTERACTION";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_PRIVACY_SENSOR_TOGGLE_INTERACTION:
+ return "ATOM_PRIVACY_SENSOR_TOGGLE_INTERACTION";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_PRIVACY_TOGGLE_DIALOG_INTERACTION:
+ return "ATOM_PRIVACY_TOGGLE_DIALOG_INTERACTION";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_APP_SEARCH_OPTIMIZE_STATS_REPORTED:
+ return "ATOM_APP_SEARCH_OPTIMIZE_STATS_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_NON_A11Y_TOOL_SERVICE_WARNING_REPORT:
+ return "ATOM_NON_A11Y_TOOL_SERVICE_WARNING_REPORT";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_APP_SEARCH_SET_SCHEMA_STATS_REPORTED:
+ return "ATOM_APP_SEARCH_SET_SCHEMA_STATS_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_APP_COMPAT_STATE_CHANGED:
+ return "ATOM_APP_COMPAT_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SIZE_COMPAT_RESTART_BUTTON_EVENT_REPORTED:
+ return "ATOM_SIZE_COMPAT_RESTART_BUTTON_EVENT_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SPLITSCREEN_UI_CHANGED:
+ return "ATOM_SPLITSCREEN_UI_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_NETWORK_DNS_HANDSHAKE_REPORTED:
+ return "ATOM_NETWORK_DNS_HANDSHAKE_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BLUETOOTH_CODE_PATH_COUNTER:
+ return "ATOM_BLUETOOTH_CODE_PATH_COUNTER";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BLUETOOTH_LE_BATCH_SCAN_REPORT_DELAY:
+ return "ATOM_BLUETOOTH_LE_BATCH_SCAN_REPORT_DELAY";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_ACCESSIBILITY_FLOATING_MENU_UI_CHANGED:
+ return "ATOM_ACCESSIBILITY_FLOATING_MENU_UI_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_NEURALNETWORKS_COMPILATION_COMPLETED:
+ return "ATOM_NEURALNETWORKS_COMPILATION_COMPLETED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_NEURALNETWORKS_EXECUTION_COMPLETED:
+ return "ATOM_NEURALNETWORKS_EXECUTION_COMPLETED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_NEURALNETWORKS_COMPILATION_FAILED:
+ return "ATOM_NEURALNETWORKS_COMPILATION_FAILED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_NEURALNETWORKS_EXECUTION_FAILED:
+ return "ATOM_NEURALNETWORKS_EXECUTION_FAILED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CONTEXT_HUB_BOOTED:
+ return "ATOM_CONTEXT_HUB_BOOTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CONTEXT_HUB_RESTARTED:
+ return "ATOM_CONTEXT_HUB_RESTARTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CONTEXT_HUB_LOADED_NANOAPP_SNAPSHOT_REPORTED:
+ return "ATOM_CONTEXT_HUB_LOADED_NANOAPP_SNAPSHOT_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CHRE_CODE_DOWNLOAD_TRANSACTED:
+ return "ATOM_CHRE_CODE_DOWNLOAD_TRANSACTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_UWB_SESSION_INITED:
+ return "ATOM_UWB_SESSION_INITED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_UWB_SESSION_CLOSED:
+ return "ATOM_UWB_SESSION_CLOSED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_UWB_FIRST_RANGING_RECEIVED:
+ return "ATOM_UWB_FIRST_RANGING_RECEIVED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_UWB_RANGING_MEASUREMENT_RECEIVED:
+ return "ATOM_UWB_RANGING_MEASUREMENT_RECEIVED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_TEXT_CLASSIFIER_DOWNLOAD_WORK_SCHEDULED:
+ return "ATOM_TEXT_CLASSIFIER_DOWNLOAD_WORK_SCHEDULED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_TEXT_CLASSIFIER_DOWNLOAD_WORK_COMPLETED:
+ return "ATOM_TEXT_CLASSIFIER_DOWNLOAD_WORK_COMPLETED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CLIPBOARD_CLEARED:
+ return "ATOM_CLIPBOARD_CLEARED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_VM_CREATION_REQUESTED:
+ return "ATOM_VM_CREATION_REQUESTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_NEARBY_DEVICE_SCAN_STATE_CHANGED:
+ return "ATOM_NEARBY_DEVICE_SCAN_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CAMERA_COMPAT_CONTROL_EVENT_REPORTED:
+ return "ATOM_CAMERA_COMPAT_CONTROL_EVENT_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_APPLICATION_LOCALES_CHANGED:
+ return "ATOM_APPLICATION_LOCALES_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MEDIAMETRICS_AUDIOTRACKSTATUS_REPORTED:
+ return "ATOM_MEDIAMETRICS_AUDIOTRACKSTATUS_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_FOLD_STATE_DURATION_REPORTED:
+ return "ATOM_FOLD_STATE_DURATION_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_LOCATION_TIME_ZONE_PROVIDER_CONTROLLER_STATE_CHANGED:
+ return "ATOM_LOCATION_TIME_ZONE_PROVIDER_CONTROLLER_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_DISPLAY_HBM_STATE_CHANGED:
+ return "ATOM_DISPLAY_HBM_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_DISPLAY_HBM_BRIGHTNESS_CHANGED:
+ return "ATOM_DISPLAY_HBM_BRIGHTNESS_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_PERSISTENT_URI_PERMISSIONS_FLUSHED:
+ return "ATOM_PERSISTENT_URI_PERMISSIONS_FLUSHED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_EARLY_BOOT_COMP_OS_ARTIFACTS_CHECK_REPORTED:
+ return "ATOM_EARLY_BOOT_COMP_OS_ARTIFACTS_CHECK_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_VBMETA_DIGEST_REPORTED:
+ return "ATOM_VBMETA_DIGEST_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_APEX_INFO_GATHERED:
+ return "ATOM_APEX_INFO_GATHERED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_PVM_INFO_GATHERED:
+ return "ATOM_PVM_INFO_GATHERED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WEAR_SETTINGS_UI_INTERACTED:
+ return "ATOM_WEAR_SETTINGS_UI_INTERACTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_TRACING_SERVICE_REPORT_EVENT:
+ return "ATOM_TRACING_SERVICE_REPORT_EVENT";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MEDIAMETRICS_AUDIORECORDSTATUS_REPORTED:
+ return "ATOM_MEDIAMETRICS_AUDIORECORDSTATUS_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_LAUNCHER_LATENCY:
+ return "ATOM_LAUNCHER_LATENCY";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_DROPBOX_ENTRY_DROPPED:
+ return "ATOM_DROPBOX_ENTRY_DROPPED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WIFI_P2P_CONNECTION_REPORTED:
+ return "ATOM_WIFI_P2P_CONNECTION_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_GAME_STATE_CHANGED:
+ return "ATOM_GAME_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_HOTWORD_DETECTOR_CREATE_REQUESTED:
+ return "ATOM_HOTWORD_DETECTOR_CREATE_REQUESTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_HOTWORD_DETECTION_SERVICE_INIT_RESULT_REPORTED:
+ return "ATOM_HOTWORD_DETECTION_SERVICE_INIT_RESULT_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_HOTWORD_DETECTION_SERVICE_RESTARTED:
+ return "ATOM_HOTWORD_DETECTION_SERVICE_RESTARTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_HOTWORD_DETECTOR_KEYPHRASE_TRIGGERED:
+ return "ATOM_HOTWORD_DETECTOR_KEYPHRASE_TRIGGERED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_HOTWORD_DETECTOR_EVENTS:
+ return "ATOM_HOTWORD_DETECTOR_EVENTS";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_AD_SERVICES_API_CALLED:
+ return "ATOM_AD_SERVICES_API_CALLED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_AD_SERVICES_MESUREMENT_REPORTS_UPLOADED:
+ return "ATOM_AD_SERVICES_MESUREMENT_REPORTS_UPLOADED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BOOT_COMPLETED_BROADCAST_COMPLETION_LATENCY_REPORTED:
+ return "ATOM_BOOT_COMPLETED_BROADCAST_COMPLETION_LATENCY_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CONTACTS_INDEXER_UPDATE_STATS_REPORTED:
+ return "ATOM_CONTACTS_INDEXER_UPDATE_STATS_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_APP_BACKGROUND_RESTRICTIONS_INFO:
+ return "ATOM_APP_BACKGROUND_RESTRICTIONS_INFO";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MMS_SMS_PROVIDER_GET_THREAD_ID_FAILED:
+ return "ATOM_MMS_SMS_PROVIDER_GET_THREAD_ID_FAILED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MMS_SMS_DATABASE_HELPER_ON_UPGRADE_FAILED:
+ return "ATOM_MMS_SMS_DATABASE_HELPER_ON_UPGRADE_FAILED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_PERMISSION_REMINDER_NOTIFICATION_INTERACTED:
+ return "ATOM_PERMISSION_REMINDER_NOTIFICATION_INTERACTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_RECENT_PERMISSION_DECISIONS_INTERACTED:
+ return "ATOM_RECENT_PERMISSION_DECISIONS_INTERACTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_GNSS_PSDS_DOWNLOAD_REPORTED:
+ return "ATOM_GNSS_PSDS_DOWNLOAD_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_LE_AUDIO_CONNECTION_SESSION_REPORTED:
+ return "ATOM_LE_AUDIO_CONNECTION_SESSION_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_LE_AUDIO_BROADCAST_SESSION_REPORTED:
+ return "ATOM_LE_AUDIO_BROADCAST_SESSION_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_DREAM_UI_EVENT_REPORTED:
+ return "ATOM_DREAM_UI_EVENT_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_TASK_MANAGER_EVENT_REPORTED:
+ return "ATOM_TASK_MANAGER_EVENT_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CDM_ASSOCIATION_ACTION:
+ return "ATOM_CDM_ASSOCIATION_ACTION";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MAGNIFICATION_TRIPLE_TAP_AND_HOLD_ACTIVATED_SESSION_REPORTED:
+ return "ATOM_MAGNIFICATION_TRIPLE_TAP_AND_HOLD_ACTIVATED_SESSION_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MAGNIFICATION_FOLLOW_TYPING_FOCUS_ACTIVATED_SESSION_REPORTED:
+ return "ATOM_MAGNIFICATION_FOLLOW_TYPING_FOCUS_ACTIVATED_SESSION_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_ACCESSIBILITY_TEXT_READING_OPTIONS_CHANGED:
+ return "ATOM_ACCESSIBILITY_TEXT_READING_OPTIONS_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WIFI_SETUP_FAILURE_CRASH_REPORTED:
+ return "ATOM_WIFI_SETUP_FAILURE_CRASH_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_UWB_DEVICE_ERROR_REPORTED:
+ return "ATOM_UWB_DEVICE_ERROR_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_ISOLATED_COMPILATION_SCHEDULED:
+ return "ATOM_ISOLATED_COMPILATION_SCHEDULED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_ISOLATED_COMPILATION_ENDED:
+ return "ATOM_ISOLATED_COMPILATION_ENDED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_ONS_OPPORTUNISTIC_ESIM_PROVISIONING_COMPLETE:
+ return "ATOM_ONS_OPPORTUNISTIC_ESIM_PROVISIONING_COMPLETE";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SYSTEM_SERVER_PRE_WATCHDOG_OCCURRED:
+ return "ATOM_SYSTEM_SERVER_PRE_WATCHDOG_OCCURRED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_TELEPHONY_ANOMALY_DETECTED:
+ return "ATOM_TELEPHONY_ANOMALY_DETECTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_LETTERBOX_POSITION_CHANGED:
+ return "ATOM_LETTERBOX_POSITION_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_REMOTE_KEY_PROVISIONING_ATTEMPT:
+ return "ATOM_REMOTE_KEY_PROVISIONING_ATTEMPT";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_REMOTE_KEY_PROVISIONING_NETWORK_INFO:
+ return "ATOM_REMOTE_KEY_PROVISIONING_NETWORK_INFO";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_REMOTE_KEY_PROVISIONING_TIMING:
+ return "ATOM_REMOTE_KEY_PROVISIONING_TIMING";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MEDIAOUTPUT_OP_INTERACTION_REPORT:
+ return "ATOM_MEDIAOUTPUT_OP_INTERACTION_REPORT";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SYNC_EXEMPTION_OCCURRED:
+ return "ATOM_SYNC_EXEMPTION_OCCURRED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_AUTOFILL_PRESENTATION_EVENT_REPORTED:
+ return "ATOM_AUTOFILL_PRESENTATION_EVENT_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_DOCK_STATE_CHANGED:
+ return "ATOM_DOCK_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SAFETY_SOURCE_STATE_COLLECTED:
+ return "ATOM_SAFETY_SOURCE_STATE_COLLECTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SAFETY_CENTER_SYSTEM_EVENT_REPORTED:
+ return "ATOM_SAFETY_CENTER_SYSTEM_EVENT_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SAFETY_CENTER_INTERACTION_REPORTED:
+ return "ATOM_SAFETY_CENTER_INTERACTION_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SETTINGS_PROVIDER_SETTING_CHANGED:
+ return "ATOM_SETTINGS_PROVIDER_SETTING_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BROADCAST_DELIVERY_EVENT_REPORTED:
+ return "ATOM_BROADCAST_DELIVERY_EVENT_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SERVICE_REQUEST_EVENT_REPORTED:
+ return "ATOM_SERVICE_REQUEST_EVENT_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_PROVIDER_ACQUISITION_EVENT_REPORTED:
+ return "ATOM_PROVIDER_ACQUISITION_EVENT_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BLUETOOTH_DEVICE_NAME_REPORTED:
+ return "ATOM_BLUETOOTH_DEVICE_NAME_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CB_CONFIG_UPDATED:
+ return "ATOM_CB_CONFIG_UPDATED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CB_MODULE_ERROR_REPORTED:
+ return "ATOM_CB_MODULE_ERROR_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CB_SERVICE_FEATURE_CHANGED:
+ return "ATOM_CB_SERVICE_FEATURE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CB_RECEIVER_FEATURE_CHANGED:
+ return "ATOM_CB_RECEIVER_FEATURE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_JSSCRIPTENGINE_LATENCY_REPORTED:
+ return "ATOM_JSSCRIPTENGINE_LATENCY_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_PRIVACY_SIGNAL_NOTIFICATION_INTERACTION:
+ return "ATOM_PRIVACY_SIGNAL_NOTIFICATION_INTERACTION";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_PRIVACY_SIGNAL_ISSUE_CARD_INTERACTION:
+ return "ATOM_PRIVACY_SIGNAL_ISSUE_CARD_INTERACTION";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_PRIVACY_SIGNALS_JOB_FAILURE:
+ return "ATOM_PRIVACY_SIGNALS_JOB_FAILURE";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_VIBRATION_REPORTED:
+ return "ATOM_VIBRATION_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_UWB_RANGING_START:
+ return "ATOM_UWB_RANGING_START";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MOBILE_DATA_DOWNLOAD_FILE_GROUP_STATUS_REPORTED:
+ return "ATOM_MOBILE_DATA_DOWNLOAD_FILE_GROUP_STATUS_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_APP_COMPACTED_V2:
+ return "ATOM_APP_COMPACTED_V2";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_AD_SERVICES_SETTINGS_USAGE_REPORTED:
+ return "ATOM_AD_SERVICES_SETTINGS_USAGE_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_DISPLAY_BRIGHTNESS_CHANGED:
+ return "ATOM_DISPLAY_BRIGHTNESS_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_ACTIVITY_ACTION_BLOCKED:
+ return "ATOM_ACTIVITY_ACTION_BLOCKED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BACKGROUND_FETCH_PROCESS_REPORTED:
+ return "ATOM_BACKGROUND_FETCH_PROCESS_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_UPDATE_CUSTOM_AUDIENCE_PROCESS_REPORTED:
+ return "ATOM_UPDATE_CUSTOM_AUDIENCE_PROCESS_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_RUN_AD_BIDDING_PROCESS_REPORTED:
+ return "ATOM_RUN_AD_BIDDING_PROCESS_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_RUN_AD_SCORING_PROCESS_REPORTED:
+ return "ATOM_RUN_AD_SCORING_PROCESS_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_RUN_AD_SELECTION_PROCESS_REPORTED:
+ return "ATOM_RUN_AD_SELECTION_PROCESS_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_RUN_AD_BIDDING_PER_CA_PROCESS_REPORTED:
+ return "ATOM_RUN_AD_BIDDING_PER_CA_PROCESS_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MOBILE_DATA_DOWNLOAD_DOWNLOAD_RESULT_REPORTED:
+ return "ATOM_MOBILE_DATA_DOWNLOAD_DOWNLOAD_RESULT_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MOBILE_DATA_DOWNLOAD_FILE_GROUP_STORAGE_STATS_REPORTED:
+ return "ATOM_MOBILE_DATA_DOWNLOAD_FILE_GROUP_STORAGE_STATS_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_NETWORK_DNS_SERVER_SUPPORT_REPORTED:
+ return "ATOM_NETWORK_DNS_SERVER_SUPPORT_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_VM_BOOTED:
+ return "ATOM_VM_BOOTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_VM_EXITED:
+ return "ATOM_VM_EXITED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_AMBIENT_BRIGHTNESS_STATS_REPORTED:
+ return "ATOM_AMBIENT_BRIGHTNESS_STATS_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MEDIAMETRICS_SPATIALIZERCAPABILITIES_REPORTED:
+ return "ATOM_MEDIAMETRICS_SPATIALIZERCAPABILITIES_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MEDIAMETRICS_SPATIALIZERDEVICEENABLED_REPORTED:
+ return "ATOM_MEDIAMETRICS_SPATIALIZERDEVICEENABLED_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MEDIAMETRICS_HEADTRACKERDEVICEENABLED_REPORTED:
+ return "ATOM_MEDIAMETRICS_HEADTRACKERDEVICEENABLED_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MEDIAMETRICS_HEADTRACKERDEVICESUPPORTED_REPORTED:
+ return "ATOM_MEDIAMETRICS_HEADTRACKERDEVICESUPPORTED_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_AD_SERVICES_MEASUREMENT_REGISTRATIONS:
+ return "ATOM_AD_SERVICES_MEASUREMENT_REGISTRATIONS";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_HEARING_AID_INFO_REPORTED:
+ return "ATOM_HEARING_AID_INFO_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_DEVICE_WIDE_JOB_CONSTRAINT_CHANGED:
+ return "ATOM_DEVICE_WIDE_JOB_CONSTRAINT_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_AMBIENT_MODE_CHANGED:
+ return "ATOM_AMBIENT_MODE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_ANR_LATENCY_REPORTED:
+ return "ATOM_ANR_LATENCY_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_RESOURCE_API_INFO:
+ return "ATOM_RESOURCE_API_INFO";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SYSTEM_DEFAULT_NETWORK_CHANGED:
+ return "ATOM_SYSTEM_DEFAULT_NETWORK_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_IWLAN_SETUP_DATA_CALL_RESULT_REPORTED:
+ return "ATOM_IWLAN_SETUP_DATA_CALL_RESULT_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_IWLAN_PDN_DISCONNECTED_REASON_REPORTED:
+ return "ATOM_IWLAN_PDN_DISCONNECTED_REASON_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_AIRPLANE_MODE_SESSION_REPORTED:
+ return "ATOM_AIRPLANE_MODE_SESSION_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_VM_CPU_STATUS_REPORTED:
+ return "ATOM_VM_CPU_STATUS_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_VM_MEM_STATUS_REPORTED:
+ return "ATOM_VM_MEM_STATUS_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_PACKAGE_INSTALLATION_SESSION_REPORTED:
+ return "ATOM_PACKAGE_INSTALLATION_SESSION_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_DEFAULT_NETWORK_REMATCH_INFO:
+ return "ATOM_DEFAULT_NETWORK_REMATCH_INFO";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_NETWORK_SELECTION_PERFORMANCE:
+ return "ATOM_NETWORK_SELECTION_PERFORMANCE";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_NETWORK_NSD_REPORTED:
+ return "ATOM_NETWORK_NSD_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BLUETOOTH_DISCONNECTION_REASON_REPORTED:
+ return "ATOM_BLUETOOTH_DISCONNECTION_REASON_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BLUETOOTH_LOCAL_VERSIONS_REPORTED:
+ return "ATOM_BLUETOOTH_LOCAL_VERSIONS_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BLUETOOTH_REMOTE_SUPPORTED_FEATURES_REPORTED:
+ return "ATOM_BLUETOOTH_REMOTE_SUPPORTED_FEATURES_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BLUETOOTH_LOCAL_SUPPORTED_FEATURES_REPORTED:
+ return "ATOM_BLUETOOTH_LOCAL_SUPPORTED_FEATURES_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BLUETOOTH_GATT_APP_INFO:
+ return "ATOM_BLUETOOTH_GATT_APP_INFO";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BRIGHTNESS_CONFIGURATION_UPDATED:
+ return "ATOM_BRIGHTNESS_CONFIGURATION_UPDATED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_AD_SERVICES_GET_TOPICS_REPORTED:
+ return "ATOM_AD_SERVICES_GET_TOPICS_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_AD_SERVICES_EPOCH_COMPUTATION_GET_TOP_TOPICS_REPORTED:
+ return "ATOM_AD_SERVICES_EPOCH_COMPUTATION_GET_TOP_TOPICS_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_AD_SERVICES_EPOCH_COMPUTATION_CLASSIFIER_REPORTED:
+ return "ATOM_AD_SERVICES_EPOCH_COMPUTATION_CLASSIFIER_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WEAR_MEDIA_OUTPUT_SWITCHER_LAUNCHED:
+ return "ATOM_WEAR_MEDIA_OUTPUT_SWITCHER_LAUNCHED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WEAR_MEDIA_OUTPUT_SWITCHER_FINISHED:
+ return "ATOM_WEAR_MEDIA_OUTPUT_SWITCHER_FINISHED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WEAR_MEDIA_OUTPUT_SWITCHER_CONNECTION_REPORTED:
+ return "ATOM_WEAR_MEDIA_OUTPUT_SWITCHER_CONNECTION_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WEAR_MEDIA_OUTPUT_SWITCHER_DEVICE_SCAN_TRIGGERED:
+ return "ATOM_WEAR_MEDIA_OUTPUT_SWITCHER_DEVICE_SCAN_TRIGGERED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WEAR_MEDIA_OUTPUT_SWITCHER_FIRST_DEVICE_SCAN_LATENCY:
+ return "ATOM_WEAR_MEDIA_OUTPUT_SWITCHER_FIRST_DEVICE_SCAN_LATENCY";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WEAR_MEDIA_OUTPUT_SWITCHER_CONNECT_DEVICE_LATENCY:
+ return "ATOM_WEAR_MEDIA_OUTPUT_SWITCHER_CONNECT_DEVICE_LATENCY";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_PACKAGE_MANAGER_SNAPSHOT_REPORTED:
+ return "ATOM_PACKAGE_MANAGER_SNAPSHOT_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_PACKAGE_MANAGER_APPS_FILTER_CACHE_BUILD_REPORTED:
+ return "ATOM_PACKAGE_MANAGER_APPS_FILTER_CACHE_BUILD_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_PACKAGE_MANAGER_APPS_FILTER_CACHE_UPDATE_REPORTED:
+ return "ATOM_PACKAGE_MANAGER_APPS_FILTER_CACHE_UPDATE_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_LAUNCHER_IMPRESSION_EVENT:
+ return "ATOM_LAUNCHER_IMPRESSION_EVENT";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WEAR_MEDIA_OUTPUT_SWITCHER_ALL_DEVICES_SCAN_LATENCY:
+ return "ATOM_WEAR_MEDIA_OUTPUT_SWITCHER_ALL_DEVICES_SCAN_LATENCY";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WS_WATCH_FACE_EDITED:
+ return "ATOM_WS_WATCH_FACE_EDITED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WS_WATCH_FACE_FAVORITE_ACTION_REPORTED:
+ return "ATOM_WS_WATCH_FACE_FAVORITE_ACTION_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WS_WATCH_FACE_SET_ACTION_REPORTED:
+ return "ATOM_WS_WATCH_FACE_SET_ACTION_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_PACKAGE_UNINSTALLATION_REPORTED:
+ return "ATOM_PACKAGE_UNINSTALLATION_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_GAME_MODE_CHANGED:
+ return "ATOM_GAME_MODE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_GAME_MODE_CONFIGURATION_CHANGED:
+ return "ATOM_GAME_MODE_CONFIGURATION_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BEDTIME_MODE_STATE_CHANGED:
+ return "ATOM_BEDTIME_MODE_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_NETWORK_SLICE_SESSION_ENDED:
+ return "ATOM_NETWORK_SLICE_SESSION_ENDED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_NETWORK_SLICE_DAILY_DATA_USAGE_REPORTED:
+ return "ATOM_NETWORK_SLICE_DAILY_DATA_USAGE_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_NFC_TAG_TYPE_OCCURRED:
+ return "ATOM_NFC_TAG_TYPE_OCCURRED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_NFC_AID_CONFLICT_OCCURRED:
+ return "ATOM_NFC_AID_CONFLICT_OCCURRED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_NFC_READER_CONFLICT_OCCURRED:
+ return "ATOM_NFC_READER_CONFLICT_OCCURRED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WS_TILE_LIST_CHANGED:
+ return "ATOM_WS_TILE_LIST_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_GET_TYPE_ACCESSED_WITHOUT_PERMISSION:
+ return "ATOM_GET_TYPE_ACCESSED_WITHOUT_PERMISSION";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MOBILE_BUNDLED_APP_INFO_GATHERED:
+ return "ATOM_MOBILE_BUNDLED_APP_INFO_GATHERED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WS_WATCH_FACE_COMPLICATION_SET_CHANGED:
+ return "ATOM_WS_WATCH_FACE_COMPLICATION_SET_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MEDIA_DRM_CREATED:
+ return "ATOM_MEDIA_DRM_CREATED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MEDIA_DRM_ERRORED:
+ return "ATOM_MEDIA_DRM_ERRORED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MEDIA_DRM_SESSION_OPENED:
+ return "ATOM_MEDIA_DRM_SESSION_OPENED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MEDIA_DRM_SESSION_CLOSED:
+ return "ATOM_MEDIA_DRM_SESSION_CLOSED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_USER_SELECTED_RESOLUTION:
+ return "ATOM_USER_SELECTED_RESOLUTION";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_UNSAFE_INTENT_EVENT_REPORTED:
+ return "ATOM_UNSAFE_INTENT_EVENT_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_PERFORMANCE_HINT_SESSION_REPORTED:
+ return "ATOM_PERFORMANCE_HINT_SESSION_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MEDIAMETRICS_MIDI_DEVICE_CLOSE_REPORTED:
+ return "ATOM_MEDIAMETRICS_MIDI_DEVICE_CLOSE_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BIOMETRIC_TOUCH_REPORTED:
+ return "ATOM_BIOMETRIC_TOUCH_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_HOTWORD_AUDIO_EGRESS_EVENT_REPORTED:
+ return "ATOM_HOTWORD_AUDIO_EGRESS_EVENT_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_APP_SEARCH_SCHEMA_MIGRATION_STATS_REPORTED:
+ return "ATOM_APP_SEARCH_SCHEMA_MIGRATION_STATS_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_LOCATION_ENABLED_STATE_CHANGED:
+ return "ATOM_LOCATION_ENABLED_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_IME_REQUEST_FINISHED:
+ return "ATOM_IME_REQUEST_FINISHED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_USB_COMPLIANCE_WARNINGS_REPORTED:
+ return "ATOM_USB_COMPLIANCE_WARNINGS_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_APP_SUPPORTED_LOCALES_CHANGED:
+ return "ATOM_APP_SUPPORTED_LOCALES_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_GRAMMATICAL_INFLECTION_CHANGED:
+ return "ATOM_GRAMMATICAL_INFLECTION_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MEDIA_PROVIDER_VOLUME_RECOVERY_REPORTED:
+ return "ATOM_MEDIA_PROVIDER_VOLUME_RECOVERY_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BIOMETRIC_PROPERTIES_COLLECTED:
+ return "ATOM_BIOMETRIC_PROPERTIES_COLLECTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_KERNEL_WAKEUP_ATTRIBUTED:
+ return "ATOM_KERNEL_WAKEUP_ATTRIBUTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SCREEN_STATE_CHANGED_V2:
+ return "ATOM_SCREEN_STATE_CHANGED_V2";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WS_BACKUP_ACTION_REPORTED:
+ return "ATOM_WS_BACKUP_ACTION_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WS_RESTORE_ACTION_REPORTED:
+ return "ATOM_WS_RESTORE_ACTION_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_DEVICE_LOG_ACCESS_EVENT_REPORTED:
+ return "ATOM_DEVICE_LOG_ACCESS_EVENT_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MEDIA_SESSION_UPDATED:
+ return "ATOM_MEDIA_SESSION_UPDATED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WEAR_OOBE_STATE_CHANGED:
+ return "ATOM_WEAR_OOBE_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WS_NOTIFICATION_UPDATED:
+ return "ATOM_WS_NOTIFICATION_UPDATED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_NETWORK_VALIDATION_FAILURE_STATS_DAILY_REPORTED:
+ return "ATOM_NETWORK_VALIDATION_FAILURE_STATS_DAILY_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WS_COMPLICATION_TAPPED:
+ return "ATOM_WS_COMPLICATION_TAPPED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WS_WEAR_TIME_SESSION:
+ return "ATOM_WS_WEAR_TIME_SESSION";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WIFI_BYTES_TRANSFER:
+ return "ATOM_WIFI_BYTES_TRANSFER";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WIFI_BYTES_TRANSFER_BY_FG_BG:
+ return "ATOM_WIFI_BYTES_TRANSFER_BY_FG_BG";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MOBILE_BYTES_TRANSFER:
+ return "ATOM_MOBILE_BYTES_TRANSFER";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MOBILE_BYTES_TRANSFER_BY_FG_BG:
+ return "ATOM_MOBILE_BYTES_TRANSFER_BY_FG_BG";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BLUETOOTH_BYTES_TRANSFER:
+ return "ATOM_BLUETOOTH_BYTES_TRANSFER";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_KERNEL_WAKELOCK:
+ return "ATOM_KERNEL_WAKELOCK";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SUBSYSTEM_SLEEP_STATE:
+ return "ATOM_SUBSYSTEM_SLEEP_STATE";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CPU_TIME_PER_UID:
+ return "ATOM_CPU_TIME_PER_UID";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CPU_TIME_PER_UID_FREQ:
+ return "ATOM_CPU_TIME_PER_UID_FREQ";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WIFI_ACTIVITY_INFO:
+ return "ATOM_WIFI_ACTIVITY_INFO";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MODEM_ACTIVITY_INFO:
+ return "ATOM_MODEM_ACTIVITY_INFO";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BLUETOOTH_ACTIVITY_INFO:
+ return "ATOM_BLUETOOTH_ACTIVITY_INFO";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_PROCESS_MEMORY_STATE:
+ return "ATOM_PROCESS_MEMORY_STATE";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SYSTEM_ELAPSED_REALTIME:
+ return "ATOM_SYSTEM_ELAPSED_REALTIME";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SYSTEM_UPTIME:
+ return "ATOM_SYSTEM_UPTIME";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CPU_ACTIVE_TIME:
+ return "ATOM_CPU_ACTIVE_TIME";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CPU_CLUSTER_TIME:
+ return "ATOM_CPU_CLUSTER_TIME";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_DISK_SPACE:
+ return "ATOM_DISK_SPACE";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_REMAINING_BATTERY_CAPACITY:
+ return "ATOM_REMAINING_BATTERY_CAPACITY";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_FULL_BATTERY_CAPACITY:
+ return "ATOM_FULL_BATTERY_CAPACITY";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_TEMPERATURE:
+ return "ATOM_TEMPERATURE";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BINDER_CALLS:
+ return "ATOM_BINDER_CALLS";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BINDER_CALLS_EXCEPTIONS:
+ return "ATOM_BINDER_CALLS_EXCEPTIONS";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_LOOPER_STATS:
+ return "ATOM_LOOPER_STATS";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_DISK_STATS:
+ return "ATOM_DISK_STATS";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_DIRECTORY_USAGE:
+ return "ATOM_DIRECTORY_USAGE";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_APP_SIZE:
+ return "ATOM_APP_SIZE";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CATEGORY_SIZE:
+ return "ATOM_CATEGORY_SIZE";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_PROC_STATS:
+ return "ATOM_PROC_STATS";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BATTERY_VOLTAGE:
+ return "ATOM_BATTERY_VOLTAGE";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_NUM_FINGERPRINTS_ENROLLED:
+ return "ATOM_NUM_FINGERPRINTS_ENROLLED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_DISK_IO:
+ return "ATOM_DISK_IO";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_POWER_PROFILE:
+ return "ATOM_POWER_PROFILE";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_PROC_STATS_PKG_PROC:
+ return "ATOM_PROC_STATS_PKG_PROC";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_PROCESS_CPU_TIME:
+ return "ATOM_PROCESS_CPU_TIME";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CPU_TIME_PER_THREAD_FREQ:
+ return "ATOM_CPU_TIME_PER_THREAD_FREQ";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_ON_DEVICE_POWER_MEASUREMENT:
+ return "ATOM_ON_DEVICE_POWER_MEASUREMENT";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_DEVICE_CALCULATED_POWER_USE:
+ return "ATOM_DEVICE_CALCULATED_POWER_USE";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_PROCESS_MEMORY_HIGH_WATER_MARK:
+ return "ATOM_PROCESS_MEMORY_HIGH_WATER_MARK";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BATTERY_LEVEL:
+ return "ATOM_BATTERY_LEVEL";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BUILD_INFORMATION:
+ return "ATOM_BUILD_INFORMATION";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BATTERY_CYCLE_COUNT:
+ return "ATOM_BATTERY_CYCLE_COUNT";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_DEBUG_ELAPSED_CLOCK:
+ return "ATOM_DEBUG_ELAPSED_CLOCK";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_DEBUG_FAILING_ELAPSED_CLOCK:
+ return "ATOM_DEBUG_FAILING_ELAPSED_CLOCK";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_NUM_FACES_ENROLLED:
+ return "ATOM_NUM_FACES_ENROLLED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_ROLE_HOLDER:
+ return "ATOM_ROLE_HOLDER";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_DANGEROUS_PERMISSION_STATE:
+ return "ATOM_DANGEROUS_PERMISSION_STATE";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_TRAIN_INFO:
+ return "ATOM_TRAIN_INFO";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_TIME_ZONE_DATA_INFO:
+ return "ATOM_TIME_ZONE_DATA_INFO";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_EXTERNAL_STORAGE_INFO:
+ return "ATOM_EXTERNAL_STORAGE_INFO";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_GPU_STATS_GLOBAL_INFO:
+ return "ATOM_GPU_STATS_GLOBAL_INFO";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_GPU_STATS_APP_INFO:
+ return "ATOM_GPU_STATS_APP_INFO";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SYSTEM_ION_HEAP_SIZE:
+ return "ATOM_SYSTEM_ION_HEAP_SIZE";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_APPS_ON_EXTERNAL_STORAGE_INFO:
+ return "ATOM_APPS_ON_EXTERNAL_STORAGE_INFO";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_FACE_SETTINGS:
+ return "ATOM_FACE_SETTINGS";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_COOLING_DEVICE:
+ return "ATOM_COOLING_DEVICE";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_APP_OPS:
+ return "ATOM_APP_OPS";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_PROCESS_SYSTEM_ION_HEAP_SIZE:
+ return "ATOM_PROCESS_SYSTEM_ION_HEAP_SIZE";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SURFACEFLINGER_STATS_GLOBAL_INFO:
+ return "ATOM_SURFACEFLINGER_STATS_GLOBAL_INFO";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SURFACEFLINGER_STATS_LAYER_INFO:
+ return "ATOM_SURFACEFLINGER_STATS_LAYER_INFO";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_PROCESS_MEMORY_SNAPSHOT:
+ return "ATOM_PROCESS_MEMORY_SNAPSHOT";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_VMS_CLIENT_STATS:
+ return "ATOM_VMS_CLIENT_STATS";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_NOTIFICATION_REMOTE_VIEWS:
+ return "ATOM_NOTIFICATION_REMOTE_VIEWS";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_DANGEROUS_PERMISSION_STATE_SAMPLED:
+ return "ATOM_DANGEROUS_PERMISSION_STATE_SAMPLED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_GRAPHICS_STATS:
+ return "ATOM_GRAPHICS_STATS";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_RUNTIME_APP_OP_ACCESS:
+ return "ATOM_RUNTIME_APP_OP_ACCESS";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_ION_HEAP_SIZE:
+ return "ATOM_ION_HEAP_SIZE";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_PACKAGE_NOTIFICATION_PREFERENCES:
+ return "ATOM_PACKAGE_NOTIFICATION_PREFERENCES";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_PACKAGE_NOTIFICATION_CHANNEL_PREFERENCES:
+ return "ATOM_PACKAGE_NOTIFICATION_CHANNEL_PREFERENCES";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_PACKAGE_NOTIFICATION_CHANNEL_GROUP_PREFERENCES:
+ return "ATOM_PACKAGE_NOTIFICATION_CHANNEL_GROUP_PREFERENCES";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_GNSS_STATS:
+ return "ATOM_GNSS_STATS";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_ATTRIBUTED_APP_OPS:
+ return "ATOM_ATTRIBUTED_APP_OPS";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_VOICE_CALL_SESSION:
+ return "ATOM_VOICE_CALL_SESSION";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_VOICE_CALL_RAT_USAGE:
+ return "ATOM_VOICE_CALL_RAT_USAGE";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SIM_SLOT_STATE:
+ return "ATOM_SIM_SLOT_STATE";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SUPPORTED_RADIO_ACCESS_FAMILY:
+ return "ATOM_SUPPORTED_RADIO_ACCESS_FAMILY";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SETTING_SNAPSHOT:
+ return "ATOM_SETTING_SNAPSHOT";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BLOB_INFO:
+ return "ATOM_BLOB_INFO";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_DATA_USAGE_BYTES_TRANSFER:
+ return "ATOM_DATA_USAGE_BYTES_TRANSFER";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BYTES_TRANSFER_BY_TAG_AND_METERED:
+ return "ATOM_BYTES_TRANSFER_BY_TAG_AND_METERED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_DND_MODE_RULE:
+ return "ATOM_DND_MODE_RULE";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_GENERAL_EXTERNAL_STORAGE_ACCESS_STATS:
+ return "ATOM_GENERAL_EXTERNAL_STORAGE_ACCESS_STATS";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_INCOMING_SMS:
+ return "ATOM_INCOMING_SMS";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_OUTGOING_SMS:
+ return "ATOM_OUTGOING_SMS";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CARRIER_ID_TABLE_VERSION:
+ return "ATOM_CARRIER_ID_TABLE_VERSION";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_DATA_CALL_SESSION:
+ return "ATOM_DATA_CALL_SESSION";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CELLULAR_SERVICE_STATE:
+ return "ATOM_CELLULAR_SERVICE_STATE";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CELLULAR_DATA_SERVICE_SWITCH:
+ return "ATOM_CELLULAR_DATA_SERVICE_SWITCH";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SYSTEM_MEMORY:
+ return "ATOM_SYSTEM_MEMORY";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_IMS_REGISTRATION_TERMINATION:
+ return "ATOM_IMS_REGISTRATION_TERMINATION";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_IMS_REGISTRATION_STATS:
+ return "ATOM_IMS_REGISTRATION_STATS";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CPU_TIME_PER_CLUSTER_FREQ:
+ return "ATOM_CPU_TIME_PER_CLUSTER_FREQ";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CPU_CYCLES_PER_UID_CLUSTER:
+ return "ATOM_CPU_CYCLES_PER_UID_CLUSTER";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_DEVICE_ROTATED_DATA:
+ return "ATOM_DEVICE_ROTATED_DATA";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CPU_CYCLES_PER_THREAD_GROUP_CLUSTER:
+ return "ATOM_CPU_CYCLES_PER_THREAD_GROUP_CLUSTER";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MEDIA_DRM_ACTIVITY_INFO:
+ return "ATOM_MEDIA_DRM_ACTIVITY_INFO";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_OEM_MANAGED_BYTES_TRANSFER:
+ return "ATOM_OEM_MANAGED_BYTES_TRANSFER";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_GNSS_POWER_STATS:
+ return "ATOM_GNSS_POWER_STATS";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_TIME_ZONE_DETECTOR_STATE:
+ return "ATOM_TIME_ZONE_DETECTOR_STATE";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_KEYSTORE2_STORAGE_STATS:
+ return "ATOM_KEYSTORE2_STORAGE_STATS";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_RKP_POOL_STATS:
+ return "ATOM_RKP_POOL_STATS";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_PROCESS_DMABUF_MEMORY:
+ return "ATOM_PROCESS_DMABUF_MEMORY";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_PENDING_ALARM_INFO:
+ return "ATOM_PENDING_ALARM_INFO";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_USER_LEVEL_HIBERNATED_APPS:
+ return "ATOM_USER_LEVEL_HIBERNATED_APPS";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_LAUNCHER_LAYOUT_SNAPSHOT:
+ return "ATOM_LAUNCHER_LAYOUT_SNAPSHOT";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_GLOBAL_HIBERNATED_APPS:
+ return "ATOM_GLOBAL_HIBERNATED_APPS";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_INPUT_EVENT_LATENCY_SKETCH:
+ return "ATOM_INPUT_EVENT_LATENCY_SKETCH";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BATTERY_USAGE_STATS_BEFORE_RESET:
+ return "ATOM_BATTERY_USAGE_STATS_BEFORE_RESET";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BATTERY_USAGE_STATS_SINCE_RESET:
+ return "ATOM_BATTERY_USAGE_STATS_SINCE_RESET";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BATTERY_USAGE_STATS_SINCE_RESET_USING_POWER_PROFILE_MODEL:
+ return "ATOM_BATTERY_USAGE_STATS_SINCE_RESET_USING_POWER_PROFILE_MODEL";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_INSTALLED_INCREMENTAL_PACKAGE:
+ return "ATOM_INSTALLED_INCREMENTAL_PACKAGE";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_TELEPHONY_NETWORK_REQUESTS:
+ return "ATOM_TELEPHONY_NETWORK_REQUESTS";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_APP_SEARCH_STORAGE_INFO:
+ return "ATOM_APP_SEARCH_STORAGE_INFO";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_VMSTAT:
+ return "ATOM_VMSTAT";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_KEYSTORE2_KEY_CREATION_WITH_GENERAL_INFO:
+ return "ATOM_KEYSTORE2_KEY_CREATION_WITH_GENERAL_INFO";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_KEYSTORE2_KEY_CREATION_WITH_AUTH_INFO:
+ return "ATOM_KEYSTORE2_KEY_CREATION_WITH_AUTH_INFO";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_KEYSTORE2_KEY_CREATION_WITH_PURPOSE_AND_MODES_INFO:
+ return "ATOM_KEYSTORE2_KEY_CREATION_WITH_PURPOSE_AND_MODES_INFO";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_KEYSTORE2_ATOM_WITH_OVERFLOW:
+ return "ATOM_KEYSTORE2_ATOM_WITH_OVERFLOW";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_KEYSTORE2_KEY_OPERATION_WITH_PURPOSE_AND_MODES_INFO:
+ return "ATOM_KEYSTORE2_KEY_OPERATION_WITH_PURPOSE_AND_MODES_INFO";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_KEYSTORE2_KEY_OPERATION_WITH_GENERAL_INFO:
+ return "ATOM_KEYSTORE2_KEY_OPERATION_WITH_GENERAL_INFO";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_RKP_ERROR_STATS:
+ return "ATOM_RKP_ERROR_STATS";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_KEYSTORE2_CRASH_STATS:
+ return "ATOM_KEYSTORE2_CRASH_STATS";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_VENDOR_APEX_INFO:
+ return "ATOM_VENDOR_APEX_INFO";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_ACCESSIBILITY_SHORTCUT_STATS:
+ return "ATOM_ACCESSIBILITY_SHORTCUT_STATS";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_ACCESSIBILITY_FLOATING_MENU_STATS:
+ return "ATOM_ACCESSIBILITY_FLOATING_MENU_STATS";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_DATA_USAGE_BYTES_TRANSFER_V2:
+ return "ATOM_DATA_USAGE_BYTES_TRANSFER_V2";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MEDIA_CAPABILITIES:
+ return "ATOM_MEDIA_CAPABILITIES";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CAR_WATCHDOG_SYSTEM_IO_USAGE_SUMMARY:
+ return "ATOM_CAR_WATCHDOG_SYSTEM_IO_USAGE_SUMMARY";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CAR_WATCHDOG_UID_IO_USAGE_SUMMARY:
+ return "ATOM_CAR_WATCHDOG_UID_IO_USAGE_SUMMARY";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_IMS_REGISTRATION_FEATURE_TAG_STATS:
+ return "ATOM_IMS_REGISTRATION_FEATURE_TAG_STATS";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_RCS_CLIENT_PROVISIONING_STATS:
+ return "ATOM_RCS_CLIENT_PROVISIONING_STATS";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_RCS_ACS_PROVISIONING_STATS:
+ return "ATOM_RCS_ACS_PROVISIONING_STATS";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SIP_DELEGATE_STATS:
+ return "ATOM_SIP_DELEGATE_STATS";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SIP_TRANSPORT_FEATURE_TAG_STATS:
+ return "ATOM_SIP_TRANSPORT_FEATURE_TAG_STATS";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SIP_MESSAGE_RESPONSE:
+ return "ATOM_SIP_MESSAGE_RESPONSE";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SIP_TRANSPORT_SESSION:
+ return "ATOM_SIP_TRANSPORT_SESSION";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_IMS_DEDICATED_BEARER_LISTENER_EVENT:
+ return "ATOM_IMS_DEDICATED_BEARER_LISTENER_EVENT";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_IMS_DEDICATED_BEARER_EVENT:
+ return "ATOM_IMS_DEDICATED_BEARER_EVENT";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_IMS_REGISTRATION_SERVICE_DESC_STATS:
+ return "ATOM_IMS_REGISTRATION_SERVICE_DESC_STATS";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_UCE_EVENT_STATS:
+ return "ATOM_UCE_EVENT_STATS";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_PRESENCE_NOTIFY_EVENT:
+ return "ATOM_PRESENCE_NOTIFY_EVENT";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_GBA_EVENT:
+ return "ATOM_GBA_EVENT";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_PER_SIM_STATUS:
+ return "ATOM_PER_SIM_STATUS";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_GPU_WORK_PER_UID:
+ return "ATOM_GPU_WORK_PER_UID";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_PERSISTENT_URI_PERMISSIONS_AMOUNT_PER_PACKAGE:
+ return "ATOM_PERSISTENT_URI_PERMISSIONS_AMOUNT_PER_PACKAGE";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SIGNED_PARTITION_INFO:
+ return "ATOM_SIGNED_PARTITION_INFO";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_PINNED_FILE_SIZES_PER_PACKAGE:
+ return "ATOM_PINNED_FILE_SIZES_PER_PACKAGE";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_PENDING_INTENTS_PER_PACKAGE:
+ return "ATOM_PENDING_INTENTS_PER_PACKAGE";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_USER_INFO:
+ return "ATOM_USER_INFO";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_TELEPHONY_NETWORK_REQUESTS_V2:
+ return "ATOM_TELEPHONY_NETWORK_REQUESTS_V2";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_DEVICE_TELEPHONY_PROPERTIES:
+ return "ATOM_DEVICE_TELEPHONY_PROPERTIES";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_REMOTE_KEY_PROVISIONING_ERROR_COUNTS:
+ return "ATOM_REMOTE_KEY_PROVISIONING_ERROR_COUNTS";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SAFETY_STATE:
+ return "ATOM_SAFETY_STATE";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_INCOMING_MMS:
+ return "ATOM_INCOMING_MMS";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_OUTGOING_MMS:
+ return "ATOM_OUTGOING_MMS";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MULTI_USER_INFO:
+ return "ATOM_MULTI_USER_INFO";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_NETWORK_BPF_MAP_INFO:
+ return "ATOM_NETWORK_BPF_MAP_INFO";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_OUTGOING_SHORT_CODE_SMS:
+ return "ATOM_OUTGOING_SHORT_CODE_SMS";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CONNECTIVITY_STATE_SAMPLE:
+ return "ATOM_CONNECTIVITY_STATE_SAMPLE";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_NETWORK_SELECTION_REMATCH_REASONS_INFO:
+ return "ATOM_NETWORK_SELECTION_REMATCH_REASONS_INFO";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_GAME_MODE_INFO:
+ return "ATOM_GAME_MODE_INFO";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_GAME_MODE_CONFIGURATION:
+ return "ATOM_GAME_MODE_CONFIGURATION";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_GAME_MODE_LISTENER:
+ return "ATOM_GAME_MODE_LISTENER";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_NETWORK_SLICE_REQUEST_COUNT:
+ return "ATOM_NETWORK_SLICE_REQUEST_COUNT";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WS_TILE_SNAPSHOT:
+ return "ATOM_WS_TILE_SNAPSHOT";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WS_ACTIVE_WATCH_FACE_COMPLICATION_SET_SNAPSHOT:
+ return "ATOM_WS_ACTIVE_WATCH_FACE_COMPLICATION_SET_SNAPSHOT";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_PROCESS_STATE:
+ return "ATOM_PROCESS_STATE";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_PROCESS_ASSOCIATION:
+ return "ATOM_PROCESS_ASSOCIATION";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_ADPF_SYSTEM_COMPONENT_INFO:
+ return "ATOM_ADPF_SYSTEM_COMPONENT_INFO";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_NOTIFICATION_MEMORY_USE:
+ return "ATOM_NOTIFICATION_MEMORY_USE";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_HDR_CAPABILITIES:
+ return "ATOM_HDR_CAPABILITIES";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WS_FAVOURITE_WATCH_FACE_LIST_SNAPSHOT:
+ return "ATOM_WS_FAVOURITE_WATCH_FACE_LIST_SNAPSHOT";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WIFI_AWARE_NDP_REPORTED:
+ return "ATOM_WIFI_AWARE_NDP_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WIFI_AWARE_ATTACH_REPORTED:
+ return "ATOM_WIFI_AWARE_ATTACH_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WIFI_SELF_RECOVERY_TRIGGERED:
+ return "ATOM_WIFI_SELF_RECOVERY_TRIGGERED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SOFT_AP_STARTED:
+ return "ATOM_SOFT_AP_STARTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SOFT_AP_STOPPED:
+ return "ATOM_SOFT_AP_STOPPED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WIFI_LOCK_RELEASED:
+ return "ATOM_WIFI_LOCK_RELEASED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WIFI_LOCK_DEACTIVATED:
+ return "ATOM_WIFI_LOCK_DEACTIVATED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WIFI_CONFIG_SAVED:
+ return "ATOM_WIFI_CONFIG_SAVED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WIFI_AWARE_RESOURCE_USING_CHANGED:
+ return "ATOM_WIFI_AWARE_RESOURCE_USING_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WIFI_AWARE_HAL_API_CALLED:
+ return "ATOM_WIFI_AWARE_HAL_API_CALLED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WIFI_LOCAL_ONLY_REQUEST_RECEIVED:
+ return "ATOM_WIFI_LOCAL_ONLY_REQUEST_RECEIVED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WIFI_LOCAL_ONLY_REQUEST_SCAN_TRIGGERED:
+ return "ATOM_WIFI_LOCAL_ONLY_REQUEST_SCAN_TRIGGERED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WIFI_THREAD_TASK_EXECUTED:
+ return "ATOM_WIFI_THREAD_TASK_EXECUTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WIFI_STATE_CHANGED:
+ return "ATOM_WIFI_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WIFI_AWARE_CAPABILITIES:
+ return "ATOM_WIFI_AWARE_CAPABILITIES";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WIFI_MODULE_INFO:
+ return "ATOM_WIFI_MODULE_INFO";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SETTINGS_SPA_REPORTED:
+ return "ATOM_SETTINGS_SPA_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_EXPRESS_EVENT_REPORTED:
+ return "ATOM_EXPRESS_EVENT_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_EXPRESS_HISTOGRAM_SAMPLE_REPORTED:
+ return "ATOM_EXPRESS_HISTOGRAM_SAMPLE_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_EXPRESS_UID_EVENT_REPORTED:
+ return "ATOM_EXPRESS_UID_EVENT_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_EXPRESS_UID_HISTOGRAM_SAMPLE_REPORTED:
+ return "ATOM_EXPRESS_UID_HISTOGRAM_SAMPLE_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_PERMISSION_RATIONALE_DIALOG_VIEWED:
+ return "ATOM_PERMISSION_RATIONALE_DIALOG_VIEWED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_PERMISSION_RATIONALE_DIALOG_ACTION_REPORTED:
+ return "ATOM_PERMISSION_RATIONALE_DIALOG_ACTION_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_APP_DATA_SHARING_UPDATES_NOTIFICATION_INTERACTION:
+ return "ATOM_APP_DATA_SHARING_UPDATES_NOTIFICATION_INTERACTION";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_APP_DATA_SHARING_UPDATES_FRAGMENT_VIEWED:
+ return "ATOM_APP_DATA_SHARING_UPDATES_FRAGMENT_VIEWED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_APP_DATA_SHARING_UPDATES_FRAGMENT_ACTION_REPORTED:
+ return "ATOM_APP_DATA_SHARING_UPDATES_FRAGMENT_ACTION_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WS_INCOMING_CALL_ACTION_REPORTED:
+ return "ATOM_WS_INCOMING_CALL_ACTION_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WS_CALL_DISCONNECTION_REPORTED:
+ return "ATOM_WS_CALL_DISCONNECTION_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WS_CALL_DURATION_REPORTED:
+ return "ATOM_WS_CALL_DURATION_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WS_CALL_USER_EXPERIENCE_LATENCY_REPORTED:
+ return "ATOM_WS_CALL_USER_EXPERIENCE_LATENCY_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WS_CALL_INTERACTION_REPORTED:
+ return "ATOM_WS_CALL_INTERACTION_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_FULL_SCREEN_INTENT_LAUNCHED:
+ return "ATOM_FULL_SCREEN_INTENT_LAUNCHED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BAL_ALLOWED:
+ return "ATOM_BAL_ALLOWED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_IN_TASK_ACTIVITY_STARTED:
+ return "ATOM_IN_TASK_ACTIVITY_STARTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CACHED_APPS_HIGH_WATERMARK:
+ return "ATOM_CACHED_APPS_HIGH_WATERMARK";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_ODREFRESH_REPORTED:
+ return "ATOM_ODREFRESH_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_ODSIGN_REPORTED:
+ return "ATOM_ODSIGN_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_ART_DATUM_REPORTED:
+ return "ATOM_ART_DATUM_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_ART_DEVICE_DATUM_REPORTED:
+ return "ATOM_ART_DEVICE_DATUM_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_ART_DATUM_DELTA_REPORTED:
+ return "ATOM_ART_DATUM_DELTA_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BACKGROUND_DEXOPT_JOB_ENDED:
+ return "ATOM_BACKGROUND_DEXOPT_JOB_ENDED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WEAR_ADAPTIVE_SUSPEND_STATS_REPORTED:
+ return "ATOM_WEAR_ADAPTIVE_SUSPEND_STATS_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WEAR_POWER_ANOMALY_SERVICE_OPERATIONAL_STATS_REPORTED:
+ return "ATOM_WEAR_POWER_ANOMALY_SERVICE_OPERATIONAL_STATS_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_WEAR_POWER_ANOMALY_SERVICE_EVENT_STATS_REPORTED:
+ return "ATOM_WEAR_POWER_ANOMALY_SERVICE_EVENT_STATS_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_EMERGENCY_STATE_CHANGED:
+ return "ATOM_EMERGENCY_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_DND_STATE_CHANGED:
+ return "ATOM_DND_STATE_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MTE_STATE:
+ return "ATOM_MTE_STATE";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_AD_SERVICES_BACK_COMPAT_GET_TOPICS_REPORTED:
+ return "ATOM_AD_SERVICES_BACK_COMPAT_GET_TOPICS_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_AD_SERVICES_BACK_COMPAT_EPOCH_COMPUTATION_CLASSIFIER_REPORTED:
+ return "ATOM_AD_SERVICES_BACK_COMPAT_EPOCH_COMPUTATION_CLASSIFIER_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_AD_SERVICES_MEASUREMENT_DEBUG_KEYS:
+ return "ATOM_AD_SERVICES_MEASUREMENT_DEBUG_KEYS";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_AD_SERVICES_ERROR_REPORTED:
+ return "ATOM_AD_SERVICES_ERROR_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_AD_SERVICES_BACKGROUND_JOBS_EXECUTION_REPORTED:
+ return "ATOM_AD_SERVICES_BACKGROUND_JOBS_EXECUTION_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_AD_SERVICES_MEASUREMENT_DELAYED_SOURCE_REGISTRATION:
+ return "ATOM_AD_SERVICES_MEASUREMENT_DELAYED_SOURCE_REGISTRATION";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_AD_SERVICES_MEASUREMENT_ATTRIBUTION:
+ return "ATOM_AD_SERVICES_MEASUREMENT_ATTRIBUTION";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_AD_SERVICES_MEASUREMENT_JOBS:
+ return "ATOM_AD_SERVICES_MEASUREMENT_JOBS";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_AD_SERVICES_MEASUREMENT_WIPEOUT:
+ return "ATOM_AD_SERVICES_MEASUREMENT_WIPEOUT";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_AD_SERVICES_CONSENT_MIGRATED:
+ return "ATOM_AD_SERVICES_CONSENT_MIGRATED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_RKPD_POOL_STATS:
+ return "ATOM_RKPD_POOL_STATS";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_RKPD_CLIENT_OPERATION:
+ return "ATOM_RKPD_CLIENT_OPERATION";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_AUTOFILL_UI_EVENT_REPORTED:
+ return "ATOM_AUTOFILL_UI_EVENT_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_AUTOFILL_FILL_REQUEST_REPORTED:
+ return "ATOM_AUTOFILL_FILL_REQUEST_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_AUTOFILL_FILL_RESPONSE_REPORTED:
+ return "ATOM_AUTOFILL_FILL_RESPONSE_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_AUTOFILL_SAVE_EVENT_REPORTED:
+ return "ATOM_AUTOFILL_SAVE_EVENT_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_AUTOFILL_SESSION_COMMITTED:
+ return "ATOM_AUTOFILL_SESSION_COMMITTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_AUTOFILL_FIELD_CLASSIFICATION_EVENT_REPORTED:
+ return "ATOM_AUTOFILL_FIELD_CLASSIFICATION_EVENT_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_TEST_EXTENSION_ATOM_REPORTED:
+ return "ATOM_TEST_EXTENSION_ATOM_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_TEST_RESTRICTED_ATOM_REPORTED:
+ return "ATOM_TEST_RESTRICTED_ATOM_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_STATS_SOCKET_LOSS_REPORTED:
+ return "ATOM_STATS_SOCKET_LOSS_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_PLUGIN_INITIALIZED:
+ return "ATOM_PLUGIN_INITIALIZED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_TV_LOW_POWER_STANDBY_POLICY:
+ return "ATOM_TV_LOW_POWER_STANDBY_POLICY";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_LOCKSCREEN_SHORTCUT_SELECTED:
+ return "ATOM_LOCKSCREEN_SHORTCUT_SELECTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_LOCKSCREEN_SHORTCUT_TRIGGERED:
+ return "ATOM_LOCKSCREEN_SHORTCUT_TRIGGERED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_EMERGENCY_NUMBERS_INFO:
+ return "ATOM_EMERGENCY_NUMBERS_INFO";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_QUALIFIED_RAT_LIST_CHANGED:
+ return "ATOM_QUALIFIED_RAT_LIST_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_QNS_IMS_CALL_DROP_STATS:
+ return "ATOM_QNS_IMS_CALL_DROP_STATS";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_QNS_FALLBACK_RESTRICTION_CHANGED:
+ return "ATOM_QNS_FALLBACK_RESTRICTION_CHANGED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_QNS_RAT_PREFERENCE_MISMATCH_INFO:
+ return "ATOM_QNS_RAT_PREFERENCE_MISMATCH_INFO";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_QNS_HANDOVER_TIME_MILLIS:
+ return "ATOM_QNS_HANDOVER_TIME_MILLIS";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_QNS_HANDOVER_PINGPONG:
+ return "ATOM_QNS_HANDOVER_PINGPONG";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SATELLITE_CONTROLLER:
+ return "ATOM_SATELLITE_CONTROLLER";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SATELLITE_SESSION:
+ return "ATOM_SATELLITE_SESSION";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SATELLITE_INCOMING_DATAGRAM:
+ return "ATOM_SATELLITE_INCOMING_DATAGRAM";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SATELLITE_OUTGOING_DATAGRAM:
+ return "ATOM_SATELLITE_OUTGOING_DATAGRAM";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SATELLITE_PROVISION:
+ return "ATOM_SATELLITE_PROVISION";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SATELLITE_SOS_MESSAGE_RECOMMENDER:
+ return "ATOM_SATELLITE_SOS_MESSAGE_RECOMMENDER";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_IKE_SESSION_TERMINATED:
+ return "ATOM_IKE_SESSION_TERMINATED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_IKE_LIVENESS_CHECK_SESSION_VALIDATED:
+ return "ATOM_IKE_LIVENESS_CHECK_SESSION_VALIDATED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BLUETOOTH_HASHED_DEVICE_NAME_REPORTED:
+ return "ATOM_BLUETOOTH_HASHED_DEVICE_NAME_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BLUETOOTH_L2CAP_COC_CLIENT_CONNECTION:
+ return "ATOM_BLUETOOTH_L2CAP_COC_CLIENT_CONNECTION";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BLUETOOTH_L2CAP_COC_SERVER_CONNECTION:
+ return "ATOM_BLUETOOTH_L2CAP_COC_SERVER_CONNECTION";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BLUETOOTH_LE_SESSION_CONNECTED:
+ return "ATOM_BLUETOOTH_LE_SESSION_CONNECTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_RESTRICTED_BLUETOOTH_DEVICE_NAME_REPORTED:
+ return "ATOM_RESTRICTED_BLUETOOTH_DEVICE_NAME_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_BLUETOOTH_PROFILE_CONNECTION_ATTEMPTED:
+ return "ATOM_BLUETOOTH_PROFILE_CONNECTION_ATTEMPTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_HEALTH_CONNECT_UI_IMPRESSION:
+ return "ATOM_HEALTH_CONNECT_UI_IMPRESSION";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_HEALTH_CONNECT_UI_INTERACTION:
+ return "ATOM_HEALTH_CONNECT_UI_INTERACTION";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_HEALTH_CONNECT_APP_OPENED_REPORTED:
+ return "ATOM_HEALTH_CONNECT_APP_OPENED_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_HEALTH_CONNECT_API_CALLED:
+ return "ATOM_HEALTH_CONNECT_API_CALLED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_HEALTH_CONNECT_USAGE_STATS:
+ return "ATOM_HEALTH_CONNECT_USAGE_STATS";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_HEALTH_CONNECT_STORAGE_STATS:
+ return "ATOM_HEALTH_CONNECT_STORAGE_STATS";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_HEALTH_CONNECT_API_INVOKED:
+ return "ATOM_HEALTH_CONNECT_API_INVOKED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_EXERCISE_ROUTE_API_CALLED:
+ return "ATOM_EXERCISE_ROUTE_API_CALLED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_ATOM_9999:
+ return "ATOM_ATOM_9999";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_ATOM_99999:
+ return "ATOM_ATOM_99999";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_THREADNETWORK_TELEMETRY_DATA_REPORTED:
+ return "ATOM_THREADNETWORK_TELEMETRY_DATA_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_THREADNETWORK_TOPO_ENTRY_REPEATED:
+ return "ATOM_THREADNETWORK_TOPO_ENTRY_REPEATED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_THREADNETWORK_DEVICE_INFO_REPORTED:
+ return "ATOM_THREADNETWORK_DEVICE_INFO_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_EMERGENCY_NUMBER_DIALED:
+ return "ATOM_EMERGENCY_NUMBER_DIALED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SANDBOX_API_CALLED:
+ return "ATOM_SANDBOX_API_CALLED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SANDBOX_ACTIVITY_EVENT_OCCURRED:
+ return "ATOM_SANDBOX_ACTIVITY_EVENT_OCCURRED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_SANDBOX_SDK_STORAGE:
+ return "ATOM_SANDBOX_SDK_STORAGE";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CRONET_ENGINE_CREATED:
+ return "ATOM_CRONET_ENGINE_CREATED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CRONET_TRAFFIC_REPORTED:
+ return "ATOM_CRONET_TRAFFIC_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CRONET_ENGINE_BUILDER_INITIALIZED:
+ return "ATOM_CRONET_ENGINE_BUILDER_INITIALIZED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CRONET_HTTP_FLAGS_INITIALIZED:
+ return "ATOM_CRONET_HTTP_FLAGS_INITIALIZED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CRONET_INITIALIZED:
+ return "ATOM_CRONET_INITIALIZED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_DAILY_KEEPALIVE_INFO_REPORTED:
+ return "ATOM_DAILY_KEEPALIVE_INFO_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_IP_CLIENT_RA_INFO_REPORTED:
+ return "ATOM_IP_CLIENT_RA_INFO_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_APF_SESSION_INFO_REPORTED:
+ return "ATOM_APF_SESSION_INFO_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CREDENTIAL_MANAGER_API_CALLED:
+ return "ATOM_CREDENTIAL_MANAGER_API_CALLED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CREDENTIAL_MANAGER_INIT_PHASE_REPORTED:
+ return "ATOM_CREDENTIAL_MANAGER_INIT_PHASE_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CREDENTIAL_MANAGER_CANDIDATE_PHASE_REPORTED:
+ return "ATOM_CREDENTIAL_MANAGER_CANDIDATE_PHASE_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CREDENTIAL_MANAGER_FINAL_PHASE_REPORTED:
+ return "ATOM_CREDENTIAL_MANAGER_FINAL_PHASE_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CREDENTIAL_MANAGER_TOTAL_REPORTED:
+ return "ATOM_CREDENTIAL_MANAGER_TOTAL_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CREDENTIAL_MANAGER_FINALNOUID_REPORTED:
+ return "ATOM_CREDENTIAL_MANAGER_FINALNOUID_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CREDENTIAL_MANAGER_GET_REPORTED:
+ return "ATOM_CREDENTIAL_MANAGER_GET_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CREDENTIAL_MANAGER_AUTH_CLICK_REPORTED:
+ return "ATOM_CREDENTIAL_MANAGER_AUTH_CLICK_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_CREDENTIAL_MANAGER_APIV2_CALLED:
+ return "ATOM_CREDENTIAL_MANAGER_APIV2_CALLED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_UWB_ACTIVITY_INFO:
+ return "ATOM_UWB_ACTIVITY_INFO";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MEDIA_ACTION_REPORTED:
+ return "ATOM_MEDIA_ACTION_REPORTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MEDIA_CONTROLS_LAUNCHED:
+ return "ATOM_MEDIA_CONTROLS_LAUNCHED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MEDIA_CODEC_RECLAIM_REQUEST_COMPLETED:
+ return "ATOM_MEDIA_CODEC_RECLAIM_REQUEST_COMPLETED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MEDIA_CODEC_STARTED:
+ return "ATOM_MEDIA_CODEC_STARTED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MEDIA_CODEC_STOPPED:
+ return "ATOM_MEDIA_CODEC_STOPPED";
+
+ case ::perfetto::protos::pbzero::AtomId::ATOM_MEDIA_CODEC_RENDERED:
+ return "ATOM_MEDIA_CODEC_RENDERED";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/config/statsd/statsd_tracing_config.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_STATSD_STATSD_TRACING_CONFIG_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_STATSD_STATSD_TRACING_CONFIG_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class StatsdPullAtomConfig;
+enum AtomId : int32_t;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class StatsdPullAtomConfig_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ StatsdPullAtomConfig_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit StatsdPullAtomConfig_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit StatsdPullAtomConfig_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_pull_atom_id() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<int32_t> pull_atom_id() const { return GetRepeated<int32_t>(1); }
+ bool has_raw_pull_atom_id() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<int32_t> raw_pull_atom_id() const { return GetRepeated<int32_t>(2); }
+ bool has_pull_frequency_ms() const { return at<3>().valid(); }
+ int32_t pull_frequency_ms() const { return at<3>().as_int32(); }
+ bool has_packages() const { return at<4>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstChars> packages() const { return GetRepeated<::protozero::ConstChars>(4); }
+};
+
+class StatsdPullAtomConfig : public ::protozero::Message {
+ public:
+ using Decoder = StatsdPullAtomConfig_Decoder;
+ enum : int32_t {
+ kPullAtomIdFieldNumber = 1,
+ kRawPullAtomIdFieldNumber = 2,
+ kPullFrequencyMsFieldNumber = 3,
+ kPackagesFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.StatsdPullAtomConfig"; }
+
+
+ using FieldMetadata_PullAtomId =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ AtomId,
+ StatsdPullAtomConfig>;
+
+ static constexpr FieldMetadata_PullAtomId kPullAtomId{};
+ void add_pull_atom_id(AtomId value) {
+ static constexpr uint32_t field_id = FieldMetadata_PullAtomId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_RawPullAtomId =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ StatsdPullAtomConfig>;
+
+ static constexpr FieldMetadata_RawPullAtomId kRawPullAtomId{};
+ void add_raw_pull_atom_id(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_RawPullAtomId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PullFrequencyMs =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ StatsdPullAtomConfig>;
+
+ static constexpr FieldMetadata_PullFrequencyMs kPullFrequencyMs{};
+ void set_pull_frequency_ms(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PullFrequencyMs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Packages =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ StatsdPullAtomConfig>;
+
+ static constexpr FieldMetadata_Packages kPackages{};
+ void add_packages(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Packages::kFieldId, data, size);
+ }
+ void add_packages(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Packages::kFieldId, chars.data, chars.size);
+ }
+ void add_packages(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Packages::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class StatsdTracingConfig_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ StatsdTracingConfig_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit StatsdTracingConfig_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit StatsdTracingConfig_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_push_atom_id() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<int32_t> push_atom_id() const { return GetRepeated<int32_t>(1); }
+ bool has_raw_push_atom_id() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<int32_t> raw_push_atom_id() const { return GetRepeated<int32_t>(2); }
+ bool has_pull_config() const { return at<3>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> pull_config() const { return GetRepeated<::protozero::ConstBytes>(3); }
+};
+
+class StatsdTracingConfig : public ::protozero::Message {
+ public:
+ using Decoder = StatsdTracingConfig_Decoder;
+ enum : int32_t {
+ kPushAtomIdFieldNumber = 1,
+ kRawPushAtomIdFieldNumber = 2,
+ kPullConfigFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.StatsdTracingConfig"; }
+
+
+ using FieldMetadata_PushAtomId =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ AtomId,
+ StatsdTracingConfig>;
+
+ static constexpr FieldMetadata_PushAtomId kPushAtomId{};
+ void add_push_atom_id(AtomId value) {
+ static constexpr uint32_t field_id = FieldMetadata_PushAtomId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_RawPushAtomId =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ StatsdTracingConfig>;
+
+ static constexpr FieldMetadata_RawPushAtomId kRawPushAtomId{};
+ void add_raw_push_atom_id(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_RawPushAtomId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PullConfig =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ StatsdPullAtomConfig,
+ StatsdTracingConfig>;
+
+ static constexpr FieldMetadata_PullConfig kPullConfig{};
+ template <typename T = StatsdPullAtomConfig> T* add_pull_config() {
+ return BeginNestedMessage<T>(3);
+ }
+
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/config/sys_stats/sys_stats_config.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_SYS_STATS_SYS_STATS_CONFIG_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_SYS_STATS_SYS_STATS_CONFIG_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+enum MeminfoCounters : int32_t;
+namespace perfetto_pbzero_enum_SysStatsConfig {
+enum StatCounters : int32_t;
+} // namespace perfetto_pbzero_enum_SysStatsConfig
+using SysStatsConfig_StatCounters = perfetto_pbzero_enum_SysStatsConfig::StatCounters;
+enum VmstatCounters : int32_t;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+namespace perfetto_pbzero_enum_SysStatsConfig {
+enum StatCounters : int32_t {
+ STAT_UNSPECIFIED = 0,
+ STAT_CPU_TIMES = 1,
+ STAT_IRQ_COUNTS = 2,
+ STAT_SOFTIRQ_COUNTS = 3,
+ STAT_FORK_COUNT = 4,
+};
+} // namespace perfetto_pbzero_enum_SysStatsConfig
+using SysStatsConfig_StatCounters = perfetto_pbzero_enum_SysStatsConfig::StatCounters;
+
+
+constexpr SysStatsConfig_StatCounters SysStatsConfig_StatCounters_MIN = SysStatsConfig_StatCounters::STAT_UNSPECIFIED;
+constexpr SysStatsConfig_StatCounters SysStatsConfig_StatCounters_MAX = SysStatsConfig_StatCounters::STAT_FORK_COUNT;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* SysStatsConfig_StatCounters_Name(::perfetto::protos::pbzero::SysStatsConfig_StatCounters value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::SysStatsConfig_StatCounters::STAT_UNSPECIFIED:
+ return "STAT_UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::SysStatsConfig_StatCounters::STAT_CPU_TIMES:
+ return "STAT_CPU_TIMES";
+
+ case ::perfetto::protos::pbzero::SysStatsConfig_StatCounters::STAT_IRQ_COUNTS:
+ return "STAT_IRQ_COUNTS";
+
+ case ::perfetto::protos::pbzero::SysStatsConfig_StatCounters::STAT_SOFTIRQ_COUNTS:
+ return "STAT_SOFTIRQ_COUNTS";
+
+ case ::perfetto::protos::pbzero::SysStatsConfig_StatCounters::STAT_FORK_COUNT:
+ return "STAT_FORK_COUNT";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+class SysStatsConfig_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/11, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ SysStatsConfig_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SysStatsConfig_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SysStatsConfig_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_meminfo_period_ms() const { return at<1>().valid(); }
+ uint32_t meminfo_period_ms() const { return at<1>().as_uint32(); }
+ bool has_meminfo_counters() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<int32_t> meminfo_counters() const { return GetRepeated<int32_t>(2); }
+ bool has_vmstat_period_ms() const { return at<3>().valid(); }
+ uint32_t vmstat_period_ms() const { return at<3>().as_uint32(); }
+ bool has_vmstat_counters() const { return at<4>().valid(); }
+ ::protozero::RepeatedFieldIterator<int32_t> vmstat_counters() const { return GetRepeated<int32_t>(4); }
+ bool has_stat_period_ms() const { return at<5>().valid(); }
+ uint32_t stat_period_ms() const { return at<5>().as_uint32(); }
+ bool has_stat_counters() const { return at<6>().valid(); }
+ ::protozero::RepeatedFieldIterator<int32_t> stat_counters() const { return GetRepeated<int32_t>(6); }
+ bool has_devfreq_period_ms() const { return at<7>().valid(); }
+ uint32_t devfreq_period_ms() const { return at<7>().as_uint32(); }
+ bool has_cpufreq_period_ms() const { return at<8>().valid(); }
+ uint32_t cpufreq_period_ms() const { return at<8>().as_uint32(); }
+ bool has_buddyinfo_period_ms() const { return at<9>().valid(); }
+ uint32_t buddyinfo_period_ms() const { return at<9>().as_uint32(); }
+ bool has_diskstat_period_ms() const { return at<10>().valid(); }
+ uint32_t diskstat_period_ms() const { return at<10>().as_uint32(); }
+ bool has_psi_period_ms() const { return at<11>().valid(); }
+ uint32_t psi_period_ms() const { return at<11>().as_uint32(); }
+};
+
+class SysStatsConfig : public ::protozero::Message {
+ public:
+ using Decoder = SysStatsConfig_Decoder;
+ enum : int32_t {
+ kMeminfoPeriodMsFieldNumber = 1,
+ kMeminfoCountersFieldNumber = 2,
+ kVmstatPeriodMsFieldNumber = 3,
+ kVmstatCountersFieldNumber = 4,
+ kStatPeriodMsFieldNumber = 5,
+ kStatCountersFieldNumber = 6,
+ kDevfreqPeriodMsFieldNumber = 7,
+ kCpufreqPeriodMsFieldNumber = 8,
+ kBuddyinfoPeriodMsFieldNumber = 9,
+ kDiskstatPeriodMsFieldNumber = 10,
+ kPsiPeriodMsFieldNumber = 11,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SysStatsConfig"; }
+
+
+ using StatCounters = ::perfetto::protos::pbzero::SysStatsConfig_StatCounters;
+ static inline const char* StatCounters_Name(StatCounters value) {
+ return ::perfetto::protos::pbzero::SysStatsConfig_StatCounters_Name(value);
+ }
+ static inline const StatCounters STAT_UNSPECIFIED = StatCounters::STAT_UNSPECIFIED;
+ static inline const StatCounters STAT_CPU_TIMES = StatCounters::STAT_CPU_TIMES;
+ static inline const StatCounters STAT_IRQ_COUNTS = StatCounters::STAT_IRQ_COUNTS;
+ static inline const StatCounters STAT_SOFTIRQ_COUNTS = StatCounters::STAT_SOFTIRQ_COUNTS;
+ static inline const StatCounters STAT_FORK_COUNT = StatCounters::STAT_FORK_COUNT;
+
+ using FieldMetadata_MeminfoPeriodMs =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SysStatsConfig>;
+
+ static constexpr FieldMetadata_MeminfoPeriodMs kMeminfoPeriodMs{};
+ void set_meminfo_period_ms(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MeminfoPeriodMs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MeminfoCounters =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ MeminfoCounters,
+ SysStatsConfig>;
+
+ static constexpr FieldMetadata_MeminfoCounters kMeminfoCounters{};
+ void add_meminfo_counters(MeminfoCounters value) {
+ static constexpr uint32_t field_id = FieldMetadata_MeminfoCounters::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_VmstatPeriodMs =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SysStatsConfig>;
+
+ static constexpr FieldMetadata_VmstatPeriodMs kVmstatPeriodMs{};
+ void set_vmstat_period_ms(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_VmstatPeriodMs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_VmstatCounters =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ VmstatCounters,
+ SysStatsConfig>;
+
+ static constexpr FieldMetadata_VmstatCounters kVmstatCounters{};
+ void add_vmstat_counters(VmstatCounters value) {
+ static constexpr uint32_t field_id = FieldMetadata_VmstatCounters::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_StatPeriodMs =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SysStatsConfig>;
+
+ static constexpr FieldMetadata_StatPeriodMs kStatPeriodMs{};
+ void set_stat_period_ms(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_StatPeriodMs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_StatCounters =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ SysStatsConfig_StatCounters,
+ SysStatsConfig>;
+
+ static constexpr FieldMetadata_StatCounters kStatCounters{};
+ void add_stat_counters(SysStatsConfig_StatCounters value) {
+ static constexpr uint32_t field_id = FieldMetadata_StatCounters::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DevfreqPeriodMs =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SysStatsConfig>;
+
+ static constexpr FieldMetadata_DevfreqPeriodMs kDevfreqPeriodMs{};
+ void set_devfreq_period_ms(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DevfreqPeriodMs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CpufreqPeriodMs =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SysStatsConfig>;
+
+ static constexpr FieldMetadata_CpufreqPeriodMs kCpufreqPeriodMs{};
+ void set_cpufreq_period_ms(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CpufreqPeriodMs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BuddyinfoPeriodMs =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SysStatsConfig>;
+
+ static constexpr FieldMetadata_BuddyinfoPeriodMs kBuddyinfoPeriodMs{};
+ void set_buddyinfo_period_ms(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BuddyinfoPeriodMs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DiskstatPeriodMs =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SysStatsConfig>;
+
+ static constexpr FieldMetadata_DiskstatPeriodMs kDiskstatPeriodMs{};
+ void set_diskstat_period_ms(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DiskstatPeriodMs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PsiPeriodMs =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SysStatsConfig>;
+
+ static constexpr FieldMetadata_PsiPeriodMs kPsiPeriodMs{};
+ void set_psi_period_ms(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PsiPeriodMs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/config/system_info/system_info.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_SYSTEM_INFO_SYSTEM_INFO_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_SYSTEM_INFO_SYSTEM_INFO_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class SystemInfoConfig_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/0, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ SystemInfoConfig_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SystemInfoConfig_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SystemInfoConfig_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+};
+
+class SystemInfoConfig : public ::protozero::Message {
+ public:
+ using Decoder = SystemInfoConfig_Decoder;
+ static constexpr const char* GetName() { return ".perfetto.protos.SystemInfoConfig"; }
+
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/config/track_event/track_event_config.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_TRACK_EVENT_TRACK_EVENT_CONFIG_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_TRACK_EVENT_TRACK_EVENT_CONFIG_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class TrackEventConfig_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/9, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ TrackEventConfig_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TrackEventConfig_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TrackEventConfig_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_disabled_categories() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstChars> disabled_categories() const { return GetRepeated<::protozero::ConstChars>(1); }
+ bool has_enabled_categories() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstChars> enabled_categories() const { return GetRepeated<::protozero::ConstChars>(2); }
+ bool has_disabled_tags() const { return at<3>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstChars> disabled_tags() const { return GetRepeated<::protozero::ConstChars>(3); }
+ bool has_enabled_tags() const { return at<4>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstChars> enabled_tags() const { return GetRepeated<::protozero::ConstChars>(4); }
+ bool has_disable_incremental_timestamps() const { return at<5>().valid(); }
+ bool disable_incremental_timestamps() const { return at<5>().as_bool(); }
+ bool has_timestamp_unit_multiplier() const { return at<6>().valid(); }
+ uint64_t timestamp_unit_multiplier() const { return at<6>().as_uint64(); }
+ bool has_filter_debug_annotations() const { return at<7>().valid(); }
+ bool filter_debug_annotations() const { return at<7>().as_bool(); }
+ bool has_enable_thread_time_sampling() const { return at<8>().valid(); }
+ bool enable_thread_time_sampling() const { return at<8>().as_bool(); }
+ bool has_filter_dynamic_event_names() const { return at<9>().valid(); }
+ bool filter_dynamic_event_names() const { return at<9>().as_bool(); }
+};
+
+class TrackEventConfig : public ::protozero::Message {
+ public:
+ using Decoder = TrackEventConfig_Decoder;
+ enum : int32_t {
+ kDisabledCategoriesFieldNumber = 1,
+ kEnabledCategoriesFieldNumber = 2,
+ kDisabledTagsFieldNumber = 3,
+ kEnabledTagsFieldNumber = 4,
+ kDisableIncrementalTimestampsFieldNumber = 5,
+ kTimestampUnitMultiplierFieldNumber = 6,
+ kFilterDebugAnnotationsFieldNumber = 7,
+ kEnableThreadTimeSamplingFieldNumber = 8,
+ kFilterDynamicEventNamesFieldNumber = 9,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TrackEventConfig"; }
+
+
+ using FieldMetadata_DisabledCategories =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ TrackEventConfig>;
+
+ static constexpr FieldMetadata_DisabledCategories kDisabledCategories{};
+ void add_disabled_categories(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_DisabledCategories::kFieldId, data, size);
+ }
+ void add_disabled_categories(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_DisabledCategories::kFieldId, chars.data, chars.size);
+ }
+ void add_disabled_categories(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_DisabledCategories::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_EnabledCategories =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ TrackEventConfig>;
+
+ static constexpr FieldMetadata_EnabledCategories kEnabledCategories{};
+ void add_enabled_categories(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_EnabledCategories::kFieldId, data, size);
+ }
+ void add_enabled_categories(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_EnabledCategories::kFieldId, chars.data, chars.size);
+ }
+ void add_enabled_categories(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_EnabledCategories::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DisabledTags =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ TrackEventConfig>;
+
+ static constexpr FieldMetadata_DisabledTags kDisabledTags{};
+ void add_disabled_tags(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_DisabledTags::kFieldId, data, size);
+ }
+ void add_disabled_tags(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_DisabledTags::kFieldId, chars.data, chars.size);
+ }
+ void add_disabled_tags(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_DisabledTags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_EnabledTags =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ TrackEventConfig>;
+
+ static constexpr FieldMetadata_EnabledTags kEnabledTags{};
+ void add_enabled_tags(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_EnabledTags::kFieldId, data, size);
+ }
+ void add_enabled_tags(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_EnabledTags::kFieldId, chars.data, chars.size);
+ }
+ void add_enabled_tags(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_EnabledTags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DisableIncrementalTimestamps =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ TrackEventConfig>;
+
+ static constexpr FieldMetadata_DisableIncrementalTimestamps kDisableIncrementalTimestamps{};
+ void set_disable_incremental_timestamps(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_DisableIncrementalTimestamps::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimestampUnitMultiplier =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TrackEventConfig>;
+
+ static constexpr FieldMetadata_TimestampUnitMultiplier kTimestampUnitMultiplier{};
+ void set_timestamp_unit_multiplier(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimestampUnitMultiplier::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FilterDebugAnnotations =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ TrackEventConfig>;
+
+ static constexpr FieldMetadata_FilterDebugAnnotations kFilterDebugAnnotations{};
+ void set_filter_debug_annotations(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_FilterDebugAnnotations::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_EnableThreadTimeSampling =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ TrackEventConfig>;
+
+ static constexpr FieldMetadata_EnableThreadTimeSampling kEnableThreadTimeSampling{};
+ void set_enable_thread_time_sampling(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_EnableThreadTimeSampling::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FilterDynamicEventNames =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ TrackEventConfig>;
+
+ static constexpr FieldMetadata_FilterDynamicEventNames kFilterDynamicEventNames{};
+ void set_filter_dynamic_event_names(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_FilterDynamicEventNames::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/config/chrome/chrome_config.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_CHROME_CHROME_CONFIG_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_CHROME_CHROME_CONFIG_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+namespace perfetto_pbzero_enum_ChromeConfig {
+enum ClientPriority : int32_t;
+} // namespace perfetto_pbzero_enum_ChromeConfig
+using ChromeConfig_ClientPriority = perfetto_pbzero_enum_ChromeConfig::ClientPriority;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+namespace perfetto_pbzero_enum_ChromeConfig {
+enum ClientPriority : int32_t {
+ UNKNOWN = 0,
+ BACKGROUND = 1,
+ USER_INITIATED = 2,
+};
+} // namespace perfetto_pbzero_enum_ChromeConfig
+using ChromeConfig_ClientPriority = perfetto_pbzero_enum_ChromeConfig::ClientPriority;
+
+
+constexpr ChromeConfig_ClientPriority ChromeConfig_ClientPriority_MIN = ChromeConfig_ClientPriority::UNKNOWN;
+constexpr ChromeConfig_ClientPriority ChromeConfig_ClientPriority_MAX = ChromeConfig_ClientPriority::USER_INITIATED;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* ChromeConfig_ClientPriority_Name(::perfetto::protos::pbzero::ChromeConfig_ClientPriority value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::ChromeConfig_ClientPriority::UNKNOWN:
+ return "UNKNOWN";
+
+ case ::perfetto::protos::pbzero::ChromeConfig_ClientPriority::BACKGROUND:
+ return "BACKGROUND";
+
+ case ::perfetto::protos::pbzero::ChromeConfig_ClientPriority::USER_INITIATED:
+ return "USER_INITIATED";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+class ChromeConfig_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ChromeConfig_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ChromeConfig_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ChromeConfig_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_trace_config() const { return at<1>().valid(); }
+ ::protozero::ConstChars trace_config() const { return at<1>().as_string(); }
+ bool has_privacy_filtering_enabled() const { return at<2>().valid(); }
+ bool privacy_filtering_enabled() const { return at<2>().as_bool(); }
+ bool has_convert_to_legacy_json() const { return at<3>().valid(); }
+ bool convert_to_legacy_json() const { return at<3>().as_bool(); }
+ bool has_client_priority() const { return at<4>().valid(); }
+ int32_t client_priority() const { return at<4>().as_int32(); }
+ bool has_json_agent_label_filter() const { return at<5>().valid(); }
+ ::protozero::ConstChars json_agent_label_filter() const { return at<5>().as_string(); }
+};
+
+class ChromeConfig : public ::protozero::Message {
+ public:
+ using Decoder = ChromeConfig_Decoder;
+ enum : int32_t {
+ kTraceConfigFieldNumber = 1,
+ kPrivacyFilteringEnabledFieldNumber = 2,
+ kConvertToLegacyJsonFieldNumber = 3,
+ kClientPriorityFieldNumber = 4,
+ kJsonAgentLabelFilterFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ChromeConfig"; }
+
+
+ using ClientPriority = ::perfetto::protos::pbzero::ChromeConfig_ClientPriority;
+ static inline const char* ClientPriority_Name(ClientPriority value) {
+ return ::perfetto::protos::pbzero::ChromeConfig_ClientPriority_Name(value);
+ }
+ static inline const ClientPriority UNKNOWN = ClientPriority::UNKNOWN;
+ static inline const ClientPriority BACKGROUND = ClientPriority::BACKGROUND;
+ static inline const ClientPriority USER_INITIATED = ClientPriority::USER_INITIATED;
+
+ using FieldMetadata_TraceConfig =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ChromeConfig>;
+
+ static constexpr FieldMetadata_TraceConfig kTraceConfig{};
+ void set_trace_config(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_TraceConfig::kFieldId, data, size);
+ }
+ void set_trace_config(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_TraceConfig::kFieldId, chars.data, chars.size);
+ }
+ void set_trace_config(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_TraceConfig::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PrivacyFilteringEnabled =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ChromeConfig>;
+
+ static constexpr FieldMetadata_PrivacyFilteringEnabled kPrivacyFilteringEnabled{};
+ void set_privacy_filtering_enabled(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_PrivacyFilteringEnabled::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ConvertToLegacyJson =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ChromeConfig>;
+
+ static constexpr FieldMetadata_ConvertToLegacyJson kConvertToLegacyJson{};
+ void set_convert_to_legacy_json(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_ConvertToLegacyJson::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ClientPriority =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ ChromeConfig_ClientPriority,
+ ChromeConfig>;
+
+ static constexpr FieldMetadata_ClientPriority kClientPriority{};
+ void set_client_priority(ChromeConfig_ClientPriority value) {
+ static constexpr uint32_t field_id = FieldMetadata_ClientPriority::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_JsonAgentLabelFilter =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ChromeConfig>;
+
+ static constexpr FieldMetadata_JsonAgentLabelFilter kJsonAgentLabelFilter{};
+ void set_json_agent_label_filter(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_JsonAgentLabelFilter::kFieldId, data, size);
+ }
+ void set_json_agent_label_filter(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_JsonAgentLabelFilter::kFieldId, chars.data, chars.size);
+ }
+ void set_json_agent_label_filter(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_JsonAgentLabelFilter::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/config/chrome/scenario_config.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_CHROME_SCENARIO_CONFIG_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_CHROME_SCENARIO_CONFIG_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class NestedScenarioConfig;
+class ScenarioConfig;
+class TraceConfig;
+class TriggerRule;
+class TriggerRule_HistogramTrigger;
+class TriggerRule_RepeatingInterval;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class TracingTriggerRulesConfig_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ TracingTriggerRulesConfig_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TracingTriggerRulesConfig_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TracingTriggerRulesConfig_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_rules() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> rules() const { return GetRepeated<::protozero::ConstBytes>(1); }
+};
+
+class TracingTriggerRulesConfig : public ::protozero::Message {
+ public:
+ using Decoder = TracingTriggerRulesConfig_Decoder;
+ enum : int32_t {
+ kRulesFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TracingTriggerRulesConfig"; }
+
+
+ using FieldMetadata_Rules =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TriggerRule,
+ TracingTriggerRulesConfig>;
+
+ static constexpr FieldMetadata_Rules kRules{};
+ template <typename T = TriggerRule> T* add_rules() {
+ return BeginNestedMessage<T>(1);
+ }
+
+};
+
+class ChromeFieldTracingConfig_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ ChromeFieldTracingConfig_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ChromeFieldTracingConfig_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ChromeFieldTracingConfig_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_scenarios() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> scenarios() const { return GetRepeated<::protozero::ConstBytes>(1); }
+};
+
+class ChromeFieldTracingConfig : public ::protozero::Message {
+ public:
+ using Decoder = ChromeFieldTracingConfig_Decoder;
+ enum : int32_t {
+ kScenariosFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ChromeFieldTracingConfig"; }
+
+
+ using FieldMetadata_Scenarios =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ScenarioConfig,
+ ChromeFieldTracingConfig>;
+
+ static constexpr FieldMetadata_Scenarios kScenarios{};
+ template <typename T = ScenarioConfig> T* add_scenarios() {
+ return BeginNestedMessage<T>(1);
+ }
+
+};
+
+class ScenarioConfig_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/7, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ ScenarioConfig_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ScenarioConfig_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ScenarioConfig_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_scenario_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars scenario_name() const { return at<1>().as_string(); }
+ bool has_start_rules() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> start_rules() const { return GetRepeated<::protozero::ConstBytes>(2); }
+ bool has_stop_rules() const { return at<3>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> stop_rules() const { return GetRepeated<::protozero::ConstBytes>(3); }
+ bool has_upload_rules() const { return at<4>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> upload_rules() const { return GetRepeated<::protozero::ConstBytes>(4); }
+ bool has_setup_rules() const { return at<5>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> setup_rules() const { return GetRepeated<::protozero::ConstBytes>(5); }
+ bool has_trace_config() const { return at<6>().valid(); }
+ ::protozero::ConstBytes trace_config() const { return at<6>().as_bytes(); }
+ bool has_nested_scenarios() const { return at<7>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> nested_scenarios() const { return GetRepeated<::protozero::ConstBytes>(7); }
+};
+
+class ScenarioConfig : public ::protozero::Message {
+ public:
+ using Decoder = ScenarioConfig_Decoder;
+ enum : int32_t {
+ kScenarioNameFieldNumber = 1,
+ kStartRulesFieldNumber = 2,
+ kStopRulesFieldNumber = 3,
+ kUploadRulesFieldNumber = 4,
+ kSetupRulesFieldNumber = 5,
+ kTraceConfigFieldNumber = 6,
+ kNestedScenariosFieldNumber = 7,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ScenarioConfig"; }
+
+
+ using FieldMetadata_ScenarioName =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ScenarioConfig>;
+
+ static constexpr FieldMetadata_ScenarioName kScenarioName{};
+ void set_scenario_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_ScenarioName::kFieldId, data, size);
+ }
+ void set_scenario_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_ScenarioName::kFieldId, chars.data, chars.size);
+ }
+ void set_scenario_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_ScenarioName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_StartRules =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TriggerRule,
+ ScenarioConfig>;
+
+ static constexpr FieldMetadata_StartRules kStartRules{};
+ template <typename T = TriggerRule> T* add_start_rules() {
+ return BeginNestedMessage<T>(2);
+ }
+
+
+ using FieldMetadata_StopRules =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TriggerRule,
+ ScenarioConfig>;
+
+ static constexpr FieldMetadata_StopRules kStopRules{};
+ template <typename T = TriggerRule> T* add_stop_rules() {
+ return BeginNestedMessage<T>(3);
+ }
+
+
+ using FieldMetadata_UploadRules =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TriggerRule,
+ ScenarioConfig>;
+
+ static constexpr FieldMetadata_UploadRules kUploadRules{};
+ template <typename T = TriggerRule> T* add_upload_rules() {
+ return BeginNestedMessage<T>(4);
+ }
+
+
+ using FieldMetadata_SetupRules =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TriggerRule,
+ ScenarioConfig>;
+
+ static constexpr FieldMetadata_SetupRules kSetupRules{};
+ template <typename T = TriggerRule> T* add_setup_rules() {
+ return BeginNestedMessage<T>(5);
+ }
+
+
+ using FieldMetadata_TraceConfig =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TraceConfig,
+ ScenarioConfig>;
+
+ static constexpr FieldMetadata_TraceConfig kTraceConfig{};
+ template <typename T = TraceConfig> T* set_trace_config() {
+ return BeginNestedMessage<T>(6);
+ }
+
+
+ using FieldMetadata_NestedScenarios =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ NestedScenarioConfig,
+ ScenarioConfig>;
+
+ static constexpr FieldMetadata_NestedScenarios kNestedScenarios{};
+ template <typename T = NestedScenarioConfig> T* add_nested_scenarios() {
+ return BeginNestedMessage<T>(7);
+ }
+
+};
+
+class NestedScenarioConfig_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ NestedScenarioConfig_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit NestedScenarioConfig_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit NestedScenarioConfig_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_scenario_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars scenario_name() const { return at<1>().as_string(); }
+ bool has_start_rules() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> start_rules() const { return GetRepeated<::protozero::ConstBytes>(2); }
+ bool has_stop_rules() const { return at<3>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> stop_rules() const { return GetRepeated<::protozero::ConstBytes>(3); }
+ bool has_upload_rules() const { return at<4>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> upload_rules() const { return GetRepeated<::protozero::ConstBytes>(4); }
+};
+
+class NestedScenarioConfig : public ::protozero::Message {
+ public:
+ using Decoder = NestedScenarioConfig_Decoder;
+ enum : int32_t {
+ kScenarioNameFieldNumber = 1,
+ kStartRulesFieldNumber = 2,
+ kStopRulesFieldNumber = 3,
+ kUploadRulesFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.NestedScenarioConfig"; }
+
+
+ using FieldMetadata_ScenarioName =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ NestedScenarioConfig>;
+
+ static constexpr FieldMetadata_ScenarioName kScenarioName{};
+ void set_scenario_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_ScenarioName::kFieldId, data, size);
+ }
+ void set_scenario_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_ScenarioName::kFieldId, chars.data, chars.size);
+ }
+ void set_scenario_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_ScenarioName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_StartRules =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TriggerRule,
+ NestedScenarioConfig>;
+
+ static constexpr FieldMetadata_StartRules kStartRules{};
+ template <typename T = TriggerRule> T* add_start_rules() {
+ return BeginNestedMessage<T>(2);
+ }
+
+
+ using FieldMetadata_StopRules =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TriggerRule,
+ NestedScenarioConfig>;
+
+ static constexpr FieldMetadata_StopRules kStopRules{};
+ template <typename T = TriggerRule> T* add_stop_rules() {
+ return BeginNestedMessage<T>(3);
+ }
+
+
+ using FieldMetadata_UploadRules =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TriggerRule,
+ NestedScenarioConfig>;
+
+ static constexpr FieldMetadata_UploadRules kUploadRules{};
+ template <typename T = TriggerRule> T* add_upload_rules() {
+ return BeginNestedMessage<T>(4);
+ }
+
+};
+
+class TriggerRule_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/8, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ TriggerRule_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TriggerRule_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TriggerRule_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars name() const { return at<1>().as_string(); }
+ bool has_trigger_chance() const { return at<2>().valid(); }
+ float trigger_chance() const { return at<2>().as_float(); }
+ bool has_delay_ms() const { return at<3>().valid(); }
+ uint64_t delay_ms() const { return at<3>().as_uint64(); }
+ bool has_activation_delay_ms() const { return at<8>().valid(); }
+ uint64_t activation_delay_ms() const { return at<8>().as_uint64(); }
+ bool has_manual_trigger_name() const { return at<4>().valid(); }
+ ::protozero::ConstChars manual_trigger_name() const { return at<4>().as_string(); }
+ bool has_histogram() const { return at<5>().valid(); }
+ ::protozero::ConstBytes histogram() const { return at<5>().as_bytes(); }
+ bool has_repeating_interval() const { return at<6>().valid(); }
+ ::protozero::ConstBytes repeating_interval() const { return at<6>().as_bytes(); }
+};
+
+class TriggerRule : public ::protozero::Message {
+ public:
+ using Decoder = TriggerRule_Decoder;
+ enum : int32_t {
+ kNameFieldNumber = 1,
+ kTriggerChanceFieldNumber = 2,
+ kDelayMsFieldNumber = 3,
+ kActivationDelayMsFieldNumber = 8,
+ kManualTriggerNameFieldNumber = 4,
+ kHistogramFieldNumber = 5,
+ kRepeatingIntervalFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TriggerRule"; }
+
+ using HistogramTrigger = ::perfetto::protos::pbzero::TriggerRule_HistogramTrigger;
+ using RepeatingInterval = ::perfetto::protos::pbzero::TriggerRule_RepeatingInterval;
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ TriggerRule>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TriggerChance =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFloat,
+ float,
+ TriggerRule>;
+
+ static constexpr FieldMetadata_TriggerChance kTriggerChance{};
+ void set_trigger_chance(float value) {
+ static constexpr uint32_t field_id = FieldMetadata_TriggerChance::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFloat>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DelayMs =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TriggerRule>;
+
+ static constexpr FieldMetadata_DelayMs kDelayMs{};
+ void set_delay_ms(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DelayMs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ActivationDelayMs =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TriggerRule>;
+
+ static constexpr FieldMetadata_ActivationDelayMs kActivationDelayMs{};
+ void set_activation_delay_ms(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ActivationDelayMs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ManualTriggerName =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ TriggerRule>;
+
+ static constexpr FieldMetadata_ManualTriggerName kManualTriggerName{};
+ void set_manual_trigger_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_ManualTriggerName::kFieldId, data, size);
+ }
+ void set_manual_trigger_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_ManualTriggerName::kFieldId, chars.data, chars.size);
+ }
+ void set_manual_trigger_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_ManualTriggerName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Histogram =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TriggerRule_HistogramTrigger,
+ TriggerRule>;
+
+ static constexpr FieldMetadata_Histogram kHistogram{};
+ template <typename T = TriggerRule_HistogramTrigger> T* set_histogram() {
+ return BeginNestedMessage<T>(5);
+ }
+
+
+ using FieldMetadata_RepeatingInterval =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TriggerRule_RepeatingInterval,
+ TriggerRule>;
+
+ static constexpr FieldMetadata_RepeatingInterval kRepeatingInterval{};
+ template <typename T = TriggerRule_RepeatingInterval> T* set_repeating_interval() {
+ return BeginNestedMessage<T>(6);
+ }
+
+};
+
+class TriggerRule_RepeatingInterval_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ TriggerRule_RepeatingInterval_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TriggerRule_RepeatingInterval_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TriggerRule_RepeatingInterval_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_period_ms() const { return at<1>().valid(); }
+ uint64_t period_ms() const { return at<1>().as_uint64(); }
+ bool has_randomized() const { return at<2>().valid(); }
+ bool randomized() const { return at<2>().as_bool(); }
+};
+
+class TriggerRule_RepeatingInterval : public ::protozero::Message {
+ public:
+ using Decoder = TriggerRule_RepeatingInterval_Decoder;
+ enum : int32_t {
+ kPeriodMsFieldNumber = 1,
+ kRandomizedFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TriggerRule.RepeatingInterval"; }
+
+
+ using FieldMetadata_PeriodMs =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TriggerRule_RepeatingInterval>;
+
+ static constexpr FieldMetadata_PeriodMs kPeriodMs{};
+ void set_period_ms(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PeriodMs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Randomized =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ TriggerRule_RepeatingInterval>;
+
+ static constexpr FieldMetadata_Randomized kRandomized{};
+ void set_randomized(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_Randomized::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class TriggerRule_HistogramTrigger_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ TriggerRule_HistogramTrigger_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TriggerRule_HistogramTrigger_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TriggerRule_HistogramTrigger_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_histogram_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars histogram_name() const { return at<1>().as_string(); }
+ bool has_min_value() const { return at<2>().valid(); }
+ int64_t min_value() const { return at<2>().as_int64(); }
+ bool has_max_value() const { return at<3>().valid(); }
+ int64_t max_value() const { return at<3>().as_int64(); }
+};
+
+class TriggerRule_HistogramTrigger : public ::protozero::Message {
+ public:
+ using Decoder = TriggerRule_HistogramTrigger_Decoder;
+ enum : int32_t {
+ kHistogramNameFieldNumber = 1,
+ kMinValueFieldNumber = 2,
+ kMaxValueFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TriggerRule.HistogramTrigger"; }
+
+
+ using FieldMetadata_HistogramName =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ TriggerRule_HistogramTrigger>;
+
+ static constexpr FieldMetadata_HistogramName kHistogramName{};
+ void set_histogram_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_HistogramName::kFieldId, data, size);
+ }
+ void set_histogram_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_HistogramName::kFieldId, chars.data, chars.size);
+ }
+ void set_histogram_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_HistogramName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MinValue =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ TriggerRule_HistogramTrigger>;
+
+ static constexpr FieldMetadata_MinValue kMinValue{};
+ void set_min_value(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MinValue::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MaxValue =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ TriggerRule_HistogramTrigger>;
+
+ static constexpr FieldMetadata_MaxValue kMaxValue{};
+ void set_max_value(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MaxValue::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/config/chrome/v8_config.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_CHROME_V8_CONFIG_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_CHROME_V8_CONFIG_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class V8Config_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ V8Config_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit V8Config_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit V8Config_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_log_script_sources() const { return at<1>().valid(); }
+ bool log_script_sources() const { return at<1>().as_bool(); }
+ bool has_log_instructions() const { return at<2>().valid(); }
+ bool log_instructions() const { return at<2>().as_bool(); }
+};
+
+class V8Config : public ::protozero::Message {
+ public:
+ using Decoder = V8Config_Decoder;
+ enum : int32_t {
+ kLogScriptSourcesFieldNumber = 1,
+ kLogInstructionsFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.V8Config"; }
+
+
+ using FieldMetadata_LogScriptSources =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ V8Config>;
+
+ static constexpr FieldMetadata_LogScriptSources kLogScriptSources{};
+ void set_log_script_sources(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_LogScriptSources::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_LogInstructions =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ V8Config>;
+
+ static constexpr FieldMetadata_LogInstructions kLogInstructions{};
+ void set_log_instructions(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_LogInstructions::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/config/data_source_config.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_DATA_SOURCE_CONFIG_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_DATA_SOURCE_CONFIG_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class AndroidGameInterventionListConfig;
+class AndroidInputEventConfig;
+class AndroidLogConfig;
+class AndroidPolledStateConfig;
+class AndroidPowerConfig;
+class AndroidSdkSyspropGuardConfig;
+class AndroidSystemPropertyConfig;
+class ChromeConfig;
+class EtwConfig;
+class FtraceConfig;
+class GpuCounterConfig;
+class HeapprofdConfig;
+class InodeFileConfig;
+class InterceptorConfig;
+class JavaHprofConfig;
+class NetworkPacketTraceConfig;
+class PackagesListConfig;
+class PerfEventConfig;
+class ProcessStatsConfig;
+class ProtoLogConfig;
+class StatsdTracingConfig;
+class SurfaceFlingerLayersConfig;
+class SurfaceFlingerTransactionsConfig;
+class SysStatsConfig;
+class SystemInfoConfig;
+class TestConfig;
+class TrackEventConfig;
+class V8Config;
+class VulkanMemoryConfig;
+namespace perfetto_pbzero_enum_DataSourceConfig {
+enum SessionInitiator : int32_t;
+} // namespace perfetto_pbzero_enum_DataSourceConfig
+using DataSourceConfig_SessionInitiator = perfetto_pbzero_enum_DataSourceConfig::SessionInitiator;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+namespace perfetto_pbzero_enum_DataSourceConfig {
+enum SessionInitiator : int32_t {
+ SESSION_INITIATOR_UNSPECIFIED = 0,
+ SESSION_INITIATOR_TRUSTED_SYSTEM = 1,
+};
+} // namespace perfetto_pbzero_enum_DataSourceConfig
+using DataSourceConfig_SessionInitiator = perfetto_pbzero_enum_DataSourceConfig::SessionInitiator;
+
+
+constexpr DataSourceConfig_SessionInitiator DataSourceConfig_SessionInitiator_MIN = DataSourceConfig_SessionInitiator::SESSION_INITIATOR_UNSPECIFIED;
+constexpr DataSourceConfig_SessionInitiator DataSourceConfig_SessionInitiator_MAX = DataSourceConfig_SessionInitiator::SESSION_INITIATOR_TRUSTED_SYSTEM;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* DataSourceConfig_SessionInitiator_Name(::perfetto::protos::pbzero::DataSourceConfig_SessionInitiator value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::DataSourceConfig_SessionInitiator::SESSION_INITIATOR_UNSPECIFIED:
+ return "SESSION_INITIATOR_UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::DataSourceConfig_SessionInitiator::SESSION_INITIATOR_TRUSTED_SYSTEM:
+ return "SESSION_INITIATOR_TRUSTED_SYSTEM";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+class DataSourceConfig_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/128, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ DataSourceConfig_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit DataSourceConfig_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit DataSourceConfig_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars name() const { return at<1>().as_string(); }
+ bool has_target_buffer() const { return at<2>().valid(); }
+ uint32_t target_buffer() const { return at<2>().as_uint32(); }
+ bool has_trace_duration_ms() const { return at<3>().valid(); }
+ uint32_t trace_duration_ms() const { return at<3>().as_uint32(); }
+ bool has_prefer_suspend_clock_for_duration() const { return at<122>().valid(); }
+ bool prefer_suspend_clock_for_duration() const { return at<122>().as_bool(); }
+ bool has_stop_timeout_ms() const { return at<7>().valid(); }
+ uint32_t stop_timeout_ms() const { return at<7>().as_uint32(); }
+ bool has_enable_extra_guardrails() const { return at<6>().valid(); }
+ bool enable_extra_guardrails() const { return at<6>().as_bool(); }
+ bool has_session_initiator() const { return at<8>().valid(); }
+ int32_t session_initiator() const { return at<8>().as_int32(); }
+ bool has_tracing_session_id() const { return at<4>().valid(); }
+ uint64_t tracing_session_id() const { return at<4>().as_uint64(); }
+ bool has_ftrace_config() const { return at<100>().valid(); }
+ ::protozero::ConstBytes ftrace_config() const { return at<100>().as_bytes(); }
+ bool has_inode_file_config() const { return at<102>().valid(); }
+ ::protozero::ConstBytes inode_file_config() const { return at<102>().as_bytes(); }
+ bool has_process_stats_config() const { return at<103>().valid(); }
+ ::protozero::ConstBytes process_stats_config() const { return at<103>().as_bytes(); }
+ bool has_sys_stats_config() const { return at<104>().valid(); }
+ ::protozero::ConstBytes sys_stats_config() const { return at<104>().as_bytes(); }
+ bool has_heapprofd_config() const { return at<105>().valid(); }
+ ::protozero::ConstBytes heapprofd_config() const { return at<105>().as_bytes(); }
+ bool has_java_hprof_config() const { return at<110>().valid(); }
+ ::protozero::ConstBytes java_hprof_config() const { return at<110>().as_bytes(); }
+ bool has_android_power_config() const { return at<106>().valid(); }
+ ::protozero::ConstBytes android_power_config() const { return at<106>().as_bytes(); }
+ bool has_android_log_config() const { return at<107>().valid(); }
+ ::protozero::ConstBytes android_log_config() const { return at<107>().as_bytes(); }
+ bool has_gpu_counter_config() const { return at<108>().valid(); }
+ ::protozero::ConstBytes gpu_counter_config() const { return at<108>().as_bytes(); }
+ bool has_android_game_intervention_list_config() const { return at<116>().valid(); }
+ ::protozero::ConstBytes android_game_intervention_list_config() const { return at<116>().as_bytes(); }
+ bool has_packages_list_config() const { return at<109>().valid(); }
+ ::protozero::ConstBytes packages_list_config() const { return at<109>().as_bytes(); }
+ bool has_perf_event_config() const { return at<111>().valid(); }
+ ::protozero::ConstBytes perf_event_config() const { return at<111>().as_bytes(); }
+ bool has_vulkan_memory_config() const { return at<112>().valid(); }
+ ::protozero::ConstBytes vulkan_memory_config() const { return at<112>().as_bytes(); }
+ bool has_track_event_config() const { return at<113>().valid(); }
+ ::protozero::ConstBytes track_event_config() const { return at<113>().as_bytes(); }
+ bool has_android_polled_state_config() const { return at<114>().valid(); }
+ ::protozero::ConstBytes android_polled_state_config() const { return at<114>().as_bytes(); }
+ bool has_android_system_property_config() const { return at<118>().valid(); }
+ ::protozero::ConstBytes android_system_property_config() const { return at<118>().as_bytes(); }
+ bool has_statsd_tracing_config() const { return at<117>().valid(); }
+ ::protozero::ConstBytes statsd_tracing_config() const { return at<117>().as_bytes(); }
+ bool has_system_info_config() const { return at<119>().valid(); }
+ ::protozero::ConstBytes system_info_config() const { return at<119>().as_bytes(); }
+ bool has_chrome_config() const { return at<101>().valid(); }
+ ::protozero::ConstBytes chrome_config() const { return at<101>().as_bytes(); }
+ bool has_v8_config() const { return at<127>().valid(); }
+ ::protozero::ConstBytes v8_config() const { return at<127>().as_bytes(); }
+ bool has_interceptor_config() const { return at<115>().valid(); }
+ ::protozero::ConstBytes interceptor_config() const { return at<115>().as_bytes(); }
+ bool has_network_packet_trace_config() const { return at<120>().valid(); }
+ ::protozero::ConstBytes network_packet_trace_config() const { return at<120>().as_bytes(); }
+ bool has_surfaceflinger_layers_config() const { return at<121>().valid(); }
+ ::protozero::ConstBytes surfaceflinger_layers_config() const { return at<121>().as_bytes(); }
+ bool has_surfaceflinger_transactions_config() const { return at<123>().valid(); }
+ ::protozero::ConstBytes surfaceflinger_transactions_config() const { return at<123>().as_bytes(); }
+ bool has_android_sdk_sysprop_guard_config() const { return at<124>().valid(); }
+ ::protozero::ConstBytes android_sdk_sysprop_guard_config() const { return at<124>().as_bytes(); }
+ bool has_etw_config() const { return at<125>().valid(); }
+ ::protozero::ConstBytes etw_config() const { return at<125>().as_bytes(); }
+ bool has_protolog_config() const { return at<126>().valid(); }
+ ::protozero::ConstBytes protolog_config() const { return at<126>().as_bytes(); }
+ bool has_android_input_event_config() const { return at<128>().valid(); }
+ ::protozero::ConstBytes android_input_event_config() const { return at<128>().as_bytes(); }
+ // field legacy_config omitted because its id is too high
+ // field for_testing omitted because its id is too high
+};
+
+class DataSourceConfig : public ::protozero::Message {
+ public:
+ using Decoder = DataSourceConfig_Decoder;
+ enum : int32_t {
+ kNameFieldNumber = 1,
+ kTargetBufferFieldNumber = 2,
+ kTraceDurationMsFieldNumber = 3,
+ kPreferSuspendClockForDurationFieldNumber = 122,
+ kStopTimeoutMsFieldNumber = 7,
+ kEnableExtraGuardrailsFieldNumber = 6,
+ kSessionInitiatorFieldNumber = 8,
+ kTracingSessionIdFieldNumber = 4,
+ kFtraceConfigFieldNumber = 100,
+ kInodeFileConfigFieldNumber = 102,
+ kProcessStatsConfigFieldNumber = 103,
+ kSysStatsConfigFieldNumber = 104,
+ kHeapprofdConfigFieldNumber = 105,
+ kJavaHprofConfigFieldNumber = 110,
+ kAndroidPowerConfigFieldNumber = 106,
+ kAndroidLogConfigFieldNumber = 107,
+ kGpuCounterConfigFieldNumber = 108,
+ kAndroidGameInterventionListConfigFieldNumber = 116,
+ kPackagesListConfigFieldNumber = 109,
+ kPerfEventConfigFieldNumber = 111,
+ kVulkanMemoryConfigFieldNumber = 112,
+ kTrackEventConfigFieldNumber = 113,
+ kAndroidPolledStateConfigFieldNumber = 114,
+ kAndroidSystemPropertyConfigFieldNumber = 118,
+ kStatsdTracingConfigFieldNumber = 117,
+ kSystemInfoConfigFieldNumber = 119,
+ kChromeConfigFieldNumber = 101,
+ kV8ConfigFieldNumber = 127,
+ kInterceptorConfigFieldNumber = 115,
+ kNetworkPacketTraceConfigFieldNumber = 120,
+ kSurfaceflingerLayersConfigFieldNumber = 121,
+ kSurfaceflingerTransactionsConfigFieldNumber = 123,
+ kAndroidSdkSyspropGuardConfigFieldNumber = 124,
+ kEtwConfigFieldNumber = 125,
+ kProtologConfigFieldNumber = 126,
+ kAndroidInputEventConfigFieldNumber = 128,
+ kLegacyConfigFieldNumber = 1000,
+ kForTestingFieldNumber = 1001,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.DataSourceConfig"; }
+
+
+ using SessionInitiator = ::perfetto::protos::pbzero::DataSourceConfig_SessionInitiator;
+ static inline const char* SessionInitiator_Name(SessionInitiator value) {
+ return ::perfetto::protos::pbzero::DataSourceConfig_SessionInitiator_Name(value);
+ }
+ static inline const SessionInitiator SESSION_INITIATOR_UNSPECIFIED = SessionInitiator::SESSION_INITIATOR_UNSPECIFIED;
+ static inline const SessionInitiator SESSION_INITIATOR_TRUSTED_SYSTEM = SessionInitiator::SESSION_INITIATOR_TRUSTED_SYSTEM;
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ DataSourceConfig>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TargetBuffer =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ DataSourceConfig>;
+
+ static constexpr FieldMetadata_TargetBuffer kTargetBuffer{};
+ void set_target_buffer(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TargetBuffer::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TraceDurationMs =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ DataSourceConfig>;
+
+ static constexpr FieldMetadata_TraceDurationMs kTraceDurationMs{};
+ void set_trace_duration_ms(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TraceDurationMs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PreferSuspendClockForDuration =
+ ::protozero::proto_utils::FieldMetadata<
+ 122,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ DataSourceConfig>;
+
+ static constexpr FieldMetadata_PreferSuspendClockForDuration kPreferSuspendClockForDuration{};
+ void set_prefer_suspend_clock_for_duration(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_PreferSuspendClockForDuration::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_StopTimeoutMs =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ DataSourceConfig>;
+
+ static constexpr FieldMetadata_StopTimeoutMs kStopTimeoutMs{};
+ void set_stop_timeout_ms(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_StopTimeoutMs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_EnableExtraGuardrails =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ DataSourceConfig>;
+
+ static constexpr FieldMetadata_EnableExtraGuardrails kEnableExtraGuardrails{};
+ void set_enable_extra_guardrails(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_EnableExtraGuardrails::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SessionInitiator =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ DataSourceConfig_SessionInitiator,
+ DataSourceConfig>;
+
+ static constexpr FieldMetadata_SessionInitiator kSessionInitiator{};
+ void set_session_initiator(DataSourceConfig_SessionInitiator value) {
+ static constexpr uint32_t field_id = FieldMetadata_SessionInitiator::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TracingSessionId =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ DataSourceConfig>;
+
+ static constexpr FieldMetadata_TracingSessionId kTracingSessionId{};
+ void set_tracing_session_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TracingSessionId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FtraceConfig =
+ ::protozero::proto_utils::FieldMetadata<
+ 100,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ FtraceConfig,
+ DataSourceConfig>;
+
+ static constexpr FieldMetadata_FtraceConfig kFtraceConfig{};
+ template <typename T = FtraceConfig> T* set_ftrace_config() {
+ return BeginNestedMessage<T>(100);
+ }
+
+ void set_ftrace_config_raw(const std::string& raw) {
+ return AppendBytes(100, raw.data(), raw.size());
+ }
+
+
+ using FieldMetadata_InodeFileConfig =
+ ::protozero::proto_utils::FieldMetadata<
+ 102,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ InodeFileConfig,
+ DataSourceConfig>;
+
+ static constexpr FieldMetadata_InodeFileConfig kInodeFileConfig{};
+ template <typename T = InodeFileConfig> T* set_inode_file_config() {
+ return BeginNestedMessage<T>(102);
+ }
+
+ void set_inode_file_config_raw(const std::string& raw) {
+ return AppendBytes(102, raw.data(), raw.size());
+ }
+
+
+ using FieldMetadata_ProcessStatsConfig =
+ ::protozero::proto_utils::FieldMetadata<
+ 103,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ProcessStatsConfig,
+ DataSourceConfig>;
+
+ static constexpr FieldMetadata_ProcessStatsConfig kProcessStatsConfig{};
+ template <typename T = ProcessStatsConfig> T* set_process_stats_config() {
+ return BeginNestedMessage<T>(103);
+ }
+
+ void set_process_stats_config_raw(const std::string& raw) {
+ return AppendBytes(103, raw.data(), raw.size());
+ }
+
+
+ using FieldMetadata_SysStatsConfig =
+ ::protozero::proto_utils::FieldMetadata<
+ 104,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SysStatsConfig,
+ DataSourceConfig>;
+
+ static constexpr FieldMetadata_SysStatsConfig kSysStatsConfig{};
+ template <typename T = SysStatsConfig> T* set_sys_stats_config() {
+ return BeginNestedMessage<T>(104);
+ }
+
+ void set_sys_stats_config_raw(const std::string& raw) {
+ return AppendBytes(104, raw.data(), raw.size());
+ }
+
+
+ using FieldMetadata_HeapprofdConfig =
+ ::protozero::proto_utils::FieldMetadata<
+ 105,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ HeapprofdConfig,
+ DataSourceConfig>;
+
+ static constexpr FieldMetadata_HeapprofdConfig kHeapprofdConfig{};
+ template <typename T = HeapprofdConfig> T* set_heapprofd_config() {
+ return BeginNestedMessage<T>(105);
+ }
+
+ void set_heapprofd_config_raw(const std::string& raw) {
+ return AppendBytes(105, raw.data(), raw.size());
+ }
+
+
+ using FieldMetadata_JavaHprofConfig =
+ ::protozero::proto_utils::FieldMetadata<
+ 110,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ JavaHprofConfig,
+ DataSourceConfig>;
+
+ static constexpr FieldMetadata_JavaHprofConfig kJavaHprofConfig{};
+ template <typename T = JavaHprofConfig> T* set_java_hprof_config() {
+ return BeginNestedMessage<T>(110);
+ }
+
+ void set_java_hprof_config_raw(const std::string& raw) {
+ return AppendBytes(110, raw.data(), raw.size());
+ }
+
+
+ using FieldMetadata_AndroidPowerConfig =
+ ::protozero::proto_utils::FieldMetadata<
+ 106,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ AndroidPowerConfig,
+ DataSourceConfig>;
+
+ static constexpr FieldMetadata_AndroidPowerConfig kAndroidPowerConfig{};
+ template <typename T = AndroidPowerConfig> T* set_android_power_config() {
+ return BeginNestedMessage<T>(106);
+ }
+
+ void set_android_power_config_raw(const std::string& raw) {
+ return AppendBytes(106, raw.data(), raw.size());
+ }
+
+
+ using FieldMetadata_AndroidLogConfig =
+ ::protozero::proto_utils::FieldMetadata<
+ 107,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ AndroidLogConfig,
+ DataSourceConfig>;
+
+ static constexpr FieldMetadata_AndroidLogConfig kAndroidLogConfig{};
+ template <typename T = AndroidLogConfig> T* set_android_log_config() {
+ return BeginNestedMessage<T>(107);
+ }
+
+ void set_android_log_config_raw(const std::string& raw) {
+ return AppendBytes(107, raw.data(), raw.size());
+ }
+
+
+ using FieldMetadata_GpuCounterConfig =
+ ::protozero::proto_utils::FieldMetadata<
+ 108,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ GpuCounterConfig,
+ DataSourceConfig>;
+
+ static constexpr FieldMetadata_GpuCounterConfig kGpuCounterConfig{};
+ template <typename T = GpuCounterConfig> T* set_gpu_counter_config() {
+ return BeginNestedMessage<T>(108);
+ }
+
+ void set_gpu_counter_config_raw(const std::string& raw) {
+ return AppendBytes(108, raw.data(), raw.size());
+ }
+
+
+ using FieldMetadata_AndroidGameInterventionListConfig =
+ ::protozero::proto_utils::FieldMetadata<
+ 116,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ AndroidGameInterventionListConfig,
+ DataSourceConfig>;
+
+ static constexpr FieldMetadata_AndroidGameInterventionListConfig kAndroidGameInterventionListConfig{};
+ template <typename T = AndroidGameInterventionListConfig> T* set_android_game_intervention_list_config() {
+ return BeginNestedMessage<T>(116);
+ }
+
+ void set_android_game_intervention_list_config_raw(const std::string& raw) {
+ return AppendBytes(116, raw.data(), raw.size());
+ }
+
+
+ using FieldMetadata_PackagesListConfig =
+ ::protozero::proto_utils::FieldMetadata<
+ 109,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ PackagesListConfig,
+ DataSourceConfig>;
+
+ static constexpr FieldMetadata_PackagesListConfig kPackagesListConfig{};
+ template <typename T = PackagesListConfig> T* set_packages_list_config() {
+ return BeginNestedMessage<T>(109);
+ }
+
+ void set_packages_list_config_raw(const std::string& raw) {
+ return AppendBytes(109, raw.data(), raw.size());
+ }
+
+
+ using FieldMetadata_PerfEventConfig =
+ ::protozero::proto_utils::FieldMetadata<
+ 111,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ PerfEventConfig,
+ DataSourceConfig>;
+
+ static constexpr FieldMetadata_PerfEventConfig kPerfEventConfig{};
+ template <typename T = PerfEventConfig> T* set_perf_event_config() {
+ return BeginNestedMessage<T>(111);
+ }
+
+ void set_perf_event_config_raw(const std::string& raw) {
+ return AppendBytes(111, raw.data(), raw.size());
+ }
+
+
+ using FieldMetadata_VulkanMemoryConfig =
+ ::protozero::proto_utils::FieldMetadata<
+ 112,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ VulkanMemoryConfig,
+ DataSourceConfig>;
+
+ static constexpr FieldMetadata_VulkanMemoryConfig kVulkanMemoryConfig{};
+ template <typename T = VulkanMemoryConfig> T* set_vulkan_memory_config() {
+ return BeginNestedMessage<T>(112);
+ }
+
+ void set_vulkan_memory_config_raw(const std::string& raw) {
+ return AppendBytes(112, raw.data(), raw.size());
+ }
+
+
+ using FieldMetadata_TrackEventConfig =
+ ::protozero::proto_utils::FieldMetadata<
+ 113,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TrackEventConfig,
+ DataSourceConfig>;
+
+ static constexpr FieldMetadata_TrackEventConfig kTrackEventConfig{};
+ template <typename T = TrackEventConfig> T* set_track_event_config() {
+ return BeginNestedMessage<T>(113);
+ }
+
+ void set_track_event_config_raw(const std::string& raw) {
+ return AppendBytes(113, raw.data(), raw.size());
+ }
+
+
+ using FieldMetadata_AndroidPolledStateConfig =
+ ::protozero::proto_utils::FieldMetadata<
+ 114,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ AndroidPolledStateConfig,
+ DataSourceConfig>;
+
+ static constexpr FieldMetadata_AndroidPolledStateConfig kAndroidPolledStateConfig{};
+ template <typename T = AndroidPolledStateConfig> T* set_android_polled_state_config() {
+ return BeginNestedMessage<T>(114);
+ }
+
+ void set_android_polled_state_config_raw(const std::string& raw) {
+ return AppendBytes(114, raw.data(), raw.size());
+ }
+
+
+ using FieldMetadata_AndroidSystemPropertyConfig =
+ ::protozero::proto_utils::FieldMetadata<
+ 118,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ AndroidSystemPropertyConfig,
+ DataSourceConfig>;
+
+ static constexpr FieldMetadata_AndroidSystemPropertyConfig kAndroidSystemPropertyConfig{};
+ template <typename T = AndroidSystemPropertyConfig> T* set_android_system_property_config() {
+ return BeginNestedMessage<T>(118);
+ }
+
+ void set_android_system_property_config_raw(const std::string& raw) {
+ return AppendBytes(118, raw.data(), raw.size());
+ }
+
+
+ using FieldMetadata_StatsdTracingConfig =
+ ::protozero::proto_utils::FieldMetadata<
+ 117,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ StatsdTracingConfig,
+ DataSourceConfig>;
+
+ static constexpr FieldMetadata_StatsdTracingConfig kStatsdTracingConfig{};
+ template <typename T = StatsdTracingConfig> T* set_statsd_tracing_config() {
+ return BeginNestedMessage<T>(117);
+ }
+
+ void set_statsd_tracing_config_raw(const std::string& raw) {
+ return AppendBytes(117, raw.data(), raw.size());
+ }
+
+
+ using FieldMetadata_SystemInfoConfig =
+ ::protozero::proto_utils::FieldMetadata<
+ 119,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SystemInfoConfig,
+ DataSourceConfig>;
+
+ static constexpr FieldMetadata_SystemInfoConfig kSystemInfoConfig{};
+ template <typename T = SystemInfoConfig> T* set_system_info_config() {
+ return BeginNestedMessage<T>(119);
+ }
+
+
+ using FieldMetadata_ChromeConfig =
+ ::protozero::proto_utils::FieldMetadata<
+ 101,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ChromeConfig,
+ DataSourceConfig>;
+
+ static constexpr FieldMetadata_ChromeConfig kChromeConfig{};
+ template <typename T = ChromeConfig> T* set_chrome_config() {
+ return BeginNestedMessage<T>(101);
+ }
+
+
+ using FieldMetadata_V8Config =
+ ::protozero::proto_utils::FieldMetadata<
+ 127,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ V8Config,
+ DataSourceConfig>;
+
+ static constexpr FieldMetadata_V8Config kV8Config{};
+ template <typename T = V8Config> T* set_v8_config() {
+ return BeginNestedMessage<T>(127);
+ }
+
+ void set_v8_config_raw(const std::string& raw) {
+ return AppendBytes(127, raw.data(), raw.size());
+ }
+
+
+ using FieldMetadata_InterceptorConfig =
+ ::protozero::proto_utils::FieldMetadata<
+ 115,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ InterceptorConfig,
+ DataSourceConfig>;
+
+ static constexpr FieldMetadata_InterceptorConfig kInterceptorConfig{};
+ template <typename T = InterceptorConfig> T* set_interceptor_config() {
+ return BeginNestedMessage<T>(115);
+ }
+
+
+ using FieldMetadata_NetworkPacketTraceConfig =
+ ::protozero::proto_utils::FieldMetadata<
+ 120,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ NetworkPacketTraceConfig,
+ DataSourceConfig>;
+
+ static constexpr FieldMetadata_NetworkPacketTraceConfig kNetworkPacketTraceConfig{};
+ template <typename T = NetworkPacketTraceConfig> T* set_network_packet_trace_config() {
+ return BeginNestedMessage<T>(120);
+ }
+
+ void set_network_packet_trace_config_raw(const std::string& raw) {
+ return AppendBytes(120, raw.data(), raw.size());
+ }
+
+
+ using FieldMetadata_SurfaceflingerLayersConfig =
+ ::protozero::proto_utils::FieldMetadata<
+ 121,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SurfaceFlingerLayersConfig,
+ DataSourceConfig>;
+
+ static constexpr FieldMetadata_SurfaceflingerLayersConfig kSurfaceflingerLayersConfig{};
+ template <typename T = SurfaceFlingerLayersConfig> T* set_surfaceflinger_layers_config() {
+ return BeginNestedMessage<T>(121);
+ }
+
+ void set_surfaceflinger_layers_config_raw(const std::string& raw) {
+ return AppendBytes(121, raw.data(), raw.size());
+ }
+
+
+ using FieldMetadata_SurfaceflingerTransactionsConfig =
+ ::protozero::proto_utils::FieldMetadata<
+ 123,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SurfaceFlingerTransactionsConfig,
+ DataSourceConfig>;
+
+ static constexpr FieldMetadata_SurfaceflingerTransactionsConfig kSurfaceflingerTransactionsConfig{};
+ template <typename T = SurfaceFlingerTransactionsConfig> T* set_surfaceflinger_transactions_config() {
+ return BeginNestedMessage<T>(123);
+ }
+
+ void set_surfaceflinger_transactions_config_raw(const std::string& raw) {
+ return AppendBytes(123, raw.data(), raw.size());
+ }
+
+
+ using FieldMetadata_AndroidSdkSyspropGuardConfig =
+ ::protozero::proto_utils::FieldMetadata<
+ 124,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ AndroidSdkSyspropGuardConfig,
+ DataSourceConfig>;
+
+ static constexpr FieldMetadata_AndroidSdkSyspropGuardConfig kAndroidSdkSyspropGuardConfig{};
+ template <typename T = AndroidSdkSyspropGuardConfig> T* set_android_sdk_sysprop_guard_config() {
+ return BeginNestedMessage<T>(124);
+ }
+
+ void set_android_sdk_sysprop_guard_config_raw(const std::string& raw) {
+ return AppendBytes(124, raw.data(), raw.size());
+ }
+
+
+ using FieldMetadata_EtwConfig =
+ ::protozero::proto_utils::FieldMetadata<
+ 125,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ EtwConfig,
+ DataSourceConfig>;
+
+ static constexpr FieldMetadata_EtwConfig kEtwConfig{};
+ template <typename T = EtwConfig> T* set_etw_config() {
+ return BeginNestedMessage<T>(125);
+ }
+
+ void set_etw_config_raw(const std::string& raw) {
+ return AppendBytes(125, raw.data(), raw.size());
+ }
+
+
+ using FieldMetadata_ProtologConfig =
+ ::protozero::proto_utils::FieldMetadata<
+ 126,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ProtoLogConfig,
+ DataSourceConfig>;
+
+ static constexpr FieldMetadata_ProtologConfig kProtologConfig{};
+ template <typename T = ProtoLogConfig> T* set_protolog_config() {
+ return BeginNestedMessage<T>(126);
+ }
+
+ void set_protolog_config_raw(const std::string& raw) {
+ return AppendBytes(126, raw.data(), raw.size());
+ }
+
+
+ using FieldMetadata_AndroidInputEventConfig =
+ ::protozero::proto_utils::FieldMetadata<
+ 128,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ AndroidInputEventConfig,
+ DataSourceConfig>;
+
+ static constexpr FieldMetadata_AndroidInputEventConfig kAndroidInputEventConfig{};
+ template <typename T = AndroidInputEventConfig> T* set_android_input_event_config() {
+ return BeginNestedMessage<T>(128);
+ }
+
+ void set_android_input_event_config_raw(const std::string& raw) {
+ return AppendBytes(128, raw.data(), raw.size());
+ }
+
+
+ using FieldMetadata_LegacyConfig =
+ ::protozero::proto_utils::FieldMetadata<
+ 1000,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ DataSourceConfig>;
+
+ static constexpr FieldMetadata_LegacyConfig kLegacyConfig{};
+ void set_legacy_config(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_LegacyConfig::kFieldId, data, size);
+ }
+ void set_legacy_config(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_LegacyConfig::kFieldId, chars.data, chars.size);
+ }
+ void set_legacy_config(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_LegacyConfig::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ForTesting =
+ ::protozero::proto_utils::FieldMetadata<
+ 1001,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TestConfig,
+ DataSourceConfig>;
+
+ static constexpr FieldMetadata_ForTesting kForTesting{};
+ template <typename T = TestConfig> T* set_for_testing() {
+ return BeginNestedMessage<T>(1001);
+ }
+
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/config/etw/etw_config.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ETW_ETW_CONFIG_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_ETW_ETW_CONFIG_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+namespace perfetto_pbzero_enum_EtwConfig {
+enum KernelFlag : int32_t;
+} // namespace perfetto_pbzero_enum_EtwConfig
+using EtwConfig_KernelFlag = perfetto_pbzero_enum_EtwConfig::KernelFlag;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+namespace perfetto_pbzero_enum_EtwConfig {
+enum KernelFlag : int32_t {
+ CSWITCH = 0,
+ DISPATCHER = 1,
+};
+} // namespace perfetto_pbzero_enum_EtwConfig
+using EtwConfig_KernelFlag = perfetto_pbzero_enum_EtwConfig::KernelFlag;
+
+
+constexpr EtwConfig_KernelFlag EtwConfig_KernelFlag_MIN = EtwConfig_KernelFlag::CSWITCH;
+constexpr EtwConfig_KernelFlag EtwConfig_KernelFlag_MAX = EtwConfig_KernelFlag::DISPATCHER;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* EtwConfig_KernelFlag_Name(::perfetto::protos::pbzero::EtwConfig_KernelFlag value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::EtwConfig_KernelFlag::CSWITCH:
+ return "CSWITCH";
+
+ case ::perfetto::protos::pbzero::EtwConfig_KernelFlag::DISPATCHER:
+ return "DISPATCHER";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+class EtwConfig_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ EtwConfig_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit EtwConfig_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit EtwConfig_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_kernel_flags() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<int32_t> kernel_flags() const { return GetRepeated<int32_t>(1); }
+};
+
+class EtwConfig : public ::protozero::Message {
+ public:
+ using Decoder = EtwConfig_Decoder;
+ enum : int32_t {
+ kKernelFlagsFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.EtwConfig"; }
+
+
+ using KernelFlag = ::perfetto::protos::pbzero::EtwConfig_KernelFlag;
+ static inline const char* KernelFlag_Name(KernelFlag value) {
+ return ::perfetto::protos::pbzero::EtwConfig_KernelFlag_Name(value);
+ }
+ static inline const KernelFlag CSWITCH = KernelFlag::CSWITCH;
+ static inline const KernelFlag DISPATCHER = KernelFlag::DISPATCHER;
+
+ using FieldMetadata_KernelFlags =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ EtwConfig_KernelFlag,
+ EtwConfig>;
+
+ static constexpr FieldMetadata_KernelFlags kKernelFlags{};
+ void add_kernel_flags(EtwConfig_KernelFlag value) {
+ static constexpr uint32_t field_id = FieldMetadata_KernelFlags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/config/interceptor_config.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_INTERCEPTOR_CONFIG_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_INTERCEPTOR_CONFIG_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class ConsoleConfig;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class InterceptorConfig_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/100, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ InterceptorConfig_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit InterceptorConfig_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit InterceptorConfig_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars name() const { return at<1>().as_string(); }
+ bool has_console_config() const { return at<100>().valid(); }
+ ::protozero::ConstBytes console_config() const { return at<100>().as_bytes(); }
+};
+
+class InterceptorConfig : public ::protozero::Message {
+ public:
+ using Decoder = InterceptorConfig_Decoder;
+ enum : int32_t {
+ kNameFieldNumber = 1,
+ kConsoleConfigFieldNumber = 100,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.InterceptorConfig"; }
+
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ InterceptorConfig>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ConsoleConfig =
+ ::protozero::proto_utils::FieldMetadata<
+ 100,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ConsoleConfig,
+ InterceptorConfig>;
+
+ static constexpr FieldMetadata_ConsoleConfig kConsoleConfig{};
+ template <typename T = ConsoleConfig> T* set_console_config() {
+ return BeginNestedMessage<T>(100);
+ }
+
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/config/stress_test_config.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_STRESS_TEST_CONFIG_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_STRESS_TEST_CONFIG_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class StressTestConfig_WriterTiming;
+class TraceConfig;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class StressTestConfig_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/11, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ StressTestConfig_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit StressTestConfig_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit StressTestConfig_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_trace_config() const { return at<1>().valid(); }
+ ::protozero::ConstBytes trace_config() const { return at<1>().as_bytes(); }
+ bool has_shmem_size_kb() const { return at<2>().valid(); }
+ uint32_t shmem_size_kb() const { return at<2>().as_uint32(); }
+ bool has_shmem_page_size_kb() const { return at<3>().valid(); }
+ uint32_t shmem_page_size_kb() const { return at<3>().as_uint32(); }
+ bool has_num_processes() const { return at<4>().valid(); }
+ uint32_t num_processes() const { return at<4>().as_uint32(); }
+ bool has_num_threads() const { return at<5>().valid(); }
+ uint32_t num_threads() const { return at<5>().as_uint32(); }
+ bool has_max_events() const { return at<6>().valid(); }
+ uint32_t max_events() const { return at<6>().as_uint32(); }
+ bool has_nesting() const { return at<7>().valid(); }
+ uint32_t nesting() const { return at<7>().as_uint32(); }
+ bool has_steady_state_timings() const { return at<8>().valid(); }
+ ::protozero::ConstBytes steady_state_timings() const { return at<8>().as_bytes(); }
+ bool has_burst_period_ms() const { return at<9>().valid(); }
+ uint32_t burst_period_ms() const { return at<9>().as_uint32(); }
+ bool has_burst_duration_ms() const { return at<10>().valid(); }
+ uint32_t burst_duration_ms() const { return at<10>().as_uint32(); }
+ bool has_burst_timings() const { return at<11>().valid(); }
+ ::protozero::ConstBytes burst_timings() const { return at<11>().as_bytes(); }
+};
+
+class StressTestConfig : public ::protozero::Message {
+ public:
+ using Decoder = StressTestConfig_Decoder;
+ enum : int32_t {
+ kTraceConfigFieldNumber = 1,
+ kShmemSizeKbFieldNumber = 2,
+ kShmemPageSizeKbFieldNumber = 3,
+ kNumProcessesFieldNumber = 4,
+ kNumThreadsFieldNumber = 5,
+ kMaxEventsFieldNumber = 6,
+ kNestingFieldNumber = 7,
+ kSteadyStateTimingsFieldNumber = 8,
+ kBurstPeriodMsFieldNumber = 9,
+ kBurstDurationMsFieldNumber = 10,
+ kBurstTimingsFieldNumber = 11,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.StressTestConfig"; }
+
+ using WriterTiming = ::perfetto::protos::pbzero::StressTestConfig_WriterTiming;
+
+ using FieldMetadata_TraceConfig =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TraceConfig,
+ StressTestConfig>;
+
+ static constexpr FieldMetadata_TraceConfig kTraceConfig{};
+ template <typename T = TraceConfig> T* set_trace_config() {
+ return BeginNestedMessage<T>(1);
+ }
+
+
+ using FieldMetadata_ShmemSizeKb =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ StressTestConfig>;
+
+ static constexpr FieldMetadata_ShmemSizeKb kShmemSizeKb{};
+ void set_shmem_size_kb(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ShmemSizeKb::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ShmemPageSizeKb =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ StressTestConfig>;
+
+ static constexpr FieldMetadata_ShmemPageSizeKb kShmemPageSizeKb{};
+ void set_shmem_page_size_kb(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ShmemPageSizeKb::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NumProcesses =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ StressTestConfig>;
+
+ static constexpr FieldMetadata_NumProcesses kNumProcesses{};
+ void set_num_processes(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NumProcesses::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NumThreads =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ StressTestConfig>;
+
+ static constexpr FieldMetadata_NumThreads kNumThreads{};
+ void set_num_threads(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NumThreads::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MaxEvents =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ StressTestConfig>;
+
+ static constexpr FieldMetadata_MaxEvents kMaxEvents{};
+ void set_max_events(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MaxEvents::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Nesting =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ StressTestConfig>;
+
+ static constexpr FieldMetadata_Nesting kNesting{};
+ void set_nesting(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Nesting::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SteadyStateTimings =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ StressTestConfig_WriterTiming,
+ StressTestConfig>;
+
+ static constexpr FieldMetadata_SteadyStateTimings kSteadyStateTimings{};
+ template <typename T = StressTestConfig_WriterTiming> T* set_steady_state_timings() {
+ return BeginNestedMessage<T>(8);
+ }
+
+
+ using FieldMetadata_BurstPeriodMs =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ StressTestConfig>;
+
+ static constexpr FieldMetadata_BurstPeriodMs kBurstPeriodMs{};
+ void set_burst_period_ms(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BurstPeriodMs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BurstDurationMs =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ StressTestConfig>;
+
+ static constexpr FieldMetadata_BurstDurationMs kBurstDurationMs{};
+ void set_burst_duration_ms(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BurstDurationMs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BurstTimings =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ StressTestConfig_WriterTiming,
+ StressTestConfig>;
+
+ static constexpr FieldMetadata_BurstTimings kBurstTimings{};
+ template <typename T = StressTestConfig_WriterTiming> T* set_burst_timings() {
+ return BeginNestedMessage<T>(11);
+ }
+
+};
+
+class StressTestConfig_WriterTiming_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ StressTestConfig_WriterTiming_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit StressTestConfig_WriterTiming_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit StressTestConfig_WriterTiming_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_payload_mean() const { return at<1>().valid(); }
+ double payload_mean() const { return at<1>().as_double(); }
+ bool has_payload_stddev() const { return at<2>().valid(); }
+ double payload_stddev() const { return at<2>().as_double(); }
+ bool has_rate_mean() const { return at<3>().valid(); }
+ double rate_mean() const { return at<3>().as_double(); }
+ bool has_rate_stddev() const { return at<4>().valid(); }
+ double rate_stddev() const { return at<4>().as_double(); }
+ bool has_payload_write_time_ms() const { return at<5>().valid(); }
+ uint32_t payload_write_time_ms() const { return at<5>().as_uint32(); }
+};
+
+class StressTestConfig_WriterTiming : public ::protozero::Message {
+ public:
+ using Decoder = StressTestConfig_WriterTiming_Decoder;
+ enum : int32_t {
+ kPayloadMeanFieldNumber = 1,
+ kPayloadStddevFieldNumber = 2,
+ kRateMeanFieldNumber = 3,
+ kRateStddevFieldNumber = 4,
+ kPayloadWriteTimeMsFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.StressTestConfig.WriterTiming"; }
+
+
+ using FieldMetadata_PayloadMean =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kDouble,
+ double,
+ StressTestConfig_WriterTiming>;
+
+ static constexpr FieldMetadata_PayloadMean kPayloadMean{};
+ void set_payload_mean(double value) {
+ static constexpr uint32_t field_id = FieldMetadata_PayloadMean::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kDouble>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PayloadStddev =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kDouble,
+ double,
+ StressTestConfig_WriterTiming>;
+
+ static constexpr FieldMetadata_PayloadStddev kPayloadStddev{};
+ void set_payload_stddev(double value) {
+ static constexpr uint32_t field_id = FieldMetadata_PayloadStddev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kDouble>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_RateMean =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kDouble,
+ double,
+ StressTestConfig_WriterTiming>;
+
+ static constexpr FieldMetadata_RateMean kRateMean{};
+ void set_rate_mean(double value) {
+ static constexpr uint32_t field_id = FieldMetadata_RateMean::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kDouble>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_RateStddev =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kDouble,
+ double,
+ StressTestConfig_WriterTiming>;
+
+ static constexpr FieldMetadata_RateStddev kRateStddev{};
+ void set_rate_stddev(double value) {
+ static constexpr uint32_t field_id = FieldMetadata_RateStddev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kDouble>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PayloadWriteTimeMs =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ StressTestConfig_WriterTiming>;
+
+ static constexpr FieldMetadata_PayloadWriteTimeMs kPayloadWriteTimeMs{};
+ void set_payload_write_time_ms(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PayloadWriteTimeMs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/config/test_config.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_TEST_CONFIG_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_TEST_CONFIG_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class TestConfig_DummyFields;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class TestConfig_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/6, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ TestConfig_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TestConfig_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TestConfig_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_message_count() const { return at<1>().valid(); }
+ uint32_t message_count() const { return at<1>().as_uint32(); }
+ bool has_max_messages_per_second() const { return at<2>().valid(); }
+ uint32_t max_messages_per_second() const { return at<2>().as_uint32(); }
+ bool has_seed() const { return at<3>().valid(); }
+ uint32_t seed() const { return at<3>().as_uint32(); }
+ bool has_message_size() const { return at<4>().valid(); }
+ uint32_t message_size() const { return at<4>().as_uint32(); }
+ bool has_send_batch_on_register() const { return at<5>().valid(); }
+ bool send_batch_on_register() const { return at<5>().as_bool(); }
+ bool has_dummy_fields() const { return at<6>().valid(); }
+ ::protozero::ConstBytes dummy_fields() const { return at<6>().as_bytes(); }
+};
+
+class TestConfig : public ::protozero::Message {
+ public:
+ using Decoder = TestConfig_Decoder;
+ enum : int32_t {
+ kMessageCountFieldNumber = 1,
+ kMaxMessagesPerSecondFieldNumber = 2,
+ kSeedFieldNumber = 3,
+ kMessageSizeFieldNumber = 4,
+ kSendBatchOnRegisterFieldNumber = 5,
+ kDummyFieldsFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TestConfig"; }
+
+ using DummyFields = ::perfetto::protos::pbzero::TestConfig_DummyFields;
+
+ using FieldMetadata_MessageCount =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TestConfig>;
+
+ static constexpr FieldMetadata_MessageCount kMessageCount{};
+ void set_message_count(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MessageCount::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MaxMessagesPerSecond =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TestConfig>;
+
+ static constexpr FieldMetadata_MaxMessagesPerSecond kMaxMessagesPerSecond{};
+ void set_max_messages_per_second(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MaxMessagesPerSecond::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Seed =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TestConfig>;
+
+ static constexpr FieldMetadata_Seed kSeed{};
+ void set_seed(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Seed::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MessageSize =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TestConfig>;
+
+ static constexpr FieldMetadata_MessageSize kMessageSize{};
+ void set_message_size(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MessageSize::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SendBatchOnRegister =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ TestConfig>;
+
+ static constexpr FieldMetadata_SendBatchOnRegister kSendBatchOnRegister{};
+ void set_send_batch_on_register(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_SendBatchOnRegister::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DummyFields =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TestConfig_DummyFields,
+ TestConfig>;
+
+ static constexpr FieldMetadata_DummyFields kDummyFields{};
+ template <typename T = TestConfig_DummyFields> T* set_dummy_fields() {
+ return BeginNestedMessage<T>(6);
+ }
+
+};
+
+class TestConfig_DummyFields_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/14, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ TestConfig_DummyFields_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TestConfig_DummyFields_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TestConfig_DummyFields_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_field_uint32() const { return at<1>().valid(); }
+ uint32_t field_uint32() const { return at<1>().as_uint32(); }
+ bool has_field_int32() const { return at<2>().valid(); }
+ int32_t field_int32() const { return at<2>().as_int32(); }
+ bool has_field_uint64() const { return at<3>().valid(); }
+ uint64_t field_uint64() const { return at<3>().as_uint64(); }
+ bool has_field_int64() const { return at<4>().valid(); }
+ int64_t field_int64() const { return at<4>().as_int64(); }
+ bool has_field_fixed64() const { return at<5>().valid(); }
+ uint64_t field_fixed64() const { return at<5>().as_uint64(); }
+ bool has_field_sfixed64() const { return at<6>().valid(); }
+ int64_t field_sfixed64() const { return at<6>().as_int64(); }
+ bool has_field_fixed32() const { return at<7>().valid(); }
+ uint32_t field_fixed32() const { return at<7>().as_uint32(); }
+ bool has_field_sfixed32() const { return at<8>().valid(); }
+ int32_t field_sfixed32() const { return at<8>().as_int32(); }
+ bool has_field_double() const { return at<9>().valid(); }
+ double field_double() const { return at<9>().as_double(); }
+ bool has_field_float() const { return at<10>().valid(); }
+ float field_float() const { return at<10>().as_float(); }
+ bool has_field_sint64() const { return at<11>().valid(); }
+ int64_t field_sint64() const { return at<11>().as_sint64(); }
+ bool has_field_sint32() const { return at<12>().valid(); }
+ int32_t field_sint32() const { return at<12>().as_sint32(); }
+ bool has_field_string() const { return at<13>().valid(); }
+ ::protozero::ConstChars field_string() const { return at<13>().as_string(); }
+ bool has_field_bytes() const { return at<14>().valid(); }
+ ::protozero::ConstBytes field_bytes() const { return at<14>().as_bytes(); }
+};
+
+class TestConfig_DummyFields : public ::protozero::Message {
+ public:
+ using Decoder = TestConfig_DummyFields_Decoder;
+ enum : int32_t {
+ kFieldUint32FieldNumber = 1,
+ kFieldInt32FieldNumber = 2,
+ kFieldUint64FieldNumber = 3,
+ kFieldInt64FieldNumber = 4,
+ kFieldFixed64FieldNumber = 5,
+ kFieldSfixed64FieldNumber = 6,
+ kFieldFixed32FieldNumber = 7,
+ kFieldSfixed32FieldNumber = 8,
+ kFieldDoubleFieldNumber = 9,
+ kFieldFloatFieldNumber = 10,
+ kFieldSint64FieldNumber = 11,
+ kFieldSint32FieldNumber = 12,
+ kFieldStringFieldNumber = 13,
+ kFieldBytesFieldNumber = 14,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TestConfig.DummyFields"; }
+
+
+ using FieldMetadata_FieldUint32 =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TestConfig_DummyFields>;
+
+ static constexpr FieldMetadata_FieldUint32 kFieldUint32{};
+ void set_field_uint32(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FieldUint32::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FieldInt32 =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ TestConfig_DummyFields>;
+
+ static constexpr FieldMetadata_FieldInt32 kFieldInt32{};
+ void set_field_int32(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FieldInt32::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FieldUint64 =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TestConfig_DummyFields>;
+
+ static constexpr FieldMetadata_FieldUint64 kFieldUint64{};
+ void set_field_uint64(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FieldUint64::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FieldInt64 =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ TestConfig_DummyFields>;
+
+ static constexpr FieldMetadata_FieldInt64 kFieldInt64{};
+ void set_field_int64(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FieldInt64::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FieldFixed64 =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFixed64,
+ uint64_t,
+ TestConfig_DummyFields>;
+
+ static constexpr FieldMetadata_FieldFixed64 kFieldFixed64{};
+ void set_field_fixed64(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FieldFixed64::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFixed64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FieldSfixed64 =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kSfixed64,
+ int64_t,
+ TestConfig_DummyFields>;
+
+ static constexpr FieldMetadata_FieldSfixed64 kFieldSfixed64{};
+ void set_field_sfixed64(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FieldSfixed64::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kSfixed64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FieldFixed32 =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFixed32,
+ uint32_t,
+ TestConfig_DummyFields>;
+
+ static constexpr FieldMetadata_FieldFixed32 kFieldFixed32{};
+ void set_field_fixed32(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FieldFixed32::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFixed32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FieldSfixed32 =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kSfixed32,
+ int32_t,
+ TestConfig_DummyFields>;
+
+ static constexpr FieldMetadata_FieldSfixed32 kFieldSfixed32{};
+ void set_field_sfixed32(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FieldSfixed32::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kSfixed32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FieldDouble =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kDouble,
+ double,
+ TestConfig_DummyFields>;
+
+ static constexpr FieldMetadata_FieldDouble kFieldDouble{};
+ void set_field_double(double value) {
+ static constexpr uint32_t field_id = FieldMetadata_FieldDouble::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kDouble>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FieldFloat =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFloat,
+ float,
+ TestConfig_DummyFields>;
+
+ static constexpr FieldMetadata_FieldFloat kFieldFloat{};
+ void set_field_float(float value) {
+ static constexpr uint32_t field_id = FieldMetadata_FieldFloat::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFloat>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FieldSint64 =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kSint64,
+ int64_t,
+ TestConfig_DummyFields>;
+
+ static constexpr FieldMetadata_FieldSint64 kFieldSint64{};
+ void set_field_sint64(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FieldSint64::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kSint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FieldSint32 =
+ ::protozero::proto_utils::FieldMetadata<
+ 12,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kSint32,
+ int32_t,
+ TestConfig_DummyFields>;
+
+ static constexpr FieldMetadata_FieldSint32 kFieldSint32{};
+ void set_field_sint32(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FieldSint32::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kSint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FieldString =
+ ::protozero::proto_utils::FieldMetadata<
+ 13,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ TestConfig_DummyFields>;
+
+ static constexpr FieldMetadata_FieldString kFieldString{};
+ void set_field_string(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_FieldString::kFieldId, data, size);
+ }
+ void set_field_string(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_FieldString::kFieldId, chars.data, chars.size);
+ }
+ void set_field_string(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_FieldString::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FieldBytes =
+ ::protozero::proto_utils::FieldMetadata<
+ 14,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBytes,
+ std::string,
+ TestConfig_DummyFields>;
+
+ static constexpr FieldMetadata_FieldBytes kFieldBytes{};
+ void set_field_bytes(const uint8_t* data, size_t size) {
+ AppendBytes(FieldMetadata_FieldBytes::kFieldId, data, size);
+ }
+ void set_field_bytes(::protozero::ConstBytes bytes) {
+ AppendBytes(FieldMetadata_FieldBytes::kFieldId, bytes.data, bytes.size);
+ }
+ void set_field_bytes(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_FieldBytes::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBytes>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/config/trace_config.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_TRACE_CONFIG_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_CONFIG_TRACE_CONFIG_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class DataSourceConfig;
+class TraceConfig_AndroidReportConfig;
+class TraceConfig_BufferConfig;
+class TraceConfig_BuiltinDataSource;
+class TraceConfig_CmdTraceStartDelay;
+class TraceConfig_DataSource;
+class TraceConfig_GuardrailOverrides;
+class TraceConfig_IncidentReportConfig;
+class TraceConfig_IncrementalStateConfig;
+class TraceConfig_ProducerConfig;
+class TraceConfig_StatsdMetadata;
+class TraceConfig_TraceFilter;
+class TraceConfig_TraceFilter_StringFilterChain;
+class TraceConfig_TraceFilter_StringFilterRule;
+class TraceConfig_TriggerConfig;
+class TraceConfig_TriggerConfig_Trigger;
+enum BuiltinClock : int32_t;
+namespace perfetto_pbzero_enum_TraceConfig_BufferConfig {
+enum FillPolicy : int32_t;
+} // namespace perfetto_pbzero_enum_TraceConfig_BufferConfig
+using TraceConfig_BufferConfig_FillPolicy = perfetto_pbzero_enum_TraceConfig_BufferConfig::FillPolicy;
+namespace perfetto_pbzero_enum_TraceConfig {
+enum CompressionType : int32_t;
+} // namespace perfetto_pbzero_enum_TraceConfig
+using TraceConfig_CompressionType = perfetto_pbzero_enum_TraceConfig::CompressionType;
+namespace perfetto_pbzero_enum_TraceConfig {
+enum LockdownModeOperation : int32_t;
+} // namespace perfetto_pbzero_enum_TraceConfig
+using TraceConfig_LockdownModeOperation = perfetto_pbzero_enum_TraceConfig::LockdownModeOperation;
+namespace perfetto_pbzero_enum_TraceConfig {
+enum StatsdLogging : int32_t;
+} // namespace perfetto_pbzero_enum_TraceConfig
+using TraceConfig_StatsdLogging = perfetto_pbzero_enum_TraceConfig::StatsdLogging;
+namespace perfetto_pbzero_enum_TraceConfig_TraceFilter {
+enum StringFilterPolicy : int32_t;
+} // namespace perfetto_pbzero_enum_TraceConfig_TraceFilter
+using TraceConfig_TraceFilter_StringFilterPolicy = perfetto_pbzero_enum_TraceConfig_TraceFilter::StringFilterPolicy;
+namespace perfetto_pbzero_enum_TraceConfig_TriggerConfig {
+enum TriggerMode : int32_t;
+} // namespace perfetto_pbzero_enum_TraceConfig_TriggerConfig
+using TraceConfig_TriggerConfig_TriggerMode = perfetto_pbzero_enum_TraceConfig_TriggerConfig::TriggerMode;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+namespace perfetto_pbzero_enum_TraceConfig {
+enum LockdownModeOperation : int32_t {
+ LOCKDOWN_UNCHANGED = 0,
+ LOCKDOWN_CLEAR = 1,
+ LOCKDOWN_SET = 2,
+};
+} // namespace perfetto_pbzero_enum_TraceConfig
+using TraceConfig_LockdownModeOperation = perfetto_pbzero_enum_TraceConfig::LockdownModeOperation;
+
+
+constexpr TraceConfig_LockdownModeOperation TraceConfig_LockdownModeOperation_MIN = TraceConfig_LockdownModeOperation::LOCKDOWN_UNCHANGED;
+constexpr TraceConfig_LockdownModeOperation TraceConfig_LockdownModeOperation_MAX = TraceConfig_LockdownModeOperation::LOCKDOWN_SET;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* TraceConfig_LockdownModeOperation_Name(::perfetto::protos::pbzero::TraceConfig_LockdownModeOperation value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::TraceConfig_LockdownModeOperation::LOCKDOWN_UNCHANGED:
+ return "LOCKDOWN_UNCHANGED";
+
+ case ::perfetto::protos::pbzero::TraceConfig_LockdownModeOperation::LOCKDOWN_CLEAR:
+ return "LOCKDOWN_CLEAR";
+
+ case ::perfetto::protos::pbzero::TraceConfig_LockdownModeOperation::LOCKDOWN_SET:
+ return "LOCKDOWN_SET";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_TraceConfig {
+enum CompressionType : int32_t {
+ COMPRESSION_TYPE_UNSPECIFIED = 0,
+ COMPRESSION_TYPE_DEFLATE = 1,
+};
+} // namespace perfetto_pbzero_enum_TraceConfig
+using TraceConfig_CompressionType = perfetto_pbzero_enum_TraceConfig::CompressionType;
+
+
+constexpr TraceConfig_CompressionType TraceConfig_CompressionType_MIN = TraceConfig_CompressionType::COMPRESSION_TYPE_UNSPECIFIED;
+constexpr TraceConfig_CompressionType TraceConfig_CompressionType_MAX = TraceConfig_CompressionType::COMPRESSION_TYPE_DEFLATE;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* TraceConfig_CompressionType_Name(::perfetto::protos::pbzero::TraceConfig_CompressionType value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::TraceConfig_CompressionType::COMPRESSION_TYPE_UNSPECIFIED:
+ return "COMPRESSION_TYPE_UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::TraceConfig_CompressionType::COMPRESSION_TYPE_DEFLATE:
+ return "COMPRESSION_TYPE_DEFLATE";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_TraceConfig {
+enum StatsdLogging : int32_t {
+ STATSD_LOGGING_UNSPECIFIED = 0,
+ STATSD_LOGGING_ENABLED = 1,
+ STATSD_LOGGING_DISABLED = 2,
+};
+} // namespace perfetto_pbzero_enum_TraceConfig
+using TraceConfig_StatsdLogging = perfetto_pbzero_enum_TraceConfig::StatsdLogging;
+
+
+constexpr TraceConfig_StatsdLogging TraceConfig_StatsdLogging_MIN = TraceConfig_StatsdLogging::STATSD_LOGGING_UNSPECIFIED;
+constexpr TraceConfig_StatsdLogging TraceConfig_StatsdLogging_MAX = TraceConfig_StatsdLogging::STATSD_LOGGING_DISABLED;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* TraceConfig_StatsdLogging_Name(::perfetto::protos::pbzero::TraceConfig_StatsdLogging value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::TraceConfig_StatsdLogging::STATSD_LOGGING_UNSPECIFIED:
+ return "STATSD_LOGGING_UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::TraceConfig_StatsdLogging::STATSD_LOGGING_ENABLED:
+ return "STATSD_LOGGING_ENABLED";
+
+ case ::perfetto::protos::pbzero::TraceConfig_StatsdLogging::STATSD_LOGGING_DISABLED:
+ return "STATSD_LOGGING_DISABLED";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_TraceConfig_TraceFilter {
+enum StringFilterPolicy : int32_t {
+ SFP_UNSPECIFIED = 0,
+ SFP_MATCH_REDACT_GROUPS = 1,
+ SFP_ATRACE_MATCH_REDACT_GROUPS = 2,
+ SFP_MATCH_BREAK = 3,
+ SFP_ATRACE_MATCH_BREAK = 4,
+ SFP_ATRACE_REPEATED_SEARCH_REDACT_GROUPS = 5,
+};
+} // namespace perfetto_pbzero_enum_TraceConfig_TraceFilter
+using TraceConfig_TraceFilter_StringFilterPolicy = perfetto_pbzero_enum_TraceConfig_TraceFilter::StringFilterPolicy;
+
+
+constexpr TraceConfig_TraceFilter_StringFilterPolicy TraceConfig_TraceFilter_StringFilterPolicy_MIN = TraceConfig_TraceFilter_StringFilterPolicy::SFP_UNSPECIFIED;
+constexpr TraceConfig_TraceFilter_StringFilterPolicy TraceConfig_TraceFilter_StringFilterPolicy_MAX = TraceConfig_TraceFilter_StringFilterPolicy::SFP_ATRACE_REPEATED_SEARCH_REDACT_GROUPS;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* TraceConfig_TraceFilter_StringFilterPolicy_Name(::perfetto::protos::pbzero::TraceConfig_TraceFilter_StringFilterPolicy value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::TraceConfig_TraceFilter_StringFilterPolicy::SFP_UNSPECIFIED:
+ return "SFP_UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::TraceConfig_TraceFilter_StringFilterPolicy::SFP_MATCH_REDACT_GROUPS:
+ return "SFP_MATCH_REDACT_GROUPS";
+
+ case ::perfetto::protos::pbzero::TraceConfig_TraceFilter_StringFilterPolicy::SFP_ATRACE_MATCH_REDACT_GROUPS:
+ return "SFP_ATRACE_MATCH_REDACT_GROUPS";
+
+ case ::perfetto::protos::pbzero::TraceConfig_TraceFilter_StringFilterPolicy::SFP_MATCH_BREAK:
+ return "SFP_MATCH_BREAK";
+
+ case ::perfetto::protos::pbzero::TraceConfig_TraceFilter_StringFilterPolicy::SFP_ATRACE_MATCH_BREAK:
+ return "SFP_ATRACE_MATCH_BREAK";
+
+ case ::perfetto::protos::pbzero::TraceConfig_TraceFilter_StringFilterPolicy::SFP_ATRACE_REPEATED_SEARCH_REDACT_GROUPS:
+ return "SFP_ATRACE_REPEATED_SEARCH_REDACT_GROUPS";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_TraceConfig_TriggerConfig {
+enum TriggerMode : int32_t {
+ UNSPECIFIED = 0,
+ START_TRACING = 1,
+ STOP_TRACING = 2,
+ CLONE_SNAPSHOT = 4,
+};
+} // namespace perfetto_pbzero_enum_TraceConfig_TriggerConfig
+using TraceConfig_TriggerConfig_TriggerMode = perfetto_pbzero_enum_TraceConfig_TriggerConfig::TriggerMode;
+
+
+constexpr TraceConfig_TriggerConfig_TriggerMode TraceConfig_TriggerConfig_TriggerMode_MIN = TraceConfig_TriggerConfig_TriggerMode::UNSPECIFIED;
+constexpr TraceConfig_TriggerConfig_TriggerMode TraceConfig_TriggerConfig_TriggerMode_MAX = TraceConfig_TriggerConfig_TriggerMode::CLONE_SNAPSHOT;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* TraceConfig_TriggerConfig_TriggerMode_Name(::perfetto::protos::pbzero::TraceConfig_TriggerConfig_TriggerMode value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::TraceConfig_TriggerConfig_TriggerMode::UNSPECIFIED:
+ return "UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::TraceConfig_TriggerConfig_TriggerMode::START_TRACING:
+ return "START_TRACING";
+
+ case ::perfetto::protos::pbzero::TraceConfig_TriggerConfig_TriggerMode::STOP_TRACING:
+ return "STOP_TRACING";
+
+ case ::perfetto::protos::pbzero::TraceConfig_TriggerConfig_TriggerMode::CLONE_SNAPSHOT:
+ return "CLONE_SNAPSHOT";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_TraceConfig_BufferConfig {
+enum FillPolicy : int32_t {
+ UNSPECIFIED = 0,
+ RING_BUFFER = 1,
+ DISCARD = 2,
+};
+} // namespace perfetto_pbzero_enum_TraceConfig_BufferConfig
+using TraceConfig_BufferConfig_FillPolicy = perfetto_pbzero_enum_TraceConfig_BufferConfig::FillPolicy;
+
+
+constexpr TraceConfig_BufferConfig_FillPolicy TraceConfig_BufferConfig_FillPolicy_MIN = TraceConfig_BufferConfig_FillPolicy::UNSPECIFIED;
+constexpr TraceConfig_BufferConfig_FillPolicy TraceConfig_BufferConfig_FillPolicy_MAX = TraceConfig_BufferConfig_FillPolicy::DISCARD;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* TraceConfig_BufferConfig_FillPolicy_Name(::perfetto::protos::pbzero::TraceConfig_BufferConfig_FillPolicy value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::TraceConfig_BufferConfig_FillPolicy::UNSPECIFIED:
+ return "UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::TraceConfig_BufferConfig_FillPolicy::RING_BUFFER:
+ return "RING_BUFFER";
+
+ case ::perfetto::protos::pbzero::TraceConfig_BufferConfig_FillPolicy::DISCARD:
+ return "DISCARD";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+class TraceConfig_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/38, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ TraceConfig_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TraceConfig_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TraceConfig_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_buffers() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> buffers() const { return GetRepeated<::protozero::ConstBytes>(1); }
+ bool has_data_sources() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> data_sources() const { return GetRepeated<::protozero::ConstBytes>(2); }
+ bool has_builtin_data_sources() const { return at<20>().valid(); }
+ ::protozero::ConstBytes builtin_data_sources() const { return at<20>().as_bytes(); }
+ bool has_duration_ms() const { return at<3>().valid(); }
+ uint32_t duration_ms() const { return at<3>().as_uint32(); }
+ bool has_prefer_suspend_clock_for_duration() const { return at<36>().valid(); }
+ bool prefer_suspend_clock_for_duration() const { return at<36>().as_bool(); }
+ bool has_enable_extra_guardrails() const { return at<4>().valid(); }
+ bool enable_extra_guardrails() const { return at<4>().as_bool(); }
+ bool has_lockdown_mode() const { return at<5>().valid(); }
+ int32_t lockdown_mode() const { return at<5>().as_int32(); }
+ bool has_producers() const { return at<6>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> producers() const { return GetRepeated<::protozero::ConstBytes>(6); }
+ bool has_statsd_metadata() const { return at<7>().valid(); }
+ ::protozero::ConstBytes statsd_metadata() const { return at<7>().as_bytes(); }
+ bool has_write_into_file() const { return at<8>().valid(); }
+ bool write_into_file() const { return at<8>().as_bool(); }
+ bool has_output_path() const { return at<29>().valid(); }
+ ::protozero::ConstChars output_path() const { return at<29>().as_string(); }
+ bool has_file_write_period_ms() const { return at<9>().valid(); }
+ uint32_t file_write_period_ms() const { return at<9>().as_uint32(); }
+ bool has_max_file_size_bytes() const { return at<10>().valid(); }
+ uint64_t max_file_size_bytes() const { return at<10>().as_uint64(); }
+ bool has_guardrail_overrides() const { return at<11>().valid(); }
+ ::protozero::ConstBytes guardrail_overrides() const { return at<11>().as_bytes(); }
+ bool has_deferred_start() const { return at<12>().valid(); }
+ bool deferred_start() const { return at<12>().as_bool(); }
+ bool has_flush_period_ms() const { return at<13>().valid(); }
+ uint32_t flush_period_ms() const { return at<13>().as_uint32(); }
+ bool has_flush_timeout_ms() const { return at<14>().valid(); }
+ uint32_t flush_timeout_ms() const { return at<14>().as_uint32(); }
+ bool has_data_source_stop_timeout_ms() const { return at<23>().valid(); }
+ uint32_t data_source_stop_timeout_ms() const { return at<23>().as_uint32(); }
+ bool has_notify_traceur() const { return at<16>().valid(); }
+ bool notify_traceur() const { return at<16>().as_bool(); }
+ bool has_bugreport_score() const { return at<30>().valid(); }
+ int32_t bugreport_score() const { return at<30>().as_int32(); }
+ bool has_bugreport_filename() const { return at<38>().valid(); }
+ ::protozero::ConstChars bugreport_filename() const { return at<38>().as_string(); }
+ bool has_trigger_config() const { return at<17>().valid(); }
+ ::protozero::ConstBytes trigger_config() const { return at<17>().as_bytes(); }
+ bool has_activate_triggers() const { return at<18>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstChars> activate_triggers() const { return GetRepeated<::protozero::ConstChars>(18); }
+ bool has_incremental_state_config() const { return at<21>().valid(); }
+ ::protozero::ConstBytes incremental_state_config() const { return at<21>().as_bytes(); }
+ bool has_allow_user_build_tracing() const { return at<19>().valid(); }
+ bool allow_user_build_tracing() const { return at<19>().as_bool(); }
+ bool has_unique_session_name() const { return at<22>().valid(); }
+ ::protozero::ConstChars unique_session_name() const { return at<22>().as_string(); }
+ bool has_compression_type() const { return at<24>().valid(); }
+ int32_t compression_type() const { return at<24>().as_int32(); }
+ bool has_incident_report_config() const { return at<25>().valid(); }
+ ::protozero::ConstBytes incident_report_config() const { return at<25>().as_bytes(); }
+ bool has_statsd_logging() const { return at<31>().valid(); }
+ int32_t statsd_logging() const { return at<31>().as_int32(); }
+ bool has_trace_uuid_msb() const { return at<27>().valid(); }
+ int64_t trace_uuid_msb() const { return at<27>().as_int64(); }
+ bool has_trace_uuid_lsb() const { return at<28>().valid(); }
+ int64_t trace_uuid_lsb() const { return at<28>().as_int64(); }
+ bool has_trace_filter() const { return at<33>().valid(); }
+ ::protozero::ConstBytes trace_filter() const { return at<33>().as_bytes(); }
+ bool has_android_report_config() const { return at<34>().valid(); }
+ ::protozero::ConstBytes android_report_config() const { return at<34>().as_bytes(); }
+ bool has_cmd_trace_start_delay() const { return at<35>().valid(); }
+ ::protozero::ConstBytes cmd_trace_start_delay() const { return at<35>().as_bytes(); }
+};
+
+class TraceConfig : public ::protozero::Message {
+ public:
+ using Decoder = TraceConfig_Decoder;
+ enum : int32_t {
+ kBuffersFieldNumber = 1,
+ kDataSourcesFieldNumber = 2,
+ kBuiltinDataSourcesFieldNumber = 20,
+ kDurationMsFieldNumber = 3,
+ kPreferSuspendClockForDurationFieldNumber = 36,
+ kEnableExtraGuardrailsFieldNumber = 4,
+ kLockdownModeFieldNumber = 5,
+ kProducersFieldNumber = 6,
+ kStatsdMetadataFieldNumber = 7,
+ kWriteIntoFileFieldNumber = 8,
+ kOutputPathFieldNumber = 29,
+ kFileWritePeriodMsFieldNumber = 9,
+ kMaxFileSizeBytesFieldNumber = 10,
+ kGuardrailOverridesFieldNumber = 11,
+ kDeferredStartFieldNumber = 12,
+ kFlushPeriodMsFieldNumber = 13,
+ kFlushTimeoutMsFieldNumber = 14,
+ kDataSourceStopTimeoutMsFieldNumber = 23,
+ kNotifyTraceurFieldNumber = 16,
+ kBugreportScoreFieldNumber = 30,
+ kBugreportFilenameFieldNumber = 38,
+ kTriggerConfigFieldNumber = 17,
+ kActivateTriggersFieldNumber = 18,
+ kIncrementalStateConfigFieldNumber = 21,
+ kAllowUserBuildTracingFieldNumber = 19,
+ kUniqueSessionNameFieldNumber = 22,
+ kCompressionTypeFieldNumber = 24,
+ kIncidentReportConfigFieldNumber = 25,
+ kStatsdLoggingFieldNumber = 31,
+ kTraceUuidMsbFieldNumber = 27,
+ kTraceUuidLsbFieldNumber = 28,
+ kTraceFilterFieldNumber = 33,
+ kAndroidReportConfigFieldNumber = 34,
+ kCmdTraceStartDelayFieldNumber = 35,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TraceConfig"; }
+
+ using BufferConfig = ::perfetto::protos::pbzero::TraceConfig_BufferConfig;
+ using DataSource = ::perfetto::protos::pbzero::TraceConfig_DataSource;
+ using BuiltinDataSource = ::perfetto::protos::pbzero::TraceConfig_BuiltinDataSource;
+ using ProducerConfig = ::perfetto::protos::pbzero::TraceConfig_ProducerConfig;
+ using StatsdMetadata = ::perfetto::protos::pbzero::TraceConfig_StatsdMetadata;
+ using GuardrailOverrides = ::perfetto::protos::pbzero::TraceConfig_GuardrailOverrides;
+ using TriggerConfig = ::perfetto::protos::pbzero::TraceConfig_TriggerConfig;
+ using IncrementalStateConfig = ::perfetto::protos::pbzero::TraceConfig_IncrementalStateConfig;
+ using IncidentReportConfig = ::perfetto::protos::pbzero::TraceConfig_IncidentReportConfig;
+ using TraceFilter = ::perfetto::protos::pbzero::TraceConfig_TraceFilter;
+ using AndroidReportConfig = ::perfetto::protos::pbzero::TraceConfig_AndroidReportConfig;
+ using CmdTraceStartDelay = ::perfetto::protos::pbzero::TraceConfig_CmdTraceStartDelay;
+
+ using LockdownModeOperation = ::perfetto::protos::pbzero::TraceConfig_LockdownModeOperation;
+ static inline const char* LockdownModeOperation_Name(LockdownModeOperation value) {
+ return ::perfetto::protos::pbzero::TraceConfig_LockdownModeOperation_Name(value);
+ }
+
+ using CompressionType = ::perfetto::protos::pbzero::TraceConfig_CompressionType;
+ static inline const char* CompressionType_Name(CompressionType value) {
+ return ::perfetto::protos::pbzero::TraceConfig_CompressionType_Name(value);
+ }
+
+ using StatsdLogging = ::perfetto::protos::pbzero::TraceConfig_StatsdLogging;
+ static inline const char* StatsdLogging_Name(StatsdLogging value) {
+ return ::perfetto::protos::pbzero::TraceConfig_StatsdLogging_Name(value);
+ }
+ static inline const LockdownModeOperation LOCKDOWN_UNCHANGED = LockdownModeOperation::LOCKDOWN_UNCHANGED;
+ static inline const LockdownModeOperation LOCKDOWN_CLEAR = LockdownModeOperation::LOCKDOWN_CLEAR;
+ static inline const LockdownModeOperation LOCKDOWN_SET = LockdownModeOperation::LOCKDOWN_SET;
+ static inline const CompressionType COMPRESSION_TYPE_UNSPECIFIED = CompressionType::COMPRESSION_TYPE_UNSPECIFIED;
+ static inline const CompressionType COMPRESSION_TYPE_DEFLATE = CompressionType::COMPRESSION_TYPE_DEFLATE;
+ static inline const StatsdLogging STATSD_LOGGING_UNSPECIFIED = StatsdLogging::STATSD_LOGGING_UNSPECIFIED;
+ static inline const StatsdLogging STATSD_LOGGING_ENABLED = StatsdLogging::STATSD_LOGGING_ENABLED;
+ static inline const StatsdLogging STATSD_LOGGING_DISABLED = StatsdLogging::STATSD_LOGGING_DISABLED;
+
+ using FieldMetadata_Buffers =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TraceConfig_BufferConfig,
+ TraceConfig>;
+
+ static constexpr FieldMetadata_Buffers kBuffers{};
+ template <typename T = TraceConfig_BufferConfig> T* add_buffers() {
+ return BeginNestedMessage<T>(1);
+ }
+
+
+ using FieldMetadata_DataSources =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TraceConfig_DataSource,
+ TraceConfig>;
+
+ static constexpr FieldMetadata_DataSources kDataSources{};
+ template <typename T = TraceConfig_DataSource> T* add_data_sources() {
+ return BeginNestedMessage<T>(2);
+ }
+
+
+ using FieldMetadata_BuiltinDataSources =
+ ::protozero::proto_utils::FieldMetadata<
+ 20,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TraceConfig_BuiltinDataSource,
+ TraceConfig>;
+
+ static constexpr FieldMetadata_BuiltinDataSources kBuiltinDataSources{};
+ template <typename T = TraceConfig_BuiltinDataSource> T* set_builtin_data_sources() {
+ return BeginNestedMessage<T>(20);
+ }
+
+
+ using FieldMetadata_DurationMs =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TraceConfig>;
+
+ static constexpr FieldMetadata_DurationMs kDurationMs{};
+ void set_duration_ms(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DurationMs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PreferSuspendClockForDuration =
+ ::protozero::proto_utils::FieldMetadata<
+ 36,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ TraceConfig>;
+
+ static constexpr FieldMetadata_PreferSuspendClockForDuration kPreferSuspendClockForDuration{};
+ void set_prefer_suspend_clock_for_duration(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_PreferSuspendClockForDuration::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_EnableExtraGuardrails =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ TraceConfig>;
+
+ static constexpr FieldMetadata_EnableExtraGuardrails kEnableExtraGuardrails{};
+ void set_enable_extra_guardrails(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_EnableExtraGuardrails::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_LockdownMode =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ TraceConfig_LockdownModeOperation,
+ TraceConfig>;
+
+ static constexpr FieldMetadata_LockdownMode kLockdownMode{};
+ void set_lockdown_mode(TraceConfig_LockdownModeOperation value) {
+ static constexpr uint32_t field_id = FieldMetadata_LockdownMode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Producers =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TraceConfig_ProducerConfig,
+ TraceConfig>;
+
+ static constexpr FieldMetadata_Producers kProducers{};
+ template <typename T = TraceConfig_ProducerConfig> T* add_producers() {
+ return BeginNestedMessage<T>(6);
+ }
+
+
+ using FieldMetadata_StatsdMetadata =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TraceConfig_StatsdMetadata,
+ TraceConfig>;
+
+ static constexpr FieldMetadata_StatsdMetadata kStatsdMetadata{};
+ template <typename T = TraceConfig_StatsdMetadata> T* set_statsd_metadata() {
+ return BeginNestedMessage<T>(7);
+ }
+
+
+ using FieldMetadata_WriteIntoFile =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ TraceConfig>;
+
+ static constexpr FieldMetadata_WriteIntoFile kWriteIntoFile{};
+ void set_write_into_file(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_WriteIntoFile::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_OutputPath =
+ ::protozero::proto_utils::FieldMetadata<
+ 29,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ TraceConfig>;
+
+ static constexpr FieldMetadata_OutputPath kOutputPath{};
+ void set_output_path(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_OutputPath::kFieldId, data, size);
+ }
+ void set_output_path(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_OutputPath::kFieldId, chars.data, chars.size);
+ }
+ void set_output_path(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_OutputPath::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FileWritePeriodMs =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TraceConfig>;
+
+ static constexpr FieldMetadata_FileWritePeriodMs kFileWritePeriodMs{};
+ void set_file_write_period_ms(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FileWritePeriodMs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MaxFileSizeBytes =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TraceConfig>;
+
+ static constexpr FieldMetadata_MaxFileSizeBytes kMaxFileSizeBytes{};
+ void set_max_file_size_bytes(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MaxFileSizeBytes::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_GuardrailOverrides =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TraceConfig_GuardrailOverrides,
+ TraceConfig>;
+
+ static constexpr FieldMetadata_GuardrailOverrides kGuardrailOverrides{};
+ template <typename T = TraceConfig_GuardrailOverrides> T* set_guardrail_overrides() {
+ return BeginNestedMessage<T>(11);
+ }
+
+
+ using FieldMetadata_DeferredStart =
+ ::protozero::proto_utils::FieldMetadata<
+ 12,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ TraceConfig>;
+
+ static constexpr FieldMetadata_DeferredStart kDeferredStart{};
+ void set_deferred_start(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_DeferredStart::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FlushPeriodMs =
+ ::protozero::proto_utils::FieldMetadata<
+ 13,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TraceConfig>;
+
+ static constexpr FieldMetadata_FlushPeriodMs kFlushPeriodMs{};
+ void set_flush_period_ms(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FlushPeriodMs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FlushTimeoutMs =
+ ::protozero::proto_utils::FieldMetadata<
+ 14,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TraceConfig>;
+
+ static constexpr FieldMetadata_FlushTimeoutMs kFlushTimeoutMs{};
+ void set_flush_timeout_ms(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FlushTimeoutMs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DataSourceStopTimeoutMs =
+ ::protozero::proto_utils::FieldMetadata<
+ 23,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TraceConfig>;
+
+ static constexpr FieldMetadata_DataSourceStopTimeoutMs kDataSourceStopTimeoutMs{};
+ void set_data_source_stop_timeout_ms(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DataSourceStopTimeoutMs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NotifyTraceur =
+ ::protozero::proto_utils::FieldMetadata<
+ 16,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ TraceConfig>;
+
+ static constexpr FieldMetadata_NotifyTraceur kNotifyTraceur{};
+ void set_notify_traceur(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_NotifyTraceur::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BugreportScore =
+ ::protozero::proto_utils::FieldMetadata<
+ 30,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ TraceConfig>;
+
+ static constexpr FieldMetadata_BugreportScore kBugreportScore{};
+ void set_bugreport_score(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BugreportScore::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BugreportFilename =
+ ::protozero::proto_utils::FieldMetadata<
+ 38,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ TraceConfig>;
+
+ static constexpr FieldMetadata_BugreportFilename kBugreportFilename{};
+ void set_bugreport_filename(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_BugreportFilename::kFieldId, data, size);
+ }
+ void set_bugreport_filename(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_BugreportFilename::kFieldId, chars.data, chars.size);
+ }
+ void set_bugreport_filename(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_BugreportFilename::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TriggerConfig =
+ ::protozero::proto_utils::FieldMetadata<
+ 17,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TraceConfig_TriggerConfig,
+ TraceConfig>;
+
+ static constexpr FieldMetadata_TriggerConfig kTriggerConfig{};
+ template <typename T = TraceConfig_TriggerConfig> T* set_trigger_config() {
+ return BeginNestedMessage<T>(17);
+ }
+
+
+ using FieldMetadata_ActivateTriggers =
+ ::protozero::proto_utils::FieldMetadata<
+ 18,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ TraceConfig>;
+
+ static constexpr FieldMetadata_ActivateTriggers kActivateTriggers{};
+ void add_activate_triggers(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_ActivateTriggers::kFieldId, data, size);
+ }
+ void add_activate_triggers(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_ActivateTriggers::kFieldId, chars.data, chars.size);
+ }
+ void add_activate_triggers(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_ActivateTriggers::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IncrementalStateConfig =
+ ::protozero::proto_utils::FieldMetadata<
+ 21,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TraceConfig_IncrementalStateConfig,
+ TraceConfig>;
+
+ static constexpr FieldMetadata_IncrementalStateConfig kIncrementalStateConfig{};
+ template <typename T = TraceConfig_IncrementalStateConfig> T* set_incremental_state_config() {
+ return BeginNestedMessage<T>(21);
+ }
+
+
+ using FieldMetadata_AllowUserBuildTracing =
+ ::protozero::proto_utils::FieldMetadata<
+ 19,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ TraceConfig>;
+
+ static constexpr FieldMetadata_AllowUserBuildTracing kAllowUserBuildTracing{};
+ void set_allow_user_build_tracing(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_AllowUserBuildTracing::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_UniqueSessionName =
+ ::protozero::proto_utils::FieldMetadata<
+ 22,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ TraceConfig>;
+
+ static constexpr FieldMetadata_UniqueSessionName kUniqueSessionName{};
+ void set_unique_session_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_UniqueSessionName::kFieldId, data, size);
+ }
+ void set_unique_session_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_UniqueSessionName::kFieldId, chars.data, chars.size);
+ }
+ void set_unique_session_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_UniqueSessionName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CompressionType =
+ ::protozero::proto_utils::FieldMetadata<
+ 24,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ TraceConfig_CompressionType,
+ TraceConfig>;
+
+ static constexpr FieldMetadata_CompressionType kCompressionType{};
+ void set_compression_type(TraceConfig_CompressionType value) {
+ static constexpr uint32_t field_id = FieldMetadata_CompressionType::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IncidentReportConfig =
+ ::protozero::proto_utils::FieldMetadata<
+ 25,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TraceConfig_IncidentReportConfig,
+ TraceConfig>;
+
+ static constexpr FieldMetadata_IncidentReportConfig kIncidentReportConfig{};
+ template <typename T = TraceConfig_IncidentReportConfig> T* set_incident_report_config() {
+ return BeginNestedMessage<T>(25);
+ }
+
+
+ using FieldMetadata_StatsdLogging =
+ ::protozero::proto_utils::FieldMetadata<
+ 31,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ TraceConfig_StatsdLogging,
+ TraceConfig>;
+
+ static constexpr FieldMetadata_StatsdLogging kStatsdLogging{};
+ void set_statsd_logging(TraceConfig_StatsdLogging value) {
+ static constexpr uint32_t field_id = FieldMetadata_StatsdLogging::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TraceUuidMsb =
+ ::protozero::proto_utils::FieldMetadata<
+ 27,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ TraceConfig>;
+
+ static constexpr FieldMetadata_TraceUuidMsb kTraceUuidMsb{};
+ void set_trace_uuid_msb(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TraceUuidMsb::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TraceUuidLsb =
+ ::protozero::proto_utils::FieldMetadata<
+ 28,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ TraceConfig>;
+
+ static constexpr FieldMetadata_TraceUuidLsb kTraceUuidLsb{};
+ void set_trace_uuid_lsb(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TraceUuidLsb::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TraceFilter =
+ ::protozero::proto_utils::FieldMetadata<
+ 33,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TraceConfig_TraceFilter,
+ TraceConfig>;
+
+ static constexpr FieldMetadata_TraceFilter kTraceFilter{};
+ template <typename T = TraceConfig_TraceFilter> T* set_trace_filter() {
+ return BeginNestedMessage<T>(33);
+ }
+
+
+ using FieldMetadata_AndroidReportConfig =
+ ::protozero::proto_utils::FieldMetadata<
+ 34,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TraceConfig_AndroidReportConfig,
+ TraceConfig>;
+
+ static constexpr FieldMetadata_AndroidReportConfig kAndroidReportConfig{};
+ template <typename T = TraceConfig_AndroidReportConfig> T* set_android_report_config() {
+ return BeginNestedMessage<T>(34);
+ }
+
+
+ using FieldMetadata_CmdTraceStartDelay =
+ ::protozero::proto_utils::FieldMetadata<
+ 35,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TraceConfig_CmdTraceStartDelay,
+ TraceConfig>;
+
+ static constexpr FieldMetadata_CmdTraceStartDelay kCmdTraceStartDelay{};
+ template <typename T = TraceConfig_CmdTraceStartDelay> T* set_cmd_trace_start_delay() {
+ return BeginNestedMessage<T>(35);
+ }
+
+};
+
+class TraceConfig_CmdTraceStartDelay_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ TraceConfig_CmdTraceStartDelay_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TraceConfig_CmdTraceStartDelay_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TraceConfig_CmdTraceStartDelay_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_min_delay_ms() const { return at<1>().valid(); }
+ uint32_t min_delay_ms() const { return at<1>().as_uint32(); }
+ bool has_max_delay_ms() const { return at<2>().valid(); }
+ uint32_t max_delay_ms() const { return at<2>().as_uint32(); }
+};
+
+class TraceConfig_CmdTraceStartDelay : public ::protozero::Message {
+ public:
+ using Decoder = TraceConfig_CmdTraceStartDelay_Decoder;
+ enum : int32_t {
+ kMinDelayMsFieldNumber = 1,
+ kMaxDelayMsFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TraceConfig.CmdTraceStartDelay"; }
+
+
+ using FieldMetadata_MinDelayMs =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TraceConfig_CmdTraceStartDelay>;
+
+ static constexpr FieldMetadata_MinDelayMs kMinDelayMs{};
+ void set_min_delay_ms(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MinDelayMs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MaxDelayMs =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TraceConfig_CmdTraceStartDelay>;
+
+ static constexpr FieldMetadata_MaxDelayMs kMaxDelayMs{};
+ void set_max_delay_ms(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MaxDelayMs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class TraceConfig_AndroidReportConfig_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ TraceConfig_AndroidReportConfig_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TraceConfig_AndroidReportConfig_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TraceConfig_AndroidReportConfig_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_reporter_service_package() const { return at<1>().valid(); }
+ ::protozero::ConstChars reporter_service_package() const { return at<1>().as_string(); }
+ bool has_reporter_service_class() const { return at<2>().valid(); }
+ ::protozero::ConstChars reporter_service_class() const { return at<2>().as_string(); }
+ bool has_skip_report() const { return at<3>().valid(); }
+ bool skip_report() const { return at<3>().as_bool(); }
+ bool has_use_pipe_in_framework_for_testing() const { return at<4>().valid(); }
+ bool use_pipe_in_framework_for_testing() const { return at<4>().as_bool(); }
+};
+
+class TraceConfig_AndroidReportConfig : public ::protozero::Message {
+ public:
+ using Decoder = TraceConfig_AndroidReportConfig_Decoder;
+ enum : int32_t {
+ kReporterServicePackageFieldNumber = 1,
+ kReporterServiceClassFieldNumber = 2,
+ kSkipReportFieldNumber = 3,
+ kUsePipeInFrameworkForTestingFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TraceConfig.AndroidReportConfig"; }
+
+
+ using FieldMetadata_ReporterServicePackage =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ TraceConfig_AndroidReportConfig>;
+
+ static constexpr FieldMetadata_ReporterServicePackage kReporterServicePackage{};
+ void set_reporter_service_package(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_ReporterServicePackage::kFieldId, data, size);
+ }
+ void set_reporter_service_package(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_ReporterServicePackage::kFieldId, chars.data, chars.size);
+ }
+ void set_reporter_service_package(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_ReporterServicePackage::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ReporterServiceClass =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ TraceConfig_AndroidReportConfig>;
+
+ static constexpr FieldMetadata_ReporterServiceClass kReporterServiceClass{};
+ void set_reporter_service_class(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_ReporterServiceClass::kFieldId, data, size);
+ }
+ void set_reporter_service_class(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_ReporterServiceClass::kFieldId, chars.data, chars.size);
+ }
+ void set_reporter_service_class(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_ReporterServiceClass::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SkipReport =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ TraceConfig_AndroidReportConfig>;
+
+ static constexpr FieldMetadata_SkipReport kSkipReport{};
+ void set_skip_report(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_SkipReport::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_UsePipeInFrameworkForTesting =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ TraceConfig_AndroidReportConfig>;
+
+ static constexpr FieldMetadata_UsePipeInFrameworkForTesting kUsePipeInFrameworkForTesting{};
+ void set_use_pipe_in_framework_for_testing(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_UsePipeInFrameworkForTesting::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class TraceConfig_TraceFilter_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ TraceConfig_TraceFilter_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TraceConfig_TraceFilter_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TraceConfig_TraceFilter_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_bytecode() const { return at<1>().valid(); }
+ ::protozero::ConstBytes bytecode() const { return at<1>().as_bytes(); }
+ bool has_bytecode_v2() const { return at<2>().valid(); }
+ ::protozero::ConstBytes bytecode_v2() const { return at<2>().as_bytes(); }
+ bool has_string_filter_chain() const { return at<3>().valid(); }
+ ::protozero::ConstBytes string_filter_chain() const { return at<3>().as_bytes(); }
+};
+
+class TraceConfig_TraceFilter : public ::protozero::Message {
+ public:
+ using Decoder = TraceConfig_TraceFilter_Decoder;
+ enum : int32_t {
+ kBytecodeFieldNumber = 1,
+ kBytecodeV2FieldNumber = 2,
+ kStringFilterChainFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TraceConfig.TraceFilter"; }
+
+ using StringFilterRule = ::perfetto::protos::pbzero::TraceConfig_TraceFilter_StringFilterRule;
+ using StringFilterChain = ::perfetto::protos::pbzero::TraceConfig_TraceFilter_StringFilterChain;
+
+ using StringFilterPolicy = ::perfetto::protos::pbzero::TraceConfig_TraceFilter_StringFilterPolicy;
+ static inline const char* StringFilterPolicy_Name(StringFilterPolicy value) {
+ return ::perfetto::protos::pbzero::TraceConfig_TraceFilter_StringFilterPolicy_Name(value);
+ }
+ static inline const StringFilterPolicy SFP_UNSPECIFIED = StringFilterPolicy::SFP_UNSPECIFIED;
+ static inline const StringFilterPolicy SFP_MATCH_REDACT_GROUPS = StringFilterPolicy::SFP_MATCH_REDACT_GROUPS;
+ static inline const StringFilterPolicy SFP_ATRACE_MATCH_REDACT_GROUPS = StringFilterPolicy::SFP_ATRACE_MATCH_REDACT_GROUPS;
+ static inline const StringFilterPolicy SFP_MATCH_BREAK = StringFilterPolicy::SFP_MATCH_BREAK;
+ static inline const StringFilterPolicy SFP_ATRACE_MATCH_BREAK = StringFilterPolicy::SFP_ATRACE_MATCH_BREAK;
+ static inline const StringFilterPolicy SFP_ATRACE_REPEATED_SEARCH_REDACT_GROUPS = StringFilterPolicy::SFP_ATRACE_REPEATED_SEARCH_REDACT_GROUPS;
+
+ using FieldMetadata_Bytecode =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBytes,
+ std::string,
+ TraceConfig_TraceFilter>;
+
+ static constexpr FieldMetadata_Bytecode kBytecode{};
+ void set_bytecode(const uint8_t* data, size_t size) {
+ AppendBytes(FieldMetadata_Bytecode::kFieldId, data, size);
+ }
+ void set_bytecode(::protozero::ConstBytes bytes) {
+ AppendBytes(FieldMetadata_Bytecode::kFieldId, bytes.data, bytes.size);
+ }
+ void set_bytecode(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Bytecode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBytes>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BytecodeV2 =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBytes,
+ std::string,
+ TraceConfig_TraceFilter>;
+
+ static constexpr FieldMetadata_BytecodeV2 kBytecodeV2{};
+ void set_bytecode_v2(const uint8_t* data, size_t size) {
+ AppendBytes(FieldMetadata_BytecodeV2::kFieldId, data, size);
+ }
+ void set_bytecode_v2(::protozero::ConstBytes bytes) {
+ AppendBytes(FieldMetadata_BytecodeV2::kFieldId, bytes.data, bytes.size);
+ }
+ void set_bytecode_v2(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_BytecodeV2::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBytes>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_StringFilterChain =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TraceConfig_TraceFilter_StringFilterChain,
+ TraceConfig_TraceFilter>;
+
+ static constexpr FieldMetadata_StringFilterChain kStringFilterChain{};
+ template <typename T = TraceConfig_TraceFilter_StringFilterChain> T* set_string_filter_chain() {
+ return BeginNestedMessage<T>(3);
+ }
+
+};
+
+class TraceConfig_TraceFilter_StringFilterChain_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ TraceConfig_TraceFilter_StringFilterChain_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TraceConfig_TraceFilter_StringFilterChain_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TraceConfig_TraceFilter_StringFilterChain_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_rules() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> rules() const { return GetRepeated<::protozero::ConstBytes>(1); }
+};
+
+class TraceConfig_TraceFilter_StringFilterChain : public ::protozero::Message {
+ public:
+ using Decoder = TraceConfig_TraceFilter_StringFilterChain_Decoder;
+ enum : int32_t {
+ kRulesFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TraceConfig.TraceFilter.StringFilterChain"; }
+
+
+ using FieldMetadata_Rules =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TraceConfig_TraceFilter_StringFilterRule,
+ TraceConfig_TraceFilter_StringFilterChain>;
+
+ static constexpr FieldMetadata_Rules kRules{};
+ template <typename T = TraceConfig_TraceFilter_StringFilterRule> T* add_rules() {
+ return BeginNestedMessage<T>(1);
+ }
+
+};
+
+class TraceConfig_TraceFilter_StringFilterRule_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ TraceConfig_TraceFilter_StringFilterRule_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TraceConfig_TraceFilter_StringFilterRule_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TraceConfig_TraceFilter_StringFilterRule_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_policy() const { return at<1>().valid(); }
+ int32_t policy() const { return at<1>().as_int32(); }
+ bool has_regex_pattern() const { return at<2>().valid(); }
+ ::protozero::ConstChars regex_pattern() const { return at<2>().as_string(); }
+ bool has_atrace_payload_starts_with() const { return at<3>().valid(); }
+ ::protozero::ConstChars atrace_payload_starts_with() const { return at<3>().as_string(); }
+};
+
+class TraceConfig_TraceFilter_StringFilterRule : public ::protozero::Message {
+ public:
+ using Decoder = TraceConfig_TraceFilter_StringFilterRule_Decoder;
+ enum : int32_t {
+ kPolicyFieldNumber = 1,
+ kRegexPatternFieldNumber = 2,
+ kAtracePayloadStartsWithFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TraceConfig.TraceFilter.StringFilterRule"; }
+
+
+ using FieldMetadata_Policy =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ TraceConfig_TraceFilter_StringFilterPolicy,
+ TraceConfig_TraceFilter_StringFilterRule>;
+
+ static constexpr FieldMetadata_Policy kPolicy{};
+ void set_policy(TraceConfig_TraceFilter_StringFilterPolicy value) {
+ static constexpr uint32_t field_id = FieldMetadata_Policy::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_RegexPattern =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ TraceConfig_TraceFilter_StringFilterRule>;
+
+ static constexpr FieldMetadata_RegexPattern kRegexPattern{};
+ void set_regex_pattern(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_RegexPattern::kFieldId, data, size);
+ }
+ void set_regex_pattern(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_RegexPattern::kFieldId, chars.data, chars.size);
+ }
+ void set_regex_pattern(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_RegexPattern::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_AtracePayloadStartsWith =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ TraceConfig_TraceFilter_StringFilterRule>;
+
+ static constexpr FieldMetadata_AtracePayloadStartsWith kAtracePayloadStartsWith{};
+ void set_atrace_payload_starts_with(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_AtracePayloadStartsWith::kFieldId, data, size);
+ }
+ void set_atrace_payload_starts_with(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_AtracePayloadStartsWith::kFieldId, chars.data, chars.size);
+ }
+ void set_atrace_payload_starts_with(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_AtracePayloadStartsWith::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class TraceConfig_IncidentReportConfig_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ TraceConfig_IncidentReportConfig_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TraceConfig_IncidentReportConfig_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TraceConfig_IncidentReportConfig_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_destination_package() const { return at<1>().valid(); }
+ ::protozero::ConstChars destination_package() const { return at<1>().as_string(); }
+ bool has_destination_class() const { return at<2>().valid(); }
+ ::protozero::ConstChars destination_class() const { return at<2>().as_string(); }
+ bool has_privacy_level() const { return at<3>().valid(); }
+ int32_t privacy_level() const { return at<3>().as_int32(); }
+ bool has_skip_incidentd() const { return at<5>().valid(); }
+ bool skip_incidentd() const { return at<5>().as_bool(); }
+ bool has_skip_dropbox() const { return at<4>().valid(); }
+ bool skip_dropbox() const { return at<4>().as_bool(); }
+};
+
+class TraceConfig_IncidentReportConfig : public ::protozero::Message {
+ public:
+ using Decoder = TraceConfig_IncidentReportConfig_Decoder;
+ enum : int32_t {
+ kDestinationPackageFieldNumber = 1,
+ kDestinationClassFieldNumber = 2,
+ kPrivacyLevelFieldNumber = 3,
+ kSkipIncidentdFieldNumber = 5,
+ kSkipDropboxFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TraceConfig.IncidentReportConfig"; }
+
+
+ using FieldMetadata_DestinationPackage =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ TraceConfig_IncidentReportConfig>;
+
+ static constexpr FieldMetadata_DestinationPackage kDestinationPackage{};
+ void set_destination_package(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_DestinationPackage::kFieldId, data, size);
+ }
+ void set_destination_package(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_DestinationPackage::kFieldId, chars.data, chars.size);
+ }
+ void set_destination_package(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_DestinationPackage::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DestinationClass =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ TraceConfig_IncidentReportConfig>;
+
+ static constexpr FieldMetadata_DestinationClass kDestinationClass{};
+ void set_destination_class(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_DestinationClass::kFieldId, data, size);
+ }
+ void set_destination_class(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_DestinationClass::kFieldId, chars.data, chars.size);
+ }
+ void set_destination_class(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_DestinationClass::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PrivacyLevel =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ TraceConfig_IncidentReportConfig>;
+
+ static constexpr FieldMetadata_PrivacyLevel kPrivacyLevel{};
+ void set_privacy_level(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PrivacyLevel::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SkipIncidentd =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ TraceConfig_IncidentReportConfig>;
+
+ static constexpr FieldMetadata_SkipIncidentd kSkipIncidentd{};
+ void set_skip_incidentd(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_SkipIncidentd::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SkipDropbox =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ TraceConfig_IncidentReportConfig>;
+
+ static constexpr FieldMetadata_SkipDropbox kSkipDropbox{};
+ void set_skip_dropbox(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_SkipDropbox::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class TraceConfig_IncrementalStateConfig_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ TraceConfig_IncrementalStateConfig_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TraceConfig_IncrementalStateConfig_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TraceConfig_IncrementalStateConfig_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_clear_period_ms() const { return at<1>().valid(); }
+ uint32_t clear_period_ms() const { return at<1>().as_uint32(); }
+};
+
+class TraceConfig_IncrementalStateConfig : public ::protozero::Message {
+ public:
+ using Decoder = TraceConfig_IncrementalStateConfig_Decoder;
+ enum : int32_t {
+ kClearPeriodMsFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TraceConfig.IncrementalStateConfig"; }
+
+
+ using FieldMetadata_ClearPeriodMs =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TraceConfig_IncrementalStateConfig>;
+
+ static constexpr FieldMetadata_ClearPeriodMs kClearPeriodMs{};
+ void set_clear_period_ms(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ClearPeriodMs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class TraceConfig_TriggerConfig_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ TraceConfig_TriggerConfig_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TraceConfig_TriggerConfig_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TraceConfig_TriggerConfig_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_trigger_mode() const { return at<1>().valid(); }
+ int32_t trigger_mode() const { return at<1>().as_int32(); }
+ bool has_use_clone_snapshot_if_available() const { return at<5>().valid(); }
+ bool use_clone_snapshot_if_available() const { return at<5>().as_bool(); }
+ bool has_triggers() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> triggers() const { return GetRepeated<::protozero::ConstBytes>(2); }
+ bool has_trigger_timeout_ms() const { return at<3>().valid(); }
+ uint32_t trigger_timeout_ms() const { return at<3>().as_uint32(); }
+};
+
+class TraceConfig_TriggerConfig : public ::protozero::Message {
+ public:
+ using Decoder = TraceConfig_TriggerConfig_Decoder;
+ enum : int32_t {
+ kTriggerModeFieldNumber = 1,
+ kUseCloneSnapshotIfAvailableFieldNumber = 5,
+ kTriggersFieldNumber = 2,
+ kTriggerTimeoutMsFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TraceConfig.TriggerConfig"; }
+
+ using Trigger = ::perfetto::protos::pbzero::TraceConfig_TriggerConfig_Trigger;
+
+ using TriggerMode = ::perfetto::protos::pbzero::TraceConfig_TriggerConfig_TriggerMode;
+ static inline const char* TriggerMode_Name(TriggerMode value) {
+ return ::perfetto::protos::pbzero::TraceConfig_TriggerConfig_TriggerMode_Name(value);
+ }
+ static inline const TriggerMode UNSPECIFIED = TriggerMode::UNSPECIFIED;
+ static inline const TriggerMode START_TRACING = TriggerMode::START_TRACING;
+ static inline const TriggerMode STOP_TRACING = TriggerMode::STOP_TRACING;
+ static inline const TriggerMode CLONE_SNAPSHOT = TriggerMode::CLONE_SNAPSHOT;
+
+ using FieldMetadata_TriggerMode =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ TraceConfig_TriggerConfig_TriggerMode,
+ TraceConfig_TriggerConfig>;
+
+ static constexpr FieldMetadata_TriggerMode kTriggerMode{};
+ void set_trigger_mode(TraceConfig_TriggerConfig_TriggerMode value) {
+ static constexpr uint32_t field_id = FieldMetadata_TriggerMode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_UseCloneSnapshotIfAvailable =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ TraceConfig_TriggerConfig>;
+
+ static constexpr FieldMetadata_UseCloneSnapshotIfAvailable kUseCloneSnapshotIfAvailable{};
+ void set_use_clone_snapshot_if_available(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_UseCloneSnapshotIfAvailable::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Triggers =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TraceConfig_TriggerConfig_Trigger,
+ TraceConfig_TriggerConfig>;
+
+ static constexpr FieldMetadata_Triggers kTriggers{};
+ template <typename T = TraceConfig_TriggerConfig_Trigger> T* add_triggers() {
+ return BeginNestedMessage<T>(2);
+ }
+
+
+ using FieldMetadata_TriggerTimeoutMs =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TraceConfig_TriggerConfig>;
+
+ static constexpr FieldMetadata_TriggerTimeoutMs kTriggerTimeoutMs{};
+ void set_trigger_timeout_ms(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TriggerTimeoutMs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class TraceConfig_TriggerConfig_Trigger_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ TraceConfig_TriggerConfig_Trigger_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TraceConfig_TriggerConfig_Trigger_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TraceConfig_TriggerConfig_Trigger_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars name() const { return at<1>().as_string(); }
+ bool has_producer_name_regex() const { return at<2>().valid(); }
+ ::protozero::ConstChars producer_name_regex() const { return at<2>().as_string(); }
+ bool has_stop_delay_ms() const { return at<3>().valid(); }
+ uint32_t stop_delay_ms() const { return at<3>().as_uint32(); }
+ bool has_max_per_24_h() const { return at<4>().valid(); }
+ uint32_t max_per_24_h() const { return at<4>().as_uint32(); }
+ bool has_skip_probability() const { return at<5>().valid(); }
+ double skip_probability() const { return at<5>().as_double(); }
+};
+
+class TraceConfig_TriggerConfig_Trigger : public ::protozero::Message {
+ public:
+ using Decoder = TraceConfig_TriggerConfig_Trigger_Decoder;
+ enum : int32_t {
+ kNameFieldNumber = 1,
+ kProducerNameRegexFieldNumber = 2,
+ kStopDelayMsFieldNumber = 3,
+ kMaxPer24HFieldNumber = 4,
+ kSkipProbabilityFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TraceConfig.TriggerConfig.Trigger"; }
+
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ TraceConfig_TriggerConfig_Trigger>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ProducerNameRegex =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ TraceConfig_TriggerConfig_Trigger>;
+
+ static constexpr FieldMetadata_ProducerNameRegex kProducerNameRegex{};
+ void set_producer_name_regex(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_ProducerNameRegex::kFieldId, data, size);
+ }
+ void set_producer_name_regex(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_ProducerNameRegex::kFieldId, chars.data, chars.size);
+ }
+ void set_producer_name_regex(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_ProducerNameRegex::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_StopDelayMs =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TraceConfig_TriggerConfig_Trigger>;
+
+ static constexpr FieldMetadata_StopDelayMs kStopDelayMs{};
+ void set_stop_delay_ms(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_StopDelayMs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MaxPer24H =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TraceConfig_TriggerConfig_Trigger>;
+
+ static constexpr FieldMetadata_MaxPer24H kMaxPer24H{};
+ void set_max_per_24_h(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MaxPer24H::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SkipProbability =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kDouble,
+ double,
+ TraceConfig_TriggerConfig_Trigger>;
+
+ static constexpr FieldMetadata_SkipProbability kSkipProbability{};
+ void set_skip_probability(double value) {
+ static constexpr uint32_t field_id = FieldMetadata_SkipProbability::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kDouble>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class TraceConfig_GuardrailOverrides_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ TraceConfig_GuardrailOverrides_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TraceConfig_GuardrailOverrides_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TraceConfig_GuardrailOverrides_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_max_upload_per_day_bytes() const { return at<1>().valid(); }
+ uint64_t max_upload_per_day_bytes() const { return at<1>().as_uint64(); }
+ bool has_max_tracing_buffer_size_kb() const { return at<2>().valid(); }
+ uint32_t max_tracing_buffer_size_kb() const { return at<2>().as_uint32(); }
+};
+
+class TraceConfig_GuardrailOverrides : public ::protozero::Message {
+ public:
+ using Decoder = TraceConfig_GuardrailOverrides_Decoder;
+ enum : int32_t {
+ kMaxUploadPerDayBytesFieldNumber = 1,
+ kMaxTracingBufferSizeKbFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TraceConfig.GuardrailOverrides"; }
+
+
+ using FieldMetadata_MaxUploadPerDayBytes =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TraceConfig_GuardrailOverrides>;
+
+ static constexpr FieldMetadata_MaxUploadPerDayBytes kMaxUploadPerDayBytes{};
+ void set_max_upload_per_day_bytes(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MaxUploadPerDayBytes::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MaxTracingBufferSizeKb =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TraceConfig_GuardrailOverrides>;
+
+ static constexpr FieldMetadata_MaxTracingBufferSizeKb kMaxTracingBufferSizeKb{};
+ void set_max_tracing_buffer_size_kb(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MaxTracingBufferSizeKb::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class TraceConfig_StatsdMetadata_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ TraceConfig_StatsdMetadata_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TraceConfig_StatsdMetadata_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TraceConfig_StatsdMetadata_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_triggering_alert_id() const { return at<1>().valid(); }
+ int64_t triggering_alert_id() const { return at<1>().as_int64(); }
+ bool has_triggering_config_uid() const { return at<2>().valid(); }
+ int32_t triggering_config_uid() const { return at<2>().as_int32(); }
+ bool has_triggering_config_id() const { return at<3>().valid(); }
+ int64_t triggering_config_id() const { return at<3>().as_int64(); }
+ bool has_triggering_subscription_id() const { return at<4>().valid(); }
+ int64_t triggering_subscription_id() const { return at<4>().as_int64(); }
+};
+
+class TraceConfig_StatsdMetadata : public ::protozero::Message {
+ public:
+ using Decoder = TraceConfig_StatsdMetadata_Decoder;
+ enum : int32_t {
+ kTriggeringAlertIdFieldNumber = 1,
+ kTriggeringConfigUidFieldNumber = 2,
+ kTriggeringConfigIdFieldNumber = 3,
+ kTriggeringSubscriptionIdFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TraceConfig.StatsdMetadata"; }
+
+
+ using FieldMetadata_TriggeringAlertId =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ TraceConfig_StatsdMetadata>;
+
+ static constexpr FieldMetadata_TriggeringAlertId kTriggeringAlertId{};
+ void set_triggering_alert_id(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TriggeringAlertId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TriggeringConfigUid =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ TraceConfig_StatsdMetadata>;
+
+ static constexpr FieldMetadata_TriggeringConfigUid kTriggeringConfigUid{};
+ void set_triggering_config_uid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TriggeringConfigUid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TriggeringConfigId =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ TraceConfig_StatsdMetadata>;
+
+ static constexpr FieldMetadata_TriggeringConfigId kTriggeringConfigId{};
+ void set_triggering_config_id(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TriggeringConfigId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TriggeringSubscriptionId =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ TraceConfig_StatsdMetadata>;
+
+ static constexpr FieldMetadata_TriggeringSubscriptionId kTriggeringSubscriptionId{};
+ void set_triggering_subscription_id(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TriggeringSubscriptionId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class TraceConfig_ProducerConfig_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ TraceConfig_ProducerConfig_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TraceConfig_ProducerConfig_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TraceConfig_ProducerConfig_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_producer_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars producer_name() const { return at<1>().as_string(); }
+ bool has_shm_size_kb() const { return at<2>().valid(); }
+ uint32_t shm_size_kb() const { return at<2>().as_uint32(); }
+ bool has_page_size_kb() const { return at<3>().valid(); }
+ uint32_t page_size_kb() const { return at<3>().as_uint32(); }
+};
+
+class TraceConfig_ProducerConfig : public ::protozero::Message {
+ public:
+ using Decoder = TraceConfig_ProducerConfig_Decoder;
+ enum : int32_t {
+ kProducerNameFieldNumber = 1,
+ kShmSizeKbFieldNumber = 2,
+ kPageSizeKbFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TraceConfig.ProducerConfig"; }
+
+
+ using FieldMetadata_ProducerName =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ TraceConfig_ProducerConfig>;
+
+ static constexpr FieldMetadata_ProducerName kProducerName{};
+ void set_producer_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_ProducerName::kFieldId, data, size);
+ }
+ void set_producer_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_ProducerName::kFieldId, chars.data, chars.size);
+ }
+ void set_producer_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_ProducerName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ShmSizeKb =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TraceConfig_ProducerConfig>;
+
+ static constexpr FieldMetadata_ShmSizeKb kShmSizeKb{};
+ void set_shm_size_kb(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ShmSizeKb::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PageSizeKb =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TraceConfig_ProducerConfig>;
+
+ static constexpr FieldMetadata_PageSizeKb kPageSizeKb{};
+ void set_page_size_kb(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PageSizeKb::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class TraceConfig_BuiltinDataSource_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/8, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ TraceConfig_BuiltinDataSource_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TraceConfig_BuiltinDataSource_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TraceConfig_BuiltinDataSource_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_disable_clock_snapshotting() const { return at<1>().valid(); }
+ bool disable_clock_snapshotting() const { return at<1>().as_bool(); }
+ bool has_disable_trace_config() const { return at<2>().valid(); }
+ bool disable_trace_config() const { return at<2>().as_bool(); }
+ bool has_disable_system_info() const { return at<3>().valid(); }
+ bool disable_system_info() const { return at<3>().as_bool(); }
+ bool has_disable_service_events() const { return at<4>().valid(); }
+ bool disable_service_events() const { return at<4>().as_bool(); }
+ bool has_primary_trace_clock() const { return at<5>().valid(); }
+ int32_t primary_trace_clock() const { return at<5>().as_int32(); }
+ bool has_snapshot_interval_ms() const { return at<6>().valid(); }
+ uint32_t snapshot_interval_ms() const { return at<6>().as_uint32(); }
+ bool has_prefer_suspend_clock_for_snapshot() const { return at<7>().valid(); }
+ bool prefer_suspend_clock_for_snapshot() const { return at<7>().as_bool(); }
+ bool has_disable_chunk_usage_histograms() const { return at<8>().valid(); }
+ bool disable_chunk_usage_histograms() const { return at<8>().as_bool(); }
+};
+
+class TraceConfig_BuiltinDataSource : public ::protozero::Message {
+ public:
+ using Decoder = TraceConfig_BuiltinDataSource_Decoder;
+ enum : int32_t {
+ kDisableClockSnapshottingFieldNumber = 1,
+ kDisableTraceConfigFieldNumber = 2,
+ kDisableSystemInfoFieldNumber = 3,
+ kDisableServiceEventsFieldNumber = 4,
+ kPrimaryTraceClockFieldNumber = 5,
+ kSnapshotIntervalMsFieldNumber = 6,
+ kPreferSuspendClockForSnapshotFieldNumber = 7,
+ kDisableChunkUsageHistogramsFieldNumber = 8,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TraceConfig.BuiltinDataSource"; }
+
+
+ using FieldMetadata_DisableClockSnapshotting =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ TraceConfig_BuiltinDataSource>;
+
+ static constexpr FieldMetadata_DisableClockSnapshotting kDisableClockSnapshotting{};
+ void set_disable_clock_snapshotting(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_DisableClockSnapshotting::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DisableTraceConfig =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ TraceConfig_BuiltinDataSource>;
+
+ static constexpr FieldMetadata_DisableTraceConfig kDisableTraceConfig{};
+ void set_disable_trace_config(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_DisableTraceConfig::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DisableSystemInfo =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ TraceConfig_BuiltinDataSource>;
+
+ static constexpr FieldMetadata_DisableSystemInfo kDisableSystemInfo{};
+ void set_disable_system_info(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_DisableSystemInfo::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DisableServiceEvents =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ TraceConfig_BuiltinDataSource>;
+
+ static constexpr FieldMetadata_DisableServiceEvents kDisableServiceEvents{};
+ void set_disable_service_events(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_DisableServiceEvents::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PrimaryTraceClock =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ BuiltinClock,
+ TraceConfig_BuiltinDataSource>;
+
+ static constexpr FieldMetadata_PrimaryTraceClock kPrimaryTraceClock{};
+ void set_primary_trace_clock(BuiltinClock value) {
+ static constexpr uint32_t field_id = FieldMetadata_PrimaryTraceClock::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SnapshotIntervalMs =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TraceConfig_BuiltinDataSource>;
+
+ static constexpr FieldMetadata_SnapshotIntervalMs kSnapshotIntervalMs{};
+ void set_snapshot_interval_ms(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SnapshotIntervalMs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PreferSuspendClockForSnapshot =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ TraceConfig_BuiltinDataSource>;
+
+ static constexpr FieldMetadata_PreferSuspendClockForSnapshot kPreferSuspendClockForSnapshot{};
+ void set_prefer_suspend_clock_for_snapshot(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_PreferSuspendClockForSnapshot::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DisableChunkUsageHistograms =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ TraceConfig_BuiltinDataSource>;
+
+ static constexpr FieldMetadata_DisableChunkUsageHistograms kDisableChunkUsageHistograms{};
+ void set_disable_chunk_usage_histograms(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_DisableChunkUsageHistograms::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class TraceConfig_DataSource_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ TraceConfig_DataSource_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TraceConfig_DataSource_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TraceConfig_DataSource_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_config() const { return at<1>().valid(); }
+ ::protozero::ConstBytes config() const { return at<1>().as_bytes(); }
+ bool has_producer_name_filter() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstChars> producer_name_filter() const { return GetRepeated<::protozero::ConstChars>(2); }
+ bool has_producer_name_regex_filter() const { return at<3>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstChars> producer_name_regex_filter() const { return GetRepeated<::protozero::ConstChars>(3); }
+};
+
+class TraceConfig_DataSource : public ::protozero::Message {
+ public:
+ using Decoder = TraceConfig_DataSource_Decoder;
+ enum : int32_t {
+ kConfigFieldNumber = 1,
+ kProducerNameFilterFieldNumber = 2,
+ kProducerNameRegexFilterFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TraceConfig.DataSource"; }
+
+
+ using FieldMetadata_Config =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ DataSourceConfig,
+ TraceConfig_DataSource>;
+
+ static constexpr FieldMetadata_Config kConfig{};
+ template <typename T = DataSourceConfig> T* set_config() {
+ return BeginNestedMessage<T>(1);
+ }
+
+
+ using FieldMetadata_ProducerNameFilter =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ TraceConfig_DataSource>;
+
+ static constexpr FieldMetadata_ProducerNameFilter kProducerNameFilter{};
+ void add_producer_name_filter(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_ProducerNameFilter::kFieldId, data, size);
+ }
+ void add_producer_name_filter(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_ProducerNameFilter::kFieldId, chars.data, chars.size);
+ }
+ void add_producer_name_filter(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_ProducerNameFilter::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ProducerNameRegexFilter =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ TraceConfig_DataSource>;
+
+ static constexpr FieldMetadata_ProducerNameRegexFilter kProducerNameRegexFilter{};
+ void add_producer_name_regex_filter(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_ProducerNameRegexFilter::kFieldId, data, size);
+ }
+ void add_producer_name_regex_filter(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_ProducerNameRegexFilter::kFieldId, chars.data, chars.size);
+ }
+ void add_producer_name_regex_filter(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_ProducerNameRegexFilter::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class TraceConfig_BufferConfig_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/6, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ TraceConfig_BufferConfig_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TraceConfig_BufferConfig_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TraceConfig_BufferConfig_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_size_kb() const { return at<1>().valid(); }
+ uint32_t size_kb() const { return at<1>().as_uint32(); }
+ bool has_fill_policy() const { return at<4>().valid(); }
+ int32_t fill_policy() const { return at<4>().as_int32(); }
+ bool has_transfer_on_clone() const { return at<5>().valid(); }
+ bool transfer_on_clone() const { return at<5>().as_bool(); }
+ bool has_clear_before_clone() const { return at<6>().valid(); }
+ bool clear_before_clone() const { return at<6>().as_bool(); }
+};
+
+class TraceConfig_BufferConfig : public ::protozero::Message {
+ public:
+ using Decoder = TraceConfig_BufferConfig_Decoder;
+ enum : int32_t {
+ kSizeKbFieldNumber = 1,
+ kFillPolicyFieldNumber = 4,
+ kTransferOnCloneFieldNumber = 5,
+ kClearBeforeCloneFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TraceConfig.BufferConfig"; }
+
+
+ using FillPolicy = ::perfetto::protos::pbzero::TraceConfig_BufferConfig_FillPolicy;
+ static inline const char* FillPolicy_Name(FillPolicy value) {
+ return ::perfetto::protos::pbzero::TraceConfig_BufferConfig_FillPolicy_Name(value);
+ }
+ static inline const FillPolicy UNSPECIFIED = FillPolicy::UNSPECIFIED;
+ static inline const FillPolicy RING_BUFFER = FillPolicy::RING_BUFFER;
+ static inline const FillPolicy DISCARD = FillPolicy::DISCARD;
+
+ using FieldMetadata_SizeKb =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TraceConfig_BufferConfig>;
+
+ static constexpr FieldMetadata_SizeKb kSizeKb{};
+ void set_size_kb(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SizeKb::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FillPolicy =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ TraceConfig_BufferConfig_FillPolicy,
+ TraceConfig_BufferConfig>;
+
+ static constexpr FieldMetadata_FillPolicy kFillPolicy{};
+ void set_fill_policy(TraceConfig_BufferConfig_FillPolicy value) {
+ static constexpr uint32_t field_id = FieldMetadata_FillPolicy::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TransferOnClone =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ TraceConfig_BufferConfig>;
+
+ static constexpr FieldMetadata_TransferOnClone kTransferOnClone{};
+ void set_transfer_on_clone(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_TransferOnClone::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ClearBeforeClone =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ TraceConfig_BufferConfig>;
+
+ static constexpr FieldMetadata_ClearBeforeClone kClearBeforeClone{};
+ void set_clear_before_clone(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_ClearBeforeClone::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/clock_snapshot.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_CLOCK_SNAPSHOT_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_CLOCK_SNAPSHOT_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class ClockSnapshot_Clock;
+enum BuiltinClock : int32_t;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+namespace perfetto_pbzero_enum_ClockSnapshot_Clock {
+enum BuiltinClocks : int32_t {
+ UNKNOWN = 0,
+ REALTIME = 1,
+ REALTIME_COARSE = 2,
+ MONOTONIC = 3,
+ MONOTONIC_COARSE = 4,
+ MONOTONIC_RAW = 5,
+ BOOTTIME = 6,
+ BUILTIN_CLOCK_MAX_ID = 63,
+};
+} // namespace perfetto_pbzero_enum_ClockSnapshot_Clock
+using ClockSnapshot_Clock_BuiltinClocks = perfetto_pbzero_enum_ClockSnapshot_Clock::BuiltinClocks;
+
+
+constexpr ClockSnapshot_Clock_BuiltinClocks ClockSnapshot_Clock_BuiltinClocks_MIN = ClockSnapshot_Clock_BuiltinClocks::UNKNOWN;
+constexpr ClockSnapshot_Clock_BuiltinClocks ClockSnapshot_Clock_BuiltinClocks_MAX = ClockSnapshot_Clock_BuiltinClocks::BUILTIN_CLOCK_MAX_ID;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* ClockSnapshot_Clock_BuiltinClocks_Name(::perfetto::protos::pbzero::ClockSnapshot_Clock_BuiltinClocks value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::ClockSnapshot_Clock_BuiltinClocks::UNKNOWN:
+ return "UNKNOWN";
+
+ case ::perfetto::protos::pbzero::ClockSnapshot_Clock_BuiltinClocks::REALTIME:
+ return "REALTIME";
+
+ case ::perfetto::protos::pbzero::ClockSnapshot_Clock_BuiltinClocks::REALTIME_COARSE:
+ return "REALTIME_COARSE";
+
+ case ::perfetto::protos::pbzero::ClockSnapshot_Clock_BuiltinClocks::MONOTONIC:
+ return "MONOTONIC";
+
+ case ::perfetto::protos::pbzero::ClockSnapshot_Clock_BuiltinClocks::MONOTONIC_COARSE:
+ return "MONOTONIC_COARSE";
+
+ case ::perfetto::protos::pbzero::ClockSnapshot_Clock_BuiltinClocks::MONOTONIC_RAW:
+ return "MONOTONIC_RAW";
+
+ case ::perfetto::protos::pbzero::ClockSnapshot_Clock_BuiltinClocks::BOOTTIME:
+ return "BOOTTIME";
+
+ case ::perfetto::protos::pbzero::ClockSnapshot_Clock_BuiltinClocks::BUILTIN_CLOCK_MAX_ID:
+ return "BUILTIN_CLOCK_MAX_ID";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+class ClockSnapshot_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ ClockSnapshot_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ClockSnapshot_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ClockSnapshot_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_clocks() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> clocks() const { return GetRepeated<::protozero::ConstBytes>(1); }
+ bool has_primary_trace_clock() const { return at<2>().valid(); }
+ int32_t primary_trace_clock() const { return at<2>().as_int32(); }
+};
+
+class ClockSnapshot : public ::protozero::Message {
+ public:
+ using Decoder = ClockSnapshot_Decoder;
+ enum : int32_t {
+ kClocksFieldNumber = 1,
+ kPrimaryTraceClockFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ClockSnapshot"; }
+
+ using Clock = ::perfetto::protos::pbzero::ClockSnapshot_Clock;
+
+ using FieldMetadata_Clocks =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ClockSnapshot_Clock,
+ ClockSnapshot>;
+
+ static constexpr FieldMetadata_Clocks kClocks{};
+ template <typename T = ClockSnapshot_Clock> T* add_clocks() {
+ return BeginNestedMessage<T>(1);
+ }
+
+
+ using FieldMetadata_PrimaryTraceClock =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ BuiltinClock,
+ ClockSnapshot>;
+
+ static constexpr FieldMetadata_PrimaryTraceClock kPrimaryTraceClock{};
+ void set_primary_trace_clock(BuiltinClock value) {
+ static constexpr uint32_t field_id = FieldMetadata_PrimaryTraceClock::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class ClockSnapshot_Clock_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ClockSnapshot_Clock_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ClockSnapshot_Clock_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ClockSnapshot_Clock_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_clock_id() const { return at<1>().valid(); }
+ uint32_t clock_id() const { return at<1>().as_uint32(); }
+ bool has_timestamp() const { return at<2>().valid(); }
+ uint64_t timestamp() const { return at<2>().as_uint64(); }
+ bool has_is_incremental() const { return at<3>().valid(); }
+ bool is_incremental() const { return at<3>().as_bool(); }
+ bool has_unit_multiplier_ns() const { return at<4>().valid(); }
+ uint64_t unit_multiplier_ns() const { return at<4>().as_uint64(); }
+};
+
+class ClockSnapshot_Clock : public ::protozero::Message {
+ public:
+ using Decoder = ClockSnapshot_Clock_Decoder;
+ enum : int32_t {
+ kClockIdFieldNumber = 1,
+ kTimestampFieldNumber = 2,
+ kIsIncrementalFieldNumber = 3,
+ kUnitMultiplierNsFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ClockSnapshot.Clock"; }
+
+
+ using BuiltinClocks = ::perfetto::protos::pbzero::ClockSnapshot_Clock_BuiltinClocks;
+ static inline const char* BuiltinClocks_Name(BuiltinClocks value) {
+ return ::perfetto::protos::pbzero::ClockSnapshot_Clock_BuiltinClocks_Name(value);
+ }
+ static inline const BuiltinClocks UNKNOWN = BuiltinClocks::UNKNOWN;
+ static inline const BuiltinClocks REALTIME = BuiltinClocks::REALTIME;
+ static inline const BuiltinClocks REALTIME_COARSE = BuiltinClocks::REALTIME_COARSE;
+ static inline const BuiltinClocks MONOTONIC = BuiltinClocks::MONOTONIC;
+ static inline const BuiltinClocks MONOTONIC_COARSE = BuiltinClocks::MONOTONIC_COARSE;
+ static inline const BuiltinClocks MONOTONIC_RAW = BuiltinClocks::MONOTONIC_RAW;
+ static inline const BuiltinClocks BOOTTIME = BuiltinClocks::BOOTTIME;
+ static inline const BuiltinClocks BUILTIN_CLOCK_MAX_ID = BuiltinClocks::BUILTIN_CLOCK_MAX_ID;
+
+ using FieldMetadata_ClockId =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ ClockSnapshot_Clock>;
+
+ static constexpr FieldMetadata_ClockId kClockId{};
+ void set_clock_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ClockId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Timestamp =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ClockSnapshot_Clock>;
+
+ static constexpr FieldMetadata_Timestamp kTimestamp{};
+ void set_timestamp(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Timestamp::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IsIncremental =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ClockSnapshot_Clock>;
+
+ static constexpr FieldMetadata_IsIncremental kIsIncremental{};
+ void set_is_incremental(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_IsIncremental::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_UnitMultiplierNs =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ClockSnapshot_Clock>;
+
+ static constexpr FieldMetadata_UnitMultiplierNs kUnitMultiplierNs{};
+ void set_unit_multiplier_ns(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_UnitMultiplierNs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/trace_uuid.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACE_UUID_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACE_UUID_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class TraceUuid_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ TraceUuid_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TraceUuid_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TraceUuid_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_msb() const { return at<1>().valid(); }
+ int64_t msb() const { return at<1>().as_int64(); }
+ bool has_lsb() const { return at<2>().valid(); }
+ int64_t lsb() const { return at<2>().as_int64(); }
+};
+
+class TraceUuid : public ::protozero::Message {
+ public:
+ using Decoder = TraceUuid_Decoder;
+ enum : int32_t {
+ kMsbFieldNumber = 1,
+ kLsbFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TraceUuid"; }
+
+
+ using FieldMetadata_Msb =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ TraceUuid>;
+
+ static constexpr FieldMetadata_Msb kMsb{};
+ void set_msb(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Msb::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Lsb =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ TraceUuid>;
+
+ static constexpr FieldMetadata_Lsb kLsb{};
+ void set_lsb(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Lsb::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/trigger.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRIGGER_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRIGGER_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class Trigger_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Trigger_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Trigger_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Trigger_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_trigger_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars trigger_name() const { return at<1>().as_string(); }
+ bool has_producer_name() const { return at<2>().valid(); }
+ ::protozero::ConstChars producer_name() const { return at<2>().as_string(); }
+ bool has_trusted_producer_uid() const { return at<3>().valid(); }
+ int32_t trusted_producer_uid() const { return at<3>().as_int32(); }
+};
+
+class Trigger : public ::protozero::Message {
+ public:
+ using Decoder = Trigger_Decoder;
+ enum : int32_t {
+ kTriggerNameFieldNumber = 1,
+ kProducerNameFieldNumber = 2,
+ kTrustedProducerUidFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Trigger"; }
+
+
+ using FieldMetadata_TriggerName =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ Trigger>;
+
+ static constexpr FieldMetadata_TriggerName kTriggerName{};
+ void set_trigger_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_TriggerName::kFieldId, data, size);
+ }
+ void set_trigger_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_TriggerName::kFieldId, chars.data, chars.size);
+ }
+ void set_trigger_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_TriggerName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ProducerName =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ Trigger>;
+
+ static constexpr FieldMetadata_ProducerName kProducerName{};
+ void set_producer_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_ProducerName::kFieldId, data, size);
+ }
+ void set_producer_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_ProducerName::kFieldId, chars.data, chars.size);
+ }
+ void set_producer_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_ProducerName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TrustedProducerUid =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Trigger>;
+
+ static constexpr FieldMetadata_TrustedProducerUid kTrustedProducerUid{};
+ void set_trusted_producer_uid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TrustedProducerUid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/system_info.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_SYSTEM_INFO_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_SYSTEM_INFO_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class Utsname;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class SystemInfo_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/8, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ SystemInfo_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SystemInfo_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SystemInfo_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_utsname() const { return at<1>().valid(); }
+ ::protozero::ConstBytes utsname() const { return at<1>().as_bytes(); }
+ bool has_android_build_fingerprint() const { return at<2>().valid(); }
+ ::protozero::ConstChars android_build_fingerprint() const { return at<2>().as_string(); }
+ bool has_tracing_service_version() const { return at<4>().valid(); }
+ ::protozero::ConstChars tracing_service_version() const { return at<4>().as_string(); }
+ bool has_android_sdk_version() const { return at<5>().valid(); }
+ uint64_t android_sdk_version() const { return at<5>().as_uint64(); }
+ bool has_page_size() const { return at<6>().valid(); }
+ uint32_t page_size() const { return at<6>().as_uint32(); }
+ bool has_num_cpus() const { return at<8>().valid(); }
+ uint32_t num_cpus() const { return at<8>().as_uint32(); }
+ bool has_timezone_off_mins() const { return at<7>().valid(); }
+ int32_t timezone_off_mins() const { return at<7>().as_int32(); }
+ bool has_hz() const { return at<3>().valid(); }
+ int64_t hz() const { return at<3>().as_int64(); }
+};
+
+class SystemInfo : public ::protozero::Message {
+ public:
+ using Decoder = SystemInfo_Decoder;
+ enum : int32_t {
+ kUtsnameFieldNumber = 1,
+ kAndroidBuildFingerprintFieldNumber = 2,
+ kTracingServiceVersionFieldNumber = 4,
+ kAndroidSdkVersionFieldNumber = 5,
+ kPageSizeFieldNumber = 6,
+ kNumCpusFieldNumber = 8,
+ kTimezoneOffMinsFieldNumber = 7,
+ kHzFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SystemInfo"; }
+
+
+ using FieldMetadata_Utsname =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Utsname,
+ SystemInfo>;
+
+ static constexpr FieldMetadata_Utsname kUtsname{};
+ template <typename T = Utsname> T* set_utsname() {
+ return BeginNestedMessage<T>(1);
+ }
+
+
+ using FieldMetadata_AndroidBuildFingerprint =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ SystemInfo>;
+
+ static constexpr FieldMetadata_AndroidBuildFingerprint kAndroidBuildFingerprint{};
+ void set_android_build_fingerprint(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_AndroidBuildFingerprint::kFieldId, data, size);
+ }
+ void set_android_build_fingerprint(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_AndroidBuildFingerprint::kFieldId, chars.data, chars.size);
+ }
+ void set_android_build_fingerprint(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_AndroidBuildFingerprint::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TracingServiceVersion =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ SystemInfo>;
+
+ static constexpr FieldMetadata_TracingServiceVersion kTracingServiceVersion{};
+ void set_tracing_service_version(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_TracingServiceVersion::kFieldId, data, size);
+ }
+ void set_tracing_service_version(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_TracingServiceVersion::kFieldId, chars.data, chars.size);
+ }
+ void set_tracing_service_version(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_TracingServiceVersion::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_AndroidSdkVersion =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SystemInfo>;
+
+ static constexpr FieldMetadata_AndroidSdkVersion kAndroidSdkVersion{};
+ void set_android_sdk_version(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_AndroidSdkVersion::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PageSize =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SystemInfo>;
+
+ static constexpr FieldMetadata_PageSize kPageSize{};
+ void set_page_size(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PageSize::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NumCpus =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SystemInfo>;
+
+ static constexpr FieldMetadata_NumCpus kNumCpus{};
+ void set_num_cpus(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NumCpus::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimezoneOffMins =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SystemInfo>;
+
+ static constexpr FieldMetadata_TimezoneOffMins kTimezoneOffMins{};
+ void set_timezone_off_mins(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimezoneOffMins::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Hz =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ SystemInfo>;
+
+ static constexpr FieldMetadata_Hz kHz{};
+ void set_hz(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Hz::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Utsname_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Utsname_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Utsname_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Utsname_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_sysname() const { return at<1>().valid(); }
+ ::protozero::ConstChars sysname() const { return at<1>().as_string(); }
+ bool has_version() const { return at<2>().valid(); }
+ ::protozero::ConstChars version() const { return at<2>().as_string(); }
+ bool has_release() const { return at<3>().valid(); }
+ ::protozero::ConstChars release() const { return at<3>().as_string(); }
+ bool has_machine() const { return at<4>().valid(); }
+ ::protozero::ConstChars machine() const { return at<4>().as_string(); }
+};
+
+class Utsname : public ::protozero::Message {
+ public:
+ using Decoder = Utsname_Decoder;
+ enum : int32_t {
+ kSysnameFieldNumber = 1,
+ kVersionFieldNumber = 2,
+ kReleaseFieldNumber = 3,
+ kMachineFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Utsname"; }
+
+
+ using FieldMetadata_Sysname =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ Utsname>;
+
+ static constexpr FieldMetadata_Sysname kSysname{};
+ void set_sysname(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Sysname::kFieldId, data, size);
+ }
+ void set_sysname(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Sysname::kFieldId, chars.data, chars.size);
+ }
+ void set_sysname(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Sysname::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Version =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ Utsname>;
+
+ static constexpr FieldMetadata_Version kVersion{};
+ void set_version(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Version::kFieldId, data, size);
+ }
+ void set_version(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Version::kFieldId, chars.data, chars.size);
+ }
+ void set_version(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Version::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Release =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ Utsname>;
+
+ static constexpr FieldMetadata_Release kRelease{};
+ void set_release(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Release::kFieldId, data, size);
+ }
+ void set_release(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Release::kFieldId, chars.data, chars.size);
+ }
+ void set_release(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Release::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Machine =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ Utsname>;
+
+ static constexpr FieldMetadata_Machine kMachine{};
+ void set_machine(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Machine::kFieldId, data, size);
+ }
+ void set_machine(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Machine::kFieldId, chars.data, chars.size);
+ }
+ void set_machine(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Machine::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/android/android_game_intervention_list.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_ANDROID_ANDROID_GAME_INTERVENTION_LIST_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_ANDROID_ANDROID_GAME_INTERVENTION_LIST_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class AndroidGameInterventionList_GameModeInfo;
+class AndroidGameInterventionList_GamePackageInfo;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class AndroidGameInterventionList_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ AndroidGameInterventionList_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit AndroidGameInterventionList_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit AndroidGameInterventionList_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_game_packages() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> game_packages() const { return GetRepeated<::protozero::ConstBytes>(1); }
+ bool has_parse_error() const { return at<2>().valid(); }
+ bool parse_error() const { return at<2>().as_bool(); }
+ bool has_read_error() const { return at<3>().valid(); }
+ bool read_error() const { return at<3>().as_bool(); }
+};
+
+class AndroidGameInterventionList : public ::protozero::Message {
+ public:
+ using Decoder = AndroidGameInterventionList_Decoder;
+ enum : int32_t {
+ kGamePackagesFieldNumber = 1,
+ kParseErrorFieldNumber = 2,
+ kReadErrorFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.AndroidGameInterventionList"; }
+
+ using GameModeInfo = ::perfetto::protos::pbzero::AndroidGameInterventionList_GameModeInfo;
+ using GamePackageInfo = ::perfetto::protos::pbzero::AndroidGameInterventionList_GamePackageInfo;
+
+ using FieldMetadata_GamePackages =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ AndroidGameInterventionList_GamePackageInfo,
+ AndroidGameInterventionList>;
+
+ static constexpr FieldMetadata_GamePackages kGamePackages{};
+ template <typename T = AndroidGameInterventionList_GamePackageInfo> T* add_game_packages() {
+ return BeginNestedMessage<T>(1);
+ }
+
+
+ using FieldMetadata_ParseError =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ AndroidGameInterventionList>;
+
+ static constexpr FieldMetadata_ParseError kParseError{};
+ void set_parse_error(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_ParseError::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ReadError =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ AndroidGameInterventionList>;
+
+ static constexpr FieldMetadata_ReadError kReadError{};
+ void set_read_error(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_ReadError::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class AndroidGameInterventionList_GamePackageInfo_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ AndroidGameInterventionList_GamePackageInfo_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit AndroidGameInterventionList_GamePackageInfo_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit AndroidGameInterventionList_GamePackageInfo_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars name() const { return at<1>().as_string(); }
+ bool has_uid() const { return at<2>().valid(); }
+ uint64_t uid() const { return at<2>().as_uint64(); }
+ bool has_current_mode() const { return at<3>().valid(); }
+ uint32_t current_mode() const { return at<3>().as_uint32(); }
+ bool has_game_mode_info() const { return at<4>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> game_mode_info() const { return GetRepeated<::protozero::ConstBytes>(4); }
+};
+
+class AndroidGameInterventionList_GamePackageInfo : public ::protozero::Message {
+ public:
+ using Decoder = AndroidGameInterventionList_GamePackageInfo_Decoder;
+ enum : int32_t {
+ kNameFieldNumber = 1,
+ kUidFieldNumber = 2,
+ kCurrentModeFieldNumber = 3,
+ kGameModeInfoFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.AndroidGameInterventionList.GamePackageInfo"; }
+
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ AndroidGameInterventionList_GamePackageInfo>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Uid =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ AndroidGameInterventionList_GamePackageInfo>;
+
+ static constexpr FieldMetadata_Uid kUid{};
+ void set_uid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Uid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CurrentMode =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ AndroidGameInterventionList_GamePackageInfo>;
+
+ static constexpr FieldMetadata_CurrentMode kCurrentMode{};
+ void set_current_mode(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CurrentMode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_GameModeInfo =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ AndroidGameInterventionList_GameModeInfo,
+ AndroidGameInterventionList_GamePackageInfo>;
+
+ static constexpr FieldMetadata_GameModeInfo kGameModeInfo{};
+ template <typename T = AndroidGameInterventionList_GameModeInfo> T* add_game_mode_info() {
+ return BeginNestedMessage<T>(4);
+ }
+
+};
+
+class AndroidGameInterventionList_GameModeInfo_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ AndroidGameInterventionList_GameModeInfo_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit AndroidGameInterventionList_GameModeInfo_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit AndroidGameInterventionList_GameModeInfo_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_mode() const { return at<1>().valid(); }
+ uint32_t mode() const { return at<1>().as_uint32(); }
+ bool has_use_angle() const { return at<2>().valid(); }
+ bool use_angle() const { return at<2>().as_bool(); }
+ bool has_resolution_downscale() const { return at<3>().valid(); }
+ float resolution_downscale() const { return at<3>().as_float(); }
+ bool has_fps() const { return at<4>().valid(); }
+ float fps() const { return at<4>().as_float(); }
+};
+
+class AndroidGameInterventionList_GameModeInfo : public ::protozero::Message {
+ public:
+ using Decoder = AndroidGameInterventionList_GameModeInfo_Decoder;
+ enum : int32_t {
+ kModeFieldNumber = 1,
+ kUseAngleFieldNumber = 2,
+ kResolutionDownscaleFieldNumber = 3,
+ kFpsFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.AndroidGameInterventionList.GameModeInfo"; }
+
+
+ using FieldMetadata_Mode =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ AndroidGameInterventionList_GameModeInfo>;
+
+ static constexpr FieldMetadata_Mode kMode{};
+ void set_mode(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Mode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_UseAngle =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ AndroidGameInterventionList_GameModeInfo>;
+
+ static constexpr FieldMetadata_UseAngle kUseAngle{};
+ void set_use_angle(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_UseAngle::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ResolutionDownscale =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFloat,
+ float,
+ AndroidGameInterventionList_GameModeInfo>;
+
+ static constexpr FieldMetadata_ResolutionDownscale kResolutionDownscale{};
+ void set_resolution_downscale(float value) {
+ static constexpr uint32_t field_id = FieldMetadata_ResolutionDownscale::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFloat>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Fps =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFloat,
+ float,
+ AndroidGameInterventionList_GameModeInfo>;
+
+ static constexpr FieldMetadata_Fps kFps{};
+ void set_fps(float value) {
+ static constexpr uint32_t field_id = FieldMetadata_Fps::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFloat>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/android/android_input_event.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_ANDROID_ANDROID_INPUT_EVENT_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_ANDROID_ANDROID_INPUT_EVENT_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class AndroidKeyEvent;
+class AndroidMotionEvent;
+class AndroidMotionEvent_Pointer;
+class AndroidMotionEvent_Pointer_AxisValue;
+class AndroidWindowInputDispatchEvent;
+class AndroidWindowInputDispatchEvent_DispatchedPointer;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class AndroidInputEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/6, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ AndroidInputEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit AndroidInputEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit AndroidInputEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dispatcher_motion_event() const { return at<1>().valid(); }
+ ::protozero::ConstBytes dispatcher_motion_event() const { return at<1>().as_bytes(); }
+ bool has_dispatcher_motion_event_redacted() const { return at<2>().valid(); }
+ ::protozero::ConstBytes dispatcher_motion_event_redacted() const { return at<2>().as_bytes(); }
+ bool has_dispatcher_key_event() const { return at<3>().valid(); }
+ ::protozero::ConstBytes dispatcher_key_event() const { return at<3>().as_bytes(); }
+ bool has_dispatcher_key_event_redacted() const { return at<4>().valid(); }
+ ::protozero::ConstBytes dispatcher_key_event_redacted() const { return at<4>().as_bytes(); }
+ bool has_dispatcher_window_dispatch_event() const { return at<5>().valid(); }
+ ::protozero::ConstBytes dispatcher_window_dispatch_event() const { return at<5>().as_bytes(); }
+ bool has_dispatcher_window_dispatch_event_redacted() const { return at<6>().valid(); }
+ ::protozero::ConstBytes dispatcher_window_dispatch_event_redacted() const { return at<6>().as_bytes(); }
+};
+
+class AndroidInputEvent : public ::protozero::Message {
+ public:
+ using Decoder = AndroidInputEvent_Decoder;
+ enum : int32_t {
+ kDispatcherMotionEventFieldNumber = 1,
+ kDispatcherMotionEventRedactedFieldNumber = 2,
+ kDispatcherKeyEventFieldNumber = 3,
+ kDispatcherKeyEventRedactedFieldNumber = 4,
+ kDispatcherWindowDispatchEventFieldNumber = 5,
+ kDispatcherWindowDispatchEventRedactedFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.AndroidInputEvent"; }
+
+
+ using FieldMetadata_DispatcherMotionEvent =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ AndroidMotionEvent,
+ AndroidInputEvent>;
+
+ static constexpr FieldMetadata_DispatcherMotionEvent kDispatcherMotionEvent{};
+ template <typename T = AndroidMotionEvent> T* set_dispatcher_motion_event() {
+ return BeginNestedMessage<T>(1);
+ }
+
+
+ using FieldMetadata_DispatcherMotionEventRedacted =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ AndroidMotionEvent,
+ AndroidInputEvent>;
+
+ static constexpr FieldMetadata_DispatcherMotionEventRedacted kDispatcherMotionEventRedacted{};
+ template <typename T = AndroidMotionEvent> T* set_dispatcher_motion_event_redacted() {
+ return BeginNestedMessage<T>(2);
+ }
+
+
+ using FieldMetadata_DispatcherKeyEvent =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ AndroidKeyEvent,
+ AndroidInputEvent>;
+
+ static constexpr FieldMetadata_DispatcherKeyEvent kDispatcherKeyEvent{};
+ template <typename T = AndroidKeyEvent> T* set_dispatcher_key_event() {
+ return BeginNestedMessage<T>(3);
+ }
+
+
+ using FieldMetadata_DispatcherKeyEventRedacted =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ AndroidKeyEvent,
+ AndroidInputEvent>;
+
+ static constexpr FieldMetadata_DispatcherKeyEventRedacted kDispatcherKeyEventRedacted{};
+ template <typename T = AndroidKeyEvent> T* set_dispatcher_key_event_redacted() {
+ return BeginNestedMessage<T>(4);
+ }
+
+
+ using FieldMetadata_DispatcherWindowDispatchEvent =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ AndroidWindowInputDispatchEvent,
+ AndroidInputEvent>;
+
+ static constexpr FieldMetadata_DispatcherWindowDispatchEvent kDispatcherWindowDispatchEvent{};
+ template <typename T = AndroidWindowInputDispatchEvent> T* set_dispatcher_window_dispatch_event() {
+ return BeginNestedMessage<T>(5);
+ }
+
+
+ using FieldMetadata_DispatcherWindowDispatchEventRedacted =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ AndroidWindowInputDispatchEvent,
+ AndroidInputEvent>;
+
+ static constexpr FieldMetadata_DispatcherWindowDispatchEventRedacted kDispatcherWindowDispatchEventRedacted{};
+ template <typename T = AndroidWindowInputDispatchEvent> T* set_dispatcher_window_dispatch_event_redacted() {
+ return BeginNestedMessage<T>(6);
+ }
+
+};
+
+class AndroidWindowInputDispatchEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ AndroidWindowInputDispatchEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit AndroidWindowInputDispatchEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit AndroidWindowInputDispatchEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_event_id() const { return at<1>().valid(); }
+ uint32_t event_id() const { return at<1>().as_uint32(); }
+ bool has_vsync_id() const { return at<2>().valid(); }
+ int64_t vsync_id() const { return at<2>().as_int64(); }
+ bool has_window_id() const { return at<3>().valid(); }
+ int32_t window_id() const { return at<3>().as_int32(); }
+ bool has_dispatched_pointer() const { return at<4>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> dispatched_pointer() const { return GetRepeated<::protozero::ConstBytes>(4); }
+ bool has_resolved_flags() const { return at<5>().valid(); }
+ uint32_t resolved_flags() const { return at<5>().as_uint32(); }
+};
+
+class AndroidWindowInputDispatchEvent : public ::protozero::Message {
+ public:
+ using Decoder = AndroidWindowInputDispatchEvent_Decoder;
+ enum : int32_t {
+ kEventIdFieldNumber = 1,
+ kVsyncIdFieldNumber = 2,
+ kWindowIdFieldNumber = 3,
+ kDispatchedPointerFieldNumber = 4,
+ kResolvedFlagsFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.AndroidWindowInputDispatchEvent"; }
+
+ using DispatchedPointer = ::perfetto::protos::pbzero::AndroidWindowInputDispatchEvent_DispatchedPointer;
+
+ using FieldMetadata_EventId =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFixed32,
+ uint32_t,
+ AndroidWindowInputDispatchEvent>;
+
+ static constexpr FieldMetadata_EventId kEventId{};
+ void set_event_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_EventId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFixed32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_VsyncId =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ AndroidWindowInputDispatchEvent>;
+
+ static constexpr FieldMetadata_VsyncId kVsyncId{};
+ void set_vsync_id(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_VsyncId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_WindowId =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ AndroidWindowInputDispatchEvent>;
+
+ static constexpr FieldMetadata_WindowId kWindowId{};
+ void set_window_id(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_WindowId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DispatchedPointer =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ AndroidWindowInputDispatchEvent_DispatchedPointer,
+ AndroidWindowInputDispatchEvent>;
+
+ static constexpr FieldMetadata_DispatchedPointer kDispatchedPointer{};
+ template <typename T = AndroidWindowInputDispatchEvent_DispatchedPointer> T* add_dispatched_pointer() {
+ return BeginNestedMessage<T>(4);
+ }
+
+
+ using FieldMetadata_ResolvedFlags =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ AndroidWindowInputDispatchEvent>;
+
+ static constexpr FieldMetadata_ResolvedFlags kResolvedFlags{};
+ void set_resolved_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ResolvedFlags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class AndroidWindowInputDispatchEvent_DispatchedPointer_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ AndroidWindowInputDispatchEvent_DispatchedPointer_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit AndroidWindowInputDispatchEvent_DispatchedPointer_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit AndroidWindowInputDispatchEvent_DispatchedPointer_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_pointer_id() const { return at<1>().valid(); }
+ int32_t pointer_id() const { return at<1>().as_int32(); }
+ bool has_x_in_display() const { return at<2>().valid(); }
+ float x_in_display() const { return at<2>().as_float(); }
+ bool has_y_in_display() const { return at<3>().valid(); }
+ float y_in_display() const { return at<3>().as_float(); }
+ bool has_axis_value_in_window() const { return at<4>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> axis_value_in_window() const { return GetRepeated<::protozero::ConstBytes>(4); }
+};
+
+class AndroidWindowInputDispatchEvent_DispatchedPointer : public ::protozero::Message {
+ public:
+ using Decoder = AndroidWindowInputDispatchEvent_DispatchedPointer_Decoder;
+ enum : int32_t {
+ kPointerIdFieldNumber = 1,
+ kXInDisplayFieldNumber = 2,
+ kYInDisplayFieldNumber = 3,
+ kAxisValueInWindowFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.AndroidWindowInputDispatchEvent.DispatchedPointer"; }
+
+
+ using FieldMetadata_PointerId =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ AndroidWindowInputDispatchEvent_DispatchedPointer>;
+
+ static constexpr FieldMetadata_PointerId kPointerId{};
+ void set_pointer_id(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PointerId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_XInDisplay =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFloat,
+ float,
+ AndroidWindowInputDispatchEvent_DispatchedPointer>;
+
+ static constexpr FieldMetadata_XInDisplay kXInDisplay{};
+ void set_x_in_display(float value) {
+ static constexpr uint32_t field_id = FieldMetadata_XInDisplay::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFloat>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_YInDisplay =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFloat,
+ float,
+ AndroidWindowInputDispatchEvent_DispatchedPointer>;
+
+ static constexpr FieldMetadata_YInDisplay kYInDisplay{};
+ void set_y_in_display(float value) {
+ static constexpr uint32_t field_id = FieldMetadata_YInDisplay::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFloat>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_AxisValueInWindow =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ AndroidMotionEvent_Pointer_AxisValue,
+ AndroidWindowInputDispatchEvent_DispatchedPointer>;
+
+ static constexpr FieldMetadata_AxisValueInWindow kAxisValueInWindow{};
+ template <typename T = AndroidMotionEvent_Pointer_AxisValue> T* add_axis_value_in_window() {
+ return BeginNestedMessage<T>(4);
+ }
+
+};
+
+class AndroidKeyEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/13, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ AndroidKeyEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit AndroidKeyEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit AndroidKeyEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_event_id() const { return at<1>().valid(); }
+ uint32_t event_id() const { return at<1>().as_uint32(); }
+ bool has_event_time_nanos() const { return at<2>().valid(); }
+ int64_t event_time_nanos() const { return at<2>().as_int64(); }
+ bool has_down_time_nanos() const { return at<3>().valid(); }
+ int64_t down_time_nanos() const { return at<3>().as_int64(); }
+ bool has_source() const { return at<4>().valid(); }
+ uint32_t source() const { return at<4>().as_uint32(); }
+ bool has_action() const { return at<5>().valid(); }
+ int32_t action() const { return at<5>().as_int32(); }
+ bool has_device_id() const { return at<6>().valid(); }
+ int32_t device_id() const { return at<6>().as_int32(); }
+ bool has_display_id() const { return at<7>().valid(); }
+ int32_t display_id() const { return at<7>().as_sint32(); }
+ bool has_key_code() const { return at<8>().valid(); }
+ int32_t key_code() const { return at<8>().as_int32(); }
+ bool has_scan_code() const { return at<9>().valid(); }
+ uint32_t scan_code() const { return at<9>().as_uint32(); }
+ bool has_meta_state() const { return at<10>().valid(); }
+ uint32_t meta_state() const { return at<10>().as_uint32(); }
+ bool has_repeat_count() const { return at<11>().valid(); }
+ int32_t repeat_count() const { return at<11>().as_int32(); }
+ bool has_flags() const { return at<12>().valid(); }
+ uint32_t flags() const { return at<12>().as_uint32(); }
+ bool has_policy_flags() const { return at<13>().valid(); }
+ uint32_t policy_flags() const { return at<13>().as_uint32(); }
+};
+
+class AndroidKeyEvent : public ::protozero::Message {
+ public:
+ using Decoder = AndroidKeyEvent_Decoder;
+ enum : int32_t {
+ kEventIdFieldNumber = 1,
+ kEventTimeNanosFieldNumber = 2,
+ kDownTimeNanosFieldNumber = 3,
+ kSourceFieldNumber = 4,
+ kActionFieldNumber = 5,
+ kDeviceIdFieldNumber = 6,
+ kDisplayIdFieldNumber = 7,
+ kKeyCodeFieldNumber = 8,
+ kScanCodeFieldNumber = 9,
+ kMetaStateFieldNumber = 10,
+ kRepeatCountFieldNumber = 11,
+ kFlagsFieldNumber = 12,
+ kPolicyFlagsFieldNumber = 13,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.AndroidKeyEvent"; }
+
+
+ using FieldMetadata_EventId =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFixed32,
+ uint32_t,
+ AndroidKeyEvent>;
+
+ static constexpr FieldMetadata_EventId kEventId{};
+ void set_event_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_EventId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFixed32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_EventTimeNanos =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ AndroidKeyEvent>;
+
+ static constexpr FieldMetadata_EventTimeNanos kEventTimeNanos{};
+ void set_event_time_nanos(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_EventTimeNanos::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DownTimeNanos =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ AndroidKeyEvent>;
+
+ static constexpr FieldMetadata_DownTimeNanos kDownTimeNanos{};
+ void set_down_time_nanos(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DownTimeNanos::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Source =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ AndroidKeyEvent>;
+
+ static constexpr FieldMetadata_Source kSource{};
+ void set_source(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Source::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Action =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ AndroidKeyEvent>;
+
+ static constexpr FieldMetadata_Action kAction{};
+ void set_action(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Action::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DeviceId =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ AndroidKeyEvent>;
+
+ static constexpr FieldMetadata_DeviceId kDeviceId{};
+ void set_device_id(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DeviceId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DisplayId =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kSint32,
+ int32_t,
+ AndroidKeyEvent>;
+
+ static constexpr FieldMetadata_DisplayId kDisplayId{};
+ void set_display_id(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DisplayId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kSint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_KeyCode =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ AndroidKeyEvent>;
+
+ static constexpr FieldMetadata_KeyCode kKeyCode{};
+ void set_key_code(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_KeyCode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ScanCode =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ AndroidKeyEvent>;
+
+ static constexpr FieldMetadata_ScanCode kScanCode{};
+ void set_scan_code(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ScanCode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MetaState =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ AndroidKeyEvent>;
+
+ static constexpr FieldMetadata_MetaState kMetaState{};
+ void set_meta_state(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MetaState::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_RepeatCount =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ AndroidKeyEvent>;
+
+ static constexpr FieldMetadata_RepeatCount kRepeatCount{};
+ void set_repeat_count(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_RepeatCount::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Flags =
+ ::protozero::proto_utils::FieldMetadata<
+ 12,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ AndroidKeyEvent>;
+
+ static constexpr FieldMetadata_Flags kFlags{};
+ void set_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Flags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PolicyFlags =
+ ::protozero::proto_utils::FieldMetadata<
+ 13,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ AndroidKeyEvent>;
+
+ static constexpr FieldMetadata_PolicyFlags kPolicyFlags{};
+ void set_policy_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PolicyFlags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class AndroidMotionEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/25, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ AndroidMotionEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit AndroidMotionEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit AndroidMotionEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_event_id() const { return at<1>().valid(); }
+ uint32_t event_id() const { return at<1>().as_uint32(); }
+ bool has_event_time_nanos() const { return at<2>().valid(); }
+ int64_t event_time_nanos() const { return at<2>().as_int64(); }
+ bool has_source() const { return at<3>().valid(); }
+ uint32_t source() const { return at<3>().as_uint32(); }
+ bool has_action() const { return at<4>().valid(); }
+ int32_t action() const { return at<4>().as_int32(); }
+ bool has_device_id() const { return at<5>().valid(); }
+ int32_t device_id() const { return at<5>().as_int32(); }
+ bool has_display_id() const { return at<6>().valid(); }
+ int32_t display_id() const { return at<6>().as_sint32(); }
+ bool has_classification() const { return at<7>().valid(); }
+ int32_t classification() const { return at<7>().as_int32(); }
+ bool has_flags() const { return at<8>().valid(); }
+ uint32_t flags() const { return at<8>().as_uint32(); }
+ bool has_pointer() const { return at<9>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> pointer() const { return GetRepeated<::protozero::ConstBytes>(9); }
+ bool has_original_event_id() const { return at<16>().valid(); }
+ ::protozero::PackedRepeatedFieldIterator<::protozero::proto_utils::ProtoWireType::kFixed32, uint32_t> original_event_id(bool* parse_error_ptr) const { return GetPackedRepeated<::protozero::proto_utils::ProtoWireType::kFixed32, uint32_t>(16, parse_error_ptr); }
+ bool has_down_time_nanos() const { return at<17>().valid(); }
+ int64_t down_time_nanos() const { return at<17>().as_int64(); }
+ bool has_cursor_position_x() const { return at<18>().valid(); }
+ float cursor_position_x() const { return at<18>().as_float(); }
+ bool has_cursor_position_y() const { return at<19>().valid(); }
+ float cursor_position_y() const { return at<19>().as_float(); }
+ bool has_action_button() const { return at<20>().valid(); }
+ int32_t action_button() const { return at<20>().as_int32(); }
+ bool has_button_state() const { return at<21>().valid(); }
+ uint32_t button_state() const { return at<21>().as_uint32(); }
+ bool has_meta_state() const { return at<22>().valid(); }
+ uint32_t meta_state() const { return at<22>().as_uint32(); }
+ bool has_policy_flags() const { return at<23>().valid(); }
+ uint32_t policy_flags() const { return at<23>().as_uint32(); }
+ bool has_precision_x() const { return at<24>().valid(); }
+ float precision_x() const { return at<24>().as_float(); }
+ bool has_precision_y() const { return at<25>().valid(); }
+ float precision_y() const { return at<25>().as_float(); }
+};
+
+class AndroidMotionEvent : public ::protozero::Message {
+ public:
+ using Decoder = AndroidMotionEvent_Decoder;
+ enum : int32_t {
+ kEventIdFieldNumber = 1,
+ kEventTimeNanosFieldNumber = 2,
+ kSourceFieldNumber = 3,
+ kActionFieldNumber = 4,
+ kDeviceIdFieldNumber = 5,
+ kDisplayIdFieldNumber = 6,
+ kClassificationFieldNumber = 7,
+ kFlagsFieldNumber = 8,
+ kPointerFieldNumber = 9,
+ kOriginalEventIdFieldNumber = 16,
+ kDownTimeNanosFieldNumber = 17,
+ kCursorPositionXFieldNumber = 18,
+ kCursorPositionYFieldNumber = 19,
+ kActionButtonFieldNumber = 20,
+ kButtonStateFieldNumber = 21,
+ kMetaStateFieldNumber = 22,
+ kPolicyFlagsFieldNumber = 23,
+ kPrecisionXFieldNumber = 24,
+ kPrecisionYFieldNumber = 25,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.AndroidMotionEvent"; }
+
+ using Pointer = ::perfetto::protos::pbzero::AndroidMotionEvent_Pointer;
+
+ using FieldMetadata_EventId =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFixed32,
+ uint32_t,
+ AndroidMotionEvent>;
+
+ static constexpr FieldMetadata_EventId kEventId{};
+ void set_event_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_EventId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFixed32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_EventTimeNanos =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ AndroidMotionEvent>;
+
+ static constexpr FieldMetadata_EventTimeNanos kEventTimeNanos{};
+ void set_event_time_nanos(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_EventTimeNanos::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Source =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ AndroidMotionEvent>;
+
+ static constexpr FieldMetadata_Source kSource{};
+ void set_source(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Source::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Action =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ AndroidMotionEvent>;
+
+ static constexpr FieldMetadata_Action kAction{};
+ void set_action(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Action::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DeviceId =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ AndroidMotionEvent>;
+
+ static constexpr FieldMetadata_DeviceId kDeviceId{};
+ void set_device_id(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DeviceId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DisplayId =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kSint32,
+ int32_t,
+ AndroidMotionEvent>;
+
+ static constexpr FieldMetadata_DisplayId kDisplayId{};
+ void set_display_id(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DisplayId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kSint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Classification =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ AndroidMotionEvent>;
+
+ static constexpr FieldMetadata_Classification kClassification{};
+ void set_classification(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Classification::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Flags =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ AndroidMotionEvent>;
+
+ static constexpr FieldMetadata_Flags kFlags{};
+ void set_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Flags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pointer =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ AndroidMotionEvent_Pointer,
+ AndroidMotionEvent>;
+
+ static constexpr FieldMetadata_Pointer kPointer{};
+ template <typename T = AndroidMotionEvent_Pointer> T* add_pointer() {
+ return BeginNestedMessage<T>(9);
+ }
+
+
+ using FieldMetadata_OriginalEventId =
+ ::protozero::proto_utils::FieldMetadata<
+ 16,
+ ::protozero::proto_utils::RepetitionType::kRepeatedPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kFixed32,
+ uint32_t,
+ AndroidMotionEvent>;
+
+ static constexpr FieldMetadata_OriginalEventId kOriginalEventId{};
+ void set_original_event_id(const ::protozero::PackedFixedSizeInt<uint32_t>& packed_buffer) {
+ AppendBytes(FieldMetadata_OriginalEventId::kFieldId, packed_buffer.data(),
+ packed_buffer.size());
+ }
+
+ using FieldMetadata_DownTimeNanos =
+ ::protozero::proto_utils::FieldMetadata<
+ 17,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ AndroidMotionEvent>;
+
+ static constexpr FieldMetadata_DownTimeNanos kDownTimeNanos{};
+ void set_down_time_nanos(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DownTimeNanos::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CursorPositionX =
+ ::protozero::proto_utils::FieldMetadata<
+ 18,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFloat,
+ float,
+ AndroidMotionEvent>;
+
+ static constexpr FieldMetadata_CursorPositionX kCursorPositionX{};
+ void set_cursor_position_x(float value) {
+ static constexpr uint32_t field_id = FieldMetadata_CursorPositionX::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFloat>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CursorPositionY =
+ ::protozero::proto_utils::FieldMetadata<
+ 19,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFloat,
+ float,
+ AndroidMotionEvent>;
+
+ static constexpr FieldMetadata_CursorPositionY kCursorPositionY{};
+ void set_cursor_position_y(float value) {
+ static constexpr uint32_t field_id = FieldMetadata_CursorPositionY::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFloat>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ActionButton =
+ ::protozero::proto_utils::FieldMetadata<
+ 20,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ AndroidMotionEvent>;
+
+ static constexpr FieldMetadata_ActionButton kActionButton{};
+ void set_action_button(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ActionButton::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ButtonState =
+ ::protozero::proto_utils::FieldMetadata<
+ 21,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ AndroidMotionEvent>;
+
+ static constexpr FieldMetadata_ButtonState kButtonState{};
+ void set_button_state(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ButtonState::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MetaState =
+ ::protozero::proto_utils::FieldMetadata<
+ 22,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ AndroidMotionEvent>;
+
+ static constexpr FieldMetadata_MetaState kMetaState{};
+ void set_meta_state(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MetaState::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PolicyFlags =
+ ::protozero::proto_utils::FieldMetadata<
+ 23,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ AndroidMotionEvent>;
+
+ static constexpr FieldMetadata_PolicyFlags kPolicyFlags{};
+ void set_policy_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PolicyFlags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PrecisionX =
+ ::protozero::proto_utils::FieldMetadata<
+ 24,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFloat,
+ float,
+ AndroidMotionEvent>;
+
+ static constexpr FieldMetadata_PrecisionX kPrecisionX{};
+ void set_precision_x(float value) {
+ static constexpr uint32_t field_id = FieldMetadata_PrecisionX::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFloat>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PrecisionY =
+ ::protozero::proto_utils::FieldMetadata<
+ 25,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFloat,
+ float,
+ AndroidMotionEvent>;
+
+ static constexpr FieldMetadata_PrecisionY kPrecisionY{};
+ void set_precision_y(float value) {
+ static constexpr uint32_t field_id = FieldMetadata_PrecisionY::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFloat>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class AndroidMotionEvent_Pointer_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ AndroidMotionEvent_Pointer_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit AndroidMotionEvent_Pointer_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit AndroidMotionEvent_Pointer_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_axis_value() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> axis_value() const { return GetRepeated<::protozero::ConstBytes>(1); }
+ bool has_pointer_id() const { return at<2>().valid(); }
+ int32_t pointer_id() const { return at<2>().as_int32(); }
+ bool has_tool_type() const { return at<3>().valid(); }
+ int32_t tool_type() const { return at<3>().as_int32(); }
+};
+
+class AndroidMotionEvent_Pointer : public ::protozero::Message {
+ public:
+ using Decoder = AndroidMotionEvent_Pointer_Decoder;
+ enum : int32_t {
+ kAxisValueFieldNumber = 1,
+ kPointerIdFieldNumber = 2,
+ kToolTypeFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.AndroidMotionEvent.Pointer"; }
+
+ using AxisValue = ::perfetto::protos::pbzero::AndroidMotionEvent_Pointer_AxisValue;
+
+ using FieldMetadata_AxisValue =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ AndroidMotionEvent_Pointer_AxisValue,
+ AndroidMotionEvent_Pointer>;
+
+ static constexpr FieldMetadata_AxisValue kAxisValue{};
+ template <typename T = AndroidMotionEvent_Pointer_AxisValue> T* add_axis_value() {
+ return BeginNestedMessage<T>(1);
+ }
+
+
+ using FieldMetadata_PointerId =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ AndroidMotionEvent_Pointer>;
+
+ static constexpr FieldMetadata_PointerId kPointerId{};
+ void set_pointer_id(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PointerId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ToolType =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ AndroidMotionEvent_Pointer>;
+
+ static constexpr FieldMetadata_ToolType kToolType{};
+ void set_tool_type(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ToolType::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class AndroidMotionEvent_Pointer_AxisValue_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ AndroidMotionEvent_Pointer_AxisValue_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit AndroidMotionEvent_Pointer_AxisValue_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit AndroidMotionEvent_Pointer_AxisValue_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_axis() const { return at<1>().valid(); }
+ int32_t axis() const { return at<1>().as_int32(); }
+ bool has_value() const { return at<2>().valid(); }
+ float value() const { return at<2>().as_float(); }
+};
+
+class AndroidMotionEvent_Pointer_AxisValue : public ::protozero::Message {
+ public:
+ using Decoder = AndroidMotionEvent_Pointer_AxisValue_Decoder;
+ enum : int32_t {
+ kAxisFieldNumber = 1,
+ kValueFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.AndroidMotionEvent.Pointer.AxisValue"; }
+
+
+ using FieldMetadata_Axis =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ AndroidMotionEvent_Pointer_AxisValue>;
+
+ static constexpr FieldMetadata_Axis kAxis{};
+ void set_axis(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Axis::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Value =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFloat,
+ float,
+ AndroidMotionEvent_Pointer_AxisValue>;
+
+ static constexpr FieldMetadata_Value kValue{};
+ void set_value(float value) {
+ static constexpr uint32_t field_id = FieldMetadata_Value::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFloat>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/android/android_log.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_ANDROID_ANDROID_LOG_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_ANDROID_ANDROID_LOG_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class AndroidLogPacket_LogEvent;
+class AndroidLogPacket_LogEvent_Arg;
+class AndroidLogPacket_Stats;
+enum AndroidLogId : int32_t;
+enum AndroidLogPriority : int32_t;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class AndroidLogPacket_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ AndroidLogPacket_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit AndroidLogPacket_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit AndroidLogPacket_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_events() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> events() const { return GetRepeated<::protozero::ConstBytes>(1); }
+ bool has_stats() const { return at<2>().valid(); }
+ ::protozero::ConstBytes stats() const { return at<2>().as_bytes(); }
+};
+
+class AndroidLogPacket : public ::protozero::Message {
+ public:
+ using Decoder = AndroidLogPacket_Decoder;
+ enum : int32_t {
+ kEventsFieldNumber = 1,
+ kStatsFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.AndroidLogPacket"; }
+
+ using LogEvent = ::perfetto::protos::pbzero::AndroidLogPacket_LogEvent;
+ using Stats = ::perfetto::protos::pbzero::AndroidLogPacket_Stats;
+
+ using FieldMetadata_Events =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ AndroidLogPacket_LogEvent,
+ AndroidLogPacket>;
+
+ static constexpr FieldMetadata_Events kEvents{};
+ template <typename T = AndroidLogPacket_LogEvent> T* add_events() {
+ return BeginNestedMessage<T>(1);
+ }
+
+
+ using FieldMetadata_Stats =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ AndroidLogPacket_Stats,
+ AndroidLogPacket>;
+
+ static constexpr FieldMetadata_Stats kStats{};
+ template <typename T = AndroidLogPacket_Stats> T* set_stats() {
+ return BeginNestedMessage<T>(2);
+ }
+
+};
+
+class AndroidLogPacket_Stats_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ AndroidLogPacket_Stats_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit AndroidLogPacket_Stats_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit AndroidLogPacket_Stats_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_num_total() const { return at<1>().valid(); }
+ uint64_t num_total() const { return at<1>().as_uint64(); }
+ bool has_num_failed() const { return at<2>().valid(); }
+ uint64_t num_failed() const { return at<2>().as_uint64(); }
+ bool has_num_skipped() const { return at<3>().valid(); }
+ uint64_t num_skipped() const { return at<3>().as_uint64(); }
+};
+
+class AndroidLogPacket_Stats : public ::protozero::Message {
+ public:
+ using Decoder = AndroidLogPacket_Stats_Decoder;
+ enum : int32_t {
+ kNumTotalFieldNumber = 1,
+ kNumFailedFieldNumber = 2,
+ kNumSkippedFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.AndroidLogPacket.Stats"; }
+
+
+ using FieldMetadata_NumTotal =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ AndroidLogPacket_Stats>;
+
+ static constexpr FieldMetadata_NumTotal kNumTotal{};
+ void set_num_total(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NumTotal::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NumFailed =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ AndroidLogPacket_Stats>;
+
+ static constexpr FieldMetadata_NumFailed kNumFailed{};
+ void set_num_failed(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NumFailed::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NumSkipped =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ AndroidLogPacket_Stats>;
+
+ static constexpr FieldMetadata_NumSkipped kNumSkipped{};
+ void set_num_skipped(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NumSkipped::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class AndroidLogPacket_LogEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/9, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ AndroidLogPacket_LogEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit AndroidLogPacket_LogEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit AndroidLogPacket_LogEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_log_id() const { return at<1>().valid(); }
+ int32_t log_id() const { return at<1>().as_int32(); }
+ bool has_pid() const { return at<2>().valid(); }
+ int32_t pid() const { return at<2>().as_int32(); }
+ bool has_tid() const { return at<3>().valid(); }
+ int32_t tid() const { return at<3>().as_int32(); }
+ bool has_uid() const { return at<4>().valid(); }
+ int32_t uid() const { return at<4>().as_int32(); }
+ bool has_timestamp() const { return at<5>().valid(); }
+ uint64_t timestamp() const { return at<5>().as_uint64(); }
+ bool has_tag() const { return at<6>().valid(); }
+ ::protozero::ConstChars tag() const { return at<6>().as_string(); }
+ bool has_prio() const { return at<7>().valid(); }
+ int32_t prio() const { return at<7>().as_int32(); }
+ bool has_message() const { return at<8>().valid(); }
+ ::protozero::ConstChars message() const { return at<8>().as_string(); }
+ bool has_args() const { return at<9>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> args() const { return GetRepeated<::protozero::ConstBytes>(9); }
+};
+
+class AndroidLogPacket_LogEvent : public ::protozero::Message {
+ public:
+ using Decoder = AndroidLogPacket_LogEvent_Decoder;
+ enum : int32_t {
+ kLogIdFieldNumber = 1,
+ kPidFieldNumber = 2,
+ kTidFieldNumber = 3,
+ kUidFieldNumber = 4,
+ kTimestampFieldNumber = 5,
+ kTagFieldNumber = 6,
+ kPrioFieldNumber = 7,
+ kMessageFieldNumber = 8,
+ kArgsFieldNumber = 9,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.AndroidLogPacket.LogEvent"; }
+
+ using Arg = ::perfetto::protos::pbzero::AndroidLogPacket_LogEvent_Arg;
+
+ using FieldMetadata_LogId =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ AndroidLogId,
+ AndroidLogPacket_LogEvent>;
+
+ static constexpr FieldMetadata_LogId kLogId{};
+ void set_log_id(AndroidLogId value) {
+ static constexpr uint32_t field_id = FieldMetadata_LogId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ AndroidLogPacket_LogEvent>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Tid =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ AndroidLogPacket_LogEvent>;
+
+ static constexpr FieldMetadata_Tid kTid{};
+ void set_tid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Tid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Uid =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ AndroidLogPacket_LogEvent>;
+
+ static constexpr FieldMetadata_Uid kUid{};
+ void set_uid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Uid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Timestamp =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ AndroidLogPacket_LogEvent>;
+
+ static constexpr FieldMetadata_Timestamp kTimestamp{};
+ void set_timestamp(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Timestamp::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Tag =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ AndroidLogPacket_LogEvent>;
+
+ static constexpr FieldMetadata_Tag kTag{};
+ void set_tag(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Tag::kFieldId, data, size);
+ }
+ void set_tag(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Tag::kFieldId, chars.data, chars.size);
+ }
+ void set_tag(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Tag::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Prio =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ AndroidLogPriority,
+ AndroidLogPacket_LogEvent>;
+
+ static constexpr FieldMetadata_Prio kPrio{};
+ void set_prio(AndroidLogPriority value) {
+ static constexpr uint32_t field_id = FieldMetadata_Prio::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Message =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ AndroidLogPacket_LogEvent>;
+
+ static constexpr FieldMetadata_Message kMessage{};
+ void set_message(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Message::kFieldId, data, size);
+ }
+ void set_message(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Message::kFieldId, chars.data, chars.size);
+ }
+ void set_message(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Message::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Args =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ AndroidLogPacket_LogEvent_Arg,
+ AndroidLogPacket_LogEvent>;
+
+ static constexpr FieldMetadata_Args kArgs{};
+ template <typename T = AndroidLogPacket_LogEvent_Arg> T* add_args() {
+ return BeginNestedMessage<T>(9);
+ }
+
+};
+
+class AndroidLogPacket_LogEvent_Arg_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ AndroidLogPacket_LogEvent_Arg_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit AndroidLogPacket_LogEvent_Arg_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit AndroidLogPacket_LogEvent_Arg_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars name() const { return at<1>().as_string(); }
+ bool has_int_value() const { return at<2>().valid(); }
+ int64_t int_value() const { return at<2>().as_int64(); }
+ bool has_float_value() const { return at<3>().valid(); }
+ float float_value() const { return at<3>().as_float(); }
+ bool has_string_value() const { return at<4>().valid(); }
+ ::protozero::ConstChars string_value() const { return at<4>().as_string(); }
+};
+
+class AndroidLogPacket_LogEvent_Arg : public ::protozero::Message {
+ public:
+ using Decoder = AndroidLogPacket_LogEvent_Arg_Decoder;
+ enum : int32_t {
+ kNameFieldNumber = 1,
+ kIntValueFieldNumber = 2,
+ kFloatValueFieldNumber = 3,
+ kStringValueFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.AndroidLogPacket.LogEvent.Arg"; }
+
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ AndroidLogPacket_LogEvent_Arg>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IntValue =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ AndroidLogPacket_LogEvent_Arg>;
+
+ static constexpr FieldMetadata_IntValue kIntValue{};
+ void set_int_value(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_IntValue::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FloatValue =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFloat,
+ float,
+ AndroidLogPacket_LogEvent_Arg>;
+
+ static constexpr FieldMetadata_FloatValue kFloatValue{};
+ void set_float_value(float value) {
+ static constexpr uint32_t field_id = FieldMetadata_FloatValue::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFloat>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_StringValue =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ AndroidLogPacket_LogEvent_Arg>;
+
+ static constexpr FieldMetadata_StringValue kStringValue{};
+ void set_string_value(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_StringValue::kFieldId, data, size);
+ }
+ void set_string_value(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_StringValue::kFieldId, chars.data, chars.size);
+ }
+ void set_string_value(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_StringValue::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/android/android_system_property.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_ANDROID_ANDROID_SYSTEM_PROPERTY_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_ANDROID_ANDROID_SYSTEM_PROPERTY_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class AndroidSystemProperty_PropertyValue;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class AndroidSystemProperty_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ AndroidSystemProperty_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit AndroidSystemProperty_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit AndroidSystemProperty_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_values() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> values() const { return GetRepeated<::protozero::ConstBytes>(1); }
+};
+
+class AndroidSystemProperty : public ::protozero::Message {
+ public:
+ using Decoder = AndroidSystemProperty_Decoder;
+ enum : int32_t {
+ kValuesFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.AndroidSystemProperty"; }
+
+ using PropertyValue = ::perfetto::protos::pbzero::AndroidSystemProperty_PropertyValue;
+
+ using FieldMetadata_Values =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ AndroidSystemProperty_PropertyValue,
+ AndroidSystemProperty>;
+
+ static constexpr FieldMetadata_Values kValues{};
+ template <typename T = AndroidSystemProperty_PropertyValue> T* add_values() {
+ return BeginNestedMessage<T>(1);
+ }
+
+};
+
+class AndroidSystemProperty_PropertyValue_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ AndroidSystemProperty_PropertyValue_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit AndroidSystemProperty_PropertyValue_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit AndroidSystemProperty_PropertyValue_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars name() const { return at<1>().as_string(); }
+ bool has_value() const { return at<2>().valid(); }
+ ::protozero::ConstChars value() const { return at<2>().as_string(); }
+};
+
+class AndroidSystemProperty_PropertyValue : public ::protozero::Message {
+ public:
+ using Decoder = AndroidSystemProperty_PropertyValue_Decoder;
+ enum : int32_t {
+ kNameFieldNumber = 1,
+ kValueFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.AndroidSystemProperty.PropertyValue"; }
+
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ AndroidSystemProperty_PropertyValue>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Value =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ AndroidSystemProperty_PropertyValue>;
+
+ static constexpr FieldMetadata_Value kValue{};
+ void set_value(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Value::kFieldId, data, size);
+ }
+ void set_value(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Value::kFieldId, chars.data, chars.size);
+ }
+ void set_value(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Value::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/android/camera_event.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_ANDROID_CAMERA_EVENT_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_ANDROID_CAMERA_EVENT_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class AndroidCameraFrameEvent_CameraNodeProcessingDetails;
+class AndroidCameraSessionStats_CameraGraph;
+class AndroidCameraSessionStats_CameraGraph_CameraEdge;
+class AndroidCameraSessionStats_CameraGraph_CameraNode;
+namespace perfetto_pbzero_enum_AndroidCameraFrameEvent {
+enum CaptureResultStatus : int32_t;
+} // namespace perfetto_pbzero_enum_AndroidCameraFrameEvent
+using AndroidCameraFrameEvent_CaptureResultStatus = perfetto_pbzero_enum_AndroidCameraFrameEvent::CaptureResultStatus;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+namespace perfetto_pbzero_enum_AndroidCameraFrameEvent {
+enum CaptureResultStatus : int32_t {
+ STATUS_UNSPECIFIED = 0,
+ STATUS_OK = 1,
+ STATUS_EARLY_METADATA_ERROR = 2,
+ STATUS_FINAL_METADATA_ERROR = 3,
+ STATUS_BUFFER_ERROR = 4,
+ STATUS_FLUSH_ERROR = 5,
+};
+} // namespace perfetto_pbzero_enum_AndroidCameraFrameEvent
+using AndroidCameraFrameEvent_CaptureResultStatus = perfetto_pbzero_enum_AndroidCameraFrameEvent::CaptureResultStatus;
+
+
+constexpr AndroidCameraFrameEvent_CaptureResultStatus AndroidCameraFrameEvent_CaptureResultStatus_MIN = AndroidCameraFrameEvent_CaptureResultStatus::STATUS_UNSPECIFIED;
+constexpr AndroidCameraFrameEvent_CaptureResultStatus AndroidCameraFrameEvent_CaptureResultStatus_MAX = AndroidCameraFrameEvent_CaptureResultStatus::STATUS_FLUSH_ERROR;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* AndroidCameraFrameEvent_CaptureResultStatus_Name(::perfetto::protos::pbzero::AndroidCameraFrameEvent_CaptureResultStatus value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::AndroidCameraFrameEvent_CaptureResultStatus::STATUS_UNSPECIFIED:
+ return "STATUS_UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::AndroidCameraFrameEvent_CaptureResultStatus::STATUS_OK:
+ return "STATUS_OK";
+
+ case ::perfetto::protos::pbzero::AndroidCameraFrameEvent_CaptureResultStatus::STATUS_EARLY_METADATA_ERROR:
+ return "STATUS_EARLY_METADATA_ERROR";
+
+ case ::perfetto::protos::pbzero::AndroidCameraFrameEvent_CaptureResultStatus::STATUS_FINAL_METADATA_ERROR:
+ return "STATUS_FINAL_METADATA_ERROR";
+
+ case ::perfetto::protos::pbzero::AndroidCameraFrameEvent_CaptureResultStatus::STATUS_BUFFER_ERROR:
+ return "STATUS_BUFFER_ERROR";
+
+ case ::perfetto::protos::pbzero::AndroidCameraFrameEvent_CaptureResultStatus::STATUS_FLUSH_ERROR:
+ return "STATUS_FLUSH_ERROR";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+class AndroidCameraSessionStats_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ AndroidCameraSessionStats_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit AndroidCameraSessionStats_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit AndroidCameraSessionStats_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_session_id() const { return at<1>().valid(); }
+ uint64_t session_id() const { return at<1>().as_uint64(); }
+ bool has_graph() const { return at<2>().valid(); }
+ ::protozero::ConstBytes graph() const { return at<2>().as_bytes(); }
+};
+
+class AndroidCameraSessionStats : public ::protozero::Message {
+ public:
+ using Decoder = AndroidCameraSessionStats_Decoder;
+ enum : int32_t {
+ kSessionIdFieldNumber = 1,
+ kGraphFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.AndroidCameraSessionStats"; }
+
+ using CameraGraph = ::perfetto::protos::pbzero::AndroidCameraSessionStats_CameraGraph;
+
+ using FieldMetadata_SessionId =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ AndroidCameraSessionStats>;
+
+ static constexpr FieldMetadata_SessionId kSessionId{};
+ void set_session_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SessionId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Graph =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ AndroidCameraSessionStats_CameraGraph,
+ AndroidCameraSessionStats>;
+
+ static constexpr FieldMetadata_Graph kGraph{};
+ template <typename T = AndroidCameraSessionStats_CameraGraph> T* set_graph() {
+ return BeginNestedMessage<T>(2);
+ }
+
+};
+
+class AndroidCameraSessionStats_CameraGraph_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ AndroidCameraSessionStats_CameraGraph_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit AndroidCameraSessionStats_CameraGraph_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit AndroidCameraSessionStats_CameraGraph_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_nodes() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> nodes() const { return GetRepeated<::protozero::ConstBytes>(1); }
+ bool has_edges() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> edges() const { return GetRepeated<::protozero::ConstBytes>(2); }
+};
+
+class AndroidCameraSessionStats_CameraGraph : public ::protozero::Message {
+ public:
+ using Decoder = AndroidCameraSessionStats_CameraGraph_Decoder;
+ enum : int32_t {
+ kNodesFieldNumber = 1,
+ kEdgesFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.AndroidCameraSessionStats.CameraGraph"; }
+
+ using CameraNode = ::perfetto::protos::pbzero::AndroidCameraSessionStats_CameraGraph_CameraNode;
+ using CameraEdge = ::perfetto::protos::pbzero::AndroidCameraSessionStats_CameraGraph_CameraEdge;
+
+ using FieldMetadata_Nodes =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ AndroidCameraSessionStats_CameraGraph_CameraNode,
+ AndroidCameraSessionStats_CameraGraph>;
+
+ static constexpr FieldMetadata_Nodes kNodes{};
+ template <typename T = AndroidCameraSessionStats_CameraGraph_CameraNode> T* add_nodes() {
+ return BeginNestedMessage<T>(1);
+ }
+
+
+ using FieldMetadata_Edges =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ AndroidCameraSessionStats_CameraGraph_CameraEdge,
+ AndroidCameraSessionStats_CameraGraph>;
+
+ static constexpr FieldMetadata_Edges kEdges{};
+ template <typename T = AndroidCameraSessionStats_CameraGraph_CameraEdge> T* add_edges() {
+ return BeginNestedMessage<T>(2);
+ }
+
+};
+
+class AndroidCameraSessionStats_CameraGraph_CameraEdge_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/6, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ AndroidCameraSessionStats_CameraGraph_CameraEdge_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit AndroidCameraSessionStats_CameraGraph_CameraEdge_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit AndroidCameraSessionStats_CameraGraph_CameraEdge_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_output_node_id() const { return at<1>().valid(); }
+ int64_t output_node_id() const { return at<1>().as_int64(); }
+ bool has_output_id() const { return at<2>().valid(); }
+ int64_t output_id() const { return at<2>().as_int64(); }
+ bool has_input_node_id() const { return at<3>().valid(); }
+ int64_t input_node_id() const { return at<3>().as_int64(); }
+ bool has_input_id() const { return at<4>().valid(); }
+ int64_t input_id() const { return at<4>().as_int64(); }
+ bool has_vendor_data_version() const { return at<5>().valid(); }
+ int32_t vendor_data_version() const { return at<5>().as_int32(); }
+ bool has_vendor_data() const { return at<6>().valid(); }
+ ::protozero::ConstBytes vendor_data() const { return at<6>().as_bytes(); }
+};
+
+class AndroidCameraSessionStats_CameraGraph_CameraEdge : public ::protozero::Message {
+ public:
+ using Decoder = AndroidCameraSessionStats_CameraGraph_CameraEdge_Decoder;
+ enum : int32_t {
+ kOutputNodeIdFieldNumber = 1,
+ kOutputIdFieldNumber = 2,
+ kInputNodeIdFieldNumber = 3,
+ kInputIdFieldNumber = 4,
+ kVendorDataVersionFieldNumber = 5,
+ kVendorDataFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.AndroidCameraSessionStats.CameraGraph.CameraEdge"; }
+
+
+ using FieldMetadata_OutputNodeId =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ AndroidCameraSessionStats_CameraGraph_CameraEdge>;
+
+ static constexpr FieldMetadata_OutputNodeId kOutputNodeId{};
+ void set_output_node_id(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_OutputNodeId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_OutputId =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ AndroidCameraSessionStats_CameraGraph_CameraEdge>;
+
+ static constexpr FieldMetadata_OutputId kOutputId{};
+ void set_output_id(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_OutputId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_InputNodeId =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ AndroidCameraSessionStats_CameraGraph_CameraEdge>;
+
+ static constexpr FieldMetadata_InputNodeId kInputNodeId{};
+ void set_input_node_id(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_InputNodeId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_InputId =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ AndroidCameraSessionStats_CameraGraph_CameraEdge>;
+
+ static constexpr FieldMetadata_InputId kInputId{};
+ void set_input_id(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_InputId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_VendorDataVersion =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ AndroidCameraSessionStats_CameraGraph_CameraEdge>;
+
+ static constexpr FieldMetadata_VendorDataVersion kVendorDataVersion{};
+ void set_vendor_data_version(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_VendorDataVersion::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_VendorData =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBytes,
+ std::string,
+ AndroidCameraSessionStats_CameraGraph_CameraEdge>;
+
+ static constexpr FieldMetadata_VendorData kVendorData{};
+ void set_vendor_data(const uint8_t* data, size_t size) {
+ AppendBytes(FieldMetadata_VendorData::kFieldId, data, size);
+ }
+ void set_vendor_data(::protozero::ConstBytes bytes) {
+ AppendBytes(FieldMetadata_VendorData::kFieldId, bytes.data, bytes.size);
+ }
+ void set_vendor_data(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_VendorData::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBytes>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class AndroidCameraSessionStats_CameraGraph_CameraNode_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ AndroidCameraSessionStats_CameraGraph_CameraNode_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit AndroidCameraSessionStats_CameraGraph_CameraNode_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit AndroidCameraSessionStats_CameraGraph_CameraNode_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_node_id() const { return at<1>().valid(); }
+ int64_t node_id() const { return at<1>().as_int64(); }
+ bool has_input_ids() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<int64_t> input_ids() const { return GetRepeated<int64_t>(2); }
+ bool has_output_ids() const { return at<3>().valid(); }
+ ::protozero::RepeatedFieldIterator<int64_t> output_ids() const { return GetRepeated<int64_t>(3); }
+ bool has_vendor_data_version() const { return at<4>().valid(); }
+ int32_t vendor_data_version() const { return at<4>().as_int32(); }
+ bool has_vendor_data() const { return at<5>().valid(); }
+ ::protozero::ConstBytes vendor_data() const { return at<5>().as_bytes(); }
+};
+
+class AndroidCameraSessionStats_CameraGraph_CameraNode : public ::protozero::Message {
+ public:
+ using Decoder = AndroidCameraSessionStats_CameraGraph_CameraNode_Decoder;
+ enum : int32_t {
+ kNodeIdFieldNumber = 1,
+ kInputIdsFieldNumber = 2,
+ kOutputIdsFieldNumber = 3,
+ kVendorDataVersionFieldNumber = 4,
+ kVendorDataFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.AndroidCameraSessionStats.CameraGraph.CameraNode"; }
+
+
+ using FieldMetadata_NodeId =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ AndroidCameraSessionStats_CameraGraph_CameraNode>;
+
+ static constexpr FieldMetadata_NodeId kNodeId{};
+ void set_node_id(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NodeId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_InputIds =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ AndroidCameraSessionStats_CameraGraph_CameraNode>;
+
+ static constexpr FieldMetadata_InputIds kInputIds{};
+ void add_input_ids(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_InputIds::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_OutputIds =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ AndroidCameraSessionStats_CameraGraph_CameraNode>;
+
+ static constexpr FieldMetadata_OutputIds kOutputIds{};
+ void add_output_ids(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_OutputIds::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_VendorDataVersion =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ AndroidCameraSessionStats_CameraGraph_CameraNode>;
+
+ static constexpr FieldMetadata_VendorDataVersion kVendorDataVersion{};
+ void set_vendor_data_version(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_VendorDataVersion::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_VendorData =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBytes,
+ std::string,
+ AndroidCameraSessionStats_CameraGraph_CameraNode>;
+
+ static constexpr FieldMetadata_VendorData kVendorData{};
+ void set_vendor_data(const uint8_t* data, size_t size) {
+ AppendBytes(FieldMetadata_VendorData::kFieldId, data, size);
+ }
+ void set_vendor_data(::protozero::ConstBytes bytes) {
+ AppendBytes(FieldMetadata_VendorData::kFieldId, bytes.data, bytes.size);
+ }
+ void set_vendor_data(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_VendorData::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBytes>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class AndroidCameraFrameEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/16, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ AndroidCameraFrameEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit AndroidCameraFrameEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit AndroidCameraFrameEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_session_id() const { return at<1>().valid(); }
+ uint64_t session_id() const { return at<1>().as_uint64(); }
+ bool has_camera_id() const { return at<2>().valid(); }
+ uint32_t camera_id() const { return at<2>().as_uint32(); }
+ bool has_frame_number() const { return at<3>().valid(); }
+ int64_t frame_number() const { return at<3>().as_int64(); }
+ bool has_request_id() const { return at<4>().valid(); }
+ int64_t request_id() const { return at<4>().as_int64(); }
+ bool has_request_received_ns() const { return at<5>().valid(); }
+ int64_t request_received_ns() const { return at<5>().as_int64(); }
+ bool has_request_processing_started_ns() const { return at<6>().valid(); }
+ int64_t request_processing_started_ns() const { return at<6>().as_int64(); }
+ bool has_start_of_exposure_ns() const { return at<7>().valid(); }
+ int64_t start_of_exposure_ns() const { return at<7>().as_int64(); }
+ bool has_start_of_frame_ns() const { return at<8>().valid(); }
+ int64_t start_of_frame_ns() const { return at<8>().as_int64(); }
+ bool has_responses_all_sent_ns() const { return at<9>().valid(); }
+ int64_t responses_all_sent_ns() const { return at<9>().as_int64(); }
+ bool has_capture_result_status() const { return at<10>().valid(); }
+ int32_t capture_result_status() const { return at<10>().as_int32(); }
+ bool has_skipped_sensor_frames() const { return at<11>().valid(); }
+ int32_t skipped_sensor_frames() const { return at<11>().as_int32(); }
+ bool has_capture_intent() const { return at<12>().valid(); }
+ int32_t capture_intent() const { return at<12>().as_int32(); }
+ bool has_num_streams() const { return at<13>().valid(); }
+ int32_t num_streams() const { return at<13>().as_int32(); }
+ bool has_node_processing_details() const { return at<14>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> node_processing_details() const { return GetRepeated<::protozero::ConstBytes>(14); }
+ bool has_vendor_data_version() const { return at<15>().valid(); }
+ int32_t vendor_data_version() const { return at<15>().as_int32(); }
+ bool has_vendor_data() const { return at<16>().valid(); }
+ ::protozero::ConstBytes vendor_data() const { return at<16>().as_bytes(); }
+};
+
+class AndroidCameraFrameEvent : public ::protozero::Message {
+ public:
+ using Decoder = AndroidCameraFrameEvent_Decoder;
+ enum : int32_t {
+ kSessionIdFieldNumber = 1,
+ kCameraIdFieldNumber = 2,
+ kFrameNumberFieldNumber = 3,
+ kRequestIdFieldNumber = 4,
+ kRequestReceivedNsFieldNumber = 5,
+ kRequestProcessingStartedNsFieldNumber = 6,
+ kStartOfExposureNsFieldNumber = 7,
+ kStartOfFrameNsFieldNumber = 8,
+ kResponsesAllSentNsFieldNumber = 9,
+ kCaptureResultStatusFieldNumber = 10,
+ kSkippedSensorFramesFieldNumber = 11,
+ kCaptureIntentFieldNumber = 12,
+ kNumStreamsFieldNumber = 13,
+ kNodeProcessingDetailsFieldNumber = 14,
+ kVendorDataVersionFieldNumber = 15,
+ kVendorDataFieldNumber = 16,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.AndroidCameraFrameEvent"; }
+
+ using CameraNodeProcessingDetails = ::perfetto::protos::pbzero::AndroidCameraFrameEvent_CameraNodeProcessingDetails;
+
+ using CaptureResultStatus = ::perfetto::protos::pbzero::AndroidCameraFrameEvent_CaptureResultStatus;
+ static inline const char* CaptureResultStatus_Name(CaptureResultStatus value) {
+ return ::perfetto::protos::pbzero::AndroidCameraFrameEvent_CaptureResultStatus_Name(value);
+ }
+ static inline const CaptureResultStatus STATUS_UNSPECIFIED = CaptureResultStatus::STATUS_UNSPECIFIED;
+ static inline const CaptureResultStatus STATUS_OK = CaptureResultStatus::STATUS_OK;
+ static inline const CaptureResultStatus STATUS_EARLY_METADATA_ERROR = CaptureResultStatus::STATUS_EARLY_METADATA_ERROR;
+ static inline const CaptureResultStatus STATUS_FINAL_METADATA_ERROR = CaptureResultStatus::STATUS_FINAL_METADATA_ERROR;
+ static inline const CaptureResultStatus STATUS_BUFFER_ERROR = CaptureResultStatus::STATUS_BUFFER_ERROR;
+ static inline const CaptureResultStatus STATUS_FLUSH_ERROR = CaptureResultStatus::STATUS_FLUSH_ERROR;
+
+ using FieldMetadata_SessionId =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ AndroidCameraFrameEvent>;
+
+ static constexpr FieldMetadata_SessionId kSessionId{};
+ void set_session_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SessionId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CameraId =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ AndroidCameraFrameEvent>;
+
+ static constexpr FieldMetadata_CameraId kCameraId{};
+ void set_camera_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CameraId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FrameNumber =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ AndroidCameraFrameEvent>;
+
+ static constexpr FieldMetadata_FrameNumber kFrameNumber{};
+ void set_frame_number(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FrameNumber::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_RequestId =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ AndroidCameraFrameEvent>;
+
+ static constexpr FieldMetadata_RequestId kRequestId{};
+ void set_request_id(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_RequestId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_RequestReceivedNs =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ AndroidCameraFrameEvent>;
+
+ static constexpr FieldMetadata_RequestReceivedNs kRequestReceivedNs{};
+ void set_request_received_ns(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_RequestReceivedNs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_RequestProcessingStartedNs =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ AndroidCameraFrameEvent>;
+
+ static constexpr FieldMetadata_RequestProcessingStartedNs kRequestProcessingStartedNs{};
+ void set_request_processing_started_ns(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_RequestProcessingStartedNs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_StartOfExposureNs =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ AndroidCameraFrameEvent>;
+
+ static constexpr FieldMetadata_StartOfExposureNs kStartOfExposureNs{};
+ void set_start_of_exposure_ns(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_StartOfExposureNs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_StartOfFrameNs =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ AndroidCameraFrameEvent>;
+
+ static constexpr FieldMetadata_StartOfFrameNs kStartOfFrameNs{};
+ void set_start_of_frame_ns(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_StartOfFrameNs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ResponsesAllSentNs =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ AndroidCameraFrameEvent>;
+
+ static constexpr FieldMetadata_ResponsesAllSentNs kResponsesAllSentNs{};
+ void set_responses_all_sent_ns(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ResponsesAllSentNs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CaptureResultStatus =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ AndroidCameraFrameEvent_CaptureResultStatus,
+ AndroidCameraFrameEvent>;
+
+ static constexpr FieldMetadata_CaptureResultStatus kCaptureResultStatus{};
+ void set_capture_result_status(AndroidCameraFrameEvent_CaptureResultStatus value) {
+ static constexpr uint32_t field_id = FieldMetadata_CaptureResultStatus::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SkippedSensorFrames =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ AndroidCameraFrameEvent>;
+
+ static constexpr FieldMetadata_SkippedSensorFrames kSkippedSensorFrames{};
+ void set_skipped_sensor_frames(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SkippedSensorFrames::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CaptureIntent =
+ ::protozero::proto_utils::FieldMetadata<
+ 12,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ AndroidCameraFrameEvent>;
+
+ static constexpr FieldMetadata_CaptureIntent kCaptureIntent{};
+ void set_capture_intent(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CaptureIntent::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NumStreams =
+ ::protozero::proto_utils::FieldMetadata<
+ 13,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ AndroidCameraFrameEvent>;
+
+ static constexpr FieldMetadata_NumStreams kNumStreams{};
+ void set_num_streams(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NumStreams::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NodeProcessingDetails =
+ ::protozero::proto_utils::FieldMetadata<
+ 14,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ AndroidCameraFrameEvent_CameraNodeProcessingDetails,
+ AndroidCameraFrameEvent>;
+
+ static constexpr FieldMetadata_NodeProcessingDetails kNodeProcessingDetails{};
+ template <typename T = AndroidCameraFrameEvent_CameraNodeProcessingDetails> T* add_node_processing_details() {
+ return BeginNestedMessage<T>(14);
+ }
+
+
+ using FieldMetadata_VendorDataVersion =
+ ::protozero::proto_utils::FieldMetadata<
+ 15,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ AndroidCameraFrameEvent>;
+
+ static constexpr FieldMetadata_VendorDataVersion kVendorDataVersion{};
+ void set_vendor_data_version(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_VendorDataVersion::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_VendorData =
+ ::protozero::proto_utils::FieldMetadata<
+ 16,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBytes,
+ std::string,
+ AndroidCameraFrameEvent>;
+
+ static constexpr FieldMetadata_VendorData kVendorData{};
+ void set_vendor_data(const uint8_t* data, size_t size) {
+ AppendBytes(FieldMetadata_VendorData::kFieldId, data, size);
+ }
+ void set_vendor_data(::protozero::ConstBytes bytes) {
+ AppendBytes(FieldMetadata_VendorData::kFieldId, bytes.data, bytes.size);
+ }
+ void set_vendor_data(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_VendorData::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBytes>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class AndroidCameraFrameEvent_CameraNodeProcessingDetails_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ AndroidCameraFrameEvent_CameraNodeProcessingDetails_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit AndroidCameraFrameEvent_CameraNodeProcessingDetails_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit AndroidCameraFrameEvent_CameraNodeProcessingDetails_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_node_id() const { return at<1>().valid(); }
+ int64_t node_id() const { return at<1>().as_int64(); }
+ bool has_start_processing_ns() const { return at<2>().valid(); }
+ int64_t start_processing_ns() const { return at<2>().as_int64(); }
+ bool has_end_processing_ns() const { return at<3>().valid(); }
+ int64_t end_processing_ns() const { return at<3>().as_int64(); }
+ bool has_scheduling_latency_ns() const { return at<4>().valid(); }
+ int64_t scheduling_latency_ns() const { return at<4>().as_int64(); }
+};
+
+class AndroidCameraFrameEvent_CameraNodeProcessingDetails : public ::protozero::Message {
+ public:
+ using Decoder = AndroidCameraFrameEvent_CameraNodeProcessingDetails_Decoder;
+ enum : int32_t {
+ kNodeIdFieldNumber = 1,
+ kStartProcessingNsFieldNumber = 2,
+ kEndProcessingNsFieldNumber = 3,
+ kSchedulingLatencyNsFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.AndroidCameraFrameEvent.CameraNodeProcessingDetails"; }
+
+
+ using FieldMetadata_NodeId =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ AndroidCameraFrameEvent_CameraNodeProcessingDetails>;
+
+ static constexpr FieldMetadata_NodeId kNodeId{};
+ void set_node_id(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NodeId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_StartProcessingNs =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ AndroidCameraFrameEvent_CameraNodeProcessingDetails>;
+
+ static constexpr FieldMetadata_StartProcessingNs kStartProcessingNs{};
+ void set_start_processing_ns(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_StartProcessingNs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_EndProcessingNs =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ AndroidCameraFrameEvent_CameraNodeProcessingDetails>;
+
+ static constexpr FieldMetadata_EndProcessingNs kEndProcessingNs{};
+ void set_end_processing_ns(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_EndProcessingNs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SchedulingLatencyNs =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ AndroidCameraFrameEvent_CameraNodeProcessingDetails>;
+
+ static constexpr FieldMetadata_SchedulingLatencyNs kSchedulingLatencyNs{};
+ void set_scheduling_latency_ns(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SchedulingLatencyNs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/android/frame_timeline_event.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_ANDROID_FRAME_TIMELINE_EVENT_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_ANDROID_FRAME_TIMELINE_EVENT_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class FrameTimelineEvent_ActualDisplayFrameStart;
+class FrameTimelineEvent_ActualSurfaceFrameStart;
+class FrameTimelineEvent_ExpectedDisplayFrameStart;
+class FrameTimelineEvent_ExpectedSurfaceFrameStart;
+class FrameTimelineEvent_FrameEnd;
+namespace perfetto_pbzero_enum_FrameTimelineEvent {
+enum JankSeverityType : int32_t;
+} // namespace perfetto_pbzero_enum_FrameTimelineEvent
+using FrameTimelineEvent_JankSeverityType = perfetto_pbzero_enum_FrameTimelineEvent::JankSeverityType;
+namespace perfetto_pbzero_enum_FrameTimelineEvent {
+enum PredictionType : int32_t;
+} // namespace perfetto_pbzero_enum_FrameTimelineEvent
+using FrameTimelineEvent_PredictionType = perfetto_pbzero_enum_FrameTimelineEvent::PredictionType;
+namespace perfetto_pbzero_enum_FrameTimelineEvent {
+enum PresentType : int32_t;
+} // namespace perfetto_pbzero_enum_FrameTimelineEvent
+using FrameTimelineEvent_PresentType = perfetto_pbzero_enum_FrameTimelineEvent::PresentType;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+namespace perfetto_pbzero_enum_FrameTimelineEvent {
+enum JankType : int32_t {
+ JANK_UNSPECIFIED = 0,
+ JANK_NONE = 1,
+ JANK_SF_SCHEDULING = 2,
+ JANK_PREDICTION_ERROR = 4,
+ JANK_DISPLAY_HAL = 8,
+ JANK_SF_CPU_DEADLINE_MISSED = 16,
+ JANK_SF_GPU_DEADLINE_MISSED = 32,
+ JANK_APP_DEADLINE_MISSED = 64,
+ JANK_BUFFER_STUFFING = 128,
+ JANK_UNKNOWN = 256,
+ JANK_SF_STUFFING = 512,
+ JANK_DROPPED = 1024,
+};
+} // namespace perfetto_pbzero_enum_FrameTimelineEvent
+using FrameTimelineEvent_JankType = perfetto_pbzero_enum_FrameTimelineEvent::JankType;
+
+
+constexpr FrameTimelineEvent_JankType FrameTimelineEvent_JankType_MIN = FrameTimelineEvent_JankType::JANK_UNSPECIFIED;
+constexpr FrameTimelineEvent_JankType FrameTimelineEvent_JankType_MAX = FrameTimelineEvent_JankType::JANK_DROPPED;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* FrameTimelineEvent_JankType_Name(::perfetto::protos::pbzero::FrameTimelineEvent_JankType value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::FrameTimelineEvent_JankType::JANK_UNSPECIFIED:
+ return "JANK_UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::FrameTimelineEvent_JankType::JANK_NONE:
+ return "JANK_NONE";
+
+ case ::perfetto::protos::pbzero::FrameTimelineEvent_JankType::JANK_SF_SCHEDULING:
+ return "JANK_SF_SCHEDULING";
+
+ case ::perfetto::protos::pbzero::FrameTimelineEvent_JankType::JANK_PREDICTION_ERROR:
+ return "JANK_PREDICTION_ERROR";
+
+ case ::perfetto::protos::pbzero::FrameTimelineEvent_JankType::JANK_DISPLAY_HAL:
+ return "JANK_DISPLAY_HAL";
+
+ case ::perfetto::protos::pbzero::FrameTimelineEvent_JankType::JANK_SF_CPU_DEADLINE_MISSED:
+ return "JANK_SF_CPU_DEADLINE_MISSED";
+
+ case ::perfetto::protos::pbzero::FrameTimelineEvent_JankType::JANK_SF_GPU_DEADLINE_MISSED:
+ return "JANK_SF_GPU_DEADLINE_MISSED";
+
+ case ::perfetto::protos::pbzero::FrameTimelineEvent_JankType::JANK_APP_DEADLINE_MISSED:
+ return "JANK_APP_DEADLINE_MISSED";
+
+ case ::perfetto::protos::pbzero::FrameTimelineEvent_JankType::JANK_BUFFER_STUFFING:
+ return "JANK_BUFFER_STUFFING";
+
+ case ::perfetto::protos::pbzero::FrameTimelineEvent_JankType::JANK_UNKNOWN:
+ return "JANK_UNKNOWN";
+
+ case ::perfetto::protos::pbzero::FrameTimelineEvent_JankType::JANK_SF_STUFFING:
+ return "JANK_SF_STUFFING";
+
+ case ::perfetto::protos::pbzero::FrameTimelineEvent_JankType::JANK_DROPPED:
+ return "JANK_DROPPED";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_FrameTimelineEvent {
+enum JankSeverityType : int32_t {
+ SEVERITY_UNKNOWN = 0,
+ SEVERITY_NONE = 1,
+ SEVERITY_PARTIAL = 2,
+ SEVERITY_FULL = 3,
+};
+} // namespace perfetto_pbzero_enum_FrameTimelineEvent
+using FrameTimelineEvent_JankSeverityType = perfetto_pbzero_enum_FrameTimelineEvent::JankSeverityType;
+
+
+constexpr FrameTimelineEvent_JankSeverityType FrameTimelineEvent_JankSeverityType_MIN = FrameTimelineEvent_JankSeverityType::SEVERITY_UNKNOWN;
+constexpr FrameTimelineEvent_JankSeverityType FrameTimelineEvent_JankSeverityType_MAX = FrameTimelineEvent_JankSeverityType::SEVERITY_FULL;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* FrameTimelineEvent_JankSeverityType_Name(::perfetto::protos::pbzero::FrameTimelineEvent_JankSeverityType value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::FrameTimelineEvent_JankSeverityType::SEVERITY_UNKNOWN:
+ return "SEVERITY_UNKNOWN";
+
+ case ::perfetto::protos::pbzero::FrameTimelineEvent_JankSeverityType::SEVERITY_NONE:
+ return "SEVERITY_NONE";
+
+ case ::perfetto::protos::pbzero::FrameTimelineEvent_JankSeverityType::SEVERITY_PARTIAL:
+ return "SEVERITY_PARTIAL";
+
+ case ::perfetto::protos::pbzero::FrameTimelineEvent_JankSeverityType::SEVERITY_FULL:
+ return "SEVERITY_FULL";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_FrameTimelineEvent {
+enum PresentType : int32_t {
+ PRESENT_UNSPECIFIED = 0,
+ PRESENT_ON_TIME = 1,
+ PRESENT_LATE = 2,
+ PRESENT_EARLY = 3,
+ PRESENT_DROPPED = 4,
+ PRESENT_UNKNOWN = 5,
+};
+} // namespace perfetto_pbzero_enum_FrameTimelineEvent
+using FrameTimelineEvent_PresentType = perfetto_pbzero_enum_FrameTimelineEvent::PresentType;
+
+
+constexpr FrameTimelineEvent_PresentType FrameTimelineEvent_PresentType_MIN = FrameTimelineEvent_PresentType::PRESENT_UNSPECIFIED;
+constexpr FrameTimelineEvent_PresentType FrameTimelineEvent_PresentType_MAX = FrameTimelineEvent_PresentType::PRESENT_UNKNOWN;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* FrameTimelineEvent_PresentType_Name(::perfetto::protos::pbzero::FrameTimelineEvent_PresentType value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::FrameTimelineEvent_PresentType::PRESENT_UNSPECIFIED:
+ return "PRESENT_UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::FrameTimelineEvent_PresentType::PRESENT_ON_TIME:
+ return "PRESENT_ON_TIME";
+
+ case ::perfetto::protos::pbzero::FrameTimelineEvent_PresentType::PRESENT_LATE:
+ return "PRESENT_LATE";
+
+ case ::perfetto::protos::pbzero::FrameTimelineEvent_PresentType::PRESENT_EARLY:
+ return "PRESENT_EARLY";
+
+ case ::perfetto::protos::pbzero::FrameTimelineEvent_PresentType::PRESENT_DROPPED:
+ return "PRESENT_DROPPED";
+
+ case ::perfetto::protos::pbzero::FrameTimelineEvent_PresentType::PRESENT_UNKNOWN:
+ return "PRESENT_UNKNOWN";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_FrameTimelineEvent {
+enum PredictionType : int32_t {
+ PREDICTION_UNSPECIFIED = 0,
+ PREDICTION_VALID = 1,
+ PREDICTION_EXPIRED = 2,
+ PREDICTION_UNKNOWN = 3,
+};
+} // namespace perfetto_pbzero_enum_FrameTimelineEvent
+using FrameTimelineEvent_PredictionType = perfetto_pbzero_enum_FrameTimelineEvent::PredictionType;
+
+
+constexpr FrameTimelineEvent_PredictionType FrameTimelineEvent_PredictionType_MIN = FrameTimelineEvent_PredictionType::PREDICTION_UNSPECIFIED;
+constexpr FrameTimelineEvent_PredictionType FrameTimelineEvent_PredictionType_MAX = FrameTimelineEvent_PredictionType::PREDICTION_UNKNOWN;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* FrameTimelineEvent_PredictionType_Name(::perfetto::protos::pbzero::FrameTimelineEvent_PredictionType value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::FrameTimelineEvent_PredictionType::PREDICTION_UNSPECIFIED:
+ return "PREDICTION_UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::FrameTimelineEvent_PredictionType::PREDICTION_VALID:
+ return "PREDICTION_VALID";
+
+ case ::perfetto::protos::pbzero::FrameTimelineEvent_PredictionType::PREDICTION_EXPIRED:
+ return "PREDICTION_EXPIRED";
+
+ case ::perfetto::protos::pbzero::FrameTimelineEvent_PredictionType::PREDICTION_UNKNOWN:
+ return "PREDICTION_UNKNOWN";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+class FrameTimelineEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ FrameTimelineEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit FrameTimelineEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit FrameTimelineEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_expected_display_frame_start() const { return at<1>().valid(); }
+ ::protozero::ConstBytes expected_display_frame_start() const { return at<1>().as_bytes(); }
+ bool has_actual_display_frame_start() const { return at<2>().valid(); }
+ ::protozero::ConstBytes actual_display_frame_start() const { return at<2>().as_bytes(); }
+ bool has_expected_surface_frame_start() const { return at<3>().valid(); }
+ ::protozero::ConstBytes expected_surface_frame_start() const { return at<3>().as_bytes(); }
+ bool has_actual_surface_frame_start() const { return at<4>().valid(); }
+ ::protozero::ConstBytes actual_surface_frame_start() const { return at<4>().as_bytes(); }
+ bool has_frame_end() const { return at<5>().valid(); }
+ ::protozero::ConstBytes frame_end() const { return at<5>().as_bytes(); }
+};
+
+class FrameTimelineEvent : public ::protozero::Message {
+ public:
+ using Decoder = FrameTimelineEvent_Decoder;
+ enum : int32_t {
+ kExpectedDisplayFrameStartFieldNumber = 1,
+ kActualDisplayFrameStartFieldNumber = 2,
+ kExpectedSurfaceFrameStartFieldNumber = 3,
+ kActualSurfaceFrameStartFieldNumber = 4,
+ kFrameEndFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.FrameTimelineEvent"; }
+
+ using ExpectedSurfaceFrameStart = ::perfetto::protos::pbzero::FrameTimelineEvent_ExpectedSurfaceFrameStart;
+ using ActualSurfaceFrameStart = ::perfetto::protos::pbzero::FrameTimelineEvent_ActualSurfaceFrameStart;
+ using ExpectedDisplayFrameStart = ::perfetto::protos::pbzero::FrameTimelineEvent_ExpectedDisplayFrameStart;
+ using ActualDisplayFrameStart = ::perfetto::protos::pbzero::FrameTimelineEvent_ActualDisplayFrameStart;
+ using FrameEnd = ::perfetto::protos::pbzero::FrameTimelineEvent_FrameEnd;
+
+ using JankType = ::perfetto::protos::pbzero::FrameTimelineEvent_JankType;
+ static inline const char* JankType_Name(JankType value) {
+ return ::perfetto::protos::pbzero::FrameTimelineEvent_JankType_Name(value);
+ }
+
+ using JankSeverityType = ::perfetto::protos::pbzero::FrameTimelineEvent_JankSeverityType;
+ static inline const char* JankSeverityType_Name(JankSeverityType value) {
+ return ::perfetto::protos::pbzero::FrameTimelineEvent_JankSeverityType_Name(value);
+ }
+
+ using PresentType = ::perfetto::protos::pbzero::FrameTimelineEvent_PresentType;
+ static inline const char* PresentType_Name(PresentType value) {
+ return ::perfetto::protos::pbzero::FrameTimelineEvent_PresentType_Name(value);
+ }
+
+ using PredictionType = ::perfetto::protos::pbzero::FrameTimelineEvent_PredictionType;
+ static inline const char* PredictionType_Name(PredictionType value) {
+ return ::perfetto::protos::pbzero::FrameTimelineEvent_PredictionType_Name(value);
+ }
+ static inline const JankType JANK_UNSPECIFIED = JankType::JANK_UNSPECIFIED;
+ static inline const JankType JANK_NONE = JankType::JANK_NONE;
+ static inline const JankType JANK_SF_SCHEDULING = JankType::JANK_SF_SCHEDULING;
+ static inline const JankType JANK_PREDICTION_ERROR = JankType::JANK_PREDICTION_ERROR;
+ static inline const JankType JANK_DISPLAY_HAL = JankType::JANK_DISPLAY_HAL;
+ static inline const JankType JANK_SF_CPU_DEADLINE_MISSED = JankType::JANK_SF_CPU_DEADLINE_MISSED;
+ static inline const JankType JANK_SF_GPU_DEADLINE_MISSED = JankType::JANK_SF_GPU_DEADLINE_MISSED;
+ static inline const JankType JANK_APP_DEADLINE_MISSED = JankType::JANK_APP_DEADLINE_MISSED;
+ static inline const JankType JANK_BUFFER_STUFFING = JankType::JANK_BUFFER_STUFFING;
+ static inline const JankType JANK_UNKNOWN = JankType::JANK_UNKNOWN;
+ static inline const JankType JANK_SF_STUFFING = JankType::JANK_SF_STUFFING;
+ static inline const JankType JANK_DROPPED = JankType::JANK_DROPPED;
+ static inline const JankSeverityType SEVERITY_UNKNOWN = JankSeverityType::SEVERITY_UNKNOWN;
+ static inline const JankSeverityType SEVERITY_NONE = JankSeverityType::SEVERITY_NONE;
+ static inline const JankSeverityType SEVERITY_PARTIAL = JankSeverityType::SEVERITY_PARTIAL;
+ static inline const JankSeverityType SEVERITY_FULL = JankSeverityType::SEVERITY_FULL;
+ static inline const PresentType PRESENT_UNSPECIFIED = PresentType::PRESENT_UNSPECIFIED;
+ static inline const PresentType PRESENT_ON_TIME = PresentType::PRESENT_ON_TIME;
+ static inline const PresentType PRESENT_LATE = PresentType::PRESENT_LATE;
+ static inline const PresentType PRESENT_EARLY = PresentType::PRESENT_EARLY;
+ static inline const PresentType PRESENT_DROPPED = PresentType::PRESENT_DROPPED;
+ static inline const PresentType PRESENT_UNKNOWN = PresentType::PRESENT_UNKNOWN;
+ static inline const PredictionType PREDICTION_UNSPECIFIED = PredictionType::PREDICTION_UNSPECIFIED;
+ static inline const PredictionType PREDICTION_VALID = PredictionType::PREDICTION_VALID;
+ static inline const PredictionType PREDICTION_EXPIRED = PredictionType::PREDICTION_EXPIRED;
+ static inline const PredictionType PREDICTION_UNKNOWN = PredictionType::PREDICTION_UNKNOWN;
+
+ using FieldMetadata_ExpectedDisplayFrameStart =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ FrameTimelineEvent_ExpectedDisplayFrameStart,
+ FrameTimelineEvent>;
+
+ static constexpr FieldMetadata_ExpectedDisplayFrameStart kExpectedDisplayFrameStart{};
+ template <typename T = FrameTimelineEvent_ExpectedDisplayFrameStart> T* set_expected_display_frame_start() {
+ return BeginNestedMessage<T>(1);
+ }
+
+
+ using FieldMetadata_ActualDisplayFrameStart =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ FrameTimelineEvent_ActualDisplayFrameStart,
+ FrameTimelineEvent>;
+
+ static constexpr FieldMetadata_ActualDisplayFrameStart kActualDisplayFrameStart{};
+ template <typename T = FrameTimelineEvent_ActualDisplayFrameStart> T* set_actual_display_frame_start() {
+ return BeginNestedMessage<T>(2);
+ }
+
+
+ using FieldMetadata_ExpectedSurfaceFrameStart =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ FrameTimelineEvent_ExpectedSurfaceFrameStart,
+ FrameTimelineEvent>;
+
+ static constexpr FieldMetadata_ExpectedSurfaceFrameStart kExpectedSurfaceFrameStart{};
+ template <typename T = FrameTimelineEvent_ExpectedSurfaceFrameStart> T* set_expected_surface_frame_start() {
+ return BeginNestedMessage<T>(3);
+ }
+
+
+ using FieldMetadata_ActualSurfaceFrameStart =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ FrameTimelineEvent_ActualSurfaceFrameStart,
+ FrameTimelineEvent>;
+
+ static constexpr FieldMetadata_ActualSurfaceFrameStart kActualSurfaceFrameStart{};
+ template <typename T = FrameTimelineEvent_ActualSurfaceFrameStart> T* set_actual_surface_frame_start() {
+ return BeginNestedMessage<T>(4);
+ }
+
+
+ using FieldMetadata_FrameEnd =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ FrameTimelineEvent_FrameEnd,
+ FrameTimelineEvent>;
+
+ static constexpr FieldMetadata_FrameEnd kFrameEnd{};
+ template <typename T = FrameTimelineEvent_FrameEnd> T* set_frame_end() {
+ return BeginNestedMessage<T>(5);
+ }
+
+};
+
+class FrameTimelineEvent_FrameEnd_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ FrameTimelineEvent_FrameEnd_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit FrameTimelineEvent_FrameEnd_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit FrameTimelineEvent_FrameEnd_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_cookie() const { return at<1>().valid(); }
+ int64_t cookie() const { return at<1>().as_int64(); }
+};
+
+class FrameTimelineEvent_FrameEnd : public ::protozero::Message {
+ public:
+ using Decoder = FrameTimelineEvent_FrameEnd_Decoder;
+ enum : int32_t {
+ kCookieFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.FrameTimelineEvent.FrameEnd"; }
+
+
+ using FieldMetadata_Cookie =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ FrameTimelineEvent_FrameEnd>;
+
+ static constexpr FieldMetadata_Cookie kCookie{};
+ void set_cookie(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Cookie::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class FrameTimelineEvent_ActualDisplayFrameStart_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/9, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ FrameTimelineEvent_ActualDisplayFrameStart_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit FrameTimelineEvent_ActualDisplayFrameStart_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit FrameTimelineEvent_ActualDisplayFrameStart_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_cookie() const { return at<1>().valid(); }
+ int64_t cookie() const { return at<1>().as_int64(); }
+ bool has_token() const { return at<2>().valid(); }
+ int64_t token() const { return at<2>().as_int64(); }
+ bool has_pid() const { return at<3>().valid(); }
+ int32_t pid() const { return at<3>().as_int32(); }
+ bool has_present_type() const { return at<4>().valid(); }
+ int32_t present_type() const { return at<4>().as_int32(); }
+ bool has_on_time_finish() const { return at<5>().valid(); }
+ bool on_time_finish() const { return at<5>().as_bool(); }
+ bool has_gpu_composition() const { return at<6>().valid(); }
+ bool gpu_composition() const { return at<6>().as_bool(); }
+ bool has_jank_type() const { return at<7>().valid(); }
+ int32_t jank_type() const { return at<7>().as_int32(); }
+ bool has_prediction_type() const { return at<8>().valid(); }
+ int32_t prediction_type() const { return at<8>().as_int32(); }
+ bool has_jank_severity_type() const { return at<9>().valid(); }
+ int32_t jank_severity_type() const { return at<9>().as_int32(); }
+};
+
+class FrameTimelineEvent_ActualDisplayFrameStart : public ::protozero::Message {
+ public:
+ using Decoder = FrameTimelineEvent_ActualDisplayFrameStart_Decoder;
+ enum : int32_t {
+ kCookieFieldNumber = 1,
+ kTokenFieldNumber = 2,
+ kPidFieldNumber = 3,
+ kPresentTypeFieldNumber = 4,
+ kOnTimeFinishFieldNumber = 5,
+ kGpuCompositionFieldNumber = 6,
+ kJankTypeFieldNumber = 7,
+ kPredictionTypeFieldNumber = 8,
+ kJankSeverityTypeFieldNumber = 9,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.FrameTimelineEvent.ActualDisplayFrameStart"; }
+
+
+ using FieldMetadata_Cookie =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ FrameTimelineEvent_ActualDisplayFrameStart>;
+
+ static constexpr FieldMetadata_Cookie kCookie{};
+ void set_cookie(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Cookie::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Token =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ FrameTimelineEvent_ActualDisplayFrameStart>;
+
+ static constexpr FieldMetadata_Token kToken{};
+ void set_token(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Token::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ FrameTimelineEvent_ActualDisplayFrameStart>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PresentType =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ FrameTimelineEvent_PresentType,
+ FrameTimelineEvent_ActualDisplayFrameStart>;
+
+ static constexpr FieldMetadata_PresentType kPresentType{};
+ void set_present_type(FrameTimelineEvent_PresentType value) {
+ static constexpr uint32_t field_id = FieldMetadata_PresentType::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_OnTimeFinish =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ FrameTimelineEvent_ActualDisplayFrameStart>;
+
+ static constexpr FieldMetadata_OnTimeFinish kOnTimeFinish{};
+ void set_on_time_finish(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_OnTimeFinish::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_GpuComposition =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ FrameTimelineEvent_ActualDisplayFrameStart>;
+
+ static constexpr FieldMetadata_GpuComposition kGpuComposition{};
+ void set_gpu_composition(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_GpuComposition::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_JankType =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ FrameTimelineEvent_ActualDisplayFrameStart>;
+
+ static constexpr FieldMetadata_JankType kJankType{};
+ void set_jank_type(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_JankType::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PredictionType =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ FrameTimelineEvent_PredictionType,
+ FrameTimelineEvent_ActualDisplayFrameStart>;
+
+ static constexpr FieldMetadata_PredictionType kPredictionType{};
+ void set_prediction_type(FrameTimelineEvent_PredictionType value) {
+ static constexpr uint32_t field_id = FieldMetadata_PredictionType::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_JankSeverityType =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ FrameTimelineEvent_JankSeverityType,
+ FrameTimelineEvent_ActualDisplayFrameStart>;
+
+ static constexpr FieldMetadata_JankSeverityType kJankSeverityType{};
+ void set_jank_severity_type(FrameTimelineEvent_JankSeverityType value) {
+ static constexpr uint32_t field_id = FieldMetadata_JankSeverityType::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class FrameTimelineEvent_ExpectedDisplayFrameStart_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ FrameTimelineEvent_ExpectedDisplayFrameStart_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit FrameTimelineEvent_ExpectedDisplayFrameStart_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit FrameTimelineEvent_ExpectedDisplayFrameStart_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_cookie() const { return at<1>().valid(); }
+ int64_t cookie() const { return at<1>().as_int64(); }
+ bool has_token() const { return at<2>().valid(); }
+ int64_t token() const { return at<2>().as_int64(); }
+ bool has_pid() const { return at<3>().valid(); }
+ int32_t pid() const { return at<3>().as_int32(); }
+};
+
+class FrameTimelineEvent_ExpectedDisplayFrameStart : public ::protozero::Message {
+ public:
+ using Decoder = FrameTimelineEvent_ExpectedDisplayFrameStart_Decoder;
+ enum : int32_t {
+ kCookieFieldNumber = 1,
+ kTokenFieldNumber = 2,
+ kPidFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.FrameTimelineEvent.ExpectedDisplayFrameStart"; }
+
+
+ using FieldMetadata_Cookie =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ FrameTimelineEvent_ExpectedDisplayFrameStart>;
+
+ static constexpr FieldMetadata_Cookie kCookie{};
+ void set_cookie(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Cookie::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Token =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ FrameTimelineEvent_ExpectedDisplayFrameStart>;
+
+ static constexpr FieldMetadata_Token kToken{};
+ void set_token(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Token::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ FrameTimelineEvent_ExpectedDisplayFrameStart>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class FrameTimelineEvent_ActualSurfaceFrameStart_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/12, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ FrameTimelineEvent_ActualSurfaceFrameStart_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit FrameTimelineEvent_ActualSurfaceFrameStart_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit FrameTimelineEvent_ActualSurfaceFrameStart_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_cookie() const { return at<1>().valid(); }
+ int64_t cookie() const { return at<1>().as_int64(); }
+ bool has_token() const { return at<2>().valid(); }
+ int64_t token() const { return at<2>().as_int64(); }
+ bool has_display_frame_token() const { return at<3>().valid(); }
+ int64_t display_frame_token() const { return at<3>().as_int64(); }
+ bool has_pid() const { return at<4>().valid(); }
+ int32_t pid() const { return at<4>().as_int32(); }
+ bool has_layer_name() const { return at<5>().valid(); }
+ ::protozero::ConstChars layer_name() const { return at<5>().as_string(); }
+ bool has_present_type() const { return at<6>().valid(); }
+ int32_t present_type() const { return at<6>().as_int32(); }
+ bool has_on_time_finish() const { return at<7>().valid(); }
+ bool on_time_finish() const { return at<7>().as_bool(); }
+ bool has_gpu_composition() const { return at<8>().valid(); }
+ bool gpu_composition() const { return at<8>().as_bool(); }
+ bool has_jank_type() const { return at<9>().valid(); }
+ int32_t jank_type() const { return at<9>().as_int32(); }
+ bool has_prediction_type() const { return at<10>().valid(); }
+ int32_t prediction_type() const { return at<10>().as_int32(); }
+ bool has_is_buffer() const { return at<11>().valid(); }
+ bool is_buffer() const { return at<11>().as_bool(); }
+ bool has_jank_severity_type() const { return at<12>().valid(); }
+ int32_t jank_severity_type() const { return at<12>().as_int32(); }
+};
+
+class FrameTimelineEvent_ActualSurfaceFrameStart : public ::protozero::Message {
+ public:
+ using Decoder = FrameTimelineEvent_ActualSurfaceFrameStart_Decoder;
+ enum : int32_t {
+ kCookieFieldNumber = 1,
+ kTokenFieldNumber = 2,
+ kDisplayFrameTokenFieldNumber = 3,
+ kPidFieldNumber = 4,
+ kLayerNameFieldNumber = 5,
+ kPresentTypeFieldNumber = 6,
+ kOnTimeFinishFieldNumber = 7,
+ kGpuCompositionFieldNumber = 8,
+ kJankTypeFieldNumber = 9,
+ kPredictionTypeFieldNumber = 10,
+ kIsBufferFieldNumber = 11,
+ kJankSeverityTypeFieldNumber = 12,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.FrameTimelineEvent.ActualSurfaceFrameStart"; }
+
+
+ using FieldMetadata_Cookie =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ FrameTimelineEvent_ActualSurfaceFrameStart>;
+
+ static constexpr FieldMetadata_Cookie kCookie{};
+ void set_cookie(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Cookie::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Token =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ FrameTimelineEvent_ActualSurfaceFrameStart>;
+
+ static constexpr FieldMetadata_Token kToken{};
+ void set_token(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Token::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DisplayFrameToken =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ FrameTimelineEvent_ActualSurfaceFrameStart>;
+
+ static constexpr FieldMetadata_DisplayFrameToken kDisplayFrameToken{};
+ void set_display_frame_token(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DisplayFrameToken::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ FrameTimelineEvent_ActualSurfaceFrameStart>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_LayerName =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ FrameTimelineEvent_ActualSurfaceFrameStart>;
+
+ static constexpr FieldMetadata_LayerName kLayerName{};
+ void set_layer_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_LayerName::kFieldId, data, size);
+ }
+ void set_layer_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_LayerName::kFieldId, chars.data, chars.size);
+ }
+ void set_layer_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_LayerName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PresentType =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ FrameTimelineEvent_PresentType,
+ FrameTimelineEvent_ActualSurfaceFrameStart>;
+
+ static constexpr FieldMetadata_PresentType kPresentType{};
+ void set_present_type(FrameTimelineEvent_PresentType value) {
+ static constexpr uint32_t field_id = FieldMetadata_PresentType::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_OnTimeFinish =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ FrameTimelineEvent_ActualSurfaceFrameStart>;
+
+ static constexpr FieldMetadata_OnTimeFinish kOnTimeFinish{};
+ void set_on_time_finish(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_OnTimeFinish::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_GpuComposition =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ FrameTimelineEvent_ActualSurfaceFrameStart>;
+
+ static constexpr FieldMetadata_GpuComposition kGpuComposition{};
+ void set_gpu_composition(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_GpuComposition::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_JankType =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ FrameTimelineEvent_ActualSurfaceFrameStart>;
+
+ static constexpr FieldMetadata_JankType kJankType{};
+ void set_jank_type(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_JankType::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PredictionType =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ FrameTimelineEvent_PredictionType,
+ FrameTimelineEvent_ActualSurfaceFrameStart>;
+
+ static constexpr FieldMetadata_PredictionType kPredictionType{};
+ void set_prediction_type(FrameTimelineEvent_PredictionType value) {
+ static constexpr uint32_t field_id = FieldMetadata_PredictionType::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IsBuffer =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ FrameTimelineEvent_ActualSurfaceFrameStart>;
+
+ static constexpr FieldMetadata_IsBuffer kIsBuffer{};
+ void set_is_buffer(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_IsBuffer::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_JankSeverityType =
+ ::protozero::proto_utils::FieldMetadata<
+ 12,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ FrameTimelineEvent_JankSeverityType,
+ FrameTimelineEvent_ActualSurfaceFrameStart>;
+
+ static constexpr FieldMetadata_JankSeverityType kJankSeverityType{};
+ void set_jank_severity_type(FrameTimelineEvent_JankSeverityType value) {
+ static constexpr uint32_t field_id = FieldMetadata_JankSeverityType::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class FrameTimelineEvent_ExpectedSurfaceFrameStart_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ FrameTimelineEvent_ExpectedSurfaceFrameStart_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit FrameTimelineEvent_ExpectedSurfaceFrameStart_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit FrameTimelineEvent_ExpectedSurfaceFrameStart_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_cookie() const { return at<1>().valid(); }
+ int64_t cookie() const { return at<1>().as_int64(); }
+ bool has_token() const { return at<2>().valid(); }
+ int64_t token() const { return at<2>().as_int64(); }
+ bool has_display_frame_token() const { return at<3>().valid(); }
+ int64_t display_frame_token() const { return at<3>().as_int64(); }
+ bool has_pid() const { return at<4>().valid(); }
+ int32_t pid() const { return at<4>().as_int32(); }
+ bool has_layer_name() const { return at<5>().valid(); }
+ ::protozero::ConstChars layer_name() const { return at<5>().as_string(); }
+};
+
+class FrameTimelineEvent_ExpectedSurfaceFrameStart : public ::protozero::Message {
+ public:
+ using Decoder = FrameTimelineEvent_ExpectedSurfaceFrameStart_Decoder;
+ enum : int32_t {
+ kCookieFieldNumber = 1,
+ kTokenFieldNumber = 2,
+ kDisplayFrameTokenFieldNumber = 3,
+ kPidFieldNumber = 4,
+ kLayerNameFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.FrameTimelineEvent.ExpectedSurfaceFrameStart"; }
+
+
+ using FieldMetadata_Cookie =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ FrameTimelineEvent_ExpectedSurfaceFrameStart>;
+
+ static constexpr FieldMetadata_Cookie kCookie{};
+ void set_cookie(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Cookie::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Token =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ FrameTimelineEvent_ExpectedSurfaceFrameStart>;
+
+ static constexpr FieldMetadata_Token kToken{};
+ void set_token(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Token::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DisplayFrameToken =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ FrameTimelineEvent_ExpectedSurfaceFrameStart>;
+
+ static constexpr FieldMetadata_DisplayFrameToken kDisplayFrameToken{};
+ void set_display_frame_token(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DisplayFrameToken::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ FrameTimelineEvent_ExpectedSurfaceFrameStart>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_LayerName =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ FrameTimelineEvent_ExpectedSurfaceFrameStart>;
+
+ static constexpr FieldMetadata_LayerName kLayerName{};
+ void set_layer_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_LayerName::kFieldId, data, size);
+ }
+ void set_layer_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_LayerName::kFieldId, chars.data, chars.size);
+ }
+ void set_layer_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_LayerName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/android/gpu_mem_event.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_ANDROID_GPU_MEM_EVENT_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_ANDROID_GPU_MEM_EVENT_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class GpuMemTotalEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ GpuMemTotalEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit GpuMemTotalEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit GpuMemTotalEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_gpu_id() const { return at<1>().valid(); }
+ uint32_t gpu_id() const { return at<1>().as_uint32(); }
+ bool has_pid() const { return at<2>().valid(); }
+ uint32_t pid() const { return at<2>().as_uint32(); }
+ bool has_size() const { return at<3>().valid(); }
+ uint64_t size() const { return at<3>().as_uint64(); }
+};
+
+class GpuMemTotalEvent : public ::protozero::Message {
+ public:
+ using Decoder = GpuMemTotalEvent_Decoder;
+ enum : int32_t {
+ kGpuIdFieldNumber = 1,
+ kPidFieldNumber = 2,
+ kSizeFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.GpuMemTotalEvent"; }
+
+
+ using FieldMetadata_GpuId =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ GpuMemTotalEvent>;
+
+ static constexpr FieldMetadata_GpuId kGpuId{};
+ void set_gpu_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_GpuId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ GpuMemTotalEvent>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Size =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ GpuMemTotalEvent>;
+
+ static constexpr FieldMetadata_Size kSize{};
+ void set_size(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Size::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/android/graphics_frame_event.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_ANDROID_GRAPHICS_FRAME_EVENT_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_ANDROID_GRAPHICS_FRAME_EVENT_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class GraphicsFrameEvent_BufferEvent;
+namespace perfetto_pbzero_enum_GraphicsFrameEvent {
+enum BufferEventType : int32_t;
+} // namespace perfetto_pbzero_enum_GraphicsFrameEvent
+using GraphicsFrameEvent_BufferEventType = perfetto_pbzero_enum_GraphicsFrameEvent::BufferEventType;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+namespace perfetto_pbzero_enum_GraphicsFrameEvent {
+enum BufferEventType : int32_t {
+ UNSPECIFIED = 0,
+ DEQUEUE = 1,
+ QUEUE = 2,
+ POST = 3,
+ ACQUIRE_FENCE = 4,
+ LATCH = 5,
+ HWC_COMPOSITION_QUEUED = 6,
+ FALLBACK_COMPOSITION = 7,
+ PRESENT_FENCE = 8,
+ RELEASE_FENCE = 9,
+ MODIFY = 10,
+ DETACH = 11,
+ ATTACH = 12,
+ CANCEL = 13,
+};
+} // namespace perfetto_pbzero_enum_GraphicsFrameEvent
+using GraphicsFrameEvent_BufferEventType = perfetto_pbzero_enum_GraphicsFrameEvent::BufferEventType;
+
+
+constexpr GraphicsFrameEvent_BufferEventType GraphicsFrameEvent_BufferEventType_MIN = GraphicsFrameEvent_BufferEventType::UNSPECIFIED;
+constexpr GraphicsFrameEvent_BufferEventType GraphicsFrameEvent_BufferEventType_MAX = GraphicsFrameEvent_BufferEventType::CANCEL;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* GraphicsFrameEvent_BufferEventType_Name(::perfetto::protos::pbzero::GraphicsFrameEvent_BufferEventType value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::GraphicsFrameEvent_BufferEventType::UNSPECIFIED:
+ return "UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::GraphicsFrameEvent_BufferEventType::DEQUEUE:
+ return "DEQUEUE";
+
+ case ::perfetto::protos::pbzero::GraphicsFrameEvent_BufferEventType::QUEUE:
+ return "QUEUE";
+
+ case ::perfetto::protos::pbzero::GraphicsFrameEvent_BufferEventType::POST:
+ return "POST";
+
+ case ::perfetto::protos::pbzero::GraphicsFrameEvent_BufferEventType::ACQUIRE_FENCE:
+ return "ACQUIRE_FENCE";
+
+ case ::perfetto::protos::pbzero::GraphicsFrameEvent_BufferEventType::LATCH:
+ return "LATCH";
+
+ case ::perfetto::protos::pbzero::GraphicsFrameEvent_BufferEventType::HWC_COMPOSITION_QUEUED:
+ return "HWC_COMPOSITION_QUEUED";
+
+ case ::perfetto::protos::pbzero::GraphicsFrameEvent_BufferEventType::FALLBACK_COMPOSITION:
+ return "FALLBACK_COMPOSITION";
+
+ case ::perfetto::protos::pbzero::GraphicsFrameEvent_BufferEventType::PRESENT_FENCE:
+ return "PRESENT_FENCE";
+
+ case ::perfetto::protos::pbzero::GraphicsFrameEvent_BufferEventType::RELEASE_FENCE:
+ return "RELEASE_FENCE";
+
+ case ::perfetto::protos::pbzero::GraphicsFrameEvent_BufferEventType::MODIFY:
+ return "MODIFY";
+
+ case ::perfetto::protos::pbzero::GraphicsFrameEvent_BufferEventType::DETACH:
+ return "DETACH";
+
+ case ::perfetto::protos::pbzero::GraphicsFrameEvent_BufferEventType::ATTACH:
+ return "ATTACH";
+
+ case ::perfetto::protos::pbzero::GraphicsFrameEvent_BufferEventType::CANCEL:
+ return "CANCEL";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+class GraphicsFrameEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ GraphicsFrameEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit GraphicsFrameEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit GraphicsFrameEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_buffer_event() const { return at<1>().valid(); }
+ ::protozero::ConstBytes buffer_event() const { return at<1>().as_bytes(); }
+};
+
+class GraphicsFrameEvent : public ::protozero::Message {
+ public:
+ using Decoder = GraphicsFrameEvent_Decoder;
+ enum : int32_t {
+ kBufferEventFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.GraphicsFrameEvent"; }
+
+ using BufferEvent = ::perfetto::protos::pbzero::GraphicsFrameEvent_BufferEvent;
+
+ using BufferEventType = ::perfetto::protos::pbzero::GraphicsFrameEvent_BufferEventType;
+ static inline const char* BufferEventType_Name(BufferEventType value) {
+ return ::perfetto::protos::pbzero::GraphicsFrameEvent_BufferEventType_Name(value);
+ }
+ static inline const BufferEventType UNSPECIFIED = BufferEventType::UNSPECIFIED;
+ static inline const BufferEventType DEQUEUE = BufferEventType::DEQUEUE;
+ static inline const BufferEventType QUEUE = BufferEventType::QUEUE;
+ static inline const BufferEventType POST = BufferEventType::POST;
+ static inline const BufferEventType ACQUIRE_FENCE = BufferEventType::ACQUIRE_FENCE;
+ static inline const BufferEventType LATCH = BufferEventType::LATCH;
+ static inline const BufferEventType HWC_COMPOSITION_QUEUED = BufferEventType::HWC_COMPOSITION_QUEUED;
+ static inline const BufferEventType FALLBACK_COMPOSITION = BufferEventType::FALLBACK_COMPOSITION;
+ static inline const BufferEventType PRESENT_FENCE = BufferEventType::PRESENT_FENCE;
+ static inline const BufferEventType RELEASE_FENCE = BufferEventType::RELEASE_FENCE;
+ static inline const BufferEventType MODIFY = BufferEventType::MODIFY;
+ static inline const BufferEventType DETACH = BufferEventType::DETACH;
+ static inline const BufferEventType ATTACH = BufferEventType::ATTACH;
+ static inline const BufferEventType CANCEL = BufferEventType::CANCEL;
+
+ using FieldMetadata_BufferEvent =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ GraphicsFrameEvent_BufferEvent,
+ GraphicsFrameEvent>;
+
+ static constexpr FieldMetadata_BufferEvent kBufferEvent{};
+ template <typename T = GraphicsFrameEvent_BufferEvent> T* set_buffer_event() {
+ return BeginNestedMessage<T>(1);
+ }
+
+};
+
+class GraphicsFrameEvent_BufferEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ GraphicsFrameEvent_BufferEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit GraphicsFrameEvent_BufferEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit GraphicsFrameEvent_BufferEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_frame_number() const { return at<1>().valid(); }
+ uint32_t frame_number() const { return at<1>().as_uint32(); }
+ bool has_type() const { return at<2>().valid(); }
+ int32_t type() const { return at<2>().as_int32(); }
+ bool has_layer_name() const { return at<3>().valid(); }
+ ::protozero::ConstChars layer_name() const { return at<3>().as_string(); }
+ bool has_duration_ns() const { return at<4>().valid(); }
+ uint64_t duration_ns() const { return at<4>().as_uint64(); }
+ bool has_buffer_id() const { return at<5>().valid(); }
+ uint32_t buffer_id() const { return at<5>().as_uint32(); }
+};
+
+class GraphicsFrameEvent_BufferEvent : public ::protozero::Message {
+ public:
+ using Decoder = GraphicsFrameEvent_BufferEvent_Decoder;
+ enum : int32_t {
+ kFrameNumberFieldNumber = 1,
+ kTypeFieldNumber = 2,
+ kLayerNameFieldNumber = 3,
+ kDurationNsFieldNumber = 4,
+ kBufferIdFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.GraphicsFrameEvent.BufferEvent"; }
+
+
+ using FieldMetadata_FrameNumber =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ GraphicsFrameEvent_BufferEvent>;
+
+ static constexpr FieldMetadata_FrameNumber kFrameNumber{};
+ void set_frame_number(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FrameNumber::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Type =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ GraphicsFrameEvent_BufferEventType,
+ GraphicsFrameEvent_BufferEvent>;
+
+ static constexpr FieldMetadata_Type kType{};
+ void set_type(GraphicsFrameEvent_BufferEventType value) {
+ static constexpr uint32_t field_id = FieldMetadata_Type::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_LayerName =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ GraphicsFrameEvent_BufferEvent>;
+
+ static constexpr FieldMetadata_LayerName kLayerName{};
+ void set_layer_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_LayerName::kFieldId, data, size);
+ }
+ void set_layer_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_LayerName::kFieldId, chars.data, chars.size);
+ }
+ void set_layer_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_LayerName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DurationNs =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ GraphicsFrameEvent_BufferEvent>;
+
+ static constexpr FieldMetadata_DurationNs kDurationNs{};
+ void set_duration_ns(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DurationNs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BufferId =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ GraphicsFrameEvent_BufferEvent>;
+
+ static constexpr FieldMetadata_BufferId kBufferId{};
+ void set_buffer_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BufferId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/android/initial_display_state.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_ANDROID_INITIAL_DISPLAY_STATE_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_ANDROID_INITIAL_DISPLAY_STATE_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class InitialDisplayState_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ InitialDisplayState_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit InitialDisplayState_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit InitialDisplayState_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_display_state() const { return at<1>().valid(); }
+ int32_t display_state() const { return at<1>().as_int32(); }
+ bool has_brightness() const { return at<2>().valid(); }
+ double brightness() const { return at<2>().as_double(); }
+};
+
+class InitialDisplayState : public ::protozero::Message {
+ public:
+ using Decoder = InitialDisplayState_Decoder;
+ enum : int32_t {
+ kDisplayStateFieldNumber = 1,
+ kBrightnessFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.InitialDisplayState"; }
+
+
+ using FieldMetadata_DisplayState =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ InitialDisplayState>;
+
+ static constexpr FieldMetadata_DisplayState kDisplayState{};
+ void set_display_state(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DisplayState::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Brightness =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kDouble,
+ double,
+ InitialDisplayState>;
+
+ static constexpr FieldMetadata_Brightness kBrightness{};
+ void set_brightness(double value) {
+ static constexpr uint32_t field_id = FieldMetadata_Brightness::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kDouble>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/android/network_trace.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_ANDROID_NETWORK_TRACE_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_ANDROID_NETWORK_TRACE_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class NetworkPacketEvent;
+enum TrafficDirection : int32_t;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+enum TrafficDirection : int32_t {
+ DIR_UNSPECIFIED = 0,
+ DIR_INGRESS = 1,
+ DIR_EGRESS = 2,
+};
+
+constexpr TrafficDirection TrafficDirection_MIN = TrafficDirection::DIR_UNSPECIFIED;
+constexpr TrafficDirection TrafficDirection_MAX = TrafficDirection::DIR_EGRESS;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* TrafficDirection_Name(::perfetto::protos::pbzero::TrafficDirection value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::TrafficDirection::DIR_UNSPECIFIED:
+ return "DIR_UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::TrafficDirection::DIR_INGRESS:
+ return "DIR_INGRESS";
+
+ case ::perfetto::protos::pbzero::TrafficDirection::DIR_EGRESS:
+ return "DIR_EGRESS";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+class NetworkPacketContext_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ NetworkPacketContext_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit NetworkPacketContext_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit NetworkPacketContext_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_iid() const { return at<1>().valid(); }
+ uint64_t iid() const { return at<1>().as_uint64(); }
+ bool has_ctx() const { return at<2>().valid(); }
+ ::protozero::ConstBytes ctx() const { return at<2>().as_bytes(); }
+};
+
+class NetworkPacketContext : public ::protozero::Message {
+ public:
+ using Decoder = NetworkPacketContext_Decoder;
+ enum : int32_t {
+ kIidFieldNumber = 1,
+ kCtxFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.NetworkPacketContext"; }
+
+
+ using FieldMetadata_Iid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ NetworkPacketContext>;
+
+ static constexpr FieldMetadata_Iid kIid{};
+ void set_iid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Iid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ctx =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ NetworkPacketEvent,
+ NetworkPacketContext>;
+
+ static constexpr FieldMetadata_Ctx kCtx{};
+ template <typename T = NetworkPacketEvent> T* set_ctx() {
+ return BeginNestedMessage<T>(2);
+ }
+
+};
+
+class NetworkPacketBundle_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/7, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ NetworkPacketBundle_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit NetworkPacketBundle_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit NetworkPacketBundle_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_iid() const { return at<1>().valid(); }
+ uint64_t iid() const { return at<1>().as_uint64(); }
+ bool has_ctx() const { return at<2>().valid(); }
+ ::protozero::ConstBytes ctx() const { return at<2>().as_bytes(); }
+ bool has_packet_timestamps() const { return at<3>().valid(); }
+ ::protozero::PackedRepeatedFieldIterator<::protozero::proto_utils::ProtoWireType::kVarInt, uint64_t> packet_timestamps(bool* parse_error_ptr) const { return GetPackedRepeated<::protozero::proto_utils::ProtoWireType::kVarInt, uint64_t>(3, parse_error_ptr); }
+ bool has_packet_lengths() const { return at<4>().valid(); }
+ ::protozero::PackedRepeatedFieldIterator<::protozero::proto_utils::ProtoWireType::kVarInt, uint32_t> packet_lengths(bool* parse_error_ptr) const { return GetPackedRepeated<::protozero::proto_utils::ProtoWireType::kVarInt, uint32_t>(4, parse_error_ptr); }
+ bool has_total_packets() const { return at<5>().valid(); }
+ uint32_t total_packets() const { return at<5>().as_uint32(); }
+ bool has_total_duration() const { return at<6>().valid(); }
+ uint64_t total_duration() const { return at<6>().as_uint64(); }
+ bool has_total_length() const { return at<7>().valid(); }
+ uint64_t total_length() const { return at<7>().as_uint64(); }
+};
+
+class NetworkPacketBundle : public ::protozero::Message {
+ public:
+ using Decoder = NetworkPacketBundle_Decoder;
+ enum : int32_t {
+ kIidFieldNumber = 1,
+ kCtxFieldNumber = 2,
+ kPacketTimestampsFieldNumber = 3,
+ kPacketLengthsFieldNumber = 4,
+ kTotalPacketsFieldNumber = 5,
+ kTotalDurationFieldNumber = 6,
+ kTotalLengthFieldNumber = 7,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.NetworkPacketBundle"; }
+
+
+ using FieldMetadata_Iid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ NetworkPacketBundle>;
+
+ static constexpr FieldMetadata_Iid kIid{};
+ void set_iid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Iid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ctx =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ NetworkPacketEvent,
+ NetworkPacketBundle>;
+
+ static constexpr FieldMetadata_Ctx kCtx{};
+ template <typename T = NetworkPacketEvent> T* set_ctx() {
+ return BeginNestedMessage<T>(2);
+ }
+
+
+ using FieldMetadata_PacketTimestamps =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kRepeatedPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ NetworkPacketBundle>;
+
+ static constexpr FieldMetadata_PacketTimestamps kPacketTimestamps{};
+ void set_packet_timestamps(const ::protozero::PackedVarInt& packed_buffer) {
+ AppendBytes(FieldMetadata_PacketTimestamps::kFieldId, packed_buffer.data(),
+ packed_buffer.size());
+ }
+
+ using FieldMetadata_PacketLengths =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kRepeatedPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ NetworkPacketBundle>;
+
+ static constexpr FieldMetadata_PacketLengths kPacketLengths{};
+ void set_packet_lengths(const ::protozero::PackedVarInt& packed_buffer) {
+ AppendBytes(FieldMetadata_PacketLengths::kFieldId, packed_buffer.data(),
+ packed_buffer.size());
+ }
+
+ using FieldMetadata_TotalPackets =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ NetworkPacketBundle>;
+
+ static constexpr FieldMetadata_TotalPackets kTotalPackets{};
+ void set_total_packets(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TotalPackets::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TotalDuration =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ NetworkPacketBundle>;
+
+ static constexpr FieldMetadata_TotalDuration kTotalDuration{};
+ void set_total_duration(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TotalDuration::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TotalLength =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ NetworkPacketBundle>;
+
+ static constexpr FieldMetadata_TotalLength kTotalLength{};
+ void set_total_length(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TotalLength::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class NetworkPacketEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/11, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ NetworkPacketEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit NetworkPacketEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit NetworkPacketEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_direction() const { return at<1>().valid(); }
+ int32_t direction() const { return at<1>().as_int32(); }
+ bool has_interface() const { return at<2>().valid(); }
+ ::protozero::ConstChars interface() const { return at<2>().as_string(); }
+ bool has_length() const { return at<3>().valid(); }
+ uint32_t length() const { return at<3>().as_uint32(); }
+ bool has_uid() const { return at<4>().valid(); }
+ uint32_t uid() const { return at<4>().as_uint32(); }
+ bool has_tag() const { return at<5>().valid(); }
+ uint32_t tag() const { return at<5>().as_uint32(); }
+ bool has_ip_proto() const { return at<6>().valid(); }
+ uint32_t ip_proto() const { return at<6>().as_uint32(); }
+ bool has_tcp_flags() const { return at<7>().valid(); }
+ uint32_t tcp_flags() const { return at<7>().as_uint32(); }
+ bool has_local_port() const { return at<8>().valid(); }
+ uint32_t local_port() const { return at<8>().as_uint32(); }
+ bool has_remote_port() const { return at<9>().valid(); }
+ uint32_t remote_port() const { return at<9>().as_uint32(); }
+ bool has_icmp_type() const { return at<10>().valid(); }
+ uint32_t icmp_type() const { return at<10>().as_uint32(); }
+ bool has_icmp_code() const { return at<11>().valid(); }
+ uint32_t icmp_code() const { return at<11>().as_uint32(); }
+};
+
+class NetworkPacketEvent : public ::protozero::Message {
+ public:
+ using Decoder = NetworkPacketEvent_Decoder;
+ enum : int32_t {
+ kDirectionFieldNumber = 1,
+ kInterfaceFieldNumber = 2,
+ kLengthFieldNumber = 3,
+ kUidFieldNumber = 4,
+ kTagFieldNumber = 5,
+ kIpProtoFieldNumber = 6,
+ kTcpFlagsFieldNumber = 7,
+ kLocalPortFieldNumber = 8,
+ kRemotePortFieldNumber = 9,
+ kIcmpTypeFieldNumber = 10,
+ kIcmpCodeFieldNumber = 11,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.NetworkPacketEvent"; }
+
+
+ using FieldMetadata_Direction =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ TrafficDirection,
+ NetworkPacketEvent>;
+
+ static constexpr FieldMetadata_Direction kDirection{};
+ void set_direction(TrafficDirection value) {
+ static constexpr uint32_t field_id = FieldMetadata_Direction::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Interface =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ NetworkPacketEvent>;
+
+ static constexpr FieldMetadata_Interface kInterface{};
+ void set_interface(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Interface::kFieldId, data, size);
+ }
+ void set_interface(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Interface::kFieldId, chars.data, chars.size);
+ }
+ void set_interface(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Interface::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Length =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ NetworkPacketEvent>;
+
+ static constexpr FieldMetadata_Length kLength{};
+ void set_length(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Length::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Uid =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ NetworkPacketEvent>;
+
+ static constexpr FieldMetadata_Uid kUid{};
+ void set_uid(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Uid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Tag =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ NetworkPacketEvent>;
+
+ static constexpr FieldMetadata_Tag kTag{};
+ void set_tag(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Tag::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IpProto =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ NetworkPacketEvent>;
+
+ static constexpr FieldMetadata_IpProto kIpProto{};
+ void set_ip_proto(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_IpProto::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TcpFlags =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ NetworkPacketEvent>;
+
+ static constexpr FieldMetadata_TcpFlags kTcpFlags{};
+ void set_tcp_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TcpFlags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_LocalPort =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ NetworkPacketEvent>;
+
+ static constexpr FieldMetadata_LocalPort kLocalPort{};
+ void set_local_port(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_LocalPort::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_RemotePort =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ NetworkPacketEvent>;
+
+ static constexpr FieldMetadata_RemotePort kRemotePort{};
+ void set_remote_port(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_RemotePort::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IcmpType =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ NetworkPacketEvent>;
+
+ static constexpr FieldMetadata_IcmpType kIcmpType{};
+ void set_icmp_type(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_IcmpType::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IcmpCode =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ NetworkPacketEvent>;
+
+ static constexpr FieldMetadata_IcmpCode kIcmpCode{};
+ void set_icmp_code(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_IcmpCode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/android/packages_list.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_ANDROID_PACKAGES_LIST_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_ANDROID_PACKAGES_LIST_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class PackagesList_PackageInfo;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class PackagesList_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ PackagesList_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit PackagesList_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit PackagesList_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_packages() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> packages() const { return GetRepeated<::protozero::ConstBytes>(1); }
+ bool has_parse_error() const { return at<2>().valid(); }
+ bool parse_error() const { return at<2>().as_bool(); }
+ bool has_read_error() const { return at<3>().valid(); }
+ bool read_error() const { return at<3>().as_bool(); }
+};
+
+class PackagesList : public ::protozero::Message {
+ public:
+ using Decoder = PackagesList_Decoder;
+ enum : int32_t {
+ kPackagesFieldNumber = 1,
+ kParseErrorFieldNumber = 2,
+ kReadErrorFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.PackagesList"; }
+
+ using PackageInfo = ::perfetto::protos::pbzero::PackagesList_PackageInfo;
+
+ using FieldMetadata_Packages =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ PackagesList_PackageInfo,
+ PackagesList>;
+
+ static constexpr FieldMetadata_Packages kPackages{};
+ template <typename T = PackagesList_PackageInfo> T* add_packages() {
+ return BeginNestedMessage<T>(1);
+ }
+
+
+ using FieldMetadata_ParseError =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ PackagesList>;
+
+ static constexpr FieldMetadata_ParseError kParseError{};
+ void set_parse_error(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_ParseError::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ReadError =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ PackagesList>;
+
+ static constexpr FieldMetadata_ReadError kReadError{};
+ void set_read_error(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_ReadError::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class PackagesList_PackageInfo_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ PackagesList_PackageInfo_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit PackagesList_PackageInfo_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit PackagesList_PackageInfo_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars name() const { return at<1>().as_string(); }
+ bool has_uid() const { return at<2>().valid(); }
+ uint64_t uid() const { return at<2>().as_uint64(); }
+ bool has_debuggable() const { return at<3>().valid(); }
+ bool debuggable() const { return at<3>().as_bool(); }
+ bool has_profileable_from_shell() const { return at<4>().valid(); }
+ bool profileable_from_shell() const { return at<4>().as_bool(); }
+ bool has_version_code() const { return at<5>().valid(); }
+ int64_t version_code() const { return at<5>().as_int64(); }
+};
+
+class PackagesList_PackageInfo : public ::protozero::Message {
+ public:
+ using Decoder = PackagesList_PackageInfo_Decoder;
+ enum : int32_t {
+ kNameFieldNumber = 1,
+ kUidFieldNumber = 2,
+ kDebuggableFieldNumber = 3,
+ kProfileableFromShellFieldNumber = 4,
+ kVersionCodeFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.PackagesList.PackageInfo"; }
+
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ PackagesList_PackageInfo>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Uid =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ PackagesList_PackageInfo>;
+
+ static constexpr FieldMetadata_Uid kUid{};
+ void set_uid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Uid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Debuggable =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ PackagesList_PackageInfo>;
+
+ static constexpr FieldMetadata_Debuggable kDebuggable{};
+ void set_debuggable(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_Debuggable::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ProfileableFromShell =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ PackagesList_PackageInfo>;
+
+ static constexpr FieldMetadata_ProfileableFromShell kProfileableFromShell{};
+ void set_profileable_from_shell(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_ProfileableFromShell::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_VersionCode =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ PackagesList_PackageInfo>;
+
+ static constexpr FieldMetadata_VersionCode kVersionCode{};
+ void set_version_code(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_VersionCode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/android/protolog.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_ANDROID_PROTOLOG_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_ANDROID_PROTOLOG_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class ProtoLogViewerConfig_Group;
+class ProtoLogViewerConfig_MessageData;
+enum ProtoLogLevel : int32_t;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class ProtoLogViewerConfig_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ ProtoLogViewerConfig_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ProtoLogViewerConfig_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ProtoLogViewerConfig_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_messages() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> messages() const { return GetRepeated<::protozero::ConstBytes>(1); }
+ bool has_groups() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> groups() const { return GetRepeated<::protozero::ConstBytes>(2); }
+};
+
+class ProtoLogViewerConfig : public ::protozero::Message {
+ public:
+ using Decoder = ProtoLogViewerConfig_Decoder;
+ enum : int32_t {
+ kMessagesFieldNumber = 1,
+ kGroupsFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ProtoLogViewerConfig"; }
+
+ using MessageData = ::perfetto::protos::pbzero::ProtoLogViewerConfig_MessageData;
+ using Group = ::perfetto::protos::pbzero::ProtoLogViewerConfig_Group;
+
+ using FieldMetadata_Messages =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ProtoLogViewerConfig_MessageData,
+ ProtoLogViewerConfig>;
+
+ static constexpr FieldMetadata_Messages kMessages{};
+ template <typename T = ProtoLogViewerConfig_MessageData> T* add_messages() {
+ return BeginNestedMessage<T>(1);
+ }
+
+
+ using FieldMetadata_Groups =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ProtoLogViewerConfig_Group,
+ ProtoLogViewerConfig>;
+
+ static constexpr FieldMetadata_Groups kGroups{};
+ template <typename T = ProtoLogViewerConfig_Group> T* add_groups() {
+ return BeginNestedMessage<T>(2);
+ }
+
+};
+
+class ProtoLogViewerConfig_Group_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ProtoLogViewerConfig_Group_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ProtoLogViewerConfig_Group_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ProtoLogViewerConfig_Group_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_id() const { return at<1>().valid(); }
+ uint32_t id() const { return at<1>().as_uint32(); }
+ bool has_name() const { return at<2>().valid(); }
+ ::protozero::ConstChars name() const { return at<2>().as_string(); }
+ bool has_tag() const { return at<3>().valid(); }
+ ::protozero::ConstChars tag() const { return at<3>().as_string(); }
+};
+
+class ProtoLogViewerConfig_Group : public ::protozero::Message {
+ public:
+ using Decoder = ProtoLogViewerConfig_Group_Decoder;
+ enum : int32_t {
+ kIdFieldNumber = 1,
+ kNameFieldNumber = 2,
+ kTagFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ProtoLogViewerConfig.Group"; }
+
+
+ using FieldMetadata_Id =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ ProtoLogViewerConfig_Group>;
+
+ static constexpr FieldMetadata_Id kId{};
+ void set_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Id::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ProtoLogViewerConfig_Group>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Tag =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ProtoLogViewerConfig_Group>;
+
+ static constexpr FieldMetadata_Tag kTag{};
+ void set_tag(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Tag::kFieldId, data, size);
+ }
+ void set_tag(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Tag::kFieldId, chars.data, chars.size);
+ }
+ void set_tag(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Tag::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class ProtoLogViewerConfig_MessageData_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ProtoLogViewerConfig_MessageData_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ProtoLogViewerConfig_MessageData_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ProtoLogViewerConfig_MessageData_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_message_id() const { return at<1>().valid(); }
+ uint64_t message_id() const { return at<1>().as_uint64(); }
+ bool has_message() const { return at<2>().valid(); }
+ ::protozero::ConstChars message() const { return at<2>().as_string(); }
+ bool has_level() const { return at<3>().valid(); }
+ int32_t level() const { return at<3>().as_int32(); }
+ bool has_group_id() const { return at<4>().valid(); }
+ uint32_t group_id() const { return at<4>().as_uint32(); }
+};
+
+class ProtoLogViewerConfig_MessageData : public ::protozero::Message {
+ public:
+ using Decoder = ProtoLogViewerConfig_MessageData_Decoder;
+ enum : int32_t {
+ kMessageIdFieldNumber = 1,
+ kMessageFieldNumber = 2,
+ kLevelFieldNumber = 3,
+ kGroupIdFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ProtoLogViewerConfig.MessageData"; }
+
+
+ using FieldMetadata_MessageId =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFixed64,
+ uint64_t,
+ ProtoLogViewerConfig_MessageData>;
+
+ static constexpr FieldMetadata_MessageId kMessageId{};
+ void set_message_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MessageId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFixed64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Message =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ProtoLogViewerConfig_MessageData>;
+
+ static constexpr FieldMetadata_Message kMessage{};
+ void set_message(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Message::kFieldId, data, size);
+ }
+ void set_message(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Message::kFieldId, chars.data, chars.size);
+ }
+ void set_message(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Message::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Level =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ ProtoLogLevel,
+ ProtoLogViewerConfig_MessageData>;
+
+ static constexpr FieldMetadata_Level kLevel{};
+ void set_level(ProtoLogLevel value) {
+ static constexpr uint32_t field_id = FieldMetadata_Level::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_GroupId =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ ProtoLogViewerConfig_MessageData>;
+
+ static constexpr FieldMetadata_GroupId kGroupId{};
+ void set_group_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_GroupId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class ProtoLogMessage_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/6, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ ProtoLogMessage_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ProtoLogMessage_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ProtoLogMessage_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_message_id() const { return at<1>().valid(); }
+ uint64_t message_id() const { return at<1>().as_uint64(); }
+ bool has_str_param_iids() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<uint32_t> str_param_iids() const { return GetRepeated<uint32_t>(2); }
+ bool has_sint64_params() const { return at<3>().valid(); }
+ ::protozero::RepeatedFieldIterator<int64_t> sint64_params() const { return GetRepeated<int64_t>(3); }
+ bool has_double_params() const { return at<4>().valid(); }
+ ::protozero::RepeatedFieldIterator<double> double_params() const { return GetRepeated<double>(4); }
+ bool has_boolean_params() const { return at<5>().valid(); }
+ ::protozero::RepeatedFieldIterator<int32_t> boolean_params() const { return GetRepeated<int32_t>(5); }
+ bool has_stacktrace_iid() const { return at<6>().valid(); }
+ uint32_t stacktrace_iid() const { return at<6>().as_uint32(); }
+};
+
+class ProtoLogMessage : public ::protozero::Message {
+ public:
+ using Decoder = ProtoLogMessage_Decoder;
+ enum : int32_t {
+ kMessageIdFieldNumber = 1,
+ kStrParamIidsFieldNumber = 2,
+ kSint64ParamsFieldNumber = 3,
+ kDoubleParamsFieldNumber = 4,
+ kBooleanParamsFieldNumber = 5,
+ kStacktraceIidFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ProtoLogMessage"; }
+
+
+ using FieldMetadata_MessageId =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFixed64,
+ uint64_t,
+ ProtoLogMessage>;
+
+ static constexpr FieldMetadata_MessageId kMessageId{};
+ void set_message_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MessageId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFixed64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_StrParamIids =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ ProtoLogMessage>;
+
+ static constexpr FieldMetadata_StrParamIids kStrParamIids{};
+ void add_str_param_iids(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_StrParamIids::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Sint64Params =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kSint64,
+ int64_t,
+ ProtoLogMessage>;
+
+ static constexpr FieldMetadata_Sint64Params kSint64Params{};
+ void add_sint64_params(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Sint64Params::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kSint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DoubleParams =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kDouble,
+ double,
+ ProtoLogMessage>;
+
+ static constexpr FieldMetadata_DoubleParams kDoubleParams{};
+ void add_double_params(double value) {
+ static constexpr uint32_t field_id = FieldMetadata_DoubleParams::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kDouble>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BooleanParams =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ ProtoLogMessage>;
+
+ static constexpr FieldMetadata_BooleanParams kBooleanParams{};
+ void add_boolean_params(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BooleanParams::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_StacktraceIid =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ ProtoLogMessage>;
+
+ static constexpr FieldMetadata_StacktraceIid kStacktraceIid{};
+ void set_stacktrace_iid(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_StacktraceIid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/android/shell_transition.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_ANDROID_SHELL_TRANSITION_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_ANDROID_SHELL_TRANSITION_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class ShellHandlerMapping;
+class ShellTransition_Target;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class ShellHandlerMapping_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ShellHandlerMapping_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ShellHandlerMapping_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ShellHandlerMapping_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_id() const { return at<1>().valid(); }
+ int32_t id() const { return at<1>().as_int32(); }
+ bool has_name() const { return at<2>().valid(); }
+ ::protozero::ConstChars name() const { return at<2>().as_string(); }
+};
+
+class ShellHandlerMapping : public ::protozero::Message {
+ public:
+ using Decoder = ShellHandlerMapping_Decoder;
+ enum : int32_t {
+ kIdFieldNumber = 1,
+ kNameFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ShellHandlerMapping"; }
+
+
+ using FieldMetadata_Id =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ ShellHandlerMapping>;
+
+ static constexpr FieldMetadata_Id kId{};
+ void set_id(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Id::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ShellHandlerMapping>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class ShellHandlerMappings_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ ShellHandlerMappings_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ShellHandlerMappings_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ShellHandlerMappings_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_mapping() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> mapping() const { return GetRepeated<::protozero::ConstBytes>(1); }
+};
+
+class ShellHandlerMappings : public ::protozero::Message {
+ public:
+ using Decoder = ShellHandlerMappings_Decoder;
+ enum : int32_t {
+ kMappingFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ShellHandlerMappings"; }
+
+
+ using FieldMetadata_Mapping =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ShellHandlerMapping,
+ ShellHandlerMappings>;
+
+ static constexpr FieldMetadata_Mapping kMapping{};
+ template <typename T = ShellHandlerMapping> T* add_mapping() {
+ return BeginNestedMessage<T>(1);
+ }
+
+};
+
+class ShellTransition_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/17, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ ShellTransition_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ShellTransition_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ShellTransition_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_id() const { return at<1>().valid(); }
+ int32_t id() const { return at<1>().as_int32(); }
+ bool has_create_time_ns() const { return at<2>().valid(); }
+ int64_t create_time_ns() const { return at<2>().as_int64(); }
+ bool has_send_time_ns() const { return at<3>().valid(); }
+ int64_t send_time_ns() const { return at<3>().as_int64(); }
+ bool has_dispatch_time_ns() const { return at<4>().valid(); }
+ int64_t dispatch_time_ns() const { return at<4>().as_int64(); }
+ bool has_merge_time_ns() const { return at<5>().valid(); }
+ int64_t merge_time_ns() const { return at<5>().as_int64(); }
+ bool has_merge_request_time_ns() const { return at<6>().valid(); }
+ int64_t merge_request_time_ns() const { return at<6>().as_int64(); }
+ bool has_shell_abort_time_ns() const { return at<7>().valid(); }
+ int64_t shell_abort_time_ns() const { return at<7>().as_int64(); }
+ bool has_wm_abort_time_ns() const { return at<8>().valid(); }
+ int64_t wm_abort_time_ns() const { return at<8>().as_int64(); }
+ bool has_finish_time_ns() const { return at<9>().valid(); }
+ int64_t finish_time_ns() const { return at<9>().as_int64(); }
+ bool has_start_transaction_id() const { return at<10>().valid(); }
+ uint64_t start_transaction_id() const { return at<10>().as_uint64(); }
+ bool has_finish_transaction_id() const { return at<11>().valid(); }
+ uint64_t finish_transaction_id() const { return at<11>().as_uint64(); }
+ bool has_handler() const { return at<12>().valid(); }
+ int32_t handler() const { return at<12>().as_int32(); }
+ bool has_type() const { return at<13>().valid(); }
+ int32_t type() const { return at<13>().as_int32(); }
+ bool has_targets() const { return at<14>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> targets() const { return GetRepeated<::protozero::ConstBytes>(14); }
+ bool has_merge_target() const { return at<15>().valid(); }
+ int32_t merge_target() const { return at<15>().as_int32(); }
+ bool has_flags() const { return at<16>().valid(); }
+ int32_t flags() const { return at<16>().as_int32(); }
+ bool has_starting_window_remove_time_ns() const { return at<17>().valid(); }
+ int64_t starting_window_remove_time_ns() const { return at<17>().as_int64(); }
+};
+
+class ShellTransition : public ::protozero::Message {
+ public:
+ using Decoder = ShellTransition_Decoder;
+ enum : int32_t {
+ kIdFieldNumber = 1,
+ kCreateTimeNsFieldNumber = 2,
+ kSendTimeNsFieldNumber = 3,
+ kDispatchTimeNsFieldNumber = 4,
+ kMergeTimeNsFieldNumber = 5,
+ kMergeRequestTimeNsFieldNumber = 6,
+ kShellAbortTimeNsFieldNumber = 7,
+ kWmAbortTimeNsFieldNumber = 8,
+ kFinishTimeNsFieldNumber = 9,
+ kStartTransactionIdFieldNumber = 10,
+ kFinishTransactionIdFieldNumber = 11,
+ kHandlerFieldNumber = 12,
+ kTypeFieldNumber = 13,
+ kTargetsFieldNumber = 14,
+ kMergeTargetFieldNumber = 15,
+ kFlagsFieldNumber = 16,
+ kStartingWindowRemoveTimeNsFieldNumber = 17,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ShellTransition"; }
+
+ using Target = ::perfetto::protos::pbzero::ShellTransition_Target;
+
+ using FieldMetadata_Id =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ ShellTransition>;
+
+ static constexpr FieldMetadata_Id kId{};
+ void set_id(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Id::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CreateTimeNs =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ ShellTransition>;
+
+ static constexpr FieldMetadata_CreateTimeNs kCreateTimeNs{};
+ void set_create_time_ns(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CreateTimeNs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SendTimeNs =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ ShellTransition>;
+
+ static constexpr FieldMetadata_SendTimeNs kSendTimeNs{};
+ void set_send_time_ns(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SendTimeNs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DispatchTimeNs =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ ShellTransition>;
+
+ static constexpr FieldMetadata_DispatchTimeNs kDispatchTimeNs{};
+ void set_dispatch_time_ns(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DispatchTimeNs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MergeTimeNs =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ ShellTransition>;
+
+ static constexpr FieldMetadata_MergeTimeNs kMergeTimeNs{};
+ void set_merge_time_ns(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MergeTimeNs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MergeRequestTimeNs =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ ShellTransition>;
+
+ static constexpr FieldMetadata_MergeRequestTimeNs kMergeRequestTimeNs{};
+ void set_merge_request_time_ns(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MergeRequestTimeNs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ShellAbortTimeNs =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ ShellTransition>;
+
+ static constexpr FieldMetadata_ShellAbortTimeNs kShellAbortTimeNs{};
+ void set_shell_abort_time_ns(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ShellAbortTimeNs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_WmAbortTimeNs =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ ShellTransition>;
+
+ static constexpr FieldMetadata_WmAbortTimeNs kWmAbortTimeNs{};
+ void set_wm_abort_time_ns(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_WmAbortTimeNs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FinishTimeNs =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ ShellTransition>;
+
+ static constexpr FieldMetadata_FinishTimeNs kFinishTimeNs{};
+ void set_finish_time_ns(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FinishTimeNs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_StartTransactionId =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ShellTransition>;
+
+ static constexpr FieldMetadata_StartTransactionId kStartTransactionId{};
+ void set_start_transaction_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_StartTransactionId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FinishTransactionId =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ShellTransition>;
+
+ static constexpr FieldMetadata_FinishTransactionId kFinishTransactionId{};
+ void set_finish_transaction_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FinishTransactionId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Handler =
+ ::protozero::proto_utils::FieldMetadata<
+ 12,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ ShellTransition>;
+
+ static constexpr FieldMetadata_Handler kHandler{};
+ void set_handler(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Handler::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Type =
+ ::protozero::proto_utils::FieldMetadata<
+ 13,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ ShellTransition>;
+
+ static constexpr FieldMetadata_Type kType{};
+ void set_type(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Type::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Targets =
+ ::protozero::proto_utils::FieldMetadata<
+ 14,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ShellTransition_Target,
+ ShellTransition>;
+
+ static constexpr FieldMetadata_Targets kTargets{};
+ template <typename T = ShellTransition_Target> T* add_targets() {
+ return BeginNestedMessage<T>(14);
+ }
+
+
+ using FieldMetadata_MergeTarget =
+ ::protozero::proto_utils::FieldMetadata<
+ 15,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ ShellTransition>;
+
+ static constexpr FieldMetadata_MergeTarget kMergeTarget{};
+ void set_merge_target(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MergeTarget::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Flags =
+ ::protozero::proto_utils::FieldMetadata<
+ 16,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ ShellTransition>;
+
+ static constexpr FieldMetadata_Flags kFlags{};
+ void set_flags(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Flags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_StartingWindowRemoveTimeNs =
+ ::protozero::proto_utils::FieldMetadata<
+ 17,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ ShellTransition>;
+
+ static constexpr FieldMetadata_StartingWindowRemoveTimeNs kStartingWindowRemoveTimeNs{};
+ void set_starting_window_remove_time_ns(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_StartingWindowRemoveTimeNs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class ShellTransition_Target_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ShellTransition_Target_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ShellTransition_Target_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ShellTransition_Target_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_mode() const { return at<1>().valid(); }
+ int32_t mode() const { return at<1>().as_int32(); }
+ bool has_layer_id() const { return at<2>().valid(); }
+ int32_t layer_id() const { return at<2>().as_int32(); }
+ bool has_window_id() const { return at<3>().valid(); }
+ int32_t window_id() const { return at<3>().as_int32(); }
+ bool has_flags() const { return at<4>().valid(); }
+ int32_t flags() const { return at<4>().as_int32(); }
+};
+
+class ShellTransition_Target : public ::protozero::Message {
+ public:
+ using Decoder = ShellTransition_Target_Decoder;
+ enum : int32_t {
+ kModeFieldNumber = 1,
+ kLayerIdFieldNumber = 2,
+ kWindowIdFieldNumber = 3,
+ kFlagsFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ShellTransition.Target"; }
+
+
+ using FieldMetadata_Mode =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ ShellTransition_Target>;
+
+ static constexpr FieldMetadata_Mode kMode{};
+ void set_mode(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Mode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_LayerId =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ ShellTransition_Target>;
+
+ static constexpr FieldMetadata_LayerId kLayerId{};
+ void set_layer_id(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_LayerId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_WindowId =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ ShellTransition_Target>;
+
+ static constexpr FieldMetadata_WindowId kWindowId{};
+ void set_window_id(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_WindowId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Flags =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ ShellTransition_Target>;
+
+ static constexpr FieldMetadata_Flags kFlags{};
+ void set_flags(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Flags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/android/surfaceflinger_common.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_ANDROID_SURFACEFLINGER_COMMON_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_ANDROID_SURFACEFLINGER_COMMON_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class RectProto;
+class RegionProto;
+class TransformProto;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class ColorTransformProto_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ColorTransformProto_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ColorTransformProto_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ColorTransformProto_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_val() const { return at<1>().valid(); }
+ ::protozero::PackedRepeatedFieldIterator<::protozero::proto_utils::ProtoWireType::kFixed32, float> val(bool* parse_error_ptr) const { return GetPackedRepeated<::protozero::proto_utils::ProtoWireType::kFixed32, float>(1, parse_error_ptr); }
+};
+
+class ColorTransformProto : public ::protozero::Message {
+ public:
+ using Decoder = ColorTransformProto_Decoder;
+ enum : int32_t {
+ kValFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ColorTransformProto"; }
+
+
+ using FieldMetadata_Val =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kFloat,
+ float,
+ ColorTransformProto>;
+
+ static constexpr FieldMetadata_Val kVal{};
+ void set_val(const ::protozero::PackedFixedSizeInt<float>& packed_buffer) {
+ AppendBytes(FieldMetadata_Val::kFieldId, packed_buffer.data(),
+ packed_buffer.size());
+ }
+};
+
+class BlurRegion_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/10, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ BlurRegion_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit BlurRegion_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit BlurRegion_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_blur_radius() const { return at<1>().valid(); }
+ uint32_t blur_radius() const { return at<1>().as_uint32(); }
+ bool has_corner_radius_tl() const { return at<2>().valid(); }
+ uint32_t corner_radius_tl() const { return at<2>().as_uint32(); }
+ bool has_corner_radius_tr() const { return at<3>().valid(); }
+ uint32_t corner_radius_tr() const { return at<3>().as_uint32(); }
+ bool has_corner_radius_bl() const { return at<4>().valid(); }
+ uint32_t corner_radius_bl() const { return at<4>().as_uint32(); }
+ bool has_corner_radius_br() const { return at<5>().valid(); }
+ float corner_radius_br() const { return at<5>().as_float(); }
+ bool has_alpha() const { return at<6>().valid(); }
+ float alpha() const { return at<6>().as_float(); }
+ bool has_left() const { return at<7>().valid(); }
+ int32_t left() const { return at<7>().as_int32(); }
+ bool has_top() const { return at<8>().valid(); }
+ int32_t top() const { return at<8>().as_int32(); }
+ bool has_right() const { return at<9>().valid(); }
+ int32_t right() const { return at<9>().as_int32(); }
+ bool has_bottom() const { return at<10>().valid(); }
+ int32_t bottom() const { return at<10>().as_int32(); }
+};
+
+class BlurRegion : public ::protozero::Message {
+ public:
+ using Decoder = BlurRegion_Decoder;
+ enum : int32_t {
+ kBlurRadiusFieldNumber = 1,
+ kCornerRadiusTlFieldNumber = 2,
+ kCornerRadiusTrFieldNumber = 3,
+ kCornerRadiusBlFieldNumber = 4,
+ kCornerRadiusBrFieldNumber = 5,
+ kAlphaFieldNumber = 6,
+ kLeftFieldNumber = 7,
+ kTopFieldNumber = 8,
+ kRightFieldNumber = 9,
+ kBottomFieldNumber = 10,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.BlurRegion"; }
+
+
+ using FieldMetadata_BlurRadius =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ BlurRegion>;
+
+ static constexpr FieldMetadata_BlurRadius kBlurRadius{};
+ void set_blur_radius(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BlurRadius::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CornerRadiusTl =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ BlurRegion>;
+
+ static constexpr FieldMetadata_CornerRadiusTl kCornerRadiusTl{};
+ void set_corner_radius_tl(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CornerRadiusTl::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CornerRadiusTr =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ BlurRegion>;
+
+ static constexpr FieldMetadata_CornerRadiusTr kCornerRadiusTr{};
+ void set_corner_radius_tr(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CornerRadiusTr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CornerRadiusBl =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ BlurRegion>;
+
+ static constexpr FieldMetadata_CornerRadiusBl kCornerRadiusBl{};
+ void set_corner_radius_bl(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CornerRadiusBl::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CornerRadiusBr =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFloat,
+ float,
+ BlurRegion>;
+
+ static constexpr FieldMetadata_CornerRadiusBr kCornerRadiusBr{};
+ void set_corner_radius_br(float value) {
+ static constexpr uint32_t field_id = FieldMetadata_CornerRadiusBr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFloat>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Alpha =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFloat,
+ float,
+ BlurRegion>;
+
+ static constexpr FieldMetadata_Alpha kAlpha{};
+ void set_alpha(float value) {
+ static constexpr uint32_t field_id = FieldMetadata_Alpha::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFloat>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Left =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ BlurRegion>;
+
+ static constexpr FieldMetadata_Left kLeft{};
+ void set_left(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Left::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Top =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ BlurRegion>;
+
+ static constexpr FieldMetadata_Top kTop{};
+ void set_top(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Top::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Right =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ BlurRegion>;
+
+ static constexpr FieldMetadata_Right kRight{};
+ void set_right(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Right::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Bottom =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ BlurRegion>;
+
+ static constexpr FieldMetadata_Bottom kBottom{};
+ void set_bottom(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Bottom::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class InputWindowInfoProto_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/17, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ InputWindowInfoProto_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit InputWindowInfoProto_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit InputWindowInfoProto_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_layout_params_flags() const { return at<1>().valid(); }
+ uint32_t layout_params_flags() const { return at<1>().as_uint32(); }
+ bool has_layout_params_type() const { return at<2>().valid(); }
+ int32_t layout_params_type() const { return at<2>().as_int32(); }
+ bool has_frame() const { return at<3>().valid(); }
+ ::protozero::ConstBytes frame() const { return at<3>().as_bytes(); }
+ bool has_touchable_region() const { return at<4>().valid(); }
+ ::protozero::ConstBytes touchable_region() const { return at<4>().as_bytes(); }
+ bool has_surface_inset() const { return at<5>().valid(); }
+ int32_t surface_inset() const { return at<5>().as_int32(); }
+ bool has_visible() const { return at<6>().valid(); }
+ bool visible() const { return at<6>().as_bool(); }
+ bool has_can_receive_keys() const { return at<7>().valid(); }
+ bool can_receive_keys() const { return at<7>().as_bool(); }
+ bool has_focusable() const { return at<8>().valid(); }
+ bool focusable() const { return at<8>().as_bool(); }
+ bool has_has_wallpaper() const { return at<9>().valid(); }
+ bool has_wallpaper() const { return at<9>().as_bool(); }
+ bool has_global_scale_factor() const { return at<10>().valid(); }
+ float global_scale_factor() const { return at<10>().as_float(); }
+ bool has_window_x_scale() const { return at<11>().valid(); }
+ float window_x_scale() const { return at<11>().as_float(); }
+ bool has_window_y_scale() const { return at<12>().valid(); }
+ float window_y_scale() const { return at<12>().as_float(); }
+ bool has_crop_layer_id() const { return at<13>().valid(); }
+ int32_t crop_layer_id() const { return at<13>().as_int32(); }
+ bool has_replace_touchable_region_with_crop() const { return at<14>().valid(); }
+ bool replace_touchable_region_with_crop() const { return at<14>().as_bool(); }
+ bool has_touchable_region_crop() const { return at<15>().valid(); }
+ ::protozero::ConstBytes touchable_region_crop() const { return at<15>().as_bytes(); }
+ bool has_transform() const { return at<16>().valid(); }
+ ::protozero::ConstBytes transform() const { return at<16>().as_bytes(); }
+ bool has_input_config() const { return at<17>().valid(); }
+ uint32_t input_config() const { return at<17>().as_uint32(); }
+};
+
+class InputWindowInfoProto : public ::protozero::Message {
+ public:
+ using Decoder = InputWindowInfoProto_Decoder;
+ enum : int32_t {
+ kLayoutParamsFlagsFieldNumber = 1,
+ kLayoutParamsTypeFieldNumber = 2,
+ kFrameFieldNumber = 3,
+ kTouchableRegionFieldNumber = 4,
+ kSurfaceInsetFieldNumber = 5,
+ kVisibleFieldNumber = 6,
+ kCanReceiveKeysFieldNumber = 7,
+ kFocusableFieldNumber = 8,
+ kHasWallpaperFieldNumber = 9,
+ kGlobalScaleFactorFieldNumber = 10,
+ kWindowXScaleFieldNumber = 11,
+ kWindowYScaleFieldNumber = 12,
+ kCropLayerIdFieldNumber = 13,
+ kReplaceTouchableRegionWithCropFieldNumber = 14,
+ kTouchableRegionCropFieldNumber = 15,
+ kTransformFieldNumber = 16,
+ kInputConfigFieldNumber = 17,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.InputWindowInfoProto"; }
+
+
+ using FieldMetadata_LayoutParamsFlags =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ InputWindowInfoProto>;
+
+ static constexpr FieldMetadata_LayoutParamsFlags kLayoutParamsFlags{};
+ void set_layout_params_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_LayoutParamsFlags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_LayoutParamsType =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ InputWindowInfoProto>;
+
+ static constexpr FieldMetadata_LayoutParamsType kLayoutParamsType{};
+ void set_layout_params_type(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_LayoutParamsType::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Frame =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ RectProto,
+ InputWindowInfoProto>;
+
+ static constexpr FieldMetadata_Frame kFrame{};
+ template <typename T = RectProto> T* set_frame() {
+ return BeginNestedMessage<T>(3);
+ }
+
+
+ using FieldMetadata_TouchableRegion =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ RegionProto,
+ InputWindowInfoProto>;
+
+ static constexpr FieldMetadata_TouchableRegion kTouchableRegion{};
+ template <typename T = RegionProto> T* set_touchable_region() {
+ return BeginNestedMessage<T>(4);
+ }
+
+
+ using FieldMetadata_SurfaceInset =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ InputWindowInfoProto>;
+
+ static constexpr FieldMetadata_SurfaceInset kSurfaceInset{};
+ void set_surface_inset(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SurfaceInset::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Visible =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ InputWindowInfoProto>;
+
+ static constexpr FieldMetadata_Visible kVisible{};
+ void set_visible(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_Visible::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CanReceiveKeys =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ InputWindowInfoProto>;
+
+ static constexpr FieldMetadata_CanReceiveKeys kCanReceiveKeys{};
+ void set_can_receive_keys(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_CanReceiveKeys::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Focusable =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ InputWindowInfoProto>;
+
+ static constexpr FieldMetadata_Focusable kFocusable{};
+ void set_focusable(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_Focusable::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_HasWallpaper =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ InputWindowInfoProto>;
+
+ static constexpr FieldMetadata_HasWallpaper kHasWallpaper{};
+ void set_has_wallpaper(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_HasWallpaper::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_GlobalScaleFactor =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFloat,
+ float,
+ InputWindowInfoProto>;
+
+ static constexpr FieldMetadata_GlobalScaleFactor kGlobalScaleFactor{};
+ void set_global_scale_factor(float value) {
+ static constexpr uint32_t field_id = FieldMetadata_GlobalScaleFactor::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFloat>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_WindowXScale =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFloat,
+ float,
+ InputWindowInfoProto>;
+
+ static constexpr FieldMetadata_WindowXScale kWindowXScale{};
+ void set_window_x_scale(float value) {
+ static constexpr uint32_t field_id = FieldMetadata_WindowXScale::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFloat>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_WindowYScale =
+ ::protozero::proto_utils::FieldMetadata<
+ 12,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFloat,
+ float,
+ InputWindowInfoProto>;
+
+ static constexpr FieldMetadata_WindowYScale kWindowYScale{};
+ void set_window_y_scale(float value) {
+ static constexpr uint32_t field_id = FieldMetadata_WindowYScale::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFloat>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CropLayerId =
+ ::protozero::proto_utils::FieldMetadata<
+ 13,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ InputWindowInfoProto>;
+
+ static constexpr FieldMetadata_CropLayerId kCropLayerId{};
+ void set_crop_layer_id(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CropLayerId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ReplaceTouchableRegionWithCrop =
+ ::protozero::proto_utils::FieldMetadata<
+ 14,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ InputWindowInfoProto>;
+
+ static constexpr FieldMetadata_ReplaceTouchableRegionWithCrop kReplaceTouchableRegionWithCrop{};
+ void set_replace_touchable_region_with_crop(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_ReplaceTouchableRegionWithCrop::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TouchableRegionCrop =
+ ::protozero::proto_utils::FieldMetadata<
+ 15,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ RectProto,
+ InputWindowInfoProto>;
+
+ static constexpr FieldMetadata_TouchableRegionCrop kTouchableRegionCrop{};
+ template <typename T = RectProto> T* set_touchable_region_crop() {
+ return BeginNestedMessage<T>(15);
+ }
+
+
+ using FieldMetadata_Transform =
+ ::protozero::proto_utils::FieldMetadata<
+ 16,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TransformProto,
+ InputWindowInfoProto>;
+
+ static constexpr FieldMetadata_Transform kTransform{};
+ template <typename T = TransformProto> T* set_transform() {
+ return BeginNestedMessage<T>(16);
+ }
+
+
+ using FieldMetadata_InputConfig =
+ ::protozero::proto_utils::FieldMetadata<
+ 17,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ InputWindowInfoProto>;
+
+ static constexpr FieldMetadata_InputConfig kInputConfig{};
+ void set_input_config(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_InputConfig::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class ColorProto_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ColorProto_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ColorProto_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ColorProto_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_r() const { return at<1>().valid(); }
+ float r() const { return at<1>().as_float(); }
+ bool has_g() const { return at<2>().valid(); }
+ float g() const { return at<2>().as_float(); }
+ bool has_b() const { return at<3>().valid(); }
+ float b() const { return at<3>().as_float(); }
+ bool has_a() const { return at<4>().valid(); }
+ float a() const { return at<4>().as_float(); }
+};
+
+class ColorProto : public ::protozero::Message {
+ public:
+ using Decoder = ColorProto_Decoder;
+ enum : int32_t {
+ kRFieldNumber = 1,
+ kGFieldNumber = 2,
+ kBFieldNumber = 3,
+ kAFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ColorProto"; }
+
+
+ using FieldMetadata_R =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFloat,
+ float,
+ ColorProto>;
+
+ static constexpr FieldMetadata_R kR{};
+ void set_r(float value) {
+ static constexpr uint32_t field_id = FieldMetadata_R::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFloat>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_G =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFloat,
+ float,
+ ColorProto>;
+
+ static constexpr FieldMetadata_G kG{};
+ void set_g(float value) {
+ static constexpr uint32_t field_id = FieldMetadata_G::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFloat>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_B =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFloat,
+ float,
+ ColorProto>;
+
+ static constexpr FieldMetadata_B kB{};
+ void set_b(float value) {
+ static constexpr uint32_t field_id = FieldMetadata_B::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFloat>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_A =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFloat,
+ float,
+ ColorProto>;
+
+ static constexpr FieldMetadata_A kA{};
+ void set_a(float value) {
+ static constexpr uint32_t field_id = FieldMetadata_A::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFloat>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class TransformProto_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ TransformProto_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TransformProto_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TransformProto_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dsdx() const { return at<1>().valid(); }
+ float dsdx() const { return at<1>().as_float(); }
+ bool has_dtdx() const { return at<2>().valid(); }
+ float dtdx() const { return at<2>().as_float(); }
+ bool has_dsdy() const { return at<3>().valid(); }
+ float dsdy() const { return at<3>().as_float(); }
+ bool has_dtdy() const { return at<4>().valid(); }
+ float dtdy() const { return at<4>().as_float(); }
+ bool has_type() const { return at<5>().valid(); }
+ int32_t type() const { return at<5>().as_int32(); }
+};
+
+class TransformProto : public ::protozero::Message {
+ public:
+ using Decoder = TransformProto_Decoder;
+ enum : int32_t {
+ kDsdxFieldNumber = 1,
+ kDtdxFieldNumber = 2,
+ kDsdyFieldNumber = 3,
+ kDtdyFieldNumber = 4,
+ kTypeFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TransformProto"; }
+
+
+ using FieldMetadata_Dsdx =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFloat,
+ float,
+ TransformProto>;
+
+ static constexpr FieldMetadata_Dsdx kDsdx{};
+ void set_dsdx(float value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dsdx::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFloat>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Dtdx =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFloat,
+ float,
+ TransformProto>;
+
+ static constexpr FieldMetadata_Dtdx kDtdx{};
+ void set_dtdx(float value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dtdx::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFloat>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Dsdy =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFloat,
+ float,
+ TransformProto>;
+
+ static constexpr FieldMetadata_Dsdy kDsdy{};
+ void set_dsdy(float value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dsdy::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFloat>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Dtdy =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFloat,
+ float,
+ TransformProto>;
+
+ static constexpr FieldMetadata_Dtdy kDtdy{};
+ void set_dtdy(float value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dtdy::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFloat>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Type =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ TransformProto>;
+
+ static constexpr FieldMetadata_Type kType{};
+ void set_type(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Type::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class SizeProto_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ SizeProto_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SizeProto_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SizeProto_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_w() const { return at<1>().valid(); }
+ int32_t w() const { return at<1>().as_int32(); }
+ bool has_h() const { return at<2>().valid(); }
+ int32_t h() const { return at<2>().as_int32(); }
+};
+
+class SizeProto : public ::protozero::Message {
+ public:
+ using Decoder = SizeProto_Decoder;
+ enum : int32_t {
+ kWFieldNumber = 1,
+ kHFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SizeProto"; }
+
+
+ using FieldMetadata_W =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SizeProto>;
+
+ static constexpr FieldMetadata_W kW{};
+ void set_w(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_W::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_H =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SizeProto>;
+
+ static constexpr FieldMetadata_H kH{};
+ void set_h(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_H::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class RectProto_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ RectProto_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit RectProto_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit RectProto_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_left() const { return at<1>().valid(); }
+ int32_t left() const { return at<1>().as_int32(); }
+ bool has_top() const { return at<2>().valid(); }
+ int32_t top() const { return at<2>().as_int32(); }
+ bool has_right() const { return at<3>().valid(); }
+ int32_t right() const { return at<3>().as_int32(); }
+ bool has_bottom() const { return at<4>().valid(); }
+ int32_t bottom() const { return at<4>().as_int32(); }
+};
+
+class RectProto : public ::protozero::Message {
+ public:
+ using Decoder = RectProto_Decoder;
+ enum : int32_t {
+ kLeftFieldNumber = 1,
+ kTopFieldNumber = 2,
+ kRightFieldNumber = 3,
+ kBottomFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.RectProto"; }
+
+
+ using FieldMetadata_Left =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ RectProto>;
+
+ static constexpr FieldMetadata_Left kLeft{};
+ void set_left(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Left::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Top =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ RectProto>;
+
+ static constexpr FieldMetadata_Top kTop{};
+ void set_top(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Top::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Right =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ RectProto>;
+
+ static constexpr FieldMetadata_Right kRight{};
+ void set_right(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Right::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Bottom =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ RectProto>;
+
+ static constexpr FieldMetadata_Bottom kBottom{};
+ void set_bottom(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Bottom::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class RegionProto_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ RegionProto_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit RegionProto_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit RegionProto_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_rect() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> rect() const { return GetRepeated<::protozero::ConstBytes>(2); }
+};
+
+class RegionProto : public ::protozero::Message {
+ public:
+ using Decoder = RegionProto_Decoder;
+ enum : int32_t {
+ kRectFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.RegionProto"; }
+
+
+ using FieldMetadata_Rect =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ RectProto,
+ RegionProto>;
+
+ static constexpr FieldMetadata_Rect kRect{};
+ template <typename T = RectProto> T* add_rect() {
+ return BeginNestedMessage<T>(2);
+ }
+
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/android/surfaceflinger_layers.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_ANDROID_SURFACEFLINGER_LAYERS_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_ANDROID_SURFACEFLINGER_LAYERS_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class ActiveBufferProto;
+class BarrierLayerProto;
+class BlurRegion;
+class ColorProto;
+class ColorTransformProto;
+class DisplayProto;
+class FloatRectProto;
+class InputWindowInfoProto;
+class LayerProto;
+class LayerProto_MetadataEntry;
+class LayersProto;
+class LayersSnapshotProto;
+class PositionProto;
+class RectProto;
+class RegionProto;
+class SizeProto;
+class TransformProto;
+enum HwcCompositionType : int32_t;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+enum HwcCompositionType : int32_t {
+ HWC_TYPE_UNSPECIFIED = 0,
+ HWC_TYPE_CLIENT = 1,
+ HWC_TYPE_DEVICE = 2,
+ HWC_TYPE_SOLID_COLOR = 3,
+ HWC_TYPE_CURSOR = 4,
+ HWC_TYPE_SIDEBAND = 5,
+ HWC_TYPE_DISPLAY_DECORATION = 6,
+};
+
+constexpr HwcCompositionType HwcCompositionType_MIN = HwcCompositionType::HWC_TYPE_UNSPECIFIED;
+constexpr HwcCompositionType HwcCompositionType_MAX = HwcCompositionType::HWC_TYPE_DISPLAY_DECORATION;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* HwcCompositionType_Name(::perfetto::protos::pbzero::HwcCompositionType value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::HwcCompositionType::HWC_TYPE_UNSPECIFIED:
+ return "HWC_TYPE_UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::HwcCompositionType::HWC_TYPE_CLIENT:
+ return "HWC_TYPE_CLIENT";
+
+ case ::perfetto::protos::pbzero::HwcCompositionType::HWC_TYPE_DEVICE:
+ return "HWC_TYPE_DEVICE";
+
+ case ::perfetto::protos::pbzero::HwcCompositionType::HWC_TYPE_SOLID_COLOR:
+ return "HWC_TYPE_SOLID_COLOR";
+
+ case ::perfetto::protos::pbzero::HwcCompositionType::HWC_TYPE_CURSOR:
+ return "HWC_TYPE_CURSOR";
+
+ case ::perfetto::protos::pbzero::HwcCompositionType::HWC_TYPE_SIDEBAND:
+ return "HWC_TYPE_SIDEBAND";
+
+ case ::perfetto::protos::pbzero::HwcCompositionType::HWC_TYPE_DISPLAY_DECORATION:
+ return "HWC_TYPE_DISPLAY_DECORATION";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_LayersTraceFileProto {
+enum MagicNumber : int32_t {
+ INVALID = 0,
+ MAGIC_NUMBER_L = 1414682956,
+ MAGIC_NUMBER_H = 1162035538,
+};
+} // namespace perfetto_pbzero_enum_LayersTraceFileProto
+using LayersTraceFileProto_MagicNumber = perfetto_pbzero_enum_LayersTraceFileProto::MagicNumber;
+
+
+constexpr LayersTraceFileProto_MagicNumber LayersTraceFileProto_MagicNumber_MIN = LayersTraceFileProto_MagicNumber::INVALID;
+constexpr LayersTraceFileProto_MagicNumber LayersTraceFileProto_MagicNumber_MAX = LayersTraceFileProto_MagicNumber::MAGIC_NUMBER_L;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* LayersTraceFileProto_MagicNumber_Name(::perfetto::protos::pbzero::LayersTraceFileProto_MagicNumber value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::LayersTraceFileProto_MagicNumber::INVALID:
+ return "INVALID";
+
+ case ::perfetto::protos::pbzero::LayersTraceFileProto_MagicNumber::MAGIC_NUMBER_L:
+ return "MAGIC_NUMBER_L";
+
+ case ::perfetto::protos::pbzero::LayersTraceFileProto_MagicNumber::MAGIC_NUMBER_H:
+ return "MAGIC_NUMBER_H";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+class BarrierLayerProto_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ BarrierLayerProto_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit BarrierLayerProto_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit BarrierLayerProto_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_id() const { return at<1>().valid(); }
+ int32_t id() const { return at<1>().as_int32(); }
+ bool has_frame_number() const { return at<2>().valid(); }
+ uint64_t frame_number() const { return at<2>().as_uint64(); }
+};
+
+class BarrierLayerProto : public ::protozero::Message {
+ public:
+ using Decoder = BarrierLayerProto_Decoder;
+ enum : int32_t {
+ kIdFieldNumber = 1,
+ kFrameNumberFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.BarrierLayerProto"; }
+
+
+ using FieldMetadata_Id =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ BarrierLayerProto>;
+
+ static constexpr FieldMetadata_Id kId{};
+ void set_id(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Id::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FrameNumber =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ BarrierLayerProto>;
+
+ static constexpr FieldMetadata_FrameNumber kFrameNumber{};
+ void set_frame_number(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FrameNumber::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class ActiveBufferProto_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ActiveBufferProto_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ActiveBufferProto_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ActiveBufferProto_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_width() const { return at<1>().valid(); }
+ uint32_t width() const { return at<1>().as_uint32(); }
+ bool has_height() const { return at<2>().valid(); }
+ uint32_t height() const { return at<2>().as_uint32(); }
+ bool has_stride() const { return at<3>().valid(); }
+ uint32_t stride() const { return at<3>().as_uint32(); }
+ bool has_format() const { return at<4>().valid(); }
+ int32_t format() const { return at<4>().as_int32(); }
+ bool has_usage() const { return at<5>().valid(); }
+ uint64_t usage() const { return at<5>().as_uint64(); }
+};
+
+class ActiveBufferProto : public ::protozero::Message {
+ public:
+ using Decoder = ActiveBufferProto_Decoder;
+ enum : int32_t {
+ kWidthFieldNumber = 1,
+ kHeightFieldNumber = 2,
+ kStrideFieldNumber = 3,
+ kFormatFieldNumber = 4,
+ kUsageFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ActiveBufferProto"; }
+
+
+ using FieldMetadata_Width =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ ActiveBufferProto>;
+
+ static constexpr FieldMetadata_Width kWidth{};
+ void set_width(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Width::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Height =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ ActiveBufferProto>;
+
+ static constexpr FieldMetadata_Height kHeight{};
+ void set_height(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Height::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Stride =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ ActiveBufferProto>;
+
+ static constexpr FieldMetadata_Stride kStride{};
+ void set_stride(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Stride::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Format =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ ActiveBufferProto>;
+
+ static constexpr FieldMetadata_Format kFormat{};
+ void set_format(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Format::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Usage =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ActiveBufferProto>;
+
+ static constexpr FieldMetadata_Usage kUsage{};
+ void set_usage(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Usage::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class FloatRectProto_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ FloatRectProto_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit FloatRectProto_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit FloatRectProto_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_left() const { return at<1>().valid(); }
+ float left() const { return at<1>().as_float(); }
+ bool has_top() const { return at<2>().valid(); }
+ float top() const { return at<2>().as_float(); }
+ bool has_right() const { return at<3>().valid(); }
+ float right() const { return at<3>().as_float(); }
+ bool has_bottom() const { return at<4>().valid(); }
+ float bottom() const { return at<4>().as_float(); }
+};
+
+class FloatRectProto : public ::protozero::Message {
+ public:
+ using Decoder = FloatRectProto_Decoder;
+ enum : int32_t {
+ kLeftFieldNumber = 1,
+ kTopFieldNumber = 2,
+ kRightFieldNumber = 3,
+ kBottomFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.FloatRectProto"; }
+
+
+ using FieldMetadata_Left =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFloat,
+ float,
+ FloatRectProto>;
+
+ static constexpr FieldMetadata_Left kLeft{};
+ void set_left(float value) {
+ static constexpr uint32_t field_id = FieldMetadata_Left::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFloat>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Top =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFloat,
+ float,
+ FloatRectProto>;
+
+ static constexpr FieldMetadata_Top kTop{};
+ void set_top(float value) {
+ static constexpr uint32_t field_id = FieldMetadata_Top::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFloat>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Right =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFloat,
+ float,
+ FloatRectProto>;
+
+ static constexpr FieldMetadata_Right kRight{};
+ void set_right(float value) {
+ static constexpr uint32_t field_id = FieldMetadata_Right::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFloat>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Bottom =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFloat,
+ float,
+ FloatRectProto>;
+
+ static constexpr FieldMetadata_Bottom kBottom{};
+ void set_bottom(float value) {
+ static constexpr uint32_t field_id = FieldMetadata_Bottom::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFloat>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class PositionProto_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ PositionProto_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit PositionProto_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit PositionProto_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_x() const { return at<1>().valid(); }
+ float x() const { return at<1>().as_float(); }
+ bool has_y() const { return at<2>().valid(); }
+ float y() const { return at<2>().as_float(); }
+};
+
+class PositionProto : public ::protozero::Message {
+ public:
+ using Decoder = PositionProto_Decoder;
+ enum : int32_t {
+ kXFieldNumber = 1,
+ kYFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.PositionProto"; }
+
+
+ using FieldMetadata_X =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFloat,
+ float,
+ PositionProto>;
+
+ static constexpr FieldMetadata_X kX{};
+ void set_x(float value) {
+ static constexpr uint32_t field_id = FieldMetadata_X::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFloat>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Y =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFloat,
+ float,
+ PositionProto>;
+
+ static constexpr FieldMetadata_Y kY{};
+ void set_y(float value) {
+ static constexpr uint32_t field_id = FieldMetadata_Y::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFloat>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class LayerProto_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/58, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ LayerProto_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit LayerProto_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit LayerProto_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_id() const { return at<1>().valid(); }
+ int32_t id() const { return at<1>().as_int32(); }
+ bool has_name() const { return at<2>().valid(); }
+ ::protozero::ConstChars name() const { return at<2>().as_string(); }
+ bool has_children() const { return at<3>().valid(); }
+ ::protozero::PackedRepeatedFieldIterator<::protozero::proto_utils::ProtoWireType::kVarInt, int32_t> children(bool* parse_error_ptr) const { return GetPackedRepeated<::protozero::proto_utils::ProtoWireType::kVarInt, int32_t>(3, parse_error_ptr); }
+ bool has_relatives() const { return at<4>().valid(); }
+ ::protozero::PackedRepeatedFieldIterator<::protozero::proto_utils::ProtoWireType::kVarInt, int32_t> relatives(bool* parse_error_ptr) const { return GetPackedRepeated<::protozero::proto_utils::ProtoWireType::kVarInt, int32_t>(4, parse_error_ptr); }
+ bool has_type() const { return at<5>().valid(); }
+ ::protozero::ConstChars type() const { return at<5>().as_string(); }
+ bool has_transparent_region() const { return at<6>().valid(); }
+ ::protozero::ConstBytes transparent_region() const { return at<6>().as_bytes(); }
+ bool has_visible_region() const { return at<7>().valid(); }
+ ::protozero::ConstBytes visible_region() const { return at<7>().as_bytes(); }
+ bool has_damage_region() const { return at<8>().valid(); }
+ ::protozero::ConstBytes damage_region() const { return at<8>().as_bytes(); }
+ bool has_layer_stack() const { return at<9>().valid(); }
+ uint32_t layer_stack() const { return at<9>().as_uint32(); }
+ bool has_z() const { return at<10>().valid(); }
+ int32_t z() const { return at<10>().as_int32(); }
+ bool has_position() const { return at<11>().valid(); }
+ ::protozero::ConstBytes position() const { return at<11>().as_bytes(); }
+ bool has_requested_position() const { return at<12>().valid(); }
+ ::protozero::ConstBytes requested_position() const { return at<12>().as_bytes(); }
+ bool has_size() const { return at<13>().valid(); }
+ ::protozero::ConstBytes size() const { return at<13>().as_bytes(); }
+ bool has_crop() const { return at<14>().valid(); }
+ ::protozero::ConstBytes crop() const { return at<14>().as_bytes(); }
+ bool has_final_crop() const { return at<15>().valid(); }
+ ::protozero::ConstBytes final_crop() const { return at<15>().as_bytes(); }
+ bool has_is_opaque() const { return at<16>().valid(); }
+ bool is_opaque() const { return at<16>().as_bool(); }
+ bool has_invalidate() const { return at<17>().valid(); }
+ bool invalidate() const { return at<17>().as_bool(); }
+ bool has_dataspace() const { return at<18>().valid(); }
+ ::protozero::ConstChars dataspace() const { return at<18>().as_string(); }
+ bool has_pixel_format() const { return at<19>().valid(); }
+ ::protozero::ConstChars pixel_format() const { return at<19>().as_string(); }
+ bool has_color() const { return at<20>().valid(); }
+ ::protozero::ConstBytes color() const { return at<20>().as_bytes(); }
+ bool has_requested_color() const { return at<21>().valid(); }
+ ::protozero::ConstBytes requested_color() const { return at<21>().as_bytes(); }
+ bool has_flags() const { return at<22>().valid(); }
+ uint32_t flags() const { return at<22>().as_uint32(); }
+ bool has_transform() const { return at<23>().valid(); }
+ ::protozero::ConstBytes transform() const { return at<23>().as_bytes(); }
+ bool has_requested_transform() const { return at<24>().valid(); }
+ ::protozero::ConstBytes requested_transform() const { return at<24>().as_bytes(); }
+ bool has_parent() const { return at<25>().valid(); }
+ int32_t parent() const { return at<25>().as_int32(); }
+ bool has_z_order_relative_of() const { return at<26>().valid(); }
+ int32_t z_order_relative_of() const { return at<26>().as_int32(); }
+ bool has_active_buffer() const { return at<27>().valid(); }
+ ::protozero::ConstBytes active_buffer() const { return at<27>().as_bytes(); }
+ bool has_queued_frames() const { return at<28>().valid(); }
+ int32_t queued_frames() const { return at<28>().as_int32(); }
+ bool has_refresh_pending() const { return at<29>().valid(); }
+ bool refresh_pending() const { return at<29>().as_bool(); }
+ bool has_hwc_frame() const { return at<30>().valid(); }
+ ::protozero::ConstBytes hwc_frame() const { return at<30>().as_bytes(); }
+ bool has_hwc_crop() const { return at<31>().valid(); }
+ ::protozero::ConstBytes hwc_crop() const { return at<31>().as_bytes(); }
+ bool has_hwc_transform() const { return at<32>().valid(); }
+ int32_t hwc_transform() const { return at<32>().as_int32(); }
+ bool has_window_type() const { return at<33>().valid(); }
+ int32_t window_type() const { return at<33>().as_int32(); }
+ bool has_app_id() const { return at<34>().valid(); }
+ int32_t app_id() const { return at<34>().as_int32(); }
+ bool has_hwc_composition_type() const { return at<35>().valid(); }
+ int32_t hwc_composition_type() const { return at<35>().as_int32(); }
+ bool has_is_protected() const { return at<36>().valid(); }
+ bool is_protected() const { return at<36>().as_bool(); }
+ bool has_curr_frame() const { return at<37>().valid(); }
+ uint64_t curr_frame() const { return at<37>().as_uint64(); }
+ bool has_barrier_layer() const { return at<38>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> barrier_layer() const { return GetRepeated<::protozero::ConstBytes>(38); }
+ bool has_buffer_transform() const { return at<39>().valid(); }
+ ::protozero::ConstBytes buffer_transform() const { return at<39>().as_bytes(); }
+ bool has_effective_scaling_mode() const { return at<40>().valid(); }
+ int32_t effective_scaling_mode() const { return at<40>().as_int32(); }
+ bool has_corner_radius() const { return at<41>().valid(); }
+ float corner_radius() const { return at<41>().as_float(); }
+ bool has_metadata() const { return at<42>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> metadata() const { return GetRepeated<::protozero::ConstBytes>(42); }
+ bool has_effective_transform() const { return at<43>().valid(); }
+ ::protozero::ConstBytes effective_transform() const { return at<43>().as_bytes(); }
+ bool has_source_bounds() const { return at<44>().valid(); }
+ ::protozero::ConstBytes source_bounds() const { return at<44>().as_bytes(); }
+ bool has_bounds() const { return at<45>().valid(); }
+ ::protozero::ConstBytes bounds() const { return at<45>().as_bytes(); }
+ bool has_screen_bounds() const { return at<46>().valid(); }
+ ::protozero::ConstBytes screen_bounds() const { return at<46>().as_bytes(); }
+ bool has_input_window_info() const { return at<47>().valid(); }
+ ::protozero::ConstBytes input_window_info() const { return at<47>().as_bytes(); }
+ bool has_corner_radius_crop() const { return at<48>().valid(); }
+ ::protozero::ConstBytes corner_radius_crop() const { return at<48>().as_bytes(); }
+ bool has_shadow_radius() const { return at<49>().valid(); }
+ float shadow_radius() const { return at<49>().as_float(); }
+ bool has_color_transform() const { return at<50>().valid(); }
+ ::protozero::ConstBytes color_transform() const { return at<50>().as_bytes(); }
+ bool has_is_relative_of() const { return at<51>().valid(); }
+ bool is_relative_of() const { return at<51>().as_bool(); }
+ bool has_background_blur_radius() const { return at<52>().valid(); }
+ int32_t background_blur_radius() const { return at<52>().as_int32(); }
+ bool has_owner_uid() const { return at<53>().valid(); }
+ uint32_t owner_uid() const { return at<53>().as_uint32(); }
+ bool has_blur_regions() const { return at<54>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> blur_regions() const { return GetRepeated<::protozero::ConstBytes>(54); }
+ bool has_is_trusted_overlay() const { return at<55>().valid(); }
+ bool is_trusted_overlay() const { return at<55>().as_bool(); }
+ bool has_requested_corner_radius() const { return at<56>().valid(); }
+ float requested_corner_radius() const { return at<56>().as_float(); }
+ bool has_destination_frame() const { return at<57>().valid(); }
+ ::protozero::ConstBytes destination_frame() const { return at<57>().as_bytes(); }
+ bool has_original_id() const { return at<58>().valid(); }
+ uint32_t original_id() const { return at<58>().as_uint32(); }
+};
+
+class LayerProto : public ::protozero::Message {
+ public:
+ using Decoder = LayerProto_Decoder;
+ enum : int32_t {
+ kIdFieldNumber = 1,
+ kNameFieldNumber = 2,
+ kChildrenFieldNumber = 3,
+ kRelativesFieldNumber = 4,
+ kTypeFieldNumber = 5,
+ kTransparentRegionFieldNumber = 6,
+ kVisibleRegionFieldNumber = 7,
+ kDamageRegionFieldNumber = 8,
+ kLayerStackFieldNumber = 9,
+ kZFieldNumber = 10,
+ kPositionFieldNumber = 11,
+ kRequestedPositionFieldNumber = 12,
+ kSizeFieldNumber = 13,
+ kCropFieldNumber = 14,
+ kFinalCropFieldNumber = 15,
+ kIsOpaqueFieldNumber = 16,
+ kInvalidateFieldNumber = 17,
+ kDataspaceFieldNumber = 18,
+ kPixelFormatFieldNumber = 19,
+ kColorFieldNumber = 20,
+ kRequestedColorFieldNumber = 21,
+ kFlagsFieldNumber = 22,
+ kTransformFieldNumber = 23,
+ kRequestedTransformFieldNumber = 24,
+ kParentFieldNumber = 25,
+ kZOrderRelativeOfFieldNumber = 26,
+ kActiveBufferFieldNumber = 27,
+ kQueuedFramesFieldNumber = 28,
+ kRefreshPendingFieldNumber = 29,
+ kHwcFrameFieldNumber = 30,
+ kHwcCropFieldNumber = 31,
+ kHwcTransformFieldNumber = 32,
+ kWindowTypeFieldNumber = 33,
+ kAppIdFieldNumber = 34,
+ kHwcCompositionTypeFieldNumber = 35,
+ kIsProtectedFieldNumber = 36,
+ kCurrFrameFieldNumber = 37,
+ kBarrierLayerFieldNumber = 38,
+ kBufferTransformFieldNumber = 39,
+ kEffectiveScalingModeFieldNumber = 40,
+ kCornerRadiusFieldNumber = 41,
+ kMetadataFieldNumber = 42,
+ kEffectiveTransformFieldNumber = 43,
+ kSourceBoundsFieldNumber = 44,
+ kBoundsFieldNumber = 45,
+ kScreenBoundsFieldNumber = 46,
+ kInputWindowInfoFieldNumber = 47,
+ kCornerRadiusCropFieldNumber = 48,
+ kShadowRadiusFieldNumber = 49,
+ kColorTransformFieldNumber = 50,
+ kIsRelativeOfFieldNumber = 51,
+ kBackgroundBlurRadiusFieldNumber = 52,
+ kOwnerUidFieldNumber = 53,
+ kBlurRegionsFieldNumber = 54,
+ kIsTrustedOverlayFieldNumber = 55,
+ kRequestedCornerRadiusFieldNumber = 56,
+ kDestinationFrameFieldNumber = 57,
+ kOriginalIdFieldNumber = 58,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.LayerProto"; }
+
+ using MetadataEntry = ::perfetto::protos::pbzero::LayerProto_MetadataEntry;
+
+ using FieldMetadata_Id =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ LayerProto>;
+
+ static constexpr FieldMetadata_Id kId{};
+ void set_id(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Id::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ LayerProto>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Children =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kRepeatedPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ LayerProto>;
+
+ static constexpr FieldMetadata_Children kChildren{};
+ void set_children(const ::protozero::PackedVarInt& packed_buffer) {
+ AppendBytes(FieldMetadata_Children::kFieldId, packed_buffer.data(),
+ packed_buffer.size());
+ }
+
+ using FieldMetadata_Relatives =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kRepeatedPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ LayerProto>;
+
+ static constexpr FieldMetadata_Relatives kRelatives{};
+ void set_relatives(const ::protozero::PackedVarInt& packed_buffer) {
+ AppendBytes(FieldMetadata_Relatives::kFieldId, packed_buffer.data(),
+ packed_buffer.size());
+ }
+
+ using FieldMetadata_Type =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ LayerProto>;
+
+ static constexpr FieldMetadata_Type kType{};
+ void set_type(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Type::kFieldId, data, size);
+ }
+ void set_type(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Type::kFieldId, chars.data, chars.size);
+ }
+ void set_type(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Type::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TransparentRegion =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ RegionProto,
+ LayerProto>;
+
+ static constexpr FieldMetadata_TransparentRegion kTransparentRegion{};
+ template <typename T = RegionProto> T* set_transparent_region() {
+ return BeginNestedMessage<T>(6);
+ }
+
+
+ using FieldMetadata_VisibleRegion =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ RegionProto,
+ LayerProto>;
+
+ static constexpr FieldMetadata_VisibleRegion kVisibleRegion{};
+ template <typename T = RegionProto> T* set_visible_region() {
+ return BeginNestedMessage<T>(7);
+ }
+
+
+ using FieldMetadata_DamageRegion =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ RegionProto,
+ LayerProto>;
+
+ static constexpr FieldMetadata_DamageRegion kDamageRegion{};
+ template <typename T = RegionProto> T* set_damage_region() {
+ return BeginNestedMessage<T>(8);
+ }
+
+
+ using FieldMetadata_LayerStack =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ LayerProto>;
+
+ static constexpr FieldMetadata_LayerStack kLayerStack{};
+ void set_layer_stack(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_LayerStack::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Z =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ LayerProto>;
+
+ static constexpr FieldMetadata_Z kZ{};
+ void set_z(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Z::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Position =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ PositionProto,
+ LayerProto>;
+
+ static constexpr FieldMetadata_Position kPosition{};
+ template <typename T = PositionProto> T* set_position() {
+ return BeginNestedMessage<T>(11);
+ }
+
+
+ using FieldMetadata_RequestedPosition =
+ ::protozero::proto_utils::FieldMetadata<
+ 12,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ PositionProto,
+ LayerProto>;
+
+ static constexpr FieldMetadata_RequestedPosition kRequestedPosition{};
+ template <typename T = PositionProto> T* set_requested_position() {
+ return BeginNestedMessage<T>(12);
+ }
+
+
+ using FieldMetadata_Size =
+ ::protozero::proto_utils::FieldMetadata<
+ 13,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SizeProto,
+ LayerProto>;
+
+ static constexpr FieldMetadata_Size kSize{};
+ template <typename T = SizeProto> T* set_size() {
+ return BeginNestedMessage<T>(13);
+ }
+
+
+ using FieldMetadata_Crop =
+ ::protozero::proto_utils::FieldMetadata<
+ 14,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ RectProto,
+ LayerProto>;
+
+ static constexpr FieldMetadata_Crop kCrop{};
+ template <typename T = RectProto> T* set_crop() {
+ return BeginNestedMessage<T>(14);
+ }
+
+
+ using FieldMetadata_FinalCrop =
+ ::protozero::proto_utils::FieldMetadata<
+ 15,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ RectProto,
+ LayerProto>;
+
+ static constexpr FieldMetadata_FinalCrop kFinalCrop{};
+ template <typename T = RectProto> T* set_final_crop() {
+ return BeginNestedMessage<T>(15);
+ }
+
+
+ using FieldMetadata_IsOpaque =
+ ::protozero::proto_utils::FieldMetadata<
+ 16,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ LayerProto>;
+
+ static constexpr FieldMetadata_IsOpaque kIsOpaque{};
+ void set_is_opaque(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_IsOpaque::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Invalidate =
+ ::protozero::proto_utils::FieldMetadata<
+ 17,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ LayerProto>;
+
+ static constexpr FieldMetadata_Invalidate kInvalidate{};
+ void set_invalidate(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_Invalidate::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Dataspace =
+ ::protozero::proto_utils::FieldMetadata<
+ 18,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ LayerProto>;
+
+ static constexpr FieldMetadata_Dataspace kDataspace{};
+ void set_dataspace(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Dataspace::kFieldId, data, size);
+ }
+ void set_dataspace(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Dataspace::kFieldId, chars.data, chars.size);
+ }
+ void set_dataspace(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dataspace::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PixelFormat =
+ ::protozero::proto_utils::FieldMetadata<
+ 19,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ LayerProto>;
+
+ static constexpr FieldMetadata_PixelFormat kPixelFormat{};
+ void set_pixel_format(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_PixelFormat::kFieldId, data, size);
+ }
+ void set_pixel_format(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_PixelFormat::kFieldId, chars.data, chars.size);
+ }
+ void set_pixel_format(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_PixelFormat::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Color =
+ ::protozero::proto_utils::FieldMetadata<
+ 20,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ColorProto,
+ LayerProto>;
+
+ static constexpr FieldMetadata_Color kColor{};
+ template <typename T = ColorProto> T* set_color() {
+ return BeginNestedMessage<T>(20);
+ }
+
+
+ using FieldMetadata_RequestedColor =
+ ::protozero::proto_utils::FieldMetadata<
+ 21,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ColorProto,
+ LayerProto>;
+
+ static constexpr FieldMetadata_RequestedColor kRequestedColor{};
+ template <typename T = ColorProto> T* set_requested_color() {
+ return BeginNestedMessage<T>(21);
+ }
+
+
+ using FieldMetadata_Flags =
+ ::protozero::proto_utils::FieldMetadata<
+ 22,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ LayerProto>;
+
+ static constexpr FieldMetadata_Flags kFlags{};
+ void set_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Flags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Transform =
+ ::protozero::proto_utils::FieldMetadata<
+ 23,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TransformProto,
+ LayerProto>;
+
+ static constexpr FieldMetadata_Transform kTransform{};
+ template <typename T = TransformProto> T* set_transform() {
+ return BeginNestedMessage<T>(23);
+ }
+
+
+ using FieldMetadata_RequestedTransform =
+ ::protozero::proto_utils::FieldMetadata<
+ 24,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TransformProto,
+ LayerProto>;
+
+ static constexpr FieldMetadata_RequestedTransform kRequestedTransform{};
+ template <typename T = TransformProto> T* set_requested_transform() {
+ return BeginNestedMessage<T>(24);
+ }
+
+
+ using FieldMetadata_Parent =
+ ::protozero::proto_utils::FieldMetadata<
+ 25,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ LayerProto>;
+
+ static constexpr FieldMetadata_Parent kParent{};
+ void set_parent(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Parent::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ZOrderRelativeOf =
+ ::protozero::proto_utils::FieldMetadata<
+ 26,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ LayerProto>;
+
+ static constexpr FieldMetadata_ZOrderRelativeOf kZOrderRelativeOf{};
+ void set_z_order_relative_of(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ZOrderRelativeOf::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ActiveBuffer =
+ ::protozero::proto_utils::FieldMetadata<
+ 27,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ActiveBufferProto,
+ LayerProto>;
+
+ static constexpr FieldMetadata_ActiveBuffer kActiveBuffer{};
+ template <typename T = ActiveBufferProto> T* set_active_buffer() {
+ return BeginNestedMessage<T>(27);
+ }
+
+
+ using FieldMetadata_QueuedFrames =
+ ::protozero::proto_utils::FieldMetadata<
+ 28,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ LayerProto>;
+
+ static constexpr FieldMetadata_QueuedFrames kQueuedFrames{};
+ void set_queued_frames(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_QueuedFrames::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_RefreshPending =
+ ::protozero::proto_utils::FieldMetadata<
+ 29,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ LayerProto>;
+
+ static constexpr FieldMetadata_RefreshPending kRefreshPending{};
+ void set_refresh_pending(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_RefreshPending::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_HwcFrame =
+ ::protozero::proto_utils::FieldMetadata<
+ 30,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ RectProto,
+ LayerProto>;
+
+ static constexpr FieldMetadata_HwcFrame kHwcFrame{};
+ template <typename T = RectProto> T* set_hwc_frame() {
+ return BeginNestedMessage<T>(30);
+ }
+
+
+ using FieldMetadata_HwcCrop =
+ ::protozero::proto_utils::FieldMetadata<
+ 31,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ FloatRectProto,
+ LayerProto>;
+
+ static constexpr FieldMetadata_HwcCrop kHwcCrop{};
+ template <typename T = FloatRectProto> T* set_hwc_crop() {
+ return BeginNestedMessage<T>(31);
+ }
+
+
+ using FieldMetadata_HwcTransform =
+ ::protozero::proto_utils::FieldMetadata<
+ 32,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ LayerProto>;
+
+ static constexpr FieldMetadata_HwcTransform kHwcTransform{};
+ void set_hwc_transform(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_HwcTransform::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_WindowType =
+ ::protozero::proto_utils::FieldMetadata<
+ 33,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ LayerProto>;
+
+ static constexpr FieldMetadata_WindowType kWindowType{};
+ void set_window_type(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_WindowType::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_AppId =
+ ::protozero::proto_utils::FieldMetadata<
+ 34,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ LayerProto>;
+
+ static constexpr FieldMetadata_AppId kAppId{};
+ void set_app_id(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_AppId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_HwcCompositionType =
+ ::protozero::proto_utils::FieldMetadata<
+ 35,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ HwcCompositionType,
+ LayerProto>;
+
+ static constexpr FieldMetadata_HwcCompositionType kHwcCompositionType{};
+ void set_hwc_composition_type(HwcCompositionType value) {
+ static constexpr uint32_t field_id = FieldMetadata_HwcCompositionType::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IsProtected =
+ ::protozero::proto_utils::FieldMetadata<
+ 36,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ LayerProto>;
+
+ static constexpr FieldMetadata_IsProtected kIsProtected{};
+ void set_is_protected(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_IsProtected::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CurrFrame =
+ ::protozero::proto_utils::FieldMetadata<
+ 37,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ LayerProto>;
+
+ static constexpr FieldMetadata_CurrFrame kCurrFrame{};
+ void set_curr_frame(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CurrFrame::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BarrierLayer =
+ ::protozero::proto_utils::FieldMetadata<
+ 38,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ BarrierLayerProto,
+ LayerProto>;
+
+ static constexpr FieldMetadata_BarrierLayer kBarrierLayer{};
+ template <typename T = BarrierLayerProto> T* add_barrier_layer() {
+ return BeginNestedMessage<T>(38);
+ }
+
+
+ using FieldMetadata_BufferTransform =
+ ::protozero::proto_utils::FieldMetadata<
+ 39,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TransformProto,
+ LayerProto>;
+
+ static constexpr FieldMetadata_BufferTransform kBufferTransform{};
+ template <typename T = TransformProto> T* set_buffer_transform() {
+ return BeginNestedMessage<T>(39);
+ }
+
+
+ using FieldMetadata_EffectiveScalingMode =
+ ::protozero::proto_utils::FieldMetadata<
+ 40,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ LayerProto>;
+
+ static constexpr FieldMetadata_EffectiveScalingMode kEffectiveScalingMode{};
+ void set_effective_scaling_mode(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_EffectiveScalingMode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CornerRadius =
+ ::protozero::proto_utils::FieldMetadata<
+ 41,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFloat,
+ float,
+ LayerProto>;
+
+ static constexpr FieldMetadata_CornerRadius kCornerRadius{};
+ void set_corner_radius(float value) {
+ static constexpr uint32_t field_id = FieldMetadata_CornerRadius::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFloat>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Metadata =
+ ::protozero::proto_utils::FieldMetadata<
+ 42,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ LayerProto_MetadataEntry,
+ LayerProto>;
+
+ static constexpr FieldMetadata_Metadata kMetadata{};
+ template <typename T = LayerProto_MetadataEntry> T* add_metadata() {
+ return BeginNestedMessage<T>(42);
+ }
+
+
+ using FieldMetadata_EffectiveTransform =
+ ::protozero::proto_utils::FieldMetadata<
+ 43,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TransformProto,
+ LayerProto>;
+
+ static constexpr FieldMetadata_EffectiveTransform kEffectiveTransform{};
+ template <typename T = TransformProto> T* set_effective_transform() {
+ return BeginNestedMessage<T>(43);
+ }
+
+
+ using FieldMetadata_SourceBounds =
+ ::protozero::proto_utils::FieldMetadata<
+ 44,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ FloatRectProto,
+ LayerProto>;
+
+ static constexpr FieldMetadata_SourceBounds kSourceBounds{};
+ template <typename T = FloatRectProto> T* set_source_bounds() {
+ return BeginNestedMessage<T>(44);
+ }
+
+
+ using FieldMetadata_Bounds =
+ ::protozero::proto_utils::FieldMetadata<
+ 45,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ FloatRectProto,
+ LayerProto>;
+
+ static constexpr FieldMetadata_Bounds kBounds{};
+ template <typename T = FloatRectProto> T* set_bounds() {
+ return BeginNestedMessage<T>(45);
+ }
+
+
+ using FieldMetadata_ScreenBounds =
+ ::protozero::proto_utils::FieldMetadata<
+ 46,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ FloatRectProto,
+ LayerProto>;
+
+ static constexpr FieldMetadata_ScreenBounds kScreenBounds{};
+ template <typename T = FloatRectProto> T* set_screen_bounds() {
+ return BeginNestedMessage<T>(46);
+ }
+
+
+ using FieldMetadata_InputWindowInfo =
+ ::protozero::proto_utils::FieldMetadata<
+ 47,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ InputWindowInfoProto,
+ LayerProto>;
+
+ static constexpr FieldMetadata_InputWindowInfo kInputWindowInfo{};
+ template <typename T = InputWindowInfoProto> T* set_input_window_info() {
+ return BeginNestedMessage<T>(47);
+ }
+
+
+ using FieldMetadata_CornerRadiusCrop =
+ ::protozero::proto_utils::FieldMetadata<
+ 48,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ FloatRectProto,
+ LayerProto>;
+
+ static constexpr FieldMetadata_CornerRadiusCrop kCornerRadiusCrop{};
+ template <typename T = FloatRectProto> T* set_corner_radius_crop() {
+ return BeginNestedMessage<T>(48);
+ }
+
+
+ using FieldMetadata_ShadowRadius =
+ ::protozero::proto_utils::FieldMetadata<
+ 49,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFloat,
+ float,
+ LayerProto>;
+
+ static constexpr FieldMetadata_ShadowRadius kShadowRadius{};
+ void set_shadow_radius(float value) {
+ static constexpr uint32_t field_id = FieldMetadata_ShadowRadius::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFloat>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ColorTransform =
+ ::protozero::proto_utils::FieldMetadata<
+ 50,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ColorTransformProto,
+ LayerProto>;
+
+ static constexpr FieldMetadata_ColorTransform kColorTransform{};
+ template <typename T = ColorTransformProto> T* set_color_transform() {
+ return BeginNestedMessage<T>(50);
+ }
+
+
+ using FieldMetadata_IsRelativeOf =
+ ::protozero::proto_utils::FieldMetadata<
+ 51,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ LayerProto>;
+
+ static constexpr FieldMetadata_IsRelativeOf kIsRelativeOf{};
+ void set_is_relative_of(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_IsRelativeOf::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BackgroundBlurRadius =
+ ::protozero::proto_utils::FieldMetadata<
+ 52,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ LayerProto>;
+
+ static constexpr FieldMetadata_BackgroundBlurRadius kBackgroundBlurRadius{};
+ void set_background_blur_radius(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BackgroundBlurRadius::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_OwnerUid =
+ ::protozero::proto_utils::FieldMetadata<
+ 53,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ LayerProto>;
+
+ static constexpr FieldMetadata_OwnerUid kOwnerUid{};
+ void set_owner_uid(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_OwnerUid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BlurRegions =
+ ::protozero::proto_utils::FieldMetadata<
+ 54,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ BlurRegion,
+ LayerProto>;
+
+ static constexpr FieldMetadata_BlurRegions kBlurRegions{};
+ template <typename T = BlurRegion> T* add_blur_regions() {
+ return BeginNestedMessage<T>(54);
+ }
+
+
+ using FieldMetadata_IsTrustedOverlay =
+ ::protozero::proto_utils::FieldMetadata<
+ 55,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ LayerProto>;
+
+ static constexpr FieldMetadata_IsTrustedOverlay kIsTrustedOverlay{};
+ void set_is_trusted_overlay(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_IsTrustedOverlay::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_RequestedCornerRadius =
+ ::protozero::proto_utils::FieldMetadata<
+ 56,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFloat,
+ float,
+ LayerProto>;
+
+ static constexpr FieldMetadata_RequestedCornerRadius kRequestedCornerRadius{};
+ void set_requested_corner_radius(float value) {
+ static constexpr uint32_t field_id = FieldMetadata_RequestedCornerRadius::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFloat>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DestinationFrame =
+ ::protozero::proto_utils::FieldMetadata<
+ 57,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ RectProto,
+ LayerProto>;
+
+ static constexpr FieldMetadata_DestinationFrame kDestinationFrame{};
+ template <typename T = RectProto> T* set_destination_frame() {
+ return BeginNestedMessage<T>(57);
+ }
+
+
+ using FieldMetadata_OriginalId =
+ ::protozero::proto_utils::FieldMetadata<
+ 58,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ LayerProto>;
+
+ static constexpr FieldMetadata_OriginalId kOriginalId{};
+ void set_original_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_OriginalId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class LayerProto_MetadataEntry_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ LayerProto_MetadataEntry_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit LayerProto_MetadataEntry_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit LayerProto_MetadataEntry_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_key() const { return at<1>().valid(); }
+ int32_t key() const { return at<1>().as_int32(); }
+ bool has_value() const { return at<2>().valid(); }
+ ::protozero::ConstChars value() const { return at<2>().as_string(); }
+};
+
+class LayerProto_MetadataEntry : public ::protozero::Message {
+ public:
+ using Decoder = LayerProto_MetadataEntry_Decoder;
+ enum : int32_t {
+ kKeyFieldNumber = 1,
+ kValueFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.LayerProto.MetadataEntry"; }
+
+
+ using FieldMetadata_Key =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ LayerProto_MetadataEntry>;
+
+ static constexpr FieldMetadata_Key kKey{};
+ void set_key(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Key::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Value =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ LayerProto_MetadataEntry>;
+
+ static constexpr FieldMetadata_Value kValue{};
+ void set_value(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Value::kFieldId, data, size);
+ }
+ void set_value(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Value::kFieldId, chars.data, chars.size);
+ }
+ void set_value(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Value::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class DisplayProto_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/9, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ DisplayProto_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit DisplayProto_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit DisplayProto_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_id() const { return at<1>().valid(); }
+ uint64_t id() const { return at<1>().as_uint64(); }
+ bool has_name() const { return at<2>().valid(); }
+ ::protozero::ConstChars name() const { return at<2>().as_string(); }
+ bool has_layer_stack() const { return at<3>().valid(); }
+ uint32_t layer_stack() const { return at<3>().as_uint32(); }
+ bool has_size() const { return at<4>().valid(); }
+ ::protozero::ConstBytes size() const { return at<4>().as_bytes(); }
+ bool has_layer_stack_space_rect() const { return at<5>().valid(); }
+ ::protozero::ConstBytes layer_stack_space_rect() const { return at<5>().as_bytes(); }
+ bool has_transform() const { return at<6>().valid(); }
+ ::protozero::ConstBytes transform() const { return at<6>().as_bytes(); }
+ bool has_is_virtual() const { return at<7>().valid(); }
+ bool is_virtual() const { return at<7>().as_bool(); }
+ bool has_dpi_x() const { return at<8>().valid(); }
+ double dpi_x() const { return at<8>().as_double(); }
+ bool has_dpi_y() const { return at<9>().valid(); }
+ double dpi_y() const { return at<9>().as_double(); }
+};
+
+class DisplayProto : public ::protozero::Message {
+ public:
+ using Decoder = DisplayProto_Decoder;
+ enum : int32_t {
+ kIdFieldNumber = 1,
+ kNameFieldNumber = 2,
+ kLayerStackFieldNumber = 3,
+ kSizeFieldNumber = 4,
+ kLayerStackSpaceRectFieldNumber = 5,
+ kTransformFieldNumber = 6,
+ kIsVirtualFieldNumber = 7,
+ kDpiXFieldNumber = 8,
+ kDpiYFieldNumber = 9,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.DisplayProto"; }
+
+
+ using FieldMetadata_Id =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ DisplayProto>;
+
+ static constexpr FieldMetadata_Id kId{};
+ void set_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Id::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ DisplayProto>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_LayerStack =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ DisplayProto>;
+
+ static constexpr FieldMetadata_LayerStack kLayerStack{};
+ void set_layer_stack(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_LayerStack::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Size =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SizeProto,
+ DisplayProto>;
+
+ static constexpr FieldMetadata_Size kSize{};
+ template <typename T = SizeProto> T* set_size() {
+ return BeginNestedMessage<T>(4);
+ }
+
+
+ using FieldMetadata_LayerStackSpaceRect =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ RectProto,
+ DisplayProto>;
+
+ static constexpr FieldMetadata_LayerStackSpaceRect kLayerStackSpaceRect{};
+ template <typename T = RectProto> T* set_layer_stack_space_rect() {
+ return BeginNestedMessage<T>(5);
+ }
+
+
+ using FieldMetadata_Transform =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TransformProto,
+ DisplayProto>;
+
+ static constexpr FieldMetadata_Transform kTransform{};
+ template <typename T = TransformProto> T* set_transform() {
+ return BeginNestedMessage<T>(6);
+ }
+
+
+ using FieldMetadata_IsVirtual =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ DisplayProto>;
+
+ static constexpr FieldMetadata_IsVirtual kIsVirtual{};
+ void set_is_virtual(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_IsVirtual::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DpiX =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kDouble,
+ double,
+ DisplayProto>;
+
+ static constexpr FieldMetadata_DpiX kDpiX{};
+ void set_dpi_x(double value) {
+ static constexpr uint32_t field_id = FieldMetadata_DpiX::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kDouble>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DpiY =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kDouble,
+ double,
+ DisplayProto>;
+
+ static constexpr FieldMetadata_DpiY kDpiY{};
+ void set_dpi_y(double value) {
+ static constexpr uint32_t field_id = FieldMetadata_DpiY::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kDouble>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class LayersProto_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ LayersProto_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit LayersProto_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit LayersProto_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_layers() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> layers() const { return GetRepeated<::protozero::ConstBytes>(1); }
+};
+
+class LayersProto : public ::protozero::Message {
+ public:
+ using Decoder = LayersProto_Decoder;
+ enum : int32_t {
+ kLayersFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.LayersProto"; }
+
+
+ using FieldMetadata_Layers =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ LayerProto,
+ LayersProto>;
+
+ static constexpr FieldMetadata_Layers kLayers{};
+ template <typename T = LayerProto> T* add_layers() {
+ return BeginNestedMessage<T>(1);
+ }
+
+};
+
+class LayersSnapshotProto_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/8, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ LayersSnapshotProto_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit LayersSnapshotProto_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit LayersSnapshotProto_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_elapsed_realtime_nanos() const { return at<1>().valid(); }
+ int64_t elapsed_realtime_nanos() const { return at<1>().as_int64(); }
+ bool has_where() const { return at<2>().valid(); }
+ ::protozero::ConstChars where() const { return at<2>().as_string(); }
+ bool has_layers() const { return at<3>().valid(); }
+ ::protozero::ConstBytes layers() const { return at<3>().as_bytes(); }
+ bool has_hwc_blob() const { return at<4>().valid(); }
+ ::protozero::ConstChars hwc_blob() const { return at<4>().as_string(); }
+ bool has_excludes_composition_state() const { return at<5>().valid(); }
+ bool excludes_composition_state() const { return at<5>().as_bool(); }
+ bool has_missed_entries() const { return at<6>().valid(); }
+ uint32_t missed_entries() const { return at<6>().as_uint32(); }
+ bool has_displays() const { return at<7>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> displays() const { return GetRepeated<::protozero::ConstBytes>(7); }
+ bool has_vsync_id() const { return at<8>().valid(); }
+ int64_t vsync_id() const { return at<8>().as_int64(); }
+};
+
+class LayersSnapshotProto : public ::protozero::Message {
+ public:
+ using Decoder = LayersSnapshotProto_Decoder;
+ enum : int32_t {
+ kElapsedRealtimeNanosFieldNumber = 1,
+ kWhereFieldNumber = 2,
+ kLayersFieldNumber = 3,
+ kHwcBlobFieldNumber = 4,
+ kExcludesCompositionStateFieldNumber = 5,
+ kMissedEntriesFieldNumber = 6,
+ kDisplaysFieldNumber = 7,
+ kVsyncIdFieldNumber = 8,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.LayersSnapshotProto"; }
+
+
+ using FieldMetadata_ElapsedRealtimeNanos =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kSfixed64,
+ int64_t,
+ LayersSnapshotProto>;
+
+ static constexpr FieldMetadata_ElapsedRealtimeNanos kElapsedRealtimeNanos{};
+ void set_elapsed_realtime_nanos(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ElapsedRealtimeNanos::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kSfixed64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Where =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ LayersSnapshotProto>;
+
+ static constexpr FieldMetadata_Where kWhere{};
+ void set_where(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Where::kFieldId, data, size);
+ }
+ void set_where(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Where::kFieldId, chars.data, chars.size);
+ }
+ void set_where(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Where::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Layers =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ LayersProto,
+ LayersSnapshotProto>;
+
+ static constexpr FieldMetadata_Layers kLayers{};
+ template <typename T = LayersProto> T* set_layers() {
+ return BeginNestedMessage<T>(3);
+ }
+
+
+ using FieldMetadata_HwcBlob =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ LayersSnapshotProto>;
+
+ static constexpr FieldMetadata_HwcBlob kHwcBlob{};
+ void set_hwc_blob(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_HwcBlob::kFieldId, data, size);
+ }
+ void set_hwc_blob(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_HwcBlob::kFieldId, chars.data, chars.size);
+ }
+ void set_hwc_blob(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_HwcBlob::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ExcludesCompositionState =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ LayersSnapshotProto>;
+
+ static constexpr FieldMetadata_ExcludesCompositionState kExcludesCompositionState{};
+ void set_excludes_composition_state(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_ExcludesCompositionState::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MissedEntries =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ LayersSnapshotProto>;
+
+ static constexpr FieldMetadata_MissedEntries kMissedEntries{};
+ void set_missed_entries(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MissedEntries::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Displays =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ DisplayProto,
+ LayersSnapshotProto>;
+
+ static constexpr FieldMetadata_Displays kDisplays{};
+ template <typename T = DisplayProto> T* add_displays() {
+ return BeginNestedMessage<T>(7);
+ }
+
+
+ using FieldMetadata_VsyncId =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ LayersSnapshotProto>;
+
+ static constexpr FieldMetadata_VsyncId kVsyncId{};
+ void set_vsync_id(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_VsyncId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class LayersTraceFileProto_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ LayersTraceFileProto_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit LayersTraceFileProto_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit LayersTraceFileProto_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_magic_number() const { return at<1>().valid(); }
+ uint64_t magic_number() const { return at<1>().as_uint64(); }
+ bool has_entry() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> entry() const { return GetRepeated<::protozero::ConstBytes>(2); }
+ bool has_real_to_elapsed_time_offset_nanos() const { return at<3>().valid(); }
+ uint64_t real_to_elapsed_time_offset_nanos() const { return at<3>().as_uint64(); }
+};
+
+class LayersTraceFileProto : public ::protozero::Message {
+ public:
+ using Decoder = LayersTraceFileProto_Decoder;
+ enum : int32_t {
+ kMagicNumberFieldNumber = 1,
+ kEntryFieldNumber = 2,
+ kRealToElapsedTimeOffsetNanosFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.LayersTraceFileProto"; }
+
+
+ using MagicNumber = ::perfetto::protos::pbzero::LayersTraceFileProto_MagicNumber;
+ static inline const char* MagicNumber_Name(MagicNumber value) {
+ return ::perfetto::protos::pbzero::LayersTraceFileProto_MagicNumber_Name(value);
+ }
+ static inline const MagicNumber INVALID = MagicNumber::INVALID;
+ static inline const MagicNumber MAGIC_NUMBER_L = MagicNumber::MAGIC_NUMBER_L;
+ static inline const MagicNumber MAGIC_NUMBER_H = MagicNumber::MAGIC_NUMBER_H;
+
+ using FieldMetadata_MagicNumber =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFixed64,
+ uint64_t,
+ LayersTraceFileProto>;
+
+ static constexpr FieldMetadata_MagicNumber kMagicNumber{};
+ void set_magic_number(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MagicNumber::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFixed64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Entry =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ LayersSnapshotProto,
+ LayersTraceFileProto>;
+
+ static constexpr FieldMetadata_Entry kEntry{};
+ template <typename T = LayersSnapshotProto> T* add_entry() {
+ return BeginNestedMessage<T>(2);
+ }
+
+
+ using FieldMetadata_RealToElapsedTimeOffsetNanos =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFixed64,
+ uint64_t,
+ LayersTraceFileProto>;
+
+ static constexpr FieldMetadata_RealToElapsedTimeOffsetNanos kRealToElapsedTimeOffsetNanos{};
+ void set_real_to_elapsed_time_offset_nanos(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_RealToElapsedTimeOffsetNanos::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFixed64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/android/surfaceflinger_transactions.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_ANDROID_SURFACEFLINGER_TRANSACTIONS_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_ANDROID_SURFACEFLINGER_TRANSACTIONS_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class BlurRegion;
+class ColorTransformProto;
+class DisplayInfo;
+class DisplayState;
+class LayerCreationArgs;
+class LayerState;
+class LayerState_BufferData;
+class LayerState_Color3;
+class LayerState_Matrix22;
+class LayerState_WindowInfo;
+class RectProto;
+class RegionProto;
+class TransactionState;
+class TransactionTraceEntry;
+class Transform;
+namespace perfetto_pbzero_enum_LayerState_BufferData {
+enum PixelFormat : int32_t;
+} // namespace perfetto_pbzero_enum_LayerState_BufferData
+using LayerState_BufferData_PixelFormat = perfetto_pbzero_enum_LayerState_BufferData::PixelFormat;
+namespace perfetto_pbzero_enum_LayerState {
+enum DropInputMode : int32_t;
+} // namespace perfetto_pbzero_enum_LayerState
+using LayerState_DropInputMode = perfetto_pbzero_enum_LayerState::DropInputMode;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+namespace perfetto_pbzero_enum_DisplayState {
+enum Changes : int32_t {
+ eChangesNone = 0,
+ eSurfaceChanged = 1,
+ eLayerStackChanged = 2,
+ eDisplayProjectionChanged = 4,
+ eDisplaySizeChanged = 8,
+ eFlagsChanged = 16,
+};
+} // namespace perfetto_pbzero_enum_DisplayState
+using DisplayState_Changes = perfetto_pbzero_enum_DisplayState::Changes;
+
+
+constexpr DisplayState_Changes DisplayState_Changes_MIN = DisplayState_Changes::eChangesNone;
+constexpr DisplayState_Changes DisplayState_Changes_MAX = DisplayState_Changes::eFlagsChanged;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* DisplayState_Changes_Name(::perfetto::protos::pbzero::DisplayState_Changes value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::DisplayState_Changes::eChangesNone:
+ return "eChangesNone";
+
+ case ::perfetto::protos::pbzero::DisplayState_Changes::eSurfaceChanged:
+ return "eSurfaceChanged";
+
+ case ::perfetto::protos::pbzero::DisplayState_Changes::eLayerStackChanged:
+ return "eLayerStackChanged";
+
+ case ::perfetto::protos::pbzero::DisplayState_Changes::eDisplayProjectionChanged:
+ return "eDisplayProjectionChanged";
+
+ case ::perfetto::protos::pbzero::DisplayState_Changes::eDisplaySizeChanged:
+ return "eDisplaySizeChanged";
+
+ case ::perfetto::protos::pbzero::DisplayState_Changes::eFlagsChanged:
+ return "eFlagsChanged";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_LayerState {
+enum ChangesLsb : int32_t {
+ eChangesLsbNone = 0,
+ ePositionChanged = 1,
+ eLayerChanged = 2,
+ eAlphaChanged = 8,
+ eMatrixChanged = 16,
+ eTransparentRegionChanged = 32,
+ eFlagsChanged = 64,
+ eLayerStackChanged = 128,
+ eReleaseBufferListenerChanged = 1024,
+ eShadowRadiusChanged = 2048,
+ eBufferCropChanged = 8192,
+ eRelativeLayerChanged = 16384,
+ eReparent = 32768,
+ eColorChanged = 65536,
+ eBufferTransformChanged = 262144,
+ eTransformToDisplayInverseChanged = 524288,
+ eCropChanged = 1048576,
+ eBufferChanged = 2097152,
+ eAcquireFenceChanged = 4194304,
+ eDataspaceChanged = 8388608,
+ eHdrMetadataChanged = 16777216,
+ eSurfaceDamageRegionChanged = 33554432,
+ eApiChanged = 67108864,
+ eSidebandStreamChanged = 134217728,
+ eColorTransformChanged = 268435456,
+ eHasListenerCallbacksChanged = 536870912,
+ eInputInfoChanged = 1073741824,
+ eCornerRadiusChanged = -2147483648,
+};
+} // namespace perfetto_pbzero_enum_LayerState
+using LayerState_ChangesLsb = perfetto_pbzero_enum_LayerState::ChangesLsb;
+
+
+constexpr LayerState_ChangesLsb LayerState_ChangesLsb_MIN = LayerState_ChangesLsb::eCornerRadiusChanged;
+constexpr LayerState_ChangesLsb LayerState_ChangesLsb_MAX = LayerState_ChangesLsb::eInputInfoChanged;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* LayerState_ChangesLsb_Name(::perfetto::protos::pbzero::LayerState_ChangesLsb value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::LayerState_ChangesLsb::eChangesLsbNone:
+ return "eChangesLsbNone";
+
+ case ::perfetto::protos::pbzero::LayerState_ChangesLsb::ePositionChanged:
+ return "ePositionChanged";
+
+ case ::perfetto::protos::pbzero::LayerState_ChangesLsb::eLayerChanged:
+ return "eLayerChanged";
+
+ case ::perfetto::protos::pbzero::LayerState_ChangesLsb::eAlphaChanged:
+ return "eAlphaChanged";
+
+ case ::perfetto::protos::pbzero::LayerState_ChangesLsb::eMatrixChanged:
+ return "eMatrixChanged";
+
+ case ::perfetto::protos::pbzero::LayerState_ChangesLsb::eTransparentRegionChanged:
+ return "eTransparentRegionChanged";
+
+ case ::perfetto::protos::pbzero::LayerState_ChangesLsb::eFlagsChanged:
+ return "eFlagsChanged";
+
+ case ::perfetto::protos::pbzero::LayerState_ChangesLsb::eLayerStackChanged:
+ return "eLayerStackChanged";
+
+ case ::perfetto::protos::pbzero::LayerState_ChangesLsb::eReleaseBufferListenerChanged:
+ return "eReleaseBufferListenerChanged";
+
+ case ::perfetto::protos::pbzero::LayerState_ChangesLsb::eShadowRadiusChanged:
+ return "eShadowRadiusChanged";
+
+ case ::perfetto::protos::pbzero::LayerState_ChangesLsb::eBufferCropChanged:
+ return "eBufferCropChanged";
+
+ case ::perfetto::protos::pbzero::LayerState_ChangesLsb::eRelativeLayerChanged:
+ return "eRelativeLayerChanged";
+
+ case ::perfetto::protos::pbzero::LayerState_ChangesLsb::eReparent:
+ return "eReparent";
+
+ case ::perfetto::protos::pbzero::LayerState_ChangesLsb::eColorChanged:
+ return "eColorChanged";
+
+ case ::perfetto::protos::pbzero::LayerState_ChangesLsb::eBufferTransformChanged:
+ return "eBufferTransformChanged";
+
+ case ::perfetto::protos::pbzero::LayerState_ChangesLsb::eTransformToDisplayInverseChanged:
+ return "eTransformToDisplayInverseChanged";
+
+ case ::perfetto::protos::pbzero::LayerState_ChangesLsb::eCropChanged:
+ return "eCropChanged";
+
+ case ::perfetto::protos::pbzero::LayerState_ChangesLsb::eBufferChanged:
+ return "eBufferChanged";
+
+ case ::perfetto::protos::pbzero::LayerState_ChangesLsb::eAcquireFenceChanged:
+ return "eAcquireFenceChanged";
+
+ case ::perfetto::protos::pbzero::LayerState_ChangesLsb::eDataspaceChanged:
+ return "eDataspaceChanged";
+
+ case ::perfetto::protos::pbzero::LayerState_ChangesLsb::eHdrMetadataChanged:
+ return "eHdrMetadataChanged";
+
+ case ::perfetto::protos::pbzero::LayerState_ChangesLsb::eSurfaceDamageRegionChanged:
+ return "eSurfaceDamageRegionChanged";
+
+ case ::perfetto::protos::pbzero::LayerState_ChangesLsb::eApiChanged:
+ return "eApiChanged";
+
+ case ::perfetto::protos::pbzero::LayerState_ChangesLsb::eSidebandStreamChanged:
+ return "eSidebandStreamChanged";
+
+ case ::perfetto::protos::pbzero::LayerState_ChangesLsb::eColorTransformChanged:
+ return "eColorTransformChanged";
+
+ case ::perfetto::protos::pbzero::LayerState_ChangesLsb::eHasListenerCallbacksChanged:
+ return "eHasListenerCallbacksChanged";
+
+ case ::perfetto::protos::pbzero::LayerState_ChangesLsb::eInputInfoChanged:
+ return "eInputInfoChanged";
+
+ case ::perfetto::protos::pbzero::LayerState_ChangesLsb::eCornerRadiusChanged:
+ return "eCornerRadiusChanged";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_LayerState {
+enum ChangesMsb : int32_t {
+ eChangesMsbNone = 0,
+ eDestinationFrameChanged = 1,
+ eCachedBufferChanged = 2,
+ eBackgroundColorChanged = 4,
+ eMetadataChanged = 8,
+ eColorSpaceAgnosticChanged = 16,
+ eFrameRateSelectionPriority = 32,
+ eFrameRateChanged = 64,
+ eBackgroundBlurRadiusChanged = 128,
+ eProducerDisconnect = 256,
+ eFixedTransformHintChanged = 512,
+ eFrameNumberChanged = 1024,
+ eBlurRegionsChanged = 2048,
+ eAutoRefreshChanged = 4096,
+ eStretchChanged = 8192,
+ eTrustedOverlayChanged = 16384,
+ eDropInputModeChanged = 32768,
+};
+} // namespace perfetto_pbzero_enum_LayerState
+using LayerState_ChangesMsb = perfetto_pbzero_enum_LayerState::ChangesMsb;
+
+
+constexpr LayerState_ChangesMsb LayerState_ChangesMsb_MIN = LayerState_ChangesMsb::eChangesMsbNone;
+constexpr LayerState_ChangesMsb LayerState_ChangesMsb_MAX = LayerState_ChangesMsb::eDropInputModeChanged;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* LayerState_ChangesMsb_Name(::perfetto::protos::pbzero::LayerState_ChangesMsb value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::LayerState_ChangesMsb::eChangesMsbNone:
+ return "eChangesMsbNone";
+
+ case ::perfetto::protos::pbzero::LayerState_ChangesMsb::eDestinationFrameChanged:
+ return "eDestinationFrameChanged";
+
+ case ::perfetto::protos::pbzero::LayerState_ChangesMsb::eCachedBufferChanged:
+ return "eCachedBufferChanged";
+
+ case ::perfetto::protos::pbzero::LayerState_ChangesMsb::eBackgroundColorChanged:
+ return "eBackgroundColorChanged";
+
+ case ::perfetto::protos::pbzero::LayerState_ChangesMsb::eMetadataChanged:
+ return "eMetadataChanged";
+
+ case ::perfetto::protos::pbzero::LayerState_ChangesMsb::eColorSpaceAgnosticChanged:
+ return "eColorSpaceAgnosticChanged";
+
+ case ::perfetto::protos::pbzero::LayerState_ChangesMsb::eFrameRateSelectionPriority:
+ return "eFrameRateSelectionPriority";
+
+ case ::perfetto::protos::pbzero::LayerState_ChangesMsb::eFrameRateChanged:
+ return "eFrameRateChanged";
+
+ case ::perfetto::protos::pbzero::LayerState_ChangesMsb::eBackgroundBlurRadiusChanged:
+ return "eBackgroundBlurRadiusChanged";
+
+ case ::perfetto::protos::pbzero::LayerState_ChangesMsb::eProducerDisconnect:
+ return "eProducerDisconnect";
+
+ case ::perfetto::protos::pbzero::LayerState_ChangesMsb::eFixedTransformHintChanged:
+ return "eFixedTransformHintChanged";
+
+ case ::perfetto::protos::pbzero::LayerState_ChangesMsb::eFrameNumberChanged:
+ return "eFrameNumberChanged";
+
+ case ::perfetto::protos::pbzero::LayerState_ChangesMsb::eBlurRegionsChanged:
+ return "eBlurRegionsChanged";
+
+ case ::perfetto::protos::pbzero::LayerState_ChangesMsb::eAutoRefreshChanged:
+ return "eAutoRefreshChanged";
+
+ case ::perfetto::protos::pbzero::LayerState_ChangesMsb::eStretchChanged:
+ return "eStretchChanged";
+
+ case ::perfetto::protos::pbzero::LayerState_ChangesMsb::eTrustedOverlayChanged:
+ return "eTrustedOverlayChanged";
+
+ case ::perfetto::protos::pbzero::LayerState_ChangesMsb::eDropInputModeChanged:
+ return "eDropInputModeChanged";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_LayerState {
+enum Flags : int32_t {
+ eFlagsNone = 0,
+ eLayerHidden = 1,
+ eLayerOpaque = 2,
+ eLayerSkipScreenshot = 64,
+ eLayerSecure = 128,
+ eEnableBackpressure = 256,
+ eLayerIsDisplayDecoration = 512,
+};
+} // namespace perfetto_pbzero_enum_LayerState
+using LayerState_Flags = perfetto_pbzero_enum_LayerState::Flags;
+
+
+constexpr LayerState_Flags LayerState_Flags_MIN = LayerState_Flags::eFlagsNone;
+constexpr LayerState_Flags LayerState_Flags_MAX = LayerState_Flags::eLayerIsDisplayDecoration;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* LayerState_Flags_Name(::perfetto::protos::pbzero::LayerState_Flags value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::LayerState_Flags::eFlagsNone:
+ return "eFlagsNone";
+
+ case ::perfetto::protos::pbzero::LayerState_Flags::eLayerHidden:
+ return "eLayerHidden";
+
+ case ::perfetto::protos::pbzero::LayerState_Flags::eLayerOpaque:
+ return "eLayerOpaque";
+
+ case ::perfetto::protos::pbzero::LayerState_Flags::eLayerSkipScreenshot:
+ return "eLayerSkipScreenshot";
+
+ case ::perfetto::protos::pbzero::LayerState_Flags::eLayerSecure:
+ return "eLayerSecure";
+
+ case ::perfetto::protos::pbzero::LayerState_Flags::eEnableBackpressure:
+ return "eEnableBackpressure";
+
+ case ::perfetto::protos::pbzero::LayerState_Flags::eLayerIsDisplayDecoration:
+ return "eLayerIsDisplayDecoration";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_LayerState {
+enum DropInputMode : int32_t {
+ NONE = 0,
+ ALL = 1,
+ OBSCURED = 2,
+};
+} // namespace perfetto_pbzero_enum_LayerState
+using LayerState_DropInputMode = perfetto_pbzero_enum_LayerState::DropInputMode;
+
+
+constexpr LayerState_DropInputMode LayerState_DropInputMode_MIN = LayerState_DropInputMode::NONE;
+constexpr LayerState_DropInputMode LayerState_DropInputMode_MAX = LayerState_DropInputMode::OBSCURED;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* LayerState_DropInputMode_Name(::perfetto::protos::pbzero::LayerState_DropInputMode value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::LayerState_DropInputMode::NONE:
+ return "NONE";
+
+ case ::perfetto::protos::pbzero::LayerState_DropInputMode::ALL:
+ return "ALL";
+
+ case ::perfetto::protos::pbzero::LayerState_DropInputMode::OBSCURED:
+ return "OBSCURED";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_LayerState_BufferData {
+enum BufferDataChange : int32_t {
+ BufferDataChangeNone = 0,
+ fenceChanged = 1,
+ frameNumberChanged = 2,
+ cachedBufferChanged = 4,
+};
+} // namespace perfetto_pbzero_enum_LayerState_BufferData
+using LayerState_BufferData_BufferDataChange = perfetto_pbzero_enum_LayerState_BufferData::BufferDataChange;
+
+
+constexpr LayerState_BufferData_BufferDataChange LayerState_BufferData_BufferDataChange_MIN = LayerState_BufferData_BufferDataChange::BufferDataChangeNone;
+constexpr LayerState_BufferData_BufferDataChange LayerState_BufferData_BufferDataChange_MAX = LayerState_BufferData_BufferDataChange::cachedBufferChanged;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* LayerState_BufferData_BufferDataChange_Name(::perfetto::protos::pbzero::LayerState_BufferData_BufferDataChange value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::LayerState_BufferData_BufferDataChange::BufferDataChangeNone:
+ return "BufferDataChangeNone";
+
+ case ::perfetto::protos::pbzero::LayerState_BufferData_BufferDataChange::fenceChanged:
+ return "fenceChanged";
+
+ case ::perfetto::protos::pbzero::LayerState_BufferData_BufferDataChange::frameNumberChanged:
+ return "frameNumberChanged";
+
+ case ::perfetto::protos::pbzero::LayerState_BufferData_BufferDataChange::cachedBufferChanged:
+ return "cachedBufferChanged";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_LayerState_BufferData {
+enum PixelFormat : int32_t {
+ PIXEL_FORMAT_UNKNOWN = 0,
+ PIXEL_FORMAT_CUSTOM = -4,
+ PIXEL_FORMAT_TRANSLUCENT = -3,
+ PIXEL_FORMAT_TRANSPARENT = -2,
+ PIXEL_FORMAT_OPAQUE = -1,
+ PIXEL_FORMAT_RGBA_8888 = 1,
+ PIXEL_FORMAT_RGBX_8888 = 2,
+ PIXEL_FORMAT_RGB_888 = 3,
+ PIXEL_FORMAT_RGB_565 = 4,
+ PIXEL_FORMAT_BGRA_8888 = 5,
+ PIXEL_FORMAT_RGBA_5551 = 6,
+ PIXEL_FORMAT_RGBA_4444 = 7,
+ PIXEL_FORMAT_RGBA_FP16 = 22,
+ PIXEL_FORMAT_RGBA_1010102 = 43,
+ PIXEL_FORMAT_R_8 = 56,
+};
+} // namespace perfetto_pbzero_enum_LayerState_BufferData
+using LayerState_BufferData_PixelFormat = perfetto_pbzero_enum_LayerState_BufferData::PixelFormat;
+
+
+constexpr LayerState_BufferData_PixelFormat LayerState_BufferData_PixelFormat_MIN = LayerState_BufferData_PixelFormat::PIXEL_FORMAT_CUSTOM;
+constexpr LayerState_BufferData_PixelFormat LayerState_BufferData_PixelFormat_MAX = LayerState_BufferData_PixelFormat::PIXEL_FORMAT_R_8;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* LayerState_BufferData_PixelFormat_Name(::perfetto::protos::pbzero::LayerState_BufferData_PixelFormat value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::LayerState_BufferData_PixelFormat::PIXEL_FORMAT_UNKNOWN:
+ return "PIXEL_FORMAT_UNKNOWN";
+
+ case ::perfetto::protos::pbzero::LayerState_BufferData_PixelFormat::PIXEL_FORMAT_CUSTOM:
+ return "PIXEL_FORMAT_CUSTOM";
+
+ case ::perfetto::protos::pbzero::LayerState_BufferData_PixelFormat::PIXEL_FORMAT_TRANSLUCENT:
+ return "PIXEL_FORMAT_TRANSLUCENT";
+
+ case ::perfetto::protos::pbzero::LayerState_BufferData_PixelFormat::PIXEL_FORMAT_TRANSPARENT:
+ return "PIXEL_FORMAT_TRANSPARENT";
+
+ case ::perfetto::protos::pbzero::LayerState_BufferData_PixelFormat::PIXEL_FORMAT_OPAQUE:
+ return "PIXEL_FORMAT_OPAQUE";
+
+ case ::perfetto::protos::pbzero::LayerState_BufferData_PixelFormat::PIXEL_FORMAT_RGBA_8888:
+ return "PIXEL_FORMAT_RGBA_8888";
+
+ case ::perfetto::protos::pbzero::LayerState_BufferData_PixelFormat::PIXEL_FORMAT_RGBX_8888:
+ return "PIXEL_FORMAT_RGBX_8888";
+
+ case ::perfetto::protos::pbzero::LayerState_BufferData_PixelFormat::PIXEL_FORMAT_RGB_888:
+ return "PIXEL_FORMAT_RGB_888";
+
+ case ::perfetto::protos::pbzero::LayerState_BufferData_PixelFormat::PIXEL_FORMAT_RGB_565:
+ return "PIXEL_FORMAT_RGB_565";
+
+ case ::perfetto::protos::pbzero::LayerState_BufferData_PixelFormat::PIXEL_FORMAT_BGRA_8888:
+ return "PIXEL_FORMAT_BGRA_8888";
+
+ case ::perfetto::protos::pbzero::LayerState_BufferData_PixelFormat::PIXEL_FORMAT_RGBA_5551:
+ return "PIXEL_FORMAT_RGBA_5551";
+
+ case ::perfetto::protos::pbzero::LayerState_BufferData_PixelFormat::PIXEL_FORMAT_RGBA_4444:
+ return "PIXEL_FORMAT_RGBA_4444";
+
+ case ::perfetto::protos::pbzero::LayerState_BufferData_PixelFormat::PIXEL_FORMAT_RGBA_FP16:
+ return "PIXEL_FORMAT_RGBA_FP16";
+
+ case ::perfetto::protos::pbzero::LayerState_BufferData_PixelFormat::PIXEL_FORMAT_RGBA_1010102:
+ return "PIXEL_FORMAT_RGBA_1010102";
+
+ case ::perfetto::protos::pbzero::LayerState_BufferData_PixelFormat::PIXEL_FORMAT_R_8:
+ return "PIXEL_FORMAT_R_8";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_TransactionTraceFile {
+enum MagicNumber : int32_t {
+ INVALID = 0,
+ MAGIC_NUMBER_L = 1415073364,
+ MAGIC_NUMBER_H = 1162035538,
+};
+} // namespace perfetto_pbzero_enum_TransactionTraceFile
+using TransactionTraceFile_MagicNumber = perfetto_pbzero_enum_TransactionTraceFile::MagicNumber;
+
+
+constexpr TransactionTraceFile_MagicNumber TransactionTraceFile_MagicNumber_MIN = TransactionTraceFile_MagicNumber::INVALID;
+constexpr TransactionTraceFile_MagicNumber TransactionTraceFile_MagicNumber_MAX = TransactionTraceFile_MagicNumber::MAGIC_NUMBER_L;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* TransactionTraceFile_MagicNumber_Name(::perfetto::protos::pbzero::TransactionTraceFile_MagicNumber value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::TransactionTraceFile_MagicNumber::INVALID:
+ return "INVALID";
+
+ case ::perfetto::protos::pbzero::TransactionTraceFile_MagicNumber::MAGIC_NUMBER_L:
+ return "MAGIC_NUMBER_L";
+
+ case ::perfetto::protos::pbzero::TransactionTraceFile_MagicNumber::MAGIC_NUMBER_H:
+ return "MAGIC_NUMBER_H";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+class DisplayState_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/9, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ DisplayState_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit DisplayState_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit DisplayState_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_id() const { return at<1>().valid(); }
+ int32_t id() const { return at<1>().as_int32(); }
+ bool has_what() const { return at<2>().valid(); }
+ uint32_t what() const { return at<2>().as_uint32(); }
+ bool has_flags() const { return at<3>().valid(); }
+ uint32_t flags() const { return at<3>().as_uint32(); }
+ bool has_layer_stack() const { return at<4>().valid(); }
+ uint32_t layer_stack() const { return at<4>().as_uint32(); }
+ bool has_orientation() const { return at<5>().valid(); }
+ uint32_t orientation() const { return at<5>().as_uint32(); }
+ bool has_layer_stack_space_rect() const { return at<6>().valid(); }
+ ::protozero::ConstBytes layer_stack_space_rect() const { return at<6>().as_bytes(); }
+ bool has_oriented_display_space_rect() const { return at<7>().valid(); }
+ ::protozero::ConstBytes oriented_display_space_rect() const { return at<7>().as_bytes(); }
+ bool has_width() const { return at<8>().valid(); }
+ uint32_t width() const { return at<8>().as_uint32(); }
+ bool has_height() const { return at<9>().valid(); }
+ uint32_t height() const { return at<9>().as_uint32(); }
+};
+
+class DisplayState : public ::protozero::Message {
+ public:
+ using Decoder = DisplayState_Decoder;
+ enum : int32_t {
+ kIdFieldNumber = 1,
+ kWhatFieldNumber = 2,
+ kFlagsFieldNumber = 3,
+ kLayerStackFieldNumber = 4,
+ kOrientationFieldNumber = 5,
+ kLayerStackSpaceRectFieldNumber = 6,
+ kOrientedDisplaySpaceRectFieldNumber = 7,
+ kWidthFieldNumber = 8,
+ kHeightFieldNumber = 9,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.DisplayState"; }
+
+
+ using Changes = ::perfetto::protos::pbzero::DisplayState_Changes;
+ static inline const char* Changes_Name(Changes value) {
+ return ::perfetto::protos::pbzero::DisplayState_Changes_Name(value);
+ }
+ static inline const Changes eChangesNone = Changes::eChangesNone;
+ static inline const Changes eSurfaceChanged = Changes::eSurfaceChanged;
+ static inline const Changes eLayerStackChanged = Changes::eLayerStackChanged;
+ static inline const Changes eDisplayProjectionChanged = Changes::eDisplayProjectionChanged;
+ static inline const Changes eDisplaySizeChanged = Changes::eDisplaySizeChanged;
+ static inline const Changes eFlagsChanged = Changes::eFlagsChanged;
+
+ using FieldMetadata_Id =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ DisplayState>;
+
+ static constexpr FieldMetadata_Id kId{};
+ void set_id(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Id::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_What =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ DisplayState>;
+
+ static constexpr FieldMetadata_What kWhat{};
+ void set_what(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_What::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Flags =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ DisplayState>;
+
+ static constexpr FieldMetadata_Flags kFlags{};
+ void set_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Flags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_LayerStack =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ DisplayState>;
+
+ static constexpr FieldMetadata_LayerStack kLayerStack{};
+ void set_layer_stack(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_LayerStack::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Orientation =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ DisplayState>;
+
+ static constexpr FieldMetadata_Orientation kOrientation{};
+ void set_orientation(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Orientation::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_LayerStackSpaceRect =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ RectProto,
+ DisplayState>;
+
+ static constexpr FieldMetadata_LayerStackSpaceRect kLayerStackSpaceRect{};
+ template <typename T = RectProto> T* set_layer_stack_space_rect() {
+ return BeginNestedMessage<T>(6);
+ }
+
+
+ using FieldMetadata_OrientedDisplaySpaceRect =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ RectProto,
+ DisplayState>;
+
+ static constexpr FieldMetadata_OrientedDisplaySpaceRect kOrientedDisplaySpaceRect{};
+ template <typename T = RectProto> T* set_oriented_display_space_rect() {
+ return BeginNestedMessage<T>(7);
+ }
+
+
+ using FieldMetadata_Width =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ DisplayState>;
+
+ static constexpr FieldMetadata_Width kWidth{};
+ void set_width(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Width::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Height =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ DisplayState>;
+
+ static constexpr FieldMetadata_Height kHeight{};
+ void set_height(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Height::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class LayerState_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/42, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ LayerState_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit LayerState_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit LayerState_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_layer_id() const { return at<1>().valid(); }
+ uint32_t layer_id() const { return at<1>().as_uint32(); }
+ bool has_what() const { return at<2>().valid(); }
+ uint64_t what() const { return at<2>().as_uint64(); }
+ bool has_x() const { return at<3>().valid(); }
+ float x() const { return at<3>().as_float(); }
+ bool has_y() const { return at<4>().valid(); }
+ float y() const { return at<4>().as_float(); }
+ bool has_z() const { return at<5>().valid(); }
+ int32_t z() const { return at<5>().as_int32(); }
+ bool has_w() const { return at<6>().valid(); }
+ uint32_t w() const { return at<6>().as_uint32(); }
+ bool has_h() const { return at<7>().valid(); }
+ uint32_t h() const { return at<7>().as_uint32(); }
+ bool has_layer_stack() const { return at<8>().valid(); }
+ uint32_t layer_stack() const { return at<8>().as_uint32(); }
+ bool has_flags() const { return at<9>().valid(); }
+ uint32_t flags() const { return at<9>().as_uint32(); }
+ bool has_mask() const { return at<10>().valid(); }
+ uint32_t mask() const { return at<10>().as_uint32(); }
+ bool has_matrix() const { return at<11>().valid(); }
+ ::protozero::ConstBytes matrix() const { return at<11>().as_bytes(); }
+ bool has_corner_radius() const { return at<12>().valid(); }
+ float corner_radius() const { return at<12>().as_float(); }
+ bool has_background_blur_radius() const { return at<13>().valid(); }
+ uint32_t background_blur_radius() const { return at<13>().as_uint32(); }
+ bool has_parent_id() const { return at<14>().valid(); }
+ uint32_t parent_id() const { return at<14>().as_uint32(); }
+ bool has_relative_parent_id() const { return at<15>().valid(); }
+ uint32_t relative_parent_id() const { return at<15>().as_uint32(); }
+ bool has_alpha() const { return at<16>().valid(); }
+ float alpha() const { return at<16>().as_float(); }
+ bool has_color() const { return at<17>().valid(); }
+ ::protozero::ConstBytes color() const { return at<17>().as_bytes(); }
+ bool has_transparent_region() const { return at<18>().valid(); }
+ ::protozero::ConstBytes transparent_region() const { return at<18>().as_bytes(); }
+ bool has_transform() const { return at<19>().valid(); }
+ uint32_t transform() const { return at<19>().as_uint32(); }
+ bool has_transform_to_display_inverse() const { return at<20>().valid(); }
+ bool transform_to_display_inverse() const { return at<20>().as_bool(); }
+ bool has_crop() const { return at<21>().valid(); }
+ ::protozero::ConstBytes crop() const { return at<21>().as_bytes(); }
+ bool has_buffer_data() const { return at<22>().valid(); }
+ ::protozero::ConstBytes buffer_data() const { return at<22>().as_bytes(); }
+ bool has_api() const { return at<23>().valid(); }
+ int32_t api() const { return at<23>().as_int32(); }
+ bool has_has_sideband_stream() const { return at<24>().valid(); }
+ bool has_sideband_stream() const { return at<24>().as_bool(); }
+ bool has_color_transform() const { return at<25>().valid(); }
+ ::protozero::ConstBytes color_transform() const { return at<25>().as_bytes(); }
+ bool has_blur_regions() const { return at<26>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> blur_regions() const { return GetRepeated<::protozero::ConstBytes>(26); }
+ bool has_window_info_handle() const { return at<27>().valid(); }
+ ::protozero::ConstBytes window_info_handle() const { return at<27>().as_bytes(); }
+ bool has_bg_color_alpha() const { return at<28>().valid(); }
+ float bg_color_alpha() const { return at<28>().as_float(); }
+ bool has_bg_color_dataspace() const { return at<29>().valid(); }
+ int32_t bg_color_dataspace() const { return at<29>().as_int32(); }
+ bool has_color_space_agnostic() const { return at<30>().valid(); }
+ bool color_space_agnostic() const { return at<30>().as_bool(); }
+ bool has_shadow_radius() const { return at<31>().valid(); }
+ float shadow_radius() const { return at<31>().as_float(); }
+ bool has_frame_rate_selection_priority() const { return at<32>().valid(); }
+ int32_t frame_rate_selection_priority() const { return at<32>().as_int32(); }
+ bool has_frame_rate() const { return at<33>().valid(); }
+ float frame_rate() const { return at<33>().as_float(); }
+ bool has_frame_rate_compatibility() const { return at<34>().valid(); }
+ int32_t frame_rate_compatibility() const { return at<34>().as_int32(); }
+ bool has_change_frame_rate_strategy() const { return at<35>().valid(); }
+ int32_t change_frame_rate_strategy() const { return at<35>().as_int32(); }
+ bool has_fixed_transform_hint() const { return at<36>().valid(); }
+ uint32_t fixed_transform_hint() const { return at<36>().as_uint32(); }
+ bool has_frame_number() const { return at<37>().valid(); }
+ uint64_t frame_number() const { return at<37>().as_uint64(); }
+ bool has_auto_refresh() const { return at<38>().valid(); }
+ bool auto_refresh() const { return at<38>().as_bool(); }
+ bool has_is_trusted_overlay() const { return at<39>().valid(); }
+ bool is_trusted_overlay() const { return at<39>().as_bool(); }
+ bool has_buffer_crop() const { return at<40>().valid(); }
+ ::protozero::ConstBytes buffer_crop() const { return at<40>().as_bytes(); }
+ bool has_destination_frame() const { return at<41>().valid(); }
+ ::protozero::ConstBytes destination_frame() const { return at<41>().as_bytes(); }
+ bool has_drop_input_mode() const { return at<42>().valid(); }
+ int32_t drop_input_mode() const { return at<42>().as_int32(); }
+};
+
+class LayerState : public ::protozero::Message {
+ public:
+ using Decoder = LayerState_Decoder;
+ enum : int32_t {
+ kLayerIdFieldNumber = 1,
+ kWhatFieldNumber = 2,
+ kXFieldNumber = 3,
+ kYFieldNumber = 4,
+ kZFieldNumber = 5,
+ kWFieldNumber = 6,
+ kHFieldNumber = 7,
+ kLayerStackFieldNumber = 8,
+ kFlagsFieldNumber = 9,
+ kMaskFieldNumber = 10,
+ kMatrixFieldNumber = 11,
+ kCornerRadiusFieldNumber = 12,
+ kBackgroundBlurRadiusFieldNumber = 13,
+ kParentIdFieldNumber = 14,
+ kRelativeParentIdFieldNumber = 15,
+ kAlphaFieldNumber = 16,
+ kColorFieldNumber = 17,
+ kTransparentRegionFieldNumber = 18,
+ kTransformFieldNumber = 19,
+ kTransformToDisplayInverseFieldNumber = 20,
+ kCropFieldNumber = 21,
+ kBufferDataFieldNumber = 22,
+ kApiFieldNumber = 23,
+ kHasSidebandStreamFieldNumber = 24,
+ kColorTransformFieldNumber = 25,
+ kBlurRegionsFieldNumber = 26,
+ kWindowInfoHandleFieldNumber = 27,
+ kBgColorAlphaFieldNumber = 28,
+ kBgColorDataspaceFieldNumber = 29,
+ kColorSpaceAgnosticFieldNumber = 30,
+ kShadowRadiusFieldNumber = 31,
+ kFrameRateSelectionPriorityFieldNumber = 32,
+ kFrameRateFieldNumber = 33,
+ kFrameRateCompatibilityFieldNumber = 34,
+ kChangeFrameRateStrategyFieldNumber = 35,
+ kFixedTransformHintFieldNumber = 36,
+ kFrameNumberFieldNumber = 37,
+ kAutoRefreshFieldNumber = 38,
+ kIsTrustedOverlayFieldNumber = 39,
+ kBufferCropFieldNumber = 40,
+ kDestinationFrameFieldNumber = 41,
+ kDropInputModeFieldNumber = 42,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.LayerState"; }
+
+ using Matrix22 = ::perfetto::protos::pbzero::LayerState_Matrix22;
+ using Color3 = ::perfetto::protos::pbzero::LayerState_Color3;
+ using BufferData = ::perfetto::protos::pbzero::LayerState_BufferData;
+ using WindowInfo = ::perfetto::protos::pbzero::LayerState_WindowInfo;
+
+ using ChangesLsb = ::perfetto::protos::pbzero::LayerState_ChangesLsb;
+ static inline const char* ChangesLsb_Name(ChangesLsb value) {
+ return ::perfetto::protos::pbzero::LayerState_ChangesLsb_Name(value);
+ }
+
+ using ChangesMsb = ::perfetto::protos::pbzero::LayerState_ChangesMsb;
+ static inline const char* ChangesMsb_Name(ChangesMsb value) {
+ return ::perfetto::protos::pbzero::LayerState_ChangesMsb_Name(value);
+ }
+
+ using Flags = ::perfetto::protos::pbzero::LayerState_Flags;
+ static inline const char* Flags_Name(Flags value) {
+ return ::perfetto::protos::pbzero::LayerState_Flags_Name(value);
+ }
+
+ using DropInputMode = ::perfetto::protos::pbzero::LayerState_DropInputMode;
+ static inline const char* DropInputMode_Name(DropInputMode value) {
+ return ::perfetto::protos::pbzero::LayerState_DropInputMode_Name(value);
+ }
+ static inline const ChangesLsb eChangesLsbNone = ChangesLsb::eChangesLsbNone;
+ static inline const ChangesLsb ePositionChanged = ChangesLsb::ePositionChanged;
+ static inline const ChangesLsb eLayerChanged = ChangesLsb::eLayerChanged;
+ static inline const ChangesLsb eAlphaChanged = ChangesLsb::eAlphaChanged;
+ static inline const ChangesLsb eMatrixChanged = ChangesLsb::eMatrixChanged;
+ static inline const ChangesLsb eTransparentRegionChanged = ChangesLsb::eTransparentRegionChanged;
+ static inline const ChangesLsb eFlagsChanged = ChangesLsb::eFlagsChanged;
+ static inline const ChangesLsb eLayerStackChanged = ChangesLsb::eLayerStackChanged;
+ static inline const ChangesLsb eReleaseBufferListenerChanged = ChangesLsb::eReleaseBufferListenerChanged;
+ static inline const ChangesLsb eShadowRadiusChanged = ChangesLsb::eShadowRadiusChanged;
+ static inline const ChangesLsb eBufferCropChanged = ChangesLsb::eBufferCropChanged;
+ static inline const ChangesLsb eRelativeLayerChanged = ChangesLsb::eRelativeLayerChanged;
+ static inline const ChangesLsb eReparent = ChangesLsb::eReparent;
+ static inline const ChangesLsb eColorChanged = ChangesLsb::eColorChanged;
+ static inline const ChangesLsb eBufferTransformChanged = ChangesLsb::eBufferTransformChanged;
+ static inline const ChangesLsb eTransformToDisplayInverseChanged = ChangesLsb::eTransformToDisplayInverseChanged;
+ static inline const ChangesLsb eCropChanged = ChangesLsb::eCropChanged;
+ static inline const ChangesLsb eBufferChanged = ChangesLsb::eBufferChanged;
+ static inline const ChangesLsb eAcquireFenceChanged = ChangesLsb::eAcquireFenceChanged;
+ static inline const ChangesLsb eDataspaceChanged = ChangesLsb::eDataspaceChanged;
+ static inline const ChangesLsb eHdrMetadataChanged = ChangesLsb::eHdrMetadataChanged;
+ static inline const ChangesLsb eSurfaceDamageRegionChanged = ChangesLsb::eSurfaceDamageRegionChanged;
+ static inline const ChangesLsb eApiChanged = ChangesLsb::eApiChanged;
+ static inline const ChangesLsb eSidebandStreamChanged = ChangesLsb::eSidebandStreamChanged;
+ static inline const ChangesLsb eColorTransformChanged = ChangesLsb::eColorTransformChanged;
+ static inline const ChangesLsb eHasListenerCallbacksChanged = ChangesLsb::eHasListenerCallbacksChanged;
+ static inline const ChangesLsb eInputInfoChanged = ChangesLsb::eInputInfoChanged;
+ static inline const ChangesLsb eCornerRadiusChanged = ChangesLsb::eCornerRadiusChanged;
+ static inline const ChangesMsb eChangesMsbNone = ChangesMsb::eChangesMsbNone;
+ static inline const ChangesMsb eDestinationFrameChanged = ChangesMsb::eDestinationFrameChanged;
+ static inline const ChangesMsb eCachedBufferChanged = ChangesMsb::eCachedBufferChanged;
+ static inline const ChangesMsb eBackgroundColorChanged = ChangesMsb::eBackgroundColorChanged;
+ static inline const ChangesMsb eMetadataChanged = ChangesMsb::eMetadataChanged;
+ static inline const ChangesMsb eColorSpaceAgnosticChanged = ChangesMsb::eColorSpaceAgnosticChanged;
+ static inline const ChangesMsb eFrameRateSelectionPriority = ChangesMsb::eFrameRateSelectionPriority;
+ static inline const ChangesMsb eFrameRateChanged = ChangesMsb::eFrameRateChanged;
+ static inline const ChangesMsb eBackgroundBlurRadiusChanged = ChangesMsb::eBackgroundBlurRadiusChanged;
+ static inline const ChangesMsb eProducerDisconnect = ChangesMsb::eProducerDisconnect;
+ static inline const ChangesMsb eFixedTransformHintChanged = ChangesMsb::eFixedTransformHintChanged;
+ static inline const ChangesMsb eFrameNumberChanged = ChangesMsb::eFrameNumberChanged;
+ static inline const ChangesMsb eBlurRegionsChanged = ChangesMsb::eBlurRegionsChanged;
+ static inline const ChangesMsb eAutoRefreshChanged = ChangesMsb::eAutoRefreshChanged;
+ static inline const ChangesMsb eStretchChanged = ChangesMsb::eStretchChanged;
+ static inline const ChangesMsb eTrustedOverlayChanged = ChangesMsb::eTrustedOverlayChanged;
+ static inline const ChangesMsb eDropInputModeChanged = ChangesMsb::eDropInputModeChanged;
+ static inline const Flags eFlagsNone = Flags::eFlagsNone;
+ static inline const Flags eLayerHidden = Flags::eLayerHidden;
+ static inline const Flags eLayerOpaque = Flags::eLayerOpaque;
+ static inline const Flags eLayerSkipScreenshot = Flags::eLayerSkipScreenshot;
+ static inline const Flags eLayerSecure = Flags::eLayerSecure;
+ static inline const Flags eEnableBackpressure = Flags::eEnableBackpressure;
+ static inline const Flags eLayerIsDisplayDecoration = Flags::eLayerIsDisplayDecoration;
+ static inline const DropInputMode NONE = DropInputMode::NONE;
+ static inline const DropInputMode ALL = DropInputMode::ALL;
+ static inline const DropInputMode OBSCURED = DropInputMode::OBSCURED;
+
+ using FieldMetadata_LayerId =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ LayerState>;
+
+ static constexpr FieldMetadata_LayerId kLayerId{};
+ void set_layer_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_LayerId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_What =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ LayerState>;
+
+ static constexpr FieldMetadata_What kWhat{};
+ void set_what(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_What::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_X =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFloat,
+ float,
+ LayerState>;
+
+ static constexpr FieldMetadata_X kX{};
+ void set_x(float value) {
+ static constexpr uint32_t field_id = FieldMetadata_X::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFloat>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Y =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFloat,
+ float,
+ LayerState>;
+
+ static constexpr FieldMetadata_Y kY{};
+ void set_y(float value) {
+ static constexpr uint32_t field_id = FieldMetadata_Y::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFloat>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Z =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ LayerState>;
+
+ static constexpr FieldMetadata_Z kZ{};
+ void set_z(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Z::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_W =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ LayerState>;
+
+ static constexpr FieldMetadata_W kW{};
+ void set_w(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_W::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_H =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ LayerState>;
+
+ static constexpr FieldMetadata_H kH{};
+ void set_h(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_H::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_LayerStack =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ LayerState>;
+
+ static constexpr FieldMetadata_LayerStack kLayerStack{};
+ void set_layer_stack(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_LayerStack::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Flags =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ LayerState>;
+
+ static constexpr FieldMetadata_Flags kFlags{};
+ void set_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Flags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Mask =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ LayerState>;
+
+ static constexpr FieldMetadata_Mask kMask{};
+ void set_mask(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Mask::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Matrix =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ LayerState_Matrix22,
+ LayerState>;
+
+ static constexpr FieldMetadata_Matrix kMatrix{};
+ template <typename T = LayerState_Matrix22> T* set_matrix() {
+ return BeginNestedMessage<T>(11);
+ }
+
+
+ using FieldMetadata_CornerRadius =
+ ::protozero::proto_utils::FieldMetadata<
+ 12,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFloat,
+ float,
+ LayerState>;
+
+ static constexpr FieldMetadata_CornerRadius kCornerRadius{};
+ void set_corner_radius(float value) {
+ static constexpr uint32_t field_id = FieldMetadata_CornerRadius::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFloat>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BackgroundBlurRadius =
+ ::protozero::proto_utils::FieldMetadata<
+ 13,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ LayerState>;
+
+ static constexpr FieldMetadata_BackgroundBlurRadius kBackgroundBlurRadius{};
+ void set_background_blur_radius(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BackgroundBlurRadius::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ParentId =
+ ::protozero::proto_utils::FieldMetadata<
+ 14,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ LayerState>;
+
+ static constexpr FieldMetadata_ParentId kParentId{};
+ void set_parent_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ParentId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_RelativeParentId =
+ ::protozero::proto_utils::FieldMetadata<
+ 15,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ LayerState>;
+
+ static constexpr FieldMetadata_RelativeParentId kRelativeParentId{};
+ void set_relative_parent_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_RelativeParentId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Alpha =
+ ::protozero::proto_utils::FieldMetadata<
+ 16,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFloat,
+ float,
+ LayerState>;
+
+ static constexpr FieldMetadata_Alpha kAlpha{};
+ void set_alpha(float value) {
+ static constexpr uint32_t field_id = FieldMetadata_Alpha::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFloat>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Color =
+ ::protozero::proto_utils::FieldMetadata<
+ 17,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ LayerState_Color3,
+ LayerState>;
+
+ static constexpr FieldMetadata_Color kColor{};
+ template <typename T = LayerState_Color3> T* set_color() {
+ return BeginNestedMessage<T>(17);
+ }
+
+
+ using FieldMetadata_TransparentRegion =
+ ::protozero::proto_utils::FieldMetadata<
+ 18,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ RegionProto,
+ LayerState>;
+
+ static constexpr FieldMetadata_TransparentRegion kTransparentRegion{};
+ template <typename T = RegionProto> T* set_transparent_region() {
+ return BeginNestedMessage<T>(18);
+ }
+
+
+ using FieldMetadata_Transform =
+ ::protozero::proto_utils::FieldMetadata<
+ 19,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ LayerState>;
+
+ static constexpr FieldMetadata_Transform kTransform{};
+ void set_transform(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Transform::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TransformToDisplayInverse =
+ ::protozero::proto_utils::FieldMetadata<
+ 20,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ LayerState>;
+
+ static constexpr FieldMetadata_TransformToDisplayInverse kTransformToDisplayInverse{};
+ void set_transform_to_display_inverse(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_TransformToDisplayInverse::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Crop =
+ ::protozero::proto_utils::FieldMetadata<
+ 21,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ RectProto,
+ LayerState>;
+
+ static constexpr FieldMetadata_Crop kCrop{};
+ template <typename T = RectProto> T* set_crop() {
+ return BeginNestedMessage<T>(21);
+ }
+
+
+ using FieldMetadata_BufferData =
+ ::protozero::proto_utils::FieldMetadata<
+ 22,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ LayerState_BufferData,
+ LayerState>;
+
+ static constexpr FieldMetadata_BufferData kBufferData{};
+ template <typename T = LayerState_BufferData> T* set_buffer_data() {
+ return BeginNestedMessage<T>(22);
+ }
+
+
+ using FieldMetadata_Api =
+ ::protozero::proto_utils::FieldMetadata<
+ 23,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ LayerState>;
+
+ static constexpr FieldMetadata_Api kApi{};
+ void set_api(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Api::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_HasSidebandStream =
+ ::protozero::proto_utils::FieldMetadata<
+ 24,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ LayerState>;
+
+ static constexpr FieldMetadata_HasSidebandStream kHasSidebandStream{};
+ void set_has_sideband_stream(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_HasSidebandStream::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ColorTransform =
+ ::protozero::proto_utils::FieldMetadata<
+ 25,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ColorTransformProto,
+ LayerState>;
+
+ static constexpr FieldMetadata_ColorTransform kColorTransform{};
+ template <typename T = ColorTransformProto> T* set_color_transform() {
+ return BeginNestedMessage<T>(25);
+ }
+
+
+ using FieldMetadata_BlurRegions =
+ ::protozero::proto_utils::FieldMetadata<
+ 26,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ BlurRegion,
+ LayerState>;
+
+ static constexpr FieldMetadata_BlurRegions kBlurRegions{};
+ template <typename T = BlurRegion> T* add_blur_regions() {
+ return BeginNestedMessage<T>(26);
+ }
+
+
+ using FieldMetadata_WindowInfoHandle =
+ ::protozero::proto_utils::FieldMetadata<
+ 27,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ LayerState_WindowInfo,
+ LayerState>;
+
+ static constexpr FieldMetadata_WindowInfoHandle kWindowInfoHandle{};
+ template <typename T = LayerState_WindowInfo> T* set_window_info_handle() {
+ return BeginNestedMessage<T>(27);
+ }
+
+
+ using FieldMetadata_BgColorAlpha =
+ ::protozero::proto_utils::FieldMetadata<
+ 28,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFloat,
+ float,
+ LayerState>;
+
+ static constexpr FieldMetadata_BgColorAlpha kBgColorAlpha{};
+ void set_bg_color_alpha(float value) {
+ static constexpr uint32_t field_id = FieldMetadata_BgColorAlpha::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFloat>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BgColorDataspace =
+ ::protozero::proto_utils::FieldMetadata<
+ 29,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ LayerState>;
+
+ static constexpr FieldMetadata_BgColorDataspace kBgColorDataspace{};
+ void set_bg_color_dataspace(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BgColorDataspace::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ColorSpaceAgnostic =
+ ::protozero::proto_utils::FieldMetadata<
+ 30,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ LayerState>;
+
+ static constexpr FieldMetadata_ColorSpaceAgnostic kColorSpaceAgnostic{};
+ void set_color_space_agnostic(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_ColorSpaceAgnostic::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ShadowRadius =
+ ::protozero::proto_utils::FieldMetadata<
+ 31,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFloat,
+ float,
+ LayerState>;
+
+ static constexpr FieldMetadata_ShadowRadius kShadowRadius{};
+ void set_shadow_radius(float value) {
+ static constexpr uint32_t field_id = FieldMetadata_ShadowRadius::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFloat>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FrameRateSelectionPriority =
+ ::protozero::proto_utils::FieldMetadata<
+ 32,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ LayerState>;
+
+ static constexpr FieldMetadata_FrameRateSelectionPriority kFrameRateSelectionPriority{};
+ void set_frame_rate_selection_priority(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FrameRateSelectionPriority::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FrameRate =
+ ::protozero::proto_utils::FieldMetadata<
+ 33,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFloat,
+ float,
+ LayerState>;
+
+ static constexpr FieldMetadata_FrameRate kFrameRate{};
+ void set_frame_rate(float value) {
+ static constexpr uint32_t field_id = FieldMetadata_FrameRate::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFloat>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FrameRateCompatibility =
+ ::protozero::proto_utils::FieldMetadata<
+ 34,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ LayerState>;
+
+ static constexpr FieldMetadata_FrameRateCompatibility kFrameRateCompatibility{};
+ void set_frame_rate_compatibility(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FrameRateCompatibility::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ChangeFrameRateStrategy =
+ ::protozero::proto_utils::FieldMetadata<
+ 35,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ LayerState>;
+
+ static constexpr FieldMetadata_ChangeFrameRateStrategy kChangeFrameRateStrategy{};
+ void set_change_frame_rate_strategy(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ChangeFrameRateStrategy::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FixedTransformHint =
+ ::protozero::proto_utils::FieldMetadata<
+ 36,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ LayerState>;
+
+ static constexpr FieldMetadata_FixedTransformHint kFixedTransformHint{};
+ void set_fixed_transform_hint(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FixedTransformHint::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FrameNumber =
+ ::protozero::proto_utils::FieldMetadata<
+ 37,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ LayerState>;
+
+ static constexpr FieldMetadata_FrameNumber kFrameNumber{};
+ void set_frame_number(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FrameNumber::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_AutoRefresh =
+ ::protozero::proto_utils::FieldMetadata<
+ 38,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ LayerState>;
+
+ static constexpr FieldMetadata_AutoRefresh kAutoRefresh{};
+ void set_auto_refresh(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_AutoRefresh::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IsTrustedOverlay =
+ ::protozero::proto_utils::FieldMetadata<
+ 39,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ LayerState>;
+
+ static constexpr FieldMetadata_IsTrustedOverlay kIsTrustedOverlay{};
+ void set_is_trusted_overlay(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_IsTrustedOverlay::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BufferCrop =
+ ::protozero::proto_utils::FieldMetadata<
+ 40,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ RectProto,
+ LayerState>;
+
+ static constexpr FieldMetadata_BufferCrop kBufferCrop{};
+ template <typename T = RectProto> T* set_buffer_crop() {
+ return BeginNestedMessage<T>(40);
+ }
+
+
+ using FieldMetadata_DestinationFrame =
+ ::protozero::proto_utils::FieldMetadata<
+ 41,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ RectProto,
+ LayerState>;
+
+ static constexpr FieldMetadata_DestinationFrame kDestinationFrame{};
+ template <typename T = RectProto> T* set_destination_frame() {
+ return BeginNestedMessage<T>(41);
+ }
+
+
+ using FieldMetadata_DropInputMode =
+ ::protozero::proto_utils::FieldMetadata<
+ 42,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ LayerState_DropInputMode,
+ LayerState>;
+
+ static constexpr FieldMetadata_DropInputMode kDropInputMode{};
+ void set_drop_input_mode(LayerState_DropInputMode value) {
+ static constexpr uint32_t field_id = FieldMetadata_DropInputMode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class LayerState_WindowInfo_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/12, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ LayerState_WindowInfo_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit LayerState_WindowInfo_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit LayerState_WindowInfo_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_layout_params_flags() const { return at<1>().valid(); }
+ uint32_t layout_params_flags() const { return at<1>().as_uint32(); }
+ bool has_layout_params_type() const { return at<2>().valid(); }
+ int32_t layout_params_type() const { return at<2>().as_int32(); }
+ bool has_touchable_region() const { return at<3>().valid(); }
+ ::protozero::ConstBytes touchable_region() const { return at<3>().as_bytes(); }
+ bool has_surface_inset() const { return at<4>().valid(); }
+ int32_t surface_inset() const { return at<4>().as_int32(); }
+ bool has_focusable() const { return at<5>().valid(); }
+ bool focusable() const { return at<5>().as_bool(); }
+ bool has_has_wallpaper() const { return at<6>().valid(); }
+ bool has_wallpaper() const { return at<6>().as_bool(); }
+ bool has_global_scale_factor() const { return at<7>().valid(); }
+ float global_scale_factor() const { return at<7>().as_float(); }
+ bool has_crop_layer_id() const { return at<8>().valid(); }
+ uint32_t crop_layer_id() const { return at<8>().as_uint32(); }
+ bool has_replace_touchable_region_with_crop() const { return at<9>().valid(); }
+ bool replace_touchable_region_with_crop() const { return at<9>().as_bool(); }
+ bool has_touchable_region_crop() const { return at<10>().valid(); }
+ ::protozero::ConstBytes touchable_region_crop() const { return at<10>().as_bytes(); }
+ bool has_transform() const { return at<11>().valid(); }
+ ::protozero::ConstBytes transform() const { return at<11>().as_bytes(); }
+ bool has_input_config() const { return at<12>().valid(); }
+ uint32_t input_config() const { return at<12>().as_uint32(); }
+};
+
+class LayerState_WindowInfo : public ::protozero::Message {
+ public:
+ using Decoder = LayerState_WindowInfo_Decoder;
+ enum : int32_t {
+ kLayoutParamsFlagsFieldNumber = 1,
+ kLayoutParamsTypeFieldNumber = 2,
+ kTouchableRegionFieldNumber = 3,
+ kSurfaceInsetFieldNumber = 4,
+ kFocusableFieldNumber = 5,
+ kHasWallpaperFieldNumber = 6,
+ kGlobalScaleFactorFieldNumber = 7,
+ kCropLayerIdFieldNumber = 8,
+ kReplaceTouchableRegionWithCropFieldNumber = 9,
+ kTouchableRegionCropFieldNumber = 10,
+ kTransformFieldNumber = 11,
+ kInputConfigFieldNumber = 12,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.LayerState.WindowInfo"; }
+
+
+ using FieldMetadata_LayoutParamsFlags =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ LayerState_WindowInfo>;
+
+ static constexpr FieldMetadata_LayoutParamsFlags kLayoutParamsFlags{};
+ void set_layout_params_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_LayoutParamsFlags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_LayoutParamsType =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ LayerState_WindowInfo>;
+
+ static constexpr FieldMetadata_LayoutParamsType kLayoutParamsType{};
+ void set_layout_params_type(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_LayoutParamsType::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TouchableRegion =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ RegionProto,
+ LayerState_WindowInfo>;
+
+ static constexpr FieldMetadata_TouchableRegion kTouchableRegion{};
+ template <typename T = RegionProto> T* set_touchable_region() {
+ return BeginNestedMessage<T>(3);
+ }
+
+
+ using FieldMetadata_SurfaceInset =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ LayerState_WindowInfo>;
+
+ static constexpr FieldMetadata_SurfaceInset kSurfaceInset{};
+ void set_surface_inset(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SurfaceInset::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Focusable =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ LayerState_WindowInfo>;
+
+ static constexpr FieldMetadata_Focusable kFocusable{};
+ void set_focusable(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_Focusable::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_HasWallpaper =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ LayerState_WindowInfo>;
+
+ static constexpr FieldMetadata_HasWallpaper kHasWallpaper{};
+ void set_has_wallpaper(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_HasWallpaper::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_GlobalScaleFactor =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFloat,
+ float,
+ LayerState_WindowInfo>;
+
+ static constexpr FieldMetadata_GlobalScaleFactor kGlobalScaleFactor{};
+ void set_global_scale_factor(float value) {
+ static constexpr uint32_t field_id = FieldMetadata_GlobalScaleFactor::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFloat>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CropLayerId =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ LayerState_WindowInfo>;
+
+ static constexpr FieldMetadata_CropLayerId kCropLayerId{};
+ void set_crop_layer_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CropLayerId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ReplaceTouchableRegionWithCrop =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ LayerState_WindowInfo>;
+
+ static constexpr FieldMetadata_ReplaceTouchableRegionWithCrop kReplaceTouchableRegionWithCrop{};
+ void set_replace_touchable_region_with_crop(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_ReplaceTouchableRegionWithCrop::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TouchableRegionCrop =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ RectProto,
+ LayerState_WindowInfo>;
+
+ static constexpr FieldMetadata_TouchableRegionCrop kTouchableRegionCrop{};
+ template <typename T = RectProto> T* set_touchable_region_crop() {
+ return BeginNestedMessage<T>(10);
+ }
+
+
+ using FieldMetadata_Transform =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Transform,
+ LayerState_WindowInfo>;
+
+ static constexpr FieldMetadata_Transform kTransform{};
+ template <typename T = Transform> T* set_transform() {
+ return BeginNestedMessage<T>(11);
+ }
+
+
+ using FieldMetadata_InputConfig =
+ ::protozero::proto_utils::FieldMetadata<
+ 12,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ LayerState_WindowInfo>;
+
+ static constexpr FieldMetadata_InputConfig kInputConfig{};
+ void set_input_config(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_InputConfig::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class LayerState_BufferData_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/8, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ LayerState_BufferData_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit LayerState_BufferData_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit LayerState_BufferData_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_buffer_id() const { return at<1>().valid(); }
+ uint64_t buffer_id() const { return at<1>().as_uint64(); }
+ bool has_width() const { return at<2>().valid(); }
+ uint32_t width() const { return at<2>().as_uint32(); }
+ bool has_height() const { return at<3>().valid(); }
+ uint32_t height() const { return at<3>().as_uint32(); }
+ bool has_frame_number() const { return at<4>().valid(); }
+ uint64_t frame_number() const { return at<4>().as_uint64(); }
+ bool has_flags() const { return at<5>().valid(); }
+ uint32_t flags() const { return at<5>().as_uint32(); }
+ bool has_cached_buffer_id() const { return at<6>().valid(); }
+ uint64_t cached_buffer_id() const { return at<6>().as_uint64(); }
+ bool has_pixel_format() const { return at<7>().valid(); }
+ int32_t pixel_format() const { return at<7>().as_int32(); }
+ bool has_usage() const { return at<8>().valid(); }
+ uint64_t usage() const { return at<8>().as_uint64(); }
+};
+
+class LayerState_BufferData : public ::protozero::Message {
+ public:
+ using Decoder = LayerState_BufferData_Decoder;
+ enum : int32_t {
+ kBufferIdFieldNumber = 1,
+ kWidthFieldNumber = 2,
+ kHeightFieldNumber = 3,
+ kFrameNumberFieldNumber = 4,
+ kFlagsFieldNumber = 5,
+ kCachedBufferIdFieldNumber = 6,
+ kPixelFormatFieldNumber = 7,
+ kUsageFieldNumber = 8,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.LayerState.BufferData"; }
+
+
+ using BufferDataChange = ::perfetto::protos::pbzero::LayerState_BufferData_BufferDataChange;
+ static inline const char* BufferDataChange_Name(BufferDataChange value) {
+ return ::perfetto::protos::pbzero::LayerState_BufferData_BufferDataChange_Name(value);
+ }
+
+ using PixelFormat = ::perfetto::protos::pbzero::LayerState_BufferData_PixelFormat;
+ static inline const char* PixelFormat_Name(PixelFormat value) {
+ return ::perfetto::protos::pbzero::LayerState_BufferData_PixelFormat_Name(value);
+ }
+ static inline const BufferDataChange BufferDataChangeNone = BufferDataChange::BufferDataChangeNone;
+ static inline const BufferDataChange fenceChanged = BufferDataChange::fenceChanged;
+ static inline const BufferDataChange frameNumberChanged = BufferDataChange::frameNumberChanged;
+ static inline const BufferDataChange cachedBufferChanged = BufferDataChange::cachedBufferChanged;
+ static inline const PixelFormat PIXEL_FORMAT_UNKNOWN = PixelFormat::PIXEL_FORMAT_UNKNOWN;
+ static inline const PixelFormat PIXEL_FORMAT_CUSTOM = PixelFormat::PIXEL_FORMAT_CUSTOM;
+ static inline const PixelFormat PIXEL_FORMAT_TRANSLUCENT = PixelFormat::PIXEL_FORMAT_TRANSLUCENT;
+ static inline const PixelFormat PIXEL_FORMAT_TRANSPARENT = PixelFormat::PIXEL_FORMAT_TRANSPARENT;
+ static inline const PixelFormat PIXEL_FORMAT_OPAQUE = PixelFormat::PIXEL_FORMAT_OPAQUE;
+ static inline const PixelFormat PIXEL_FORMAT_RGBA_8888 = PixelFormat::PIXEL_FORMAT_RGBA_8888;
+ static inline const PixelFormat PIXEL_FORMAT_RGBX_8888 = PixelFormat::PIXEL_FORMAT_RGBX_8888;
+ static inline const PixelFormat PIXEL_FORMAT_RGB_888 = PixelFormat::PIXEL_FORMAT_RGB_888;
+ static inline const PixelFormat PIXEL_FORMAT_RGB_565 = PixelFormat::PIXEL_FORMAT_RGB_565;
+ static inline const PixelFormat PIXEL_FORMAT_BGRA_8888 = PixelFormat::PIXEL_FORMAT_BGRA_8888;
+ static inline const PixelFormat PIXEL_FORMAT_RGBA_5551 = PixelFormat::PIXEL_FORMAT_RGBA_5551;
+ static inline const PixelFormat PIXEL_FORMAT_RGBA_4444 = PixelFormat::PIXEL_FORMAT_RGBA_4444;
+ static inline const PixelFormat PIXEL_FORMAT_RGBA_FP16 = PixelFormat::PIXEL_FORMAT_RGBA_FP16;
+ static inline const PixelFormat PIXEL_FORMAT_RGBA_1010102 = PixelFormat::PIXEL_FORMAT_RGBA_1010102;
+ static inline const PixelFormat PIXEL_FORMAT_R_8 = PixelFormat::PIXEL_FORMAT_R_8;
+
+ using FieldMetadata_BufferId =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ LayerState_BufferData>;
+
+ static constexpr FieldMetadata_BufferId kBufferId{};
+ void set_buffer_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BufferId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Width =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ LayerState_BufferData>;
+
+ static constexpr FieldMetadata_Width kWidth{};
+ void set_width(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Width::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Height =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ LayerState_BufferData>;
+
+ static constexpr FieldMetadata_Height kHeight{};
+ void set_height(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Height::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FrameNumber =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ LayerState_BufferData>;
+
+ static constexpr FieldMetadata_FrameNumber kFrameNumber{};
+ void set_frame_number(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FrameNumber::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Flags =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ LayerState_BufferData>;
+
+ static constexpr FieldMetadata_Flags kFlags{};
+ void set_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Flags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CachedBufferId =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ LayerState_BufferData>;
+
+ static constexpr FieldMetadata_CachedBufferId kCachedBufferId{};
+ void set_cached_buffer_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CachedBufferId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PixelFormat =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ LayerState_BufferData_PixelFormat,
+ LayerState_BufferData>;
+
+ static constexpr FieldMetadata_PixelFormat kPixelFormat{};
+ void set_pixel_format(LayerState_BufferData_PixelFormat value) {
+ static constexpr uint32_t field_id = FieldMetadata_PixelFormat::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Usage =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ LayerState_BufferData>;
+
+ static constexpr FieldMetadata_Usage kUsage{};
+ void set_usage(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Usage::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class LayerState_Color3_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ LayerState_Color3_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit LayerState_Color3_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit LayerState_Color3_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_r() const { return at<1>().valid(); }
+ float r() const { return at<1>().as_float(); }
+ bool has_g() const { return at<2>().valid(); }
+ float g() const { return at<2>().as_float(); }
+ bool has_b() const { return at<3>().valid(); }
+ float b() const { return at<3>().as_float(); }
+};
+
+class LayerState_Color3 : public ::protozero::Message {
+ public:
+ using Decoder = LayerState_Color3_Decoder;
+ enum : int32_t {
+ kRFieldNumber = 1,
+ kGFieldNumber = 2,
+ kBFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.LayerState.Color3"; }
+
+
+ using FieldMetadata_R =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFloat,
+ float,
+ LayerState_Color3>;
+
+ static constexpr FieldMetadata_R kR{};
+ void set_r(float value) {
+ static constexpr uint32_t field_id = FieldMetadata_R::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFloat>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_G =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFloat,
+ float,
+ LayerState_Color3>;
+
+ static constexpr FieldMetadata_G kG{};
+ void set_g(float value) {
+ static constexpr uint32_t field_id = FieldMetadata_G::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFloat>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_B =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFloat,
+ float,
+ LayerState_Color3>;
+
+ static constexpr FieldMetadata_B kB{};
+ void set_b(float value) {
+ static constexpr uint32_t field_id = FieldMetadata_B::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFloat>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class LayerState_Matrix22_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ LayerState_Matrix22_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit LayerState_Matrix22_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit LayerState_Matrix22_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dsdx() const { return at<1>().valid(); }
+ float dsdx() const { return at<1>().as_float(); }
+ bool has_dtdx() const { return at<2>().valid(); }
+ float dtdx() const { return at<2>().as_float(); }
+ bool has_dtdy() const { return at<3>().valid(); }
+ float dtdy() const { return at<3>().as_float(); }
+ bool has_dsdy() const { return at<4>().valid(); }
+ float dsdy() const { return at<4>().as_float(); }
+};
+
+class LayerState_Matrix22 : public ::protozero::Message {
+ public:
+ using Decoder = LayerState_Matrix22_Decoder;
+ enum : int32_t {
+ kDsdxFieldNumber = 1,
+ kDtdxFieldNumber = 2,
+ kDtdyFieldNumber = 3,
+ kDsdyFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.LayerState.Matrix22"; }
+
+
+ using FieldMetadata_Dsdx =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFloat,
+ float,
+ LayerState_Matrix22>;
+
+ static constexpr FieldMetadata_Dsdx kDsdx{};
+ void set_dsdx(float value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dsdx::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFloat>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Dtdx =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFloat,
+ float,
+ LayerState_Matrix22>;
+
+ static constexpr FieldMetadata_Dtdx kDtdx{};
+ void set_dtdx(float value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dtdx::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFloat>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Dtdy =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFloat,
+ float,
+ LayerState_Matrix22>;
+
+ static constexpr FieldMetadata_Dtdy kDtdy{};
+ void set_dtdy(float value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dtdy::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFloat>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Dsdy =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFloat,
+ float,
+ LayerState_Matrix22>;
+
+ static constexpr FieldMetadata_Dsdy kDsdy{};
+ void set_dsdy(float value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dsdy::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFloat>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class TransactionState_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/9, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ TransactionState_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TransactionState_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TransactionState_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_pid() const { return at<1>().valid(); }
+ int32_t pid() const { return at<1>().as_int32(); }
+ bool has_uid() const { return at<2>().valid(); }
+ int32_t uid() const { return at<2>().as_int32(); }
+ bool has_vsync_id() const { return at<3>().valid(); }
+ int64_t vsync_id() const { return at<3>().as_int64(); }
+ bool has_input_event_id() const { return at<4>().valid(); }
+ int32_t input_event_id() const { return at<4>().as_int32(); }
+ bool has_post_time() const { return at<5>().valid(); }
+ int64_t post_time() const { return at<5>().as_int64(); }
+ bool has_transaction_id() const { return at<6>().valid(); }
+ uint64_t transaction_id() const { return at<6>().as_uint64(); }
+ bool has_layer_changes() const { return at<7>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> layer_changes() const { return GetRepeated<::protozero::ConstBytes>(7); }
+ bool has_display_changes() const { return at<8>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> display_changes() const { return GetRepeated<::protozero::ConstBytes>(8); }
+ bool has_merged_transaction_ids() const { return at<9>().valid(); }
+ ::protozero::RepeatedFieldIterator<uint64_t> merged_transaction_ids() const { return GetRepeated<uint64_t>(9); }
+};
+
+class TransactionState : public ::protozero::Message {
+ public:
+ using Decoder = TransactionState_Decoder;
+ enum : int32_t {
+ kPidFieldNumber = 1,
+ kUidFieldNumber = 2,
+ kVsyncIdFieldNumber = 3,
+ kInputEventIdFieldNumber = 4,
+ kPostTimeFieldNumber = 5,
+ kTransactionIdFieldNumber = 6,
+ kLayerChangesFieldNumber = 7,
+ kDisplayChangesFieldNumber = 8,
+ kMergedTransactionIdsFieldNumber = 9,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TransactionState"; }
+
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ TransactionState>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Uid =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ TransactionState>;
+
+ static constexpr FieldMetadata_Uid kUid{};
+ void set_uid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Uid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_VsyncId =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ TransactionState>;
+
+ static constexpr FieldMetadata_VsyncId kVsyncId{};
+ void set_vsync_id(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_VsyncId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_InputEventId =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ TransactionState>;
+
+ static constexpr FieldMetadata_InputEventId kInputEventId{};
+ void set_input_event_id(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_InputEventId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PostTime =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ TransactionState>;
+
+ static constexpr FieldMetadata_PostTime kPostTime{};
+ void set_post_time(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PostTime::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TransactionId =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TransactionState>;
+
+ static constexpr FieldMetadata_TransactionId kTransactionId{};
+ void set_transaction_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TransactionId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_LayerChanges =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ LayerState,
+ TransactionState>;
+
+ static constexpr FieldMetadata_LayerChanges kLayerChanges{};
+ template <typename T = LayerState> T* add_layer_changes() {
+ return BeginNestedMessage<T>(7);
+ }
+
+
+ using FieldMetadata_DisplayChanges =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ DisplayState,
+ TransactionState>;
+
+ static constexpr FieldMetadata_DisplayChanges kDisplayChanges{};
+ template <typename T = DisplayState> T* add_display_changes() {
+ return BeginNestedMessage<T>(8);
+ }
+
+
+ using FieldMetadata_MergedTransactionIds =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TransactionState>;
+
+ static constexpr FieldMetadata_MergedTransactionIds kMergedTransactionIds{};
+ void add_merged_transaction_ids(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MergedTransactionIds::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Transform_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/6, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Transform_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Transform_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Transform_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dsdx() const { return at<1>().valid(); }
+ float dsdx() const { return at<1>().as_float(); }
+ bool has_dtdx() const { return at<2>().valid(); }
+ float dtdx() const { return at<2>().as_float(); }
+ bool has_dtdy() const { return at<3>().valid(); }
+ float dtdy() const { return at<3>().as_float(); }
+ bool has_dsdy() const { return at<4>().valid(); }
+ float dsdy() const { return at<4>().as_float(); }
+ bool has_tx() const { return at<5>().valid(); }
+ float tx() const { return at<5>().as_float(); }
+ bool has_ty() const { return at<6>().valid(); }
+ float ty() const { return at<6>().as_float(); }
+};
+
+class Transform : public ::protozero::Message {
+ public:
+ using Decoder = Transform_Decoder;
+ enum : int32_t {
+ kDsdxFieldNumber = 1,
+ kDtdxFieldNumber = 2,
+ kDtdyFieldNumber = 3,
+ kDsdyFieldNumber = 4,
+ kTxFieldNumber = 5,
+ kTyFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Transform"; }
+
+
+ using FieldMetadata_Dsdx =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFloat,
+ float,
+ Transform>;
+
+ static constexpr FieldMetadata_Dsdx kDsdx{};
+ void set_dsdx(float value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dsdx::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFloat>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Dtdx =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFloat,
+ float,
+ Transform>;
+
+ static constexpr FieldMetadata_Dtdx kDtdx{};
+ void set_dtdx(float value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dtdx::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFloat>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Dtdy =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFloat,
+ float,
+ Transform>;
+
+ static constexpr FieldMetadata_Dtdy kDtdy{};
+ void set_dtdy(float value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dtdy::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFloat>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Dsdy =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFloat,
+ float,
+ Transform>;
+
+ static constexpr FieldMetadata_Dsdy kDsdy{};
+ void set_dsdy(float value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dsdy::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFloat>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Tx =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFloat,
+ float,
+ Transform>;
+
+ static constexpr FieldMetadata_Tx kTx{};
+ void set_tx(float value) {
+ static constexpr uint32_t field_id = FieldMetadata_Tx::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFloat>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ty =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFloat,
+ float,
+ Transform>;
+
+ static constexpr FieldMetadata_Ty kTy{};
+ void set_ty(float value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ty::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFloat>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class LayerCreationArgs_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/7, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ LayerCreationArgs_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit LayerCreationArgs_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit LayerCreationArgs_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_layer_id() const { return at<1>().valid(); }
+ uint32_t layer_id() const { return at<1>().as_uint32(); }
+ bool has_name() const { return at<2>().valid(); }
+ ::protozero::ConstChars name() const { return at<2>().as_string(); }
+ bool has_flags() const { return at<3>().valid(); }
+ uint32_t flags() const { return at<3>().as_uint32(); }
+ bool has_parent_id() const { return at<4>().valid(); }
+ uint32_t parent_id() const { return at<4>().as_uint32(); }
+ bool has_mirror_from_id() const { return at<5>().valid(); }
+ uint32_t mirror_from_id() const { return at<5>().as_uint32(); }
+ bool has_add_to_root() const { return at<6>().valid(); }
+ bool add_to_root() const { return at<6>().as_bool(); }
+ bool has_layer_stack_to_mirror() const { return at<7>().valid(); }
+ uint32_t layer_stack_to_mirror() const { return at<7>().as_uint32(); }
+};
+
+class LayerCreationArgs : public ::protozero::Message {
+ public:
+ using Decoder = LayerCreationArgs_Decoder;
+ enum : int32_t {
+ kLayerIdFieldNumber = 1,
+ kNameFieldNumber = 2,
+ kFlagsFieldNumber = 3,
+ kParentIdFieldNumber = 4,
+ kMirrorFromIdFieldNumber = 5,
+ kAddToRootFieldNumber = 6,
+ kLayerStackToMirrorFieldNumber = 7,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.LayerCreationArgs"; }
+
+
+ using FieldMetadata_LayerId =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ LayerCreationArgs>;
+
+ static constexpr FieldMetadata_LayerId kLayerId{};
+ void set_layer_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_LayerId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ LayerCreationArgs>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Flags =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ LayerCreationArgs>;
+
+ static constexpr FieldMetadata_Flags kFlags{};
+ void set_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Flags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ParentId =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ LayerCreationArgs>;
+
+ static constexpr FieldMetadata_ParentId kParentId{};
+ void set_parent_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ParentId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MirrorFromId =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ LayerCreationArgs>;
+
+ static constexpr FieldMetadata_MirrorFromId kMirrorFromId{};
+ void set_mirror_from_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MirrorFromId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_AddToRoot =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ LayerCreationArgs>;
+
+ static constexpr FieldMetadata_AddToRoot kAddToRoot{};
+ void set_add_to_root(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_AddToRoot::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_LayerStackToMirror =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ LayerCreationArgs>;
+
+ static constexpr FieldMetadata_LayerStackToMirror kLayerStackToMirror{};
+ void set_layer_stack_to_mirror(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_LayerStackToMirror::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class DisplayInfo_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/12, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ DisplayInfo_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit DisplayInfo_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit DisplayInfo_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_layer_stack() const { return at<1>().valid(); }
+ uint32_t layer_stack() const { return at<1>().as_uint32(); }
+ bool has_display_id() const { return at<2>().valid(); }
+ int32_t display_id() const { return at<2>().as_int32(); }
+ bool has_logical_width() const { return at<3>().valid(); }
+ int32_t logical_width() const { return at<3>().as_int32(); }
+ bool has_logical_height() const { return at<4>().valid(); }
+ int32_t logical_height() const { return at<4>().as_int32(); }
+ bool has_transform_inverse() const { return at<5>().valid(); }
+ ::protozero::ConstBytes transform_inverse() const { return at<5>().as_bytes(); }
+ bool has_transform() const { return at<6>().valid(); }
+ ::protozero::ConstBytes transform() const { return at<6>().as_bytes(); }
+ bool has_receives_input() const { return at<7>().valid(); }
+ bool receives_input() const { return at<7>().as_bool(); }
+ bool has_is_secure() const { return at<8>().valid(); }
+ bool is_secure() const { return at<8>().as_bool(); }
+ bool has_is_primary() const { return at<9>().valid(); }
+ bool is_primary() const { return at<9>().as_bool(); }
+ bool has_is_virtual() const { return at<10>().valid(); }
+ bool is_virtual() const { return at<10>().as_bool(); }
+ bool has_rotation_flags() const { return at<11>().valid(); }
+ int32_t rotation_flags() const { return at<11>().as_int32(); }
+ bool has_transform_hint() const { return at<12>().valid(); }
+ int32_t transform_hint() const { return at<12>().as_int32(); }
+};
+
+class DisplayInfo : public ::protozero::Message {
+ public:
+ using Decoder = DisplayInfo_Decoder;
+ enum : int32_t {
+ kLayerStackFieldNumber = 1,
+ kDisplayIdFieldNumber = 2,
+ kLogicalWidthFieldNumber = 3,
+ kLogicalHeightFieldNumber = 4,
+ kTransformInverseFieldNumber = 5,
+ kTransformFieldNumber = 6,
+ kReceivesInputFieldNumber = 7,
+ kIsSecureFieldNumber = 8,
+ kIsPrimaryFieldNumber = 9,
+ kIsVirtualFieldNumber = 10,
+ kRotationFlagsFieldNumber = 11,
+ kTransformHintFieldNumber = 12,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.DisplayInfo"; }
+
+
+ using FieldMetadata_LayerStack =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ DisplayInfo>;
+
+ static constexpr FieldMetadata_LayerStack kLayerStack{};
+ void set_layer_stack(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_LayerStack::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DisplayId =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ DisplayInfo>;
+
+ static constexpr FieldMetadata_DisplayId kDisplayId{};
+ void set_display_id(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DisplayId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_LogicalWidth =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ DisplayInfo>;
+
+ static constexpr FieldMetadata_LogicalWidth kLogicalWidth{};
+ void set_logical_width(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_LogicalWidth::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_LogicalHeight =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ DisplayInfo>;
+
+ static constexpr FieldMetadata_LogicalHeight kLogicalHeight{};
+ void set_logical_height(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_LogicalHeight::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TransformInverse =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Transform,
+ DisplayInfo>;
+
+ static constexpr FieldMetadata_TransformInverse kTransformInverse{};
+ template <typename T = Transform> T* set_transform_inverse() {
+ return BeginNestedMessage<T>(5);
+ }
+
+
+ using FieldMetadata_Transform =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Transform,
+ DisplayInfo>;
+
+ static constexpr FieldMetadata_Transform kTransform{};
+ template <typename T = Transform> T* set_transform() {
+ return BeginNestedMessage<T>(6);
+ }
+
+
+ using FieldMetadata_ReceivesInput =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ DisplayInfo>;
+
+ static constexpr FieldMetadata_ReceivesInput kReceivesInput{};
+ void set_receives_input(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_ReceivesInput::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IsSecure =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ DisplayInfo>;
+
+ static constexpr FieldMetadata_IsSecure kIsSecure{};
+ void set_is_secure(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_IsSecure::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IsPrimary =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ DisplayInfo>;
+
+ static constexpr FieldMetadata_IsPrimary kIsPrimary{};
+ void set_is_primary(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_IsPrimary::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IsVirtual =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ DisplayInfo>;
+
+ static constexpr FieldMetadata_IsVirtual kIsVirtual{};
+ void set_is_virtual(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_IsVirtual::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_RotationFlags =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ DisplayInfo>;
+
+ static constexpr FieldMetadata_RotationFlags kRotationFlags{};
+ void set_rotation_flags(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_RotationFlags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TransformHint =
+ ::protozero::proto_utils::FieldMetadata<
+ 12,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ DisplayInfo>;
+
+ static constexpr FieldMetadata_TransformHint kTransformHint{};
+ void set_transform_hint(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TransformHint::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class TransactionTraceEntry_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/10, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ TransactionTraceEntry_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TransactionTraceEntry_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TransactionTraceEntry_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_elapsed_realtime_nanos() const { return at<1>().valid(); }
+ int64_t elapsed_realtime_nanos() const { return at<1>().as_int64(); }
+ bool has_vsync_id() const { return at<2>().valid(); }
+ int64_t vsync_id() const { return at<2>().as_int64(); }
+ bool has_transactions() const { return at<3>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> transactions() const { return GetRepeated<::protozero::ConstBytes>(3); }
+ bool has_added_layers() const { return at<4>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> added_layers() const { return GetRepeated<::protozero::ConstBytes>(4); }
+ bool has_destroyed_layers() const { return at<5>().valid(); }
+ ::protozero::RepeatedFieldIterator<uint32_t> destroyed_layers() const { return GetRepeated<uint32_t>(5); }
+ bool has_added_displays() const { return at<6>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> added_displays() const { return GetRepeated<::protozero::ConstBytes>(6); }
+ bool has_removed_displays() const { return at<7>().valid(); }
+ ::protozero::RepeatedFieldIterator<int32_t> removed_displays() const { return GetRepeated<int32_t>(7); }
+ bool has_destroyed_layer_handles() const { return at<8>().valid(); }
+ ::protozero::RepeatedFieldIterator<uint32_t> destroyed_layer_handles() const { return GetRepeated<uint32_t>(8); }
+ bool has_displays_changed() const { return at<9>().valid(); }
+ bool displays_changed() const { return at<9>().as_bool(); }
+ bool has_displays() const { return at<10>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> displays() const { return GetRepeated<::protozero::ConstBytes>(10); }
+};
+
+class TransactionTraceEntry : public ::protozero::Message {
+ public:
+ using Decoder = TransactionTraceEntry_Decoder;
+ enum : int32_t {
+ kElapsedRealtimeNanosFieldNumber = 1,
+ kVsyncIdFieldNumber = 2,
+ kTransactionsFieldNumber = 3,
+ kAddedLayersFieldNumber = 4,
+ kDestroyedLayersFieldNumber = 5,
+ kAddedDisplaysFieldNumber = 6,
+ kRemovedDisplaysFieldNumber = 7,
+ kDestroyedLayerHandlesFieldNumber = 8,
+ kDisplaysChangedFieldNumber = 9,
+ kDisplaysFieldNumber = 10,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TransactionTraceEntry"; }
+
+
+ using FieldMetadata_ElapsedRealtimeNanos =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ TransactionTraceEntry>;
+
+ static constexpr FieldMetadata_ElapsedRealtimeNanos kElapsedRealtimeNanos{};
+ void set_elapsed_realtime_nanos(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ElapsedRealtimeNanos::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_VsyncId =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ TransactionTraceEntry>;
+
+ static constexpr FieldMetadata_VsyncId kVsyncId{};
+ void set_vsync_id(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_VsyncId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Transactions =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TransactionState,
+ TransactionTraceEntry>;
+
+ static constexpr FieldMetadata_Transactions kTransactions{};
+ template <typename T = TransactionState> T* add_transactions() {
+ return BeginNestedMessage<T>(3);
+ }
+
+
+ using FieldMetadata_AddedLayers =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ LayerCreationArgs,
+ TransactionTraceEntry>;
+
+ static constexpr FieldMetadata_AddedLayers kAddedLayers{};
+ template <typename T = LayerCreationArgs> T* add_added_layers() {
+ return BeginNestedMessage<T>(4);
+ }
+
+
+ using FieldMetadata_DestroyedLayers =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TransactionTraceEntry>;
+
+ static constexpr FieldMetadata_DestroyedLayers kDestroyedLayers{};
+ void add_destroyed_layers(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DestroyedLayers::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_AddedDisplays =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ DisplayState,
+ TransactionTraceEntry>;
+
+ static constexpr FieldMetadata_AddedDisplays kAddedDisplays{};
+ template <typename T = DisplayState> T* add_added_displays() {
+ return BeginNestedMessage<T>(6);
+ }
+
+
+ using FieldMetadata_RemovedDisplays =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ TransactionTraceEntry>;
+
+ static constexpr FieldMetadata_RemovedDisplays kRemovedDisplays{};
+ void add_removed_displays(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_RemovedDisplays::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DestroyedLayerHandles =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TransactionTraceEntry>;
+
+ static constexpr FieldMetadata_DestroyedLayerHandles kDestroyedLayerHandles{};
+ void add_destroyed_layer_handles(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DestroyedLayerHandles::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DisplaysChanged =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ TransactionTraceEntry>;
+
+ static constexpr FieldMetadata_DisplaysChanged kDisplaysChanged{};
+ void set_displays_changed(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_DisplaysChanged::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Displays =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ DisplayInfo,
+ TransactionTraceEntry>;
+
+ static constexpr FieldMetadata_Displays kDisplays{};
+ template <typename T = DisplayInfo> T* add_displays() {
+ return BeginNestedMessage<T>(10);
+ }
+
+};
+
+class TransactionTraceFile_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ TransactionTraceFile_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TransactionTraceFile_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TransactionTraceFile_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_magic_number() const { return at<1>().valid(); }
+ uint64_t magic_number() const { return at<1>().as_uint64(); }
+ bool has_entry() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> entry() const { return GetRepeated<::protozero::ConstBytes>(2); }
+ bool has_real_to_elapsed_time_offset_nanos() const { return at<3>().valid(); }
+ uint64_t real_to_elapsed_time_offset_nanos() const { return at<3>().as_uint64(); }
+ bool has_version() const { return at<4>().valid(); }
+ uint32_t version() const { return at<4>().as_uint32(); }
+};
+
+class TransactionTraceFile : public ::protozero::Message {
+ public:
+ using Decoder = TransactionTraceFile_Decoder;
+ enum : int32_t {
+ kMagicNumberFieldNumber = 1,
+ kEntryFieldNumber = 2,
+ kRealToElapsedTimeOffsetNanosFieldNumber = 3,
+ kVersionFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TransactionTraceFile"; }
+
+
+ using MagicNumber = ::perfetto::protos::pbzero::TransactionTraceFile_MagicNumber;
+ static inline const char* MagicNumber_Name(MagicNumber value) {
+ return ::perfetto::protos::pbzero::TransactionTraceFile_MagicNumber_Name(value);
+ }
+ static inline const MagicNumber INVALID = MagicNumber::INVALID;
+ static inline const MagicNumber MAGIC_NUMBER_L = MagicNumber::MAGIC_NUMBER_L;
+ static inline const MagicNumber MAGIC_NUMBER_H = MagicNumber::MAGIC_NUMBER_H;
+
+ using FieldMetadata_MagicNumber =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFixed64,
+ uint64_t,
+ TransactionTraceFile>;
+
+ static constexpr FieldMetadata_MagicNumber kMagicNumber{};
+ void set_magic_number(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MagicNumber::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFixed64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Entry =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TransactionTraceEntry,
+ TransactionTraceFile>;
+
+ static constexpr FieldMetadata_Entry kEntry{};
+ template <typename T = TransactionTraceEntry> T* add_entry() {
+ return BeginNestedMessage<T>(2);
+ }
+
+
+ using FieldMetadata_RealToElapsedTimeOffsetNanos =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFixed64,
+ uint64_t,
+ TransactionTraceFile>;
+
+ static constexpr FieldMetadata_RealToElapsedTimeOffsetNanos kRealToElapsedTimeOffsetNanos{};
+ void set_real_to_elapsed_time_offset_nanos(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_RealToElapsedTimeOffsetNanos::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFixed64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Version =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TransactionTraceFile>;
+
+ static constexpr FieldMetadata_Version kVersion{};
+ void set_version(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Version::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/chrome/chrome_benchmark_metadata.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_CHROME_CHROME_BENCHMARK_METADATA_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_CHROME_CHROME_BENCHMARK_METADATA_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class ChromeBenchmarkMetadata_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/9, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ ChromeBenchmarkMetadata_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ChromeBenchmarkMetadata_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ChromeBenchmarkMetadata_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_benchmark_start_time_us() const { return at<1>().valid(); }
+ int64_t benchmark_start_time_us() const { return at<1>().as_int64(); }
+ bool has_story_run_time_us() const { return at<2>().valid(); }
+ int64_t story_run_time_us() const { return at<2>().as_int64(); }
+ bool has_benchmark_name() const { return at<3>().valid(); }
+ ::protozero::ConstChars benchmark_name() const { return at<3>().as_string(); }
+ bool has_benchmark_description() const { return at<4>().valid(); }
+ ::protozero::ConstChars benchmark_description() const { return at<4>().as_string(); }
+ bool has_label() const { return at<5>().valid(); }
+ ::protozero::ConstChars label() const { return at<5>().as_string(); }
+ bool has_story_name() const { return at<6>().valid(); }
+ ::protozero::ConstChars story_name() const { return at<6>().as_string(); }
+ bool has_story_tags() const { return at<7>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstChars> story_tags() const { return GetRepeated<::protozero::ConstChars>(7); }
+ bool has_story_run_index() const { return at<8>().valid(); }
+ int32_t story_run_index() const { return at<8>().as_int32(); }
+ bool has_had_failures() const { return at<9>().valid(); }
+ bool had_failures() const { return at<9>().as_bool(); }
+};
+
+class ChromeBenchmarkMetadata : public ::protozero::Message {
+ public:
+ using Decoder = ChromeBenchmarkMetadata_Decoder;
+ enum : int32_t {
+ kBenchmarkStartTimeUsFieldNumber = 1,
+ kStoryRunTimeUsFieldNumber = 2,
+ kBenchmarkNameFieldNumber = 3,
+ kBenchmarkDescriptionFieldNumber = 4,
+ kLabelFieldNumber = 5,
+ kStoryNameFieldNumber = 6,
+ kStoryTagsFieldNumber = 7,
+ kStoryRunIndexFieldNumber = 8,
+ kHadFailuresFieldNumber = 9,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ChromeBenchmarkMetadata"; }
+
+
+ using FieldMetadata_BenchmarkStartTimeUs =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ ChromeBenchmarkMetadata>;
+
+ static constexpr FieldMetadata_BenchmarkStartTimeUs kBenchmarkStartTimeUs{};
+ void set_benchmark_start_time_us(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BenchmarkStartTimeUs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_StoryRunTimeUs =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ ChromeBenchmarkMetadata>;
+
+ static constexpr FieldMetadata_StoryRunTimeUs kStoryRunTimeUs{};
+ void set_story_run_time_us(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_StoryRunTimeUs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BenchmarkName =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ChromeBenchmarkMetadata>;
+
+ static constexpr FieldMetadata_BenchmarkName kBenchmarkName{};
+ void set_benchmark_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_BenchmarkName::kFieldId, data, size);
+ }
+ void set_benchmark_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_BenchmarkName::kFieldId, chars.data, chars.size);
+ }
+ void set_benchmark_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_BenchmarkName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BenchmarkDescription =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ChromeBenchmarkMetadata>;
+
+ static constexpr FieldMetadata_BenchmarkDescription kBenchmarkDescription{};
+ void set_benchmark_description(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_BenchmarkDescription::kFieldId, data, size);
+ }
+ void set_benchmark_description(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_BenchmarkDescription::kFieldId, chars.data, chars.size);
+ }
+ void set_benchmark_description(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_BenchmarkDescription::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Label =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ChromeBenchmarkMetadata>;
+
+ static constexpr FieldMetadata_Label kLabel{};
+ void set_label(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Label::kFieldId, data, size);
+ }
+ void set_label(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Label::kFieldId, chars.data, chars.size);
+ }
+ void set_label(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Label::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_StoryName =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ChromeBenchmarkMetadata>;
+
+ static constexpr FieldMetadata_StoryName kStoryName{};
+ void set_story_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_StoryName::kFieldId, data, size);
+ }
+ void set_story_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_StoryName::kFieldId, chars.data, chars.size);
+ }
+ void set_story_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_StoryName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_StoryTags =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ChromeBenchmarkMetadata>;
+
+ static constexpr FieldMetadata_StoryTags kStoryTags{};
+ void add_story_tags(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_StoryTags::kFieldId, data, size);
+ }
+ void add_story_tags(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_StoryTags::kFieldId, chars.data, chars.size);
+ }
+ void add_story_tags(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_StoryTags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_StoryRunIndex =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ ChromeBenchmarkMetadata>;
+
+ static constexpr FieldMetadata_StoryRunIndex kStoryRunIndex{};
+ void set_story_run_index(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_StoryRunIndex::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_HadFailures =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ChromeBenchmarkMetadata>;
+
+ static constexpr FieldMetadata_HadFailures kHadFailures{};
+ void set_had_failures(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_HadFailures::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/chrome/chrome_metadata.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_CHROME_CHROME_METADATA_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_CHROME_CHROME_METADATA_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class BackgroundTracingMetadata;
+class BackgroundTracingMetadata_TriggerRule;
+class BackgroundTracingMetadata_TriggerRule_HistogramRule;
+class BackgroundTracingMetadata_TriggerRule_NamedRule;
+class ChromeMetadataPacket_FinchHash;
+namespace perfetto_pbzero_enum_BackgroundTracingMetadata_TriggerRule_NamedRule {
+enum EventType : int32_t;
+} // namespace perfetto_pbzero_enum_BackgroundTracingMetadata_TriggerRule_NamedRule
+using BackgroundTracingMetadata_TriggerRule_NamedRule_EventType = perfetto_pbzero_enum_BackgroundTracingMetadata_TriggerRule_NamedRule::EventType;
+namespace perfetto_pbzero_enum_BackgroundTracingMetadata_TriggerRule {
+enum TriggerType : int32_t;
+} // namespace perfetto_pbzero_enum_BackgroundTracingMetadata_TriggerRule
+using BackgroundTracingMetadata_TriggerRule_TriggerType = perfetto_pbzero_enum_BackgroundTracingMetadata_TriggerRule::TriggerType;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+namespace perfetto_pbzero_enum_BackgroundTracingMetadata_TriggerRule {
+enum TriggerType : int32_t {
+ TRIGGER_UNSPECIFIED = 0,
+ MONITOR_AND_DUMP_WHEN_SPECIFIC_HISTOGRAM_AND_VALUE = 1,
+ MONITOR_AND_DUMP_WHEN_TRIGGER_NAMED = 2,
+};
+} // namespace perfetto_pbzero_enum_BackgroundTracingMetadata_TriggerRule
+using BackgroundTracingMetadata_TriggerRule_TriggerType = perfetto_pbzero_enum_BackgroundTracingMetadata_TriggerRule::TriggerType;
+
+
+constexpr BackgroundTracingMetadata_TriggerRule_TriggerType BackgroundTracingMetadata_TriggerRule_TriggerType_MIN = BackgroundTracingMetadata_TriggerRule_TriggerType::TRIGGER_UNSPECIFIED;
+constexpr BackgroundTracingMetadata_TriggerRule_TriggerType BackgroundTracingMetadata_TriggerRule_TriggerType_MAX = BackgroundTracingMetadata_TriggerRule_TriggerType::MONITOR_AND_DUMP_WHEN_TRIGGER_NAMED;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* BackgroundTracingMetadata_TriggerRule_TriggerType_Name(::perfetto::protos::pbzero::BackgroundTracingMetadata_TriggerRule_TriggerType value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::BackgroundTracingMetadata_TriggerRule_TriggerType::TRIGGER_UNSPECIFIED:
+ return "TRIGGER_UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::BackgroundTracingMetadata_TriggerRule_TriggerType::MONITOR_AND_DUMP_WHEN_SPECIFIC_HISTOGRAM_AND_VALUE:
+ return "MONITOR_AND_DUMP_WHEN_SPECIFIC_HISTOGRAM_AND_VALUE";
+
+ case ::perfetto::protos::pbzero::BackgroundTracingMetadata_TriggerRule_TriggerType::MONITOR_AND_DUMP_WHEN_TRIGGER_NAMED:
+ return "MONITOR_AND_DUMP_WHEN_TRIGGER_NAMED";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_BackgroundTracingMetadata_TriggerRule_NamedRule {
+enum EventType : int32_t {
+ UNSPECIFIED = 0,
+ SESSION_RESTORE = 1,
+ NAVIGATION = 2,
+ STARTUP = 3,
+ REACHED_CODE = 4,
+ CONTENT_TRIGGER = 5,
+ TEST_RULE = 1000,
+};
+} // namespace perfetto_pbzero_enum_BackgroundTracingMetadata_TriggerRule_NamedRule
+using BackgroundTracingMetadata_TriggerRule_NamedRule_EventType = perfetto_pbzero_enum_BackgroundTracingMetadata_TriggerRule_NamedRule::EventType;
+
+
+constexpr BackgroundTracingMetadata_TriggerRule_NamedRule_EventType BackgroundTracingMetadata_TriggerRule_NamedRule_EventType_MIN = BackgroundTracingMetadata_TriggerRule_NamedRule_EventType::UNSPECIFIED;
+constexpr BackgroundTracingMetadata_TriggerRule_NamedRule_EventType BackgroundTracingMetadata_TriggerRule_NamedRule_EventType_MAX = BackgroundTracingMetadata_TriggerRule_NamedRule_EventType::TEST_RULE;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* BackgroundTracingMetadata_TriggerRule_NamedRule_EventType_Name(::perfetto::protos::pbzero::BackgroundTracingMetadata_TriggerRule_NamedRule_EventType value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::BackgroundTracingMetadata_TriggerRule_NamedRule_EventType::UNSPECIFIED:
+ return "UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::BackgroundTracingMetadata_TriggerRule_NamedRule_EventType::SESSION_RESTORE:
+ return "SESSION_RESTORE";
+
+ case ::perfetto::protos::pbzero::BackgroundTracingMetadata_TriggerRule_NamedRule_EventType::NAVIGATION:
+ return "NAVIGATION";
+
+ case ::perfetto::protos::pbzero::BackgroundTracingMetadata_TriggerRule_NamedRule_EventType::STARTUP:
+ return "STARTUP";
+
+ case ::perfetto::protos::pbzero::BackgroundTracingMetadata_TriggerRule_NamedRule_EventType::REACHED_CODE:
+ return "REACHED_CODE";
+
+ case ::perfetto::protos::pbzero::BackgroundTracingMetadata_TriggerRule_NamedRule_EventType::CONTENT_TRIGGER:
+ return "CONTENT_TRIGGER";
+
+ case ::perfetto::protos::pbzero::BackgroundTracingMetadata_TriggerRule_NamedRule_EventType::TEST_RULE:
+ return "TEST_RULE";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+class BackgroundTracingMetadata_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ BackgroundTracingMetadata_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit BackgroundTracingMetadata_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit BackgroundTracingMetadata_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_triggered_rule() const { return at<1>().valid(); }
+ ::protozero::ConstBytes triggered_rule() const { return at<1>().as_bytes(); }
+ bool has_active_rules() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> active_rules() const { return GetRepeated<::protozero::ConstBytes>(2); }
+ bool has_scenario_name_hash() const { return at<3>().valid(); }
+ uint32_t scenario_name_hash() const { return at<3>().as_uint32(); }
+};
+
+class BackgroundTracingMetadata : public ::protozero::Message {
+ public:
+ using Decoder = BackgroundTracingMetadata_Decoder;
+ enum : int32_t {
+ kTriggeredRuleFieldNumber = 1,
+ kActiveRulesFieldNumber = 2,
+ kScenarioNameHashFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.BackgroundTracingMetadata"; }
+
+ using TriggerRule = ::perfetto::protos::pbzero::BackgroundTracingMetadata_TriggerRule;
+
+ using FieldMetadata_TriggeredRule =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ BackgroundTracingMetadata_TriggerRule,
+ BackgroundTracingMetadata>;
+
+ static constexpr FieldMetadata_TriggeredRule kTriggeredRule{};
+ template <typename T = BackgroundTracingMetadata_TriggerRule> T* set_triggered_rule() {
+ return BeginNestedMessage<T>(1);
+ }
+
+
+ using FieldMetadata_ActiveRules =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ BackgroundTracingMetadata_TriggerRule,
+ BackgroundTracingMetadata>;
+
+ static constexpr FieldMetadata_ActiveRules kActiveRules{};
+ template <typename T = BackgroundTracingMetadata_TriggerRule> T* add_active_rules() {
+ return BeginNestedMessage<T>(2);
+ }
+
+
+ using FieldMetadata_ScenarioNameHash =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFixed32,
+ uint32_t,
+ BackgroundTracingMetadata>;
+
+ static constexpr FieldMetadata_ScenarioNameHash kScenarioNameHash{};
+ void set_scenario_name_hash(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ScenarioNameHash::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFixed32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class BackgroundTracingMetadata_TriggerRule_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ BackgroundTracingMetadata_TriggerRule_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit BackgroundTracingMetadata_TriggerRule_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit BackgroundTracingMetadata_TriggerRule_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_trigger_type() const { return at<1>().valid(); }
+ int32_t trigger_type() const { return at<1>().as_int32(); }
+ bool has_histogram_rule() const { return at<2>().valid(); }
+ ::protozero::ConstBytes histogram_rule() const { return at<2>().as_bytes(); }
+ bool has_named_rule() const { return at<3>().valid(); }
+ ::protozero::ConstBytes named_rule() const { return at<3>().as_bytes(); }
+ bool has_name_hash() const { return at<4>().valid(); }
+ uint32_t name_hash() const { return at<4>().as_uint32(); }
+};
+
+class BackgroundTracingMetadata_TriggerRule : public ::protozero::Message {
+ public:
+ using Decoder = BackgroundTracingMetadata_TriggerRule_Decoder;
+ enum : int32_t {
+ kTriggerTypeFieldNumber = 1,
+ kHistogramRuleFieldNumber = 2,
+ kNamedRuleFieldNumber = 3,
+ kNameHashFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.BackgroundTracingMetadata.TriggerRule"; }
+
+ using HistogramRule = ::perfetto::protos::pbzero::BackgroundTracingMetadata_TriggerRule_HistogramRule;
+ using NamedRule = ::perfetto::protos::pbzero::BackgroundTracingMetadata_TriggerRule_NamedRule;
+
+ using TriggerType = ::perfetto::protos::pbzero::BackgroundTracingMetadata_TriggerRule_TriggerType;
+ static inline const char* TriggerType_Name(TriggerType value) {
+ return ::perfetto::protos::pbzero::BackgroundTracingMetadata_TriggerRule_TriggerType_Name(value);
+ }
+ static inline const TriggerType TRIGGER_UNSPECIFIED = TriggerType::TRIGGER_UNSPECIFIED;
+ static inline const TriggerType MONITOR_AND_DUMP_WHEN_SPECIFIC_HISTOGRAM_AND_VALUE = TriggerType::MONITOR_AND_DUMP_WHEN_SPECIFIC_HISTOGRAM_AND_VALUE;
+ static inline const TriggerType MONITOR_AND_DUMP_WHEN_TRIGGER_NAMED = TriggerType::MONITOR_AND_DUMP_WHEN_TRIGGER_NAMED;
+
+ using FieldMetadata_TriggerType =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ BackgroundTracingMetadata_TriggerRule_TriggerType,
+ BackgroundTracingMetadata_TriggerRule>;
+
+ static constexpr FieldMetadata_TriggerType kTriggerType{};
+ void set_trigger_type(BackgroundTracingMetadata_TriggerRule_TriggerType value) {
+ static constexpr uint32_t field_id = FieldMetadata_TriggerType::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_HistogramRule =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ BackgroundTracingMetadata_TriggerRule_HistogramRule,
+ BackgroundTracingMetadata_TriggerRule>;
+
+ static constexpr FieldMetadata_HistogramRule kHistogramRule{};
+ template <typename T = BackgroundTracingMetadata_TriggerRule_HistogramRule> T* set_histogram_rule() {
+ return BeginNestedMessage<T>(2);
+ }
+
+
+ using FieldMetadata_NamedRule =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ BackgroundTracingMetadata_TriggerRule_NamedRule,
+ BackgroundTracingMetadata_TriggerRule>;
+
+ static constexpr FieldMetadata_NamedRule kNamedRule{};
+ template <typename T = BackgroundTracingMetadata_TriggerRule_NamedRule> T* set_named_rule() {
+ return BeginNestedMessage<T>(3);
+ }
+
+
+ using FieldMetadata_NameHash =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFixed32,
+ uint32_t,
+ BackgroundTracingMetadata_TriggerRule>;
+
+ static constexpr FieldMetadata_NameHash kNameHash{};
+ void set_name_hash(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NameHash::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFixed32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class BackgroundTracingMetadata_TriggerRule_NamedRule_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ BackgroundTracingMetadata_TriggerRule_NamedRule_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit BackgroundTracingMetadata_TriggerRule_NamedRule_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit BackgroundTracingMetadata_TriggerRule_NamedRule_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_event_type() const { return at<1>().valid(); }
+ int32_t event_type() const { return at<1>().as_int32(); }
+ bool has_content_trigger_name_hash() const { return at<2>().valid(); }
+ uint64_t content_trigger_name_hash() const { return at<2>().as_uint64(); }
+};
+
+class BackgroundTracingMetadata_TriggerRule_NamedRule : public ::protozero::Message {
+ public:
+ using Decoder = BackgroundTracingMetadata_TriggerRule_NamedRule_Decoder;
+ enum : int32_t {
+ kEventTypeFieldNumber = 1,
+ kContentTriggerNameHashFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.BackgroundTracingMetadata.TriggerRule.NamedRule"; }
+
+
+ using EventType = ::perfetto::protos::pbzero::BackgroundTracingMetadata_TriggerRule_NamedRule_EventType;
+ static inline const char* EventType_Name(EventType value) {
+ return ::perfetto::protos::pbzero::BackgroundTracingMetadata_TriggerRule_NamedRule_EventType_Name(value);
+ }
+ static inline const EventType UNSPECIFIED = EventType::UNSPECIFIED;
+ static inline const EventType SESSION_RESTORE = EventType::SESSION_RESTORE;
+ static inline const EventType NAVIGATION = EventType::NAVIGATION;
+ static inline const EventType STARTUP = EventType::STARTUP;
+ static inline const EventType REACHED_CODE = EventType::REACHED_CODE;
+ static inline const EventType CONTENT_TRIGGER = EventType::CONTENT_TRIGGER;
+ static inline const EventType TEST_RULE = EventType::TEST_RULE;
+
+ using FieldMetadata_EventType =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ BackgroundTracingMetadata_TriggerRule_NamedRule_EventType,
+ BackgroundTracingMetadata_TriggerRule_NamedRule>;
+
+ static constexpr FieldMetadata_EventType kEventType{};
+ void set_event_type(BackgroundTracingMetadata_TriggerRule_NamedRule_EventType value) {
+ static constexpr uint32_t field_id = FieldMetadata_EventType::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ContentTriggerNameHash =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFixed64,
+ uint64_t,
+ BackgroundTracingMetadata_TriggerRule_NamedRule>;
+
+ static constexpr FieldMetadata_ContentTriggerNameHash kContentTriggerNameHash{};
+ void set_content_trigger_name_hash(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ContentTriggerNameHash::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFixed64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class BackgroundTracingMetadata_TriggerRule_HistogramRule_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ BackgroundTracingMetadata_TriggerRule_HistogramRule_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit BackgroundTracingMetadata_TriggerRule_HistogramRule_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit BackgroundTracingMetadata_TriggerRule_HistogramRule_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_histogram_name_hash() const { return at<1>().valid(); }
+ uint64_t histogram_name_hash() const { return at<1>().as_uint64(); }
+ bool has_histogram_min_trigger() const { return at<2>().valid(); }
+ int64_t histogram_min_trigger() const { return at<2>().as_int64(); }
+ bool has_histogram_max_trigger() const { return at<3>().valid(); }
+ int64_t histogram_max_trigger() const { return at<3>().as_int64(); }
+};
+
+class BackgroundTracingMetadata_TriggerRule_HistogramRule : public ::protozero::Message {
+ public:
+ using Decoder = BackgroundTracingMetadata_TriggerRule_HistogramRule_Decoder;
+ enum : int32_t {
+ kHistogramNameHashFieldNumber = 1,
+ kHistogramMinTriggerFieldNumber = 2,
+ kHistogramMaxTriggerFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.BackgroundTracingMetadata.TriggerRule.HistogramRule"; }
+
+
+ using FieldMetadata_HistogramNameHash =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFixed64,
+ uint64_t,
+ BackgroundTracingMetadata_TriggerRule_HistogramRule>;
+
+ static constexpr FieldMetadata_HistogramNameHash kHistogramNameHash{};
+ void set_histogram_name_hash(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_HistogramNameHash::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFixed64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_HistogramMinTrigger =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ BackgroundTracingMetadata_TriggerRule_HistogramRule>;
+
+ static constexpr FieldMetadata_HistogramMinTrigger kHistogramMinTrigger{};
+ void set_histogram_min_trigger(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_HistogramMinTrigger::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_HistogramMaxTrigger =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ BackgroundTracingMetadata_TriggerRule_HistogramRule>;
+
+ static constexpr FieldMetadata_HistogramMaxTrigger kHistogramMaxTrigger{};
+ void set_histogram_max_trigger(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_HistogramMaxTrigger::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class ChromeMetadataPacket_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ ChromeMetadataPacket_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ChromeMetadataPacket_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ChromeMetadataPacket_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_background_tracing_metadata() const { return at<1>().valid(); }
+ ::protozero::ConstBytes background_tracing_metadata() const { return at<1>().as_bytes(); }
+ bool has_chrome_version_code() const { return at<2>().valid(); }
+ int32_t chrome_version_code() const { return at<2>().as_int32(); }
+ bool has_enabled_categories() const { return at<3>().valid(); }
+ ::protozero::ConstChars enabled_categories() const { return at<3>().as_string(); }
+ bool has_field_trial_hashes() const { return at<4>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> field_trial_hashes() const { return GetRepeated<::protozero::ConstBytes>(4); }
+};
+
+class ChromeMetadataPacket : public ::protozero::Message {
+ public:
+ using Decoder = ChromeMetadataPacket_Decoder;
+ enum : int32_t {
+ kBackgroundTracingMetadataFieldNumber = 1,
+ kChromeVersionCodeFieldNumber = 2,
+ kEnabledCategoriesFieldNumber = 3,
+ kFieldTrialHashesFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ChromeMetadataPacket"; }
+
+ using FinchHash = ::perfetto::protos::pbzero::ChromeMetadataPacket_FinchHash;
+
+ using FieldMetadata_BackgroundTracingMetadata =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ BackgroundTracingMetadata,
+ ChromeMetadataPacket>;
+
+ static constexpr FieldMetadata_BackgroundTracingMetadata kBackgroundTracingMetadata{};
+ template <typename T = BackgroundTracingMetadata> T* set_background_tracing_metadata() {
+ return BeginNestedMessage<T>(1);
+ }
+
+
+ using FieldMetadata_ChromeVersionCode =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ ChromeMetadataPacket>;
+
+ static constexpr FieldMetadata_ChromeVersionCode kChromeVersionCode{};
+ void set_chrome_version_code(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ChromeVersionCode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_EnabledCategories =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ChromeMetadataPacket>;
+
+ static constexpr FieldMetadata_EnabledCategories kEnabledCategories{};
+ void set_enabled_categories(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_EnabledCategories::kFieldId, data, size);
+ }
+ void set_enabled_categories(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_EnabledCategories::kFieldId, chars.data, chars.size);
+ }
+ void set_enabled_categories(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_EnabledCategories::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FieldTrialHashes =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ChromeMetadataPacket_FinchHash,
+ ChromeMetadataPacket>;
+
+ static constexpr FieldMetadata_FieldTrialHashes kFieldTrialHashes{};
+ template <typename T = ChromeMetadataPacket_FinchHash> T* add_field_trial_hashes() {
+ return BeginNestedMessage<T>(4);
+ }
+
+};
+
+class ChromeMetadataPacket_FinchHash_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ChromeMetadataPacket_FinchHash_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ChromeMetadataPacket_FinchHash_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ChromeMetadataPacket_FinchHash_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_name() const { return at<1>().valid(); }
+ uint32_t name() const { return at<1>().as_uint32(); }
+ bool has_group() const { return at<2>().valid(); }
+ uint32_t group() const { return at<2>().as_uint32(); }
+};
+
+class ChromeMetadataPacket_FinchHash : public ::protozero::Message {
+ public:
+ using Decoder = ChromeMetadataPacket_FinchHash_Decoder;
+ enum : int32_t {
+ kNameFieldNumber = 1,
+ kGroupFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ChromeMetadataPacket.FinchHash"; }
+
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ ChromeMetadataPacket_FinchHash>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Group =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ ChromeMetadataPacket_FinchHash>;
+
+ static constexpr FieldMetadata_Group kGroup{};
+ void set_group(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Group::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/chrome/chrome_trace_event.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_CHROME_CHROME_TRACE_EVENT_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_CHROME_CHROME_TRACE_EVENT_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class ChromeLegacyJsonTrace;
+class ChromeMetadata;
+class ChromeStringTableEntry;
+class ChromeTraceEvent;
+class ChromeTraceEvent_Arg;
+class ChromeTracedValue;
+namespace perfetto_pbzero_enum_ChromeLegacyJsonTrace {
+enum TraceType : int32_t;
+} // namespace perfetto_pbzero_enum_ChromeLegacyJsonTrace
+using ChromeLegacyJsonTrace_TraceType = perfetto_pbzero_enum_ChromeLegacyJsonTrace::TraceType;
+namespace perfetto_pbzero_enum_ChromeTracedValue {
+enum NestedType : int32_t;
+} // namespace perfetto_pbzero_enum_ChromeTracedValue
+using ChromeTracedValue_NestedType = perfetto_pbzero_enum_ChromeTracedValue::NestedType;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+namespace perfetto_pbzero_enum_ChromeLegacyJsonTrace {
+enum TraceType : int32_t {
+ USER_TRACE = 0,
+ SYSTEM_TRACE = 1,
+};
+} // namespace perfetto_pbzero_enum_ChromeLegacyJsonTrace
+using ChromeLegacyJsonTrace_TraceType = perfetto_pbzero_enum_ChromeLegacyJsonTrace::TraceType;
+
+
+constexpr ChromeLegacyJsonTrace_TraceType ChromeLegacyJsonTrace_TraceType_MIN = ChromeLegacyJsonTrace_TraceType::USER_TRACE;
+constexpr ChromeLegacyJsonTrace_TraceType ChromeLegacyJsonTrace_TraceType_MAX = ChromeLegacyJsonTrace_TraceType::SYSTEM_TRACE;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* ChromeLegacyJsonTrace_TraceType_Name(::perfetto::protos::pbzero::ChromeLegacyJsonTrace_TraceType value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::ChromeLegacyJsonTrace_TraceType::USER_TRACE:
+ return "USER_TRACE";
+
+ case ::perfetto::protos::pbzero::ChromeLegacyJsonTrace_TraceType::SYSTEM_TRACE:
+ return "SYSTEM_TRACE";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_ChromeTracedValue {
+enum NestedType : int32_t {
+ DICT = 0,
+ ARRAY = 1,
+};
+} // namespace perfetto_pbzero_enum_ChromeTracedValue
+using ChromeTracedValue_NestedType = perfetto_pbzero_enum_ChromeTracedValue::NestedType;
+
+
+constexpr ChromeTracedValue_NestedType ChromeTracedValue_NestedType_MIN = ChromeTracedValue_NestedType::DICT;
+constexpr ChromeTracedValue_NestedType ChromeTracedValue_NestedType_MAX = ChromeTracedValue_NestedType::ARRAY;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* ChromeTracedValue_NestedType_Name(::perfetto::protos::pbzero::ChromeTracedValue_NestedType value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::ChromeTracedValue_NestedType::DICT:
+ return "DICT";
+
+ case ::perfetto::protos::pbzero::ChromeTracedValue_NestedType::ARRAY:
+ return "ARRAY";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+class ChromeEventBundle_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ ChromeEventBundle_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ChromeEventBundle_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ChromeEventBundle_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_trace_events() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> trace_events() const { return GetRepeated<::protozero::ConstBytes>(1); }
+ bool has_metadata() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> metadata() const { return GetRepeated<::protozero::ConstBytes>(2); }
+ bool has_legacy_ftrace_output() const { return at<4>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstChars> legacy_ftrace_output() const { return GetRepeated<::protozero::ConstChars>(4); }
+ bool has_legacy_json_trace() const { return at<5>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> legacy_json_trace() const { return GetRepeated<::protozero::ConstBytes>(5); }
+ bool has_string_table() const { return at<3>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> string_table() const { return GetRepeated<::protozero::ConstBytes>(3); }
+};
+
+class ChromeEventBundle : public ::protozero::Message {
+ public:
+ using Decoder = ChromeEventBundle_Decoder;
+ enum : int32_t {
+ kTraceEventsFieldNumber = 1,
+ kMetadataFieldNumber = 2,
+ kLegacyFtraceOutputFieldNumber = 4,
+ kLegacyJsonTraceFieldNumber = 5,
+ kStringTableFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ChromeEventBundle"; }
+
+
+ using FieldMetadata_TraceEvents =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ChromeTraceEvent,
+ ChromeEventBundle>;
+
+ static constexpr FieldMetadata_TraceEvents kTraceEvents{};
+ template <typename T = ChromeTraceEvent> T* add_trace_events() {
+ return BeginNestedMessage<T>(1);
+ }
+
+
+ using FieldMetadata_Metadata =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ChromeMetadata,
+ ChromeEventBundle>;
+
+ static constexpr FieldMetadata_Metadata kMetadata{};
+ template <typename T = ChromeMetadata> T* add_metadata() {
+ return BeginNestedMessage<T>(2);
+ }
+
+
+ using FieldMetadata_LegacyFtraceOutput =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ChromeEventBundle>;
+
+ static constexpr FieldMetadata_LegacyFtraceOutput kLegacyFtraceOutput{};
+ void add_legacy_ftrace_output(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_LegacyFtraceOutput::kFieldId, data, size);
+ }
+ void add_legacy_ftrace_output(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_LegacyFtraceOutput::kFieldId, chars.data, chars.size);
+ }
+ void add_legacy_ftrace_output(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_LegacyFtraceOutput::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_LegacyJsonTrace =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ChromeLegacyJsonTrace,
+ ChromeEventBundle>;
+
+ static constexpr FieldMetadata_LegacyJsonTrace kLegacyJsonTrace{};
+ template <typename T = ChromeLegacyJsonTrace> T* add_legacy_json_trace() {
+ return BeginNestedMessage<T>(5);
+ }
+
+
+ using FieldMetadata_StringTable =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ChromeStringTableEntry,
+ ChromeEventBundle>;
+
+ static constexpr FieldMetadata_StringTable kStringTable{};
+ template <typename T = ChromeStringTableEntry> T* add_string_table() {
+ return BeginNestedMessage<T>(3);
+ }
+
+};
+
+class ChromeLegacyJsonTrace_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ChromeLegacyJsonTrace_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ChromeLegacyJsonTrace_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ChromeLegacyJsonTrace_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_type() const { return at<1>().valid(); }
+ int32_t type() const { return at<1>().as_int32(); }
+ bool has_data() const { return at<2>().valid(); }
+ ::protozero::ConstChars data() const { return at<2>().as_string(); }
+};
+
+class ChromeLegacyJsonTrace : public ::protozero::Message {
+ public:
+ using Decoder = ChromeLegacyJsonTrace_Decoder;
+ enum : int32_t {
+ kTypeFieldNumber = 1,
+ kDataFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ChromeLegacyJsonTrace"; }
+
+
+ using TraceType = ::perfetto::protos::pbzero::ChromeLegacyJsonTrace_TraceType;
+ static inline const char* TraceType_Name(TraceType value) {
+ return ::perfetto::protos::pbzero::ChromeLegacyJsonTrace_TraceType_Name(value);
+ }
+ static inline const TraceType USER_TRACE = TraceType::USER_TRACE;
+ static inline const TraceType SYSTEM_TRACE = TraceType::SYSTEM_TRACE;
+
+ using FieldMetadata_Type =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ ChromeLegacyJsonTrace_TraceType,
+ ChromeLegacyJsonTrace>;
+
+ static constexpr FieldMetadata_Type kType{};
+ void set_type(ChromeLegacyJsonTrace_TraceType value) {
+ static constexpr uint32_t field_id = FieldMetadata_Type::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Data =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ChromeLegacyJsonTrace>;
+
+ static constexpr FieldMetadata_Data kData{};
+ void set_data(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Data::kFieldId, data, size);
+ }
+ void set_data(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Data::kFieldId, chars.data, chars.size);
+ }
+ void set_data(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Data::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class ChromeMetadata_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ChromeMetadata_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ChromeMetadata_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ChromeMetadata_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars name() const { return at<1>().as_string(); }
+ bool has_string_value() const { return at<2>().valid(); }
+ ::protozero::ConstChars string_value() const { return at<2>().as_string(); }
+ bool has_bool_value() const { return at<3>().valid(); }
+ bool bool_value() const { return at<3>().as_bool(); }
+ bool has_int_value() const { return at<4>().valid(); }
+ int64_t int_value() const { return at<4>().as_int64(); }
+ bool has_json_value() const { return at<5>().valid(); }
+ ::protozero::ConstChars json_value() const { return at<5>().as_string(); }
+};
+
+class ChromeMetadata : public ::protozero::Message {
+ public:
+ using Decoder = ChromeMetadata_Decoder;
+ enum : int32_t {
+ kNameFieldNumber = 1,
+ kStringValueFieldNumber = 2,
+ kBoolValueFieldNumber = 3,
+ kIntValueFieldNumber = 4,
+ kJsonValueFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ChromeMetadata"; }
+
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ChromeMetadata>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_StringValue =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ChromeMetadata>;
+
+ static constexpr FieldMetadata_StringValue kStringValue{};
+ void set_string_value(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_StringValue::kFieldId, data, size);
+ }
+ void set_string_value(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_StringValue::kFieldId, chars.data, chars.size);
+ }
+ void set_string_value(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_StringValue::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BoolValue =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ChromeMetadata>;
+
+ static constexpr FieldMetadata_BoolValue kBoolValue{};
+ void set_bool_value(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_BoolValue::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IntValue =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ ChromeMetadata>;
+
+ static constexpr FieldMetadata_IntValue kIntValue{};
+ void set_int_value(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_IntValue::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_JsonValue =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ChromeMetadata>;
+
+ static constexpr FieldMetadata_JsonValue kJsonValue{};
+ void set_json_value(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_JsonValue::kFieldId, data, size);
+ }
+ void set_json_value(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_JsonValue::kFieldId, chars.data, chars.size);
+ }
+ void set_json_value(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_JsonValue::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class ChromeTraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/16, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ ChromeTraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ChromeTraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ChromeTraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars name() const { return at<1>().as_string(); }
+ bool has_timestamp() const { return at<2>().valid(); }
+ int64_t timestamp() const { return at<2>().as_int64(); }
+ bool has_phase() const { return at<3>().valid(); }
+ int32_t phase() const { return at<3>().as_int32(); }
+ bool has_thread_id() const { return at<4>().valid(); }
+ int32_t thread_id() const { return at<4>().as_int32(); }
+ bool has_duration() const { return at<5>().valid(); }
+ int64_t duration() const { return at<5>().as_int64(); }
+ bool has_thread_duration() const { return at<6>().valid(); }
+ int64_t thread_duration() const { return at<6>().as_int64(); }
+ bool has_scope() const { return at<7>().valid(); }
+ ::protozero::ConstChars scope() const { return at<7>().as_string(); }
+ bool has_id() const { return at<8>().valid(); }
+ uint64_t id() const { return at<8>().as_uint64(); }
+ bool has_flags() const { return at<9>().valid(); }
+ uint32_t flags() const { return at<9>().as_uint32(); }
+ bool has_category_group_name() const { return at<10>().valid(); }
+ ::protozero::ConstChars category_group_name() const { return at<10>().as_string(); }
+ bool has_process_id() const { return at<11>().valid(); }
+ int32_t process_id() const { return at<11>().as_int32(); }
+ bool has_thread_timestamp() const { return at<12>().valid(); }
+ int64_t thread_timestamp() const { return at<12>().as_int64(); }
+ bool has_bind_id() const { return at<13>().valid(); }
+ uint64_t bind_id() const { return at<13>().as_uint64(); }
+ bool has_args() const { return at<14>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> args() const { return GetRepeated<::protozero::ConstBytes>(14); }
+ bool has_name_index() const { return at<15>().valid(); }
+ uint32_t name_index() const { return at<15>().as_uint32(); }
+ bool has_category_group_name_index() const { return at<16>().valid(); }
+ uint32_t category_group_name_index() const { return at<16>().as_uint32(); }
+};
+
+class ChromeTraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = ChromeTraceEvent_Decoder;
+ enum : int32_t {
+ kNameFieldNumber = 1,
+ kTimestampFieldNumber = 2,
+ kPhaseFieldNumber = 3,
+ kThreadIdFieldNumber = 4,
+ kDurationFieldNumber = 5,
+ kThreadDurationFieldNumber = 6,
+ kScopeFieldNumber = 7,
+ kIdFieldNumber = 8,
+ kFlagsFieldNumber = 9,
+ kCategoryGroupNameFieldNumber = 10,
+ kProcessIdFieldNumber = 11,
+ kThreadTimestampFieldNumber = 12,
+ kBindIdFieldNumber = 13,
+ kArgsFieldNumber = 14,
+ kNameIndexFieldNumber = 15,
+ kCategoryGroupNameIndexFieldNumber = 16,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ChromeTraceEvent"; }
+
+ using Arg = ::perfetto::protos::pbzero::ChromeTraceEvent_Arg;
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ChromeTraceEvent>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Timestamp =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ ChromeTraceEvent>;
+
+ static constexpr FieldMetadata_Timestamp kTimestamp{};
+ void set_timestamp(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Timestamp::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Phase =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ ChromeTraceEvent>;
+
+ static constexpr FieldMetadata_Phase kPhase{};
+ void set_phase(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Phase::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ThreadId =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ ChromeTraceEvent>;
+
+ static constexpr FieldMetadata_ThreadId kThreadId{};
+ void set_thread_id(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ThreadId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Duration =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ ChromeTraceEvent>;
+
+ static constexpr FieldMetadata_Duration kDuration{};
+ void set_duration(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Duration::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ThreadDuration =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ ChromeTraceEvent>;
+
+ static constexpr FieldMetadata_ThreadDuration kThreadDuration{};
+ void set_thread_duration(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ThreadDuration::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Scope =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ChromeTraceEvent>;
+
+ static constexpr FieldMetadata_Scope kScope{};
+ void set_scope(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Scope::kFieldId, data, size);
+ }
+ void set_scope(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Scope::kFieldId, chars.data, chars.size);
+ }
+ void set_scope(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Scope::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Id =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ChromeTraceEvent>;
+
+ static constexpr FieldMetadata_Id kId{};
+ void set_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Id::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Flags =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ ChromeTraceEvent>;
+
+ static constexpr FieldMetadata_Flags kFlags{};
+ void set_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Flags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CategoryGroupName =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ChromeTraceEvent>;
+
+ static constexpr FieldMetadata_CategoryGroupName kCategoryGroupName{};
+ void set_category_group_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_CategoryGroupName::kFieldId, data, size);
+ }
+ void set_category_group_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_CategoryGroupName::kFieldId, chars.data, chars.size);
+ }
+ void set_category_group_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_CategoryGroupName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ProcessId =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ ChromeTraceEvent>;
+
+ static constexpr FieldMetadata_ProcessId kProcessId{};
+ void set_process_id(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ProcessId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ThreadTimestamp =
+ ::protozero::proto_utils::FieldMetadata<
+ 12,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ ChromeTraceEvent>;
+
+ static constexpr FieldMetadata_ThreadTimestamp kThreadTimestamp{};
+ void set_thread_timestamp(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ThreadTimestamp::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BindId =
+ ::protozero::proto_utils::FieldMetadata<
+ 13,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ChromeTraceEvent>;
+
+ static constexpr FieldMetadata_BindId kBindId{};
+ void set_bind_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BindId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Args =
+ ::protozero::proto_utils::FieldMetadata<
+ 14,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ChromeTraceEvent_Arg,
+ ChromeTraceEvent>;
+
+ static constexpr FieldMetadata_Args kArgs{};
+ template <typename T = ChromeTraceEvent_Arg> T* add_args() {
+ return BeginNestedMessage<T>(14);
+ }
+
+
+ using FieldMetadata_NameIndex =
+ ::protozero::proto_utils::FieldMetadata<
+ 15,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ ChromeTraceEvent>;
+
+ static constexpr FieldMetadata_NameIndex kNameIndex{};
+ void set_name_index(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NameIndex::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CategoryGroupNameIndex =
+ ::protozero::proto_utils::FieldMetadata<
+ 16,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ ChromeTraceEvent>;
+
+ static constexpr FieldMetadata_CategoryGroupNameIndex kCategoryGroupNameIndex{};
+ void set_category_group_name_index(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CategoryGroupNameIndex::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class ChromeTraceEvent_Arg_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/10, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ChromeTraceEvent_Arg_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ChromeTraceEvent_Arg_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ChromeTraceEvent_Arg_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars name() const { return at<1>().as_string(); }
+ bool has_bool_value() const { return at<2>().valid(); }
+ bool bool_value() const { return at<2>().as_bool(); }
+ bool has_uint_value() const { return at<3>().valid(); }
+ uint64_t uint_value() const { return at<3>().as_uint64(); }
+ bool has_int_value() const { return at<4>().valid(); }
+ int64_t int_value() const { return at<4>().as_int64(); }
+ bool has_double_value() const { return at<5>().valid(); }
+ double double_value() const { return at<5>().as_double(); }
+ bool has_string_value() const { return at<6>().valid(); }
+ ::protozero::ConstChars string_value() const { return at<6>().as_string(); }
+ bool has_pointer_value() const { return at<7>().valid(); }
+ uint64_t pointer_value() const { return at<7>().as_uint64(); }
+ bool has_json_value() const { return at<8>().valid(); }
+ ::protozero::ConstChars json_value() const { return at<8>().as_string(); }
+ bool has_traced_value() const { return at<10>().valid(); }
+ ::protozero::ConstBytes traced_value() const { return at<10>().as_bytes(); }
+ bool has_name_index() const { return at<9>().valid(); }
+ uint32_t name_index() const { return at<9>().as_uint32(); }
+};
+
+class ChromeTraceEvent_Arg : public ::protozero::Message {
+ public:
+ using Decoder = ChromeTraceEvent_Arg_Decoder;
+ enum : int32_t {
+ kNameFieldNumber = 1,
+ kBoolValueFieldNumber = 2,
+ kUintValueFieldNumber = 3,
+ kIntValueFieldNumber = 4,
+ kDoubleValueFieldNumber = 5,
+ kStringValueFieldNumber = 6,
+ kPointerValueFieldNumber = 7,
+ kJsonValueFieldNumber = 8,
+ kTracedValueFieldNumber = 10,
+ kNameIndexFieldNumber = 9,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ChromeTraceEvent.Arg"; }
+
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ChromeTraceEvent_Arg>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BoolValue =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ChromeTraceEvent_Arg>;
+
+ static constexpr FieldMetadata_BoolValue kBoolValue{};
+ void set_bool_value(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_BoolValue::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_UintValue =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ChromeTraceEvent_Arg>;
+
+ static constexpr FieldMetadata_UintValue kUintValue{};
+ void set_uint_value(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_UintValue::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IntValue =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ ChromeTraceEvent_Arg>;
+
+ static constexpr FieldMetadata_IntValue kIntValue{};
+ void set_int_value(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_IntValue::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DoubleValue =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kDouble,
+ double,
+ ChromeTraceEvent_Arg>;
+
+ static constexpr FieldMetadata_DoubleValue kDoubleValue{};
+ void set_double_value(double value) {
+ static constexpr uint32_t field_id = FieldMetadata_DoubleValue::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kDouble>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_StringValue =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ChromeTraceEvent_Arg>;
+
+ static constexpr FieldMetadata_StringValue kStringValue{};
+ void set_string_value(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_StringValue::kFieldId, data, size);
+ }
+ void set_string_value(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_StringValue::kFieldId, chars.data, chars.size);
+ }
+ void set_string_value(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_StringValue::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PointerValue =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ChromeTraceEvent_Arg>;
+
+ static constexpr FieldMetadata_PointerValue kPointerValue{};
+ void set_pointer_value(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PointerValue::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_JsonValue =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ChromeTraceEvent_Arg>;
+
+ static constexpr FieldMetadata_JsonValue kJsonValue{};
+ void set_json_value(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_JsonValue::kFieldId, data, size);
+ }
+ void set_json_value(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_JsonValue::kFieldId, chars.data, chars.size);
+ }
+ void set_json_value(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_JsonValue::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TracedValue =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ChromeTracedValue,
+ ChromeTraceEvent_Arg>;
+
+ static constexpr FieldMetadata_TracedValue kTracedValue{};
+ template <typename T = ChromeTracedValue> T* set_traced_value() {
+ return BeginNestedMessage<T>(10);
+ }
+
+
+ using FieldMetadata_NameIndex =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ ChromeTraceEvent_Arg>;
+
+ static constexpr FieldMetadata_NameIndex kNameIndex{};
+ void set_name_index(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NameIndex::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class ChromeStringTableEntry_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ChromeStringTableEntry_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ChromeStringTableEntry_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ChromeStringTableEntry_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_value() const { return at<1>().valid(); }
+ ::protozero::ConstChars value() const { return at<1>().as_string(); }
+ bool has_index() const { return at<2>().valid(); }
+ int32_t index() const { return at<2>().as_int32(); }
+};
+
+class ChromeStringTableEntry : public ::protozero::Message {
+ public:
+ using Decoder = ChromeStringTableEntry_Decoder;
+ enum : int32_t {
+ kValueFieldNumber = 1,
+ kIndexFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ChromeStringTableEntry"; }
+
+
+ using FieldMetadata_Value =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ChromeStringTableEntry>;
+
+ static constexpr FieldMetadata_Value kValue{};
+ void set_value(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Value::kFieldId, data, size);
+ }
+ void set_value(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Value::kFieldId, chars.data, chars.size);
+ }
+ void set_value(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Value::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Index =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ ChromeStringTableEntry>;
+
+ static constexpr FieldMetadata_Index kIndex{};
+ void set_index(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Index::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class ChromeTracedValue_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/8, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ ChromeTracedValue_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ChromeTracedValue_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ChromeTracedValue_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_nested_type() const { return at<1>().valid(); }
+ int32_t nested_type() const { return at<1>().as_int32(); }
+ bool has_dict_keys() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstChars> dict_keys() const { return GetRepeated<::protozero::ConstChars>(2); }
+ bool has_dict_values() const { return at<3>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> dict_values() const { return GetRepeated<::protozero::ConstBytes>(3); }
+ bool has_array_values() const { return at<4>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> array_values() const { return GetRepeated<::protozero::ConstBytes>(4); }
+ bool has_int_value() const { return at<5>().valid(); }
+ int32_t int_value() const { return at<5>().as_int32(); }
+ bool has_double_value() const { return at<6>().valid(); }
+ double double_value() const { return at<6>().as_double(); }
+ bool has_bool_value() const { return at<7>().valid(); }
+ bool bool_value() const { return at<7>().as_bool(); }
+ bool has_string_value() const { return at<8>().valid(); }
+ ::protozero::ConstChars string_value() const { return at<8>().as_string(); }
+};
+
+class ChromeTracedValue : public ::protozero::Message {
+ public:
+ using Decoder = ChromeTracedValue_Decoder;
+ enum : int32_t {
+ kNestedTypeFieldNumber = 1,
+ kDictKeysFieldNumber = 2,
+ kDictValuesFieldNumber = 3,
+ kArrayValuesFieldNumber = 4,
+ kIntValueFieldNumber = 5,
+ kDoubleValueFieldNumber = 6,
+ kBoolValueFieldNumber = 7,
+ kStringValueFieldNumber = 8,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ChromeTracedValue"; }
+
+
+ using NestedType = ::perfetto::protos::pbzero::ChromeTracedValue_NestedType;
+ static inline const char* NestedType_Name(NestedType value) {
+ return ::perfetto::protos::pbzero::ChromeTracedValue_NestedType_Name(value);
+ }
+ static inline const NestedType DICT = NestedType::DICT;
+ static inline const NestedType ARRAY = NestedType::ARRAY;
+
+ using FieldMetadata_NestedType =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ ChromeTracedValue_NestedType,
+ ChromeTracedValue>;
+
+ static constexpr FieldMetadata_NestedType kNestedType{};
+ void set_nested_type(ChromeTracedValue_NestedType value) {
+ static constexpr uint32_t field_id = FieldMetadata_NestedType::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DictKeys =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ChromeTracedValue>;
+
+ static constexpr FieldMetadata_DictKeys kDictKeys{};
+ void add_dict_keys(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_DictKeys::kFieldId, data, size);
+ }
+ void add_dict_keys(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_DictKeys::kFieldId, chars.data, chars.size);
+ }
+ void add_dict_keys(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_DictKeys::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DictValues =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ChromeTracedValue,
+ ChromeTracedValue>;
+
+ static constexpr FieldMetadata_DictValues kDictValues{};
+ template <typename T = ChromeTracedValue> T* add_dict_values() {
+ return BeginNestedMessage<T>(3);
+ }
+
+
+ using FieldMetadata_ArrayValues =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ChromeTracedValue,
+ ChromeTracedValue>;
+
+ static constexpr FieldMetadata_ArrayValues kArrayValues{};
+ template <typename T = ChromeTracedValue> T* add_array_values() {
+ return BeginNestedMessage<T>(4);
+ }
+
+
+ using FieldMetadata_IntValue =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ ChromeTracedValue>;
+
+ static constexpr FieldMetadata_IntValue kIntValue{};
+ void set_int_value(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_IntValue::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DoubleValue =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kDouble,
+ double,
+ ChromeTracedValue>;
+
+ static constexpr FieldMetadata_DoubleValue kDoubleValue{};
+ void set_double_value(double value) {
+ static constexpr uint32_t field_id = FieldMetadata_DoubleValue::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kDouble>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BoolValue =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ChromeTracedValue>;
+
+ static constexpr FieldMetadata_BoolValue kBoolValue{};
+ void set_bool_value(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_BoolValue::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_StringValue =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ChromeTracedValue>;
+
+ static constexpr FieldMetadata_StringValue kStringValue{};
+ void set_string_value(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_StringValue::kFieldId, data, size);
+ }
+ void set_string_value(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_StringValue::kFieldId, chars.data, chars.size);
+ }
+ void set_string_value(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_StringValue::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/chrome/v8.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_CHROME_V8_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_CHROME_V8_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class InternedV8Isolate_CodeRange;
+class V8String;
+namespace perfetto_pbzero_enum_InternedV8JsFunction {
+enum Kind : int32_t;
+} // namespace perfetto_pbzero_enum_InternedV8JsFunction
+using InternedV8JsFunction_Kind = perfetto_pbzero_enum_InternedV8JsFunction::Kind;
+namespace perfetto_pbzero_enum_InternedV8JsScript {
+enum Type : int32_t;
+} // namespace perfetto_pbzero_enum_InternedV8JsScript
+using InternedV8JsScript_Type = perfetto_pbzero_enum_InternedV8JsScript::Type;
+namespace perfetto_pbzero_enum_V8InternalCode {
+enum Type : int32_t;
+} // namespace perfetto_pbzero_enum_V8InternalCode
+using V8InternalCode_Type = perfetto_pbzero_enum_V8InternalCode::Type;
+namespace perfetto_pbzero_enum_V8JsCode {
+enum Tier : int32_t;
+} // namespace perfetto_pbzero_enum_V8JsCode
+using V8JsCode_Tier = perfetto_pbzero_enum_V8JsCode::Tier;
+namespace perfetto_pbzero_enum_V8WasmCode {
+enum Tier : int32_t;
+} // namespace perfetto_pbzero_enum_V8WasmCode
+using V8WasmCode_Tier = perfetto_pbzero_enum_V8WasmCode::Tier;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+namespace perfetto_pbzero_enum_V8WasmCode {
+enum Tier : int32_t {
+ TIER_UNKNOWN = 0,
+ TIER_LIFTOFF = 1,
+ TIER_TURBOFAN = 2,
+};
+} // namespace perfetto_pbzero_enum_V8WasmCode
+using V8WasmCode_Tier = perfetto_pbzero_enum_V8WasmCode::Tier;
+
+
+constexpr V8WasmCode_Tier V8WasmCode_Tier_MIN = V8WasmCode_Tier::TIER_UNKNOWN;
+constexpr V8WasmCode_Tier V8WasmCode_Tier_MAX = V8WasmCode_Tier::TIER_TURBOFAN;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* V8WasmCode_Tier_Name(::perfetto::protos::pbzero::V8WasmCode_Tier value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::V8WasmCode_Tier::TIER_UNKNOWN:
+ return "TIER_UNKNOWN";
+
+ case ::perfetto::protos::pbzero::V8WasmCode_Tier::TIER_LIFTOFF:
+ return "TIER_LIFTOFF";
+
+ case ::perfetto::protos::pbzero::V8WasmCode_Tier::TIER_TURBOFAN:
+ return "TIER_TURBOFAN";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_V8InternalCode {
+enum Type : int32_t {
+ TYPE_UNKNOWN = 0,
+ TYPE_BYTECODE_HANDLER = 1,
+ TYPE_FOR_TESTING = 2,
+ TYPE_BUILTIN = 3,
+ TYPE_WASM_FUNCTION = 4,
+ TYPE_WASM_TO_CAPI_FUNCTION = 5,
+ TYPE_WASM_TO_JS_FUNCTION = 6,
+ TYPE_JS_TO_WASM_FUNCTION = 7,
+ TYPE_JS_TO_JS_FUNCTION = 8,
+ TYPE_C_WASM_ENTRY = 9,
+};
+} // namespace perfetto_pbzero_enum_V8InternalCode
+using V8InternalCode_Type = perfetto_pbzero_enum_V8InternalCode::Type;
+
+
+constexpr V8InternalCode_Type V8InternalCode_Type_MIN = V8InternalCode_Type::TYPE_UNKNOWN;
+constexpr V8InternalCode_Type V8InternalCode_Type_MAX = V8InternalCode_Type::TYPE_C_WASM_ENTRY;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* V8InternalCode_Type_Name(::perfetto::protos::pbzero::V8InternalCode_Type value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::V8InternalCode_Type::TYPE_UNKNOWN:
+ return "TYPE_UNKNOWN";
+
+ case ::perfetto::protos::pbzero::V8InternalCode_Type::TYPE_BYTECODE_HANDLER:
+ return "TYPE_BYTECODE_HANDLER";
+
+ case ::perfetto::protos::pbzero::V8InternalCode_Type::TYPE_FOR_TESTING:
+ return "TYPE_FOR_TESTING";
+
+ case ::perfetto::protos::pbzero::V8InternalCode_Type::TYPE_BUILTIN:
+ return "TYPE_BUILTIN";
+
+ case ::perfetto::protos::pbzero::V8InternalCode_Type::TYPE_WASM_FUNCTION:
+ return "TYPE_WASM_FUNCTION";
+
+ case ::perfetto::protos::pbzero::V8InternalCode_Type::TYPE_WASM_TO_CAPI_FUNCTION:
+ return "TYPE_WASM_TO_CAPI_FUNCTION";
+
+ case ::perfetto::protos::pbzero::V8InternalCode_Type::TYPE_WASM_TO_JS_FUNCTION:
+ return "TYPE_WASM_TO_JS_FUNCTION";
+
+ case ::perfetto::protos::pbzero::V8InternalCode_Type::TYPE_JS_TO_WASM_FUNCTION:
+ return "TYPE_JS_TO_WASM_FUNCTION";
+
+ case ::perfetto::protos::pbzero::V8InternalCode_Type::TYPE_JS_TO_JS_FUNCTION:
+ return "TYPE_JS_TO_JS_FUNCTION";
+
+ case ::perfetto::protos::pbzero::V8InternalCode_Type::TYPE_C_WASM_ENTRY:
+ return "TYPE_C_WASM_ENTRY";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_V8JsCode {
+enum Tier : int32_t {
+ TIER_UNKNOWN = 0,
+ TIER_IGNITION = 1,
+ TIER_SPARKPLUG = 2,
+ TIER_MAGLEV = 3,
+ TIER_TURBOSHAFT = 4,
+ TIER_TURBOFAN = 5,
+};
+} // namespace perfetto_pbzero_enum_V8JsCode
+using V8JsCode_Tier = perfetto_pbzero_enum_V8JsCode::Tier;
+
+
+constexpr V8JsCode_Tier V8JsCode_Tier_MIN = V8JsCode_Tier::TIER_UNKNOWN;
+constexpr V8JsCode_Tier V8JsCode_Tier_MAX = V8JsCode_Tier::TIER_TURBOFAN;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* V8JsCode_Tier_Name(::perfetto::protos::pbzero::V8JsCode_Tier value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::V8JsCode_Tier::TIER_UNKNOWN:
+ return "TIER_UNKNOWN";
+
+ case ::perfetto::protos::pbzero::V8JsCode_Tier::TIER_IGNITION:
+ return "TIER_IGNITION";
+
+ case ::perfetto::protos::pbzero::V8JsCode_Tier::TIER_SPARKPLUG:
+ return "TIER_SPARKPLUG";
+
+ case ::perfetto::protos::pbzero::V8JsCode_Tier::TIER_MAGLEV:
+ return "TIER_MAGLEV";
+
+ case ::perfetto::protos::pbzero::V8JsCode_Tier::TIER_TURBOSHAFT:
+ return "TIER_TURBOSHAFT";
+
+ case ::perfetto::protos::pbzero::V8JsCode_Tier::TIER_TURBOFAN:
+ return "TIER_TURBOFAN";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_InternedV8JsFunction {
+enum Kind : int32_t {
+ KIND_UNKNOWN = 0,
+ KIND_NORMAL_FUNCTION = 1,
+ KIND_MODULE = 2,
+ KIND_ASYNC_MODULE = 3,
+ KIND_BASE_CONSTRUCTOR = 4,
+ KIND_DEFAULT_BASE_CONSTRUCTOR = 5,
+ KIND_DEFAULT_DERIVED_CONSTRUCTOR = 6,
+ KIND_DERIVED_CONSTRUCTOR = 7,
+ KIND_GETTER_FUNCTION = 8,
+ KIND_STATIC_GETTER_FUNCTION = 9,
+ KIND_SETTER_FUNCTION = 10,
+ KIND_STATIC_SETTER_FUNCTION = 11,
+ KIND_ARROW_FUNCTION = 12,
+ KIND_ASYNC_ARROW_FUNCTION = 13,
+ KIND_ASYNC_FUNCTION = 14,
+ KIND_ASYNC_CONCISE_METHOD = 15,
+ KIND_STATIC_ASYNC_CONCISE_METHOD = 16,
+ KIND_ASYNC_CONCISE_GENERATOR_METHOD = 17,
+ KIND_STATIC_ASYNC_CONCISE_GENERATOR_METHOD = 18,
+ KIND_ASYNC_GENERATOR_FUNCTION = 19,
+ KIND_GENERATOR_FUNCTION = 20,
+ KIND_CONCISE_GENERATOR_METHOD = 21,
+ KIND_STATIC_CONCISE_GENERATOR_METHOD = 22,
+ KIND_CONCISE_METHOD = 23,
+ KIND_STATIC_CONCISE_METHOD = 24,
+ KIND_CLASS_MEMBERS_INITIALIZER_FUNCTION = 25,
+ KIND_CLASS_STATIC_INITIALIZER_FUNCTION = 26,
+ KIND_INVALID = 27,
+};
+} // namespace perfetto_pbzero_enum_InternedV8JsFunction
+using InternedV8JsFunction_Kind = perfetto_pbzero_enum_InternedV8JsFunction::Kind;
+
+
+constexpr InternedV8JsFunction_Kind InternedV8JsFunction_Kind_MIN = InternedV8JsFunction_Kind::KIND_UNKNOWN;
+constexpr InternedV8JsFunction_Kind InternedV8JsFunction_Kind_MAX = InternedV8JsFunction_Kind::KIND_INVALID;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* InternedV8JsFunction_Kind_Name(::perfetto::protos::pbzero::InternedV8JsFunction_Kind value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::InternedV8JsFunction_Kind::KIND_UNKNOWN:
+ return "KIND_UNKNOWN";
+
+ case ::perfetto::protos::pbzero::InternedV8JsFunction_Kind::KIND_NORMAL_FUNCTION:
+ return "KIND_NORMAL_FUNCTION";
+
+ case ::perfetto::protos::pbzero::InternedV8JsFunction_Kind::KIND_MODULE:
+ return "KIND_MODULE";
+
+ case ::perfetto::protos::pbzero::InternedV8JsFunction_Kind::KIND_ASYNC_MODULE:
+ return "KIND_ASYNC_MODULE";
+
+ case ::perfetto::protos::pbzero::InternedV8JsFunction_Kind::KIND_BASE_CONSTRUCTOR:
+ return "KIND_BASE_CONSTRUCTOR";
+
+ case ::perfetto::protos::pbzero::InternedV8JsFunction_Kind::KIND_DEFAULT_BASE_CONSTRUCTOR:
+ return "KIND_DEFAULT_BASE_CONSTRUCTOR";
+
+ case ::perfetto::protos::pbzero::InternedV8JsFunction_Kind::KIND_DEFAULT_DERIVED_CONSTRUCTOR:
+ return "KIND_DEFAULT_DERIVED_CONSTRUCTOR";
+
+ case ::perfetto::protos::pbzero::InternedV8JsFunction_Kind::KIND_DERIVED_CONSTRUCTOR:
+ return "KIND_DERIVED_CONSTRUCTOR";
+
+ case ::perfetto::protos::pbzero::InternedV8JsFunction_Kind::KIND_GETTER_FUNCTION:
+ return "KIND_GETTER_FUNCTION";
+
+ case ::perfetto::protos::pbzero::InternedV8JsFunction_Kind::KIND_STATIC_GETTER_FUNCTION:
+ return "KIND_STATIC_GETTER_FUNCTION";
+
+ case ::perfetto::protos::pbzero::InternedV8JsFunction_Kind::KIND_SETTER_FUNCTION:
+ return "KIND_SETTER_FUNCTION";
+
+ case ::perfetto::protos::pbzero::InternedV8JsFunction_Kind::KIND_STATIC_SETTER_FUNCTION:
+ return "KIND_STATIC_SETTER_FUNCTION";
+
+ case ::perfetto::protos::pbzero::InternedV8JsFunction_Kind::KIND_ARROW_FUNCTION:
+ return "KIND_ARROW_FUNCTION";
+
+ case ::perfetto::protos::pbzero::InternedV8JsFunction_Kind::KIND_ASYNC_ARROW_FUNCTION:
+ return "KIND_ASYNC_ARROW_FUNCTION";
+
+ case ::perfetto::protos::pbzero::InternedV8JsFunction_Kind::KIND_ASYNC_FUNCTION:
+ return "KIND_ASYNC_FUNCTION";
+
+ case ::perfetto::protos::pbzero::InternedV8JsFunction_Kind::KIND_ASYNC_CONCISE_METHOD:
+ return "KIND_ASYNC_CONCISE_METHOD";
+
+ case ::perfetto::protos::pbzero::InternedV8JsFunction_Kind::KIND_STATIC_ASYNC_CONCISE_METHOD:
+ return "KIND_STATIC_ASYNC_CONCISE_METHOD";
+
+ case ::perfetto::protos::pbzero::InternedV8JsFunction_Kind::KIND_ASYNC_CONCISE_GENERATOR_METHOD:
+ return "KIND_ASYNC_CONCISE_GENERATOR_METHOD";
+
+ case ::perfetto::protos::pbzero::InternedV8JsFunction_Kind::KIND_STATIC_ASYNC_CONCISE_GENERATOR_METHOD:
+ return "KIND_STATIC_ASYNC_CONCISE_GENERATOR_METHOD";
+
+ case ::perfetto::protos::pbzero::InternedV8JsFunction_Kind::KIND_ASYNC_GENERATOR_FUNCTION:
+ return "KIND_ASYNC_GENERATOR_FUNCTION";
+
+ case ::perfetto::protos::pbzero::InternedV8JsFunction_Kind::KIND_GENERATOR_FUNCTION:
+ return "KIND_GENERATOR_FUNCTION";
+
+ case ::perfetto::protos::pbzero::InternedV8JsFunction_Kind::KIND_CONCISE_GENERATOR_METHOD:
+ return "KIND_CONCISE_GENERATOR_METHOD";
+
+ case ::perfetto::protos::pbzero::InternedV8JsFunction_Kind::KIND_STATIC_CONCISE_GENERATOR_METHOD:
+ return "KIND_STATIC_CONCISE_GENERATOR_METHOD";
+
+ case ::perfetto::protos::pbzero::InternedV8JsFunction_Kind::KIND_CONCISE_METHOD:
+ return "KIND_CONCISE_METHOD";
+
+ case ::perfetto::protos::pbzero::InternedV8JsFunction_Kind::KIND_STATIC_CONCISE_METHOD:
+ return "KIND_STATIC_CONCISE_METHOD";
+
+ case ::perfetto::protos::pbzero::InternedV8JsFunction_Kind::KIND_CLASS_MEMBERS_INITIALIZER_FUNCTION:
+ return "KIND_CLASS_MEMBERS_INITIALIZER_FUNCTION";
+
+ case ::perfetto::protos::pbzero::InternedV8JsFunction_Kind::KIND_CLASS_STATIC_INITIALIZER_FUNCTION:
+ return "KIND_CLASS_STATIC_INITIALIZER_FUNCTION";
+
+ case ::perfetto::protos::pbzero::InternedV8JsFunction_Kind::KIND_INVALID:
+ return "KIND_INVALID";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_InternedV8JsScript {
+enum Type : int32_t {
+ TYPE_UNKNOWN = 0,
+ TYPE_NORMAL = 1,
+ TYPE_EVAL = 2,
+ TYPE_MODULE = 3,
+ TYPE_NATIVE = 4,
+ TYPE_EXTENSION = 5,
+ TYPE_INSPECTOR = 6,
+};
+} // namespace perfetto_pbzero_enum_InternedV8JsScript
+using InternedV8JsScript_Type = perfetto_pbzero_enum_InternedV8JsScript::Type;
+
+
+constexpr InternedV8JsScript_Type InternedV8JsScript_Type_MIN = InternedV8JsScript_Type::TYPE_UNKNOWN;
+constexpr InternedV8JsScript_Type InternedV8JsScript_Type_MAX = InternedV8JsScript_Type::TYPE_INSPECTOR;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* InternedV8JsScript_Type_Name(::perfetto::protos::pbzero::InternedV8JsScript_Type value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::InternedV8JsScript_Type::TYPE_UNKNOWN:
+ return "TYPE_UNKNOWN";
+
+ case ::perfetto::protos::pbzero::InternedV8JsScript_Type::TYPE_NORMAL:
+ return "TYPE_NORMAL";
+
+ case ::perfetto::protos::pbzero::InternedV8JsScript_Type::TYPE_EVAL:
+ return "TYPE_EVAL";
+
+ case ::perfetto::protos::pbzero::InternedV8JsScript_Type::TYPE_MODULE:
+ return "TYPE_MODULE";
+
+ case ::perfetto::protos::pbzero::InternedV8JsScript_Type::TYPE_NATIVE:
+ return "TYPE_NATIVE";
+
+ case ::perfetto::protos::pbzero::InternedV8JsScript_Type::TYPE_EXTENSION:
+ return "TYPE_EXTENSION";
+
+ case ::perfetto::protos::pbzero::InternedV8JsScript_Type::TYPE_INSPECTOR:
+ return "TYPE_INSPECTOR";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+class V8CodeDefaults_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ V8CodeDefaults_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit V8CodeDefaults_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit V8CodeDefaults_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_tid() const { return at<1>().valid(); }
+ uint32_t tid() const { return at<1>().as_uint32(); }
+};
+
+class V8CodeDefaults : public ::protozero::Message {
+ public:
+ using Decoder = V8CodeDefaults_Decoder;
+ enum : int32_t {
+ kTidFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.V8CodeDefaults"; }
+
+
+ using FieldMetadata_Tid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ V8CodeDefaults>;
+
+ static constexpr FieldMetadata_Tid kTid{};
+ void set_tid(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Tid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class V8CodeMove_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/7, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ V8CodeMove_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit V8CodeMove_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit V8CodeMove_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_isolate_iid() const { return at<1>().valid(); }
+ uint64_t isolate_iid() const { return at<1>().as_uint64(); }
+ bool has_tid() const { return at<2>().valid(); }
+ uint32_t tid() const { return at<2>().as_uint32(); }
+ bool has_from_instruction_start_address() const { return at<3>().valid(); }
+ uint64_t from_instruction_start_address() const { return at<3>().as_uint64(); }
+ bool has_to_instruction_start_address() const { return at<4>().valid(); }
+ uint64_t to_instruction_start_address() const { return at<4>().as_uint64(); }
+ bool has_instruction_size_bytes() const { return at<5>().valid(); }
+ uint64_t instruction_size_bytes() const { return at<5>().as_uint64(); }
+ bool has_to_machine_code() const { return at<6>().valid(); }
+ ::protozero::ConstBytes to_machine_code() const { return at<6>().as_bytes(); }
+ bool has_to_bytecode() const { return at<7>().valid(); }
+ ::protozero::ConstBytes to_bytecode() const { return at<7>().as_bytes(); }
+};
+
+class V8CodeMove : public ::protozero::Message {
+ public:
+ using Decoder = V8CodeMove_Decoder;
+ enum : int32_t {
+ kIsolateIidFieldNumber = 1,
+ kTidFieldNumber = 2,
+ kFromInstructionStartAddressFieldNumber = 3,
+ kToInstructionStartAddressFieldNumber = 4,
+ kInstructionSizeBytesFieldNumber = 5,
+ kToMachineCodeFieldNumber = 6,
+ kToBytecodeFieldNumber = 7,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.V8CodeMove"; }
+
+
+ using FieldMetadata_IsolateIid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ V8CodeMove>;
+
+ static constexpr FieldMetadata_IsolateIid kIsolateIid{};
+ void set_isolate_iid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_IsolateIid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Tid =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ V8CodeMove>;
+
+ static constexpr FieldMetadata_Tid kTid{};
+ void set_tid(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Tid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FromInstructionStartAddress =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ V8CodeMove>;
+
+ static constexpr FieldMetadata_FromInstructionStartAddress kFromInstructionStartAddress{};
+ void set_from_instruction_start_address(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FromInstructionStartAddress::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ToInstructionStartAddress =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ V8CodeMove>;
+
+ static constexpr FieldMetadata_ToInstructionStartAddress kToInstructionStartAddress{};
+ void set_to_instruction_start_address(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ToInstructionStartAddress::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_InstructionSizeBytes =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ V8CodeMove>;
+
+ static constexpr FieldMetadata_InstructionSizeBytes kInstructionSizeBytes{};
+ void set_instruction_size_bytes(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_InstructionSizeBytes::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ToMachineCode =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBytes,
+ std::string,
+ V8CodeMove>;
+
+ static constexpr FieldMetadata_ToMachineCode kToMachineCode{};
+ void set_to_machine_code(const uint8_t* data, size_t size) {
+ AppendBytes(FieldMetadata_ToMachineCode::kFieldId, data, size);
+ }
+ void set_to_machine_code(::protozero::ConstBytes bytes) {
+ AppendBytes(FieldMetadata_ToMachineCode::kFieldId, bytes.data, bytes.size);
+ }
+ void set_to_machine_code(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_ToMachineCode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBytes>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ToBytecode =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBytes,
+ std::string,
+ V8CodeMove>;
+
+ static constexpr FieldMetadata_ToBytecode kToBytecode{};
+ void set_to_bytecode(const uint8_t* data, size_t size) {
+ AppendBytes(FieldMetadata_ToBytecode::kFieldId, data, size);
+ }
+ void set_to_bytecode(::protozero::ConstBytes bytes) {
+ AppendBytes(FieldMetadata_ToBytecode::kFieldId, bytes.data, bytes.size);
+ }
+ void set_to_bytecode(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_ToBytecode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBytes>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class V8RegExpCode_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/6, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ V8RegExpCode_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit V8RegExpCode_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit V8RegExpCode_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_v8_isolate_iid() const { return at<1>().valid(); }
+ uint64_t v8_isolate_iid() const { return at<1>().as_uint64(); }
+ bool has_tid() const { return at<2>().valid(); }
+ uint32_t tid() const { return at<2>().as_uint32(); }
+ bool has_pattern() const { return at<3>().valid(); }
+ ::protozero::ConstBytes pattern() const { return at<3>().as_bytes(); }
+ bool has_instruction_start() const { return at<4>().valid(); }
+ uint64_t instruction_start() const { return at<4>().as_uint64(); }
+ bool has_instruction_size_bytes() const { return at<5>().valid(); }
+ uint64_t instruction_size_bytes() const { return at<5>().as_uint64(); }
+ bool has_machine_code() const { return at<6>().valid(); }
+ ::protozero::ConstBytes machine_code() const { return at<6>().as_bytes(); }
+};
+
+class V8RegExpCode : public ::protozero::Message {
+ public:
+ using Decoder = V8RegExpCode_Decoder;
+ enum : int32_t {
+ kV8IsolateIidFieldNumber = 1,
+ kTidFieldNumber = 2,
+ kPatternFieldNumber = 3,
+ kInstructionStartFieldNumber = 4,
+ kInstructionSizeBytesFieldNumber = 5,
+ kMachineCodeFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.V8RegExpCode"; }
+
+
+ using FieldMetadata_V8IsolateIid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ V8RegExpCode>;
+
+ static constexpr FieldMetadata_V8IsolateIid kV8IsolateIid{};
+ void set_v8_isolate_iid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_V8IsolateIid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Tid =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ V8RegExpCode>;
+
+ static constexpr FieldMetadata_Tid kTid{};
+ void set_tid(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Tid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pattern =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ V8String,
+ V8RegExpCode>;
+
+ static constexpr FieldMetadata_Pattern kPattern{};
+ template <typename T = V8String> T* set_pattern() {
+ return BeginNestedMessage<T>(3);
+ }
+
+
+ using FieldMetadata_InstructionStart =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ V8RegExpCode>;
+
+ static constexpr FieldMetadata_InstructionStart kInstructionStart{};
+ void set_instruction_start(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_InstructionStart::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_InstructionSizeBytes =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ V8RegExpCode>;
+
+ static constexpr FieldMetadata_InstructionSizeBytes kInstructionSizeBytes{};
+ void set_instruction_size_bytes(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_InstructionSizeBytes::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MachineCode =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBytes,
+ std::string,
+ V8RegExpCode>;
+
+ static constexpr FieldMetadata_MachineCode kMachineCode{};
+ void set_machine_code(const uint8_t* data, size_t size) {
+ AppendBytes(FieldMetadata_MachineCode::kFieldId, data, size);
+ }
+ void set_machine_code(::protozero::ConstBytes bytes) {
+ AppendBytes(FieldMetadata_MachineCode::kFieldId, bytes.data, bytes.size);
+ }
+ void set_machine_code(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_MachineCode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBytes>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class V8WasmCode_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/9, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ V8WasmCode_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit V8WasmCode_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit V8WasmCode_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_v8_isolate_iid() const { return at<1>().valid(); }
+ uint64_t v8_isolate_iid() const { return at<1>().as_uint64(); }
+ bool has_tid() const { return at<2>().valid(); }
+ uint32_t tid() const { return at<2>().as_uint32(); }
+ bool has_v8_wasm_script_iid() const { return at<3>().valid(); }
+ uint64_t v8_wasm_script_iid() const { return at<3>().as_uint64(); }
+ bool has_function_name() const { return at<4>().valid(); }
+ ::protozero::ConstChars function_name() const { return at<4>().as_string(); }
+ bool has_tier() const { return at<5>().valid(); }
+ int32_t tier() const { return at<5>().as_int32(); }
+ bool has_code_offset_in_module() const { return at<6>().valid(); }
+ int32_t code_offset_in_module() const { return at<6>().as_int32(); }
+ bool has_instruction_start() const { return at<7>().valid(); }
+ uint64_t instruction_start() const { return at<7>().as_uint64(); }
+ bool has_instruction_size_bytes() const { return at<8>().valid(); }
+ uint64_t instruction_size_bytes() const { return at<8>().as_uint64(); }
+ bool has_machine_code() const { return at<9>().valid(); }
+ ::protozero::ConstBytes machine_code() const { return at<9>().as_bytes(); }
+};
+
+class V8WasmCode : public ::protozero::Message {
+ public:
+ using Decoder = V8WasmCode_Decoder;
+ enum : int32_t {
+ kV8IsolateIidFieldNumber = 1,
+ kTidFieldNumber = 2,
+ kV8WasmScriptIidFieldNumber = 3,
+ kFunctionNameFieldNumber = 4,
+ kTierFieldNumber = 5,
+ kCodeOffsetInModuleFieldNumber = 6,
+ kInstructionStartFieldNumber = 7,
+ kInstructionSizeBytesFieldNumber = 8,
+ kMachineCodeFieldNumber = 9,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.V8WasmCode"; }
+
+
+ using Tier = ::perfetto::protos::pbzero::V8WasmCode_Tier;
+ static inline const char* Tier_Name(Tier value) {
+ return ::perfetto::protos::pbzero::V8WasmCode_Tier_Name(value);
+ }
+ static inline const Tier TIER_UNKNOWN = Tier::TIER_UNKNOWN;
+ static inline const Tier TIER_LIFTOFF = Tier::TIER_LIFTOFF;
+ static inline const Tier TIER_TURBOFAN = Tier::TIER_TURBOFAN;
+
+ using FieldMetadata_V8IsolateIid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ V8WasmCode>;
+
+ static constexpr FieldMetadata_V8IsolateIid kV8IsolateIid{};
+ void set_v8_isolate_iid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_V8IsolateIid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Tid =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ V8WasmCode>;
+
+ static constexpr FieldMetadata_Tid kTid{};
+ void set_tid(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Tid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_V8WasmScriptIid =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ V8WasmCode>;
+
+ static constexpr FieldMetadata_V8WasmScriptIid kV8WasmScriptIid{};
+ void set_v8_wasm_script_iid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_V8WasmScriptIid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FunctionName =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ V8WasmCode>;
+
+ static constexpr FieldMetadata_FunctionName kFunctionName{};
+ void set_function_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_FunctionName::kFieldId, data, size);
+ }
+ void set_function_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_FunctionName::kFieldId, chars.data, chars.size);
+ }
+ void set_function_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_FunctionName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Tier =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ V8WasmCode_Tier,
+ V8WasmCode>;
+
+ static constexpr FieldMetadata_Tier kTier{};
+ void set_tier(V8WasmCode_Tier value) {
+ static constexpr uint32_t field_id = FieldMetadata_Tier::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CodeOffsetInModule =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ V8WasmCode>;
+
+ static constexpr FieldMetadata_CodeOffsetInModule kCodeOffsetInModule{};
+ void set_code_offset_in_module(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CodeOffsetInModule::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_InstructionStart =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ V8WasmCode>;
+
+ static constexpr FieldMetadata_InstructionStart kInstructionStart{};
+ void set_instruction_start(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_InstructionStart::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_InstructionSizeBytes =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ V8WasmCode>;
+
+ static constexpr FieldMetadata_InstructionSizeBytes kInstructionSizeBytes{};
+ void set_instruction_size_bytes(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_InstructionSizeBytes::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MachineCode =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBytes,
+ std::string,
+ V8WasmCode>;
+
+ static constexpr FieldMetadata_MachineCode kMachineCode{};
+ void set_machine_code(const uint8_t* data, size_t size) {
+ AppendBytes(FieldMetadata_MachineCode::kFieldId, data, size);
+ }
+ void set_machine_code(::protozero::ConstBytes bytes) {
+ AppendBytes(FieldMetadata_MachineCode::kFieldId, bytes.data, bytes.size);
+ }
+ void set_machine_code(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_MachineCode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBytes>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class V8InternalCode_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/8, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ V8InternalCode_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit V8InternalCode_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit V8InternalCode_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_v8_isolate_iid() const { return at<1>().valid(); }
+ uint64_t v8_isolate_iid() const { return at<1>().as_uint64(); }
+ bool has_tid() const { return at<2>().valid(); }
+ uint32_t tid() const { return at<2>().as_uint32(); }
+ bool has_name() const { return at<3>().valid(); }
+ ::protozero::ConstChars name() const { return at<3>().as_string(); }
+ bool has_type() const { return at<4>().valid(); }
+ int32_t type() const { return at<4>().as_int32(); }
+ bool has_builtin_id() const { return at<5>().valid(); }
+ int32_t builtin_id() const { return at<5>().as_int32(); }
+ bool has_instruction_start() const { return at<6>().valid(); }
+ uint64_t instruction_start() const { return at<6>().as_uint64(); }
+ bool has_instruction_size_bytes() const { return at<7>().valid(); }
+ uint64_t instruction_size_bytes() const { return at<7>().as_uint64(); }
+ bool has_machine_code() const { return at<8>().valid(); }
+ ::protozero::ConstBytes machine_code() const { return at<8>().as_bytes(); }
+};
+
+class V8InternalCode : public ::protozero::Message {
+ public:
+ using Decoder = V8InternalCode_Decoder;
+ enum : int32_t {
+ kV8IsolateIidFieldNumber = 1,
+ kTidFieldNumber = 2,
+ kNameFieldNumber = 3,
+ kTypeFieldNumber = 4,
+ kBuiltinIdFieldNumber = 5,
+ kInstructionStartFieldNumber = 6,
+ kInstructionSizeBytesFieldNumber = 7,
+ kMachineCodeFieldNumber = 8,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.V8InternalCode"; }
+
+
+ using Type = ::perfetto::protos::pbzero::V8InternalCode_Type;
+ static inline const char* Type_Name(Type value) {
+ return ::perfetto::protos::pbzero::V8InternalCode_Type_Name(value);
+ }
+ static inline const Type TYPE_UNKNOWN = Type::TYPE_UNKNOWN;
+ static inline const Type TYPE_BYTECODE_HANDLER = Type::TYPE_BYTECODE_HANDLER;
+ static inline const Type TYPE_FOR_TESTING = Type::TYPE_FOR_TESTING;
+ static inline const Type TYPE_BUILTIN = Type::TYPE_BUILTIN;
+ static inline const Type TYPE_WASM_FUNCTION = Type::TYPE_WASM_FUNCTION;
+ static inline const Type TYPE_WASM_TO_CAPI_FUNCTION = Type::TYPE_WASM_TO_CAPI_FUNCTION;
+ static inline const Type TYPE_WASM_TO_JS_FUNCTION = Type::TYPE_WASM_TO_JS_FUNCTION;
+ static inline const Type TYPE_JS_TO_WASM_FUNCTION = Type::TYPE_JS_TO_WASM_FUNCTION;
+ static inline const Type TYPE_JS_TO_JS_FUNCTION = Type::TYPE_JS_TO_JS_FUNCTION;
+ static inline const Type TYPE_C_WASM_ENTRY = Type::TYPE_C_WASM_ENTRY;
+
+ using FieldMetadata_V8IsolateIid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ V8InternalCode>;
+
+ static constexpr FieldMetadata_V8IsolateIid kV8IsolateIid{};
+ void set_v8_isolate_iid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_V8IsolateIid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Tid =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ V8InternalCode>;
+
+ static constexpr FieldMetadata_Tid kTid{};
+ void set_tid(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Tid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ V8InternalCode>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Type =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ V8InternalCode_Type,
+ V8InternalCode>;
+
+ static constexpr FieldMetadata_Type kType{};
+ void set_type(V8InternalCode_Type value) {
+ static constexpr uint32_t field_id = FieldMetadata_Type::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BuiltinId =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ V8InternalCode>;
+
+ static constexpr FieldMetadata_BuiltinId kBuiltinId{};
+ void set_builtin_id(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BuiltinId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_InstructionStart =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ V8InternalCode>;
+
+ static constexpr FieldMetadata_InstructionStart kInstructionStart{};
+ void set_instruction_start(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_InstructionStart::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_InstructionSizeBytes =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ V8InternalCode>;
+
+ static constexpr FieldMetadata_InstructionSizeBytes kInstructionSizeBytes{};
+ void set_instruction_size_bytes(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_InstructionSizeBytes::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MachineCode =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBytes,
+ std::string,
+ V8InternalCode>;
+
+ static constexpr FieldMetadata_MachineCode kMachineCode{};
+ void set_machine_code(const uint8_t* data, size_t size) {
+ AppendBytes(FieldMetadata_MachineCode::kFieldId, data, size);
+ }
+ void set_machine_code(::protozero::ConstBytes bytes) {
+ AppendBytes(FieldMetadata_MachineCode::kFieldId, bytes.data, bytes.size);
+ }
+ void set_machine_code(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_MachineCode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBytes>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class V8JsCode_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/8, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ V8JsCode_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit V8JsCode_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit V8JsCode_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_v8_isolate_iid() const { return at<1>().valid(); }
+ uint64_t v8_isolate_iid() const { return at<1>().as_uint64(); }
+ bool has_tid() const { return at<2>().valid(); }
+ uint32_t tid() const { return at<2>().as_uint32(); }
+ bool has_v8_js_function_iid() const { return at<3>().valid(); }
+ uint64_t v8_js_function_iid() const { return at<3>().as_uint64(); }
+ bool has_tier() const { return at<4>().valid(); }
+ int32_t tier() const { return at<4>().as_int32(); }
+ bool has_instruction_start() const { return at<5>().valid(); }
+ uint64_t instruction_start() const { return at<5>().as_uint64(); }
+ bool has_instruction_size_bytes() const { return at<6>().valid(); }
+ uint64_t instruction_size_bytes() const { return at<6>().as_uint64(); }
+ bool has_machine_code() const { return at<7>().valid(); }
+ ::protozero::ConstBytes machine_code() const { return at<7>().as_bytes(); }
+ bool has_bytecode() const { return at<8>().valid(); }
+ ::protozero::ConstBytes bytecode() const { return at<8>().as_bytes(); }
+};
+
+class V8JsCode : public ::protozero::Message {
+ public:
+ using Decoder = V8JsCode_Decoder;
+ enum : int32_t {
+ kV8IsolateIidFieldNumber = 1,
+ kTidFieldNumber = 2,
+ kV8JsFunctionIidFieldNumber = 3,
+ kTierFieldNumber = 4,
+ kInstructionStartFieldNumber = 5,
+ kInstructionSizeBytesFieldNumber = 6,
+ kMachineCodeFieldNumber = 7,
+ kBytecodeFieldNumber = 8,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.V8JsCode"; }
+
+
+ using Tier = ::perfetto::protos::pbzero::V8JsCode_Tier;
+ static inline const char* Tier_Name(Tier value) {
+ return ::perfetto::protos::pbzero::V8JsCode_Tier_Name(value);
+ }
+ static inline const Tier TIER_UNKNOWN = Tier::TIER_UNKNOWN;
+ static inline const Tier TIER_IGNITION = Tier::TIER_IGNITION;
+ static inline const Tier TIER_SPARKPLUG = Tier::TIER_SPARKPLUG;
+ static inline const Tier TIER_MAGLEV = Tier::TIER_MAGLEV;
+ static inline const Tier TIER_TURBOSHAFT = Tier::TIER_TURBOSHAFT;
+ static inline const Tier TIER_TURBOFAN = Tier::TIER_TURBOFAN;
+
+ using FieldMetadata_V8IsolateIid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ V8JsCode>;
+
+ static constexpr FieldMetadata_V8IsolateIid kV8IsolateIid{};
+ void set_v8_isolate_iid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_V8IsolateIid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Tid =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ V8JsCode>;
+
+ static constexpr FieldMetadata_Tid kTid{};
+ void set_tid(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Tid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_V8JsFunctionIid =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ V8JsCode>;
+
+ static constexpr FieldMetadata_V8JsFunctionIid kV8JsFunctionIid{};
+ void set_v8_js_function_iid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_V8JsFunctionIid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Tier =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ V8JsCode_Tier,
+ V8JsCode>;
+
+ static constexpr FieldMetadata_Tier kTier{};
+ void set_tier(V8JsCode_Tier value) {
+ static constexpr uint32_t field_id = FieldMetadata_Tier::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_InstructionStart =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ V8JsCode>;
+
+ static constexpr FieldMetadata_InstructionStart kInstructionStart{};
+ void set_instruction_start(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_InstructionStart::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_InstructionSizeBytes =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ V8JsCode>;
+
+ static constexpr FieldMetadata_InstructionSizeBytes kInstructionSizeBytes{};
+ void set_instruction_size_bytes(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_InstructionSizeBytes::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MachineCode =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBytes,
+ std::string,
+ V8JsCode>;
+
+ static constexpr FieldMetadata_MachineCode kMachineCode{};
+ void set_machine_code(const uint8_t* data, size_t size) {
+ AppendBytes(FieldMetadata_MachineCode::kFieldId, data, size);
+ }
+ void set_machine_code(::protozero::ConstBytes bytes) {
+ AppendBytes(FieldMetadata_MachineCode::kFieldId, bytes.data, bytes.size);
+ }
+ void set_machine_code(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_MachineCode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBytes>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Bytecode =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBytes,
+ std::string,
+ V8JsCode>;
+
+ static constexpr FieldMetadata_Bytecode kBytecode{};
+ void set_bytecode(const uint8_t* data, size_t size) {
+ AppendBytes(FieldMetadata_Bytecode::kFieldId, data, size);
+ }
+ void set_bytecode(::protozero::ConstBytes bytes) {
+ AppendBytes(FieldMetadata_Bytecode::kFieldId, bytes.data, bytes.size);
+ }
+ void set_bytecode(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Bytecode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBytes>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class InternedV8Isolate_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/6, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ InternedV8Isolate_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit InternedV8Isolate_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit InternedV8Isolate_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_iid() const { return at<1>().valid(); }
+ uint64_t iid() const { return at<1>().as_uint64(); }
+ bool has_pid() const { return at<2>().valid(); }
+ uint32_t pid() const { return at<2>().as_uint32(); }
+ bool has_isolate_id() const { return at<3>().valid(); }
+ int32_t isolate_id() const { return at<3>().as_int32(); }
+ bool has_code_range() const { return at<4>().valid(); }
+ ::protozero::ConstBytes code_range() const { return at<4>().as_bytes(); }
+ bool has_embedded_blob_code_start_address() const { return at<5>().valid(); }
+ uint64_t embedded_blob_code_start_address() const { return at<5>().as_uint64(); }
+ bool has_embedded_blob_code_size() const { return at<6>().valid(); }
+ uint64_t embedded_blob_code_size() const { return at<6>().as_uint64(); }
+};
+
+class InternedV8Isolate : public ::protozero::Message {
+ public:
+ using Decoder = InternedV8Isolate_Decoder;
+ enum : int32_t {
+ kIidFieldNumber = 1,
+ kPidFieldNumber = 2,
+ kIsolateIdFieldNumber = 3,
+ kCodeRangeFieldNumber = 4,
+ kEmbeddedBlobCodeStartAddressFieldNumber = 5,
+ kEmbeddedBlobCodeSizeFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.InternedV8Isolate"; }
+
+ using CodeRange = ::perfetto::protos::pbzero::InternedV8Isolate_CodeRange;
+
+ using FieldMetadata_Iid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ InternedV8Isolate>;
+
+ static constexpr FieldMetadata_Iid kIid{};
+ void set_iid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Iid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ InternedV8Isolate>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IsolateId =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ InternedV8Isolate>;
+
+ static constexpr FieldMetadata_IsolateId kIsolateId{};
+ void set_isolate_id(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_IsolateId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CodeRange =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ InternedV8Isolate_CodeRange,
+ InternedV8Isolate>;
+
+ static constexpr FieldMetadata_CodeRange kCodeRange{};
+ template <typename T = InternedV8Isolate_CodeRange> T* set_code_range() {
+ return BeginNestedMessage<T>(4);
+ }
+
+
+ using FieldMetadata_EmbeddedBlobCodeStartAddress =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ InternedV8Isolate>;
+
+ static constexpr FieldMetadata_EmbeddedBlobCodeStartAddress kEmbeddedBlobCodeStartAddress{};
+ void set_embedded_blob_code_start_address(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_EmbeddedBlobCodeStartAddress::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_EmbeddedBlobCodeSize =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ InternedV8Isolate>;
+
+ static constexpr FieldMetadata_EmbeddedBlobCodeSize kEmbeddedBlobCodeSize{};
+ void set_embedded_blob_code_size(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_EmbeddedBlobCodeSize::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class InternedV8Isolate_CodeRange_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ InternedV8Isolate_CodeRange_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit InternedV8Isolate_CodeRange_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit InternedV8Isolate_CodeRange_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_base_address() const { return at<1>().valid(); }
+ uint64_t base_address() const { return at<1>().as_uint64(); }
+ bool has_size() const { return at<2>().valid(); }
+ uint64_t size() const { return at<2>().as_uint64(); }
+ bool has_embedded_blob_code_copy_start_address() const { return at<3>().valid(); }
+ uint64_t embedded_blob_code_copy_start_address() const { return at<3>().as_uint64(); }
+ bool has_is_process_wide() const { return at<4>().valid(); }
+ bool is_process_wide() const { return at<4>().as_bool(); }
+};
+
+class InternedV8Isolate_CodeRange : public ::protozero::Message {
+ public:
+ using Decoder = InternedV8Isolate_CodeRange_Decoder;
+ enum : int32_t {
+ kBaseAddressFieldNumber = 1,
+ kSizeFieldNumber = 2,
+ kEmbeddedBlobCodeCopyStartAddressFieldNumber = 3,
+ kIsProcessWideFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.InternedV8Isolate.CodeRange"; }
+
+
+ using FieldMetadata_BaseAddress =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ InternedV8Isolate_CodeRange>;
+
+ static constexpr FieldMetadata_BaseAddress kBaseAddress{};
+ void set_base_address(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BaseAddress::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Size =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ InternedV8Isolate_CodeRange>;
+
+ static constexpr FieldMetadata_Size kSize{};
+ void set_size(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Size::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_EmbeddedBlobCodeCopyStartAddress =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ InternedV8Isolate_CodeRange>;
+
+ static constexpr FieldMetadata_EmbeddedBlobCodeCopyStartAddress kEmbeddedBlobCodeCopyStartAddress{};
+ void set_embedded_blob_code_copy_start_address(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_EmbeddedBlobCodeCopyStartAddress::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IsProcessWide =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ InternedV8Isolate_CodeRange>;
+
+ static constexpr FieldMetadata_IsProcessWide kIsProcessWide{};
+ void set_is_process_wide(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_IsProcessWide::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class InternedV8JsFunction_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/6, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ InternedV8JsFunction_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit InternedV8JsFunction_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit InternedV8JsFunction_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_iid() const { return at<1>().valid(); }
+ uint64_t iid() const { return at<1>().as_uint64(); }
+ bool has_v8_js_function_name_iid() const { return at<2>().valid(); }
+ uint64_t v8_js_function_name_iid() const { return at<2>().as_uint64(); }
+ bool has_v8_js_script_iid() const { return at<3>().valid(); }
+ uint64_t v8_js_script_iid() const { return at<3>().as_uint64(); }
+ bool has_is_toplevel() const { return at<4>().valid(); }
+ bool is_toplevel() const { return at<4>().as_bool(); }
+ bool has_kind() const { return at<5>().valid(); }
+ int32_t kind() const { return at<5>().as_int32(); }
+ bool has_byte_offset() const { return at<6>().valid(); }
+ uint32_t byte_offset() const { return at<6>().as_uint32(); }
+};
+
+class InternedV8JsFunction : public ::protozero::Message {
+ public:
+ using Decoder = InternedV8JsFunction_Decoder;
+ enum : int32_t {
+ kIidFieldNumber = 1,
+ kV8JsFunctionNameIidFieldNumber = 2,
+ kV8JsScriptIidFieldNumber = 3,
+ kIsToplevelFieldNumber = 4,
+ kKindFieldNumber = 5,
+ kByteOffsetFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.InternedV8JsFunction"; }
+
+
+ using Kind = ::perfetto::protos::pbzero::InternedV8JsFunction_Kind;
+ static inline const char* Kind_Name(Kind value) {
+ return ::perfetto::protos::pbzero::InternedV8JsFunction_Kind_Name(value);
+ }
+ static inline const Kind KIND_UNKNOWN = Kind::KIND_UNKNOWN;
+ static inline const Kind KIND_NORMAL_FUNCTION = Kind::KIND_NORMAL_FUNCTION;
+ static inline const Kind KIND_MODULE = Kind::KIND_MODULE;
+ static inline const Kind KIND_ASYNC_MODULE = Kind::KIND_ASYNC_MODULE;
+ static inline const Kind KIND_BASE_CONSTRUCTOR = Kind::KIND_BASE_CONSTRUCTOR;
+ static inline const Kind KIND_DEFAULT_BASE_CONSTRUCTOR = Kind::KIND_DEFAULT_BASE_CONSTRUCTOR;
+ static inline const Kind KIND_DEFAULT_DERIVED_CONSTRUCTOR = Kind::KIND_DEFAULT_DERIVED_CONSTRUCTOR;
+ static inline const Kind KIND_DERIVED_CONSTRUCTOR = Kind::KIND_DERIVED_CONSTRUCTOR;
+ static inline const Kind KIND_GETTER_FUNCTION = Kind::KIND_GETTER_FUNCTION;
+ static inline const Kind KIND_STATIC_GETTER_FUNCTION = Kind::KIND_STATIC_GETTER_FUNCTION;
+ static inline const Kind KIND_SETTER_FUNCTION = Kind::KIND_SETTER_FUNCTION;
+ static inline const Kind KIND_STATIC_SETTER_FUNCTION = Kind::KIND_STATIC_SETTER_FUNCTION;
+ static inline const Kind KIND_ARROW_FUNCTION = Kind::KIND_ARROW_FUNCTION;
+ static inline const Kind KIND_ASYNC_ARROW_FUNCTION = Kind::KIND_ASYNC_ARROW_FUNCTION;
+ static inline const Kind KIND_ASYNC_FUNCTION = Kind::KIND_ASYNC_FUNCTION;
+ static inline const Kind KIND_ASYNC_CONCISE_METHOD = Kind::KIND_ASYNC_CONCISE_METHOD;
+ static inline const Kind KIND_STATIC_ASYNC_CONCISE_METHOD = Kind::KIND_STATIC_ASYNC_CONCISE_METHOD;
+ static inline const Kind KIND_ASYNC_CONCISE_GENERATOR_METHOD = Kind::KIND_ASYNC_CONCISE_GENERATOR_METHOD;
+ static inline const Kind KIND_STATIC_ASYNC_CONCISE_GENERATOR_METHOD = Kind::KIND_STATIC_ASYNC_CONCISE_GENERATOR_METHOD;
+ static inline const Kind KIND_ASYNC_GENERATOR_FUNCTION = Kind::KIND_ASYNC_GENERATOR_FUNCTION;
+ static inline const Kind KIND_GENERATOR_FUNCTION = Kind::KIND_GENERATOR_FUNCTION;
+ static inline const Kind KIND_CONCISE_GENERATOR_METHOD = Kind::KIND_CONCISE_GENERATOR_METHOD;
+ static inline const Kind KIND_STATIC_CONCISE_GENERATOR_METHOD = Kind::KIND_STATIC_CONCISE_GENERATOR_METHOD;
+ static inline const Kind KIND_CONCISE_METHOD = Kind::KIND_CONCISE_METHOD;
+ static inline const Kind KIND_STATIC_CONCISE_METHOD = Kind::KIND_STATIC_CONCISE_METHOD;
+ static inline const Kind KIND_CLASS_MEMBERS_INITIALIZER_FUNCTION = Kind::KIND_CLASS_MEMBERS_INITIALIZER_FUNCTION;
+ static inline const Kind KIND_CLASS_STATIC_INITIALIZER_FUNCTION = Kind::KIND_CLASS_STATIC_INITIALIZER_FUNCTION;
+ static inline const Kind KIND_INVALID = Kind::KIND_INVALID;
+
+ using FieldMetadata_Iid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ InternedV8JsFunction>;
+
+ static constexpr FieldMetadata_Iid kIid{};
+ void set_iid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Iid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_V8JsFunctionNameIid =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ InternedV8JsFunction>;
+
+ static constexpr FieldMetadata_V8JsFunctionNameIid kV8JsFunctionNameIid{};
+ void set_v8_js_function_name_iid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_V8JsFunctionNameIid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_V8JsScriptIid =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ InternedV8JsFunction>;
+
+ static constexpr FieldMetadata_V8JsScriptIid kV8JsScriptIid{};
+ void set_v8_js_script_iid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_V8JsScriptIid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IsToplevel =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ InternedV8JsFunction>;
+
+ static constexpr FieldMetadata_IsToplevel kIsToplevel{};
+ void set_is_toplevel(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_IsToplevel::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Kind =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ InternedV8JsFunction_Kind,
+ InternedV8JsFunction>;
+
+ static constexpr FieldMetadata_Kind kKind{};
+ void set_kind(InternedV8JsFunction_Kind value) {
+ static constexpr uint32_t field_id = FieldMetadata_Kind::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ByteOffset =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ InternedV8JsFunction>;
+
+ static constexpr FieldMetadata_ByteOffset kByteOffset{};
+ void set_byte_offset(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ByteOffset::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class InternedV8WasmScript_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ InternedV8WasmScript_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit InternedV8WasmScript_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit InternedV8WasmScript_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_iid() const { return at<1>().valid(); }
+ uint64_t iid() const { return at<1>().as_uint64(); }
+ bool has_script_id() const { return at<2>().valid(); }
+ int32_t script_id() const { return at<2>().as_int32(); }
+ bool has_url() const { return at<3>().valid(); }
+ ::protozero::ConstChars url() const { return at<3>().as_string(); }
+};
+
+class InternedV8WasmScript : public ::protozero::Message {
+ public:
+ using Decoder = InternedV8WasmScript_Decoder;
+ enum : int32_t {
+ kIidFieldNumber = 1,
+ kScriptIdFieldNumber = 2,
+ kUrlFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.InternedV8WasmScript"; }
+
+
+ using FieldMetadata_Iid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ InternedV8WasmScript>;
+
+ static constexpr FieldMetadata_Iid kIid{};
+ void set_iid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Iid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ScriptId =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ InternedV8WasmScript>;
+
+ static constexpr FieldMetadata_ScriptId kScriptId{};
+ void set_script_id(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ScriptId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Url =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ InternedV8WasmScript>;
+
+ static constexpr FieldMetadata_Url kUrl{};
+ void set_url(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Url::kFieldId, data, size);
+ }
+ void set_url(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Url::kFieldId, chars.data, chars.size);
+ }
+ void set_url(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Url::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class InternedV8JsScript_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ InternedV8JsScript_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit InternedV8JsScript_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit InternedV8JsScript_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_iid() const { return at<1>().valid(); }
+ uint64_t iid() const { return at<1>().as_uint64(); }
+ bool has_script_id() const { return at<2>().valid(); }
+ int32_t script_id() const { return at<2>().as_int32(); }
+ bool has_type() const { return at<3>().valid(); }
+ int32_t type() const { return at<3>().as_int32(); }
+ bool has_name() const { return at<4>().valid(); }
+ ::protozero::ConstBytes name() const { return at<4>().as_bytes(); }
+ bool has_source() const { return at<5>().valid(); }
+ ::protozero::ConstBytes source() const { return at<5>().as_bytes(); }
+};
+
+class InternedV8JsScript : public ::protozero::Message {
+ public:
+ using Decoder = InternedV8JsScript_Decoder;
+ enum : int32_t {
+ kIidFieldNumber = 1,
+ kScriptIdFieldNumber = 2,
+ kTypeFieldNumber = 3,
+ kNameFieldNumber = 4,
+ kSourceFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.InternedV8JsScript"; }
+
+
+ using Type = ::perfetto::protos::pbzero::InternedV8JsScript_Type;
+ static inline const char* Type_Name(Type value) {
+ return ::perfetto::protos::pbzero::InternedV8JsScript_Type_Name(value);
+ }
+ static inline const Type TYPE_UNKNOWN = Type::TYPE_UNKNOWN;
+ static inline const Type TYPE_NORMAL = Type::TYPE_NORMAL;
+ static inline const Type TYPE_EVAL = Type::TYPE_EVAL;
+ static inline const Type TYPE_MODULE = Type::TYPE_MODULE;
+ static inline const Type TYPE_NATIVE = Type::TYPE_NATIVE;
+ static inline const Type TYPE_EXTENSION = Type::TYPE_EXTENSION;
+ static inline const Type TYPE_INSPECTOR = Type::TYPE_INSPECTOR;
+
+ using FieldMetadata_Iid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ InternedV8JsScript>;
+
+ static constexpr FieldMetadata_Iid kIid{};
+ void set_iid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Iid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ScriptId =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ InternedV8JsScript>;
+
+ static constexpr FieldMetadata_ScriptId kScriptId{};
+ void set_script_id(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ScriptId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Type =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ InternedV8JsScript_Type,
+ InternedV8JsScript>;
+
+ static constexpr FieldMetadata_Type kType{};
+ void set_type(InternedV8JsScript_Type value) {
+ static constexpr uint32_t field_id = FieldMetadata_Type::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ V8String,
+ InternedV8JsScript>;
+
+ static constexpr FieldMetadata_Name kName{};
+ template <typename T = V8String> T* set_name() {
+ return BeginNestedMessage<T>(4);
+ }
+
+
+ using FieldMetadata_Source =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ V8String,
+ InternedV8JsScript>;
+
+ static constexpr FieldMetadata_Source kSource{};
+ template <typename T = V8String> T* set_source() {
+ return BeginNestedMessage<T>(5);
+ }
+
+};
+
+class InternedV8String_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ InternedV8String_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit InternedV8String_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit InternedV8String_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_iid() const { return at<1>().valid(); }
+ uint64_t iid() const { return at<1>().as_uint64(); }
+ bool has_latin1() const { return at<2>().valid(); }
+ ::protozero::ConstBytes latin1() const { return at<2>().as_bytes(); }
+ bool has_utf16_le() const { return at<3>().valid(); }
+ ::protozero::ConstBytes utf16_le() const { return at<3>().as_bytes(); }
+ bool has_utf16_be() const { return at<4>().valid(); }
+ ::protozero::ConstBytes utf16_be() const { return at<4>().as_bytes(); }
+};
+
+class InternedV8String : public ::protozero::Message {
+ public:
+ using Decoder = InternedV8String_Decoder;
+ enum : int32_t {
+ kIidFieldNumber = 1,
+ kLatin1FieldNumber = 2,
+ kUtf16LeFieldNumber = 3,
+ kUtf16BeFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.InternedV8String"; }
+
+
+ using FieldMetadata_Iid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ InternedV8String>;
+
+ static constexpr FieldMetadata_Iid kIid{};
+ void set_iid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Iid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Latin1 =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBytes,
+ std::string,
+ InternedV8String>;
+
+ static constexpr FieldMetadata_Latin1 kLatin1{};
+ void set_latin1(const uint8_t* data, size_t size) {
+ AppendBytes(FieldMetadata_Latin1::kFieldId, data, size);
+ }
+ void set_latin1(::protozero::ConstBytes bytes) {
+ AppendBytes(FieldMetadata_Latin1::kFieldId, bytes.data, bytes.size);
+ }
+ void set_latin1(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Latin1::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBytes>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Utf16Le =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBytes,
+ std::string,
+ InternedV8String>;
+
+ static constexpr FieldMetadata_Utf16Le kUtf16Le{};
+ void set_utf16_le(const uint8_t* data, size_t size) {
+ AppendBytes(FieldMetadata_Utf16Le::kFieldId, data, size);
+ }
+ void set_utf16_le(::protozero::ConstBytes bytes) {
+ AppendBytes(FieldMetadata_Utf16Le::kFieldId, bytes.data, bytes.size);
+ }
+ void set_utf16_le(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Utf16Le::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBytes>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Utf16Be =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBytes,
+ std::string,
+ InternedV8String>;
+
+ static constexpr FieldMetadata_Utf16Be kUtf16Be{};
+ void set_utf16_be(const uint8_t* data, size_t size) {
+ AppendBytes(FieldMetadata_Utf16Be::kFieldId, data, size);
+ }
+ void set_utf16_be(::protozero::ConstBytes bytes) {
+ AppendBytes(FieldMetadata_Utf16Be::kFieldId, bytes.data, bytes.size);
+ }
+ void set_utf16_be(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Utf16Be::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBytes>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class V8String_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ V8String_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit V8String_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit V8String_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_latin1() const { return at<1>().valid(); }
+ ::protozero::ConstBytes latin1() const { return at<1>().as_bytes(); }
+ bool has_utf16_le() const { return at<2>().valid(); }
+ ::protozero::ConstBytes utf16_le() const { return at<2>().as_bytes(); }
+ bool has_utf16_be() const { return at<3>().valid(); }
+ ::protozero::ConstBytes utf16_be() const { return at<3>().as_bytes(); }
+};
+
+class V8String : public ::protozero::Message {
+ public:
+ using Decoder = V8String_Decoder;
+ enum : int32_t {
+ kLatin1FieldNumber = 1,
+ kUtf16LeFieldNumber = 2,
+ kUtf16BeFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.V8String"; }
+
+
+ using FieldMetadata_Latin1 =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBytes,
+ std::string,
+ V8String>;
+
+ static constexpr FieldMetadata_Latin1 kLatin1{};
+ void set_latin1(const uint8_t* data, size_t size) {
+ AppendBytes(FieldMetadata_Latin1::kFieldId, data, size);
+ }
+ void set_latin1(::protozero::ConstBytes bytes) {
+ AppendBytes(FieldMetadata_Latin1::kFieldId, bytes.data, bytes.size);
+ }
+ void set_latin1(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Latin1::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBytes>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Utf16Le =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBytes,
+ std::string,
+ V8String>;
+
+ static constexpr FieldMetadata_Utf16Le kUtf16Le{};
+ void set_utf16_le(const uint8_t* data, size_t size) {
+ AppendBytes(FieldMetadata_Utf16Le::kFieldId, data, size);
+ }
+ void set_utf16_le(::protozero::ConstBytes bytes) {
+ AppendBytes(FieldMetadata_Utf16Le::kFieldId, bytes.data, bytes.size);
+ }
+ void set_utf16_le(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Utf16Le::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBytes>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Utf16Be =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBytes,
+ std::string,
+ V8String>;
+
+ static constexpr FieldMetadata_Utf16Be kUtf16Be{};
+ void set_utf16_be(const uint8_t* data, size_t size) {
+ AppendBytes(FieldMetadata_Utf16Be::kFieldId, data, size);
+ }
+ void set_utf16_be(::protozero::ConstBytes bytes) {
+ AppendBytes(FieldMetadata_Utf16Be::kFieldId, bytes.data, bytes.size);
+ }
+ void set_utf16_be(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Utf16Be::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBytes>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/etw/etw.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_ETW_ETW_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_ETW_ETW_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+namespace perfetto_pbzero_enum_CSwitchEtwEvent {
+enum OldThreadState : int32_t;
+} // namespace perfetto_pbzero_enum_CSwitchEtwEvent
+using CSwitchEtwEvent_OldThreadState = perfetto_pbzero_enum_CSwitchEtwEvent::OldThreadState;
+namespace perfetto_pbzero_enum_CSwitchEtwEvent {
+enum OldThreadWaitMode : int32_t;
+} // namespace perfetto_pbzero_enum_CSwitchEtwEvent
+using CSwitchEtwEvent_OldThreadWaitMode = perfetto_pbzero_enum_CSwitchEtwEvent::OldThreadWaitMode;
+namespace perfetto_pbzero_enum_CSwitchEtwEvent {
+enum OldThreadWaitReason : int32_t;
+} // namespace perfetto_pbzero_enum_CSwitchEtwEvent
+using CSwitchEtwEvent_OldThreadWaitReason = perfetto_pbzero_enum_CSwitchEtwEvent::OldThreadWaitReason;
+namespace perfetto_pbzero_enum_ReadyThreadEtwEvent {
+enum AdjustReason : int32_t;
+} // namespace perfetto_pbzero_enum_ReadyThreadEtwEvent
+using ReadyThreadEtwEvent_AdjustReason = perfetto_pbzero_enum_ReadyThreadEtwEvent::AdjustReason;
+namespace perfetto_pbzero_enum_ReadyThreadEtwEvent {
+enum TraceFlag : int32_t;
+} // namespace perfetto_pbzero_enum_ReadyThreadEtwEvent
+using ReadyThreadEtwEvent_TraceFlag = perfetto_pbzero_enum_ReadyThreadEtwEvent::TraceFlag;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+namespace perfetto_pbzero_enum_ReadyThreadEtwEvent {
+enum AdjustReason : int32_t {
+ IGNORE_THE_INCREMENT = 0,
+ APPLY_INCREMENT = 1,
+ APPLY_INCREMENT_BOOST = 2,
+};
+} // namespace perfetto_pbzero_enum_ReadyThreadEtwEvent
+using ReadyThreadEtwEvent_AdjustReason = perfetto_pbzero_enum_ReadyThreadEtwEvent::AdjustReason;
+
+
+constexpr ReadyThreadEtwEvent_AdjustReason ReadyThreadEtwEvent_AdjustReason_MIN = ReadyThreadEtwEvent_AdjustReason::IGNORE_THE_INCREMENT;
+constexpr ReadyThreadEtwEvent_AdjustReason ReadyThreadEtwEvent_AdjustReason_MAX = ReadyThreadEtwEvent_AdjustReason::APPLY_INCREMENT_BOOST;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* ReadyThreadEtwEvent_AdjustReason_Name(::perfetto::protos::pbzero::ReadyThreadEtwEvent_AdjustReason value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::ReadyThreadEtwEvent_AdjustReason::IGNORE_THE_INCREMENT:
+ return "IGNORE_THE_INCREMENT";
+
+ case ::perfetto::protos::pbzero::ReadyThreadEtwEvent_AdjustReason::APPLY_INCREMENT:
+ return "APPLY_INCREMENT";
+
+ case ::perfetto::protos::pbzero::ReadyThreadEtwEvent_AdjustReason::APPLY_INCREMENT_BOOST:
+ return "APPLY_INCREMENT_BOOST";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_ReadyThreadEtwEvent {
+enum TraceFlag : int32_t {
+ TRACE_FLAG_UNSPECIFIED = 0,
+ THREAD_READIED = 1,
+ KERNEL_STACK_SWAPPED_OUT = 2,
+ PROCESS_ADDRESS_SWAPPED_OUT = 4,
+};
+} // namespace perfetto_pbzero_enum_ReadyThreadEtwEvent
+using ReadyThreadEtwEvent_TraceFlag = perfetto_pbzero_enum_ReadyThreadEtwEvent::TraceFlag;
+
+
+constexpr ReadyThreadEtwEvent_TraceFlag ReadyThreadEtwEvent_TraceFlag_MIN = ReadyThreadEtwEvent_TraceFlag::TRACE_FLAG_UNSPECIFIED;
+constexpr ReadyThreadEtwEvent_TraceFlag ReadyThreadEtwEvent_TraceFlag_MAX = ReadyThreadEtwEvent_TraceFlag::PROCESS_ADDRESS_SWAPPED_OUT;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* ReadyThreadEtwEvent_TraceFlag_Name(::perfetto::protos::pbzero::ReadyThreadEtwEvent_TraceFlag value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::ReadyThreadEtwEvent_TraceFlag::TRACE_FLAG_UNSPECIFIED:
+ return "TRACE_FLAG_UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::ReadyThreadEtwEvent_TraceFlag::THREAD_READIED:
+ return "THREAD_READIED";
+
+ case ::perfetto::protos::pbzero::ReadyThreadEtwEvent_TraceFlag::KERNEL_STACK_SWAPPED_OUT:
+ return "KERNEL_STACK_SWAPPED_OUT";
+
+ case ::perfetto::protos::pbzero::ReadyThreadEtwEvent_TraceFlag::PROCESS_ADDRESS_SWAPPED_OUT:
+ return "PROCESS_ADDRESS_SWAPPED_OUT";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_CSwitchEtwEvent {
+enum OldThreadWaitReason : int32_t {
+ EXECUTIVE = 0,
+ FREE_PAGE = 1,
+ PAGE_IN = 2,
+ POOL_ALLOCATION = 3,
+ DELAY_EXECUTION = 4,
+ SUSPEND = 5,
+ USER_REQUEST = 6,
+ WR_EXECUTIVE = 7,
+ WR_FREE_PAGE = 8,
+ WR_PAGE_IN = 9,
+ WR_POOL_ALLOCATION = 10,
+ WR_DELAY_EXECUTION = 11,
+ WR_SUSPENDED = 12,
+ WR_USER_REQUEST = 13,
+ WR_EVENT_PAIR = 14,
+ WR_QUEUE = 15,
+ WR_LPC_RECEIVER = 16,
+ WR_LPC_REPLY = 17,
+ WR_VIRTUAL_MEMORY = 18,
+ WR_PAGE_OUT = 19,
+ WR_RENDEZ_VOUS = 20,
+ WR_KEYED_EVENT = 21,
+ WR_TERMINATED = 22,
+ WR_PROCESS_IN_SWAP = 23,
+ WR_CPU_RATE_CONTROL = 24,
+ WR_CALLOUT_STACK = 25,
+ WR_KERNEL = 26,
+ WR_RESOURCE = 27,
+ WR_PUSH_LOCK = 28,
+ WR_MUTEX = 29,
+ WR_QUANTUM_END = 30,
+ WR_DISPATCH_INT = 31,
+ WR_PREEMPTED = 32,
+ WR_YIELD_EXECUTION = 33,
+ WR_FAST_MUTEX = 34,
+ WR_GUARD_MUTEX = 35,
+ WR_RUNDOWN = 36,
+ MAXIMUM_WAIT_REASON = 37,
+};
+} // namespace perfetto_pbzero_enum_CSwitchEtwEvent
+using CSwitchEtwEvent_OldThreadWaitReason = perfetto_pbzero_enum_CSwitchEtwEvent::OldThreadWaitReason;
+
+
+constexpr CSwitchEtwEvent_OldThreadWaitReason CSwitchEtwEvent_OldThreadWaitReason_MIN = CSwitchEtwEvent_OldThreadWaitReason::EXECUTIVE;
+constexpr CSwitchEtwEvent_OldThreadWaitReason CSwitchEtwEvent_OldThreadWaitReason_MAX = CSwitchEtwEvent_OldThreadWaitReason::MAXIMUM_WAIT_REASON;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* CSwitchEtwEvent_OldThreadWaitReason_Name(::perfetto::protos::pbzero::CSwitchEtwEvent_OldThreadWaitReason value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::CSwitchEtwEvent_OldThreadWaitReason::EXECUTIVE:
+ return "EXECUTIVE";
+
+ case ::perfetto::protos::pbzero::CSwitchEtwEvent_OldThreadWaitReason::FREE_PAGE:
+ return "FREE_PAGE";
+
+ case ::perfetto::protos::pbzero::CSwitchEtwEvent_OldThreadWaitReason::PAGE_IN:
+ return "PAGE_IN";
+
+ case ::perfetto::protos::pbzero::CSwitchEtwEvent_OldThreadWaitReason::POOL_ALLOCATION:
+ return "POOL_ALLOCATION";
+
+ case ::perfetto::protos::pbzero::CSwitchEtwEvent_OldThreadWaitReason::DELAY_EXECUTION:
+ return "DELAY_EXECUTION";
+
+ case ::perfetto::protos::pbzero::CSwitchEtwEvent_OldThreadWaitReason::SUSPEND:
+ return "SUSPEND";
+
+ case ::perfetto::protos::pbzero::CSwitchEtwEvent_OldThreadWaitReason::USER_REQUEST:
+ return "USER_REQUEST";
+
+ case ::perfetto::protos::pbzero::CSwitchEtwEvent_OldThreadWaitReason::WR_EXECUTIVE:
+ return "WR_EXECUTIVE";
+
+ case ::perfetto::protos::pbzero::CSwitchEtwEvent_OldThreadWaitReason::WR_FREE_PAGE:
+ return "WR_FREE_PAGE";
+
+ case ::perfetto::protos::pbzero::CSwitchEtwEvent_OldThreadWaitReason::WR_PAGE_IN:
+ return "WR_PAGE_IN";
+
+ case ::perfetto::protos::pbzero::CSwitchEtwEvent_OldThreadWaitReason::WR_POOL_ALLOCATION:
+ return "WR_POOL_ALLOCATION";
+
+ case ::perfetto::protos::pbzero::CSwitchEtwEvent_OldThreadWaitReason::WR_DELAY_EXECUTION:
+ return "WR_DELAY_EXECUTION";
+
+ case ::perfetto::protos::pbzero::CSwitchEtwEvent_OldThreadWaitReason::WR_SUSPENDED:
+ return "WR_SUSPENDED";
+
+ case ::perfetto::protos::pbzero::CSwitchEtwEvent_OldThreadWaitReason::WR_USER_REQUEST:
+ return "WR_USER_REQUEST";
+
+ case ::perfetto::protos::pbzero::CSwitchEtwEvent_OldThreadWaitReason::WR_EVENT_PAIR:
+ return "WR_EVENT_PAIR";
+
+ case ::perfetto::protos::pbzero::CSwitchEtwEvent_OldThreadWaitReason::WR_QUEUE:
+ return "WR_QUEUE";
+
+ case ::perfetto::protos::pbzero::CSwitchEtwEvent_OldThreadWaitReason::WR_LPC_RECEIVER:
+ return "WR_LPC_RECEIVER";
+
+ case ::perfetto::protos::pbzero::CSwitchEtwEvent_OldThreadWaitReason::WR_LPC_REPLY:
+ return "WR_LPC_REPLY";
+
+ case ::perfetto::protos::pbzero::CSwitchEtwEvent_OldThreadWaitReason::WR_VIRTUAL_MEMORY:
+ return "WR_VIRTUAL_MEMORY";
+
+ case ::perfetto::protos::pbzero::CSwitchEtwEvent_OldThreadWaitReason::WR_PAGE_OUT:
+ return "WR_PAGE_OUT";
+
+ case ::perfetto::protos::pbzero::CSwitchEtwEvent_OldThreadWaitReason::WR_RENDEZ_VOUS:
+ return "WR_RENDEZ_VOUS";
+
+ case ::perfetto::protos::pbzero::CSwitchEtwEvent_OldThreadWaitReason::WR_KEYED_EVENT:
+ return "WR_KEYED_EVENT";
+
+ case ::perfetto::protos::pbzero::CSwitchEtwEvent_OldThreadWaitReason::WR_TERMINATED:
+ return "WR_TERMINATED";
+
+ case ::perfetto::protos::pbzero::CSwitchEtwEvent_OldThreadWaitReason::WR_PROCESS_IN_SWAP:
+ return "WR_PROCESS_IN_SWAP";
+
+ case ::perfetto::protos::pbzero::CSwitchEtwEvent_OldThreadWaitReason::WR_CPU_RATE_CONTROL:
+ return "WR_CPU_RATE_CONTROL";
+
+ case ::perfetto::protos::pbzero::CSwitchEtwEvent_OldThreadWaitReason::WR_CALLOUT_STACK:
+ return "WR_CALLOUT_STACK";
+
+ case ::perfetto::protos::pbzero::CSwitchEtwEvent_OldThreadWaitReason::WR_KERNEL:
+ return "WR_KERNEL";
+
+ case ::perfetto::protos::pbzero::CSwitchEtwEvent_OldThreadWaitReason::WR_RESOURCE:
+ return "WR_RESOURCE";
+
+ case ::perfetto::protos::pbzero::CSwitchEtwEvent_OldThreadWaitReason::WR_PUSH_LOCK:
+ return "WR_PUSH_LOCK";
+
+ case ::perfetto::protos::pbzero::CSwitchEtwEvent_OldThreadWaitReason::WR_MUTEX:
+ return "WR_MUTEX";
+
+ case ::perfetto::protos::pbzero::CSwitchEtwEvent_OldThreadWaitReason::WR_QUANTUM_END:
+ return "WR_QUANTUM_END";
+
+ case ::perfetto::protos::pbzero::CSwitchEtwEvent_OldThreadWaitReason::WR_DISPATCH_INT:
+ return "WR_DISPATCH_INT";
+
+ case ::perfetto::protos::pbzero::CSwitchEtwEvent_OldThreadWaitReason::WR_PREEMPTED:
+ return "WR_PREEMPTED";
+
+ case ::perfetto::protos::pbzero::CSwitchEtwEvent_OldThreadWaitReason::WR_YIELD_EXECUTION:
+ return "WR_YIELD_EXECUTION";
+
+ case ::perfetto::protos::pbzero::CSwitchEtwEvent_OldThreadWaitReason::WR_FAST_MUTEX:
+ return "WR_FAST_MUTEX";
+
+ case ::perfetto::protos::pbzero::CSwitchEtwEvent_OldThreadWaitReason::WR_GUARD_MUTEX:
+ return "WR_GUARD_MUTEX";
+
+ case ::perfetto::protos::pbzero::CSwitchEtwEvent_OldThreadWaitReason::WR_RUNDOWN:
+ return "WR_RUNDOWN";
+
+ case ::perfetto::protos::pbzero::CSwitchEtwEvent_OldThreadWaitReason::MAXIMUM_WAIT_REASON:
+ return "MAXIMUM_WAIT_REASON";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_CSwitchEtwEvent {
+enum OldThreadWaitMode : int32_t {
+ KERNEL_MODE = 0,
+ USER_MODE = 1,
+};
+} // namespace perfetto_pbzero_enum_CSwitchEtwEvent
+using CSwitchEtwEvent_OldThreadWaitMode = perfetto_pbzero_enum_CSwitchEtwEvent::OldThreadWaitMode;
+
+
+constexpr CSwitchEtwEvent_OldThreadWaitMode CSwitchEtwEvent_OldThreadWaitMode_MIN = CSwitchEtwEvent_OldThreadWaitMode::KERNEL_MODE;
+constexpr CSwitchEtwEvent_OldThreadWaitMode CSwitchEtwEvent_OldThreadWaitMode_MAX = CSwitchEtwEvent_OldThreadWaitMode::USER_MODE;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* CSwitchEtwEvent_OldThreadWaitMode_Name(::perfetto::protos::pbzero::CSwitchEtwEvent_OldThreadWaitMode value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::CSwitchEtwEvent_OldThreadWaitMode::KERNEL_MODE:
+ return "KERNEL_MODE";
+
+ case ::perfetto::protos::pbzero::CSwitchEtwEvent_OldThreadWaitMode::USER_MODE:
+ return "USER_MODE";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_CSwitchEtwEvent {
+enum OldThreadState : int32_t {
+ INITIALIZED = 0,
+ READY = 1,
+ RUNNING = 2,
+ STANDBY = 3,
+ TERMINATED = 4,
+ WAITING = 5,
+ TRANSITION = 6,
+ DEFERRED_READY = 7,
+};
+} // namespace perfetto_pbzero_enum_CSwitchEtwEvent
+using CSwitchEtwEvent_OldThreadState = perfetto_pbzero_enum_CSwitchEtwEvent::OldThreadState;
+
+
+constexpr CSwitchEtwEvent_OldThreadState CSwitchEtwEvent_OldThreadState_MIN = CSwitchEtwEvent_OldThreadState::INITIALIZED;
+constexpr CSwitchEtwEvent_OldThreadState CSwitchEtwEvent_OldThreadState_MAX = CSwitchEtwEvent_OldThreadState::DEFERRED_READY;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* CSwitchEtwEvent_OldThreadState_Name(::perfetto::protos::pbzero::CSwitchEtwEvent_OldThreadState value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::CSwitchEtwEvent_OldThreadState::INITIALIZED:
+ return "INITIALIZED";
+
+ case ::perfetto::protos::pbzero::CSwitchEtwEvent_OldThreadState::READY:
+ return "READY";
+
+ case ::perfetto::protos::pbzero::CSwitchEtwEvent_OldThreadState::RUNNING:
+ return "RUNNING";
+
+ case ::perfetto::protos::pbzero::CSwitchEtwEvent_OldThreadState::STANDBY:
+ return "STANDBY";
+
+ case ::perfetto::protos::pbzero::CSwitchEtwEvent_OldThreadState::TERMINATED:
+ return "TERMINATED";
+
+ case ::perfetto::protos::pbzero::CSwitchEtwEvent_OldThreadState::WAITING:
+ return "WAITING";
+
+ case ::perfetto::protos::pbzero::CSwitchEtwEvent_OldThreadState::TRANSITION:
+ return "TRANSITION";
+
+ case ::perfetto::protos::pbzero::CSwitchEtwEvent_OldThreadState::DEFERRED_READY:
+ return "DEFERRED_READY";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+class ReadyThreadEtwEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ReadyThreadEtwEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ReadyThreadEtwEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ReadyThreadEtwEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_t_thread_id() const { return at<1>().valid(); }
+ uint32_t t_thread_id() const { return at<1>().as_uint32(); }
+ bool has_adjust_reason() const { return at<2>().valid(); }
+ int32_t adjust_reason() const { return at<2>().as_int32(); }
+ bool has_adjust_increment() const { return at<3>().valid(); }
+ int32_t adjust_increment() const { return at<3>().as_sint32(); }
+ bool has_flag() const { return at<4>().valid(); }
+ int32_t flag() const { return at<4>().as_int32(); }
+};
+
+class ReadyThreadEtwEvent : public ::protozero::Message {
+ public:
+ using Decoder = ReadyThreadEtwEvent_Decoder;
+ enum : int32_t {
+ kTThreadIdFieldNumber = 1,
+ kAdjustReasonFieldNumber = 2,
+ kAdjustIncrementFieldNumber = 3,
+ kFlagFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ReadyThreadEtwEvent"; }
+
+
+ using AdjustReason = ::perfetto::protos::pbzero::ReadyThreadEtwEvent_AdjustReason;
+ static inline const char* AdjustReason_Name(AdjustReason value) {
+ return ::perfetto::protos::pbzero::ReadyThreadEtwEvent_AdjustReason_Name(value);
+ }
+
+ using TraceFlag = ::perfetto::protos::pbzero::ReadyThreadEtwEvent_TraceFlag;
+ static inline const char* TraceFlag_Name(TraceFlag value) {
+ return ::perfetto::protos::pbzero::ReadyThreadEtwEvent_TraceFlag_Name(value);
+ }
+ static inline const AdjustReason IGNORE_THE_INCREMENT = AdjustReason::IGNORE_THE_INCREMENT;
+ static inline const AdjustReason APPLY_INCREMENT = AdjustReason::APPLY_INCREMENT;
+ static inline const AdjustReason APPLY_INCREMENT_BOOST = AdjustReason::APPLY_INCREMENT_BOOST;
+ static inline const TraceFlag TRACE_FLAG_UNSPECIFIED = TraceFlag::TRACE_FLAG_UNSPECIFIED;
+ static inline const TraceFlag THREAD_READIED = TraceFlag::THREAD_READIED;
+ static inline const TraceFlag KERNEL_STACK_SWAPPED_OUT = TraceFlag::KERNEL_STACK_SWAPPED_OUT;
+ static inline const TraceFlag PROCESS_ADDRESS_SWAPPED_OUT = TraceFlag::PROCESS_ADDRESS_SWAPPED_OUT;
+
+ using FieldMetadata_TThreadId =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ ReadyThreadEtwEvent>;
+
+ static constexpr FieldMetadata_TThreadId kTThreadId{};
+ void set_t_thread_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TThreadId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_AdjustReason =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ ReadyThreadEtwEvent_AdjustReason,
+ ReadyThreadEtwEvent>;
+
+ static constexpr FieldMetadata_AdjustReason kAdjustReason{};
+ void set_adjust_reason(ReadyThreadEtwEvent_AdjustReason value) {
+ static constexpr uint32_t field_id = FieldMetadata_AdjustReason::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_AdjustIncrement =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kSint32,
+ int32_t,
+ ReadyThreadEtwEvent>;
+
+ static constexpr FieldMetadata_AdjustIncrement kAdjustIncrement{};
+ void set_adjust_increment(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_AdjustIncrement::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kSint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Flag =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ ReadyThreadEtwEvent_TraceFlag,
+ ReadyThreadEtwEvent>;
+
+ static constexpr FieldMetadata_Flag kFlag{};
+ void set_flag(ReadyThreadEtwEvent_TraceFlag value) {
+ static constexpr uint32_t field_id = FieldMetadata_Flag::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class CSwitchEtwEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/10, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ CSwitchEtwEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit CSwitchEtwEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit CSwitchEtwEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_new_thread_id() const { return at<1>().valid(); }
+ uint32_t new_thread_id() const { return at<1>().as_uint32(); }
+ bool has_old_thread_id() const { return at<2>().valid(); }
+ uint32_t old_thread_id() const { return at<2>().as_uint32(); }
+ bool has_new_thread_priority() const { return at<3>().valid(); }
+ int32_t new_thread_priority() const { return at<3>().as_sint32(); }
+ bool has_old_thread_priority() const { return at<4>().valid(); }
+ int32_t old_thread_priority() const { return at<4>().as_sint32(); }
+ bool has_previous_c_state() const { return at<5>().valid(); }
+ uint32_t previous_c_state() const { return at<5>().as_uint32(); }
+ bool has_old_thread_wait_reason() const { return at<6>().valid(); }
+ int32_t old_thread_wait_reason() const { return at<6>().as_int32(); }
+ bool has_old_thread_wait_mode() const { return at<7>().valid(); }
+ int32_t old_thread_wait_mode() const { return at<7>().as_int32(); }
+ bool has_old_thread_state() const { return at<8>().valid(); }
+ int32_t old_thread_state() const { return at<8>().as_int32(); }
+ bool has_old_thread_wait_ideal_processor() const { return at<9>().valid(); }
+ int32_t old_thread_wait_ideal_processor() const { return at<9>().as_sint32(); }
+ bool has_new_thread_wait_time() const { return at<10>().valid(); }
+ uint32_t new_thread_wait_time() const { return at<10>().as_uint32(); }
+};
+
+class CSwitchEtwEvent : public ::protozero::Message {
+ public:
+ using Decoder = CSwitchEtwEvent_Decoder;
+ enum : int32_t {
+ kNewThreadIdFieldNumber = 1,
+ kOldThreadIdFieldNumber = 2,
+ kNewThreadPriorityFieldNumber = 3,
+ kOldThreadPriorityFieldNumber = 4,
+ kPreviousCStateFieldNumber = 5,
+ kOldThreadWaitReasonFieldNumber = 6,
+ kOldThreadWaitModeFieldNumber = 7,
+ kOldThreadStateFieldNumber = 8,
+ kOldThreadWaitIdealProcessorFieldNumber = 9,
+ kNewThreadWaitTimeFieldNumber = 10,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.CSwitchEtwEvent"; }
+
+
+ using OldThreadWaitReason = ::perfetto::protos::pbzero::CSwitchEtwEvent_OldThreadWaitReason;
+ static inline const char* OldThreadWaitReason_Name(OldThreadWaitReason value) {
+ return ::perfetto::protos::pbzero::CSwitchEtwEvent_OldThreadWaitReason_Name(value);
+ }
+
+ using OldThreadWaitMode = ::perfetto::protos::pbzero::CSwitchEtwEvent_OldThreadWaitMode;
+ static inline const char* OldThreadWaitMode_Name(OldThreadWaitMode value) {
+ return ::perfetto::protos::pbzero::CSwitchEtwEvent_OldThreadWaitMode_Name(value);
+ }
+
+ using OldThreadState = ::perfetto::protos::pbzero::CSwitchEtwEvent_OldThreadState;
+ static inline const char* OldThreadState_Name(OldThreadState value) {
+ return ::perfetto::protos::pbzero::CSwitchEtwEvent_OldThreadState_Name(value);
+ }
+ static inline const OldThreadWaitReason EXECUTIVE = OldThreadWaitReason::EXECUTIVE;
+ static inline const OldThreadWaitReason FREE_PAGE = OldThreadWaitReason::FREE_PAGE;
+ static inline const OldThreadWaitReason PAGE_IN = OldThreadWaitReason::PAGE_IN;
+ static inline const OldThreadWaitReason POOL_ALLOCATION = OldThreadWaitReason::POOL_ALLOCATION;
+ static inline const OldThreadWaitReason DELAY_EXECUTION = OldThreadWaitReason::DELAY_EXECUTION;
+ static inline const OldThreadWaitReason SUSPEND = OldThreadWaitReason::SUSPEND;
+ static inline const OldThreadWaitReason USER_REQUEST = OldThreadWaitReason::USER_REQUEST;
+ static inline const OldThreadWaitReason WR_EXECUTIVE = OldThreadWaitReason::WR_EXECUTIVE;
+ static inline const OldThreadWaitReason WR_FREE_PAGE = OldThreadWaitReason::WR_FREE_PAGE;
+ static inline const OldThreadWaitReason WR_PAGE_IN = OldThreadWaitReason::WR_PAGE_IN;
+ static inline const OldThreadWaitReason WR_POOL_ALLOCATION = OldThreadWaitReason::WR_POOL_ALLOCATION;
+ static inline const OldThreadWaitReason WR_DELAY_EXECUTION = OldThreadWaitReason::WR_DELAY_EXECUTION;
+ static inline const OldThreadWaitReason WR_SUSPENDED = OldThreadWaitReason::WR_SUSPENDED;
+ static inline const OldThreadWaitReason WR_USER_REQUEST = OldThreadWaitReason::WR_USER_REQUEST;
+ static inline const OldThreadWaitReason WR_EVENT_PAIR = OldThreadWaitReason::WR_EVENT_PAIR;
+ static inline const OldThreadWaitReason WR_QUEUE = OldThreadWaitReason::WR_QUEUE;
+ static inline const OldThreadWaitReason WR_LPC_RECEIVER = OldThreadWaitReason::WR_LPC_RECEIVER;
+ static inline const OldThreadWaitReason WR_LPC_REPLY = OldThreadWaitReason::WR_LPC_REPLY;
+ static inline const OldThreadWaitReason WR_VIRTUAL_MEMORY = OldThreadWaitReason::WR_VIRTUAL_MEMORY;
+ static inline const OldThreadWaitReason WR_PAGE_OUT = OldThreadWaitReason::WR_PAGE_OUT;
+ static inline const OldThreadWaitReason WR_RENDEZ_VOUS = OldThreadWaitReason::WR_RENDEZ_VOUS;
+ static inline const OldThreadWaitReason WR_KEYED_EVENT = OldThreadWaitReason::WR_KEYED_EVENT;
+ static inline const OldThreadWaitReason WR_TERMINATED = OldThreadWaitReason::WR_TERMINATED;
+ static inline const OldThreadWaitReason WR_PROCESS_IN_SWAP = OldThreadWaitReason::WR_PROCESS_IN_SWAP;
+ static inline const OldThreadWaitReason WR_CPU_RATE_CONTROL = OldThreadWaitReason::WR_CPU_RATE_CONTROL;
+ static inline const OldThreadWaitReason WR_CALLOUT_STACK = OldThreadWaitReason::WR_CALLOUT_STACK;
+ static inline const OldThreadWaitReason WR_KERNEL = OldThreadWaitReason::WR_KERNEL;
+ static inline const OldThreadWaitReason WR_RESOURCE = OldThreadWaitReason::WR_RESOURCE;
+ static inline const OldThreadWaitReason WR_PUSH_LOCK = OldThreadWaitReason::WR_PUSH_LOCK;
+ static inline const OldThreadWaitReason WR_MUTEX = OldThreadWaitReason::WR_MUTEX;
+ static inline const OldThreadWaitReason WR_QUANTUM_END = OldThreadWaitReason::WR_QUANTUM_END;
+ static inline const OldThreadWaitReason WR_DISPATCH_INT = OldThreadWaitReason::WR_DISPATCH_INT;
+ static inline const OldThreadWaitReason WR_PREEMPTED = OldThreadWaitReason::WR_PREEMPTED;
+ static inline const OldThreadWaitReason WR_YIELD_EXECUTION = OldThreadWaitReason::WR_YIELD_EXECUTION;
+ static inline const OldThreadWaitReason WR_FAST_MUTEX = OldThreadWaitReason::WR_FAST_MUTEX;
+ static inline const OldThreadWaitReason WR_GUARD_MUTEX = OldThreadWaitReason::WR_GUARD_MUTEX;
+ static inline const OldThreadWaitReason WR_RUNDOWN = OldThreadWaitReason::WR_RUNDOWN;
+ static inline const OldThreadWaitReason MAXIMUM_WAIT_REASON = OldThreadWaitReason::MAXIMUM_WAIT_REASON;
+ static inline const OldThreadWaitMode KERNEL_MODE = OldThreadWaitMode::KERNEL_MODE;
+ static inline const OldThreadWaitMode USER_MODE = OldThreadWaitMode::USER_MODE;
+ static inline const OldThreadState INITIALIZED = OldThreadState::INITIALIZED;
+ static inline const OldThreadState READY = OldThreadState::READY;
+ static inline const OldThreadState RUNNING = OldThreadState::RUNNING;
+ static inline const OldThreadState STANDBY = OldThreadState::STANDBY;
+ static inline const OldThreadState TERMINATED = OldThreadState::TERMINATED;
+ static inline const OldThreadState WAITING = OldThreadState::WAITING;
+ static inline const OldThreadState TRANSITION = OldThreadState::TRANSITION;
+ static inline const OldThreadState DEFERRED_READY = OldThreadState::DEFERRED_READY;
+
+ using FieldMetadata_NewThreadId =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ CSwitchEtwEvent>;
+
+ static constexpr FieldMetadata_NewThreadId kNewThreadId{};
+ void set_new_thread_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NewThreadId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_OldThreadId =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ CSwitchEtwEvent>;
+
+ static constexpr FieldMetadata_OldThreadId kOldThreadId{};
+ void set_old_thread_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_OldThreadId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NewThreadPriority =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kSint32,
+ int32_t,
+ CSwitchEtwEvent>;
+
+ static constexpr FieldMetadata_NewThreadPriority kNewThreadPriority{};
+ void set_new_thread_priority(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NewThreadPriority::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kSint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_OldThreadPriority =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kSint32,
+ int32_t,
+ CSwitchEtwEvent>;
+
+ static constexpr FieldMetadata_OldThreadPriority kOldThreadPriority{};
+ void set_old_thread_priority(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_OldThreadPriority::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kSint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PreviousCState =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ CSwitchEtwEvent>;
+
+ static constexpr FieldMetadata_PreviousCState kPreviousCState{};
+ void set_previous_c_state(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PreviousCState::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_OldThreadWaitReason =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ CSwitchEtwEvent_OldThreadWaitReason,
+ CSwitchEtwEvent>;
+
+ static constexpr FieldMetadata_OldThreadWaitReason kOldThreadWaitReason{};
+ void set_old_thread_wait_reason(CSwitchEtwEvent_OldThreadWaitReason value) {
+ static constexpr uint32_t field_id = FieldMetadata_OldThreadWaitReason::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_OldThreadWaitMode =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ CSwitchEtwEvent_OldThreadWaitMode,
+ CSwitchEtwEvent>;
+
+ static constexpr FieldMetadata_OldThreadWaitMode kOldThreadWaitMode{};
+ void set_old_thread_wait_mode(CSwitchEtwEvent_OldThreadWaitMode value) {
+ static constexpr uint32_t field_id = FieldMetadata_OldThreadWaitMode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_OldThreadState =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ CSwitchEtwEvent_OldThreadState,
+ CSwitchEtwEvent>;
+
+ static constexpr FieldMetadata_OldThreadState kOldThreadState{};
+ void set_old_thread_state(CSwitchEtwEvent_OldThreadState value) {
+ static constexpr uint32_t field_id = FieldMetadata_OldThreadState::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_OldThreadWaitIdealProcessor =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kSint32,
+ int32_t,
+ CSwitchEtwEvent>;
+
+ static constexpr FieldMetadata_OldThreadWaitIdealProcessor kOldThreadWaitIdealProcessor{};
+ void set_old_thread_wait_ideal_processor(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_OldThreadWaitIdealProcessor::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kSint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NewThreadWaitTime =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ CSwitchEtwEvent>;
+
+ static constexpr FieldMetadata_NewThreadWaitTime kNewThreadWaitTime{};
+ void set_new_thread_wait_time(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NewThreadWaitTime::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/etw/etw_event.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_ETW_ETW_EVENT_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_ETW_ETW_EVENT_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class CSwitchEtwEvent;
+class ReadyThreadEtwEvent;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class EtwTraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ EtwTraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit EtwTraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit EtwTraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_timestamp() const { return at<1>().valid(); }
+ uint64_t timestamp() const { return at<1>().as_uint64(); }
+ bool has_cpu() const { return at<4>().valid(); }
+ uint32_t cpu() const { return at<4>().as_uint32(); }
+ bool has_c_switch() const { return at<2>().valid(); }
+ ::protozero::ConstBytes c_switch() const { return at<2>().as_bytes(); }
+ bool has_ready_thread() const { return at<3>().valid(); }
+ ::protozero::ConstBytes ready_thread() const { return at<3>().as_bytes(); }
+};
+
+class EtwTraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = EtwTraceEvent_Decoder;
+ enum : int32_t {
+ kTimestampFieldNumber = 1,
+ kCpuFieldNumber = 4,
+ kCSwitchFieldNumber = 2,
+ kReadyThreadFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.EtwTraceEvent"; }
+
+
+ using FieldMetadata_Timestamp =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ EtwTraceEvent>;
+
+ static constexpr FieldMetadata_Timestamp kTimestamp{};
+ void set_timestamp(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Timestamp::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Cpu =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ EtwTraceEvent>;
+
+ static constexpr FieldMetadata_Cpu kCpu{};
+ void set_cpu(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Cpu::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CSwitch =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ CSwitchEtwEvent,
+ EtwTraceEvent>;
+
+ static constexpr FieldMetadata_CSwitch kCSwitch{};
+ template <typename T = CSwitchEtwEvent> T* set_c_switch() {
+ return BeginNestedMessage<T>(2);
+ }
+
+
+ using FieldMetadata_ReadyThread =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ReadyThreadEtwEvent,
+ EtwTraceEvent>;
+
+ static constexpr FieldMetadata_ReadyThread kReadyThread{};
+ template <typename T = ReadyThreadEtwEvent> T* set_ready_thread() {
+ return BeginNestedMessage<T>(3);
+ }
+
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/etw/etw_event_bundle.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_ETW_ETW_EVENT_BUNDLE_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_ETW_ETW_EVENT_BUNDLE_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class EtwTraceEvent;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class EtwTraceEventBundle_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ EtwTraceEventBundle_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit EtwTraceEventBundle_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit EtwTraceEventBundle_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_cpu() const { return at<1>().valid(); }
+ uint32_t cpu() const { return at<1>().as_uint32(); }
+ bool has_event() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> event() const { return GetRepeated<::protozero::ConstBytes>(2); }
+};
+
+class EtwTraceEventBundle : public ::protozero::Message {
+ public:
+ using Decoder = EtwTraceEventBundle_Decoder;
+ enum : int32_t {
+ kCpuFieldNumber = 1,
+ kEventFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.EtwTraceEventBundle"; }
+
+
+ using FieldMetadata_Cpu =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ EtwTraceEventBundle>;
+
+ static constexpr FieldMetadata_Cpu kCpu{};
+ void set_cpu(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Cpu::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Event =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ EtwTraceEvent,
+ EtwTraceEventBundle>;
+
+ static constexpr FieldMetadata_Event kEvent{};
+ template <typename T = EtwTraceEvent> T* add_event() {
+ return BeginNestedMessage<T>(2);
+ }
+
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/filesystem/inode_file_map.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FILESYSTEM_INODE_FILE_MAP_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FILESYSTEM_INODE_FILE_MAP_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class InodeFileMap_Entry;
+namespace perfetto_pbzero_enum_InodeFileMap_Entry {
+enum Type : int32_t;
+} // namespace perfetto_pbzero_enum_InodeFileMap_Entry
+using InodeFileMap_Entry_Type = perfetto_pbzero_enum_InodeFileMap_Entry::Type;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+namespace perfetto_pbzero_enum_InodeFileMap_Entry {
+enum Type : int32_t {
+ UNKNOWN = 0,
+ FILE = 1,
+ DIRECTORY = 2,
+};
+} // namespace perfetto_pbzero_enum_InodeFileMap_Entry
+using InodeFileMap_Entry_Type = perfetto_pbzero_enum_InodeFileMap_Entry::Type;
+
+
+constexpr InodeFileMap_Entry_Type InodeFileMap_Entry_Type_MIN = InodeFileMap_Entry_Type::UNKNOWN;
+constexpr InodeFileMap_Entry_Type InodeFileMap_Entry_Type_MAX = InodeFileMap_Entry_Type::DIRECTORY;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* InodeFileMap_Entry_Type_Name(::perfetto::protos::pbzero::InodeFileMap_Entry_Type value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::InodeFileMap_Entry_Type::UNKNOWN:
+ return "UNKNOWN";
+
+ case ::perfetto::protos::pbzero::InodeFileMap_Entry_Type::FILE:
+ return "FILE";
+
+ case ::perfetto::protos::pbzero::InodeFileMap_Entry_Type::DIRECTORY:
+ return "DIRECTORY";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+class InodeFileMap_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ InodeFileMap_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit InodeFileMap_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit InodeFileMap_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_block_device_id() const { return at<1>().valid(); }
+ uint64_t block_device_id() const { return at<1>().as_uint64(); }
+ bool has_mount_points() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstChars> mount_points() const { return GetRepeated<::protozero::ConstChars>(2); }
+ bool has_entries() const { return at<3>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> entries() const { return GetRepeated<::protozero::ConstBytes>(3); }
+};
+
+class InodeFileMap : public ::protozero::Message {
+ public:
+ using Decoder = InodeFileMap_Decoder;
+ enum : int32_t {
+ kBlockDeviceIdFieldNumber = 1,
+ kMountPointsFieldNumber = 2,
+ kEntriesFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.InodeFileMap"; }
+
+ using Entry = ::perfetto::protos::pbzero::InodeFileMap_Entry;
+
+ using FieldMetadata_BlockDeviceId =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ InodeFileMap>;
+
+ static constexpr FieldMetadata_BlockDeviceId kBlockDeviceId{};
+ void set_block_device_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BlockDeviceId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MountPoints =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ InodeFileMap>;
+
+ static constexpr FieldMetadata_MountPoints kMountPoints{};
+ void add_mount_points(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_MountPoints::kFieldId, data, size);
+ }
+ void add_mount_points(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_MountPoints::kFieldId, chars.data, chars.size);
+ }
+ void add_mount_points(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_MountPoints::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Entries =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ InodeFileMap_Entry,
+ InodeFileMap>;
+
+ static constexpr FieldMetadata_Entries kEntries{};
+ template <typename T = InodeFileMap_Entry> T* add_entries() {
+ return BeginNestedMessage<T>(3);
+ }
+
+};
+
+class InodeFileMap_Entry_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ InodeFileMap_Entry_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit InodeFileMap_Entry_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit InodeFileMap_Entry_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_inode_number() const { return at<1>().valid(); }
+ uint64_t inode_number() const { return at<1>().as_uint64(); }
+ bool has_paths() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstChars> paths() const { return GetRepeated<::protozero::ConstChars>(2); }
+ bool has_type() const { return at<3>().valid(); }
+ int32_t type() const { return at<3>().as_int32(); }
+};
+
+class InodeFileMap_Entry : public ::protozero::Message {
+ public:
+ using Decoder = InodeFileMap_Entry_Decoder;
+ enum : int32_t {
+ kInodeNumberFieldNumber = 1,
+ kPathsFieldNumber = 2,
+ kTypeFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.InodeFileMap.Entry"; }
+
+
+ using Type = ::perfetto::protos::pbzero::InodeFileMap_Entry_Type;
+ static inline const char* Type_Name(Type value) {
+ return ::perfetto::protos::pbzero::InodeFileMap_Entry_Type_Name(value);
+ }
+ static inline const Type UNKNOWN = Type::UNKNOWN;
+ static inline const Type FILE = Type::FILE;
+ static inline const Type DIRECTORY = Type::DIRECTORY;
+
+ using FieldMetadata_InodeNumber =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ InodeFileMap_Entry>;
+
+ static constexpr FieldMetadata_InodeNumber kInodeNumber{};
+ void set_inode_number(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_InodeNumber::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Paths =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ InodeFileMap_Entry>;
+
+ static constexpr FieldMetadata_Paths kPaths{};
+ void add_paths(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Paths::kFieldId, data, size);
+ }
+ void add_paths(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Paths::kFieldId, chars.data, chars.size);
+ }
+ void add_paths(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Paths::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Type =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ InodeFileMap_Entry_Type,
+ InodeFileMap_Entry>;
+
+ static constexpr FieldMetadata_Type kType{};
+ void set_type(InodeFileMap_Entry_Type value) {
+ static constexpr uint32_t field_id = FieldMetadata_Type::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/ftrace_event.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_FTRACE_EVENT_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_FTRACE_EVENT_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class AllocPagesIommuEndFtraceEvent;
+class AllocPagesIommuFailFtraceEvent;
+class AllocPagesIommuStartFtraceEvent;
+class AllocPagesSysEndFtraceEvent;
+class AllocPagesSysFailFtraceEvent;
+class AllocPagesSysStartFtraceEvent;
+class AndroidFsDatareadEndFtraceEvent;
+class AndroidFsDatareadStartFtraceEvent;
+class AndroidFsDatawriteEndFtraceEvent;
+class AndroidFsDatawriteStartFtraceEvent;
+class AndroidFsFsyncEndFtraceEvent;
+class AndroidFsFsyncStartFtraceEvent;
+class BinderCommandFtraceEvent;
+class BinderLockFtraceEvent;
+class BinderLockedFtraceEvent;
+class BinderReturnFtraceEvent;
+class BinderSetPriorityFtraceEvent;
+class BinderTransactionAllocBufFtraceEvent;
+class BinderTransactionFtraceEvent;
+class BinderTransactionReceivedFtraceEvent;
+class BinderUnlockFtraceEvent;
+class BlockBioBackmergeFtraceEvent;
+class BlockBioBounceFtraceEvent;
+class BlockBioCompleteFtraceEvent;
+class BlockBioFrontmergeFtraceEvent;
+class BlockBioQueueFtraceEvent;
+class BlockBioRemapFtraceEvent;
+class BlockDirtyBufferFtraceEvent;
+class BlockGetrqFtraceEvent;
+class BlockPlugFtraceEvent;
+class BlockRqAbortFtraceEvent;
+class BlockRqCompleteFtraceEvent;
+class BlockRqInsertFtraceEvent;
+class BlockRqIssueFtraceEvent;
+class BlockRqRemapFtraceEvent;
+class BlockRqRequeueFtraceEvent;
+class BlockSleeprqFtraceEvent;
+class BlockSplitFtraceEvent;
+class BlockTouchBufferFtraceEvent;
+class BlockUnplugFtraceEvent;
+class CdevUpdateFtraceEvent;
+class CgroupAttachTaskFtraceEvent;
+class CgroupDestroyRootFtraceEvent;
+class CgroupMkdirFtraceEvent;
+class CgroupReleaseFtraceEvent;
+class CgroupRemountFtraceEvent;
+class CgroupRenameFtraceEvent;
+class CgroupRmdirFtraceEvent;
+class CgroupSetupRootFtraceEvent;
+class CgroupTransferTasksFtraceEvent;
+class ClkDisableFtraceEvent;
+class ClkEnableFtraceEvent;
+class ClkSetRateFtraceEvent;
+class ClockDisableFtraceEvent;
+class ClockEnableFtraceEvent;
+class ClockSetRateFtraceEvent;
+class CmaAllocInfoFtraceEvent;
+class CmaAllocStartFtraceEvent;
+class ConsoleFtraceEvent;
+class CpuFrequencyFtraceEvent;
+class CpuFrequencyLimitsFtraceEvent;
+class CpuIdleFtraceEvent;
+class CpuhpEnterFtraceEvent;
+class CpuhpExitFtraceEvent;
+class CpuhpLatencyFtraceEvent;
+class CpuhpMultiEnterFtraceEvent;
+class CpuhpPauseFtraceEvent;
+class CrosEcSensorhubDataFtraceEvent;
+class DmaAllocContiguousRetryFtraceEvent;
+class DmaFenceEmitFtraceEvent;
+class DmaFenceInitFtraceEvent;
+class DmaFenceSignaledFtraceEvent;
+class DmaFenceWaitEndFtraceEvent;
+class DmaFenceWaitStartFtraceEvent;
+class DmaHeapStatFtraceEvent;
+class DpuDsiCmdFifoStatusFtraceEvent;
+class DpuDsiRxFtraceEvent;
+class DpuDsiTxFtraceEvent;
+class DpuTracingMarkWriteFtraceEvent;
+class DrmRunJobFtraceEvent;
+class DrmSchedJobFtraceEvent;
+class DrmSchedProcessJobFtraceEvent;
+class DrmVblankEventDeliveredFtraceEvent;
+class DrmVblankEventFtraceEvent;
+class DsiCmdFifoStatusFtraceEvent;
+class DsiRxFtraceEvent;
+class DsiTxFtraceEvent;
+class Ext4AllocDaBlocksFtraceEvent;
+class Ext4AllocateBlocksFtraceEvent;
+class Ext4AllocateInodeFtraceEvent;
+class Ext4BeginOrderedTruncateFtraceEvent;
+class Ext4CollapseRangeFtraceEvent;
+class Ext4DaReleaseSpaceFtraceEvent;
+class Ext4DaReserveSpaceFtraceEvent;
+class Ext4DaUpdateReserveSpaceFtraceEvent;
+class Ext4DaWriteBeginFtraceEvent;
+class Ext4DaWriteEndFtraceEvent;
+class Ext4DaWritePagesExtentFtraceEvent;
+class Ext4DaWritePagesFtraceEvent;
+class Ext4DirectIOEnterFtraceEvent;
+class Ext4DirectIOExitFtraceEvent;
+class Ext4DiscardBlocksFtraceEvent;
+class Ext4DiscardPreallocationsFtraceEvent;
+class Ext4DropInodeFtraceEvent;
+class Ext4EsCacheExtentFtraceEvent;
+class Ext4EsFindDelayedExtentRangeEnterFtraceEvent;
+class Ext4EsFindDelayedExtentRangeExitFtraceEvent;
+class Ext4EsInsertExtentFtraceEvent;
+class Ext4EsLookupExtentEnterFtraceEvent;
+class Ext4EsLookupExtentExitFtraceEvent;
+class Ext4EsRemoveExtentFtraceEvent;
+class Ext4EsShrinkCountFtraceEvent;
+class Ext4EsShrinkFtraceEvent;
+class Ext4EsShrinkScanEnterFtraceEvent;
+class Ext4EsShrinkScanExitFtraceEvent;
+class Ext4EvictInodeFtraceEvent;
+class Ext4ExtConvertToInitializedEnterFtraceEvent;
+class Ext4ExtConvertToInitializedFastpathFtraceEvent;
+class Ext4ExtHandleUnwrittenExtentsFtraceEvent;
+class Ext4ExtInCacheFtraceEvent;
+class Ext4ExtLoadExtentFtraceEvent;
+class Ext4ExtMapBlocksEnterFtraceEvent;
+class Ext4ExtMapBlocksExitFtraceEvent;
+class Ext4ExtPutInCacheFtraceEvent;
+class Ext4ExtRemoveSpaceDoneFtraceEvent;
+class Ext4ExtRemoveSpaceFtraceEvent;
+class Ext4ExtRmIdxFtraceEvent;
+class Ext4ExtRmLeafFtraceEvent;
+class Ext4ExtShowExtentFtraceEvent;
+class Ext4FallocateEnterFtraceEvent;
+class Ext4FallocateExitFtraceEvent;
+class Ext4FindDelallocRangeFtraceEvent;
+class Ext4ForgetFtraceEvent;
+class Ext4FreeBlocksFtraceEvent;
+class Ext4FreeInodeFtraceEvent;
+class Ext4GetImpliedClusterAllocExitFtraceEvent;
+class Ext4GetReservedClusterAllocFtraceEvent;
+class Ext4IndMapBlocksEnterFtraceEvent;
+class Ext4IndMapBlocksExitFtraceEvent;
+class Ext4InsertRangeFtraceEvent;
+class Ext4InvalidatepageFtraceEvent;
+class Ext4JournalStartFtraceEvent;
+class Ext4JournalStartReservedFtraceEvent;
+class Ext4JournalledInvalidatepageFtraceEvent;
+class Ext4JournalledWriteEndFtraceEvent;
+class Ext4LoadInodeBitmapFtraceEvent;
+class Ext4LoadInodeFtraceEvent;
+class Ext4MarkInodeDirtyFtraceEvent;
+class Ext4MbBitmapLoadFtraceEvent;
+class Ext4MbBuddyBitmapLoadFtraceEvent;
+class Ext4MbDiscardPreallocationsFtraceEvent;
+class Ext4MbNewGroupPaFtraceEvent;
+class Ext4MbNewInodePaFtraceEvent;
+class Ext4MbReleaseGroupPaFtraceEvent;
+class Ext4MbReleaseInodePaFtraceEvent;
+class Ext4MballocAllocFtraceEvent;
+class Ext4MballocDiscardFtraceEvent;
+class Ext4MballocFreeFtraceEvent;
+class Ext4MballocPreallocFtraceEvent;
+class Ext4OtherInodeUpdateTimeFtraceEvent;
+class Ext4PunchHoleFtraceEvent;
+class Ext4ReadBlockBitmapLoadFtraceEvent;
+class Ext4ReadpageFtraceEvent;
+class Ext4ReleasepageFtraceEvent;
+class Ext4RemoveBlocksFtraceEvent;
+class Ext4RequestBlocksFtraceEvent;
+class Ext4RequestInodeFtraceEvent;
+class Ext4SyncFileEnterFtraceEvent;
+class Ext4SyncFileExitFtraceEvent;
+class Ext4SyncFsFtraceEvent;
+class Ext4TrimAllFreeFtraceEvent;
+class Ext4TrimExtentFtraceEvent;
+class Ext4TruncateEnterFtraceEvent;
+class Ext4TruncateExitFtraceEvent;
+class Ext4UnlinkEnterFtraceEvent;
+class Ext4UnlinkExitFtraceEvent;
+class Ext4WriteBeginFtraceEvent;
+class Ext4WriteEndFtraceEvent;
+class Ext4WritepageFtraceEvent;
+class Ext4WritepagesFtraceEvent;
+class Ext4WritepagesResultFtraceEvent;
+class Ext4ZeroRangeFtraceEvent;
+class F2fsBackgroundGcFtraceEvent;
+class F2fsDoSubmitBioFtraceEvent;
+class F2fsEvictInodeFtraceEvent;
+class F2fsFallocateFtraceEvent;
+class F2fsGcBeginFtraceEvent;
+class F2fsGcEndFtraceEvent;
+class F2fsGetDataBlockFtraceEvent;
+class F2fsGetVictimFtraceEvent;
+class F2fsIgetExitFtraceEvent;
+class F2fsIgetFtraceEvent;
+class F2fsIostatFtraceEvent;
+class F2fsIostatLatencyFtraceEvent;
+class F2fsNewInodeFtraceEvent;
+class F2fsReadpageFtraceEvent;
+class F2fsReserveNewBlockFtraceEvent;
+class F2fsSetPageDirtyFtraceEvent;
+class F2fsSubmitWritePageFtraceEvent;
+class F2fsSyncFileEnterFtraceEvent;
+class F2fsSyncFileExitFtraceEvent;
+class F2fsSyncFsFtraceEvent;
+class F2fsTruncateBlocksEnterFtraceEvent;
+class F2fsTruncateBlocksExitFtraceEvent;
+class F2fsTruncateDataBlocksRangeFtraceEvent;
+class F2fsTruncateFtraceEvent;
+class F2fsTruncateInodeBlocksEnterFtraceEvent;
+class F2fsTruncateInodeBlocksExitFtraceEvent;
+class F2fsTruncateNodeFtraceEvent;
+class F2fsTruncateNodesEnterFtraceEvent;
+class F2fsTruncateNodesExitFtraceEvent;
+class F2fsTruncatePartialNodesFtraceEvent;
+class F2fsUnlinkEnterFtraceEvent;
+class F2fsUnlinkExitFtraceEvent;
+class F2fsVmPageMkwriteFtraceEvent;
+class F2fsWriteBeginFtraceEvent;
+class F2fsWriteCheckpointFtraceEvent;
+class F2fsWriteEndFtraceEvent;
+class FastrpcDmaStatFtraceEvent;
+class FenceDestroyFtraceEvent;
+class FenceEnableSignalFtraceEvent;
+class FenceInitFtraceEvent;
+class FenceSignaledFtraceEvent;
+class FuncgraphEntryFtraceEvent;
+class FuncgraphExitFtraceEvent;
+class G2dTracingMarkWriteFtraceEvent;
+class GenericFtraceEvent;
+class GpuFrequencyFtraceEvent;
+class GpuMemTotalFtraceEvent;
+class GpuWorkPeriodFtraceEvent;
+class HostHcallFtraceEvent;
+class HostMemAbortFtraceEvent;
+class HostSmcFtraceEvent;
+class HypEnterFtraceEvent;
+class HypExitFtraceEvent;
+class I2cReadFtraceEvent;
+class I2cReplyFtraceEvent;
+class I2cResultFtraceEvent;
+class I2cWriteFtraceEvent;
+class InetSockSetStateFtraceEvent;
+class IommuMapRangeFtraceEvent;
+class IommuSecPtblMapRangeEndFtraceEvent;
+class IommuSecPtblMapRangeStartFtraceEvent;
+class IonAllocBufferEndFtraceEvent;
+class IonAllocBufferFailFtraceEvent;
+class IonAllocBufferFallbackFtraceEvent;
+class IonAllocBufferStartFtraceEvent;
+class IonBufferCreateFtraceEvent;
+class IonBufferDestroyFtraceEvent;
+class IonCpAllocRetryFtraceEvent;
+class IonCpSecureBufferEndFtraceEvent;
+class IonCpSecureBufferStartFtraceEvent;
+class IonHeapGrowFtraceEvent;
+class IonHeapShrinkFtraceEvent;
+class IonPrefetchingFtraceEvent;
+class IonSecureCmaAddToPoolEndFtraceEvent;
+class IonSecureCmaAddToPoolStartFtraceEvent;
+class IonSecureCmaAllocateEndFtraceEvent;
+class IonSecureCmaAllocateStartFtraceEvent;
+class IonSecureCmaShrinkPoolEndFtraceEvent;
+class IonSecureCmaShrinkPoolStartFtraceEvent;
+class IonStatFtraceEvent;
+class IpiEntryFtraceEvent;
+class IpiExitFtraceEvent;
+class IpiRaiseFtraceEvent;
+class IrqHandlerEntryFtraceEvent;
+class IrqHandlerExitFtraceEvent;
+class KfreeFtraceEvent;
+class KfreeSkbFtraceEvent;
+class KmallocFtraceEvent;
+class KmallocNodeFtraceEvent;
+class KmemCacheAllocFtraceEvent;
+class KmemCacheAllocNodeFtraceEvent;
+class KmemCacheFreeFtraceEvent;
+class KvmAccessFaultFtraceEvent;
+class KvmAckIrqFtraceEvent;
+class KvmAgeHvaFtraceEvent;
+class KvmAgePageFtraceEvent;
+class KvmArmClearDebugFtraceEvent;
+class KvmArmSetDreg32FtraceEvent;
+class KvmArmSetRegsetFtraceEvent;
+class KvmArmSetupDebugFtraceEvent;
+class KvmEntryFtraceEvent;
+class KvmExitFtraceEvent;
+class KvmFpuFtraceEvent;
+class KvmGetTimerMapFtraceEvent;
+class KvmGuestFaultFtraceEvent;
+class KvmHandleSysRegFtraceEvent;
+class KvmHvcArm64FtraceEvent;
+class KvmIrqLineFtraceEvent;
+class KvmMmioEmulateFtraceEvent;
+class KvmMmioFtraceEvent;
+class KvmSetGuestDebugFtraceEvent;
+class KvmSetIrqFtraceEvent;
+class KvmSetSpteHvaFtraceEvent;
+class KvmSetWayFlushFtraceEvent;
+class KvmSysAccessFtraceEvent;
+class KvmTestAgeHvaFtraceEvent;
+class KvmTimerEmulateFtraceEvent;
+class KvmTimerHrtimerExpireFtraceEvent;
+class KvmTimerRestoreStateFtraceEvent;
+class KvmTimerSaveStateFtraceEvent;
+class KvmTimerUpdateIrqFtraceEvent;
+class KvmToggleCacheFtraceEvent;
+class KvmUnmapHvaRangeFtraceEvent;
+class KvmUserspaceExitFtraceEvent;
+class KvmVcpuWakeupFtraceEvent;
+class KvmWfxArm64FtraceEvent;
+class LowmemoryKillFtraceEvent;
+class LwisTracingMarkWriteFtraceEvent;
+class MaliMaliCSFINTERRUPTENDFtraceEvent;
+class MaliMaliCSFINTERRUPTSTARTFtraceEvent;
+class MaliMaliKCPUCQSSETFtraceEvent;
+class MaliMaliKCPUCQSWAITENDFtraceEvent;
+class MaliMaliKCPUCQSWAITSTARTFtraceEvent;
+class MaliMaliKCPUFENCESIGNALFtraceEvent;
+class MaliMaliKCPUFENCEWAITENDFtraceEvent;
+class MaliMaliKCPUFENCEWAITSTARTFtraceEvent;
+class MaliTracingMarkWriteFtraceEvent;
+class MarkVictimFtraceEvent;
+class MdpCmdKickoffFtraceEvent;
+class MdpCmdPingpongDoneFtraceEvent;
+class MdpCmdReadptrDoneFtraceEvent;
+class MdpCmdReleaseBwFtraceEvent;
+class MdpCmdWaitPingpongFtraceEvent;
+class MdpCommitFtraceEvent;
+class MdpCompareBwFtraceEvent;
+class MdpMisrCrcFtraceEvent;
+class MdpMixerUpdateFtraceEvent;
+class MdpPerfPrefillCalcFtraceEvent;
+class MdpPerfSetOtFtraceEvent;
+class MdpPerfSetPanicLutsFtraceEvent;
+class MdpPerfSetQosLutsFtraceEvent;
+class MdpPerfSetWmLevelsFtraceEvent;
+class MdpPerfUpdateBusFtraceEvent;
+class MdpSsppChangeFtraceEvent;
+class MdpSsppSetFtraceEvent;
+class MdpTraceCounterFtraceEvent;
+class MdpVideoUnderrunDoneFtraceEvent;
+class MigratePagesEndFtraceEvent;
+class MigratePagesStartFtraceEvent;
+class MigrateRetryFtraceEvent;
+class MmCompactionBeginFtraceEvent;
+class MmCompactionDeferCompactionFtraceEvent;
+class MmCompactionDeferResetFtraceEvent;
+class MmCompactionDeferredFtraceEvent;
+class MmCompactionEndFtraceEvent;
+class MmCompactionFinishedFtraceEvent;
+class MmCompactionIsolateFreepagesFtraceEvent;
+class MmCompactionIsolateMigratepagesFtraceEvent;
+class MmCompactionKcompactdSleepFtraceEvent;
+class MmCompactionKcompactdWakeFtraceEvent;
+class MmCompactionMigratepagesFtraceEvent;
+class MmCompactionSuitableFtraceEvent;
+class MmCompactionTryToCompactPagesFtraceEvent;
+class MmCompactionWakeupKcompactdFtraceEvent;
+class MmEventRecordFtraceEvent;
+class MmFilemapAddToPageCacheFtraceEvent;
+class MmFilemapDeleteFromPageCacheFtraceEvent;
+class MmPageAllocExtfragFtraceEvent;
+class MmPageAllocFtraceEvent;
+class MmPageAllocZoneLockedFtraceEvent;
+class MmPageFreeBatchedFtraceEvent;
+class MmPageFreeFtraceEvent;
+class MmPagePcpuDrainFtraceEvent;
+class MmShrinkSlabEndFtraceEvent;
+class MmShrinkSlabStartFtraceEvent;
+class MmVmscanDirectReclaimBeginFtraceEvent;
+class MmVmscanDirectReclaimEndFtraceEvent;
+class MmVmscanKswapdSleepFtraceEvent;
+class MmVmscanKswapdWakeFtraceEvent;
+class NapiGroReceiveEntryFtraceEvent;
+class NapiGroReceiveExitFtraceEvent;
+class NetDevXmitFtraceEvent;
+class NetifReceiveSkbFtraceEvent;
+class OomScoreAdjUpdateFtraceEvent;
+class PanelWriteGenericFtraceEvent;
+class PrintFtraceEvent;
+class RegulatorDisableCompleteFtraceEvent;
+class RegulatorDisableFtraceEvent;
+class RegulatorEnableCompleteFtraceEvent;
+class RegulatorEnableDelayFtraceEvent;
+class RegulatorEnableFtraceEvent;
+class RegulatorSetVoltageCompleteFtraceEvent;
+class RegulatorSetVoltageFtraceEvent;
+class RotatorBwAoAsContextFtraceEvent;
+class RpmStatusFtraceEvent;
+class RssStatFtraceEvent;
+class RssStatThrottledFtraceEvent;
+class SamsungTracingMarkWriteFtraceEvent;
+class SchedBlockedReasonFtraceEvent;
+class SchedCpuHotplugFtraceEvent;
+class SchedCpuUtilCfsFtraceEvent;
+class SchedMigrateTaskFtraceEvent;
+class SchedPiSetprioFtraceEvent;
+class SchedProcessExecFtraceEvent;
+class SchedProcessExitFtraceEvent;
+class SchedProcessForkFtraceEvent;
+class SchedProcessFreeFtraceEvent;
+class SchedProcessHangFtraceEvent;
+class SchedProcessWaitFtraceEvent;
+class SchedSwitchFtraceEvent;
+class SchedSwitchWithCtrsFtraceEvent;
+class SchedWakeupFtraceEvent;
+class SchedWakeupNewFtraceEvent;
+class SchedWakingFtraceEvent;
+class ScmCallEndFtraceEvent;
+class ScmCallStartFtraceEvent;
+class SdeSdeEvtlogFtraceEvent;
+class SdeSdePerfCalcCrtcFtraceEvent;
+class SdeSdePerfCrtcUpdateFtraceEvent;
+class SdeSdePerfSetQosLutsFtraceEvent;
+class SdeSdePerfUpdateBusFtraceEvent;
+class SdeTracingMarkWriteFtraceEvent;
+class SignalDeliverFtraceEvent;
+class SignalGenerateFtraceEvent;
+class SmbusReadFtraceEvent;
+class SmbusReplyFtraceEvent;
+class SmbusResultFtraceEvent;
+class SmbusWriteFtraceEvent;
+class SoftirqEntryFtraceEvent;
+class SoftirqExitFtraceEvent;
+class SoftirqRaiseFtraceEvent;
+class SuspendResumeFtraceEvent;
+class SuspendResumeMinimalFtraceEvent;
+class SyncPtFtraceEvent;
+class SyncTimelineFtraceEvent;
+class SyncWaitFtraceEvent;
+class SysEnterFtraceEvent;
+class SysExitFtraceEvent;
+class TaskNewtaskFtraceEvent;
+class TaskRenameFtraceEvent;
+class TcpRetransmitSkbFtraceEvent;
+class ThermalTemperatureFtraceEvent;
+class TracingMarkWriteFtraceEvent;
+class TrapRegFtraceEvent;
+class TrustyEnqueueNopFtraceEvent;
+class TrustyIpcConnectEndFtraceEvent;
+class TrustyIpcConnectFtraceEvent;
+class TrustyIpcHandleEventFtraceEvent;
+class TrustyIpcPollFtraceEvent;
+class TrustyIpcReadEndFtraceEvent;
+class TrustyIpcReadFtraceEvent;
+class TrustyIpcRxFtraceEvent;
+class TrustyIpcWriteFtraceEvent;
+class TrustyIrqFtraceEvent;
+class TrustyReclaimMemoryDoneFtraceEvent;
+class TrustyReclaimMemoryFtraceEvent;
+class TrustyShareMemoryDoneFtraceEvent;
+class TrustyShareMemoryFtraceEvent;
+class TrustySmcDoneFtraceEvent;
+class TrustySmcFtraceEvent;
+class TrustyStdCall32DoneFtraceEvent;
+class TrustyStdCall32FtraceEvent;
+class UfshcdClkGatingFtraceEvent;
+class UfshcdCommandFtraceEvent;
+class V4l2DqbufFtraceEvent;
+class V4l2QbufFtraceEvent;
+class Vb2V4l2BufDoneFtraceEvent;
+class Vb2V4l2BufQueueFtraceEvent;
+class Vb2V4l2DqbufFtraceEvent;
+class Vb2V4l2QbufFtraceEvent;
+class VgicUpdateIrqPendingFtraceEvent;
+class VirtioGpuCmdQueueFtraceEvent;
+class VirtioGpuCmdResponseFtraceEvent;
+class VirtioVideoCmdDoneFtraceEvent;
+class VirtioVideoCmdFtraceEvent;
+class VirtioVideoResourceQueueDoneFtraceEvent;
+class VirtioVideoResourceQueueFtraceEvent;
+class WakeupSourceActivateFtraceEvent;
+class WakeupSourceDeactivateFtraceEvent;
+class WorkqueueActivateWorkFtraceEvent;
+class WorkqueueExecuteEndFtraceEvent;
+class WorkqueueExecuteStartFtraceEvent;
+class WorkqueueQueueWorkFtraceEvent;
+class ZeroFtraceEvent;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class FtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/497, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ FtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit FtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit FtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_timestamp() const { return at<1>().valid(); }
+ uint64_t timestamp() const { return at<1>().as_uint64(); }
+ bool has_pid() const { return at<2>().valid(); }
+ uint32_t pid() const { return at<2>().as_uint32(); }
+ bool has_common_flags() const { return at<5>().valid(); }
+ uint32_t common_flags() const { return at<5>().as_uint32(); }
+ bool has_print() const { return at<3>().valid(); }
+ ::protozero::ConstBytes print() const { return at<3>().as_bytes(); }
+ bool has_sched_switch() const { return at<4>().valid(); }
+ ::protozero::ConstBytes sched_switch() const { return at<4>().as_bytes(); }
+ bool has_cpu_frequency() const { return at<11>().valid(); }
+ ::protozero::ConstBytes cpu_frequency() const { return at<11>().as_bytes(); }
+ bool has_cpu_frequency_limits() const { return at<12>().valid(); }
+ ::protozero::ConstBytes cpu_frequency_limits() const { return at<12>().as_bytes(); }
+ bool has_cpu_idle() const { return at<13>().valid(); }
+ ::protozero::ConstBytes cpu_idle() const { return at<13>().as_bytes(); }
+ bool has_clock_enable() const { return at<14>().valid(); }
+ ::protozero::ConstBytes clock_enable() const { return at<14>().as_bytes(); }
+ bool has_clock_disable() const { return at<15>().valid(); }
+ ::protozero::ConstBytes clock_disable() const { return at<15>().as_bytes(); }
+ bool has_clock_set_rate() const { return at<16>().valid(); }
+ ::protozero::ConstBytes clock_set_rate() const { return at<16>().as_bytes(); }
+ bool has_sched_wakeup() const { return at<17>().valid(); }
+ ::protozero::ConstBytes sched_wakeup() const { return at<17>().as_bytes(); }
+ bool has_sched_blocked_reason() const { return at<18>().valid(); }
+ ::protozero::ConstBytes sched_blocked_reason() const { return at<18>().as_bytes(); }
+ bool has_sched_cpu_hotplug() const { return at<19>().valid(); }
+ ::protozero::ConstBytes sched_cpu_hotplug() const { return at<19>().as_bytes(); }
+ bool has_sched_waking() const { return at<20>().valid(); }
+ ::protozero::ConstBytes sched_waking() const { return at<20>().as_bytes(); }
+ bool has_ipi_entry() const { return at<21>().valid(); }
+ ::protozero::ConstBytes ipi_entry() const { return at<21>().as_bytes(); }
+ bool has_ipi_exit() const { return at<22>().valid(); }
+ ::protozero::ConstBytes ipi_exit() const { return at<22>().as_bytes(); }
+ bool has_ipi_raise() const { return at<23>().valid(); }
+ ::protozero::ConstBytes ipi_raise() const { return at<23>().as_bytes(); }
+ bool has_softirq_entry() const { return at<24>().valid(); }
+ ::protozero::ConstBytes softirq_entry() const { return at<24>().as_bytes(); }
+ bool has_softirq_exit() const { return at<25>().valid(); }
+ ::protozero::ConstBytes softirq_exit() const { return at<25>().as_bytes(); }
+ bool has_softirq_raise() const { return at<26>().valid(); }
+ ::protozero::ConstBytes softirq_raise() const { return at<26>().as_bytes(); }
+ bool has_i2c_read() const { return at<27>().valid(); }
+ ::protozero::ConstBytes i2c_read() const { return at<27>().as_bytes(); }
+ bool has_i2c_write() const { return at<28>().valid(); }
+ ::protozero::ConstBytes i2c_write() const { return at<28>().as_bytes(); }
+ bool has_i2c_result() const { return at<29>().valid(); }
+ ::protozero::ConstBytes i2c_result() const { return at<29>().as_bytes(); }
+ bool has_i2c_reply() const { return at<30>().valid(); }
+ ::protozero::ConstBytes i2c_reply() const { return at<30>().as_bytes(); }
+ bool has_smbus_read() const { return at<31>().valid(); }
+ ::protozero::ConstBytes smbus_read() const { return at<31>().as_bytes(); }
+ bool has_smbus_write() const { return at<32>().valid(); }
+ ::protozero::ConstBytes smbus_write() const { return at<32>().as_bytes(); }
+ bool has_smbus_result() const { return at<33>().valid(); }
+ ::protozero::ConstBytes smbus_result() const { return at<33>().as_bytes(); }
+ bool has_smbus_reply() const { return at<34>().valid(); }
+ ::protozero::ConstBytes smbus_reply() const { return at<34>().as_bytes(); }
+ bool has_lowmemory_kill() const { return at<35>().valid(); }
+ ::protozero::ConstBytes lowmemory_kill() const { return at<35>().as_bytes(); }
+ bool has_irq_handler_entry() const { return at<36>().valid(); }
+ ::protozero::ConstBytes irq_handler_entry() const { return at<36>().as_bytes(); }
+ bool has_irq_handler_exit() const { return at<37>().valid(); }
+ ::protozero::ConstBytes irq_handler_exit() const { return at<37>().as_bytes(); }
+ bool has_sync_pt() const { return at<38>().valid(); }
+ ::protozero::ConstBytes sync_pt() const { return at<38>().as_bytes(); }
+ bool has_sync_timeline() const { return at<39>().valid(); }
+ ::protozero::ConstBytes sync_timeline() const { return at<39>().as_bytes(); }
+ bool has_sync_wait() const { return at<40>().valid(); }
+ ::protozero::ConstBytes sync_wait() const { return at<40>().as_bytes(); }
+ bool has_ext4_da_write_begin() const { return at<41>().valid(); }
+ ::protozero::ConstBytes ext4_da_write_begin() const { return at<41>().as_bytes(); }
+ bool has_ext4_da_write_end() const { return at<42>().valid(); }
+ ::protozero::ConstBytes ext4_da_write_end() const { return at<42>().as_bytes(); }
+ bool has_ext4_sync_file_enter() const { return at<43>().valid(); }
+ ::protozero::ConstBytes ext4_sync_file_enter() const { return at<43>().as_bytes(); }
+ bool has_ext4_sync_file_exit() const { return at<44>().valid(); }
+ ::protozero::ConstBytes ext4_sync_file_exit() const { return at<44>().as_bytes(); }
+ bool has_block_rq_issue() const { return at<45>().valid(); }
+ ::protozero::ConstBytes block_rq_issue() const { return at<45>().as_bytes(); }
+ bool has_mm_vmscan_direct_reclaim_begin() const { return at<46>().valid(); }
+ ::protozero::ConstBytes mm_vmscan_direct_reclaim_begin() const { return at<46>().as_bytes(); }
+ bool has_mm_vmscan_direct_reclaim_end() const { return at<47>().valid(); }
+ ::protozero::ConstBytes mm_vmscan_direct_reclaim_end() const { return at<47>().as_bytes(); }
+ bool has_mm_vmscan_kswapd_wake() const { return at<48>().valid(); }
+ ::protozero::ConstBytes mm_vmscan_kswapd_wake() const { return at<48>().as_bytes(); }
+ bool has_mm_vmscan_kswapd_sleep() const { return at<49>().valid(); }
+ ::protozero::ConstBytes mm_vmscan_kswapd_sleep() const { return at<49>().as_bytes(); }
+ bool has_binder_transaction() const { return at<50>().valid(); }
+ ::protozero::ConstBytes binder_transaction() const { return at<50>().as_bytes(); }
+ bool has_binder_transaction_received() const { return at<51>().valid(); }
+ ::protozero::ConstBytes binder_transaction_received() const { return at<51>().as_bytes(); }
+ bool has_binder_set_priority() const { return at<52>().valid(); }
+ ::protozero::ConstBytes binder_set_priority() const { return at<52>().as_bytes(); }
+ bool has_binder_lock() const { return at<53>().valid(); }
+ ::protozero::ConstBytes binder_lock() const { return at<53>().as_bytes(); }
+ bool has_binder_locked() const { return at<54>().valid(); }
+ ::protozero::ConstBytes binder_locked() const { return at<54>().as_bytes(); }
+ bool has_binder_unlock() const { return at<55>().valid(); }
+ ::protozero::ConstBytes binder_unlock() const { return at<55>().as_bytes(); }
+ bool has_workqueue_activate_work() const { return at<56>().valid(); }
+ ::protozero::ConstBytes workqueue_activate_work() const { return at<56>().as_bytes(); }
+ bool has_workqueue_execute_end() const { return at<57>().valid(); }
+ ::protozero::ConstBytes workqueue_execute_end() const { return at<57>().as_bytes(); }
+ bool has_workqueue_execute_start() const { return at<58>().valid(); }
+ ::protozero::ConstBytes workqueue_execute_start() const { return at<58>().as_bytes(); }
+ bool has_workqueue_queue_work() const { return at<59>().valid(); }
+ ::protozero::ConstBytes workqueue_queue_work() const { return at<59>().as_bytes(); }
+ bool has_regulator_disable() const { return at<60>().valid(); }
+ ::protozero::ConstBytes regulator_disable() const { return at<60>().as_bytes(); }
+ bool has_regulator_disable_complete() const { return at<61>().valid(); }
+ ::protozero::ConstBytes regulator_disable_complete() const { return at<61>().as_bytes(); }
+ bool has_regulator_enable() const { return at<62>().valid(); }
+ ::protozero::ConstBytes regulator_enable() const { return at<62>().as_bytes(); }
+ bool has_regulator_enable_complete() const { return at<63>().valid(); }
+ ::protozero::ConstBytes regulator_enable_complete() const { return at<63>().as_bytes(); }
+ bool has_regulator_enable_delay() const { return at<64>().valid(); }
+ ::protozero::ConstBytes regulator_enable_delay() const { return at<64>().as_bytes(); }
+ bool has_regulator_set_voltage() const { return at<65>().valid(); }
+ ::protozero::ConstBytes regulator_set_voltage() const { return at<65>().as_bytes(); }
+ bool has_regulator_set_voltage_complete() const { return at<66>().valid(); }
+ ::protozero::ConstBytes regulator_set_voltage_complete() const { return at<66>().as_bytes(); }
+ bool has_cgroup_attach_task() const { return at<67>().valid(); }
+ ::protozero::ConstBytes cgroup_attach_task() const { return at<67>().as_bytes(); }
+ bool has_cgroup_mkdir() const { return at<68>().valid(); }
+ ::protozero::ConstBytes cgroup_mkdir() const { return at<68>().as_bytes(); }
+ bool has_cgroup_remount() const { return at<69>().valid(); }
+ ::protozero::ConstBytes cgroup_remount() const { return at<69>().as_bytes(); }
+ bool has_cgroup_rmdir() const { return at<70>().valid(); }
+ ::protozero::ConstBytes cgroup_rmdir() const { return at<70>().as_bytes(); }
+ bool has_cgroup_transfer_tasks() const { return at<71>().valid(); }
+ ::protozero::ConstBytes cgroup_transfer_tasks() const { return at<71>().as_bytes(); }
+ bool has_cgroup_destroy_root() const { return at<72>().valid(); }
+ ::protozero::ConstBytes cgroup_destroy_root() const { return at<72>().as_bytes(); }
+ bool has_cgroup_release() const { return at<73>().valid(); }
+ ::protozero::ConstBytes cgroup_release() const { return at<73>().as_bytes(); }
+ bool has_cgroup_rename() const { return at<74>().valid(); }
+ ::protozero::ConstBytes cgroup_rename() const { return at<74>().as_bytes(); }
+ bool has_cgroup_setup_root() const { return at<75>().valid(); }
+ ::protozero::ConstBytes cgroup_setup_root() const { return at<75>().as_bytes(); }
+ bool has_mdp_cmd_kickoff() const { return at<76>().valid(); }
+ ::protozero::ConstBytes mdp_cmd_kickoff() const { return at<76>().as_bytes(); }
+ bool has_mdp_commit() const { return at<77>().valid(); }
+ ::protozero::ConstBytes mdp_commit() const { return at<77>().as_bytes(); }
+ bool has_mdp_perf_set_ot() const { return at<78>().valid(); }
+ ::protozero::ConstBytes mdp_perf_set_ot() const { return at<78>().as_bytes(); }
+ bool has_mdp_sspp_change() const { return at<79>().valid(); }
+ ::protozero::ConstBytes mdp_sspp_change() const { return at<79>().as_bytes(); }
+ bool has_tracing_mark_write() const { return at<80>().valid(); }
+ ::protozero::ConstBytes tracing_mark_write() const { return at<80>().as_bytes(); }
+ bool has_mdp_cmd_pingpong_done() const { return at<81>().valid(); }
+ ::protozero::ConstBytes mdp_cmd_pingpong_done() const { return at<81>().as_bytes(); }
+ bool has_mdp_compare_bw() const { return at<82>().valid(); }
+ ::protozero::ConstBytes mdp_compare_bw() const { return at<82>().as_bytes(); }
+ bool has_mdp_perf_set_panic_luts() const { return at<83>().valid(); }
+ ::protozero::ConstBytes mdp_perf_set_panic_luts() const { return at<83>().as_bytes(); }
+ bool has_mdp_sspp_set() const { return at<84>().valid(); }
+ ::protozero::ConstBytes mdp_sspp_set() const { return at<84>().as_bytes(); }
+ bool has_mdp_cmd_readptr_done() const { return at<85>().valid(); }
+ ::protozero::ConstBytes mdp_cmd_readptr_done() const { return at<85>().as_bytes(); }
+ bool has_mdp_misr_crc() const { return at<86>().valid(); }
+ ::protozero::ConstBytes mdp_misr_crc() const { return at<86>().as_bytes(); }
+ bool has_mdp_perf_set_qos_luts() const { return at<87>().valid(); }
+ ::protozero::ConstBytes mdp_perf_set_qos_luts() const { return at<87>().as_bytes(); }
+ bool has_mdp_trace_counter() const { return at<88>().valid(); }
+ ::protozero::ConstBytes mdp_trace_counter() const { return at<88>().as_bytes(); }
+ bool has_mdp_cmd_release_bw() const { return at<89>().valid(); }
+ ::protozero::ConstBytes mdp_cmd_release_bw() const { return at<89>().as_bytes(); }
+ bool has_mdp_mixer_update() const { return at<90>().valid(); }
+ ::protozero::ConstBytes mdp_mixer_update() const { return at<90>().as_bytes(); }
+ bool has_mdp_perf_set_wm_levels() const { return at<91>().valid(); }
+ ::protozero::ConstBytes mdp_perf_set_wm_levels() const { return at<91>().as_bytes(); }
+ bool has_mdp_video_underrun_done() const { return at<92>().valid(); }
+ ::protozero::ConstBytes mdp_video_underrun_done() const { return at<92>().as_bytes(); }
+ bool has_mdp_cmd_wait_pingpong() const { return at<93>().valid(); }
+ ::protozero::ConstBytes mdp_cmd_wait_pingpong() const { return at<93>().as_bytes(); }
+ bool has_mdp_perf_prefill_calc() const { return at<94>().valid(); }
+ ::protozero::ConstBytes mdp_perf_prefill_calc() const { return at<94>().as_bytes(); }
+ bool has_mdp_perf_update_bus() const { return at<95>().valid(); }
+ ::protozero::ConstBytes mdp_perf_update_bus() const { return at<95>().as_bytes(); }
+ bool has_rotator_bw_ao_as_context() const { return at<96>().valid(); }
+ ::protozero::ConstBytes rotator_bw_ao_as_context() const { return at<96>().as_bytes(); }
+ bool has_mm_filemap_add_to_page_cache() const { return at<97>().valid(); }
+ ::protozero::ConstBytes mm_filemap_add_to_page_cache() const { return at<97>().as_bytes(); }
+ bool has_mm_filemap_delete_from_page_cache() const { return at<98>().valid(); }
+ ::protozero::ConstBytes mm_filemap_delete_from_page_cache() const { return at<98>().as_bytes(); }
+ bool has_mm_compaction_begin() const { return at<99>().valid(); }
+ ::protozero::ConstBytes mm_compaction_begin() const { return at<99>().as_bytes(); }
+ bool has_mm_compaction_defer_compaction() const { return at<100>().valid(); }
+ ::protozero::ConstBytes mm_compaction_defer_compaction() const { return at<100>().as_bytes(); }
+ bool has_mm_compaction_deferred() const { return at<101>().valid(); }
+ ::protozero::ConstBytes mm_compaction_deferred() const { return at<101>().as_bytes(); }
+ bool has_mm_compaction_defer_reset() const { return at<102>().valid(); }
+ ::protozero::ConstBytes mm_compaction_defer_reset() const { return at<102>().as_bytes(); }
+ bool has_mm_compaction_end() const { return at<103>().valid(); }
+ ::protozero::ConstBytes mm_compaction_end() const { return at<103>().as_bytes(); }
+ bool has_mm_compaction_finished() const { return at<104>().valid(); }
+ ::protozero::ConstBytes mm_compaction_finished() const { return at<104>().as_bytes(); }
+ bool has_mm_compaction_isolate_freepages() const { return at<105>().valid(); }
+ ::protozero::ConstBytes mm_compaction_isolate_freepages() const { return at<105>().as_bytes(); }
+ bool has_mm_compaction_isolate_migratepages() const { return at<106>().valid(); }
+ ::protozero::ConstBytes mm_compaction_isolate_migratepages() const { return at<106>().as_bytes(); }
+ bool has_mm_compaction_kcompactd_sleep() const { return at<107>().valid(); }
+ ::protozero::ConstBytes mm_compaction_kcompactd_sleep() const { return at<107>().as_bytes(); }
+ bool has_mm_compaction_kcompactd_wake() const { return at<108>().valid(); }
+ ::protozero::ConstBytes mm_compaction_kcompactd_wake() const { return at<108>().as_bytes(); }
+ bool has_mm_compaction_migratepages() const { return at<109>().valid(); }
+ ::protozero::ConstBytes mm_compaction_migratepages() const { return at<109>().as_bytes(); }
+ bool has_mm_compaction_suitable() const { return at<110>().valid(); }
+ ::protozero::ConstBytes mm_compaction_suitable() const { return at<110>().as_bytes(); }
+ bool has_mm_compaction_try_to_compact_pages() const { return at<111>().valid(); }
+ ::protozero::ConstBytes mm_compaction_try_to_compact_pages() const { return at<111>().as_bytes(); }
+ bool has_mm_compaction_wakeup_kcompactd() const { return at<112>().valid(); }
+ ::protozero::ConstBytes mm_compaction_wakeup_kcompactd() const { return at<112>().as_bytes(); }
+ bool has_suspend_resume() const { return at<113>().valid(); }
+ ::protozero::ConstBytes suspend_resume() const { return at<113>().as_bytes(); }
+ bool has_sched_wakeup_new() const { return at<114>().valid(); }
+ ::protozero::ConstBytes sched_wakeup_new() const { return at<114>().as_bytes(); }
+ bool has_block_bio_backmerge() const { return at<115>().valid(); }
+ ::protozero::ConstBytes block_bio_backmerge() const { return at<115>().as_bytes(); }
+ bool has_block_bio_bounce() const { return at<116>().valid(); }
+ ::protozero::ConstBytes block_bio_bounce() const { return at<116>().as_bytes(); }
+ bool has_block_bio_complete() const { return at<117>().valid(); }
+ ::protozero::ConstBytes block_bio_complete() const { return at<117>().as_bytes(); }
+ bool has_block_bio_frontmerge() const { return at<118>().valid(); }
+ ::protozero::ConstBytes block_bio_frontmerge() const { return at<118>().as_bytes(); }
+ bool has_block_bio_queue() const { return at<119>().valid(); }
+ ::protozero::ConstBytes block_bio_queue() const { return at<119>().as_bytes(); }
+ bool has_block_bio_remap() const { return at<120>().valid(); }
+ ::protozero::ConstBytes block_bio_remap() const { return at<120>().as_bytes(); }
+ bool has_block_dirty_buffer() const { return at<121>().valid(); }
+ ::protozero::ConstBytes block_dirty_buffer() const { return at<121>().as_bytes(); }
+ bool has_block_getrq() const { return at<122>().valid(); }
+ ::protozero::ConstBytes block_getrq() const { return at<122>().as_bytes(); }
+ bool has_block_plug() const { return at<123>().valid(); }
+ ::protozero::ConstBytes block_plug() const { return at<123>().as_bytes(); }
+ bool has_block_rq_abort() const { return at<124>().valid(); }
+ ::protozero::ConstBytes block_rq_abort() const { return at<124>().as_bytes(); }
+ bool has_block_rq_complete() const { return at<125>().valid(); }
+ ::protozero::ConstBytes block_rq_complete() const { return at<125>().as_bytes(); }
+ bool has_block_rq_insert() const { return at<126>().valid(); }
+ ::protozero::ConstBytes block_rq_insert() const { return at<126>().as_bytes(); }
+ bool has_block_rq_remap() const { return at<128>().valid(); }
+ ::protozero::ConstBytes block_rq_remap() const { return at<128>().as_bytes(); }
+ bool has_block_rq_requeue() const { return at<129>().valid(); }
+ ::protozero::ConstBytes block_rq_requeue() const { return at<129>().as_bytes(); }
+ bool has_block_sleeprq() const { return at<130>().valid(); }
+ ::protozero::ConstBytes block_sleeprq() const { return at<130>().as_bytes(); }
+ bool has_block_split() const { return at<131>().valid(); }
+ ::protozero::ConstBytes block_split() const { return at<131>().as_bytes(); }
+ bool has_block_touch_buffer() const { return at<132>().valid(); }
+ ::protozero::ConstBytes block_touch_buffer() const { return at<132>().as_bytes(); }
+ bool has_block_unplug() const { return at<133>().valid(); }
+ ::protozero::ConstBytes block_unplug() const { return at<133>().as_bytes(); }
+ bool has_ext4_alloc_da_blocks() const { return at<134>().valid(); }
+ ::protozero::ConstBytes ext4_alloc_da_blocks() const { return at<134>().as_bytes(); }
+ bool has_ext4_allocate_blocks() const { return at<135>().valid(); }
+ ::protozero::ConstBytes ext4_allocate_blocks() const { return at<135>().as_bytes(); }
+ bool has_ext4_allocate_inode() const { return at<136>().valid(); }
+ ::protozero::ConstBytes ext4_allocate_inode() const { return at<136>().as_bytes(); }
+ bool has_ext4_begin_ordered_truncate() const { return at<137>().valid(); }
+ ::protozero::ConstBytes ext4_begin_ordered_truncate() const { return at<137>().as_bytes(); }
+ bool has_ext4_collapse_range() const { return at<138>().valid(); }
+ ::protozero::ConstBytes ext4_collapse_range() const { return at<138>().as_bytes(); }
+ bool has_ext4_da_release_space() const { return at<139>().valid(); }
+ ::protozero::ConstBytes ext4_da_release_space() const { return at<139>().as_bytes(); }
+ bool has_ext4_da_reserve_space() const { return at<140>().valid(); }
+ ::protozero::ConstBytes ext4_da_reserve_space() const { return at<140>().as_bytes(); }
+ bool has_ext4_da_update_reserve_space() const { return at<141>().valid(); }
+ ::protozero::ConstBytes ext4_da_update_reserve_space() const { return at<141>().as_bytes(); }
+ bool has_ext4_da_write_pages() const { return at<142>().valid(); }
+ ::protozero::ConstBytes ext4_da_write_pages() const { return at<142>().as_bytes(); }
+ bool has_ext4_da_write_pages_extent() const { return at<143>().valid(); }
+ ::protozero::ConstBytes ext4_da_write_pages_extent() const { return at<143>().as_bytes(); }
+ bool has_ext4_direct_io_enter() const { return at<144>().valid(); }
+ ::protozero::ConstBytes ext4_direct_io_enter() const { return at<144>().as_bytes(); }
+ bool has_ext4_direct_io_exit() const { return at<145>().valid(); }
+ ::protozero::ConstBytes ext4_direct_io_exit() const { return at<145>().as_bytes(); }
+ bool has_ext4_discard_blocks() const { return at<146>().valid(); }
+ ::protozero::ConstBytes ext4_discard_blocks() const { return at<146>().as_bytes(); }
+ bool has_ext4_discard_preallocations() const { return at<147>().valid(); }
+ ::protozero::ConstBytes ext4_discard_preallocations() const { return at<147>().as_bytes(); }
+ bool has_ext4_drop_inode() const { return at<148>().valid(); }
+ ::protozero::ConstBytes ext4_drop_inode() const { return at<148>().as_bytes(); }
+ bool has_ext4_es_cache_extent() const { return at<149>().valid(); }
+ ::protozero::ConstBytes ext4_es_cache_extent() const { return at<149>().as_bytes(); }
+ bool has_ext4_es_find_delayed_extent_range_enter() const { return at<150>().valid(); }
+ ::protozero::ConstBytes ext4_es_find_delayed_extent_range_enter() const { return at<150>().as_bytes(); }
+ bool has_ext4_es_find_delayed_extent_range_exit() const { return at<151>().valid(); }
+ ::protozero::ConstBytes ext4_es_find_delayed_extent_range_exit() const { return at<151>().as_bytes(); }
+ bool has_ext4_es_insert_extent() const { return at<152>().valid(); }
+ ::protozero::ConstBytes ext4_es_insert_extent() const { return at<152>().as_bytes(); }
+ bool has_ext4_es_lookup_extent_enter() const { return at<153>().valid(); }
+ ::protozero::ConstBytes ext4_es_lookup_extent_enter() const { return at<153>().as_bytes(); }
+ bool has_ext4_es_lookup_extent_exit() const { return at<154>().valid(); }
+ ::protozero::ConstBytes ext4_es_lookup_extent_exit() const { return at<154>().as_bytes(); }
+ bool has_ext4_es_remove_extent() const { return at<155>().valid(); }
+ ::protozero::ConstBytes ext4_es_remove_extent() const { return at<155>().as_bytes(); }
+ bool has_ext4_es_shrink() const { return at<156>().valid(); }
+ ::protozero::ConstBytes ext4_es_shrink() const { return at<156>().as_bytes(); }
+ bool has_ext4_es_shrink_count() const { return at<157>().valid(); }
+ ::protozero::ConstBytes ext4_es_shrink_count() const { return at<157>().as_bytes(); }
+ bool has_ext4_es_shrink_scan_enter() const { return at<158>().valid(); }
+ ::protozero::ConstBytes ext4_es_shrink_scan_enter() const { return at<158>().as_bytes(); }
+ bool has_ext4_es_shrink_scan_exit() const { return at<159>().valid(); }
+ ::protozero::ConstBytes ext4_es_shrink_scan_exit() const { return at<159>().as_bytes(); }
+ bool has_ext4_evict_inode() const { return at<160>().valid(); }
+ ::protozero::ConstBytes ext4_evict_inode() const { return at<160>().as_bytes(); }
+ bool has_ext4_ext_convert_to_initialized_enter() const { return at<161>().valid(); }
+ ::protozero::ConstBytes ext4_ext_convert_to_initialized_enter() const { return at<161>().as_bytes(); }
+ bool has_ext4_ext_convert_to_initialized_fastpath() const { return at<162>().valid(); }
+ ::protozero::ConstBytes ext4_ext_convert_to_initialized_fastpath() const { return at<162>().as_bytes(); }
+ bool has_ext4_ext_handle_unwritten_extents() const { return at<163>().valid(); }
+ ::protozero::ConstBytes ext4_ext_handle_unwritten_extents() const { return at<163>().as_bytes(); }
+ bool has_ext4_ext_in_cache() const { return at<164>().valid(); }
+ ::protozero::ConstBytes ext4_ext_in_cache() const { return at<164>().as_bytes(); }
+ bool has_ext4_ext_load_extent() const { return at<165>().valid(); }
+ ::protozero::ConstBytes ext4_ext_load_extent() const { return at<165>().as_bytes(); }
+ bool has_ext4_ext_map_blocks_enter() const { return at<166>().valid(); }
+ ::protozero::ConstBytes ext4_ext_map_blocks_enter() const { return at<166>().as_bytes(); }
+ bool has_ext4_ext_map_blocks_exit() const { return at<167>().valid(); }
+ ::protozero::ConstBytes ext4_ext_map_blocks_exit() const { return at<167>().as_bytes(); }
+ bool has_ext4_ext_put_in_cache() const { return at<168>().valid(); }
+ ::protozero::ConstBytes ext4_ext_put_in_cache() const { return at<168>().as_bytes(); }
+ bool has_ext4_ext_remove_space() const { return at<169>().valid(); }
+ ::protozero::ConstBytes ext4_ext_remove_space() const { return at<169>().as_bytes(); }
+ bool has_ext4_ext_remove_space_done() const { return at<170>().valid(); }
+ ::protozero::ConstBytes ext4_ext_remove_space_done() const { return at<170>().as_bytes(); }
+ bool has_ext4_ext_rm_idx() const { return at<171>().valid(); }
+ ::protozero::ConstBytes ext4_ext_rm_idx() const { return at<171>().as_bytes(); }
+ bool has_ext4_ext_rm_leaf() const { return at<172>().valid(); }
+ ::protozero::ConstBytes ext4_ext_rm_leaf() const { return at<172>().as_bytes(); }
+ bool has_ext4_ext_show_extent() const { return at<173>().valid(); }
+ ::protozero::ConstBytes ext4_ext_show_extent() const { return at<173>().as_bytes(); }
+ bool has_ext4_fallocate_enter() const { return at<174>().valid(); }
+ ::protozero::ConstBytes ext4_fallocate_enter() const { return at<174>().as_bytes(); }
+ bool has_ext4_fallocate_exit() const { return at<175>().valid(); }
+ ::protozero::ConstBytes ext4_fallocate_exit() const { return at<175>().as_bytes(); }
+ bool has_ext4_find_delalloc_range() const { return at<176>().valid(); }
+ ::protozero::ConstBytes ext4_find_delalloc_range() const { return at<176>().as_bytes(); }
+ bool has_ext4_forget() const { return at<177>().valid(); }
+ ::protozero::ConstBytes ext4_forget() const { return at<177>().as_bytes(); }
+ bool has_ext4_free_blocks() const { return at<178>().valid(); }
+ ::protozero::ConstBytes ext4_free_blocks() const { return at<178>().as_bytes(); }
+ bool has_ext4_free_inode() const { return at<179>().valid(); }
+ ::protozero::ConstBytes ext4_free_inode() const { return at<179>().as_bytes(); }
+ bool has_ext4_get_implied_cluster_alloc_exit() const { return at<180>().valid(); }
+ ::protozero::ConstBytes ext4_get_implied_cluster_alloc_exit() const { return at<180>().as_bytes(); }
+ bool has_ext4_get_reserved_cluster_alloc() const { return at<181>().valid(); }
+ ::protozero::ConstBytes ext4_get_reserved_cluster_alloc() const { return at<181>().as_bytes(); }
+ bool has_ext4_ind_map_blocks_enter() const { return at<182>().valid(); }
+ ::protozero::ConstBytes ext4_ind_map_blocks_enter() const { return at<182>().as_bytes(); }
+ bool has_ext4_ind_map_blocks_exit() const { return at<183>().valid(); }
+ ::protozero::ConstBytes ext4_ind_map_blocks_exit() const { return at<183>().as_bytes(); }
+ bool has_ext4_insert_range() const { return at<184>().valid(); }
+ ::protozero::ConstBytes ext4_insert_range() const { return at<184>().as_bytes(); }
+ bool has_ext4_invalidatepage() const { return at<185>().valid(); }
+ ::protozero::ConstBytes ext4_invalidatepage() const { return at<185>().as_bytes(); }
+ bool has_ext4_journal_start() const { return at<186>().valid(); }
+ ::protozero::ConstBytes ext4_journal_start() const { return at<186>().as_bytes(); }
+ bool has_ext4_journal_start_reserved() const { return at<187>().valid(); }
+ ::protozero::ConstBytes ext4_journal_start_reserved() const { return at<187>().as_bytes(); }
+ bool has_ext4_journalled_invalidatepage() const { return at<188>().valid(); }
+ ::protozero::ConstBytes ext4_journalled_invalidatepage() const { return at<188>().as_bytes(); }
+ bool has_ext4_journalled_write_end() const { return at<189>().valid(); }
+ ::protozero::ConstBytes ext4_journalled_write_end() const { return at<189>().as_bytes(); }
+ bool has_ext4_load_inode() const { return at<190>().valid(); }
+ ::protozero::ConstBytes ext4_load_inode() const { return at<190>().as_bytes(); }
+ bool has_ext4_load_inode_bitmap() const { return at<191>().valid(); }
+ ::protozero::ConstBytes ext4_load_inode_bitmap() const { return at<191>().as_bytes(); }
+ bool has_ext4_mark_inode_dirty() const { return at<192>().valid(); }
+ ::protozero::ConstBytes ext4_mark_inode_dirty() const { return at<192>().as_bytes(); }
+ bool has_ext4_mb_bitmap_load() const { return at<193>().valid(); }
+ ::protozero::ConstBytes ext4_mb_bitmap_load() const { return at<193>().as_bytes(); }
+ bool has_ext4_mb_buddy_bitmap_load() const { return at<194>().valid(); }
+ ::protozero::ConstBytes ext4_mb_buddy_bitmap_load() const { return at<194>().as_bytes(); }
+ bool has_ext4_mb_discard_preallocations() const { return at<195>().valid(); }
+ ::protozero::ConstBytes ext4_mb_discard_preallocations() const { return at<195>().as_bytes(); }
+ bool has_ext4_mb_new_group_pa() const { return at<196>().valid(); }
+ ::protozero::ConstBytes ext4_mb_new_group_pa() const { return at<196>().as_bytes(); }
+ bool has_ext4_mb_new_inode_pa() const { return at<197>().valid(); }
+ ::protozero::ConstBytes ext4_mb_new_inode_pa() const { return at<197>().as_bytes(); }
+ bool has_ext4_mb_release_group_pa() const { return at<198>().valid(); }
+ ::protozero::ConstBytes ext4_mb_release_group_pa() const { return at<198>().as_bytes(); }
+ bool has_ext4_mb_release_inode_pa() const { return at<199>().valid(); }
+ ::protozero::ConstBytes ext4_mb_release_inode_pa() const { return at<199>().as_bytes(); }
+ bool has_ext4_mballoc_alloc() const { return at<200>().valid(); }
+ ::protozero::ConstBytes ext4_mballoc_alloc() const { return at<200>().as_bytes(); }
+ bool has_ext4_mballoc_discard() const { return at<201>().valid(); }
+ ::protozero::ConstBytes ext4_mballoc_discard() const { return at<201>().as_bytes(); }
+ bool has_ext4_mballoc_free() const { return at<202>().valid(); }
+ ::protozero::ConstBytes ext4_mballoc_free() const { return at<202>().as_bytes(); }
+ bool has_ext4_mballoc_prealloc() const { return at<203>().valid(); }
+ ::protozero::ConstBytes ext4_mballoc_prealloc() const { return at<203>().as_bytes(); }
+ bool has_ext4_other_inode_update_time() const { return at<204>().valid(); }
+ ::protozero::ConstBytes ext4_other_inode_update_time() const { return at<204>().as_bytes(); }
+ bool has_ext4_punch_hole() const { return at<205>().valid(); }
+ ::protozero::ConstBytes ext4_punch_hole() const { return at<205>().as_bytes(); }
+ bool has_ext4_read_block_bitmap_load() const { return at<206>().valid(); }
+ ::protozero::ConstBytes ext4_read_block_bitmap_load() const { return at<206>().as_bytes(); }
+ bool has_ext4_readpage() const { return at<207>().valid(); }
+ ::protozero::ConstBytes ext4_readpage() const { return at<207>().as_bytes(); }
+ bool has_ext4_releasepage() const { return at<208>().valid(); }
+ ::protozero::ConstBytes ext4_releasepage() const { return at<208>().as_bytes(); }
+ bool has_ext4_remove_blocks() const { return at<209>().valid(); }
+ ::protozero::ConstBytes ext4_remove_blocks() const { return at<209>().as_bytes(); }
+ bool has_ext4_request_blocks() const { return at<210>().valid(); }
+ ::protozero::ConstBytes ext4_request_blocks() const { return at<210>().as_bytes(); }
+ bool has_ext4_request_inode() const { return at<211>().valid(); }
+ ::protozero::ConstBytes ext4_request_inode() const { return at<211>().as_bytes(); }
+ bool has_ext4_sync_fs() const { return at<212>().valid(); }
+ ::protozero::ConstBytes ext4_sync_fs() const { return at<212>().as_bytes(); }
+ bool has_ext4_trim_all_free() const { return at<213>().valid(); }
+ ::protozero::ConstBytes ext4_trim_all_free() const { return at<213>().as_bytes(); }
+ bool has_ext4_trim_extent() const { return at<214>().valid(); }
+ ::protozero::ConstBytes ext4_trim_extent() const { return at<214>().as_bytes(); }
+ bool has_ext4_truncate_enter() const { return at<215>().valid(); }
+ ::protozero::ConstBytes ext4_truncate_enter() const { return at<215>().as_bytes(); }
+ bool has_ext4_truncate_exit() const { return at<216>().valid(); }
+ ::protozero::ConstBytes ext4_truncate_exit() const { return at<216>().as_bytes(); }
+ bool has_ext4_unlink_enter() const { return at<217>().valid(); }
+ ::protozero::ConstBytes ext4_unlink_enter() const { return at<217>().as_bytes(); }
+ bool has_ext4_unlink_exit() const { return at<218>().valid(); }
+ ::protozero::ConstBytes ext4_unlink_exit() const { return at<218>().as_bytes(); }
+ bool has_ext4_write_begin() const { return at<219>().valid(); }
+ ::protozero::ConstBytes ext4_write_begin() const { return at<219>().as_bytes(); }
+ bool has_ext4_write_end() const { return at<230>().valid(); }
+ ::protozero::ConstBytes ext4_write_end() const { return at<230>().as_bytes(); }
+ bool has_ext4_writepage() const { return at<231>().valid(); }
+ ::protozero::ConstBytes ext4_writepage() const { return at<231>().as_bytes(); }
+ bool has_ext4_writepages() const { return at<232>().valid(); }
+ ::protozero::ConstBytes ext4_writepages() const { return at<232>().as_bytes(); }
+ bool has_ext4_writepages_result() const { return at<233>().valid(); }
+ ::protozero::ConstBytes ext4_writepages_result() const { return at<233>().as_bytes(); }
+ bool has_ext4_zero_range() const { return at<234>().valid(); }
+ ::protozero::ConstBytes ext4_zero_range() const { return at<234>().as_bytes(); }
+ bool has_task_newtask() const { return at<235>().valid(); }
+ ::protozero::ConstBytes task_newtask() const { return at<235>().as_bytes(); }
+ bool has_task_rename() const { return at<236>().valid(); }
+ ::protozero::ConstBytes task_rename() const { return at<236>().as_bytes(); }
+ bool has_sched_process_exec() const { return at<237>().valid(); }
+ ::protozero::ConstBytes sched_process_exec() const { return at<237>().as_bytes(); }
+ bool has_sched_process_exit() const { return at<238>().valid(); }
+ ::protozero::ConstBytes sched_process_exit() const { return at<238>().as_bytes(); }
+ bool has_sched_process_fork() const { return at<239>().valid(); }
+ ::protozero::ConstBytes sched_process_fork() const { return at<239>().as_bytes(); }
+ bool has_sched_process_free() const { return at<240>().valid(); }
+ ::protozero::ConstBytes sched_process_free() const { return at<240>().as_bytes(); }
+ bool has_sched_process_hang() const { return at<241>().valid(); }
+ ::protozero::ConstBytes sched_process_hang() const { return at<241>().as_bytes(); }
+ bool has_sched_process_wait() const { return at<242>().valid(); }
+ ::protozero::ConstBytes sched_process_wait() const { return at<242>().as_bytes(); }
+ bool has_f2fs_do_submit_bio() const { return at<243>().valid(); }
+ ::protozero::ConstBytes f2fs_do_submit_bio() const { return at<243>().as_bytes(); }
+ bool has_f2fs_evict_inode() const { return at<244>().valid(); }
+ ::protozero::ConstBytes f2fs_evict_inode() const { return at<244>().as_bytes(); }
+ bool has_f2fs_fallocate() const { return at<245>().valid(); }
+ ::protozero::ConstBytes f2fs_fallocate() const { return at<245>().as_bytes(); }
+ bool has_f2fs_get_data_block() const { return at<246>().valid(); }
+ ::protozero::ConstBytes f2fs_get_data_block() const { return at<246>().as_bytes(); }
+ bool has_f2fs_get_victim() const { return at<247>().valid(); }
+ ::protozero::ConstBytes f2fs_get_victim() const { return at<247>().as_bytes(); }
+ bool has_f2fs_iget() const { return at<248>().valid(); }
+ ::protozero::ConstBytes f2fs_iget() const { return at<248>().as_bytes(); }
+ bool has_f2fs_iget_exit() const { return at<249>().valid(); }
+ ::protozero::ConstBytes f2fs_iget_exit() const { return at<249>().as_bytes(); }
+ bool has_f2fs_new_inode() const { return at<250>().valid(); }
+ ::protozero::ConstBytes f2fs_new_inode() const { return at<250>().as_bytes(); }
+ bool has_f2fs_readpage() const { return at<251>().valid(); }
+ ::protozero::ConstBytes f2fs_readpage() const { return at<251>().as_bytes(); }
+ bool has_f2fs_reserve_new_block() const { return at<252>().valid(); }
+ ::protozero::ConstBytes f2fs_reserve_new_block() const { return at<252>().as_bytes(); }
+ bool has_f2fs_set_page_dirty() const { return at<253>().valid(); }
+ ::protozero::ConstBytes f2fs_set_page_dirty() const { return at<253>().as_bytes(); }
+ bool has_f2fs_submit_write_page() const { return at<254>().valid(); }
+ ::protozero::ConstBytes f2fs_submit_write_page() const { return at<254>().as_bytes(); }
+ bool has_f2fs_sync_file_enter() const { return at<255>().valid(); }
+ ::protozero::ConstBytes f2fs_sync_file_enter() const { return at<255>().as_bytes(); }
+ bool has_f2fs_sync_file_exit() const { return at<256>().valid(); }
+ ::protozero::ConstBytes f2fs_sync_file_exit() const { return at<256>().as_bytes(); }
+ bool has_f2fs_sync_fs() const { return at<257>().valid(); }
+ ::protozero::ConstBytes f2fs_sync_fs() const { return at<257>().as_bytes(); }
+ bool has_f2fs_truncate() const { return at<258>().valid(); }
+ ::protozero::ConstBytes f2fs_truncate() const { return at<258>().as_bytes(); }
+ bool has_f2fs_truncate_blocks_enter() const { return at<259>().valid(); }
+ ::protozero::ConstBytes f2fs_truncate_blocks_enter() const { return at<259>().as_bytes(); }
+ bool has_f2fs_truncate_blocks_exit() const { return at<260>().valid(); }
+ ::protozero::ConstBytes f2fs_truncate_blocks_exit() const { return at<260>().as_bytes(); }
+ bool has_f2fs_truncate_data_blocks_range() const { return at<261>().valid(); }
+ ::protozero::ConstBytes f2fs_truncate_data_blocks_range() const { return at<261>().as_bytes(); }
+ bool has_f2fs_truncate_inode_blocks_enter() const { return at<262>().valid(); }
+ ::protozero::ConstBytes f2fs_truncate_inode_blocks_enter() const { return at<262>().as_bytes(); }
+ bool has_f2fs_truncate_inode_blocks_exit() const { return at<263>().valid(); }
+ ::protozero::ConstBytes f2fs_truncate_inode_blocks_exit() const { return at<263>().as_bytes(); }
+ bool has_f2fs_truncate_node() const { return at<264>().valid(); }
+ ::protozero::ConstBytes f2fs_truncate_node() const { return at<264>().as_bytes(); }
+ bool has_f2fs_truncate_nodes_enter() const { return at<265>().valid(); }
+ ::protozero::ConstBytes f2fs_truncate_nodes_enter() const { return at<265>().as_bytes(); }
+ bool has_f2fs_truncate_nodes_exit() const { return at<266>().valid(); }
+ ::protozero::ConstBytes f2fs_truncate_nodes_exit() const { return at<266>().as_bytes(); }
+ bool has_f2fs_truncate_partial_nodes() const { return at<267>().valid(); }
+ ::protozero::ConstBytes f2fs_truncate_partial_nodes() const { return at<267>().as_bytes(); }
+ bool has_f2fs_unlink_enter() const { return at<268>().valid(); }
+ ::protozero::ConstBytes f2fs_unlink_enter() const { return at<268>().as_bytes(); }
+ bool has_f2fs_unlink_exit() const { return at<269>().valid(); }
+ ::protozero::ConstBytes f2fs_unlink_exit() const { return at<269>().as_bytes(); }
+ bool has_f2fs_vm_page_mkwrite() const { return at<270>().valid(); }
+ ::protozero::ConstBytes f2fs_vm_page_mkwrite() const { return at<270>().as_bytes(); }
+ bool has_f2fs_write_begin() const { return at<271>().valid(); }
+ ::protozero::ConstBytes f2fs_write_begin() const { return at<271>().as_bytes(); }
+ bool has_f2fs_write_checkpoint() const { return at<272>().valid(); }
+ ::protozero::ConstBytes f2fs_write_checkpoint() const { return at<272>().as_bytes(); }
+ bool has_f2fs_write_end() const { return at<273>().valid(); }
+ ::protozero::ConstBytes f2fs_write_end() const { return at<273>().as_bytes(); }
+ bool has_alloc_pages_iommu_end() const { return at<274>().valid(); }
+ ::protozero::ConstBytes alloc_pages_iommu_end() const { return at<274>().as_bytes(); }
+ bool has_alloc_pages_iommu_fail() const { return at<275>().valid(); }
+ ::protozero::ConstBytes alloc_pages_iommu_fail() const { return at<275>().as_bytes(); }
+ bool has_alloc_pages_iommu_start() const { return at<276>().valid(); }
+ ::protozero::ConstBytes alloc_pages_iommu_start() const { return at<276>().as_bytes(); }
+ bool has_alloc_pages_sys_end() const { return at<277>().valid(); }
+ ::protozero::ConstBytes alloc_pages_sys_end() const { return at<277>().as_bytes(); }
+ bool has_alloc_pages_sys_fail() const { return at<278>().valid(); }
+ ::protozero::ConstBytes alloc_pages_sys_fail() const { return at<278>().as_bytes(); }
+ bool has_alloc_pages_sys_start() const { return at<279>().valid(); }
+ ::protozero::ConstBytes alloc_pages_sys_start() const { return at<279>().as_bytes(); }
+ bool has_dma_alloc_contiguous_retry() const { return at<280>().valid(); }
+ ::protozero::ConstBytes dma_alloc_contiguous_retry() const { return at<280>().as_bytes(); }
+ bool has_iommu_map_range() const { return at<281>().valid(); }
+ ::protozero::ConstBytes iommu_map_range() const { return at<281>().as_bytes(); }
+ bool has_iommu_sec_ptbl_map_range_end() const { return at<282>().valid(); }
+ ::protozero::ConstBytes iommu_sec_ptbl_map_range_end() const { return at<282>().as_bytes(); }
+ bool has_iommu_sec_ptbl_map_range_start() const { return at<283>().valid(); }
+ ::protozero::ConstBytes iommu_sec_ptbl_map_range_start() const { return at<283>().as_bytes(); }
+ bool has_ion_alloc_buffer_end() const { return at<284>().valid(); }
+ ::protozero::ConstBytes ion_alloc_buffer_end() const { return at<284>().as_bytes(); }
+ bool has_ion_alloc_buffer_fail() const { return at<285>().valid(); }
+ ::protozero::ConstBytes ion_alloc_buffer_fail() const { return at<285>().as_bytes(); }
+ bool has_ion_alloc_buffer_fallback() const { return at<286>().valid(); }
+ ::protozero::ConstBytes ion_alloc_buffer_fallback() const { return at<286>().as_bytes(); }
+ bool has_ion_alloc_buffer_start() const { return at<287>().valid(); }
+ ::protozero::ConstBytes ion_alloc_buffer_start() const { return at<287>().as_bytes(); }
+ bool has_ion_cp_alloc_retry() const { return at<288>().valid(); }
+ ::protozero::ConstBytes ion_cp_alloc_retry() const { return at<288>().as_bytes(); }
+ bool has_ion_cp_secure_buffer_end() const { return at<289>().valid(); }
+ ::protozero::ConstBytes ion_cp_secure_buffer_end() const { return at<289>().as_bytes(); }
+ bool has_ion_cp_secure_buffer_start() const { return at<290>().valid(); }
+ ::protozero::ConstBytes ion_cp_secure_buffer_start() const { return at<290>().as_bytes(); }
+ bool has_ion_prefetching() const { return at<291>().valid(); }
+ ::protozero::ConstBytes ion_prefetching() const { return at<291>().as_bytes(); }
+ bool has_ion_secure_cma_add_to_pool_end() const { return at<292>().valid(); }
+ ::protozero::ConstBytes ion_secure_cma_add_to_pool_end() const { return at<292>().as_bytes(); }
+ bool has_ion_secure_cma_add_to_pool_start() const { return at<293>().valid(); }
+ ::protozero::ConstBytes ion_secure_cma_add_to_pool_start() const { return at<293>().as_bytes(); }
+ bool has_ion_secure_cma_allocate_end() const { return at<294>().valid(); }
+ ::protozero::ConstBytes ion_secure_cma_allocate_end() const { return at<294>().as_bytes(); }
+ bool has_ion_secure_cma_allocate_start() const { return at<295>().valid(); }
+ ::protozero::ConstBytes ion_secure_cma_allocate_start() const { return at<295>().as_bytes(); }
+ bool has_ion_secure_cma_shrink_pool_end() const { return at<296>().valid(); }
+ ::protozero::ConstBytes ion_secure_cma_shrink_pool_end() const { return at<296>().as_bytes(); }
+ bool has_ion_secure_cma_shrink_pool_start() const { return at<297>().valid(); }
+ ::protozero::ConstBytes ion_secure_cma_shrink_pool_start() const { return at<297>().as_bytes(); }
+ bool has_kfree() const { return at<298>().valid(); }
+ ::protozero::ConstBytes kfree() const { return at<298>().as_bytes(); }
+ bool has_kmalloc() const { return at<299>().valid(); }
+ ::protozero::ConstBytes kmalloc() const { return at<299>().as_bytes(); }
+ bool has_kmalloc_node() const { return at<300>().valid(); }
+ ::protozero::ConstBytes kmalloc_node() const { return at<300>().as_bytes(); }
+ bool has_kmem_cache_alloc() const { return at<301>().valid(); }
+ ::protozero::ConstBytes kmem_cache_alloc() const { return at<301>().as_bytes(); }
+ bool has_kmem_cache_alloc_node() const { return at<302>().valid(); }
+ ::protozero::ConstBytes kmem_cache_alloc_node() const { return at<302>().as_bytes(); }
+ bool has_kmem_cache_free() const { return at<303>().valid(); }
+ ::protozero::ConstBytes kmem_cache_free() const { return at<303>().as_bytes(); }
+ bool has_migrate_pages_end() const { return at<304>().valid(); }
+ ::protozero::ConstBytes migrate_pages_end() const { return at<304>().as_bytes(); }
+ bool has_migrate_pages_start() const { return at<305>().valid(); }
+ ::protozero::ConstBytes migrate_pages_start() const { return at<305>().as_bytes(); }
+ bool has_migrate_retry() const { return at<306>().valid(); }
+ ::protozero::ConstBytes migrate_retry() const { return at<306>().as_bytes(); }
+ bool has_mm_page_alloc() const { return at<307>().valid(); }
+ ::protozero::ConstBytes mm_page_alloc() const { return at<307>().as_bytes(); }
+ bool has_mm_page_alloc_extfrag() const { return at<308>().valid(); }
+ ::protozero::ConstBytes mm_page_alloc_extfrag() const { return at<308>().as_bytes(); }
+ bool has_mm_page_alloc_zone_locked() const { return at<309>().valid(); }
+ ::protozero::ConstBytes mm_page_alloc_zone_locked() const { return at<309>().as_bytes(); }
+ bool has_mm_page_free() const { return at<310>().valid(); }
+ ::protozero::ConstBytes mm_page_free() const { return at<310>().as_bytes(); }
+ bool has_mm_page_free_batched() const { return at<311>().valid(); }
+ ::protozero::ConstBytes mm_page_free_batched() const { return at<311>().as_bytes(); }
+ bool has_mm_page_pcpu_drain() const { return at<312>().valid(); }
+ ::protozero::ConstBytes mm_page_pcpu_drain() const { return at<312>().as_bytes(); }
+ bool has_rss_stat() const { return at<313>().valid(); }
+ ::protozero::ConstBytes rss_stat() const { return at<313>().as_bytes(); }
+ bool has_ion_heap_shrink() const { return at<314>().valid(); }
+ ::protozero::ConstBytes ion_heap_shrink() const { return at<314>().as_bytes(); }
+ bool has_ion_heap_grow() const { return at<315>().valid(); }
+ ::protozero::ConstBytes ion_heap_grow() const { return at<315>().as_bytes(); }
+ bool has_fence_init() const { return at<316>().valid(); }
+ ::protozero::ConstBytes fence_init() const { return at<316>().as_bytes(); }
+ bool has_fence_destroy() const { return at<317>().valid(); }
+ ::protozero::ConstBytes fence_destroy() const { return at<317>().as_bytes(); }
+ bool has_fence_enable_signal() const { return at<318>().valid(); }
+ ::protozero::ConstBytes fence_enable_signal() const { return at<318>().as_bytes(); }
+ bool has_fence_signaled() const { return at<319>().valid(); }
+ ::protozero::ConstBytes fence_signaled() const { return at<319>().as_bytes(); }
+ bool has_clk_enable() const { return at<320>().valid(); }
+ ::protozero::ConstBytes clk_enable() const { return at<320>().as_bytes(); }
+ bool has_clk_disable() const { return at<321>().valid(); }
+ ::protozero::ConstBytes clk_disable() const { return at<321>().as_bytes(); }
+ bool has_clk_set_rate() const { return at<322>().valid(); }
+ ::protozero::ConstBytes clk_set_rate() const { return at<322>().as_bytes(); }
+ bool has_binder_transaction_alloc_buf() const { return at<323>().valid(); }
+ ::protozero::ConstBytes binder_transaction_alloc_buf() const { return at<323>().as_bytes(); }
+ bool has_signal_deliver() const { return at<324>().valid(); }
+ ::protozero::ConstBytes signal_deliver() const { return at<324>().as_bytes(); }
+ bool has_signal_generate() const { return at<325>().valid(); }
+ ::protozero::ConstBytes signal_generate() const { return at<325>().as_bytes(); }
+ bool has_oom_score_adj_update() const { return at<326>().valid(); }
+ ::protozero::ConstBytes oom_score_adj_update() const { return at<326>().as_bytes(); }
+ bool has_generic() const { return at<327>().valid(); }
+ ::protozero::ConstBytes generic() const { return at<327>().as_bytes(); }
+ bool has_mm_event_record() const { return at<328>().valid(); }
+ ::protozero::ConstBytes mm_event_record() const { return at<328>().as_bytes(); }
+ bool has_sys_enter() const { return at<329>().valid(); }
+ ::protozero::ConstBytes sys_enter() const { return at<329>().as_bytes(); }
+ bool has_sys_exit() const { return at<330>().valid(); }
+ ::protozero::ConstBytes sys_exit() const { return at<330>().as_bytes(); }
+ bool has_zero() const { return at<331>().valid(); }
+ ::protozero::ConstBytes zero() const { return at<331>().as_bytes(); }
+ bool has_gpu_frequency() const { return at<332>().valid(); }
+ ::protozero::ConstBytes gpu_frequency() const { return at<332>().as_bytes(); }
+ bool has_sde_tracing_mark_write() const { return at<333>().valid(); }
+ ::protozero::ConstBytes sde_tracing_mark_write() const { return at<333>().as_bytes(); }
+ bool has_mark_victim() const { return at<334>().valid(); }
+ ::protozero::ConstBytes mark_victim() const { return at<334>().as_bytes(); }
+ bool has_ion_stat() const { return at<335>().valid(); }
+ ::protozero::ConstBytes ion_stat() const { return at<335>().as_bytes(); }
+ bool has_ion_buffer_create() const { return at<336>().valid(); }
+ ::protozero::ConstBytes ion_buffer_create() const { return at<336>().as_bytes(); }
+ bool has_ion_buffer_destroy() const { return at<337>().valid(); }
+ ::protozero::ConstBytes ion_buffer_destroy() const { return at<337>().as_bytes(); }
+ bool has_scm_call_start() const { return at<338>().valid(); }
+ ::protozero::ConstBytes scm_call_start() const { return at<338>().as_bytes(); }
+ bool has_scm_call_end() const { return at<339>().valid(); }
+ ::protozero::ConstBytes scm_call_end() const { return at<339>().as_bytes(); }
+ bool has_gpu_mem_total() const { return at<340>().valid(); }
+ ::protozero::ConstBytes gpu_mem_total() const { return at<340>().as_bytes(); }
+ bool has_thermal_temperature() const { return at<341>().valid(); }
+ ::protozero::ConstBytes thermal_temperature() const { return at<341>().as_bytes(); }
+ bool has_cdev_update() const { return at<342>().valid(); }
+ ::protozero::ConstBytes cdev_update() const { return at<342>().as_bytes(); }
+ bool has_cpuhp_exit() const { return at<343>().valid(); }
+ ::protozero::ConstBytes cpuhp_exit() const { return at<343>().as_bytes(); }
+ bool has_cpuhp_multi_enter() const { return at<344>().valid(); }
+ ::protozero::ConstBytes cpuhp_multi_enter() const { return at<344>().as_bytes(); }
+ bool has_cpuhp_enter() const { return at<345>().valid(); }
+ ::protozero::ConstBytes cpuhp_enter() const { return at<345>().as_bytes(); }
+ bool has_cpuhp_latency() const { return at<346>().valid(); }
+ ::protozero::ConstBytes cpuhp_latency() const { return at<346>().as_bytes(); }
+ bool has_fastrpc_dma_stat() const { return at<347>().valid(); }
+ ::protozero::ConstBytes fastrpc_dma_stat() const { return at<347>().as_bytes(); }
+ bool has_dpu_tracing_mark_write() const { return at<348>().valid(); }
+ ::protozero::ConstBytes dpu_tracing_mark_write() const { return at<348>().as_bytes(); }
+ bool has_g2d_tracing_mark_write() const { return at<349>().valid(); }
+ ::protozero::ConstBytes g2d_tracing_mark_write() const { return at<349>().as_bytes(); }
+ bool has_mali_tracing_mark_write() const { return at<350>().valid(); }
+ ::protozero::ConstBytes mali_tracing_mark_write() const { return at<350>().as_bytes(); }
+ bool has_dma_heap_stat() const { return at<351>().valid(); }
+ ::protozero::ConstBytes dma_heap_stat() const { return at<351>().as_bytes(); }
+ bool has_cpuhp_pause() const { return at<352>().valid(); }
+ ::protozero::ConstBytes cpuhp_pause() const { return at<352>().as_bytes(); }
+ bool has_sched_pi_setprio() const { return at<353>().valid(); }
+ ::protozero::ConstBytes sched_pi_setprio() const { return at<353>().as_bytes(); }
+ bool has_sde_sde_evtlog() const { return at<354>().valid(); }
+ ::protozero::ConstBytes sde_sde_evtlog() const { return at<354>().as_bytes(); }
+ bool has_sde_sde_perf_calc_crtc() const { return at<355>().valid(); }
+ ::protozero::ConstBytes sde_sde_perf_calc_crtc() const { return at<355>().as_bytes(); }
+ bool has_sde_sde_perf_crtc_update() const { return at<356>().valid(); }
+ ::protozero::ConstBytes sde_sde_perf_crtc_update() const { return at<356>().as_bytes(); }
+ bool has_sde_sde_perf_set_qos_luts() const { return at<357>().valid(); }
+ ::protozero::ConstBytes sde_sde_perf_set_qos_luts() const { return at<357>().as_bytes(); }
+ bool has_sde_sde_perf_update_bus() const { return at<358>().valid(); }
+ ::protozero::ConstBytes sde_sde_perf_update_bus() const { return at<358>().as_bytes(); }
+ bool has_rss_stat_throttled() const { return at<359>().valid(); }
+ ::protozero::ConstBytes rss_stat_throttled() const { return at<359>().as_bytes(); }
+ bool has_netif_receive_skb() const { return at<360>().valid(); }
+ ::protozero::ConstBytes netif_receive_skb() const { return at<360>().as_bytes(); }
+ bool has_net_dev_xmit() const { return at<361>().valid(); }
+ ::protozero::ConstBytes net_dev_xmit() const { return at<361>().as_bytes(); }
+ bool has_inet_sock_set_state() const { return at<362>().valid(); }
+ ::protozero::ConstBytes inet_sock_set_state() const { return at<362>().as_bytes(); }
+ bool has_tcp_retransmit_skb() const { return at<363>().valid(); }
+ ::protozero::ConstBytes tcp_retransmit_skb() const { return at<363>().as_bytes(); }
+ bool has_cros_ec_sensorhub_data() const { return at<364>().valid(); }
+ ::protozero::ConstBytes cros_ec_sensorhub_data() const { return at<364>().as_bytes(); }
+ bool has_napi_gro_receive_entry() const { return at<365>().valid(); }
+ ::protozero::ConstBytes napi_gro_receive_entry() const { return at<365>().as_bytes(); }
+ bool has_napi_gro_receive_exit() const { return at<366>().valid(); }
+ ::protozero::ConstBytes napi_gro_receive_exit() const { return at<366>().as_bytes(); }
+ bool has_kfree_skb() const { return at<367>().valid(); }
+ ::protozero::ConstBytes kfree_skb() const { return at<367>().as_bytes(); }
+ bool has_kvm_access_fault() const { return at<368>().valid(); }
+ ::protozero::ConstBytes kvm_access_fault() const { return at<368>().as_bytes(); }
+ bool has_kvm_ack_irq() const { return at<369>().valid(); }
+ ::protozero::ConstBytes kvm_ack_irq() const { return at<369>().as_bytes(); }
+ bool has_kvm_age_hva() const { return at<370>().valid(); }
+ ::protozero::ConstBytes kvm_age_hva() const { return at<370>().as_bytes(); }
+ bool has_kvm_age_page() const { return at<371>().valid(); }
+ ::protozero::ConstBytes kvm_age_page() const { return at<371>().as_bytes(); }
+ bool has_kvm_arm_clear_debug() const { return at<372>().valid(); }
+ ::protozero::ConstBytes kvm_arm_clear_debug() const { return at<372>().as_bytes(); }
+ bool has_kvm_arm_set_dreg32() const { return at<373>().valid(); }
+ ::protozero::ConstBytes kvm_arm_set_dreg32() const { return at<373>().as_bytes(); }
+ bool has_kvm_arm_set_regset() const { return at<374>().valid(); }
+ ::protozero::ConstBytes kvm_arm_set_regset() const { return at<374>().as_bytes(); }
+ bool has_kvm_arm_setup_debug() const { return at<375>().valid(); }
+ ::protozero::ConstBytes kvm_arm_setup_debug() const { return at<375>().as_bytes(); }
+ bool has_kvm_entry() const { return at<376>().valid(); }
+ ::protozero::ConstBytes kvm_entry() const { return at<376>().as_bytes(); }
+ bool has_kvm_exit() const { return at<377>().valid(); }
+ ::protozero::ConstBytes kvm_exit() const { return at<377>().as_bytes(); }
+ bool has_kvm_fpu() const { return at<378>().valid(); }
+ ::protozero::ConstBytes kvm_fpu() const { return at<378>().as_bytes(); }
+ bool has_kvm_get_timer_map() const { return at<379>().valid(); }
+ ::protozero::ConstBytes kvm_get_timer_map() const { return at<379>().as_bytes(); }
+ bool has_kvm_guest_fault() const { return at<380>().valid(); }
+ ::protozero::ConstBytes kvm_guest_fault() const { return at<380>().as_bytes(); }
+ bool has_kvm_handle_sys_reg() const { return at<381>().valid(); }
+ ::protozero::ConstBytes kvm_handle_sys_reg() const { return at<381>().as_bytes(); }
+ bool has_kvm_hvc_arm64() const { return at<382>().valid(); }
+ ::protozero::ConstBytes kvm_hvc_arm64() const { return at<382>().as_bytes(); }
+ bool has_kvm_irq_line() const { return at<383>().valid(); }
+ ::protozero::ConstBytes kvm_irq_line() const { return at<383>().as_bytes(); }
+ bool has_kvm_mmio() const { return at<384>().valid(); }
+ ::protozero::ConstBytes kvm_mmio() const { return at<384>().as_bytes(); }
+ bool has_kvm_mmio_emulate() const { return at<385>().valid(); }
+ ::protozero::ConstBytes kvm_mmio_emulate() const { return at<385>().as_bytes(); }
+ bool has_kvm_set_guest_debug() const { return at<386>().valid(); }
+ ::protozero::ConstBytes kvm_set_guest_debug() const { return at<386>().as_bytes(); }
+ bool has_kvm_set_irq() const { return at<387>().valid(); }
+ ::protozero::ConstBytes kvm_set_irq() const { return at<387>().as_bytes(); }
+ bool has_kvm_set_spte_hva() const { return at<388>().valid(); }
+ ::protozero::ConstBytes kvm_set_spte_hva() const { return at<388>().as_bytes(); }
+ bool has_kvm_set_way_flush() const { return at<389>().valid(); }
+ ::protozero::ConstBytes kvm_set_way_flush() const { return at<389>().as_bytes(); }
+ bool has_kvm_sys_access() const { return at<390>().valid(); }
+ ::protozero::ConstBytes kvm_sys_access() const { return at<390>().as_bytes(); }
+ bool has_kvm_test_age_hva() const { return at<391>().valid(); }
+ ::protozero::ConstBytes kvm_test_age_hva() const { return at<391>().as_bytes(); }
+ bool has_kvm_timer_emulate() const { return at<392>().valid(); }
+ ::protozero::ConstBytes kvm_timer_emulate() const { return at<392>().as_bytes(); }
+ bool has_kvm_timer_hrtimer_expire() const { return at<393>().valid(); }
+ ::protozero::ConstBytes kvm_timer_hrtimer_expire() const { return at<393>().as_bytes(); }
+ bool has_kvm_timer_restore_state() const { return at<394>().valid(); }
+ ::protozero::ConstBytes kvm_timer_restore_state() const { return at<394>().as_bytes(); }
+ bool has_kvm_timer_save_state() const { return at<395>().valid(); }
+ ::protozero::ConstBytes kvm_timer_save_state() const { return at<395>().as_bytes(); }
+ bool has_kvm_timer_update_irq() const { return at<396>().valid(); }
+ ::protozero::ConstBytes kvm_timer_update_irq() const { return at<396>().as_bytes(); }
+ bool has_kvm_toggle_cache() const { return at<397>().valid(); }
+ ::protozero::ConstBytes kvm_toggle_cache() const { return at<397>().as_bytes(); }
+ bool has_kvm_unmap_hva_range() const { return at<398>().valid(); }
+ ::protozero::ConstBytes kvm_unmap_hva_range() const { return at<398>().as_bytes(); }
+ bool has_kvm_userspace_exit() const { return at<399>().valid(); }
+ ::protozero::ConstBytes kvm_userspace_exit() const { return at<399>().as_bytes(); }
+ bool has_kvm_vcpu_wakeup() const { return at<400>().valid(); }
+ ::protozero::ConstBytes kvm_vcpu_wakeup() const { return at<400>().as_bytes(); }
+ bool has_kvm_wfx_arm64() const { return at<401>().valid(); }
+ ::protozero::ConstBytes kvm_wfx_arm64() const { return at<401>().as_bytes(); }
+ bool has_trap_reg() const { return at<402>().valid(); }
+ ::protozero::ConstBytes trap_reg() const { return at<402>().as_bytes(); }
+ bool has_vgic_update_irq_pending() const { return at<403>().valid(); }
+ ::protozero::ConstBytes vgic_update_irq_pending() const { return at<403>().as_bytes(); }
+ bool has_wakeup_source_activate() const { return at<404>().valid(); }
+ ::protozero::ConstBytes wakeup_source_activate() const { return at<404>().as_bytes(); }
+ bool has_wakeup_source_deactivate() const { return at<405>().valid(); }
+ ::protozero::ConstBytes wakeup_source_deactivate() const { return at<405>().as_bytes(); }
+ bool has_ufshcd_command() const { return at<406>().valid(); }
+ ::protozero::ConstBytes ufshcd_command() const { return at<406>().as_bytes(); }
+ bool has_ufshcd_clk_gating() const { return at<407>().valid(); }
+ ::protozero::ConstBytes ufshcd_clk_gating() const { return at<407>().as_bytes(); }
+ bool has_console() const { return at<408>().valid(); }
+ ::protozero::ConstBytes console() const { return at<408>().as_bytes(); }
+ bool has_drm_vblank_event() const { return at<409>().valid(); }
+ ::protozero::ConstBytes drm_vblank_event() const { return at<409>().as_bytes(); }
+ bool has_drm_vblank_event_delivered() const { return at<410>().valid(); }
+ ::protozero::ConstBytes drm_vblank_event_delivered() const { return at<410>().as_bytes(); }
+ bool has_drm_sched_job() const { return at<411>().valid(); }
+ ::protozero::ConstBytes drm_sched_job() const { return at<411>().as_bytes(); }
+ bool has_drm_run_job() const { return at<412>().valid(); }
+ ::protozero::ConstBytes drm_run_job() const { return at<412>().as_bytes(); }
+ bool has_drm_sched_process_job() const { return at<413>().valid(); }
+ ::protozero::ConstBytes drm_sched_process_job() const { return at<413>().as_bytes(); }
+ bool has_dma_fence_init() const { return at<414>().valid(); }
+ ::protozero::ConstBytes dma_fence_init() const { return at<414>().as_bytes(); }
+ bool has_dma_fence_emit() const { return at<415>().valid(); }
+ ::protozero::ConstBytes dma_fence_emit() const { return at<415>().as_bytes(); }
+ bool has_dma_fence_signaled() const { return at<416>().valid(); }
+ ::protozero::ConstBytes dma_fence_signaled() const { return at<416>().as_bytes(); }
+ bool has_dma_fence_wait_start() const { return at<417>().valid(); }
+ ::protozero::ConstBytes dma_fence_wait_start() const { return at<417>().as_bytes(); }
+ bool has_dma_fence_wait_end() const { return at<418>().valid(); }
+ ::protozero::ConstBytes dma_fence_wait_end() const { return at<418>().as_bytes(); }
+ bool has_f2fs_iostat() const { return at<419>().valid(); }
+ ::protozero::ConstBytes f2fs_iostat() const { return at<419>().as_bytes(); }
+ bool has_f2fs_iostat_latency() const { return at<420>().valid(); }
+ ::protozero::ConstBytes f2fs_iostat_latency() const { return at<420>().as_bytes(); }
+ bool has_sched_cpu_util_cfs() const { return at<421>().valid(); }
+ ::protozero::ConstBytes sched_cpu_util_cfs() const { return at<421>().as_bytes(); }
+ bool has_v4l2_qbuf() const { return at<422>().valid(); }
+ ::protozero::ConstBytes v4l2_qbuf() const { return at<422>().as_bytes(); }
+ bool has_v4l2_dqbuf() const { return at<423>().valid(); }
+ ::protozero::ConstBytes v4l2_dqbuf() const { return at<423>().as_bytes(); }
+ bool has_vb2_v4l2_buf_queue() const { return at<424>().valid(); }
+ ::protozero::ConstBytes vb2_v4l2_buf_queue() const { return at<424>().as_bytes(); }
+ bool has_vb2_v4l2_buf_done() const { return at<425>().valid(); }
+ ::protozero::ConstBytes vb2_v4l2_buf_done() const { return at<425>().as_bytes(); }
+ bool has_vb2_v4l2_qbuf() const { return at<426>().valid(); }
+ ::protozero::ConstBytes vb2_v4l2_qbuf() const { return at<426>().as_bytes(); }
+ bool has_vb2_v4l2_dqbuf() const { return at<427>().valid(); }
+ ::protozero::ConstBytes vb2_v4l2_dqbuf() const { return at<427>().as_bytes(); }
+ bool has_dsi_cmd_fifo_status() const { return at<428>().valid(); }
+ ::protozero::ConstBytes dsi_cmd_fifo_status() const { return at<428>().as_bytes(); }
+ bool has_dsi_rx() const { return at<429>().valid(); }
+ ::protozero::ConstBytes dsi_rx() const { return at<429>().as_bytes(); }
+ bool has_dsi_tx() const { return at<430>().valid(); }
+ ::protozero::ConstBytes dsi_tx() const { return at<430>().as_bytes(); }
+ bool has_android_fs_dataread_end() const { return at<431>().valid(); }
+ ::protozero::ConstBytes android_fs_dataread_end() const { return at<431>().as_bytes(); }
+ bool has_android_fs_dataread_start() const { return at<432>().valid(); }
+ ::protozero::ConstBytes android_fs_dataread_start() const { return at<432>().as_bytes(); }
+ bool has_android_fs_datawrite_end() const { return at<433>().valid(); }
+ ::protozero::ConstBytes android_fs_datawrite_end() const { return at<433>().as_bytes(); }
+ bool has_android_fs_datawrite_start() const { return at<434>().valid(); }
+ ::protozero::ConstBytes android_fs_datawrite_start() const { return at<434>().as_bytes(); }
+ bool has_android_fs_fsync_end() const { return at<435>().valid(); }
+ ::protozero::ConstBytes android_fs_fsync_end() const { return at<435>().as_bytes(); }
+ bool has_android_fs_fsync_start() const { return at<436>().valid(); }
+ ::protozero::ConstBytes android_fs_fsync_start() const { return at<436>().as_bytes(); }
+ bool has_funcgraph_entry() const { return at<437>().valid(); }
+ ::protozero::ConstBytes funcgraph_entry() const { return at<437>().as_bytes(); }
+ bool has_funcgraph_exit() const { return at<438>().valid(); }
+ ::protozero::ConstBytes funcgraph_exit() const { return at<438>().as_bytes(); }
+ bool has_virtio_video_cmd() const { return at<439>().valid(); }
+ ::protozero::ConstBytes virtio_video_cmd() const { return at<439>().as_bytes(); }
+ bool has_virtio_video_cmd_done() const { return at<440>().valid(); }
+ ::protozero::ConstBytes virtio_video_cmd_done() const { return at<440>().as_bytes(); }
+ bool has_virtio_video_resource_queue() const { return at<441>().valid(); }
+ ::protozero::ConstBytes virtio_video_resource_queue() const { return at<441>().as_bytes(); }
+ bool has_virtio_video_resource_queue_done() const { return at<442>().valid(); }
+ ::protozero::ConstBytes virtio_video_resource_queue_done() const { return at<442>().as_bytes(); }
+ bool has_mm_shrink_slab_start() const { return at<443>().valid(); }
+ ::protozero::ConstBytes mm_shrink_slab_start() const { return at<443>().as_bytes(); }
+ bool has_mm_shrink_slab_end() const { return at<444>().valid(); }
+ ::protozero::ConstBytes mm_shrink_slab_end() const { return at<444>().as_bytes(); }
+ bool has_trusty_smc() const { return at<445>().valid(); }
+ ::protozero::ConstBytes trusty_smc() const { return at<445>().as_bytes(); }
+ bool has_trusty_smc_done() const { return at<446>().valid(); }
+ ::protozero::ConstBytes trusty_smc_done() const { return at<446>().as_bytes(); }
+ bool has_trusty_std_call32() const { return at<447>().valid(); }
+ ::protozero::ConstBytes trusty_std_call32() const { return at<447>().as_bytes(); }
+ bool has_trusty_std_call32_done() const { return at<448>().valid(); }
+ ::protozero::ConstBytes trusty_std_call32_done() const { return at<448>().as_bytes(); }
+ bool has_trusty_share_memory() const { return at<449>().valid(); }
+ ::protozero::ConstBytes trusty_share_memory() const { return at<449>().as_bytes(); }
+ bool has_trusty_share_memory_done() const { return at<450>().valid(); }
+ ::protozero::ConstBytes trusty_share_memory_done() const { return at<450>().as_bytes(); }
+ bool has_trusty_reclaim_memory() const { return at<451>().valid(); }
+ ::protozero::ConstBytes trusty_reclaim_memory() const { return at<451>().as_bytes(); }
+ bool has_trusty_reclaim_memory_done() const { return at<452>().valid(); }
+ ::protozero::ConstBytes trusty_reclaim_memory_done() const { return at<452>().as_bytes(); }
+ bool has_trusty_irq() const { return at<453>().valid(); }
+ ::protozero::ConstBytes trusty_irq() const { return at<453>().as_bytes(); }
+ bool has_trusty_ipc_handle_event() const { return at<454>().valid(); }
+ ::protozero::ConstBytes trusty_ipc_handle_event() const { return at<454>().as_bytes(); }
+ bool has_trusty_ipc_connect() const { return at<455>().valid(); }
+ ::protozero::ConstBytes trusty_ipc_connect() const { return at<455>().as_bytes(); }
+ bool has_trusty_ipc_connect_end() const { return at<456>().valid(); }
+ ::protozero::ConstBytes trusty_ipc_connect_end() const { return at<456>().as_bytes(); }
+ bool has_trusty_ipc_write() const { return at<457>().valid(); }
+ ::protozero::ConstBytes trusty_ipc_write() const { return at<457>().as_bytes(); }
+ bool has_trusty_ipc_poll() const { return at<458>().valid(); }
+ ::protozero::ConstBytes trusty_ipc_poll() const { return at<458>().as_bytes(); }
+ bool has_trusty_ipc_read() const { return at<460>().valid(); }
+ ::protozero::ConstBytes trusty_ipc_read() const { return at<460>().as_bytes(); }
+ bool has_trusty_ipc_read_end() const { return at<461>().valid(); }
+ ::protozero::ConstBytes trusty_ipc_read_end() const { return at<461>().as_bytes(); }
+ bool has_trusty_ipc_rx() const { return at<462>().valid(); }
+ ::protozero::ConstBytes trusty_ipc_rx() const { return at<462>().as_bytes(); }
+ bool has_trusty_enqueue_nop() const { return at<464>().valid(); }
+ ::protozero::ConstBytes trusty_enqueue_nop() const { return at<464>().as_bytes(); }
+ bool has_cma_alloc_start() const { return at<465>().valid(); }
+ ::protozero::ConstBytes cma_alloc_start() const { return at<465>().as_bytes(); }
+ bool has_cma_alloc_info() const { return at<466>().valid(); }
+ ::protozero::ConstBytes cma_alloc_info() const { return at<466>().as_bytes(); }
+ bool has_lwis_tracing_mark_write() const { return at<467>().valid(); }
+ ::protozero::ConstBytes lwis_tracing_mark_write() const { return at<467>().as_bytes(); }
+ bool has_virtio_gpu_cmd_queue() const { return at<468>().valid(); }
+ ::protozero::ConstBytes virtio_gpu_cmd_queue() const { return at<468>().as_bytes(); }
+ bool has_virtio_gpu_cmd_response() const { return at<469>().valid(); }
+ ::protozero::ConstBytes virtio_gpu_cmd_response() const { return at<469>().as_bytes(); }
+ bool has_mali_mali_kcpu_cqs_set() const { return at<470>().valid(); }
+ ::protozero::ConstBytes mali_mali_kcpu_cqs_set() const { return at<470>().as_bytes(); }
+ bool has_mali_mali_kcpu_cqs_wait_start() const { return at<471>().valid(); }
+ ::protozero::ConstBytes mali_mali_kcpu_cqs_wait_start() const { return at<471>().as_bytes(); }
+ bool has_mali_mali_kcpu_cqs_wait_end() const { return at<472>().valid(); }
+ ::protozero::ConstBytes mali_mali_kcpu_cqs_wait_end() const { return at<472>().as_bytes(); }
+ bool has_mali_mali_kcpu_fence_signal() const { return at<473>().valid(); }
+ ::protozero::ConstBytes mali_mali_kcpu_fence_signal() const { return at<473>().as_bytes(); }
+ bool has_mali_mali_kcpu_fence_wait_start() const { return at<474>().valid(); }
+ ::protozero::ConstBytes mali_mali_kcpu_fence_wait_start() const { return at<474>().as_bytes(); }
+ bool has_mali_mali_kcpu_fence_wait_end() const { return at<475>().valid(); }
+ ::protozero::ConstBytes mali_mali_kcpu_fence_wait_end() const { return at<475>().as_bytes(); }
+ bool has_hyp_enter() const { return at<476>().valid(); }
+ ::protozero::ConstBytes hyp_enter() const { return at<476>().as_bytes(); }
+ bool has_hyp_exit() const { return at<477>().valid(); }
+ ::protozero::ConstBytes hyp_exit() const { return at<477>().as_bytes(); }
+ bool has_host_hcall() const { return at<478>().valid(); }
+ ::protozero::ConstBytes host_hcall() const { return at<478>().as_bytes(); }
+ bool has_host_smc() const { return at<479>().valid(); }
+ ::protozero::ConstBytes host_smc() const { return at<479>().as_bytes(); }
+ bool has_host_mem_abort() const { return at<480>().valid(); }
+ ::protozero::ConstBytes host_mem_abort() const { return at<480>().as_bytes(); }
+ bool has_suspend_resume_minimal() const { return at<481>().valid(); }
+ ::protozero::ConstBytes suspend_resume_minimal() const { return at<481>().as_bytes(); }
+ bool has_mali_mali_csf_interrupt_start() const { return at<482>().valid(); }
+ ::protozero::ConstBytes mali_mali_csf_interrupt_start() const { return at<482>().as_bytes(); }
+ bool has_mali_mali_csf_interrupt_end() const { return at<483>().valid(); }
+ ::protozero::ConstBytes mali_mali_csf_interrupt_end() const { return at<483>().as_bytes(); }
+ bool has_samsung_tracing_mark_write() const { return at<484>().valid(); }
+ ::protozero::ConstBytes samsung_tracing_mark_write() const { return at<484>().as_bytes(); }
+ bool has_binder_command() const { return at<485>().valid(); }
+ ::protozero::ConstBytes binder_command() const { return at<485>().as_bytes(); }
+ bool has_binder_return() const { return at<486>().valid(); }
+ ::protozero::ConstBytes binder_return() const { return at<486>().as_bytes(); }
+ bool has_sched_switch_with_ctrs() const { return at<487>().valid(); }
+ ::protozero::ConstBytes sched_switch_with_ctrs() const { return at<487>().as_bytes(); }
+ bool has_gpu_work_period() const { return at<488>().valid(); }
+ ::protozero::ConstBytes gpu_work_period() const { return at<488>().as_bytes(); }
+ bool has_rpm_status() const { return at<489>().valid(); }
+ ::protozero::ConstBytes rpm_status() const { return at<489>().as_bytes(); }
+ bool has_panel_write_generic() const { return at<490>().valid(); }
+ ::protozero::ConstBytes panel_write_generic() const { return at<490>().as_bytes(); }
+ bool has_sched_migrate_task() const { return at<491>().valid(); }
+ ::protozero::ConstBytes sched_migrate_task() const { return at<491>().as_bytes(); }
+ bool has_dpu_dsi_cmd_fifo_status() const { return at<492>().valid(); }
+ ::protozero::ConstBytes dpu_dsi_cmd_fifo_status() const { return at<492>().as_bytes(); }
+ bool has_dpu_dsi_rx() const { return at<493>().valid(); }
+ ::protozero::ConstBytes dpu_dsi_rx() const { return at<493>().as_bytes(); }
+ bool has_dpu_dsi_tx() const { return at<494>().valid(); }
+ ::protozero::ConstBytes dpu_dsi_tx() const { return at<494>().as_bytes(); }
+ bool has_f2fs_background_gc() const { return at<495>().valid(); }
+ ::protozero::ConstBytes f2fs_background_gc() const { return at<495>().as_bytes(); }
+ bool has_f2fs_gc_begin() const { return at<496>().valid(); }
+ ::protozero::ConstBytes f2fs_gc_begin() const { return at<496>().as_bytes(); }
+ bool has_f2fs_gc_end() const { return at<497>().valid(); }
+ ::protozero::ConstBytes f2fs_gc_end() const { return at<497>().as_bytes(); }
+};
+
+class FtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = FtraceEvent_Decoder;
+ enum : int32_t {
+ kTimestampFieldNumber = 1,
+ kPidFieldNumber = 2,
+ kCommonFlagsFieldNumber = 5,
+ kPrintFieldNumber = 3,
+ kSchedSwitchFieldNumber = 4,
+ kCpuFrequencyFieldNumber = 11,
+ kCpuFrequencyLimitsFieldNumber = 12,
+ kCpuIdleFieldNumber = 13,
+ kClockEnableFieldNumber = 14,
+ kClockDisableFieldNumber = 15,
+ kClockSetRateFieldNumber = 16,
+ kSchedWakeupFieldNumber = 17,
+ kSchedBlockedReasonFieldNumber = 18,
+ kSchedCpuHotplugFieldNumber = 19,
+ kSchedWakingFieldNumber = 20,
+ kIpiEntryFieldNumber = 21,
+ kIpiExitFieldNumber = 22,
+ kIpiRaiseFieldNumber = 23,
+ kSoftirqEntryFieldNumber = 24,
+ kSoftirqExitFieldNumber = 25,
+ kSoftirqRaiseFieldNumber = 26,
+ kI2cReadFieldNumber = 27,
+ kI2cWriteFieldNumber = 28,
+ kI2cResultFieldNumber = 29,
+ kI2cReplyFieldNumber = 30,
+ kSmbusReadFieldNumber = 31,
+ kSmbusWriteFieldNumber = 32,
+ kSmbusResultFieldNumber = 33,
+ kSmbusReplyFieldNumber = 34,
+ kLowmemoryKillFieldNumber = 35,
+ kIrqHandlerEntryFieldNumber = 36,
+ kIrqHandlerExitFieldNumber = 37,
+ kSyncPtFieldNumber = 38,
+ kSyncTimelineFieldNumber = 39,
+ kSyncWaitFieldNumber = 40,
+ kExt4DaWriteBeginFieldNumber = 41,
+ kExt4DaWriteEndFieldNumber = 42,
+ kExt4SyncFileEnterFieldNumber = 43,
+ kExt4SyncFileExitFieldNumber = 44,
+ kBlockRqIssueFieldNumber = 45,
+ kMmVmscanDirectReclaimBeginFieldNumber = 46,
+ kMmVmscanDirectReclaimEndFieldNumber = 47,
+ kMmVmscanKswapdWakeFieldNumber = 48,
+ kMmVmscanKswapdSleepFieldNumber = 49,
+ kBinderTransactionFieldNumber = 50,
+ kBinderTransactionReceivedFieldNumber = 51,
+ kBinderSetPriorityFieldNumber = 52,
+ kBinderLockFieldNumber = 53,
+ kBinderLockedFieldNumber = 54,
+ kBinderUnlockFieldNumber = 55,
+ kWorkqueueActivateWorkFieldNumber = 56,
+ kWorkqueueExecuteEndFieldNumber = 57,
+ kWorkqueueExecuteStartFieldNumber = 58,
+ kWorkqueueQueueWorkFieldNumber = 59,
+ kRegulatorDisableFieldNumber = 60,
+ kRegulatorDisableCompleteFieldNumber = 61,
+ kRegulatorEnableFieldNumber = 62,
+ kRegulatorEnableCompleteFieldNumber = 63,
+ kRegulatorEnableDelayFieldNumber = 64,
+ kRegulatorSetVoltageFieldNumber = 65,
+ kRegulatorSetVoltageCompleteFieldNumber = 66,
+ kCgroupAttachTaskFieldNumber = 67,
+ kCgroupMkdirFieldNumber = 68,
+ kCgroupRemountFieldNumber = 69,
+ kCgroupRmdirFieldNumber = 70,
+ kCgroupTransferTasksFieldNumber = 71,
+ kCgroupDestroyRootFieldNumber = 72,
+ kCgroupReleaseFieldNumber = 73,
+ kCgroupRenameFieldNumber = 74,
+ kCgroupSetupRootFieldNumber = 75,
+ kMdpCmdKickoffFieldNumber = 76,
+ kMdpCommitFieldNumber = 77,
+ kMdpPerfSetOtFieldNumber = 78,
+ kMdpSsppChangeFieldNumber = 79,
+ kTracingMarkWriteFieldNumber = 80,
+ kMdpCmdPingpongDoneFieldNumber = 81,
+ kMdpCompareBwFieldNumber = 82,
+ kMdpPerfSetPanicLutsFieldNumber = 83,
+ kMdpSsppSetFieldNumber = 84,
+ kMdpCmdReadptrDoneFieldNumber = 85,
+ kMdpMisrCrcFieldNumber = 86,
+ kMdpPerfSetQosLutsFieldNumber = 87,
+ kMdpTraceCounterFieldNumber = 88,
+ kMdpCmdReleaseBwFieldNumber = 89,
+ kMdpMixerUpdateFieldNumber = 90,
+ kMdpPerfSetWmLevelsFieldNumber = 91,
+ kMdpVideoUnderrunDoneFieldNumber = 92,
+ kMdpCmdWaitPingpongFieldNumber = 93,
+ kMdpPerfPrefillCalcFieldNumber = 94,
+ kMdpPerfUpdateBusFieldNumber = 95,
+ kRotatorBwAoAsContextFieldNumber = 96,
+ kMmFilemapAddToPageCacheFieldNumber = 97,
+ kMmFilemapDeleteFromPageCacheFieldNumber = 98,
+ kMmCompactionBeginFieldNumber = 99,
+ kMmCompactionDeferCompactionFieldNumber = 100,
+ kMmCompactionDeferredFieldNumber = 101,
+ kMmCompactionDeferResetFieldNumber = 102,
+ kMmCompactionEndFieldNumber = 103,
+ kMmCompactionFinishedFieldNumber = 104,
+ kMmCompactionIsolateFreepagesFieldNumber = 105,
+ kMmCompactionIsolateMigratepagesFieldNumber = 106,
+ kMmCompactionKcompactdSleepFieldNumber = 107,
+ kMmCompactionKcompactdWakeFieldNumber = 108,
+ kMmCompactionMigratepagesFieldNumber = 109,
+ kMmCompactionSuitableFieldNumber = 110,
+ kMmCompactionTryToCompactPagesFieldNumber = 111,
+ kMmCompactionWakeupKcompactdFieldNumber = 112,
+ kSuspendResumeFieldNumber = 113,
+ kSchedWakeupNewFieldNumber = 114,
+ kBlockBioBackmergeFieldNumber = 115,
+ kBlockBioBounceFieldNumber = 116,
+ kBlockBioCompleteFieldNumber = 117,
+ kBlockBioFrontmergeFieldNumber = 118,
+ kBlockBioQueueFieldNumber = 119,
+ kBlockBioRemapFieldNumber = 120,
+ kBlockDirtyBufferFieldNumber = 121,
+ kBlockGetrqFieldNumber = 122,
+ kBlockPlugFieldNumber = 123,
+ kBlockRqAbortFieldNumber = 124,
+ kBlockRqCompleteFieldNumber = 125,
+ kBlockRqInsertFieldNumber = 126,
+ kBlockRqRemapFieldNumber = 128,
+ kBlockRqRequeueFieldNumber = 129,
+ kBlockSleeprqFieldNumber = 130,
+ kBlockSplitFieldNumber = 131,
+ kBlockTouchBufferFieldNumber = 132,
+ kBlockUnplugFieldNumber = 133,
+ kExt4AllocDaBlocksFieldNumber = 134,
+ kExt4AllocateBlocksFieldNumber = 135,
+ kExt4AllocateInodeFieldNumber = 136,
+ kExt4BeginOrderedTruncateFieldNumber = 137,
+ kExt4CollapseRangeFieldNumber = 138,
+ kExt4DaReleaseSpaceFieldNumber = 139,
+ kExt4DaReserveSpaceFieldNumber = 140,
+ kExt4DaUpdateReserveSpaceFieldNumber = 141,
+ kExt4DaWritePagesFieldNumber = 142,
+ kExt4DaWritePagesExtentFieldNumber = 143,
+ kExt4DirectIOEnterFieldNumber = 144,
+ kExt4DirectIOExitFieldNumber = 145,
+ kExt4DiscardBlocksFieldNumber = 146,
+ kExt4DiscardPreallocationsFieldNumber = 147,
+ kExt4DropInodeFieldNumber = 148,
+ kExt4EsCacheExtentFieldNumber = 149,
+ kExt4EsFindDelayedExtentRangeEnterFieldNumber = 150,
+ kExt4EsFindDelayedExtentRangeExitFieldNumber = 151,
+ kExt4EsInsertExtentFieldNumber = 152,
+ kExt4EsLookupExtentEnterFieldNumber = 153,
+ kExt4EsLookupExtentExitFieldNumber = 154,
+ kExt4EsRemoveExtentFieldNumber = 155,
+ kExt4EsShrinkFieldNumber = 156,
+ kExt4EsShrinkCountFieldNumber = 157,
+ kExt4EsShrinkScanEnterFieldNumber = 158,
+ kExt4EsShrinkScanExitFieldNumber = 159,
+ kExt4EvictInodeFieldNumber = 160,
+ kExt4ExtConvertToInitializedEnterFieldNumber = 161,
+ kExt4ExtConvertToInitializedFastpathFieldNumber = 162,
+ kExt4ExtHandleUnwrittenExtentsFieldNumber = 163,
+ kExt4ExtInCacheFieldNumber = 164,
+ kExt4ExtLoadExtentFieldNumber = 165,
+ kExt4ExtMapBlocksEnterFieldNumber = 166,
+ kExt4ExtMapBlocksExitFieldNumber = 167,
+ kExt4ExtPutInCacheFieldNumber = 168,
+ kExt4ExtRemoveSpaceFieldNumber = 169,
+ kExt4ExtRemoveSpaceDoneFieldNumber = 170,
+ kExt4ExtRmIdxFieldNumber = 171,
+ kExt4ExtRmLeafFieldNumber = 172,
+ kExt4ExtShowExtentFieldNumber = 173,
+ kExt4FallocateEnterFieldNumber = 174,
+ kExt4FallocateExitFieldNumber = 175,
+ kExt4FindDelallocRangeFieldNumber = 176,
+ kExt4ForgetFieldNumber = 177,
+ kExt4FreeBlocksFieldNumber = 178,
+ kExt4FreeInodeFieldNumber = 179,
+ kExt4GetImpliedClusterAllocExitFieldNumber = 180,
+ kExt4GetReservedClusterAllocFieldNumber = 181,
+ kExt4IndMapBlocksEnterFieldNumber = 182,
+ kExt4IndMapBlocksExitFieldNumber = 183,
+ kExt4InsertRangeFieldNumber = 184,
+ kExt4InvalidatepageFieldNumber = 185,
+ kExt4JournalStartFieldNumber = 186,
+ kExt4JournalStartReservedFieldNumber = 187,
+ kExt4JournalledInvalidatepageFieldNumber = 188,
+ kExt4JournalledWriteEndFieldNumber = 189,
+ kExt4LoadInodeFieldNumber = 190,
+ kExt4LoadInodeBitmapFieldNumber = 191,
+ kExt4MarkInodeDirtyFieldNumber = 192,
+ kExt4MbBitmapLoadFieldNumber = 193,
+ kExt4MbBuddyBitmapLoadFieldNumber = 194,
+ kExt4MbDiscardPreallocationsFieldNumber = 195,
+ kExt4MbNewGroupPaFieldNumber = 196,
+ kExt4MbNewInodePaFieldNumber = 197,
+ kExt4MbReleaseGroupPaFieldNumber = 198,
+ kExt4MbReleaseInodePaFieldNumber = 199,
+ kExt4MballocAllocFieldNumber = 200,
+ kExt4MballocDiscardFieldNumber = 201,
+ kExt4MballocFreeFieldNumber = 202,
+ kExt4MballocPreallocFieldNumber = 203,
+ kExt4OtherInodeUpdateTimeFieldNumber = 204,
+ kExt4PunchHoleFieldNumber = 205,
+ kExt4ReadBlockBitmapLoadFieldNumber = 206,
+ kExt4ReadpageFieldNumber = 207,
+ kExt4ReleasepageFieldNumber = 208,
+ kExt4RemoveBlocksFieldNumber = 209,
+ kExt4RequestBlocksFieldNumber = 210,
+ kExt4RequestInodeFieldNumber = 211,
+ kExt4SyncFsFieldNumber = 212,
+ kExt4TrimAllFreeFieldNumber = 213,
+ kExt4TrimExtentFieldNumber = 214,
+ kExt4TruncateEnterFieldNumber = 215,
+ kExt4TruncateExitFieldNumber = 216,
+ kExt4UnlinkEnterFieldNumber = 217,
+ kExt4UnlinkExitFieldNumber = 218,
+ kExt4WriteBeginFieldNumber = 219,
+ kExt4WriteEndFieldNumber = 230,
+ kExt4WritepageFieldNumber = 231,
+ kExt4WritepagesFieldNumber = 232,
+ kExt4WritepagesResultFieldNumber = 233,
+ kExt4ZeroRangeFieldNumber = 234,
+ kTaskNewtaskFieldNumber = 235,
+ kTaskRenameFieldNumber = 236,
+ kSchedProcessExecFieldNumber = 237,
+ kSchedProcessExitFieldNumber = 238,
+ kSchedProcessForkFieldNumber = 239,
+ kSchedProcessFreeFieldNumber = 240,
+ kSchedProcessHangFieldNumber = 241,
+ kSchedProcessWaitFieldNumber = 242,
+ kF2fsDoSubmitBioFieldNumber = 243,
+ kF2fsEvictInodeFieldNumber = 244,
+ kF2fsFallocateFieldNumber = 245,
+ kF2fsGetDataBlockFieldNumber = 246,
+ kF2fsGetVictimFieldNumber = 247,
+ kF2fsIgetFieldNumber = 248,
+ kF2fsIgetExitFieldNumber = 249,
+ kF2fsNewInodeFieldNumber = 250,
+ kF2fsReadpageFieldNumber = 251,
+ kF2fsReserveNewBlockFieldNumber = 252,
+ kF2fsSetPageDirtyFieldNumber = 253,
+ kF2fsSubmitWritePageFieldNumber = 254,
+ kF2fsSyncFileEnterFieldNumber = 255,
+ kF2fsSyncFileExitFieldNumber = 256,
+ kF2fsSyncFsFieldNumber = 257,
+ kF2fsTruncateFieldNumber = 258,
+ kF2fsTruncateBlocksEnterFieldNumber = 259,
+ kF2fsTruncateBlocksExitFieldNumber = 260,
+ kF2fsTruncateDataBlocksRangeFieldNumber = 261,
+ kF2fsTruncateInodeBlocksEnterFieldNumber = 262,
+ kF2fsTruncateInodeBlocksExitFieldNumber = 263,
+ kF2fsTruncateNodeFieldNumber = 264,
+ kF2fsTruncateNodesEnterFieldNumber = 265,
+ kF2fsTruncateNodesExitFieldNumber = 266,
+ kF2fsTruncatePartialNodesFieldNumber = 267,
+ kF2fsUnlinkEnterFieldNumber = 268,
+ kF2fsUnlinkExitFieldNumber = 269,
+ kF2fsVmPageMkwriteFieldNumber = 270,
+ kF2fsWriteBeginFieldNumber = 271,
+ kF2fsWriteCheckpointFieldNumber = 272,
+ kF2fsWriteEndFieldNumber = 273,
+ kAllocPagesIommuEndFieldNumber = 274,
+ kAllocPagesIommuFailFieldNumber = 275,
+ kAllocPagesIommuStartFieldNumber = 276,
+ kAllocPagesSysEndFieldNumber = 277,
+ kAllocPagesSysFailFieldNumber = 278,
+ kAllocPagesSysStartFieldNumber = 279,
+ kDmaAllocContiguousRetryFieldNumber = 280,
+ kIommuMapRangeFieldNumber = 281,
+ kIommuSecPtblMapRangeEndFieldNumber = 282,
+ kIommuSecPtblMapRangeStartFieldNumber = 283,
+ kIonAllocBufferEndFieldNumber = 284,
+ kIonAllocBufferFailFieldNumber = 285,
+ kIonAllocBufferFallbackFieldNumber = 286,
+ kIonAllocBufferStartFieldNumber = 287,
+ kIonCpAllocRetryFieldNumber = 288,
+ kIonCpSecureBufferEndFieldNumber = 289,
+ kIonCpSecureBufferStartFieldNumber = 290,
+ kIonPrefetchingFieldNumber = 291,
+ kIonSecureCmaAddToPoolEndFieldNumber = 292,
+ kIonSecureCmaAddToPoolStartFieldNumber = 293,
+ kIonSecureCmaAllocateEndFieldNumber = 294,
+ kIonSecureCmaAllocateStartFieldNumber = 295,
+ kIonSecureCmaShrinkPoolEndFieldNumber = 296,
+ kIonSecureCmaShrinkPoolStartFieldNumber = 297,
+ kKfreeFieldNumber = 298,
+ kKmallocFieldNumber = 299,
+ kKmallocNodeFieldNumber = 300,
+ kKmemCacheAllocFieldNumber = 301,
+ kKmemCacheAllocNodeFieldNumber = 302,
+ kKmemCacheFreeFieldNumber = 303,
+ kMigratePagesEndFieldNumber = 304,
+ kMigratePagesStartFieldNumber = 305,
+ kMigrateRetryFieldNumber = 306,
+ kMmPageAllocFieldNumber = 307,
+ kMmPageAllocExtfragFieldNumber = 308,
+ kMmPageAllocZoneLockedFieldNumber = 309,
+ kMmPageFreeFieldNumber = 310,
+ kMmPageFreeBatchedFieldNumber = 311,
+ kMmPagePcpuDrainFieldNumber = 312,
+ kRssStatFieldNumber = 313,
+ kIonHeapShrinkFieldNumber = 314,
+ kIonHeapGrowFieldNumber = 315,
+ kFenceInitFieldNumber = 316,
+ kFenceDestroyFieldNumber = 317,
+ kFenceEnableSignalFieldNumber = 318,
+ kFenceSignaledFieldNumber = 319,
+ kClkEnableFieldNumber = 320,
+ kClkDisableFieldNumber = 321,
+ kClkSetRateFieldNumber = 322,
+ kBinderTransactionAllocBufFieldNumber = 323,
+ kSignalDeliverFieldNumber = 324,
+ kSignalGenerateFieldNumber = 325,
+ kOomScoreAdjUpdateFieldNumber = 326,
+ kGenericFieldNumber = 327,
+ kMmEventRecordFieldNumber = 328,
+ kSysEnterFieldNumber = 329,
+ kSysExitFieldNumber = 330,
+ kZeroFieldNumber = 331,
+ kGpuFrequencyFieldNumber = 332,
+ kSdeTracingMarkWriteFieldNumber = 333,
+ kMarkVictimFieldNumber = 334,
+ kIonStatFieldNumber = 335,
+ kIonBufferCreateFieldNumber = 336,
+ kIonBufferDestroyFieldNumber = 337,
+ kScmCallStartFieldNumber = 338,
+ kScmCallEndFieldNumber = 339,
+ kGpuMemTotalFieldNumber = 340,
+ kThermalTemperatureFieldNumber = 341,
+ kCdevUpdateFieldNumber = 342,
+ kCpuhpExitFieldNumber = 343,
+ kCpuhpMultiEnterFieldNumber = 344,
+ kCpuhpEnterFieldNumber = 345,
+ kCpuhpLatencyFieldNumber = 346,
+ kFastrpcDmaStatFieldNumber = 347,
+ kDpuTracingMarkWriteFieldNumber = 348,
+ kG2dTracingMarkWriteFieldNumber = 349,
+ kMaliTracingMarkWriteFieldNumber = 350,
+ kDmaHeapStatFieldNumber = 351,
+ kCpuhpPauseFieldNumber = 352,
+ kSchedPiSetprioFieldNumber = 353,
+ kSdeSdeEvtlogFieldNumber = 354,
+ kSdeSdePerfCalcCrtcFieldNumber = 355,
+ kSdeSdePerfCrtcUpdateFieldNumber = 356,
+ kSdeSdePerfSetQosLutsFieldNumber = 357,
+ kSdeSdePerfUpdateBusFieldNumber = 358,
+ kRssStatThrottledFieldNumber = 359,
+ kNetifReceiveSkbFieldNumber = 360,
+ kNetDevXmitFieldNumber = 361,
+ kInetSockSetStateFieldNumber = 362,
+ kTcpRetransmitSkbFieldNumber = 363,
+ kCrosEcSensorhubDataFieldNumber = 364,
+ kNapiGroReceiveEntryFieldNumber = 365,
+ kNapiGroReceiveExitFieldNumber = 366,
+ kKfreeSkbFieldNumber = 367,
+ kKvmAccessFaultFieldNumber = 368,
+ kKvmAckIrqFieldNumber = 369,
+ kKvmAgeHvaFieldNumber = 370,
+ kKvmAgePageFieldNumber = 371,
+ kKvmArmClearDebugFieldNumber = 372,
+ kKvmArmSetDreg32FieldNumber = 373,
+ kKvmArmSetRegsetFieldNumber = 374,
+ kKvmArmSetupDebugFieldNumber = 375,
+ kKvmEntryFieldNumber = 376,
+ kKvmExitFieldNumber = 377,
+ kKvmFpuFieldNumber = 378,
+ kKvmGetTimerMapFieldNumber = 379,
+ kKvmGuestFaultFieldNumber = 380,
+ kKvmHandleSysRegFieldNumber = 381,
+ kKvmHvcArm64FieldNumber = 382,
+ kKvmIrqLineFieldNumber = 383,
+ kKvmMmioFieldNumber = 384,
+ kKvmMmioEmulateFieldNumber = 385,
+ kKvmSetGuestDebugFieldNumber = 386,
+ kKvmSetIrqFieldNumber = 387,
+ kKvmSetSpteHvaFieldNumber = 388,
+ kKvmSetWayFlushFieldNumber = 389,
+ kKvmSysAccessFieldNumber = 390,
+ kKvmTestAgeHvaFieldNumber = 391,
+ kKvmTimerEmulateFieldNumber = 392,
+ kKvmTimerHrtimerExpireFieldNumber = 393,
+ kKvmTimerRestoreStateFieldNumber = 394,
+ kKvmTimerSaveStateFieldNumber = 395,
+ kKvmTimerUpdateIrqFieldNumber = 396,
+ kKvmToggleCacheFieldNumber = 397,
+ kKvmUnmapHvaRangeFieldNumber = 398,
+ kKvmUserspaceExitFieldNumber = 399,
+ kKvmVcpuWakeupFieldNumber = 400,
+ kKvmWfxArm64FieldNumber = 401,
+ kTrapRegFieldNumber = 402,
+ kVgicUpdateIrqPendingFieldNumber = 403,
+ kWakeupSourceActivateFieldNumber = 404,
+ kWakeupSourceDeactivateFieldNumber = 405,
+ kUfshcdCommandFieldNumber = 406,
+ kUfshcdClkGatingFieldNumber = 407,
+ kConsoleFieldNumber = 408,
+ kDrmVblankEventFieldNumber = 409,
+ kDrmVblankEventDeliveredFieldNumber = 410,
+ kDrmSchedJobFieldNumber = 411,
+ kDrmRunJobFieldNumber = 412,
+ kDrmSchedProcessJobFieldNumber = 413,
+ kDmaFenceInitFieldNumber = 414,
+ kDmaFenceEmitFieldNumber = 415,
+ kDmaFenceSignaledFieldNumber = 416,
+ kDmaFenceWaitStartFieldNumber = 417,
+ kDmaFenceWaitEndFieldNumber = 418,
+ kF2fsIostatFieldNumber = 419,
+ kF2fsIostatLatencyFieldNumber = 420,
+ kSchedCpuUtilCfsFieldNumber = 421,
+ kV4l2QbufFieldNumber = 422,
+ kV4l2DqbufFieldNumber = 423,
+ kVb2V4l2BufQueueFieldNumber = 424,
+ kVb2V4l2BufDoneFieldNumber = 425,
+ kVb2V4l2QbufFieldNumber = 426,
+ kVb2V4l2DqbufFieldNumber = 427,
+ kDsiCmdFifoStatusFieldNumber = 428,
+ kDsiRxFieldNumber = 429,
+ kDsiTxFieldNumber = 430,
+ kAndroidFsDatareadEndFieldNumber = 431,
+ kAndroidFsDatareadStartFieldNumber = 432,
+ kAndroidFsDatawriteEndFieldNumber = 433,
+ kAndroidFsDatawriteStartFieldNumber = 434,
+ kAndroidFsFsyncEndFieldNumber = 435,
+ kAndroidFsFsyncStartFieldNumber = 436,
+ kFuncgraphEntryFieldNumber = 437,
+ kFuncgraphExitFieldNumber = 438,
+ kVirtioVideoCmdFieldNumber = 439,
+ kVirtioVideoCmdDoneFieldNumber = 440,
+ kVirtioVideoResourceQueueFieldNumber = 441,
+ kVirtioVideoResourceQueueDoneFieldNumber = 442,
+ kMmShrinkSlabStartFieldNumber = 443,
+ kMmShrinkSlabEndFieldNumber = 444,
+ kTrustySmcFieldNumber = 445,
+ kTrustySmcDoneFieldNumber = 446,
+ kTrustyStdCall32FieldNumber = 447,
+ kTrustyStdCall32DoneFieldNumber = 448,
+ kTrustyShareMemoryFieldNumber = 449,
+ kTrustyShareMemoryDoneFieldNumber = 450,
+ kTrustyReclaimMemoryFieldNumber = 451,
+ kTrustyReclaimMemoryDoneFieldNumber = 452,
+ kTrustyIrqFieldNumber = 453,
+ kTrustyIpcHandleEventFieldNumber = 454,
+ kTrustyIpcConnectFieldNumber = 455,
+ kTrustyIpcConnectEndFieldNumber = 456,
+ kTrustyIpcWriteFieldNumber = 457,
+ kTrustyIpcPollFieldNumber = 458,
+ kTrustyIpcReadFieldNumber = 460,
+ kTrustyIpcReadEndFieldNumber = 461,
+ kTrustyIpcRxFieldNumber = 462,
+ kTrustyEnqueueNopFieldNumber = 464,
+ kCmaAllocStartFieldNumber = 465,
+ kCmaAllocInfoFieldNumber = 466,
+ kLwisTracingMarkWriteFieldNumber = 467,
+ kVirtioGpuCmdQueueFieldNumber = 468,
+ kVirtioGpuCmdResponseFieldNumber = 469,
+ kMaliMaliKCPUCQSSETFieldNumber = 470,
+ kMaliMaliKCPUCQSWAITSTARTFieldNumber = 471,
+ kMaliMaliKCPUCQSWAITENDFieldNumber = 472,
+ kMaliMaliKCPUFENCESIGNALFieldNumber = 473,
+ kMaliMaliKCPUFENCEWAITSTARTFieldNumber = 474,
+ kMaliMaliKCPUFENCEWAITENDFieldNumber = 475,
+ kHypEnterFieldNumber = 476,
+ kHypExitFieldNumber = 477,
+ kHostHcallFieldNumber = 478,
+ kHostSmcFieldNumber = 479,
+ kHostMemAbortFieldNumber = 480,
+ kSuspendResumeMinimalFieldNumber = 481,
+ kMaliMaliCSFINTERRUPTSTARTFieldNumber = 482,
+ kMaliMaliCSFINTERRUPTENDFieldNumber = 483,
+ kSamsungTracingMarkWriteFieldNumber = 484,
+ kBinderCommandFieldNumber = 485,
+ kBinderReturnFieldNumber = 486,
+ kSchedSwitchWithCtrsFieldNumber = 487,
+ kGpuWorkPeriodFieldNumber = 488,
+ kRpmStatusFieldNumber = 489,
+ kPanelWriteGenericFieldNumber = 490,
+ kSchedMigrateTaskFieldNumber = 491,
+ kDpuDsiCmdFifoStatusFieldNumber = 492,
+ kDpuDsiRxFieldNumber = 493,
+ kDpuDsiTxFieldNumber = 494,
+ kF2fsBackgroundGcFieldNumber = 495,
+ kF2fsGcBeginFieldNumber = 496,
+ kF2fsGcEndFieldNumber = 497,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.FtraceEvent"; }
+
+
+ using FieldMetadata_Timestamp =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Timestamp kTimestamp{};
+ void set_timestamp(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Timestamp::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CommonFlags =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_CommonFlags kCommonFlags{};
+ void set_common_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CommonFlags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Print =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ PrintFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Print kPrint{};
+ template <typename T = PrintFtraceEvent> T* set_print() {
+ return BeginNestedMessage<T>(3);
+ }
+
+
+ using FieldMetadata_SchedSwitch =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SchedSwitchFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_SchedSwitch kSchedSwitch{};
+ template <typename T = SchedSwitchFtraceEvent> T* set_sched_switch() {
+ return BeginNestedMessage<T>(4);
+ }
+
+
+ using FieldMetadata_CpuFrequency =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ CpuFrequencyFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_CpuFrequency kCpuFrequency{};
+ template <typename T = CpuFrequencyFtraceEvent> T* set_cpu_frequency() {
+ return BeginNestedMessage<T>(11);
+ }
+
+
+ using FieldMetadata_CpuFrequencyLimits =
+ ::protozero::proto_utils::FieldMetadata<
+ 12,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ CpuFrequencyLimitsFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_CpuFrequencyLimits kCpuFrequencyLimits{};
+ template <typename T = CpuFrequencyLimitsFtraceEvent> T* set_cpu_frequency_limits() {
+ return BeginNestedMessage<T>(12);
+ }
+
+
+ using FieldMetadata_CpuIdle =
+ ::protozero::proto_utils::FieldMetadata<
+ 13,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ CpuIdleFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_CpuIdle kCpuIdle{};
+ template <typename T = CpuIdleFtraceEvent> T* set_cpu_idle() {
+ return BeginNestedMessage<T>(13);
+ }
+
+
+ using FieldMetadata_ClockEnable =
+ ::protozero::proto_utils::FieldMetadata<
+ 14,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ClockEnableFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_ClockEnable kClockEnable{};
+ template <typename T = ClockEnableFtraceEvent> T* set_clock_enable() {
+ return BeginNestedMessage<T>(14);
+ }
+
+
+ using FieldMetadata_ClockDisable =
+ ::protozero::proto_utils::FieldMetadata<
+ 15,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ClockDisableFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_ClockDisable kClockDisable{};
+ template <typename T = ClockDisableFtraceEvent> T* set_clock_disable() {
+ return BeginNestedMessage<T>(15);
+ }
+
+
+ using FieldMetadata_ClockSetRate =
+ ::protozero::proto_utils::FieldMetadata<
+ 16,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ClockSetRateFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_ClockSetRate kClockSetRate{};
+ template <typename T = ClockSetRateFtraceEvent> T* set_clock_set_rate() {
+ return BeginNestedMessage<T>(16);
+ }
+
+
+ using FieldMetadata_SchedWakeup =
+ ::protozero::proto_utils::FieldMetadata<
+ 17,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SchedWakeupFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_SchedWakeup kSchedWakeup{};
+ template <typename T = SchedWakeupFtraceEvent> T* set_sched_wakeup() {
+ return BeginNestedMessage<T>(17);
+ }
+
+
+ using FieldMetadata_SchedBlockedReason =
+ ::protozero::proto_utils::FieldMetadata<
+ 18,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SchedBlockedReasonFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_SchedBlockedReason kSchedBlockedReason{};
+ template <typename T = SchedBlockedReasonFtraceEvent> T* set_sched_blocked_reason() {
+ return BeginNestedMessage<T>(18);
+ }
+
+
+ using FieldMetadata_SchedCpuHotplug =
+ ::protozero::proto_utils::FieldMetadata<
+ 19,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SchedCpuHotplugFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_SchedCpuHotplug kSchedCpuHotplug{};
+ template <typename T = SchedCpuHotplugFtraceEvent> T* set_sched_cpu_hotplug() {
+ return BeginNestedMessage<T>(19);
+ }
+
+
+ using FieldMetadata_SchedWaking =
+ ::protozero::proto_utils::FieldMetadata<
+ 20,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SchedWakingFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_SchedWaking kSchedWaking{};
+ template <typename T = SchedWakingFtraceEvent> T* set_sched_waking() {
+ return BeginNestedMessage<T>(20);
+ }
+
+
+ using FieldMetadata_IpiEntry =
+ ::protozero::proto_utils::FieldMetadata<
+ 21,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ IpiEntryFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_IpiEntry kIpiEntry{};
+ template <typename T = IpiEntryFtraceEvent> T* set_ipi_entry() {
+ return BeginNestedMessage<T>(21);
+ }
+
+
+ using FieldMetadata_IpiExit =
+ ::protozero::proto_utils::FieldMetadata<
+ 22,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ IpiExitFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_IpiExit kIpiExit{};
+ template <typename T = IpiExitFtraceEvent> T* set_ipi_exit() {
+ return BeginNestedMessage<T>(22);
+ }
+
+
+ using FieldMetadata_IpiRaise =
+ ::protozero::proto_utils::FieldMetadata<
+ 23,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ IpiRaiseFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_IpiRaise kIpiRaise{};
+ template <typename T = IpiRaiseFtraceEvent> T* set_ipi_raise() {
+ return BeginNestedMessage<T>(23);
+ }
+
+
+ using FieldMetadata_SoftirqEntry =
+ ::protozero::proto_utils::FieldMetadata<
+ 24,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SoftirqEntryFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_SoftirqEntry kSoftirqEntry{};
+ template <typename T = SoftirqEntryFtraceEvent> T* set_softirq_entry() {
+ return BeginNestedMessage<T>(24);
+ }
+
+
+ using FieldMetadata_SoftirqExit =
+ ::protozero::proto_utils::FieldMetadata<
+ 25,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SoftirqExitFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_SoftirqExit kSoftirqExit{};
+ template <typename T = SoftirqExitFtraceEvent> T* set_softirq_exit() {
+ return BeginNestedMessage<T>(25);
+ }
+
+
+ using FieldMetadata_SoftirqRaise =
+ ::protozero::proto_utils::FieldMetadata<
+ 26,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SoftirqRaiseFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_SoftirqRaise kSoftirqRaise{};
+ template <typename T = SoftirqRaiseFtraceEvent> T* set_softirq_raise() {
+ return BeginNestedMessage<T>(26);
+ }
+
+
+ using FieldMetadata_I2cRead =
+ ::protozero::proto_utils::FieldMetadata<
+ 27,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ I2cReadFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_I2cRead kI2cRead{};
+ template <typename T = I2cReadFtraceEvent> T* set_i2c_read() {
+ return BeginNestedMessage<T>(27);
+ }
+
+
+ using FieldMetadata_I2cWrite =
+ ::protozero::proto_utils::FieldMetadata<
+ 28,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ I2cWriteFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_I2cWrite kI2cWrite{};
+ template <typename T = I2cWriteFtraceEvent> T* set_i2c_write() {
+ return BeginNestedMessage<T>(28);
+ }
+
+
+ using FieldMetadata_I2cResult =
+ ::protozero::proto_utils::FieldMetadata<
+ 29,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ I2cResultFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_I2cResult kI2cResult{};
+ template <typename T = I2cResultFtraceEvent> T* set_i2c_result() {
+ return BeginNestedMessage<T>(29);
+ }
+
+
+ using FieldMetadata_I2cReply =
+ ::protozero::proto_utils::FieldMetadata<
+ 30,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ I2cReplyFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_I2cReply kI2cReply{};
+ template <typename T = I2cReplyFtraceEvent> T* set_i2c_reply() {
+ return BeginNestedMessage<T>(30);
+ }
+
+
+ using FieldMetadata_SmbusRead =
+ ::protozero::proto_utils::FieldMetadata<
+ 31,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SmbusReadFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_SmbusRead kSmbusRead{};
+ template <typename T = SmbusReadFtraceEvent> T* set_smbus_read() {
+ return BeginNestedMessage<T>(31);
+ }
+
+
+ using FieldMetadata_SmbusWrite =
+ ::protozero::proto_utils::FieldMetadata<
+ 32,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SmbusWriteFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_SmbusWrite kSmbusWrite{};
+ template <typename T = SmbusWriteFtraceEvent> T* set_smbus_write() {
+ return BeginNestedMessage<T>(32);
+ }
+
+
+ using FieldMetadata_SmbusResult =
+ ::protozero::proto_utils::FieldMetadata<
+ 33,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SmbusResultFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_SmbusResult kSmbusResult{};
+ template <typename T = SmbusResultFtraceEvent> T* set_smbus_result() {
+ return BeginNestedMessage<T>(33);
+ }
+
+
+ using FieldMetadata_SmbusReply =
+ ::protozero::proto_utils::FieldMetadata<
+ 34,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SmbusReplyFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_SmbusReply kSmbusReply{};
+ template <typename T = SmbusReplyFtraceEvent> T* set_smbus_reply() {
+ return BeginNestedMessage<T>(34);
+ }
+
+
+ using FieldMetadata_LowmemoryKill =
+ ::protozero::proto_utils::FieldMetadata<
+ 35,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ LowmemoryKillFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_LowmemoryKill kLowmemoryKill{};
+ template <typename T = LowmemoryKillFtraceEvent> T* set_lowmemory_kill() {
+ return BeginNestedMessage<T>(35);
+ }
+
+
+ using FieldMetadata_IrqHandlerEntry =
+ ::protozero::proto_utils::FieldMetadata<
+ 36,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ IrqHandlerEntryFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_IrqHandlerEntry kIrqHandlerEntry{};
+ template <typename T = IrqHandlerEntryFtraceEvent> T* set_irq_handler_entry() {
+ return BeginNestedMessage<T>(36);
+ }
+
+
+ using FieldMetadata_IrqHandlerExit =
+ ::protozero::proto_utils::FieldMetadata<
+ 37,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ IrqHandlerExitFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_IrqHandlerExit kIrqHandlerExit{};
+ template <typename T = IrqHandlerExitFtraceEvent> T* set_irq_handler_exit() {
+ return BeginNestedMessage<T>(37);
+ }
+
+
+ using FieldMetadata_SyncPt =
+ ::protozero::proto_utils::FieldMetadata<
+ 38,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SyncPtFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_SyncPt kSyncPt{};
+ template <typename T = SyncPtFtraceEvent> T* set_sync_pt() {
+ return BeginNestedMessage<T>(38);
+ }
+
+
+ using FieldMetadata_SyncTimeline =
+ ::protozero::proto_utils::FieldMetadata<
+ 39,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SyncTimelineFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_SyncTimeline kSyncTimeline{};
+ template <typename T = SyncTimelineFtraceEvent> T* set_sync_timeline() {
+ return BeginNestedMessage<T>(39);
+ }
+
+
+ using FieldMetadata_SyncWait =
+ ::protozero::proto_utils::FieldMetadata<
+ 40,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SyncWaitFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_SyncWait kSyncWait{};
+ template <typename T = SyncWaitFtraceEvent> T* set_sync_wait() {
+ return BeginNestedMessage<T>(40);
+ }
+
+
+ using FieldMetadata_Ext4DaWriteBegin =
+ ::protozero::proto_utils::FieldMetadata<
+ 41,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4DaWriteBeginFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4DaWriteBegin kExt4DaWriteBegin{};
+ template <typename T = Ext4DaWriteBeginFtraceEvent> T* set_ext4_da_write_begin() {
+ return BeginNestedMessage<T>(41);
+ }
+
+
+ using FieldMetadata_Ext4DaWriteEnd =
+ ::protozero::proto_utils::FieldMetadata<
+ 42,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4DaWriteEndFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4DaWriteEnd kExt4DaWriteEnd{};
+ template <typename T = Ext4DaWriteEndFtraceEvent> T* set_ext4_da_write_end() {
+ return BeginNestedMessage<T>(42);
+ }
+
+
+ using FieldMetadata_Ext4SyncFileEnter =
+ ::protozero::proto_utils::FieldMetadata<
+ 43,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4SyncFileEnterFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4SyncFileEnter kExt4SyncFileEnter{};
+ template <typename T = Ext4SyncFileEnterFtraceEvent> T* set_ext4_sync_file_enter() {
+ return BeginNestedMessage<T>(43);
+ }
+
+
+ using FieldMetadata_Ext4SyncFileExit =
+ ::protozero::proto_utils::FieldMetadata<
+ 44,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4SyncFileExitFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4SyncFileExit kExt4SyncFileExit{};
+ template <typename T = Ext4SyncFileExitFtraceEvent> T* set_ext4_sync_file_exit() {
+ return BeginNestedMessage<T>(44);
+ }
+
+
+ using FieldMetadata_BlockRqIssue =
+ ::protozero::proto_utils::FieldMetadata<
+ 45,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ BlockRqIssueFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_BlockRqIssue kBlockRqIssue{};
+ template <typename T = BlockRqIssueFtraceEvent> T* set_block_rq_issue() {
+ return BeginNestedMessage<T>(45);
+ }
+
+
+ using FieldMetadata_MmVmscanDirectReclaimBegin =
+ ::protozero::proto_utils::FieldMetadata<
+ 46,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MmVmscanDirectReclaimBeginFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MmVmscanDirectReclaimBegin kMmVmscanDirectReclaimBegin{};
+ template <typename T = MmVmscanDirectReclaimBeginFtraceEvent> T* set_mm_vmscan_direct_reclaim_begin() {
+ return BeginNestedMessage<T>(46);
+ }
+
+
+ using FieldMetadata_MmVmscanDirectReclaimEnd =
+ ::protozero::proto_utils::FieldMetadata<
+ 47,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MmVmscanDirectReclaimEndFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MmVmscanDirectReclaimEnd kMmVmscanDirectReclaimEnd{};
+ template <typename T = MmVmscanDirectReclaimEndFtraceEvent> T* set_mm_vmscan_direct_reclaim_end() {
+ return BeginNestedMessage<T>(47);
+ }
+
+
+ using FieldMetadata_MmVmscanKswapdWake =
+ ::protozero::proto_utils::FieldMetadata<
+ 48,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MmVmscanKswapdWakeFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MmVmscanKswapdWake kMmVmscanKswapdWake{};
+ template <typename T = MmVmscanKswapdWakeFtraceEvent> T* set_mm_vmscan_kswapd_wake() {
+ return BeginNestedMessage<T>(48);
+ }
+
+
+ using FieldMetadata_MmVmscanKswapdSleep =
+ ::protozero::proto_utils::FieldMetadata<
+ 49,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MmVmscanKswapdSleepFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MmVmscanKswapdSleep kMmVmscanKswapdSleep{};
+ template <typename T = MmVmscanKswapdSleepFtraceEvent> T* set_mm_vmscan_kswapd_sleep() {
+ return BeginNestedMessage<T>(49);
+ }
+
+
+ using FieldMetadata_BinderTransaction =
+ ::protozero::proto_utils::FieldMetadata<
+ 50,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ BinderTransactionFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_BinderTransaction kBinderTransaction{};
+ template <typename T = BinderTransactionFtraceEvent> T* set_binder_transaction() {
+ return BeginNestedMessage<T>(50);
+ }
+
+
+ using FieldMetadata_BinderTransactionReceived =
+ ::protozero::proto_utils::FieldMetadata<
+ 51,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ BinderTransactionReceivedFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_BinderTransactionReceived kBinderTransactionReceived{};
+ template <typename T = BinderTransactionReceivedFtraceEvent> T* set_binder_transaction_received() {
+ return BeginNestedMessage<T>(51);
+ }
+
+
+ using FieldMetadata_BinderSetPriority =
+ ::protozero::proto_utils::FieldMetadata<
+ 52,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ BinderSetPriorityFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_BinderSetPriority kBinderSetPriority{};
+ template <typename T = BinderSetPriorityFtraceEvent> T* set_binder_set_priority() {
+ return BeginNestedMessage<T>(52);
+ }
+
+
+ using FieldMetadata_BinderLock =
+ ::protozero::proto_utils::FieldMetadata<
+ 53,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ BinderLockFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_BinderLock kBinderLock{};
+ template <typename T = BinderLockFtraceEvent> T* set_binder_lock() {
+ return BeginNestedMessage<T>(53);
+ }
+
+
+ using FieldMetadata_BinderLocked =
+ ::protozero::proto_utils::FieldMetadata<
+ 54,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ BinderLockedFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_BinderLocked kBinderLocked{};
+ template <typename T = BinderLockedFtraceEvent> T* set_binder_locked() {
+ return BeginNestedMessage<T>(54);
+ }
+
+
+ using FieldMetadata_BinderUnlock =
+ ::protozero::proto_utils::FieldMetadata<
+ 55,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ BinderUnlockFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_BinderUnlock kBinderUnlock{};
+ template <typename T = BinderUnlockFtraceEvent> T* set_binder_unlock() {
+ return BeginNestedMessage<T>(55);
+ }
+
+
+ using FieldMetadata_WorkqueueActivateWork =
+ ::protozero::proto_utils::FieldMetadata<
+ 56,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ WorkqueueActivateWorkFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_WorkqueueActivateWork kWorkqueueActivateWork{};
+ template <typename T = WorkqueueActivateWorkFtraceEvent> T* set_workqueue_activate_work() {
+ return BeginNestedMessage<T>(56);
+ }
+
+
+ using FieldMetadata_WorkqueueExecuteEnd =
+ ::protozero::proto_utils::FieldMetadata<
+ 57,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ WorkqueueExecuteEndFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_WorkqueueExecuteEnd kWorkqueueExecuteEnd{};
+ template <typename T = WorkqueueExecuteEndFtraceEvent> T* set_workqueue_execute_end() {
+ return BeginNestedMessage<T>(57);
+ }
+
+
+ using FieldMetadata_WorkqueueExecuteStart =
+ ::protozero::proto_utils::FieldMetadata<
+ 58,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ WorkqueueExecuteStartFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_WorkqueueExecuteStart kWorkqueueExecuteStart{};
+ template <typename T = WorkqueueExecuteStartFtraceEvent> T* set_workqueue_execute_start() {
+ return BeginNestedMessage<T>(58);
+ }
+
+
+ using FieldMetadata_WorkqueueQueueWork =
+ ::protozero::proto_utils::FieldMetadata<
+ 59,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ WorkqueueQueueWorkFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_WorkqueueQueueWork kWorkqueueQueueWork{};
+ template <typename T = WorkqueueQueueWorkFtraceEvent> T* set_workqueue_queue_work() {
+ return BeginNestedMessage<T>(59);
+ }
+
+
+ using FieldMetadata_RegulatorDisable =
+ ::protozero::proto_utils::FieldMetadata<
+ 60,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ RegulatorDisableFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_RegulatorDisable kRegulatorDisable{};
+ template <typename T = RegulatorDisableFtraceEvent> T* set_regulator_disable() {
+ return BeginNestedMessage<T>(60);
+ }
+
+
+ using FieldMetadata_RegulatorDisableComplete =
+ ::protozero::proto_utils::FieldMetadata<
+ 61,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ RegulatorDisableCompleteFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_RegulatorDisableComplete kRegulatorDisableComplete{};
+ template <typename T = RegulatorDisableCompleteFtraceEvent> T* set_regulator_disable_complete() {
+ return BeginNestedMessage<T>(61);
+ }
+
+
+ using FieldMetadata_RegulatorEnable =
+ ::protozero::proto_utils::FieldMetadata<
+ 62,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ RegulatorEnableFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_RegulatorEnable kRegulatorEnable{};
+ template <typename T = RegulatorEnableFtraceEvent> T* set_regulator_enable() {
+ return BeginNestedMessage<T>(62);
+ }
+
+
+ using FieldMetadata_RegulatorEnableComplete =
+ ::protozero::proto_utils::FieldMetadata<
+ 63,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ RegulatorEnableCompleteFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_RegulatorEnableComplete kRegulatorEnableComplete{};
+ template <typename T = RegulatorEnableCompleteFtraceEvent> T* set_regulator_enable_complete() {
+ return BeginNestedMessage<T>(63);
+ }
+
+
+ using FieldMetadata_RegulatorEnableDelay =
+ ::protozero::proto_utils::FieldMetadata<
+ 64,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ RegulatorEnableDelayFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_RegulatorEnableDelay kRegulatorEnableDelay{};
+ template <typename T = RegulatorEnableDelayFtraceEvent> T* set_regulator_enable_delay() {
+ return BeginNestedMessage<T>(64);
+ }
+
+
+ using FieldMetadata_RegulatorSetVoltage =
+ ::protozero::proto_utils::FieldMetadata<
+ 65,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ RegulatorSetVoltageFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_RegulatorSetVoltage kRegulatorSetVoltage{};
+ template <typename T = RegulatorSetVoltageFtraceEvent> T* set_regulator_set_voltage() {
+ return BeginNestedMessage<T>(65);
+ }
+
+
+ using FieldMetadata_RegulatorSetVoltageComplete =
+ ::protozero::proto_utils::FieldMetadata<
+ 66,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ RegulatorSetVoltageCompleteFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_RegulatorSetVoltageComplete kRegulatorSetVoltageComplete{};
+ template <typename T = RegulatorSetVoltageCompleteFtraceEvent> T* set_regulator_set_voltage_complete() {
+ return BeginNestedMessage<T>(66);
+ }
+
+
+ using FieldMetadata_CgroupAttachTask =
+ ::protozero::proto_utils::FieldMetadata<
+ 67,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ CgroupAttachTaskFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_CgroupAttachTask kCgroupAttachTask{};
+ template <typename T = CgroupAttachTaskFtraceEvent> T* set_cgroup_attach_task() {
+ return BeginNestedMessage<T>(67);
+ }
+
+
+ using FieldMetadata_CgroupMkdir =
+ ::protozero::proto_utils::FieldMetadata<
+ 68,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ CgroupMkdirFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_CgroupMkdir kCgroupMkdir{};
+ template <typename T = CgroupMkdirFtraceEvent> T* set_cgroup_mkdir() {
+ return BeginNestedMessage<T>(68);
+ }
+
+
+ using FieldMetadata_CgroupRemount =
+ ::protozero::proto_utils::FieldMetadata<
+ 69,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ CgroupRemountFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_CgroupRemount kCgroupRemount{};
+ template <typename T = CgroupRemountFtraceEvent> T* set_cgroup_remount() {
+ return BeginNestedMessage<T>(69);
+ }
+
+
+ using FieldMetadata_CgroupRmdir =
+ ::protozero::proto_utils::FieldMetadata<
+ 70,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ CgroupRmdirFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_CgroupRmdir kCgroupRmdir{};
+ template <typename T = CgroupRmdirFtraceEvent> T* set_cgroup_rmdir() {
+ return BeginNestedMessage<T>(70);
+ }
+
+
+ using FieldMetadata_CgroupTransferTasks =
+ ::protozero::proto_utils::FieldMetadata<
+ 71,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ CgroupTransferTasksFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_CgroupTransferTasks kCgroupTransferTasks{};
+ template <typename T = CgroupTransferTasksFtraceEvent> T* set_cgroup_transfer_tasks() {
+ return BeginNestedMessage<T>(71);
+ }
+
+
+ using FieldMetadata_CgroupDestroyRoot =
+ ::protozero::proto_utils::FieldMetadata<
+ 72,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ CgroupDestroyRootFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_CgroupDestroyRoot kCgroupDestroyRoot{};
+ template <typename T = CgroupDestroyRootFtraceEvent> T* set_cgroup_destroy_root() {
+ return BeginNestedMessage<T>(72);
+ }
+
+
+ using FieldMetadata_CgroupRelease =
+ ::protozero::proto_utils::FieldMetadata<
+ 73,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ CgroupReleaseFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_CgroupRelease kCgroupRelease{};
+ template <typename T = CgroupReleaseFtraceEvent> T* set_cgroup_release() {
+ return BeginNestedMessage<T>(73);
+ }
+
+
+ using FieldMetadata_CgroupRename =
+ ::protozero::proto_utils::FieldMetadata<
+ 74,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ CgroupRenameFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_CgroupRename kCgroupRename{};
+ template <typename T = CgroupRenameFtraceEvent> T* set_cgroup_rename() {
+ return BeginNestedMessage<T>(74);
+ }
+
+
+ using FieldMetadata_CgroupSetupRoot =
+ ::protozero::proto_utils::FieldMetadata<
+ 75,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ CgroupSetupRootFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_CgroupSetupRoot kCgroupSetupRoot{};
+ template <typename T = CgroupSetupRootFtraceEvent> T* set_cgroup_setup_root() {
+ return BeginNestedMessage<T>(75);
+ }
+
+
+ using FieldMetadata_MdpCmdKickoff =
+ ::protozero::proto_utils::FieldMetadata<
+ 76,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MdpCmdKickoffFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MdpCmdKickoff kMdpCmdKickoff{};
+ template <typename T = MdpCmdKickoffFtraceEvent> T* set_mdp_cmd_kickoff() {
+ return BeginNestedMessage<T>(76);
+ }
+
+
+ using FieldMetadata_MdpCommit =
+ ::protozero::proto_utils::FieldMetadata<
+ 77,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MdpCommitFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MdpCommit kMdpCommit{};
+ template <typename T = MdpCommitFtraceEvent> T* set_mdp_commit() {
+ return BeginNestedMessage<T>(77);
+ }
+
+
+ using FieldMetadata_MdpPerfSetOt =
+ ::protozero::proto_utils::FieldMetadata<
+ 78,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MdpPerfSetOtFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MdpPerfSetOt kMdpPerfSetOt{};
+ template <typename T = MdpPerfSetOtFtraceEvent> T* set_mdp_perf_set_ot() {
+ return BeginNestedMessage<T>(78);
+ }
+
+
+ using FieldMetadata_MdpSsppChange =
+ ::protozero::proto_utils::FieldMetadata<
+ 79,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MdpSsppChangeFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MdpSsppChange kMdpSsppChange{};
+ template <typename T = MdpSsppChangeFtraceEvent> T* set_mdp_sspp_change() {
+ return BeginNestedMessage<T>(79);
+ }
+
+
+ using FieldMetadata_TracingMarkWrite =
+ ::protozero::proto_utils::FieldMetadata<
+ 80,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TracingMarkWriteFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_TracingMarkWrite kTracingMarkWrite{};
+ template <typename T = TracingMarkWriteFtraceEvent> T* set_tracing_mark_write() {
+ return BeginNestedMessage<T>(80);
+ }
+
+
+ using FieldMetadata_MdpCmdPingpongDone =
+ ::protozero::proto_utils::FieldMetadata<
+ 81,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MdpCmdPingpongDoneFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MdpCmdPingpongDone kMdpCmdPingpongDone{};
+ template <typename T = MdpCmdPingpongDoneFtraceEvent> T* set_mdp_cmd_pingpong_done() {
+ return BeginNestedMessage<T>(81);
+ }
+
+
+ using FieldMetadata_MdpCompareBw =
+ ::protozero::proto_utils::FieldMetadata<
+ 82,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MdpCompareBwFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MdpCompareBw kMdpCompareBw{};
+ template <typename T = MdpCompareBwFtraceEvent> T* set_mdp_compare_bw() {
+ return BeginNestedMessage<T>(82);
+ }
+
+
+ using FieldMetadata_MdpPerfSetPanicLuts =
+ ::protozero::proto_utils::FieldMetadata<
+ 83,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MdpPerfSetPanicLutsFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MdpPerfSetPanicLuts kMdpPerfSetPanicLuts{};
+ template <typename T = MdpPerfSetPanicLutsFtraceEvent> T* set_mdp_perf_set_panic_luts() {
+ return BeginNestedMessage<T>(83);
+ }
+
+
+ using FieldMetadata_MdpSsppSet =
+ ::protozero::proto_utils::FieldMetadata<
+ 84,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MdpSsppSetFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MdpSsppSet kMdpSsppSet{};
+ template <typename T = MdpSsppSetFtraceEvent> T* set_mdp_sspp_set() {
+ return BeginNestedMessage<T>(84);
+ }
+
+
+ using FieldMetadata_MdpCmdReadptrDone =
+ ::protozero::proto_utils::FieldMetadata<
+ 85,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MdpCmdReadptrDoneFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MdpCmdReadptrDone kMdpCmdReadptrDone{};
+ template <typename T = MdpCmdReadptrDoneFtraceEvent> T* set_mdp_cmd_readptr_done() {
+ return BeginNestedMessage<T>(85);
+ }
+
+
+ using FieldMetadata_MdpMisrCrc =
+ ::protozero::proto_utils::FieldMetadata<
+ 86,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MdpMisrCrcFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MdpMisrCrc kMdpMisrCrc{};
+ template <typename T = MdpMisrCrcFtraceEvent> T* set_mdp_misr_crc() {
+ return BeginNestedMessage<T>(86);
+ }
+
+
+ using FieldMetadata_MdpPerfSetQosLuts =
+ ::protozero::proto_utils::FieldMetadata<
+ 87,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MdpPerfSetQosLutsFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MdpPerfSetQosLuts kMdpPerfSetQosLuts{};
+ template <typename T = MdpPerfSetQosLutsFtraceEvent> T* set_mdp_perf_set_qos_luts() {
+ return BeginNestedMessage<T>(87);
+ }
+
+
+ using FieldMetadata_MdpTraceCounter =
+ ::protozero::proto_utils::FieldMetadata<
+ 88,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MdpTraceCounterFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MdpTraceCounter kMdpTraceCounter{};
+ template <typename T = MdpTraceCounterFtraceEvent> T* set_mdp_trace_counter() {
+ return BeginNestedMessage<T>(88);
+ }
+
+
+ using FieldMetadata_MdpCmdReleaseBw =
+ ::protozero::proto_utils::FieldMetadata<
+ 89,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MdpCmdReleaseBwFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MdpCmdReleaseBw kMdpCmdReleaseBw{};
+ template <typename T = MdpCmdReleaseBwFtraceEvent> T* set_mdp_cmd_release_bw() {
+ return BeginNestedMessage<T>(89);
+ }
+
+
+ using FieldMetadata_MdpMixerUpdate =
+ ::protozero::proto_utils::FieldMetadata<
+ 90,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MdpMixerUpdateFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MdpMixerUpdate kMdpMixerUpdate{};
+ template <typename T = MdpMixerUpdateFtraceEvent> T* set_mdp_mixer_update() {
+ return BeginNestedMessage<T>(90);
+ }
+
+
+ using FieldMetadata_MdpPerfSetWmLevels =
+ ::protozero::proto_utils::FieldMetadata<
+ 91,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MdpPerfSetWmLevelsFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MdpPerfSetWmLevels kMdpPerfSetWmLevels{};
+ template <typename T = MdpPerfSetWmLevelsFtraceEvent> T* set_mdp_perf_set_wm_levels() {
+ return BeginNestedMessage<T>(91);
+ }
+
+
+ using FieldMetadata_MdpVideoUnderrunDone =
+ ::protozero::proto_utils::FieldMetadata<
+ 92,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MdpVideoUnderrunDoneFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MdpVideoUnderrunDone kMdpVideoUnderrunDone{};
+ template <typename T = MdpVideoUnderrunDoneFtraceEvent> T* set_mdp_video_underrun_done() {
+ return BeginNestedMessage<T>(92);
+ }
+
+
+ using FieldMetadata_MdpCmdWaitPingpong =
+ ::protozero::proto_utils::FieldMetadata<
+ 93,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MdpCmdWaitPingpongFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MdpCmdWaitPingpong kMdpCmdWaitPingpong{};
+ template <typename T = MdpCmdWaitPingpongFtraceEvent> T* set_mdp_cmd_wait_pingpong() {
+ return BeginNestedMessage<T>(93);
+ }
+
+
+ using FieldMetadata_MdpPerfPrefillCalc =
+ ::protozero::proto_utils::FieldMetadata<
+ 94,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MdpPerfPrefillCalcFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MdpPerfPrefillCalc kMdpPerfPrefillCalc{};
+ template <typename T = MdpPerfPrefillCalcFtraceEvent> T* set_mdp_perf_prefill_calc() {
+ return BeginNestedMessage<T>(94);
+ }
+
+
+ using FieldMetadata_MdpPerfUpdateBus =
+ ::protozero::proto_utils::FieldMetadata<
+ 95,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MdpPerfUpdateBusFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MdpPerfUpdateBus kMdpPerfUpdateBus{};
+ template <typename T = MdpPerfUpdateBusFtraceEvent> T* set_mdp_perf_update_bus() {
+ return BeginNestedMessage<T>(95);
+ }
+
+
+ using FieldMetadata_RotatorBwAoAsContext =
+ ::protozero::proto_utils::FieldMetadata<
+ 96,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ RotatorBwAoAsContextFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_RotatorBwAoAsContext kRotatorBwAoAsContext{};
+ template <typename T = RotatorBwAoAsContextFtraceEvent> T* set_rotator_bw_ao_as_context() {
+ return BeginNestedMessage<T>(96);
+ }
+
+
+ using FieldMetadata_MmFilemapAddToPageCache =
+ ::protozero::proto_utils::FieldMetadata<
+ 97,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MmFilemapAddToPageCacheFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MmFilemapAddToPageCache kMmFilemapAddToPageCache{};
+ template <typename T = MmFilemapAddToPageCacheFtraceEvent> T* set_mm_filemap_add_to_page_cache() {
+ return BeginNestedMessage<T>(97);
+ }
+
+
+ using FieldMetadata_MmFilemapDeleteFromPageCache =
+ ::protozero::proto_utils::FieldMetadata<
+ 98,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MmFilemapDeleteFromPageCacheFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MmFilemapDeleteFromPageCache kMmFilemapDeleteFromPageCache{};
+ template <typename T = MmFilemapDeleteFromPageCacheFtraceEvent> T* set_mm_filemap_delete_from_page_cache() {
+ return BeginNestedMessage<T>(98);
+ }
+
+
+ using FieldMetadata_MmCompactionBegin =
+ ::protozero::proto_utils::FieldMetadata<
+ 99,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MmCompactionBeginFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MmCompactionBegin kMmCompactionBegin{};
+ template <typename T = MmCompactionBeginFtraceEvent> T* set_mm_compaction_begin() {
+ return BeginNestedMessage<T>(99);
+ }
+
+
+ using FieldMetadata_MmCompactionDeferCompaction =
+ ::protozero::proto_utils::FieldMetadata<
+ 100,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MmCompactionDeferCompactionFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MmCompactionDeferCompaction kMmCompactionDeferCompaction{};
+ template <typename T = MmCompactionDeferCompactionFtraceEvent> T* set_mm_compaction_defer_compaction() {
+ return BeginNestedMessage<T>(100);
+ }
+
+
+ using FieldMetadata_MmCompactionDeferred =
+ ::protozero::proto_utils::FieldMetadata<
+ 101,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MmCompactionDeferredFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MmCompactionDeferred kMmCompactionDeferred{};
+ template <typename T = MmCompactionDeferredFtraceEvent> T* set_mm_compaction_deferred() {
+ return BeginNestedMessage<T>(101);
+ }
+
+
+ using FieldMetadata_MmCompactionDeferReset =
+ ::protozero::proto_utils::FieldMetadata<
+ 102,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MmCompactionDeferResetFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MmCompactionDeferReset kMmCompactionDeferReset{};
+ template <typename T = MmCompactionDeferResetFtraceEvent> T* set_mm_compaction_defer_reset() {
+ return BeginNestedMessage<T>(102);
+ }
+
+
+ using FieldMetadata_MmCompactionEnd =
+ ::protozero::proto_utils::FieldMetadata<
+ 103,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MmCompactionEndFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MmCompactionEnd kMmCompactionEnd{};
+ template <typename T = MmCompactionEndFtraceEvent> T* set_mm_compaction_end() {
+ return BeginNestedMessage<T>(103);
+ }
+
+
+ using FieldMetadata_MmCompactionFinished =
+ ::protozero::proto_utils::FieldMetadata<
+ 104,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MmCompactionFinishedFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MmCompactionFinished kMmCompactionFinished{};
+ template <typename T = MmCompactionFinishedFtraceEvent> T* set_mm_compaction_finished() {
+ return BeginNestedMessage<T>(104);
+ }
+
+
+ using FieldMetadata_MmCompactionIsolateFreepages =
+ ::protozero::proto_utils::FieldMetadata<
+ 105,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MmCompactionIsolateFreepagesFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MmCompactionIsolateFreepages kMmCompactionIsolateFreepages{};
+ template <typename T = MmCompactionIsolateFreepagesFtraceEvent> T* set_mm_compaction_isolate_freepages() {
+ return BeginNestedMessage<T>(105);
+ }
+
+
+ using FieldMetadata_MmCompactionIsolateMigratepages =
+ ::protozero::proto_utils::FieldMetadata<
+ 106,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MmCompactionIsolateMigratepagesFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MmCompactionIsolateMigratepages kMmCompactionIsolateMigratepages{};
+ template <typename T = MmCompactionIsolateMigratepagesFtraceEvent> T* set_mm_compaction_isolate_migratepages() {
+ return BeginNestedMessage<T>(106);
+ }
+
+
+ using FieldMetadata_MmCompactionKcompactdSleep =
+ ::protozero::proto_utils::FieldMetadata<
+ 107,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MmCompactionKcompactdSleepFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MmCompactionKcompactdSleep kMmCompactionKcompactdSleep{};
+ template <typename T = MmCompactionKcompactdSleepFtraceEvent> T* set_mm_compaction_kcompactd_sleep() {
+ return BeginNestedMessage<T>(107);
+ }
+
+
+ using FieldMetadata_MmCompactionKcompactdWake =
+ ::protozero::proto_utils::FieldMetadata<
+ 108,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MmCompactionKcompactdWakeFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MmCompactionKcompactdWake kMmCompactionKcompactdWake{};
+ template <typename T = MmCompactionKcompactdWakeFtraceEvent> T* set_mm_compaction_kcompactd_wake() {
+ return BeginNestedMessage<T>(108);
+ }
+
+
+ using FieldMetadata_MmCompactionMigratepages =
+ ::protozero::proto_utils::FieldMetadata<
+ 109,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MmCompactionMigratepagesFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MmCompactionMigratepages kMmCompactionMigratepages{};
+ template <typename T = MmCompactionMigratepagesFtraceEvent> T* set_mm_compaction_migratepages() {
+ return BeginNestedMessage<T>(109);
+ }
+
+
+ using FieldMetadata_MmCompactionSuitable =
+ ::protozero::proto_utils::FieldMetadata<
+ 110,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MmCompactionSuitableFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MmCompactionSuitable kMmCompactionSuitable{};
+ template <typename T = MmCompactionSuitableFtraceEvent> T* set_mm_compaction_suitable() {
+ return BeginNestedMessage<T>(110);
+ }
+
+
+ using FieldMetadata_MmCompactionTryToCompactPages =
+ ::protozero::proto_utils::FieldMetadata<
+ 111,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MmCompactionTryToCompactPagesFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MmCompactionTryToCompactPages kMmCompactionTryToCompactPages{};
+ template <typename T = MmCompactionTryToCompactPagesFtraceEvent> T* set_mm_compaction_try_to_compact_pages() {
+ return BeginNestedMessage<T>(111);
+ }
+
+
+ using FieldMetadata_MmCompactionWakeupKcompactd =
+ ::protozero::proto_utils::FieldMetadata<
+ 112,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MmCompactionWakeupKcompactdFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MmCompactionWakeupKcompactd kMmCompactionWakeupKcompactd{};
+ template <typename T = MmCompactionWakeupKcompactdFtraceEvent> T* set_mm_compaction_wakeup_kcompactd() {
+ return BeginNestedMessage<T>(112);
+ }
+
+
+ using FieldMetadata_SuspendResume =
+ ::protozero::proto_utils::FieldMetadata<
+ 113,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SuspendResumeFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_SuspendResume kSuspendResume{};
+ template <typename T = SuspendResumeFtraceEvent> T* set_suspend_resume() {
+ return BeginNestedMessage<T>(113);
+ }
+
+
+ using FieldMetadata_SchedWakeupNew =
+ ::protozero::proto_utils::FieldMetadata<
+ 114,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SchedWakeupNewFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_SchedWakeupNew kSchedWakeupNew{};
+ template <typename T = SchedWakeupNewFtraceEvent> T* set_sched_wakeup_new() {
+ return BeginNestedMessage<T>(114);
+ }
+
+
+ using FieldMetadata_BlockBioBackmerge =
+ ::protozero::proto_utils::FieldMetadata<
+ 115,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ BlockBioBackmergeFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_BlockBioBackmerge kBlockBioBackmerge{};
+ template <typename T = BlockBioBackmergeFtraceEvent> T* set_block_bio_backmerge() {
+ return BeginNestedMessage<T>(115);
+ }
+
+
+ using FieldMetadata_BlockBioBounce =
+ ::protozero::proto_utils::FieldMetadata<
+ 116,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ BlockBioBounceFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_BlockBioBounce kBlockBioBounce{};
+ template <typename T = BlockBioBounceFtraceEvent> T* set_block_bio_bounce() {
+ return BeginNestedMessage<T>(116);
+ }
+
+
+ using FieldMetadata_BlockBioComplete =
+ ::protozero::proto_utils::FieldMetadata<
+ 117,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ BlockBioCompleteFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_BlockBioComplete kBlockBioComplete{};
+ template <typename T = BlockBioCompleteFtraceEvent> T* set_block_bio_complete() {
+ return BeginNestedMessage<T>(117);
+ }
+
+
+ using FieldMetadata_BlockBioFrontmerge =
+ ::protozero::proto_utils::FieldMetadata<
+ 118,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ BlockBioFrontmergeFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_BlockBioFrontmerge kBlockBioFrontmerge{};
+ template <typename T = BlockBioFrontmergeFtraceEvent> T* set_block_bio_frontmerge() {
+ return BeginNestedMessage<T>(118);
+ }
+
+
+ using FieldMetadata_BlockBioQueue =
+ ::protozero::proto_utils::FieldMetadata<
+ 119,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ BlockBioQueueFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_BlockBioQueue kBlockBioQueue{};
+ template <typename T = BlockBioQueueFtraceEvent> T* set_block_bio_queue() {
+ return BeginNestedMessage<T>(119);
+ }
+
+
+ using FieldMetadata_BlockBioRemap =
+ ::protozero::proto_utils::FieldMetadata<
+ 120,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ BlockBioRemapFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_BlockBioRemap kBlockBioRemap{};
+ template <typename T = BlockBioRemapFtraceEvent> T* set_block_bio_remap() {
+ return BeginNestedMessage<T>(120);
+ }
+
+
+ using FieldMetadata_BlockDirtyBuffer =
+ ::protozero::proto_utils::FieldMetadata<
+ 121,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ BlockDirtyBufferFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_BlockDirtyBuffer kBlockDirtyBuffer{};
+ template <typename T = BlockDirtyBufferFtraceEvent> T* set_block_dirty_buffer() {
+ return BeginNestedMessage<T>(121);
+ }
+
+
+ using FieldMetadata_BlockGetrq =
+ ::protozero::proto_utils::FieldMetadata<
+ 122,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ BlockGetrqFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_BlockGetrq kBlockGetrq{};
+ template <typename T = BlockGetrqFtraceEvent> T* set_block_getrq() {
+ return BeginNestedMessage<T>(122);
+ }
+
+
+ using FieldMetadata_BlockPlug =
+ ::protozero::proto_utils::FieldMetadata<
+ 123,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ BlockPlugFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_BlockPlug kBlockPlug{};
+ template <typename T = BlockPlugFtraceEvent> T* set_block_plug() {
+ return BeginNestedMessage<T>(123);
+ }
+
+
+ using FieldMetadata_BlockRqAbort =
+ ::protozero::proto_utils::FieldMetadata<
+ 124,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ BlockRqAbortFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_BlockRqAbort kBlockRqAbort{};
+ template <typename T = BlockRqAbortFtraceEvent> T* set_block_rq_abort() {
+ return BeginNestedMessage<T>(124);
+ }
+
+
+ using FieldMetadata_BlockRqComplete =
+ ::protozero::proto_utils::FieldMetadata<
+ 125,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ BlockRqCompleteFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_BlockRqComplete kBlockRqComplete{};
+ template <typename T = BlockRqCompleteFtraceEvent> T* set_block_rq_complete() {
+ return BeginNestedMessage<T>(125);
+ }
+
+
+ using FieldMetadata_BlockRqInsert =
+ ::protozero::proto_utils::FieldMetadata<
+ 126,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ BlockRqInsertFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_BlockRqInsert kBlockRqInsert{};
+ template <typename T = BlockRqInsertFtraceEvent> T* set_block_rq_insert() {
+ return BeginNestedMessage<T>(126);
+ }
+
+
+ using FieldMetadata_BlockRqRemap =
+ ::protozero::proto_utils::FieldMetadata<
+ 128,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ BlockRqRemapFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_BlockRqRemap kBlockRqRemap{};
+ template <typename T = BlockRqRemapFtraceEvent> T* set_block_rq_remap() {
+ return BeginNestedMessage<T>(128);
+ }
+
+
+ using FieldMetadata_BlockRqRequeue =
+ ::protozero::proto_utils::FieldMetadata<
+ 129,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ BlockRqRequeueFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_BlockRqRequeue kBlockRqRequeue{};
+ template <typename T = BlockRqRequeueFtraceEvent> T* set_block_rq_requeue() {
+ return BeginNestedMessage<T>(129);
+ }
+
+
+ using FieldMetadata_BlockSleeprq =
+ ::protozero::proto_utils::FieldMetadata<
+ 130,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ BlockSleeprqFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_BlockSleeprq kBlockSleeprq{};
+ template <typename T = BlockSleeprqFtraceEvent> T* set_block_sleeprq() {
+ return BeginNestedMessage<T>(130);
+ }
+
+
+ using FieldMetadata_BlockSplit =
+ ::protozero::proto_utils::FieldMetadata<
+ 131,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ BlockSplitFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_BlockSplit kBlockSplit{};
+ template <typename T = BlockSplitFtraceEvent> T* set_block_split() {
+ return BeginNestedMessage<T>(131);
+ }
+
+
+ using FieldMetadata_BlockTouchBuffer =
+ ::protozero::proto_utils::FieldMetadata<
+ 132,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ BlockTouchBufferFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_BlockTouchBuffer kBlockTouchBuffer{};
+ template <typename T = BlockTouchBufferFtraceEvent> T* set_block_touch_buffer() {
+ return BeginNestedMessage<T>(132);
+ }
+
+
+ using FieldMetadata_BlockUnplug =
+ ::protozero::proto_utils::FieldMetadata<
+ 133,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ BlockUnplugFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_BlockUnplug kBlockUnplug{};
+ template <typename T = BlockUnplugFtraceEvent> T* set_block_unplug() {
+ return BeginNestedMessage<T>(133);
+ }
+
+
+ using FieldMetadata_Ext4AllocDaBlocks =
+ ::protozero::proto_utils::FieldMetadata<
+ 134,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4AllocDaBlocksFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4AllocDaBlocks kExt4AllocDaBlocks{};
+ template <typename T = Ext4AllocDaBlocksFtraceEvent> T* set_ext4_alloc_da_blocks() {
+ return BeginNestedMessage<T>(134);
+ }
+
+
+ using FieldMetadata_Ext4AllocateBlocks =
+ ::protozero::proto_utils::FieldMetadata<
+ 135,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4AllocateBlocksFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4AllocateBlocks kExt4AllocateBlocks{};
+ template <typename T = Ext4AllocateBlocksFtraceEvent> T* set_ext4_allocate_blocks() {
+ return BeginNestedMessage<T>(135);
+ }
+
+
+ using FieldMetadata_Ext4AllocateInode =
+ ::protozero::proto_utils::FieldMetadata<
+ 136,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4AllocateInodeFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4AllocateInode kExt4AllocateInode{};
+ template <typename T = Ext4AllocateInodeFtraceEvent> T* set_ext4_allocate_inode() {
+ return BeginNestedMessage<T>(136);
+ }
+
+
+ using FieldMetadata_Ext4BeginOrderedTruncate =
+ ::protozero::proto_utils::FieldMetadata<
+ 137,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4BeginOrderedTruncateFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4BeginOrderedTruncate kExt4BeginOrderedTruncate{};
+ template <typename T = Ext4BeginOrderedTruncateFtraceEvent> T* set_ext4_begin_ordered_truncate() {
+ return BeginNestedMessage<T>(137);
+ }
+
+
+ using FieldMetadata_Ext4CollapseRange =
+ ::protozero::proto_utils::FieldMetadata<
+ 138,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4CollapseRangeFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4CollapseRange kExt4CollapseRange{};
+ template <typename T = Ext4CollapseRangeFtraceEvent> T* set_ext4_collapse_range() {
+ return BeginNestedMessage<T>(138);
+ }
+
+
+ using FieldMetadata_Ext4DaReleaseSpace =
+ ::protozero::proto_utils::FieldMetadata<
+ 139,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4DaReleaseSpaceFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4DaReleaseSpace kExt4DaReleaseSpace{};
+ template <typename T = Ext4DaReleaseSpaceFtraceEvent> T* set_ext4_da_release_space() {
+ return BeginNestedMessage<T>(139);
+ }
+
+
+ using FieldMetadata_Ext4DaReserveSpace =
+ ::protozero::proto_utils::FieldMetadata<
+ 140,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4DaReserveSpaceFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4DaReserveSpace kExt4DaReserveSpace{};
+ template <typename T = Ext4DaReserveSpaceFtraceEvent> T* set_ext4_da_reserve_space() {
+ return BeginNestedMessage<T>(140);
+ }
+
+
+ using FieldMetadata_Ext4DaUpdateReserveSpace =
+ ::protozero::proto_utils::FieldMetadata<
+ 141,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4DaUpdateReserveSpaceFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4DaUpdateReserveSpace kExt4DaUpdateReserveSpace{};
+ template <typename T = Ext4DaUpdateReserveSpaceFtraceEvent> T* set_ext4_da_update_reserve_space() {
+ return BeginNestedMessage<T>(141);
+ }
+
+
+ using FieldMetadata_Ext4DaWritePages =
+ ::protozero::proto_utils::FieldMetadata<
+ 142,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4DaWritePagesFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4DaWritePages kExt4DaWritePages{};
+ template <typename T = Ext4DaWritePagesFtraceEvent> T* set_ext4_da_write_pages() {
+ return BeginNestedMessage<T>(142);
+ }
+
+
+ using FieldMetadata_Ext4DaWritePagesExtent =
+ ::protozero::proto_utils::FieldMetadata<
+ 143,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4DaWritePagesExtentFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4DaWritePagesExtent kExt4DaWritePagesExtent{};
+ template <typename T = Ext4DaWritePagesExtentFtraceEvent> T* set_ext4_da_write_pages_extent() {
+ return BeginNestedMessage<T>(143);
+ }
+
+
+ using FieldMetadata_Ext4DirectIOEnter =
+ ::protozero::proto_utils::FieldMetadata<
+ 144,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4DirectIOEnterFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4DirectIOEnter kExt4DirectIOEnter{};
+ template <typename T = Ext4DirectIOEnterFtraceEvent> T* set_ext4_direct_io_enter() {
+ return BeginNestedMessage<T>(144);
+ }
+
+
+ using FieldMetadata_Ext4DirectIOExit =
+ ::protozero::proto_utils::FieldMetadata<
+ 145,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4DirectIOExitFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4DirectIOExit kExt4DirectIOExit{};
+ template <typename T = Ext4DirectIOExitFtraceEvent> T* set_ext4_direct_io_exit() {
+ return BeginNestedMessage<T>(145);
+ }
+
+
+ using FieldMetadata_Ext4DiscardBlocks =
+ ::protozero::proto_utils::FieldMetadata<
+ 146,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4DiscardBlocksFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4DiscardBlocks kExt4DiscardBlocks{};
+ template <typename T = Ext4DiscardBlocksFtraceEvent> T* set_ext4_discard_blocks() {
+ return BeginNestedMessage<T>(146);
+ }
+
+
+ using FieldMetadata_Ext4DiscardPreallocations =
+ ::protozero::proto_utils::FieldMetadata<
+ 147,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4DiscardPreallocationsFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4DiscardPreallocations kExt4DiscardPreallocations{};
+ template <typename T = Ext4DiscardPreallocationsFtraceEvent> T* set_ext4_discard_preallocations() {
+ return BeginNestedMessage<T>(147);
+ }
+
+
+ using FieldMetadata_Ext4DropInode =
+ ::protozero::proto_utils::FieldMetadata<
+ 148,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4DropInodeFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4DropInode kExt4DropInode{};
+ template <typename T = Ext4DropInodeFtraceEvent> T* set_ext4_drop_inode() {
+ return BeginNestedMessage<T>(148);
+ }
+
+
+ using FieldMetadata_Ext4EsCacheExtent =
+ ::protozero::proto_utils::FieldMetadata<
+ 149,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4EsCacheExtentFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4EsCacheExtent kExt4EsCacheExtent{};
+ template <typename T = Ext4EsCacheExtentFtraceEvent> T* set_ext4_es_cache_extent() {
+ return BeginNestedMessage<T>(149);
+ }
+
+
+ using FieldMetadata_Ext4EsFindDelayedExtentRangeEnter =
+ ::protozero::proto_utils::FieldMetadata<
+ 150,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4EsFindDelayedExtentRangeEnterFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4EsFindDelayedExtentRangeEnter kExt4EsFindDelayedExtentRangeEnter{};
+ template <typename T = Ext4EsFindDelayedExtentRangeEnterFtraceEvent> T* set_ext4_es_find_delayed_extent_range_enter() {
+ return BeginNestedMessage<T>(150);
+ }
+
+
+ using FieldMetadata_Ext4EsFindDelayedExtentRangeExit =
+ ::protozero::proto_utils::FieldMetadata<
+ 151,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4EsFindDelayedExtentRangeExitFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4EsFindDelayedExtentRangeExit kExt4EsFindDelayedExtentRangeExit{};
+ template <typename T = Ext4EsFindDelayedExtentRangeExitFtraceEvent> T* set_ext4_es_find_delayed_extent_range_exit() {
+ return BeginNestedMessage<T>(151);
+ }
+
+
+ using FieldMetadata_Ext4EsInsertExtent =
+ ::protozero::proto_utils::FieldMetadata<
+ 152,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4EsInsertExtentFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4EsInsertExtent kExt4EsInsertExtent{};
+ template <typename T = Ext4EsInsertExtentFtraceEvent> T* set_ext4_es_insert_extent() {
+ return BeginNestedMessage<T>(152);
+ }
+
+
+ using FieldMetadata_Ext4EsLookupExtentEnter =
+ ::protozero::proto_utils::FieldMetadata<
+ 153,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4EsLookupExtentEnterFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4EsLookupExtentEnter kExt4EsLookupExtentEnter{};
+ template <typename T = Ext4EsLookupExtentEnterFtraceEvent> T* set_ext4_es_lookup_extent_enter() {
+ return BeginNestedMessage<T>(153);
+ }
+
+
+ using FieldMetadata_Ext4EsLookupExtentExit =
+ ::protozero::proto_utils::FieldMetadata<
+ 154,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4EsLookupExtentExitFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4EsLookupExtentExit kExt4EsLookupExtentExit{};
+ template <typename T = Ext4EsLookupExtentExitFtraceEvent> T* set_ext4_es_lookup_extent_exit() {
+ return BeginNestedMessage<T>(154);
+ }
+
+
+ using FieldMetadata_Ext4EsRemoveExtent =
+ ::protozero::proto_utils::FieldMetadata<
+ 155,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4EsRemoveExtentFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4EsRemoveExtent kExt4EsRemoveExtent{};
+ template <typename T = Ext4EsRemoveExtentFtraceEvent> T* set_ext4_es_remove_extent() {
+ return BeginNestedMessage<T>(155);
+ }
+
+
+ using FieldMetadata_Ext4EsShrink =
+ ::protozero::proto_utils::FieldMetadata<
+ 156,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4EsShrinkFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4EsShrink kExt4EsShrink{};
+ template <typename T = Ext4EsShrinkFtraceEvent> T* set_ext4_es_shrink() {
+ return BeginNestedMessage<T>(156);
+ }
+
+
+ using FieldMetadata_Ext4EsShrinkCount =
+ ::protozero::proto_utils::FieldMetadata<
+ 157,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4EsShrinkCountFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4EsShrinkCount kExt4EsShrinkCount{};
+ template <typename T = Ext4EsShrinkCountFtraceEvent> T* set_ext4_es_shrink_count() {
+ return BeginNestedMessage<T>(157);
+ }
+
+
+ using FieldMetadata_Ext4EsShrinkScanEnter =
+ ::protozero::proto_utils::FieldMetadata<
+ 158,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4EsShrinkScanEnterFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4EsShrinkScanEnter kExt4EsShrinkScanEnter{};
+ template <typename T = Ext4EsShrinkScanEnterFtraceEvent> T* set_ext4_es_shrink_scan_enter() {
+ return BeginNestedMessage<T>(158);
+ }
+
+
+ using FieldMetadata_Ext4EsShrinkScanExit =
+ ::protozero::proto_utils::FieldMetadata<
+ 159,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4EsShrinkScanExitFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4EsShrinkScanExit kExt4EsShrinkScanExit{};
+ template <typename T = Ext4EsShrinkScanExitFtraceEvent> T* set_ext4_es_shrink_scan_exit() {
+ return BeginNestedMessage<T>(159);
+ }
+
+
+ using FieldMetadata_Ext4EvictInode =
+ ::protozero::proto_utils::FieldMetadata<
+ 160,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4EvictInodeFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4EvictInode kExt4EvictInode{};
+ template <typename T = Ext4EvictInodeFtraceEvent> T* set_ext4_evict_inode() {
+ return BeginNestedMessage<T>(160);
+ }
+
+
+ using FieldMetadata_Ext4ExtConvertToInitializedEnter =
+ ::protozero::proto_utils::FieldMetadata<
+ 161,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4ExtConvertToInitializedEnterFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4ExtConvertToInitializedEnter kExt4ExtConvertToInitializedEnter{};
+ template <typename T = Ext4ExtConvertToInitializedEnterFtraceEvent> T* set_ext4_ext_convert_to_initialized_enter() {
+ return BeginNestedMessage<T>(161);
+ }
+
+
+ using FieldMetadata_Ext4ExtConvertToInitializedFastpath =
+ ::protozero::proto_utils::FieldMetadata<
+ 162,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4ExtConvertToInitializedFastpathFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4ExtConvertToInitializedFastpath kExt4ExtConvertToInitializedFastpath{};
+ template <typename T = Ext4ExtConvertToInitializedFastpathFtraceEvent> T* set_ext4_ext_convert_to_initialized_fastpath() {
+ return BeginNestedMessage<T>(162);
+ }
+
+
+ using FieldMetadata_Ext4ExtHandleUnwrittenExtents =
+ ::protozero::proto_utils::FieldMetadata<
+ 163,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4ExtHandleUnwrittenExtentsFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4ExtHandleUnwrittenExtents kExt4ExtHandleUnwrittenExtents{};
+ template <typename T = Ext4ExtHandleUnwrittenExtentsFtraceEvent> T* set_ext4_ext_handle_unwritten_extents() {
+ return BeginNestedMessage<T>(163);
+ }
+
+
+ using FieldMetadata_Ext4ExtInCache =
+ ::protozero::proto_utils::FieldMetadata<
+ 164,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4ExtInCacheFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4ExtInCache kExt4ExtInCache{};
+ template <typename T = Ext4ExtInCacheFtraceEvent> T* set_ext4_ext_in_cache() {
+ return BeginNestedMessage<T>(164);
+ }
+
+
+ using FieldMetadata_Ext4ExtLoadExtent =
+ ::protozero::proto_utils::FieldMetadata<
+ 165,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4ExtLoadExtentFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4ExtLoadExtent kExt4ExtLoadExtent{};
+ template <typename T = Ext4ExtLoadExtentFtraceEvent> T* set_ext4_ext_load_extent() {
+ return BeginNestedMessage<T>(165);
+ }
+
+
+ using FieldMetadata_Ext4ExtMapBlocksEnter =
+ ::protozero::proto_utils::FieldMetadata<
+ 166,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4ExtMapBlocksEnterFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4ExtMapBlocksEnter kExt4ExtMapBlocksEnter{};
+ template <typename T = Ext4ExtMapBlocksEnterFtraceEvent> T* set_ext4_ext_map_blocks_enter() {
+ return BeginNestedMessage<T>(166);
+ }
+
+
+ using FieldMetadata_Ext4ExtMapBlocksExit =
+ ::protozero::proto_utils::FieldMetadata<
+ 167,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4ExtMapBlocksExitFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4ExtMapBlocksExit kExt4ExtMapBlocksExit{};
+ template <typename T = Ext4ExtMapBlocksExitFtraceEvent> T* set_ext4_ext_map_blocks_exit() {
+ return BeginNestedMessage<T>(167);
+ }
+
+
+ using FieldMetadata_Ext4ExtPutInCache =
+ ::protozero::proto_utils::FieldMetadata<
+ 168,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4ExtPutInCacheFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4ExtPutInCache kExt4ExtPutInCache{};
+ template <typename T = Ext4ExtPutInCacheFtraceEvent> T* set_ext4_ext_put_in_cache() {
+ return BeginNestedMessage<T>(168);
+ }
+
+
+ using FieldMetadata_Ext4ExtRemoveSpace =
+ ::protozero::proto_utils::FieldMetadata<
+ 169,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4ExtRemoveSpaceFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4ExtRemoveSpace kExt4ExtRemoveSpace{};
+ template <typename T = Ext4ExtRemoveSpaceFtraceEvent> T* set_ext4_ext_remove_space() {
+ return BeginNestedMessage<T>(169);
+ }
+
+
+ using FieldMetadata_Ext4ExtRemoveSpaceDone =
+ ::protozero::proto_utils::FieldMetadata<
+ 170,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4ExtRemoveSpaceDoneFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4ExtRemoveSpaceDone kExt4ExtRemoveSpaceDone{};
+ template <typename T = Ext4ExtRemoveSpaceDoneFtraceEvent> T* set_ext4_ext_remove_space_done() {
+ return BeginNestedMessage<T>(170);
+ }
+
+
+ using FieldMetadata_Ext4ExtRmIdx =
+ ::protozero::proto_utils::FieldMetadata<
+ 171,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4ExtRmIdxFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4ExtRmIdx kExt4ExtRmIdx{};
+ template <typename T = Ext4ExtRmIdxFtraceEvent> T* set_ext4_ext_rm_idx() {
+ return BeginNestedMessage<T>(171);
+ }
+
+
+ using FieldMetadata_Ext4ExtRmLeaf =
+ ::protozero::proto_utils::FieldMetadata<
+ 172,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4ExtRmLeafFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4ExtRmLeaf kExt4ExtRmLeaf{};
+ template <typename T = Ext4ExtRmLeafFtraceEvent> T* set_ext4_ext_rm_leaf() {
+ return BeginNestedMessage<T>(172);
+ }
+
+
+ using FieldMetadata_Ext4ExtShowExtent =
+ ::protozero::proto_utils::FieldMetadata<
+ 173,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4ExtShowExtentFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4ExtShowExtent kExt4ExtShowExtent{};
+ template <typename T = Ext4ExtShowExtentFtraceEvent> T* set_ext4_ext_show_extent() {
+ return BeginNestedMessage<T>(173);
+ }
+
+
+ using FieldMetadata_Ext4FallocateEnter =
+ ::protozero::proto_utils::FieldMetadata<
+ 174,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4FallocateEnterFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4FallocateEnter kExt4FallocateEnter{};
+ template <typename T = Ext4FallocateEnterFtraceEvent> T* set_ext4_fallocate_enter() {
+ return BeginNestedMessage<T>(174);
+ }
+
+
+ using FieldMetadata_Ext4FallocateExit =
+ ::protozero::proto_utils::FieldMetadata<
+ 175,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4FallocateExitFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4FallocateExit kExt4FallocateExit{};
+ template <typename T = Ext4FallocateExitFtraceEvent> T* set_ext4_fallocate_exit() {
+ return BeginNestedMessage<T>(175);
+ }
+
+
+ using FieldMetadata_Ext4FindDelallocRange =
+ ::protozero::proto_utils::FieldMetadata<
+ 176,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4FindDelallocRangeFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4FindDelallocRange kExt4FindDelallocRange{};
+ template <typename T = Ext4FindDelallocRangeFtraceEvent> T* set_ext4_find_delalloc_range() {
+ return BeginNestedMessage<T>(176);
+ }
+
+
+ using FieldMetadata_Ext4Forget =
+ ::protozero::proto_utils::FieldMetadata<
+ 177,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4ForgetFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4Forget kExt4Forget{};
+ template <typename T = Ext4ForgetFtraceEvent> T* set_ext4_forget() {
+ return BeginNestedMessage<T>(177);
+ }
+
+
+ using FieldMetadata_Ext4FreeBlocks =
+ ::protozero::proto_utils::FieldMetadata<
+ 178,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4FreeBlocksFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4FreeBlocks kExt4FreeBlocks{};
+ template <typename T = Ext4FreeBlocksFtraceEvent> T* set_ext4_free_blocks() {
+ return BeginNestedMessage<T>(178);
+ }
+
+
+ using FieldMetadata_Ext4FreeInode =
+ ::protozero::proto_utils::FieldMetadata<
+ 179,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4FreeInodeFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4FreeInode kExt4FreeInode{};
+ template <typename T = Ext4FreeInodeFtraceEvent> T* set_ext4_free_inode() {
+ return BeginNestedMessage<T>(179);
+ }
+
+
+ using FieldMetadata_Ext4GetImpliedClusterAllocExit =
+ ::protozero::proto_utils::FieldMetadata<
+ 180,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4GetImpliedClusterAllocExitFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4GetImpliedClusterAllocExit kExt4GetImpliedClusterAllocExit{};
+ template <typename T = Ext4GetImpliedClusterAllocExitFtraceEvent> T* set_ext4_get_implied_cluster_alloc_exit() {
+ return BeginNestedMessage<T>(180);
+ }
+
+
+ using FieldMetadata_Ext4GetReservedClusterAlloc =
+ ::protozero::proto_utils::FieldMetadata<
+ 181,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4GetReservedClusterAllocFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4GetReservedClusterAlloc kExt4GetReservedClusterAlloc{};
+ template <typename T = Ext4GetReservedClusterAllocFtraceEvent> T* set_ext4_get_reserved_cluster_alloc() {
+ return BeginNestedMessage<T>(181);
+ }
+
+
+ using FieldMetadata_Ext4IndMapBlocksEnter =
+ ::protozero::proto_utils::FieldMetadata<
+ 182,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4IndMapBlocksEnterFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4IndMapBlocksEnter kExt4IndMapBlocksEnter{};
+ template <typename T = Ext4IndMapBlocksEnterFtraceEvent> T* set_ext4_ind_map_blocks_enter() {
+ return BeginNestedMessage<T>(182);
+ }
+
+
+ using FieldMetadata_Ext4IndMapBlocksExit =
+ ::protozero::proto_utils::FieldMetadata<
+ 183,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4IndMapBlocksExitFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4IndMapBlocksExit kExt4IndMapBlocksExit{};
+ template <typename T = Ext4IndMapBlocksExitFtraceEvent> T* set_ext4_ind_map_blocks_exit() {
+ return BeginNestedMessage<T>(183);
+ }
+
+
+ using FieldMetadata_Ext4InsertRange =
+ ::protozero::proto_utils::FieldMetadata<
+ 184,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4InsertRangeFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4InsertRange kExt4InsertRange{};
+ template <typename T = Ext4InsertRangeFtraceEvent> T* set_ext4_insert_range() {
+ return BeginNestedMessage<T>(184);
+ }
+
+
+ using FieldMetadata_Ext4Invalidatepage =
+ ::protozero::proto_utils::FieldMetadata<
+ 185,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4InvalidatepageFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4Invalidatepage kExt4Invalidatepage{};
+ template <typename T = Ext4InvalidatepageFtraceEvent> T* set_ext4_invalidatepage() {
+ return BeginNestedMessage<T>(185);
+ }
+
+
+ using FieldMetadata_Ext4JournalStart =
+ ::protozero::proto_utils::FieldMetadata<
+ 186,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4JournalStartFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4JournalStart kExt4JournalStart{};
+ template <typename T = Ext4JournalStartFtraceEvent> T* set_ext4_journal_start() {
+ return BeginNestedMessage<T>(186);
+ }
+
+
+ using FieldMetadata_Ext4JournalStartReserved =
+ ::protozero::proto_utils::FieldMetadata<
+ 187,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4JournalStartReservedFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4JournalStartReserved kExt4JournalStartReserved{};
+ template <typename T = Ext4JournalStartReservedFtraceEvent> T* set_ext4_journal_start_reserved() {
+ return BeginNestedMessage<T>(187);
+ }
+
+
+ using FieldMetadata_Ext4JournalledInvalidatepage =
+ ::protozero::proto_utils::FieldMetadata<
+ 188,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4JournalledInvalidatepageFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4JournalledInvalidatepage kExt4JournalledInvalidatepage{};
+ template <typename T = Ext4JournalledInvalidatepageFtraceEvent> T* set_ext4_journalled_invalidatepage() {
+ return BeginNestedMessage<T>(188);
+ }
+
+
+ using FieldMetadata_Ext4JournalledWriteEnd =
+ ::protozero::proto_utils::FieldMetadata<
+ 189,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4JournalledWriteEndFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4JournalledWriteEnd kExt4JournalledWriteEnd{};
+ template <typename T = Ext4JournalledWriteEndFtraceEvent> T* set_ext4_journalled_write_end() {
+ return BeginNestedMessage<T>(189);
+ }
+
+
+ using FieldMetadata_Ext4LoadInode =
+ ::protozero::proto_utils::FieldMetadata<
+ 190,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4LoadInodeFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4LoadInode kExt4LoadInode{};
+ template <typename T = Ext4LoadInodeFtraceEvent> T* set_ext4_load_inode() {
+ return BeginNestedMessage<T>(190);
+ }
+
+
+ using FieldMetadata_Ext4LoadInodeBitmap =
+ ::protozero::proto_utils::FieldMetadata<
+ 191,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4LoadInodeBitmapFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4LoadInodeBitmap kExt4LoadInodeBitmap{};
+ template <typename T = Ext4LoadInodeBitmapFtraceEvent> T* set_ext4_load_inode_bitmap() {
+ return BeginNestedMessage<T>(191);
+ }
+
+
+ using FieldMetadata_Ext4MarkInodeDirty =
+ ::protozero::proto_utils::FieldMetadata<
+ 192,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4MarkInodeDirtyFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4MarkInodeDirty kExt4MarkInodeDirty{};
+ template <typename T = Ext4MarkInodeDirtyFtraceEvent> T* set_ext4_mark_inode_dirty() {
+ return BeginNestedMessage<T>(192);
+ }
+
+
+ using FieldMetadata_Ext4MbBitmapLoad =
+ ::protozero::proto_utils::FieldMetadata<
+ 193,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4MbBitmapLoadFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4MbBitmapLoad kExt4MbBitmapLoad{};
+ template <typename T = Ext4MbBitmapLoadFtraceEvent> T* set_ext4_mb_bitmap_load() {
+ return BeginNestedMessage<T>(193);
+ }
+
+
+ using FieldMetadata_Ext4MbBuddyBitmapLoad =
+ ::protozero::proto_utils::FieldMetadata<
+ 194,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4MbBuddyBitmapLoadFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4MbBuddyBitmapLoad kExt4MbBuddyBitmapLoad{};
+ template <typename T = Ext4MbBuddyBitmapLoadFtraceEvent> T* set_ext4_mb_buddy_bitmap_load() {
+ return BeginNestedMessage<T>(194);
+ }
+
+
+ using FieldMetadata_Ext4MbDiscardPreallocations =
+ ::protozero::proto_utils::FieldMetadata<
+ 195,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4MbDiscardPreallocationsFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4MbDiscardPreallocations kExt4MbDiscardPreallocations{};
+ template <typename T = Ext4MbDiscardPreallocationsFtraceEvent> T* set_ext4_mb_discard_preallocations() {
+ return BeginNestedMessage<T>(195);
+ }
+
+
+ using FieldMetadata_Ext4MbNewGroupPa =
+ ::protozero::proto_utils::FieldMetadata<
+ 196,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4MbNewGroupPaFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4MbNewGroupPa kExt4MbNewGroupPa{};
+ template <typename T = Ext4MbNewGroupPaFtraceEvent> T* set_ext4_mb_new_group_pa() {
+ return BeginNestedMessage<T>(196);
+ }
+
+
+ using FieldMetadata_Ext4MbNewInodePa =
+ ::protozero::proto_utils::FieldMetadata<
+ 197,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4MbNewInodePaFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4MbNewInodePa kExt4MbNewInodePa{};
+ template <typename T = Ext4MbNewInodePaFtraceEvent> T* set_ext4_mb_new_inode_pa() {
+ return BeginNestedMessage<T>(197);
+ }
+
+
+ using FieldMetadata_Ext4MbReleaseGroupPa =
+ ::protozero::proto_utils::FieldMetadata<
+ 198,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4MbReleaseGroupPaFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4MbReleaseGroupPa kExt4MbReleaseGroupPa{};
+ template <typename T = Ext4MbReleaseGroupPaFtraceEvent> T* set_ext4_mb_release_group_pa() {
+ return BeginNestedMessage<T>(198);
+ }
+
+
+ using FieldMetadata_Ext4MbReleaseInodePa =
+ ::protozero::proto_utils::FieldMetadata<
+ 199,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4MbReleaseInodePaFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4MbReleaseInodePa kExt4MbReleaseInodePa{};
+ template <typename T = Ext4MbReleaseInodePaFtraceEvent> T* set_ext4_mb_release_inode_pa() {
+ return BeginNestedMessage<T>(199);
+ }
+
+
+ using FieldMetadata_Ext4MballocAlloc =
+ ::protozero::proto_utils::FieldMetadata<
+ 200,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4MballocAllocFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4MballocAlloc kExt4MballocAlloc{};
+ template <typename T = Ext4MballocAllocFtraceEvent> T* set_ext4_mballoc_alloc() {
+ return BeginNestedMessage<T>(200);
+ }
+
+
+ using FieldMetadata_Ext4MballocDiscard =
+ ::protozero::proto_utils::FieldMetadata<
+ 201,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4MballocDiscardFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4MballocDiscard kExt4MballocDiscard{};
+ template <typename T = Ext4MballocDiscardFtraceEvent> T* set_ext4_mballoc_discard() {
+ return BeginNestedMessage<T>(201);
+ }
+
+
+ using FieldMetadata_Ext4MballocFree =
+ ::protozero::proto_utils::FieldMetadata<
+ 202,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4MballocFreeFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4MballocFree kExt4MballocFree{};
+ template <typename T = Ext4MballocFreeFtraceEvent> T* set_ext4_mballoc_free() {
+ return BeginNestedMessage<T>(202);
+ }
+
+
+ using FieldMetadata_Ext4MballocPrealloc =
+ ::protozero::proto_utils::FieldMetadata<
+ 203,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4MballocPreallocFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4MballocPrealloc kExt4MballocPrealloc{};
+ template <typename T = Ext4MballocPreallocFtraceEvent> T* set_ext4_mballoc_prealloc() {
+ return BeginNestedMessage<T>(203);
+ }
+
+
+ using FieldMetadata_Ext4OtherInodeUpdateTime =
+ ::protozero::proto_utils::FieldMetadata<
+ 204,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4OtherInodeUpdateTimeFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4OtherInodeUpdateTime kExt4OtherInodeUpdateTime{};
+ template <typename T = Ext4OtherInodeUpdateTimeFtraceEvent> T* set_ext4_other_inode_update_time() {
+ return BeginNestedMessage<T>(204);
+ }
+
+
+ using FieldMetadata_Ext4PunchHole =
+ ::protozero::proto_utils::FieldMetadata<
+ 205,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4PunchHoleFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4PunchHole kExt4PunchHole{};
+ template <typename T = Ext4PunchHoleFtraceEvent> T* set_ext4_punch_hole() {
+ return BeginNestedMessage<T>(205);
+ }
+
+
+ using FieldMetadata_Ext4ReadBlockBitmapLoad =
+ ::protozero::proto_utils::FieldMetadata<
+ 206,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4ReadBlockBitmapLoadFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4ReadBlockBitmapLoad kExt4ReadBlockBitmapLoad{};
+ template <typename T = Ext4ReadBlockBitmapLoadFtraceEvent> T* set_ext4_read_block_bitmap_load() {
+ return BeginNestedMessage<T>(206);
+ }
+
+
+ using FieldMetadata_Ext4Readpage =
+ ::protozero::proto_utils::FieldMetadata<
+ 207,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4ReadpageFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4Readpage kExt4Readpage{};
+ template <typename T = Ext4ReadpageFtraceEvent> T* set_ext4_readpage() {
+ return BeginNestedMessage<T>(207);
+ }
+
+
+ using FieldMetadata_Ext4Releasepage =
+ ::protozero::proto_utils::FieldMetadata<
+ 208,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4ReleasepageFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4Releasepage kExt4Releasepage{};
+ template <typename T = Ext4ReleasepageFtraceEvent> T* set_ext4_releasepage() {
+ return BeginNestedMessage<T>(208);
+ }
+
+
+ using FieldMetadata_Ext4RemoveBlocks =
+ ::protozero::proto_utils::FieldMetadata<
+ 209,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4RemoveBlocksFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4RemoveBlocks kExt4RemoveBlocks{};
+ template <typename T = Ext4RemoveBlocksFtraceEvent> T* set_ext4_remove_blocks() {
+ return BeginNestedMessage<T>(209);
+ }
+
+
+ using FieldMetadata_Ext4RequestBlocks =
+ ::protozero::proto_utils::FieldMetadata<
+ 210,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4RequestBlocksFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4RequestBlocks kExt4RequestBlocks{};
+ template <typename T = Ext4RequestBlocksFtraceEvent> T* set_ext4_request_blocks() {
+ return BeginNestedMessage<T>(210);
+ }
+
+
+ using FieldMetadata_Ext4RequestInode =
+ ::protozero::proto_utils::FieldMetadata<
+ 211,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4RequestInodeFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4RequestInode kExt4RequestInode{};
+ template <typename T = Ext4RequestInodeFtraceEvent> T* set_ext4_request_inode() {
+ return BeginNestedMessage<T>(211);
+ }
+
+
+ using FieldMetadata_Ext4SyncFs =
+ ::protozero::proto_utils::FieldMetadata<
+ 212,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4SyncFsFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4SyncFs kExt4SyncFs{};
+ template <typename T = Ext4SyncFsFtraceEvent> T* set_ext4_sync_fs() {
+ return BeginNestedMessage<T>(212);
+ }
+
+
+ using FieldMetadata_Ext4TrimAllFree =
+ ::protozero::proto_utils::FieldMetadata<
+ 213,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4TrimAllFreeFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4TrimAllFree kExt4TrimAllFree{};
+ template <typename T = Ext4TrimAllFreeFtraceEvent> T* set_ext4_trim_all_free() {
+ return BeginNestedMessage<T>(213);
+ }
+
+
+ using FieldMetadata_Ext4TrimExtent =
+ ::protozero::proto_utils::FieldMetadata<
+ 214,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4TrimExtentFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4TrimExtent kExt4TrimExtent{};
+ template <typename T = Ext4TrimExtentFtraceEvent> T* set_ext4_trim_extent() {
+ return BeginNestedMessage<T>(214);
+ }
+
+
+ using FieldMetadata_Ext4TruncateEnter =
+ ::protozero::proto_utils::FieldMetadata<
+ 215,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4TruncateEnterFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4TruncateEnter kExt4TruncateEnter{};
+ template <typename T = Ext4TruncateEnterFtraceEvent> T* set_ext4_truncate_enter() {
+ return BeginNestedMessage<T>(215);
+ }
+
+
+ using FieldMetadata_Ext4TruncateExit =
+ ::protozero::proto_utils::FieldMetadata<
+ 216,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4TruncateExitFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4TruncateExit kExt4TruncateExit{};
+ template <typename T = Ext4TruncateExitFtraceEvent> T* set_ext4_truncate_exit() {
+ return BeginNestedMessage<T>(216);
+ }
+
+
+ using FieldMetadata_Ext4UnlinkEnter =
+ ::protozero::proto_utils::FieldMetadata<
+ 217,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4UnlinkEnterFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4UnlinkEnter kExt4UnlinkEnter{};
+ template <typename T = Ext4UnlinkEnterFtraceEvent> T* set_ext4_unlink_enter() {
+ return BeginNestedMessage<T>(217);
+ }
+
+
+ using FieldMetadata_Ext4UnlinkExit =
+ ::protozero::proto_utils::FieldMetadata<
+ 218,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4UnlinkExitFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4UnlinkExit kExt4UnlinkExit{};
+ template <typename T = Ext4UnlinkExitFtraceEvent> T* set_ext4_unlink_exit() {
+ return BeginNestedMessage<T>(218);
+ }
+
+
+ using FieldMetadata_Ext4WriteBegin =
+ ::protozero::proto_utils::FieldMetadata<
+ 219,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4WriteBeginFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4WriteBegin kExt4WriteBegin{};
+ template <typename T = Ext4WriteBeginFtraceEvent> T* set_ext4_write_begin() {
+ return BeginNestedMessage<T>(219);
+ }
+
+
+ using FieldMetadata_Ext4WriteEnd =
+ ::protozero::proto_utils::FieldMetadata<
+ 230,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4WriteEndFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4WriteEnd kExt4WriteEnd{};
+ template <typename T = Ext4WriteEndFtraceEvent> T* set_ext4_write_end() {
+ return BeginNestedMessage<T>(230);
+ }
+
+
+ using FieldMetadata_Ext4Writepage =
+ ::protozero::proto_utils::FieldMetadata<
+ 231,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4WritepageFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4Writepage kExt4Writepage{};
+ template <typename T = Ext4WritepageFtraceEvent> T* set_ext4_writepage() {
+ return BeginNestedMessage<T>(231);
+ }
+
+
+ using FieldMetadata_Ext4Writepages =
+ ::protozero::proto_utils::FieldMetadata<
+ 232,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4WritepagesFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4Writepages kExt4Writepages{};
+ template <typename T = Ext4WritepagesFtraceEvent> T* set_ext4_writepages() {
+ return BeginNestedMessage<T>(232);
+ }
+
+
+ using FieldMetadata_Ext4WritepagesResult =
+ ::protozero::proto_utils::FieldMetadata<
+ 233,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4WritepagesResultFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4WritepagesResult kExt4WritepagesResult{};
+ template <typename T = Ext4WritepagesResultFtraceEvent> T* set_ext4_writepages_result() {
+ return BeginNestedMessage<T>(233);
+ }
+
+
+ using FieldMetadata_Ext4ZeroRange =
+ ::protozero::proto_utils::FieldMetadata<
+ 234,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Ext4ZeroRangeFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Ext4ZeroRange kExt4ZeroRange{};
+ template <typename T = Ext4ZeroRangeFtraceEvent> T* set_ext4_zero_range() {
+ return BeginNestedMessage<T>(234);
+ }
+
+
+ using FieldMetadata_TaskNewtask =
+ ::protozero::proto_utils::FieldMetadata<
+ 235,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TaskNewtaskFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_TaskNewtask kTaskNewtask{};
+ template <typename T = TaskNewtaskFtraceEvent> T* set_task_newtask() {
+ return BeginNestedMessage<T>(235);
+ }
+
+
+ using FieldMetadata_TaskRename =
+ ::protozero::proto_utils::FieldMetadata<
+ 236,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TaskRenameFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_TaskRename kTaskRename{};
+ template <typename T = TaskRenameFtraceEvent> T* set_task_rename() {
+ return BeginNestedMessage<T>(236);
+ }
+
+
+ using FieldMetadata_SchedProcessExec =
+ ::protozero::proto_utils::FieldMetadata<
+ 237,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SchedProcessExecFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_SchedProcessExec kSchedProcessExec{};
+ template <typename T = SchedProcessExecFtraceEvent> T* set_sched_process_exec() {
+ return BeginNestedMessage<T>(237);
+ }
+
+
+ using FieldMetadata_SchedProcessExit =
+ ::protozero::proto_utils::FieldMetadata<
+ 238,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SchedProcessExitFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_SchedProcessExit kSchedProcessExit{};
+ template <typename T = SchedProcessExitFtraceEvent> T* set_sched_process_exit() {
+ return BeginNestedMessage<T>(238);
+ }
+
+
+ using FieldMetadata_SchedProcessFork =
+ ::protozero::proto_utils::FieldMetadata<
+ 239,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SchedProcessForkFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_SchedProcessFork kSchedProcessFork{};
+ template <typename T = SchedProcessForkFtraceEvent> T* set_sched_process_fork() {
+ return BeginNestedMessage<T>(239);
+ }
+
+
+ using FieldMetadata_SchedProcessFree =
+ ::protozero::proto_utils::FieldMetadata<
+ 240,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SchedProcessFreeFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_SchedProcessFree kSchedProcessFree{};
+ template <typename T = SchedProcessFreeFtraceEvent> T* set_sched_process_free() {
+ return BeginNestedMessage<T>(240);
+ }
+
+
+ using FieldMetadata_SchedProcessHang =
+ ::protozero::proto_utils::FieldMetadata<
+ 241,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SchedProcessHangFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_SchedProcessHang kSchedProcessHang{};
+ template <typename T = SchedProcessHangFtraceEvent> T* set_sched_process_hang() {
+ return BeginNestedMessage<T>(241);
+ }
+
+
+ using FieldMetadata_SchedProcessWait =
+ ::protozero::proto_utils::FieldMetadata<
+ 242,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SchedProcessWaitFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_SchedProcessWait kSchedProcessWait{};
+ template <typename T = SchedProcessWaitFtraceEvent> T* set_sched_process_wait() {
+ return BeginNestedMessage<T>(242);
+ }
+
+
+ using FieldMetadata_F2fsDoSubmitBio =
+ ::protozero::proto_utils::FieldMetadata<
+ 243,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ F2fsDoSubmitBioFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_F2fsDoSubmitBio kF2fsDoSubmitBio{};
+ template <typename T = F2fsDoSubmitBioFtraceEvent> T* set_f2fs_do_submit_bio() {
+ return BeginNestedMessage<T>(243);
+ }
+
+
+ using FieldMetadata_F2fsEvictInode =
+ ::protozero::proto_utils::FieldMetadata<
+ 244,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ F2fsEvictInodeFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_F2fsEvictInode kF2fsEvictInode{};
+ template <typename T = F2fsEvictInodeFtraceEvent> T* set_f2fs_evict_inode() {
+ return BeginNestedMessage<T>(244);
+ }
+
+
+ using FieldMetadata_F2fsFallocate =
+ ::protozero::proto_utils::FieldMetadata<
+ 245,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ F2fsFallocateFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_F2fsFallocate kF2fsFallocate{};
+ template <typename T = F2fsFallocateFtraceEvent> T* set_f2fs_fallocate() {
+ return BeginNestedMessage<T>(245);
+ }
+
+
+ using FieldMetadata_F2fsGetDataBlock =
+ ::protozero::proto_utils::FieldMetadata<
+ 246,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ F2fsGetDataBlockFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_F2fsGetDataBlock kF2fsGetDataBlock{};
+ template <typename T = F2fsGetDataBlockFtraceEvent> T* set_f2fs_get_data_block() {
+ return BeginNestedMessage<T>(246);
+ }
+
+
+ using FieldMetadata_F2fsGetVictim =
+ ::protozero::proto_utils::FieldMetadata<
+ 247,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ F2fsGetVictimFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_F2fsGetVictim kF2fsGetVictim{};
+ template <typename T = F2fsGetVictimFtraceEvent> T* set_f2fs_get_victim() {
+ return BeginNestedMessage<T>(247);
+ }
+
+
+ using FieldMetadata_F2fsIget =
+ ::protozero::proto_utils::FieldMetadata<
+ 248,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ F2fsIgetFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_F2fsIget kF2fsIget{};
+ template <typename T = F2fsIgetFtraceEvent> T* set_f2fs_iget() {
+ return BeginNestedMessage<T>(248);
+ }
+
+
+ using FieldMetadata_F2fsIgetExit =
+ ::protozero::proto_utils::FieldMetadata<
+ 249,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ F2fsIgetExitFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_F2fsIgetExit kF2fsIgetExit{};
+ template <typename T = F2fsIgetExitFtraceEvent> T* set_f2fs_iget_exit() {
+ return BeginNestedMessage<T>(249);
+ }
+
+
+ using FieldMetadata_F2fsNewInode =
+ ::protozero::proto_utils::FieldMetadata<
+ 250,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ F2fsNewInodeFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_F2fsNewInode kF2fsNewInode{};
+ template <typename T = F2fsNewInodeFtraceEvent> T* set_f2fs_new_inode() {
+ return BeginNestedMessage<T>(250);
+ }
+
+
+ using FieldMetadata_F2fsReadpage =
+ ::protozero::proto_utils::FieldMetadata<
+ 251,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ F2fsReadpageFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_F2fsReadpage kF2fsReadpage{};
+ template <typename T = F2fsReadpageFtraceEvent> T* set_f2fs_readpage() {
+ return BeginNestedMessage<T>(251);
+ }
+
+
+ using FieldMetadata_F2fsReserveNewBlock =
+ ::protozero::proto_utils::FieldMetadata<
+ 252,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ F2fsReserveNewBlockFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_F2fsReserveNewBlock kF2fsReserveNewBlock{};
+ template <typename T = F2fsReserveNewBlockFtraceEvent> T* set_f2fs_reserve_new_block() {
+ return BeginNestedMessage<T>(252);
+ }
+
+
+ using FieldMetadata_F2fsSetPageDirty =
+ ::protozero::proto_utils::FieldMetadata<
+ 253,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ F2fsSetPageDirtyFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_F2fsSetPageDirty kF2fsSetPageDirty{};
+ template <typename T = F2fsSetPageDirtyFtraceEvent> T* set_f2fs_set_page_dirty() {
+ return BeginNestedMessage<T>(253);
+ }
+
+
+ using FieldMetadata_F2fsSubmitWritePage =
+ ::protozero::proto_utils::FieldMetadata<
+ 254,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ F2fsSubmitWritePageFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_F2fsSubmitWritePage kF2fsSubmitWritePage{};
+ template <typename T = F2fsSubmitWritePageFtraceEvent> T* set_f2fs_submit_write_page() {
+ return BeginNestedMessage<T>(254);
+ }
+
+
+ using FieldMetadata_F2fsSyncFileEnter =
+ ::protozero::proto_utils::FieldMetadata<
+ 255,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ F2fsSyncFileEnterFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_F2fsSyncFileEnter kF2fsSyncFileEnter{};
+ template <typename T = F2fsSyncFileEnterFtraceEvent> T* set_f2fs_sync_file_enter() {
+ return BeginNestedMessage<T>(255);
+ }
+
+
+ using FieldMetadata_F2fsSyncFileExit =
+ ::protozero::proto_utils::FieldMetadata<
+ 256,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ F2fsSyncFileExitFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_F2fsSyncFileExit kF2fsSyncFileExit{};
+ template <typename T = F2fsSyncFileExitFtraceEvent> T* set_f2fs_sync_file_exit() {
+ return BeginNestedMessage<T>(256);
+ }
+
+
+ using FieldMetadata_F2fsSyncFs =
+ ::protozero::proto_utils::FieldMetadata<
+ 257,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ F2fsSyncFsFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_F2fsSyncFs kF2fsSyncFs{};
+ template <typename T = F2fsSyncFsFtraceEvent> T* set_f2fs_sync_fs() {
+ return BeginNestedMessage<T>(257);
+ }
+
+
+ using FieldMetadata_F2fsTruncate =
+ ::protozero::proto_utils::FieldMetadata<
+ 258,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ F2fsTruncateFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_F2fsTruncate kF2fsTruncate{};
+ template <typename T = F2fsTruncateFtraceEvent> T* set_f2fs_truncate() {
+ return BeginNestedMessage<T>(258);
+ }
+
+
+ using FieldMetadata_F2fsTruncateBlocksEnter =
+ ::protozero::proto_utils::FieldMetadata<
+ 259,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ F2fsTruncateBlocksEnterFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_F2fsTruncateBlocksEnter kF2fsTruncateBlocksEnter{};
+ template <typename T = F2fsTruncateBlocksEnterFtraceEvent> T* set_f2fs_truncate_blocks_enter() {
+ return BeginNestedMessage<T>(259);
+ }
+
+
+ using FieldMetadata_F2fsTruncateBlocksExit =
+ ::protozero::proto_utils::FieldMetadata<
+ 260,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ F2fsTruncateBlocksExitFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_F2fsTruncateBlocksExit kF2fsTruncateBlocksExit{};
+ template <typename T = F2fsTruncateBlocksExitFtraceEvent> T* set_f2fs_truncate_blocks_exit() {
+ return BeginNestedMessage<T>(260);
+ }
+
+
+ using FieldMetadata_F2fsTruncateDataBlocksRange =
+ ::protozero::proto_utils::FieldMetadata<
+ 261,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ F2fsTruncateDataBlocksRangeFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_F2fsTruncateDataBlocksRange kF2fsTruncateDataBlocksRange{};
+ template <typename T = F2fsTruncateDataBlocksRangeFtraceEvent> T* set_f2fs_truncate_data_blocks_range() {
+ return BeginNestedMessage<T>(261);
+ }
+
+
+ using FieldMetadata_F2fsTruncateInodeBlocksEnter =
+ ::protozero::proto_utils::FieldMetadata<
+ 262,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ F2fsTruncateInodeBlocksEnterFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_F2fsTruncateInodeBlocksEnter kF2fsTruncateInodeBlocksEnter{};
+ template <typename T = F2fsTruncateInodeBlocksEnterFtraceEvent> T* set_f2fs_truncate_inode_blocks_enter() {
+ return BeginNestedMessage<T>(262);
+ }
+
+
+ using FieldMetadata_F2fsTruncateInodeBlocksExit =
+ ::protozero::proto_utils::FieldMetadata<
+ 263,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ F2fsTruncateInodeBlocksExitFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_F2fsTruncateInodeBlocksExit kF2fsTruncateInodeBlocksExit{};
+ template <typename T = F2fsTruncateInodeBlocksExitFtraceEvent> T* set_f2fs_truncate_inode_blocks_exit() {
+ return BeginNestedMessage<T>(263);
+ }
+
+
+ using FieldMetadata_F2fsTruncateNode =
+ ::protozero::proto_utils::FieldMetadata<
+ 264,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ F2fsTruncateNodeFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_F2fsTruncateNode kF2fsTruncateNode{};
+ template <typename T = F2fsTruncateNodeFtraceEvent> T* set_f2fs_truncate_node() {
+ return BeginNestedMessage<T>(264);
+ }
+
+
+ using FieldMetadata_F2fsTruncateNodesEnter =
+ ::protozero::proto_utils::FieldMetadata<
+ 265,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ F2fsTruncateNodesEnterFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_F2fsTruncateNodesEnter kF2fsTruncateNodesEnter{};
+ template <typename T = F2fsTruncateNodesEnterFtraceEvent> T* set_f2fs_truncate_nodes_enter() {
+ return BeginNestedMessage<T>(265);
+ }
+
+
+ using FieldMetadata_F2fsTruncateNodesExit =
+ ::protozero::proto_utils::FieldMetadata<
+ 266,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ F2fsTruncateNodesExitFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_F2fsTruncateNodesExit kF2fsTruncateNodesExit{};
+ template <typename T = F2fsTruncateNodesExitFtraceEvent> T* set_f2fs_truncate_nodes_exit() {
+ return BeginNestedMessage<T>(266);
+ }
+
+
+ using FieldMetadata_F2fsTruncatePartialNodes =
+ ::protozero::proto_utils::FieldMetadata<
+ 267,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ F2fsTruncatePartialNodesFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_F2fsTruncatePartialNodes kF2fsTruncatePartialNodes{};
+ template <typename T = F2fsTruncatePartialNodesFtraceEvent> T* set_f2fs_truncate_partial_nodes() {
+ return BeginNestedMessage<T>(267);
+ }
+
+
+ using FieldMetadata_F2fsUnlinkEnter =
+ ::protozero::proto_utils::FieldMetadata<
+ 268,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ F2fsUnlinkEnterFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_F2fsUnlinkEnter kF2fsUnlinkEnter{};
+ template <typename T = F2fsUnlinkEnterFtraceEvent> T* set_f2fs_unlink_enter() {
+ return BeginNestedMessage<T>(268);
+ }
+
+
+ using FieldMetadata_F2fsUnlinkExit =
+ ::protozero::proto_utils::FieldMetadata<
+ 269,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ F2fsUnlinkExitFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_F2fsUnlinkExit kF2fsUnlinkExit{};
+ template <typename T = F2fsUnlinkExitFtraceEvent> T* set_f2fs_unlink_exit() {
+ return BeginNestedMessage<T>(269);
+ }
+
+
+ using FieldMetadata_F2fsVmPageMkwrite =
+ ::protozero::proto_utils::FieldMetadata<
+ 270,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ F2fsVmPageMkwriteFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_F2fsVmPageMkwrite kF2fsVmPageMkwrite{};
+ template <typename T = F2fsVmPageMkwriteFtraceEvent> T* set_f2fs_vm_page_mkwrite() {
+ return BeginNestedMessage<T>(270);
+ }
+
+
+ using FieldMetadata_F2fsWriteBegin =
+ ::protozero::proto_utils::FieldMetadata<
+ 271,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ F2fsWriteBeginFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_F2fsWriteBegin kF2fsWriteBegin{};
+ template <typename T = F2fsWriteBeginFtraceEvent> T* set_f2fs_write_begin() {
+ return BeginNestedMessage<T>(271);
+ }
+
+
+ using FieldMetadata_F2fsWriteCheckpoint =
+ ::protozero::proto_utils::FieldMetadata<
+ 272,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ F2fsWriteCheckpointFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_F2fsWriteCheckpoint kF2fsWriteCheckpoint{};
+ template <typename T = F2fsWriteCheckpointFtraceEvent> T* set_f2fs_write_checkpoint() {
+ return BeginNestedMessage<T>(272);
+ }
+
+
+ using FieldMetadata_F2fsWriteEnd =
+ ::protozero::proto_utils::FieldMetadata<
+ 273,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ F2fsWriteEndFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_F2fsWriteEnd kF2fsWriteEnd{};
+ template <typename T = F2fsWriteEndFtraceEvent> T* set_f2fs_write_end() {
+ return BeginNestedMessage<T>(273);
+ }
+
+
+ using FieldMetadata_AllocPagesIommuEnd =
+ ::protozero::proto_utils::FieldMetadata<
+ 274,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ AllocPagesIommuEndFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_AllocPagesIommuEnd kAllocPagesIommuEnd{};
+ template <typename T = AllocPagesIommuEndFtraceEvent> T* set_alloc_pages_iommu_end() {
+ return BeginNestedMessage<T>(274);
+ }
+
+
+ using FieldMetadata_AllocPagesIommuFail =
+ ::protozero::proto_utils::FieldMetadata<
+ 275,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ AllocPagesIommuFailFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_AllocPagesIommuFail kAllocPagesIommuFail{};
+ template <typename T = AllocPagesIommuFailFtraceEvent> T* set_alloc_pages_iommu_fail() {
+ return BeginNestedMessage<T>(275);
+ }
+
+
+ using FieldMetadata_AllocPagesIommuStart =
+ ::protozero::proto_utils::FieldMetadata<
+ 276,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ AllocPagesIommuStartFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_AllocPagesIommuStart kAllocPagesIommuStart{};
+ template <typename T = AllocPagesIommuStartFtraceEvent> T* set_alloc_pages_iommu_start() {
+ return BeginNestedMessage<T>(276);
+ }
+
+
+ using FieldMetadata_AllocPagesSysEnd =
+ ::protozero::proto_utils::FieldMetadata<
+ 277,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ AllocPagesSysEndFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_AllocPagesSysEnd kAllocPagesSysEnd{};
+ template <typename T = AllocPagesSysEndFtraceEvent> T* set_alloc_pages_sys_end() {
+ return BeginNestedMessage<T>(277);
+ }
+
+
+ using FieldMetadata_AllocPagesSysFail =
+ ::protozero::proto_utils::FieldMetadata<
+ 278,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ AllocPagesSysFailFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_AllocPagesSysFail kAllocPagesSysFail{};
+ template <typename T = AllocPagesSysFailFtraceEvent> T* set_alloc_pages_sys_fail() {
+ return BeginNestedMessage<T>(278);
+ }
+
+
+ using FieldMetadata_AllocPagesSysStart =
+ ::protozero::proto_utils::FieldMetadata<
+ 279,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ AllocPagesSysStartFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_AllocPagesSysStart kAllocPagesSysStart{};
+ template <typename T = AllocPagesSysStartFtraceEvent> T* set_alloc_pages_sys_start() {
+ return BeginNestedMessage<T>(279);
+ }
+
+
+ using FieldMetadata_DmaAllocContiguousRetry =
+ ::protozero::proto_utils::FieldMetadata<
+ 280,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ DmaAllocContiguousRetryFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_DmaAllocContiguousRetry kDmaAllocContiguousRetry{};
+ template <typename T = DmaAllocContiguousRetryFtraceEvent> T* set_dma_alloc_contiguous_retry() {
+ return BeginNestedMessage<T>(280);
+ }
+
+
+ using FieldMetadata_IommuMapRange =
+ ::protozero::proto_utils::FieldMetadata<
+ 281,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ IommuMapRangeFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_IommuMapRange kIommuMapRange{};
+ template <typename T = IommuMapRangeFtraceEvent> T* set_iommu_map_range() {
+ return BeginNestedMessage<T>(281);
+ }
+
+
+ using FieldMetadata_IommuSecPtblMapRangeEnd =
+ ::protozero::proto_utils::FieldMetadata<
+ 282,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ IommuSecPtblMapRangeEndFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_IommuSecPtblMapRangeEnd kIommuSecPtblMapRangeEnd{};
+ template <typename T = IommuSecPtblMapRangeEndFtraceEvent> T* set_iommu_sec_ptbl_map_range_end() {
+ return BeginNestedMessage<T>(282);
+ }
+
+
+ using FieldMetadata_IommuSecPtblMapRangeStart =
+ ::protozero::proto_utils::FieldMetadata<
+ 283,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ IommuSecPtblMapRangeStartFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_IommuSecPtblMapRangeStart kIommuSecPtblMapRangeStart{};
+ template <typename T = IommuSecPtblMapRangeStartFtraceEvent> T* set_iommu_sec_ptbl_map_range_start() {
+ return BeginNestedMessage<T>(283);
+ }
+
+
+ using FieldMetadata_IonAllocBufferEnd =
+ ::protozero::proto_utils::FieldMetadata<
+ 284,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ IonAllocBufferEndFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_IonAllocBufferEnd kIonAllocBufferEnd{};
+ template <typename T = IonAllocBufferEndFtraceEvent> T* set_ion_alloc_buffer_end() {
+ return BeginNestedMessage<T>(284);
+ }
+
+
+ using FieldMetadata_IonAllocBufferFail =
+ ::protozero::proto_utils::FieldMetadata<
+ 285,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ IonAllocBufferFailFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_IonAllocBufferFail kIonAllocBufferFail{};
+ template <typename T = IonAllocBufferFailFtraceEvent> T* set_ion_alloc_buffer_fail() {
+ return BeginNestedMessage<T>(285);
+ }
+
+
+ using FieldMetadata_IonAllocBufferFallback =
+ ::protozero::proto_utils::FieldMetadata<
+ 286,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ IonAllocBufferFallbackFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_IonAllocBufferFallback kIonAllocBufferFallback{};
+ template <typename T = IonAllocBufferFallbackFtraceEvent> T* set_ion_alloc_buffer_fallback() {
+ return BeginNestedMessage<T>(286);
+ }
+
+
+ using FieldMetadata_IonAllocBufferStart =
+ ::protozero::proto_utils::FieldMetadata<
+ 287,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ IonAllocBufferStartFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_IonAllocBufferStart kIonAllocBufferStart{};
+ template <typename T = IonAllocBufferStartFtraceEvent> T* set_ion_alloc_buffer_start() {
+ return BeginNestedMessage<T>(287);
+ }
+
+
+ using FieldMetadata_IonCpAllocRetry =
+ ::protozero::proto_utils::FieldMetadata<
+ 288,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ IonCpAllocRetryFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_IonCpAllocRetry kIonCpAllocRetry{};
+ template <typename T = IonCpAllocRetryFtraceEvent> T* set_ion_cp_alloc_retry() {
+ return BeginNestedMessage<T>(288);
+ }
+
+
+ using FieldMetadata_IonCpSecureBufferEnd =
+ ::protozero::proto_utils::FieldMetadata<
+ 289,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ IonCpSecureBufferEndFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_IonCpSecureBufferEnd kIonCpSecureBufferEnd{};
+ template <typename T = IonCpSecureBufferEndFtraceEvent> T* set_ion_cp_secure_buffer_end() {
+ return BeginNestedMessage<T>(289);
+ }
+
+
+ using FieldMetadata_IonCpSecureBufferStart =
+ ::protozero::proto_utils::FieldMetadata<
+ 290,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ IonCpSecureBufferStartFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_IonCpSecureBufferStart kIonCpSecureBufferStart{};
+ template <typename T = IonCpSecureBufferStartFtraceEvent> T* set_ion_cp_secure_buffer_start() {
+ return BeginNestedMessage<T>(290);
+ }
+
+
+ using FieldMetadata_IonPrefetching =
+ ::protozero::proto_utils::FieldMetadata<
+ 291,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ IonPrefetchingFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_IonPrefetching kIonPrefetching{};
+ template <typename T = IonPrefetchingFtraceEvent> T* set_ion_prefetching() {
+ return BeginNestedMessage<T>(291);
+ }
+
+
+ using FieldMetadata_IonSecureCmaAddToPoolEnd =
+ ::protozero::proto_utils::FieldMetadata<
+ 292,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ IonSecureCmaAddToPoolEndFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_IonSecureCmaAddToPoolEnd kIonSecureCmaAddToPoolEnd{};
+ template <typename T = IonSecureCmaAddToPoolEndFtraceEvent> T* set_ion_secure_cma_add_to_pool_end() {
+ return BeginNestedMessage<T>(292);
+ }
+
+
+ using FieldMetadata_IonSecureCmaAddToPoolStart =
+ ::protozero::proto_utils::FieldMetadata<
+ 293,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ IonSecureCmaAddToPoolStartFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_IonSecureCmaAddToPoolStart kIonSecureCmaAddToPoolStart{};
+ template <typename T = IonSecureCmaAddToPoolStartFtraceEvent> T* set_ion_secure_cma_add_to_pool_start() {
+ return BeginNestedMessage<T>(293);
+ }
+
+
+ using FieldMetadata_IonSecureCmaAllocateEnd =
+ ::protozero::proto_utils::FieldMetadata<
+ 294,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ IonSecureCmaAllocateEndFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_IonSecureCmaAllocateEnd kIonSecureCmaAllocateEnd{};
+ template <typename T = IonSecureCmaAllocateEndFtraceEvent> T* set_ion_secure_cma_allocate_end() {
+ return BeginNestedMessage<T>(294);
+ }
+
+
+ using FieldMetadata_IonSecureCmaAllocateStart =
+ ::protozero::proto_utils::FieldMetadata<
+ 295,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ IonSecureCmaAllocateStartFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_IonSecureCmaAllocateStart kIonSecureCmaAllocateStart{};
+ template <typename T = IonSecureCmaAllocateStartFtraceEvent> T* set_ion_secure_cma_allocate_start() {
+ return BeginNestedMessage<T>(295);
+ }
+
+
+ using FieldMetadata_IonSecureCmaShrinkPoolEnd =
+ ::protozero::proto_utils::FieldMetadata<
+ 296,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ IonSecureCmaShrinkPoolEndFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_IonSecureCmaShrinkPoolEnd kIonSecureCmaShrinkPoolEnd{};
+ template <typename T = IonSecureCmaShrinkPoolEndFtraceEvent> T* set_ion_secure_cma_shrink_pool_end() {
+ return BeginNestedMessage<T>(296);
+ }
+
+
+ using FieldMetadata_IonSecureCmaShrinkPoolStart =
+ ::protozero::proto_utils::FieldMetadata<
+ 297,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ IonSecureCmaShrinkPoolStartFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_IonSecureCmaShrinkPoolStart kIonSecureCmaShrinkPoolStart{};
+ template <typename T = IonSecureCmaShrinkPoolStartFtraceEvent> T* set_ion_secure_cma_shrink_pool_start() {
+ return BeginNestedMessage<T>(297);
+ }
+
+
+ using FieldMetadata_Kfree =
+ ::protozero::proto_utils::FieldMetadata<
+ 298,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ KfreeFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Kfree kKfree{};
+ template <typename T = KfreeFtraceEvent> T* set_kfree() {
+ return BeginNestedMessage<T>(298);
+ }
+
+
+ using FieldMetadata_Kmalloc =
+ ::protozero::proto_utils::FieldMetadata<
+ 299,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ KmallocFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Kmalloc kKmalloc{};
+ template <typename T = KmallocFtraceEvent> T* set_kmalloc() {
+ return BeginNestedMessage<T>(299);
+ }
+
+
+ using FieldMetadata_KmallocNode =
+ ::protozero::proto_utils::FieldMetadata<
+ 300,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ KmallocNodeFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_KmallocNode kKmallocNode{};
+ template <typename T = KmallocNodeFtraceEvent> T* set_kmalloc_node() {
+ return BeginNestedMessage<T>(300);
+ }
+
+
+ using FieldMetadata_KmemCacheAlloc =
+ ::protozero::proto_utils::FieldMetadata<
+ 301,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ KmemCacheAllocFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_KmemCacheAlloc kKmemCacheAlloc{};
+ template <typename T = KmemCacheAllocFtraceEvent> T* set_kmem_cache_alloc() {
+ return BeginNestedMessage<T>(301);
+ }
+
+
+ using FieldMetadata_KmemCacheAllocNode =
+ ::protozero::proto_utils::FieldMetadata<
+ 302,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ KmemCacheAllocNodeFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_KmemCacheAllocNode kKmemCacheAllocNode{};
+ template <typename T = KmemCacheAllocNodeFtraceEvent> T* set_kmem_cache_alloc_node() {
+ return BeginNestedMessage<T>(302);
+ }
+
+
+ using FieldMetadata_KmemCacheFree =
+ ::protozero::proto_utils::FieldMetadata<
+ 303,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ KmemCacheFreeFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_KmemCacheFree kKmemCacheFree{};
+ template <typename T = KmemCacheFreeFtraceEvent> T* set_kmem_cache_free() {
+ return BeginNestedMessage<T>(303);
+ }
+
+
+ using FieldMetadata_MigratePagesEnd =
+ ::protozero::proto_utils::FieldMetadata<
+ 304,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MigratePagesEndFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MigratePagesEnd kMigratePagesEnd{};
+ template <typename T = MigratePagesEndFtraceEvent> T* set_migrate_pages_end() {
+ return BeginNestedMessage<T>(304);
+ }
+
+
+ using FieldMetadata_MigratePagesStart =
+ ::protozero::proto_utils::FieldMetadata<
+ 305,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MigratePagesStartFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MigratePagesStart kMigratePagesStart{};
+ template <typename T = MigratePagesStartFtraceEvent> T* set_migrate_pages_start() {
+ return BeginNestedMessage<T>(305);
+ }
+
+
+ using FieldMetadata_MigrateRetry =
+ ::protozero::proto_utils::FieldMetadata<
+ 306,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MigrateRetryFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MigrateRetry kMigrateRetry{};
+ template <typename T = MigrateRetryFtraceEvent> T* set_migrate_retry() {
+ return BeginNestedMessage<T>(306);
+ }
+
+
+ using FieldMetadata_MmPageAlloc =
+ ::protozero::proto_utils::FieldMetadata<
+ 307,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MmPageAllocFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MmPageAlloc kMmPageAlloc{};
+ template <typename T = MmPageAllocFtraceEvent> T* set_mm_page_alloc() {
+ return BeginNestedMessage<T>(307);
+ }
+
+
+ using FieldMetadata_MmPageAllocExtfrag =
+ ::protozero::proto_utils::FieldMetadata<
+ 308,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MmPageAllocExtfragFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MmPageAllocExtfrag kMmPageAllocExtfrag{};
+ template <typename T = MmPageAllocExtfragFtraceEvent> T* set_mm_page_alloc_extfrag() {
+ return BeginNestedMessage<T>(308);
+ }
+
+
+ using FieldMetadata_MmPageAllocZoneLocked =
+ ::protozero::proto_utils::FieldMetadata<
+ 309,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MmPageAllocZoneLockedFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MmPageAllocZoneLocked kMmPageAllocZoneLocked{};
+ template <typename T = MmPageAllocZoneLockedFtraceEvent> T* set_mm_page_alloc_zone_locked() {
+ return BeginNestedMessage<T>(309);
+ }
+
+
+ using FieldMetadata_MmPageFree =
+ ::protozero::proto_utils::FieldMetadata<
+ 310,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MmPageFreeFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MmPageFree kMmPageFree{};
+ template <typename T = MmPageFreeFtraceEvent> T* set_mm_page_free() {
+ return BeginNestedMessage<T>(310);
+ }
+
+
+ using FieldMetadata_MmPageFreeBatched =
+ ::protozero::proto_utils::FieldMetadata<
+ 311,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MmPageFreeBatchedFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MmPageFreeBatched kMmPageFreeBatched{};
+ template <typename T = MmPageFreeBatchedFtraceEvent> T* set_mm_page_free_batched() {
+ return BeginNestedMessage<T>(311);
+ }
+
+
+ using FieldMetadata_MmPagePcpuDrain =
+ ::protozero::proto_utils::FieldMetadata<
+ 312,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MmPagePcpuDrainFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MmPagePcpuDrain kMmPagePcpuDrain{};
+ template <typename T = MmPagePcpuDrainFtraceEvent> T* set_mm_page_pcpu_drain() {
+ return BeginNestedMessage<T>(312);
+ }
+
+
+ using FieldMetadata_RssStat =
+ ::protozero::proto_utils::FieldMetadata<
+ 313,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ RssStatFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_RssStat kRssStat{};
+ template <typename T = RssStatFtraceEvent> T* set_rss_stat() {
+ return BeginNestedMessage<T>(313);
+ }
+
+
+ using FieldMetadata_IonHeapShrink =
+ ::protozero::proto_utils::FieldMetadata<
+ 314,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ IonHeapShrinkFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_IonHeapShrink kIonHeapShrink{};
+ template <typename T = IonHeapShrinkFtraceEvent> T* set_ion_heap_shrink() {
+ return BeginNestedMessage<T>(314);
+ }
+
+
+ using FieldMetadata_IonHeapGrow =
+ ::protozero::proto_utils::FieldMetadata<
+ 315,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ IonHeapGrowFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_IonHeapGrow kIonHeapGrow{};
+ template <typename T = IonHeapGrowFtraceEvent> T* set_ion_heap_grow() {
+ return BeginNestedMessage<T>(315);
+ }
+
+
+ using FieldMetadata_FenceInit =
+ ::protozero::proto_utils::FieldMetadata<
+ 316,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ FenceInitFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_FenceInit kFenceInit{};
+ template <typename T = FenceInitFtraceEvent> T* set_fence_init() {
+ return BeginNestedMessage<T>(316);
+ }
+
+
+ using FieldMetadata_FenceDestroy =
+ ::protozero::proto_utils::FieldMetadata<
+ 317,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ FenceDestroyFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_FenceDestroy kFenceDestroy{};
+ template <typename T = FenceDestroyFtraceEvent> T* set_fence_destroy() {
+ return BeginNestedMessage<T>(317);
+ }
+
+
+ using FieldMetadata_FenceEnableSignal =
+ ::protozero::proto_utils::FieldMetadata<
+ 318,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ FenceEnableSignalFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_FenceEnableSignal kFenceEnableSignal{};
+ template <typename T = FenceEnableSignalFtraceEvent> T* set_fence_enable_signal() {
+ return BeginNestedMessage<T>(318);
+ }
+
+
+ using FieldMetadata_FenceSignaled =
+ ::protozero::proto_utils::FieldMetadata<
+ 319,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ FenceSignaledFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_FenceSignaled kFenceSignaled{};
+ template <typename T = FenceSignaledFtraceEvent> T* set_fence_signaled() {
+ return BeginNestedMessage<T>(319);
+ }
+
+
+ using FieldMetadata_ClkEnable =
+ ::protozero::proto_utils::FieldMetadata<
+ 320,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ClkEnableFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_ClkEnable kClkEnable{};
+ template <typename T = ClkEnableFtraceEvent> T* set_clk_enable() {
+ return BeginNestedMessage<T>(320);
+ }
+
+
+ using FieldMetadata_ClkDisable =
+ ::protozero::proto_utils::FieldMetadata<
+ 321,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ClkDisableFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_ClkDisable kClkDisable{};
+ template <typename T = ClkDisableFtraceEvent> T* set_clk_disable() {
+ return BeginNestedMessage<T>(321);
+ }
+
+
+ using FieldMetadata_ClkSetRate =
+ ::protozero::proto_utils::FieldMetadata<
+ 322,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ClkSetRateFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_ClkSetRate kClkSetRate{};
+ template <typename T = ClkSetRateFtraceEvent> T* set_clk_set_rate() {
+ return BeginNestedMessage<T>(322);
+ }
+
+
+ using FieldMetadata_BinderTransactionAllocBuf =
+ ::protozero::proto_utils::FieldMetadata<
+ 323,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ BinderTransactionAllocBufFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_BinderTransactionAllocBuf kBinderTransactionAllocBuf{};
+ template <typename T = BinderTransactionAllocBufFtraceEvent> T* set_binder_transaction_alloc_buf() {
+ return BeginNestedMessage<T>(323);
+ }
+
+
+ using FieldMetadata_SignalDeliver =
+ ::protozero::proto_utils::FieldMetadata<
+ 324,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SignalDeliverFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_SignalDeliver kSignalDeliver{};
+ template <typename T = SignalDeliverFtraceEvent> T* set_signal_deliver() {
+ return BeginNestedMessage<T>(324);
+ }
+
+
+ using FieldMetadata_SignalGenerate =
+ ::protozero::proto_utils::FieldMetadata<
+ 325,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SignalGenerateFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_SignalGenerate kSignalGenerate{};
+ template <typename T = SignalGenerateFtraceEvent> T* set_signal_generate() {
+ return BeginNestedMessage<T>(325);
+ }
+
+
+ using FieldMetadata_OomScoreAdjUpdate =
+ ::protozero::proto_utils::FieldMetadata<
+ 326,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ OomScoreAdjUpdateFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_OomScoreAdjUpdate kOomScoreAdjUpdate{};
+ template <typename T = OomScoreAdjUpdateFtraceEvent> T* set_oom_score_adj_update() {
+ return BeginNestedMessage<T>(326);
+ }
+
+
+ using FieldMetadata_Generic =
+ ::protozero::proto_utils::FieldMetadata<
+ 327,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ GenericFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Generic kGeneric{};
+ template <typename T = GenericFtraceEvent> T* set_generic() {
+ return BeginNestedMessage<T>(327);
+ }
+
+
+ using FieldMetadata_MmEventRecord =
+ ::protozero::proto_utils::FieldMetadata<
+ 328,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MmEventRecordFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MmEventRecord kMmEventRecord{};
+ template <typename T = MmEventRecordFtraceEvent> T* set_mm_event_record() {
+ return BeginNestedMessage<T>(328);
+ }
+
+
+ using FieldMetadata_SysEnter =
+ ::protozero::proto_utils::FieldMetadata<
+ 329,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SysEnterFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_SysEnter kSysEnter{};
+ template <typename T = SysEnterFtraceEvent> T* set_sys_enter() {
+ return BeginNestedMessage<T>(329);
+ }
+
+
+ using FieldMetadata_SysExit =
+ ::protozero::proto_utils::FieldMetadata<
+ 330,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SysExitFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_SysExit kSysExit{};
+ template <typename T = SysExitFtraceEvent> T* set_sys_exit() {
+ return BeginNestedMessage<T>(330);
+ }
+
+
+ using FieldMetadata_Zero =
+ ::protozero::proto_utils::FieldMetadata<
+ 331,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ZeroFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Zero kZero{};
+ template <typename T = ZeroFtraceEvent> T* set_zero() {
+ return BeginNestedMessage<T>(331);
+ }
+
+
+ using FieldMetadata_GpuFrequency =
+ ::protozero::proto_utils::FieldMetadata<
+ 332,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ GpuFrequencyFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_GpuFrequency kGpuFrequency{};
+ template <typename T = GpuFrequencyFtraceEvent> T* set_gpu_frequency() {
+ return BeginNestedMessage<T>(332);
+ }
+
+
+ using FieldMetadata_SdeTracingMarkWrite =
+ ::protozero::proto_utils::FieldMetadata<
+ 333,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SdeTracingMarkWriteFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_SdeTracingMarkWrite kSdeTracingMarkWrite{};
+ template <typename T = SdeTracingMarkWriteFtraceEvent> T* set_sde_tracing_mark_write() {
+ return BeginNestedMessage<T>(333);
+ }
+
+
+ using FieldMetadata_MarkVictim =
+ ::protozero::proto_utils::FieldMetadata<
+ 334,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MarkVictimFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MarkVictim kMarkVictim{};
+ template <typename T = MarkVictimFtraceEvent> T* set_mark_victim() {
+ return BeginNestedMessage<T>(334);
+ }
+
+
+ using FieldMetadata_IonStat =
+ ::protozero::proto_utils::FieldMetadata<
+ 335,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ IonStatFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_IonStat kIonStat{};
+ template <typename T = IonStatFtraceEvent> T* set_ion_stat() {
+ return BeginNestedMessage<T>(335);
+ }
+
+
+ using FieldMetadata_IonBufferCreate =
+ ::protozero::proto_utils::FieldMetadata<
+ 336,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ IonBufferCreateFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_IonBufferCreate kIonBufferCreate{};
+ template <typename T = IonBufferCreateFtraceEvent> T* set_ion_buffer_create() {
+ return BeginNestedMessage<T>(336);
+ }
+
+
+ using FieldMetadata_IonBufferDestroy =
+ ::protozero::proto_utils::FieldMetadata<
+ 337,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ IonBufferDestroyFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_IonBufferDestroy kIonBufferDestroy{};
+ template <typename T = IonBufferDestroyFtraceEvent> T* set_ion_buffer_destroy() {
+ return BeginNestedMessage<T>(337);
+ }
+
+
+ using FieldMetadata_ScmCallStart =
+ ::protozero::proto_utils::FieldMetadata<
+ 338,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ScmCallStartFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_ScmCallStart kScmCallStart{};
+ template <typename T = ScmCallStartFtraceEvent> T* set_scm_call_start() {
+ return BeginNestedMessage<T>(338);
+ }
+
+
+ using FieldMetadata_ScmCallEnd =
+ ::protozero::proto_utils::FieldMetadata<
+ 339,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ScmCallEndFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_ScmCallEnd kScmCallEnd{};
+ template <typename T = ScmCallEndFtraceEvent> T* set_scm_call_end() {
+ return BeginNestedMessage<T>(339);
+ }
+
+
+ using FieldMetadata_GpuMemTotal =
+ ::protozero::proto_utils::FieldMetadata<
+ 340,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ GpuMemTotalFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_GpuMemTotal kGpuMemTotal{};
+ template <typename T = GpuMemTotalFtraceEvent> T* set_gpu_mem_total() {
+ return BeginNestedMessage<T>(340);
+ }
+
+
+ using FieldMetadata_ThermalTemperature =
+ ::protozero::proto_utils::FieldMetadata<
+ 341,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ThermalTemperatureFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_ThermalTemperature kThermalTemperature{};
+ template <typename T = ThermalTemperatureFtraceEvent> T* set_thermal_temperature() {
+ return BeginNestedMessage<T>(341);
+ }
+
+
+ using FieldMetadata_CdevUpdate =
+ ::protozero::proto_utils::FieldMetadata<
+ 342,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ CdevUpdateFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_CdevUpdate kCdevUpdate{};
+ template <typename T = CdevUpdateFtraceEvent> T* set_cdev_update() {
+ return BeginNestedMessage<T>(342);
+ }
+
+
+ using FieldMetadata_CpuhpExit =
+ ::protozero::proto_utils::FieldMetadata<
+ 343,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ CpuhpExitFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_CpuhpExit kCpuhpExit{};
+ template <typename T = CpuhpExitFtraceEvent> T* set_cpuhp_exit() {
+ return BeginNestedMessage<T>(343);
+ }
+
+
+ using FieldMetadata_CpuhpMultiEnter =
+ ::protozero::proto_utils::FieldMetadata<
+ 344,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ CpuhpMultiEnterFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_CpuhpMultiEnter kCpuhpMultiEnter{};
+ template <typename T = CpuhpMultiEnterFtraceEvent> T* set_cpuhp_multi_enter() {
+ return BeginNestedMessage<T>(344);
+ }
+
+
+ using FieldMetadata_CpuhpEnter =
+ ::protozero::proto_utils::FieldMetadata<
+ 345,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ CpuhpEnterFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_CpuhpEnter kCpuhpEnter{};
+ template <typename T = CpuhpEnterFtraceEvent> T* set_cpuhp_enter() {
+ return BeginNestedMessage<T>(345);
+ }
+
+
+ using FieldMetadata_CpuhpLatency =
+ ::protozero::proto_utils::FieldMetadata<
+ 346,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ CpuhpLatencyFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_CpuhpLatency kCpuhpLatency{};
+ template <typename T = CpuhpLatencyFtraceEvent> T* set_cpuhp_latency() {
+ return BeginNestedMessage<T>(346);
+ }
+
+
+ using FieldMetadata_FastrpcDmaStat =
+ ::protozero::proto_utils::FieldMetadata<
+ 347,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ FastrpcDmaStatFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_FastrpcDmaStat kFastrpcDmaStat{};
+ template <typename T = FastrpcDmaStatFtraceEvent> T* set_fastrpc_dma_stat() {
+ return BeginNestedMessage<T>(347);
+ }
+
+
+ using FieldMetadata_DpuTracingMarkWrite =
+ ::protozero::proto_utils::FieldMetadata<
+ 348,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ DpuTracingMarkWriteFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_DpuTracingMarkWrite kDpuTracingMarkWrite{};
+ template <typename T = DpuTracingMarkWriteFtraceEvent> T* set_dpu_tracing_mark_write() {
+ return BeginNestedMessage<T>(348);
+ }
+
+
+ using FieldMetadata_G2dTracingMarkWrite =
+ ::protozero::proto_utils::FieldMetadata<
+ 349,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ G2dTracingMarkWriteFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_G2dTracingMarkWrite kG2dTracingMarkWrite{};
+ template <typename T = G2dTracingMarkWriteFtraceEvent> T* set_g2d_tracing_mark_write() {
+ return BeginNestedMessage<T>(349);
+ }
+
+
+ using FieldMetadata_MaliTracingMarkWrite =
+ ::protozero::proto_utils::FieldMetadata<
+ 350,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MaliTracingMarkWriteFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MaliTracingMarkWrite kMaliTracingMarkWrite{};
+ template <typename T = MaliTracingMarkWriteFtraceEvent> T* set_mali_tracing_mark_write() {
+ return BeginNestedMessage<T>(350);
+ }
+
+
+ using FieldMetadata_DmaHeapStat =
+ ::protozero::proto_utils::FieldMetadata<
+ 351,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ DmaHeapStatFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_DmaHeapStat kDmaHeapStat{};
+ template <typename T = DmaHeapStatFtraceEvent> T* set_dma_heap_stat() {
+ return BeginNestedMessage<T>(351);
+ }
+
+
+ using FieldMetadata_CpuhpPause =
+ ::protozero::proto_utils::FieldMetadata<
+ 352,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ CpuhpPauseFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_CpuhpPause kCpuhpPause{};
+ template <typename T = CpuhpPauseFtraceEvent> T* set_cpuhp_pause() {
+ return BeginNestedMessage<T>(352);
+ }
+
+
+ using FieldMetadata_SchedPiSetprio =
+ ::protozero::proto_utils::FieldMetadata<
+ 353,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SchedPiSetprioFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_SchedPiSetprio kSchedPiSetprio{};
+ template <typename T = SchedPiSetprioFtraceEvent> T* set_sched_pi_setprio() {
+ return BeginNestedMessage<T>(353);
+ }
+
+
+ using FieldMetadata_SdeSdeEvtlog =
+ ::protozero::proto_utils::FieldMetadata<
+ 354,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SdeSdeEvtlogFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_SdeSdeEvtlog kSdeSdeEvtlog{};
+ template <typename T = SdeSdeEvtlogFtraceEvent> T* set_sde_sde_evtlog() {
+ return BeginNestedMessage<T>(354);
+ }
+
+
+ using FieldMetadata_SdeSdePerfCalcCrtc =
+ ::protozero::proto_utils::FieldMetadata<
+ 355,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SdeSdePerfCalcCrtcFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_SdeSdePerfCalcCrtc kSdeSdePerfCalcCrtc{};
+ template <typename T = SdeSdePerfCalcCrtcFtraceEvent> T* set_sde_sde_perf_calc_crtc() {
+ return BeginNestedMessage<T>(355);
+ }
+
+
+ using FieldMetadata_SdeSdePerfCrtcUpdate =
+ ::protozero::proto_utils::FieldMetadata<
+ 356,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SdeSdePerfCrtcUpdateFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_SdeSdePerfCrtcUpdate kSdeSdePerfCrtcUpdate{};
+ template <typename T = SdeSdePerfCrtcUpdateFtraceEvent> T* set_sde_sde_perf_crtc_update() {
+ return BeginNestedMessage<T>(356);
+ }
+
+
+ using FieldMetadata_SdeSdePerfSetQosLuts =
+ ::protozero::proto_utils::FieldMetadata<
+ 357,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SdeSdePerfSetQosLutsFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_SdeSdePerfSetQosLuts kSdeSdePerfSetQosLuts{};
+ template <typename T = SdeSdePerfSetQosLutsFtraceEvent> T* set_sde_sde_perf_set_qos_luts() {
+ return BeginNestedMessage<T>(357);
+ }
+
+
+ using FieldMetadata_SdeSdePerfUpdateBus =
+ ::protozero::proto_utils::FieldMetadata<
+ 358,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SdeSdePerfUpdateBusFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_SdeSdePerfUpdateBus kSdeSdePerfUpdateBus{};
+ template <typename T = SdeSdePerfUpdateBusFtraceEvent> T* set_sde_sde_perf_update_bus() {
+ return BeginNestedMessage<T>(358);
+ }
+
+
+ using FieldMetadata_RssStatThrottled =
+ ::protozero::proto_utils::FieldMetadata<
+ 359,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ RssStatThrottledFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_RssStatThrottled kRssStatThrottled{};
+ template <typename T = RssStatThrottledFtraceEvent> T* set_rss_stat_throttled() {
+ return BeginNestedMessage<T>(359);
+ }
+
+
+ using FieldMetadata_NetifReceiveSkb =
+ ::protozero::proto_utils::FieldMetadata<
+ 360,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ NetifReceiveSkbFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_NetifReceiveSkb kNetifReceiveSkb{};
+ template <typename T = NetifReceiveSkbFtraceEvent> T* set_netif_receive_skb() {
+ return BeginNestedMessage<T>(360);
+ }
+
+
+ using FieldMetadata_NetDevXmit =
+ ::protozero::proto_utils::FieldMetadata<
+ 361,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ NetDevXmitFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_NetDevXmit kNetDevXmit{};
+ template <typename T = NetDevXmitFtraceEvent> T* set_net_dev_xmit() {
+ return BeginNestedMessage<T>(361);
+ }
+
+
+ using FieldMetadata_InetSockSetState =
+ ::protozero::proto_utils::FieldMetadata<
+ 362,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ InetSockSetStateFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_InetSockSetState kInetSockSetState{};
+ template <typename T = InetSockSetStateFtraceEvent> T* set_inet_sock_set_state() {
+ return BeginNestedMessage<T>(362);
+ }
+
+
+ using FieldMetadata_TcpRetransmitSkb =
+ ::protozero::proto_utils::FieldMetadata<
+ 363,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TcpRetransmitSkbFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_TcpRetransmitSkb kTcpRetransmitSkb{};
+ template <typename T = TcpRetransmitSkbFtraceEvent> T* set_tcp_retransmit_skb() {
+ return BeginNestedMessage<T>(363);
+ }
+
+
+ using FieldMetadata_CrosEcSensorhubData =
+ ::protozero::proto_utils::FieldMetadata<
+ 364,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ CrosEcSensorhubDataFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_CrosEcSensorhubData kCrosEcSensorhubData{};
+ template <typename T = CrosEcSensorhubDataFtraceEvent> T* set_cros_ec_sensorhub_data() {
+ return BeginNestedMessage<T>(364);
+ }
+
+
+ using FieldMetadata_NapiGroReceiveEntry =
+ ::protozero::proto_utils::FieldMetadata<
+ 365,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ NapiGroReceiveEntryFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_NapiGroReceiveEntry kNapiGroReceiveEntry{};
+ template <typename T = NapiGroReceiveEntryFtraceEvent> T* set_napi_gro_receive_entry() {
+ return BeginNestedMessage<T>(365);
+ }
+
+
+ using FieldMetadata_NapiGroReceiveExit =
+ ::protozero::proto_utils::FieldMetadata<
+ 366,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ NapiGroReceiveExitFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_NapiGroReceiveExit kNapiGroReceiveExit{};
+ template <typename T = NapiGroReceiveExitFtraceEvent> T* set_napi_gro_receive_exit() {
+ return BeginNestedMessage<T>(366);
+ }
+
+
+ using FieldMetadata_KfreeSkb =
+ ::protozero::proto_utils::FieldMetadata<
+ 367,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ KfreeSkbFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_KfreeSkb kKfreeSkb{};
+ template <typename T = KfreeSkbFtraceEvent> T* set_kfree_skb() {
+ return BeginNestedMessage<T>(367);
+ }
+
+
+ using FieldMetadata_KvmAccessFault =
+ ::protozero::proto_utils::FieldMetadata<
+ 368,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ KvmAccessFaultFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_KvmAccessFault kKvmAccessFault{};
+ template <typename T = KvmAccessFaultFtraceEvent> T* set_kvm_access_fault() {
+ return BeginNestedMessage<T>(368);
+ }
+
+
+ using FieldMetadata_KvmAckIrq =
+ ::protozero::proto_utils::FieldMetadata<
+ 369,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ KvmAckIrqFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_KvmAckIrq kKvmAckIrq{};
+ template <typename T = KvmAckIrqFtraceEvent> T* set_kvm_ack_irq() {
+ return BeginNestedMessage<T>(369);
+ }
+
+
+ using FieldMetadata_KvmAgeHva =
+ ::protozero::proto_utils::FieldMetadata<
+ 370,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ KvmAgeHvaFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_KvmAgeHva kKvmAgeHva{};
+ template <typename T = KvmAgeHvaFtraceEvent> T* set_kvm_age_hva() {
+ return BeginNestedMessage<T>(370);
+ }
+
+
+ using FieldMetadata_KvmAgePage =
+ ::protozero::proto_utils::FieldMetadata<
+ 371,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ KvmAgePageFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_KvmAgePage kKvmAgePage{};
+ template <typename T = KvmAgePageFtraceEvent> T* set_kvm_age_page() {
+ return BeginNestedMessage<T>(371);
+ }
+
+
+ using FieldMetadata_KvmArmClearDebug =
+ ::protozero::proto_utils::FieldMetadata<
+ 372,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ KvmArmClearDebugFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_KvmArmClearDebug kKvmArmClearDebug{};
+ template <typename T = KvmArmClearDebugFtraceEvent> T* set_kvm_arm_clear_debug() {
+ return BeginNestedMessage<T>(372);
+ }
+
+
+ using FieldMetadata_KvmArmSetDreg32 =
+ ::protozero::proto_utils::FieldMetadata<
+ 373,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ KvmArmSetDreg32FtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_KvmArmSetDreg32 kKvmArmSetDreg32{};
+ template <typename T = KvmArmSetDreg32FtraceEvent> T* set_kvm_arm_set_dreg32() {
+ return BeginNestedMessage<T>(373);
+ }
+
+
+ using FieldMetadata_KvmArmSetRegset =
+ ::protozero::proto_utils::FieldMetadata<
+ 374,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ KvmArmSetRegsetFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_KvmArmSetRegset kKvmArmSetRegset{};
+ template <typename T = KvmArmSetRegsetFtraceEvent> T* set_kvm_arm_set_regset() {
+ return BeginNestedMessage<T>(374);
+ }
+
+
+ using FieldMetadata_KvmArmSetupDebug =
+ ::protozero::proto_utils::FieldMetadata<
+ 375,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ KvmArmSetupDebugFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_KvmArmSetupDebug kKvmArmSetupDebug{};
+ template <typename T = KvmArmSetupDebugFtraceEvent> T* set_kvm_arm_setup_debug() {
+ return BeginNestedMessage<T>(375);
+ }
+
+
+ using FieldMetadata_KvmEntry =
+ ::protozero::proto_utils::FieldMetadata<
+ 376,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ KvmEntryFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_KvmEntry kKvmEntry{};
+ template <typename T = KvmEntryFtraceEvent> T* set_kvm_entry() {
+ return BeginNestedMessage<T>(376);
+ }
+
+
+ using FieldMetadata_KvmExit =
+ ::protozero::proto_utils::FieldMetadata<
+ 377,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ KvmExitFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_KvmExit kKvmExit{};
+ template <typename T = KvmExitFtraceEvent> T* set_kvm_exit() {
+ return BeginNestedMessage<T>(377);
+ }
+
+
+ using FieldMetadata_KvmFpu =
+ ::protozero::proto_utils::FieldMetadata<
+ 378,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ KvmFpuFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_KvmFpu kKvmFpu{};
+ template <typename T = KvmFpuFtraceEvent> T* set_kvm_fpu() {
+ return BeginNestedMessage<T>(378);
+ }
+
+
+ using FieldMetadata_KvmGetTimerMap =
+ ::protozero::proto_utils::FieldMetadata<
+ 379,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ KvmGetTimerMapFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_KvmGetTimerMap kKvmGetTimerMap{};
+ template <typename T = KvmGetTimerMapFtraceEvent> T* set_kvm_get_timer_map() {
+ return BeginNestedMessage<T>(379);
+ }
+
+
+ using FieldMetadata_KvmGuestFault =
+ ::protozero::proto_utils::FieldMetadata<
+ 380,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ KvmGuestFaultFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_KvmGuestFault kKvmGuestFault{};
+ template <typename T = KvmGuestFaultFtraceEvent> T* set_kvm_guest_fault() {
+ return BeginNestedMessage<T>(380);
+ }
+
+
+ using FieldMetadata_KvmHandleSysReg =
+ ::protozero::proto_utils::FieldMetadata<
+ 381,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ KvmHandleSysRegFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_KvmHandleSysReg kKvmHandleSysReg{};
+ template <typename T = KvmHandleSysRegFtraceEvent> T* set_kvm_handle_sys_reg() {
+ return BeginNestedMessage<T>(381);
+ }
+
+
+ using FieldMetadata_KvmHvcArm64 =
+ ::protozero::proto_utils::FieldMetadata<
+ 382,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ KvmHvcArm64FtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_KvmHvcArm64 kKvmHvcArm64{};
+ template <typename T = KvmHvcArm64FtraceEvent> T* set_kvm_hvc_arm64() {
+ return BeginNestedMessage<T>(382);
+ }
+
+
+ using FieldMetadata_KvmIrqLine =
+ ::protozero::proto_utils::FieldMetadata<
+ 383,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ KvmIrqLineFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_KvmIrqLine kKvmIrqLine{};
+ template <typename T = KvmIrqLineFtraceEvent> T* set_kvm_irq_line() {
+ return BeginNestedMessage<T>(383);
+ }
+
+
+ using FieldMetadata_KvmMmio =
+ ::protozero::proto_utils::FieldMetadata<
+ 384,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ KvmMmioFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_KvmMmio kKvmMmio{};
+ template <typename T = KvmMmioFtraceEvent> T* set_kvm_mmio() {
+ return BeginNestedMessage<T>(384);
+ }
+
+
+ using FieldMetadata_KvmMmioEmulate =
+ ::protozero::proto_utils::FieldMetadata<
+ 385,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ KvmMmioEmulateFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_KvmMmioEmulate kKvmMmioEmulate{};
+ template <typename T = KvmMmioEmulateFtraceEvent> T* set_kvm_mmio_emulate() {
+ return BeginNestedMessage<T>(385);
+ }
+
+
+ using FieldMetadata_KvmSetGuestDebug =
+ ::protozero::proto_utils::FieldMetadata<
+ 386,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ KvmSetGuestDebugFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_KvmSetGuestDebug kKvmSetGuestDebug{};
+ template <typename T = KvmSetGuestDebugFtraceEvent> T* set_kvm_set_guest_debug() {
+ return BeginNestedMessage<T>(386);
+ }
+
+
+ using FieldMetadata_KvmSetIrq =
+ ::protozero::proto_utils::FieldMetadata<
+ 387,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ KvmSetIrqFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_KvmSetIrq kKvmSetIrq{};
+ template <typename T = KvmSetIrqFtraceEvent> T* set_kvm_set_irq() {
+ return BeginNestedMessage<T>(387);
+ }
+
+
+ using FieldMetadata_KvmSetSpteHva =
+ ::protozero::proto_utils::FieldMetadata<
+ 388,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ KvmSetSpteHvaFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_KvmSetSpteHva kKvmSetSpteHva{};
+ template <typename T = KvmSetSpteHvaFtraceEvent> T* set_kvm_set_spte_hva() {
+ return BeginNestedMessage<T>(388);
+ }
+
+
+ using FieldMetadata_KvmSetWayFlush =
+ ::protozero::proto_utils::FieldMetadata<
+ 389,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ KvmSetWayFlushFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_KvmSetWayFlush kKvmSetWayFlush{};
+ template <typename T = KvmSetWayFlushFtraceEvent> T* set_kvm_set_way_flush() {
+ return BeginNestedMessage<T>(389);
+ }
+
+
+ using FieldMetadata_KvmSysAccess =
+ ::protozero::proto_utils::FieldMetadata<
+ 390,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ KvmSysAccessFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_KvmSysAccess kKvmSysAccess{};
+ template <typename T = KvmSysAccessFtraceEvent> T* set_kvm_sys_access() {
+ return BeginNestedMessage<T>(390);
+ }
+
+
+ using FieldMetadata_KvmTestAgeHva =
+ ::protozero::proto_utils::FieldMetadata<
+ 391,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ KvmTestAgeHvaFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_KvmTestAgeHva kKvmTestAgeHva{};
+ template <typename T = KvmTestAgeHvaFtraceEvent> T* set_kvm_test_age_hva() {
+ return BeginNestedMessage<T>(391);
+ }
+
+
+ using FieldMetadata_KvmTimerEmulate =
+ ::protozero::proto_utils::FieldMetadata<
+ 392,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ KvmTimerEmulateFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_KvmTimerEmulate kKvmTimerEmulate{};
+ template <typename T = KvmTimerEmulateFtraceEvent> T* set_kvm_timer_emulate() {
+ return BeginNestedMessage<T>(392);
+ }
+
+
+ using FieldMetadata_KvmTimerHrtimerExpire =
+ ::protozero::proto_utils::FieldMetadata<
+ 393,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ KvmTimerHrtimerExpireFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_KvmTimerHrtimerExpire kKvmTimerHrtimerExpire{};
+ template <typename T = KvmTimerHrtimerExpireFtraceEvent> T* set_kvm_timer_hrtimer_expire() {
+ return BeginNestedMessage<T>(393);
+ }
+
+
+ using FieldMetadata_KvmTimerRestoreState =
+ ::protozero::proto_utils::FieldMetadata<
+ 394,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ KvmTimerRestoreStateFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_KvmTimerRestoreState kKvmTimerRestoreState{};
+ template <typename T = KvmTimerRestoreStateFtraceEvent> T* set_kvm_timer_restore_state() {
+ return BeginNestedMessage<T>(394);
+ }
+
+
+ using FieldMetadata_KvmTimerSaveState =
+ ::protozero::proto_utils::FieldMetadata<
+ 395,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ KvmTimerSaveStateFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_KvmTimerSaveState kKvmTimerSaveState{};
+ template <typename T = KvmTimerSaveStateFtraceEvent> T* set_kvm_timer_save_state() {
+ return BeginNestedMessage<T>(395);
+ }
+
+
+ using FieldMetadata_KvmTimerUpdateIrq =
+ ::protozero::proto_utils::FieldMetadata<
+ 396,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ KvmTimerUpdateIrqFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_KvmTimerUpdateIrq kKvmTimerUpdateIrq{};
+ template <typename T = KvmTimerUpdateIrqFtraceEvent> T* set_kvm_timer_update_irq() {
+ return BeginNestedMessage<T>(396);
+ }
+
+
+ using FieldMetadata_KvmToggleCache =
+ ::protozero::proto_utils::FieldMetadata<
+ 397,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ KvmToggleCacheFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_KvmToggleCache kKvmToggleCache{};
+ template <typename T = KvmToggleCacheFtraceEvent> T* set_kvm_toggle_cache() {
+ return BeginNestedMessage<T>(397);
+ }
+
+
+ using FieldMetadata_KvmUnmapHvaRange =
+ ::protozero::proto_utils::FieldMetadata<
+ 398,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ KvmUnmapHvaRangeFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_KvmUnmapHvaRange kKvmUnmapHvaRange{};
+ template <typename T = KvmUnmapHvaRangeFtraceEvent> T* set_kvm_unmap_hva_range() {
+ return BeginNestedMessage<T>(398);
+ }
+
+
+ using FieldMetadata_KvmUserspaceExit =
+ ::protozero::proto_utils::FieldMetadata<
+ 399,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ KvmUserspaceExitFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_KvmUserspaceExit kKvmUserspaceExit{};
+ template <typename T = KvmUserspaceExitFtraceEvent> T* set_kvm_userspace_exit() {
+ return BeginNestedMessage<T>(399);
+ }
+
+
+ using FieldMetadata_KvmVcpuWakeup =
+ ::protozero::proto_utils::FieldMetadata<
+ 400,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ KvmVcpuWakeupFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_KvmVcpuWakeup kKvmVcpuWakeup{};
+ template <typename T = KvmVcpuWakeupFtraceEvent> T* set_kvm_vcpu_wakeup() {
+ return BeginNestedMessage<T>(400);
+ }
+
+
+ using FieldMetadata_KvmWfxArm64 =
+ ::protozero::proto_utils::FieldMetadata<
+ 401,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ KvmWfxArm64FtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_KvmWfxArm64 kKvmWfxArm64{};
+ template <typename T = KvmWfxArm64FtraceEvent> T* set_kvm_wfx_arm64() {
+ return BeginNestedMessage<T>(401);
+ }
+
+
+ using FieldMetadata_TrapReg =
+ ::protozero::proto_utils::FieldMetadata<
+ 402,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TrapRegFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_TrapReg kTrapReg{};
+ template <typename T = TrapRegFtraceEvent> T* set_trap_reg() {
+ return BeginNestedMessage<T>(402);
+ }
+
+
+ using FieldMetadata_VgicUpdateIrqPending =
+ ::protozero::proto_utils::FieldMetadata<
+ 403,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ VgicUpdateIrqPendingFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_VgicUpdateIrqPending kVgicUpdateIrqPending{};
+ template <typename T = VgicUpdateIrqPendingFtraceEvent> T* set_vgic_update_irq_pending() {
+ return BeginNestedMessage<T>(403);
+ }
+
+
+ using FieldMetadata_WakeupSourceActivate =
+ ::protozero::proto_utils::FieldMetadata<
+ 404,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ WakeupSourceActivateFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_WakeupSourceActivate kWakeupSourceActivate{};
+ template <typename T = WakeupSourceActivateFtraceEvent> T* set_wakeup_source_activate() {
+ return BeginNestedMessage<T>(404);
+ }
+
+
+ using FieldMetadata_WakeupSourceDeactivate =
+ ::protozero::proto_utils::FieldMetadata<
+ 405,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ WakeupSourceDeactivateFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_WakeupSourceDeactivate kWakeupSourceDeactivate{};
+ template <typename T = WakeupSourceDeactivateFtraceEvent> T* set_wakeup_source_deactivate() {
+ return BeginNestedMessage<T>(405);
+ }
+
+
+ using FieldMetadata_UfshcdCommand =
+ ::protozero::proto_utils::FieldMetadata<
+ 406,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ UfshcdCommandFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_UfshcdCommand kUfshcdCommand{};
+ template <typename T = UfshcdCommandFtraceEvent> T* set_ufshcd_command() {
+ return BeginNestedMessage<T>(406);
+ }
+
+
+ using FieldMetadata_UfshcdClkGating =
+ ::protozero::proto_utils::FieldMetadata<
+ 407,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ UfshcdClkGatingFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_UfshcdClkGating kUfshcdClkGating{};
+ template <typename T = UfshcdClkGatingFtraceEvent> T* set_ufshcd_clk_gating() {
+ return BeginNestedMessage<T>(407);
+ }
+
+
+ using FieldMetadata_Console =
+ ::protozero::proto_utils::FieldMetadata<
+ 408,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ConsoleFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Console kConsole{};
+ template <typename T = ConsoleFtraceEvent> T* set_console() {
+ return BeginNestedMessage<T>(408);
+ }
+
+
+ using FieldMetadata_DrmVblankEvent =
+ ::protozero::proto_utils::FieldMetadata<
+ 409,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ DrmVblankEventFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_DrmVblankEvent kDrmVblankEvent{};
+ template <typename T = DrmVblankEventFtraceEvent> T* set_drm_vblank_event() {
+ return BeginNestedMessage<T>(409);
+ }
+
+
+ using FieldMetadata_DrmVblankEventDelivered =
+ ::protozero::proto_utils::FieldMetadata<
+ 410,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ DrmVblankEventDeliveredFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_DrmVblankEventDelivered kDrmVblankEventDelivered{};
+ template <typename T = DrmVblankEventDeliveredFtraceEvent> T* set_drm_vblank_event_delivered() {
+ return BeginNestedMessage<T>(410);
+ }
+
+
+ using FieldMetadata_DrmSchedJob =
+ ::protozero::proto_utils::FieldMetadata<
+ 411,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ DrmSchedJobFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_DrmSchedJob kDrmSchedJob{};
+ template <typename T = DrmSchedJobFtraceEvent> T* set_drm_sched_job() {
+ return BeginNestedMessage<T>(411);
+ }
+
+
+ using FieldMetadata_DrmRunJob =
+ ::protozero::proto_utils::FieldMetadata<
+ 412,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ DrmRunJobFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_DrmRunJob kDrmRunJob{};
+ template <typename T = DrmRunJobFtraceEvent> T* set_drm_run_job() {
+ return BeginNestedMessage<T>(412);
+ }
+
+
+ using FieldMetadata_DrmSchedProcessJob =
+ ::protozero::proto_utils::FieldMetadata<
+ 413,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ DrmSchedProcessJobFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_DrmSchedProcessJob kDrmSchedProcessJob{};
+ template <typename T = DrmSchedProcessJobFtraceEvent> T* set_drm_sched_process_job() {
+ return BeginNestedMessage<T>(413);
+ }
+
+
+ using FieldMetadata_DmaFenceInit =
+ ::protozero::proto_utils::FieldMetadata<
+ 414,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ DmaFenceInitFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_DmaFenceInit kDmaFenceInit{};
+ template <typename T = DmaFenceInitFtraceEvent> T* set_dma_fence_init() {
+ return BeginNestedMessage<T>(414);
+ }
+
+
+ using FieldMetadata_DmaFenceEmit =
+ ::protozero::proto_utils::FieldMetadata<
+ 415,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ DmaFenceEmitFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_DmaFenceEmit kDmaFenceEmit{};
+ template <typename T = DmaFenceEmitFtraceEvent> T* set_dma_fence_emit() {
+ return BeginNestedMessage<T>(415);
+ }
+
+
+ using FieldMetadata_DmaFenceSignaled =
+ ::protozero::proto_utils::FieldMetadata<
+ 416,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ DmaFenceSignaledFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_DmaFenceSignaled kDmaFenceSignaled{};
+ template <typename T = DmaFenceSignaledFtraceEvent> T* set_dma_fence_signaled() {
+ return BeginNestedMessage<T>(416);
+ }
+
+
+ using FieldMetadata_DmaFenceWaitStart =
+ ::protozero::proto_utils::FieldMetadata<
+ 417,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ DmaFenceWaitStartFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_DmaFenceWaitStart kDmaFenceWaitStart{};
+ template <typename T = DmaFenceWaitStartFtraceEvent> T* set_dma_fence_wait_start() {
+ return BeginNestedMessage<T>(417);
+ }
+
+
+ using FieldMetadata_DmaFenceWaitEnd =
+ ::protozero::proto_utils::FieldMetadata<
+ 418,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ DmaFenceWaitEndFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_DmaFenceWaitEnd kDmaFenceWaitEnd{};
+ template <typename T = DmaFenceWaitEndFtraceEvent> T* set_dma_fence_wait_end() {
+ return BeginNestedMessage<T>(418);
+ }
+
+
+ using FieldMetadata_F2fsIostat =
+ ::protozero::proto_utils::FieldMetadata<
+ 419,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ F2fsIostatFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_F2fsIostat kF2fsIostat{};
+ template <typename T = F2fsIostatFtraceEvent> T* set_f2fs_iostat() {
+ return BeginNestedMessage<T>(419);
+ }
+
+
+ using FieldMetadata_F2fsIostatLatency =
+ ::protozero::proto_utils::FieldMetadata<
+ 420,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ F2fsIostatLatencyFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_F2fsIostatLatency kF2fsIostatLatency{};
+ template <typename T = F2fsIostatLatencyFtraceEvent> T* set_f2fs_iostat_latency() {
+ return BeginNestedMessage<T>(420);
+ }
+
+
+ using FieldMetadata_SchedCpuUtilCfs =
+ ::protozero::proto_utils::FieldMetadata<
+ 421,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SchedCpuUtilCfsFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_SchedCpuUtilCfs kSchedCpuUtilCfs{};
+ template <typename T = SchedCpuUtilCfsFtraceEvent> T* set_sched_cpu_util_cfs() {
+ return BeginNestedMessage<T>(421);
+ }
+
+
+ using FieldMetadata_V4l2Qbuf =
+ ::protozero::proto_utils::FieldMetadata<
+ 422,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ V4l2QbufFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_V4l2Qbuf kV4l2Qbuf{};
+ template <typename T = V4l2QbufFtraceEvent> T* set_v4l2_qbuf() {
+ return BeginNestedMessage<T>(422);
+ }
+
+
+ using FieldMetadata_V4l2Dqbuf =
+ ::protozero::proto_utils::FieldMetadata<
+ 423,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ V4l2DqbufFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_V4l2Dqbuf kV4l2Dqbuf{};
+ template <typename T = V4l2DqbufFtraceEvent> T* set_v4l2_dqbuf() {
+ return BeginNestedMessage<T>(423);
+ }
+
+
+ using FieldMetadata_Vb2V4l2BufQueue =
+ ::protozero::proto_utils::FieldMetadata<
+ 424,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Vb2V4l2BufQueueFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Vb2V4l2BufQueue kVb2V4l2BufQueue{};
+ template <typename T = Vb2V4l2BufQueueFtraceEvent> T* set_vb2_v4l2_buf_queue() {
+ return BeginNestedMessage<T>(424);
+ }
+
+
+ using FieldMetadata_Vb2V4l2BufDone =
+ ::protozero::proto_utils::FieldMetadata<
+ 425,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Vb2V4l2BufDoneFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Vb2V4l2BufDone kVb2V4l2BufDone{};
+ template <typename T = Vb2V4l2BufDoneFtraceEvent> T* set_vb2_v4l2_buf_done() {
+ return BeginNestedMessage<T>(425);
+ }
+
+
+ using FieldMetadata_Vb2V4l2Qbuf =
+ ::protozero::proto_utils::FieldMetadata<
+ 426,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Vb2V4l2QbufFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Vb2V4l2Qbuf kVb2V4l2Qbuf{};
+ template <typename T = Vb2V4l2QbufFtraceEvent> T* set_vb2_v4l2_qbuf() {
+ return BeginNestedMessage<T>(426);
+ }
+
+
+ using FieldMetadata_Vb2V4l2Dqbuf =
+ ::protozero::proto_utils::FieldMetadata<
+ 427,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Vb2V4l2DqbufFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_Vb2V4l2Dqbuf kVb2V4l2Dqbuf{};
+ template <typename T = Vb2V4l2DqbufFtraceEvent> T* set_vb2_v4l2_dqbuf() {
+ return BeginNestedMessage<T>(427);
+ }
+
+
+ using FieldMetadata_DsiCmdFifoStatus =
+ ::protozero::proto_utils::FieldMetadata<
+ 428,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ DsiCmdFifoStatusFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_DsiCmdFifoStatus kDsiCmdFifoStatus{};
+ template <typename T = DsiCmdFifoStatusFtraceEvent> T* set_dsi_cmd_fifo_status() {
+ return BeginNestedMessage<T>(428);
+ }
+
+
+ using FieldMetadata_DsiRx =
+ ::protozero::proto_utils::FieldMetadata<
+ 429,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ DsiRxFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_DsiRx kDsiRx{};
+ template <typename T = DsiRxFtraceEvent> T* set_dsi_rx() {
+ return BeginNestedMessage<T>(429);
+ }
+
+
+ using FieldMetadata_DsiTx =
+ ::protozero::proto_utils::FieldMetadata<
+ 430,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ DsiTxFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_DsiTx kDsiTx{};
+ template <typename T = DsiTxFtraceEvent> T* set_dsi_tx() {
+ return BeginNestedMessage<T>(430);
+ }
+
+
+ using FieldMetadata_AndroidFsDatareadEnd =
+ ::protozero::proto_utils::FieldMetadata<
+ 431,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ AndroidFsDatareadEndFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_AndroidFsDatareadEnd kAndroidFsDatareadEnd{};
+ template <typename T = AndroidFsDatareadEndFtraceEvent> T* set_android_fs_dataread_end() {
+ return BeginNestedMessage<T>(431);
+ }
+
+
+ using FieldMetadata_AndroidFsDatareadStart =
+ ::protozero::proto_utils::FieldMetadata<
+ 432,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ AndroidFsDatareadStartFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_AndroidFsDatareadStart kAndroidFsDatareadStart{};
+ template <typename T = AndroidFsDatareadStartFtraceEvent> T* set_android_fs_dataread_start() {
+ return BeginNestedMessage<T>(432);
+ }
+
+
+ using FieldMetadata_AndroidFsDatawriteEnd =
+ ::protozero::proto_utils::FieldMetadata<
+ 433,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ AndroidFsDatawriteEndFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_AndroidFsDatawriteEnd kAndroidFsDatawriteEnd{};
+ template <typename T = AndroidFsDatawriteEndFtraceEvent> T* set_android_fs_datawrite_end() {
+ return BeginNestedMessage<T>(433);
+ }
+
+
+ using FieldMetadata_AndroidFsDatawriteStart =
+ ::protozero::proto_utils::FieldMetadata<
+ 434,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ AndroidFsDatawriteStartFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_AndroidFsDatawriteStart kAndroidFsDatawriteStart{};
+ template <typename T = AndroidFsDatawriteStartFtraceEvent> T* set_android_fs_datawrite_start() {
+ return BeginNestedMessage<T>(434);
+ }
+
+
+ using FieldMetadata_AndroidFsFsyncEnd =
+ ::protozero::proto_utils::FieldMetadata<
+ 435,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ AndroidFsFsyncEndFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_AndroidFsFsyncEnd kAndroidFsFsyncEnd{};
+ template <typename T = AndroidFsFsyncEndFtraceEvent> T* set_android_fs_fsync_end() {
+ return BeginNestedMessage<T>(435);
+ }
+
+
+ using FieldMetadata_AndroidFsFsyncStart =
+ ::protozero::proto_utils::FieldMetadata<
+ 436,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ AndroidFsFsyncStartFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_AndroidFsFsyncStart kAndroidFsFsyncStart{};
+ template <typename T = AndroidFsFsyncStartFtraceEvent> T* set_android_fs_fsync_start() {
+ return BeginNestedMessage<T>(436);
+ }
+
+
+ using FieldMetadata_FuncgraphEntry =
+ ::protozero::proto_utils::FieldMetadata<
+ 437,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ FuncgraphEntryFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_FuncgraphEntry kFuncgraphEntry{};
+ template <typename T = FuncgraphEntryFtraceEvent> T* set_funcgraph_entry() {
+ return BeginNestedMessage<T>(437);
+ }
+
+
+ using FieldMetadata_FuncgraphExit =
+ ::protozero::proto_utils::FieldMetadata<
+ 438,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ FuncgraphExitFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_FuncgraphExit kFuncgraphExit{};
+ template <typename T = FuncgraphExitFtraceEvent> T* set_funcgraph_exit() {
+ return BeginNestedMessage<T>(438);
+ }
+
+
+ using FieldMetadata_VirtioVideoCmd =
+ ::protozero::proto_utils::FieldMetadata<
+ 439,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ VirtioVideoCmdFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_VirtioVideoCmd kVirtioVideoCmd{};
+ template <typename T = VirtioVideoCmdFtraceEvent> T* set_virtio_video_cmd() {
+ return BeginNestedMessage<T>(439);
+ }
+
+
+ using FieldMetadata_VirtioVideoCmdDone =
+ ::protozero::proto_utils::FieldMetadata<
+ 440,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ VirtioVideoCmdDoneFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_VirtioVideoCmdDone kVirtioVideoCmdDone{};
+ template <typename T = VirtioVideoCmdDoneFtraceEvent> T* set_virtio_video_cmd_done() {
+ return BeginNestedMessage<T>(440);
+ }
+
+
+ using FieldMetadata_VirtioVideoResourceQueue =
+ ::protozero::proto_utils::FieldMetadata<
+ 441,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ VirtioVideoResourceQueueFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_VirtioVideoResourceQueue kVirtioVideoResourceQueue{};
+ template <typename T = VirtioVideoResourceQueueFtraceEvent> T* set_virtio_video_resource_queue() {
+ return BeginNestedMessage<T>(441);
+ }
+
+
+ using FieldMetadata_VirtioVideoResourceQueueDone =
+ ::protozero::proto_utils::FieldMetadata<
+ 442,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ VirtioVideoResourceQueueDoneFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_VirtioVideoResourceQueueDone kVirtioVideoResourceQueueDone{};
+ template <typename T = VirtioVideoResourceQueueDoneFtraceEvent> T* set_virtio_video_resource_queue_done() {
+ return BeginNestedMessage<T>(442);
+ }
+
+
+ using FieldMetadata_MmShrinkSlabStart =
+ ::protozero::proto_utils::FieldMetadata<
+ 443,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MmShrinkSlabStartFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MmShrinkSlabStart kMmShrinkSlabStart{};
+ template <typename T = MmShrinkSlabStartFtraceEvent> T* set_mm_shrink_slab_start() {
+ return BeginNestedMessage<T>(443);
+ }
+
+
+ using FieldMetadata_MmShrinkSlabEnd =
+ ::protozero::proto_utils::FieldMetadata<
+ 444,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MmShrinkSlabEndFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MmShrinkSlabEnd kMmShrinkSlabEnd{};
+ template <typename T = MmShrinkSlabEndFtraceEvent> T* set_mm_shrink_slab_end() {
+ return BeginNestedMessage<T>(444);
+ }
+
+
+ using FieldMetadata_TrustySmc =
+ ::protozero::proto_utils::FieldMetadata<
+ 445,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TrustySmcFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_TrustySmc kTrustySmc{};
+ template <typename T = TrustySmcFtraceEvent> T* set_trusty_smc() {
+ return BeginNestedMessage<T>(445);
+ }
+
+
+ using FieldMetadata_TrustySmcDone =
+ ::protozero::proto_utils::FieldMetadata<
+ 446,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TrustySmcDoneFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_TrustySmcDone kTrustySmcDone{};
+ template <typename T = TrustySmcDoneFtraceEvent> T* set_trusty_smc_done() {
+ return BeginNestedMessage<T>(446);
+ }
+
+
+ using FieldMetadata_TrustyStdCall32 =
+ ::protozero::proto_utils::FieldMetadata<
+ 447,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TrustyStdCall32FtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_TrustyStdCall32 kTrustyStdCall32{};
+ template <typename T = TrustyStdCall32FtraceEvent> T* set_trusty_std_call32() {
+ return BeginNestedMessage<T>(447);
+ }
+
+
+ using FieldMetadata_TrustyStdCall32Done =
+ ::protozero::proto_utils::FieldMetadata<
+ 448,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TrustyStdCall32DoneFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_TrustyStdCall32Done kTrustyStdCall32Done{};
+ template <typename T = TrustyStdCall32DoneFtraceEvent> T* set_trusty_std_call32_done() {
+ return BeginNestedMessage<T>(448);
+ }
+
+
+ using FieldMetadata_TrustyShareMemory =
+ ::protozero::proto_utils::FieldMetadata<
+ 449,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TrustyShareMemoryFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_TrustyShareMemory kTrustyShareMemory{};
+ template <typename T = TrustyShareMemoryFtraceEvent> T* set_trusty_share_memory() {
+ return BeginNestedMessage<T>(449);
+ }
+
+
+ using FieldMetadata_TrustyShareMemoryDone =
+ ::protozero::proto_utils::FieldMetadata<
+ 450,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TrustyShareMemoryDoneFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_TrustyShareMemoryDone kTrustyShareMemoryDone{};
+ template <typename T = TrustyShareMemoryDoneFtraceEvent> T* set_trusty_share_memory_done() {
+ return BeginNestedMessage<T>(450);
+ }
+
+
+ using FieldMetadata_TrustyReclaimMemory =
+ ::protozero::proto_utils::FieldMetadata<
+ 451,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TrustyReclaimMemoryFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_TrustyReclaimMemory kTrustyReclaimMemory{};
+ template <typename T = TrustyReclaimMemoryFtraceEvent> T* set_trusty_reclaim_memory() {
+ return BeginNestedMessage<T>(451);
+ }
+
+
+ using FieldMetadata_TrustyReclaimMemoryDone =
+ ::protozero::proto_utils::FieldMetadata<
+ 452,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TrustyReclaimMemoryDoneFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_TrustyReclaimMemoryDone kTrustyReclaimMemoryDone{};
+ template <typename T = TrustyReclaimMemoryDoneFtraceEvent> T* set_trusty_reclaim_memory_done() {
+ return BeginNestedMessage<T>(452);
+ }
+
+
+ using FieldMetadata_TrustyIrq =
+ ::protozero::proto_utils::FieldMetadata<
+ 453,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TrustyIrqFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_TrustyIrq kTrustyIrq{};
+ template <typename T = TrustyIrqFtraceEvent> T* set_trusty_irq() {
+ return BeginNestedMessage<T>(453);
+ }
+
+
+ using FieldMetadata_TrustyIpcHandleEvent =
+ ::protozero::proto_utils::FieldMetadata<
+ 454,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TrustyIpcHandleEventFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_TrustyIpcHandleEvent kTrustyIpcHandleEvent{};
+ template <typename T = TrustyIpcHandleEventFtraceEvent> T* set_trusty_ipc_handle_event() {
+ return BeginNestedMessage<T>(454);
+ }
+
+
+ using FieldMetadata_TrustyIpcConnect =
+ ::protozero::proto_utils::FieldMetadata<
+ 455,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TrustyIpcConnectFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_TrustyIpcConnect kTrustyIpcConnect{};
+ template <typename T = TrustyIpcConnectFtraceEvent> T* set_trusty_ipc_connect() {
+ return BeginNestedMessage<T>(455);
+ }
+
+
+ using FieldMetadata_TrustyIpcConnectEnd =
+ ::protozero::proto_utils::FieldMetadata<
+ 456,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TrustyIpcConnectEndFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_TrustyIpcConnectEnd kTrustyIpcConnectEnd{};
+ template <typename T = TrustyIpcConnectEndFtraceEvent> T* set_trusty_ipc_connect_end() {
+ return BeginNestedMessage<T>(456);
+ }
+
+
+ using FieldMetadata_TrustyIpcWrite =
+ ::protozero::proto_utils::FieldMetadata<
+ 457,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TrustyIpcWriteFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_TrustyIpcWrite kTrustyIpcWrite{};
+ template <typename T = TrustyIpcWriteFtraceEvent> T* set_trusty_ipc_write() {
+ return BeginNestedMessage<T>(457);
+ }
+
+
+ using FieldMetadata_TrustyIpcPoll =
+ ::protozero::proto_utils::FieldMetadata<
+ 458,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TrustyIpcPollFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_TrustyIpcPoll kTrustyIpcPoll{};
+ template <typename T = TrustyIpcPollFtraceEvent> T* set_trusty_ipc_poll() {
+ return BeginNestedMessage<T>(458);
+ }
+
+
+ using FieldMetadata_TrustyIpcRead =
+ ::protozero::proto_utils::FieldMetadata<
+ 460,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TrustyIpcReadFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_TrustyIpcRead kTrustyIpcRead{};
+ template <typename T = TrustyIpcReadFtraceEvent> T* set_trusty_ipc_read() {
+ return BeginNestedMessage<T>(460);
+ }
+
+
+ using FieldMetadata_TrustyIpcReadEnd =
+ ::protozero::proto_utils::FieldMetadata<
+ 461,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TrustyIpcReadEndFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_TrustyIpcReadEnd kTrustyIpcReadEnd{};
+ template <typename T = TrustyIpcReadEndFtraceEvent> T* set_trusty_ipc_read_end() {
+ return BeginNestedMessage<T>(461);
+ }
+
+
+ using FieldMetadata_TrustyIpcRx =
+ ::protozero::proto_utils::FieldMetadata<
+ 462,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TrustyIpcRxFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_TrustyIpcRx kTrustyIpcRx{};
+ template <typename T = TrustyIpcRxFtraceEvent> T* set_trusty_ipc_rx() {
+ return BeginNestedMessage<T>(462);
+ }
+
+
+ using FieldMetadata_TrustyEnqueueNop =
+ ::protozero::proto_utils::FieldMetadata<
+ 464,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TrustyEnqueueNopFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_TrustyEnqueueNop kTrustyEnqueueNop{};
+ template <typename T = TrustyEnqueueNopFtraceEvent> T* set_trusty_enqueue_nop() {
+ return BeginNestedMessage<T>(464);
+ }
+
+
+ using FieldMetadata_CmaAllocStart =
+ ::protozero::proto_utils::FieldMetadata<
+ 465,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ CmaAllocStartFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_CmaAllocStart kCmaAllocStart{};
+ template <typename T = CmaAllocStartFtraceEvent> T* set_cma_alloc_start() {
+ return BeginNestedMessage<T>(465);
+ }
+
+
+ using FieldMetadata_CmaAllocInfo =
+ ::protozero::proto_utils::FieldMetadata<
+ 466,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ CmaAllocInfoFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_CmaAllocInfo kCmaAllocInfo{};
+ template <typename T = CmaAllocInfoFtraceEvent> T* set_cma_alloc_info() {
+ return BeginNestedMessage<T>(466);
+ }
+
+
+ using FieldMetadata_LwisTracingMarkWrite =
+ ::protozero::proto_utils::FieldMetadata<
+ 467,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ LwisTracingMarkWriteFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_LwisTracingMarkWrite kLwisTracingMarkWrite{};
+ template <typename T = LwisTracingMarkWriteFtraceEvent> T* set_lwis_tracing_mark_write() {
+ return BeginNestedMessage<T>(467);
+ }
+
+
+ using FieldMetadata_VirtioGpuCmdQueue =
+ ::protozero::proto_utils::FieldMetadata<
+ 468,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ VirtioGpuCmdQueueFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_VirtioGpuCmdQueue kVirtioGpuCmdQueue{};
+ template <typename T = VirtioGpuCmdQueueFtraceEvent> T* set_virtio_gpu_cmd_queue() {
+ return BeginNestedMessage<T>(468);
+ }
+
+
+ using FieldMetadata_VirtioGpuCmdResponse =
+ ::protozero::proto_utils::FieldMetadata<
+ 469,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ VirtioGpuCmdResponseFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_VirtioGpuCmdResponse kVirtioGpuCmdResponse{};
+ template <typename T = VirtioGpuCmdResponseFtraceEvent> T* set_virtio_gpu_cmd_response() {
+ return BeginNestedMessage<T>(469);
+ }
+
+
+ using FieldMetadata_MaliMaliKCPUCQSSET =
+ ::protozero::proto_utils::FieldMetadata<
+ 470,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MaliMaliKCPUCQSSETFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MaliMaliKCPUCQSSET kMaliMaliKCPUCQSSET{};
+ template <typename T = MaliMaliKCPUCQSSETFtraceEvent> T* set_mali_mali_kcpu_cqs_set() {
+ return BeginNestedMessage<T>(470);
+ }
+
+
+ using FieldMetadata_MaliMaliKCPUCQSWAITSTART =
+ ::protozero::proto_utils::FieldMetadata<
+ 471,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MaliMaliKCPUCQSWAITSTARTFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MaliMaliKCPUCQSWAITSTART kMaliMaliKCPUCQSWAITSTART{};
+ template <typename T = MaliMaliKCPUCQSWAITSTARTFtraceEvent> T* set_mali_mali_kcpu_cqs_wait_start() {
+ return BeginNestedMessage<T>(471);
+ }
+
+
+ using FieldMetadata_MaliMaliKCPUCQSWAITEND =
+ ::protozero::proto_utils::FieldMetadata<
+ 472,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MaliMaliKCPUCQSWAITENDFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MaliMaliKCPUCQSWAITEND kMaliMaliKCPUCQSWAITEND{};
+ template <typename T = MaliMaliKCPUCQSWAITENDFtraceEvent> T* set_mali_mali_kcpu_cqs_wait_end() {
+ return BeginNestedMessage<T>(472);
+ }
+
+
+ using FieldMetadata_MaliMaliKCPUFENCESIGNAL =
+ ::protozero::proto_utils::FieldMetadata<
+ 473,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MaliMaliKCPUFENCESIGNALFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MaliMaliKCPUFENCESIGNAL kMaliMaliKCPUFENCESIGNAL{};
+ template <typename T = MaliMaliKCPUFENCESIGNALFtraceEvent> T* set_mali_mali_kcpu_fence_signal() {
+ return BeginNestedMessage<T>(473);
+ }
+
+
+ using FieldMetadata_MaliMaliKCPUFENCEWAITSTART =
+ ::protozero::proto_utils::FieldMetadata<
+ 474,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MaliMaliKCPUFENCEWAITSTARTFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MaliMaliKCPUFENCEWAITSTART kMaliMaliKCPUFENCEWAITSTART{};
+ template <typename T = MaliMaliKCPUFENCEWAITSTARTFtraceEvent> T* set_mali_mali_kcpu_fence_wait_start() {
+ return BeginNestedMessage<T>(474);
+ }
+
+
+ using FieldMetadata_MaliMaliKCPUFENCEWAITEND =
+ ::protozero::proto_utils::FieldMetadata<
+ 475,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MaliMaliKCPUFENCEWAITENDFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MaliMaliKCPUFENCEWAITEND kMaliMaliKCPUFENCEWAITEND{};
+ template <typename T = MaliMaliKCPUFENCEWAITENDFtraceEvent> T* set_mali_mali_kcpu_fence_wait_end() {
+ return BeginNestedMessage<T>(475);
+ }
+
+
+ using FieldMetadata_HypEnter =
+ ::protozero::proto_utils::FieldMetadata<
+ 476,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ HypEnterFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_HypEnter kHypEnter{};
+ template <typename T = HypEnterFtraceEvent> T* set_hyp_enter() {
+ return BeginNestedMessage<T>(476);
+ }
+
+
+ using FieldMetadata_HypExit =
+ ::protozero::proto_utils::FieldMetadata<
+ 477,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ HypExitFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_HypExit kHypExit{};
+ template <typename T = HypExitFtraceEvent> T* set_hyp_exit() {
+ return BeginNestedMessage<T>(477);
+ }
+
+
+ using FieldMetadata_HostHcall =
+ ::protozero::proto_utils::FieldMetadata<
+ 478,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ HostHcallFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_HostHcall kHostHcall{};
+ template <typename T = HostHcallFtraceEvent> T* set_host_hcall() {
+ return BeginNestedMessage<T>(478);
+ }
+
+
+ using FieldMetadata_HostSmc =
+ ::protozero::proto_utils::FieldMetadata<
+ 479,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ HostSmcFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_HostSmc kHostSmc{};
+ template <typename T = HostSmcFtraceEvent> T* set_host_smc() {
+ return BeginNestedMessage<T>(479);
+ }
+
+
+ using FieldMetadata_HostMemAbort =
+ ::protozero::proto_utils::FieldMetadata<
+ 480,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ HostMemAbortFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_HostMemAbort kHostMemAbort{};
+ template <typename T = HostMemAbortFtraceEvent> T* set_host_mem_abort() {
+ return BeginNestedMessage<T>(480);
+ }
+
+
+ using FieldMetadata_SuspendResumeMinimal =
+ ::protozero::proto_utils::FieldMetadata<
+ 481,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SuspendResumeMinimalFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_SuspendResumeMinimal kSuspendResumeMinimal{};
+ template <typename T = SuspendResumeMinimalFtraceEvent> T* set_suspend_resume_minimal() {
+ return BeginNestedMessage<T>(481);
+ }
+
+
+ using FieldMetadata_MaliMaliCSFINTERRUPTSTART =
+ ::protozero::proto_utils::FieldMetadata<
+ 482,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MaliMaliCSFINTERRUPTSTARTFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MaliMaliCSFINTERRUPTSTART kMaliMaliCSFINTERRUPTSTART{};
+ template <typename T = MaliMaliCSFINTERRUPTSTARTFtraceEvent> T* set_mali_mali_csf_interrupt_start() {
+ return BeginNestedMessage<T>(482);
+ }
+
+
+ using FieldMetadata_MaliMaliCSFINTERRUPTEND =
+ ::protozero::proto_utils::FieldMetadata<
+ 483,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MaliMaliCSFINTERRUPTENDFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_MaliMaliCSFINTERRUPTEND kMaliMaliCSFINTERRUPTEND{};
+ template <typename T = MaliMaliCSFINTERRUPTENDFtraceEvent> T* set_mali_mali_csf_interrupt_end() {
+ return BeginNestedMessage<T>(483);
+ }
+
+
+ using FieldMetadata_SamsungTracingMarkWrite =
+ ::protozero::proto_utils::FieldMetadata<
+ 484,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SamsungTracingMarkWriteFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_SamsungTracingMarkWrite kSamsungTracingMarkWrite{};
+ template <typename T = SamsungTracingMarkWriteFtraceEvent> T* set_samsung_tracing_mark_write() {
+ return BeginNestedMessage<T>(484);
+ }
+
+
+ using FieldMetadata_BinderCommand =
+ ::protozero::proto_utils::FieldMetadata<
+ 485,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ BinderCommandFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_BinderCommand kBinderCommand{};
+ template <typename T = BinderCommandFtraceEvent> T* set_binder_command() {
+ return BeginNestedMessage<T>(485);
+ }
+
+
+ using FieldMetadata_BinderReturn =
+ ::protozero::proto_utils::FieldMetadata<
+ 486,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ BinderReturnFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_BinderReturn kBinderReturn{};
+ template <typename T = BinderReturnFtraceEvent> T* set_binder_return() {
+ return BeginNestedMessage<T>(486);
+ }
+
+
+ using FieldMetadata_SchedSwitchWithCtrs =
+ ::protozero::proto_utils::FieldMetadata<
+ 487,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SchedSwitchWithCtrsFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_SchedSwitchWithCtrs kSchedSwitchWithCtrs{};
+ template <typename T = SchedSwitchWithCtrsFtraceEvent> T* set_sched_switch_with_ctrs() {
+ return BeginNestedMessage<T>(487);
+ }
+
+
+ using FieldMetadata_GpuWorkPeriod =
+ ::protozero::proto_utils::FieldMetadata<
+ 488,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ GpuWorkPeriodFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_GpuWorkPeriod kGpuWorkPeriod{};
+ template <typename T = GpuWorkPeriodFtraceEvent> T* set_gpu_work_period() {
+ return BeginNestedMessage<T>(488);
+ }
+
+
+ using FieldMetadata_RpmStatus =
+ ::protozero::proto_utils::FieldMetadata<
+ 489,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ RpmStatusFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_RpmStatus kRpmStatus{};
+ template <typename T = RpmStatusFtraceEvent> T* set_rpm_status() {
+ return BeginNestedMessage<T>(489);
+ }
+
+
+ using FieldMetadata_PanelWriteGeneric =
+ ::protozero::proto_utils::FieldMetadata<
+ 490,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ PanelWriteGenericFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_PanelWriteGeneric kPanelWriteGeneric{};
+ template <typename T = PanelWriteGenericFtraceEvent> T* set_panel_write_generic() {
+ return BeginNestedMessage<T>(490);
+ }
+
+
+ using FieldMetadata_SchedMigrateTask =
+ ::protozero::proto_utils::FieldMetadata<
+ 491,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SchedMigrateTaskFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_SchedMigrateTask kSchedMigrateTask{};
+ template <typename T = SchedMigrateTaskFtraceEvent> T* set_sched_migrate_task() {
+ return BeginNestedMessage<T>(491);
+ }
+
+
+ using FieldMetadata_DpuDsiCmdFifoStatus =
+ ::protozero::proto_utils::FieldMetadata<
+ 492,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ DpuDsiCmdFifoStatusFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_DpuDsiCmdFifoStatus kDpuDsiCmdFifoStatus{};
+ template <typename T = DpuDsiCmdFifoStatusFtraceEvent> T* set_dpu_dsi_cmd_fifo_status() {
+ return BeginNestedMessage<T>(492);
+ }
+
+
+ using FieldMetadata_DpuDsiRx =
+ ::protozero::proto_utils::FieldMetadata<
+ 493,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ DpuDsiRxFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_DpuDsiRx kDpuDsiRx{};
+ template <typename T = DpuDsiRxFtraceEvent> T* set_dpu_dsi_rx() {
+ return BeginNestedMessage<T>(493);
+ }
+
+
+ using FieldMetadata_DpuDsiTx =
+ ::protozero::proto_utils::FieldMetadata<
+ 494,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ DpuDsiTxFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_DpuDsiTx kDpuDsiTx{};
+ template <typename T = DpuDsiTxFtraceEvent> T* set_dpu_dsi_tx() {
+ return BeginNestedMessage<T>(494);
+ }
+
+
+ using FieldMetadata_F2fsBackgroundGc =
+ ::protozero::proto_utils::FieldMetadata<
+ 495,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ F2fsBackgroundGcFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_F2fsBackgroundGc kF2fsBackgroundGc{};
+ template <typename T = F2fsBackgroundGcFtraceEvent> T* set_f2fs_background_gc() {
+ return BeginNestedMessage<T>(495);
+ }
+
+
+ using FieldMetadata_F2fsGcBegin =
+ ::protozero::proto_utils::FieldMetadata<
+ 496,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ F2fsGcBeginFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_F2fsGcBegin kF2fsGcBegin{};
+ template <typename T = F2fsGcBeginFtraceEvent> T* set_f2fs_gc_begin() {
+ return BeginNestedMessage<T>(496);
+ }
+
+
+ using FieldMetadata_F2fsGcEnd =
+ ::protozero::proto_utils::FieldMetadata<
+ 497,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ F2fsGcEndFtraceEvent,
+ FtraceEvent>;
+
+ static constexpr FieldMetadata_F2fsGcEnd kF2fsGcEnd{};
+ template <typename T = F2fsGcEndFtraceEvent> T* set_f2fs_gc_end() {
+ return BeginNestedMessage<T>(497);
+ }
+
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/ftrace_event_bundle.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_FTRACE_EVENT_BUNDLE_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_FTRACE_EVENT_BUNDLE_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class FtraceEvent;
+class FtraceEventBundle_CompactSched;
+class FtraceEventBundle_FtraceError;
+enum FtraceClock : int32_t;
+enum FtraceParseStatus : int32_t;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+enum FtraceClock : int32_t {
+ FTRACE_CLOCK_UNSPECIFIED = 0,
+ FTRACE_CLOCK_UNKNOWN = 1,
+ FTRACE_CLOCK_GLOBAL = 2,
+ FTRACE_CLOCK_LOCAL = 3,
+ FTRACE_CLOCK_MONO_RAW = 4,
+};
+
+constexpr FtraceClock FtraceClock_MIN = FtraceClock::FTRACE_CLOCK_UNSPECIFIED;
+constexpr FtraceClock FtraceClock_MAX = FtraceClock::FTRACE_CLOCK_MONO_RAW;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* FtraceClock_Name(::perfetto::protos::pbzero::FtraceClock value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::FtraceClock::FTRACE_CLOCK_UNSPECIFIED:
+ return "FTRACE_CLOCK_UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::FtraceClock::FTRACE_CLOCK_UNKNOWN:
+ return "FTRACE_CLOCK_UNKNOWN";
+
+ case ::perfetto::protos::pbzero::FtraceClock::FTRACE_CLOCK_GLOBAL:
+ return "FTRACE_CLOCK_GLOBAL";
+
+ case ::perfetto::protos::pbzero::FtraceClock::FTRACE_CLOCK_LOCAL:
+ return "FTRACE_CLOCK_LOCAL";
+
+ case ::perfetto::protos::pbzero::FtraceClock::FTRACE_CLOCK_MONO_RAW:
+ return "FTRACE_CLOCK_MONO_RAW";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+class FtraceEventBundle_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/9, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ FtraceEventBundle_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit FtraceEventBundle_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit FtraceEventBundle_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_cpu() const { return at<1>().valid(); }
+ uint32_t cpu() const { return at<1>().as_uint32(); }
+ bool has_event() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> event() const { return GetRepeated<::protozero::ConstBytes>(2); }
+ bool has_lost_events() const { return at<3>().valid(); }
+ bool lost_events() const { return at<3>().as_bool(); }
+ bool has_compact_sched() const { return at<4>().valid(); }
+ ::protozero::ConstBytes compact_sched() const { return at<4>().as_bytes(); }
+ bool has_ftrace_clock() const { return at<5>().valid(); }
+ int32_t ftrace_clock() const { return at<5>().as_int32(); }
+ bool has_ftrace_timestamp() const { return at<6>().valid(); }
+ int64_t ftrace_timestamp() const { return at<6>().as_int64(); }
+ bool has_boot_timestamp() const { return at<7>().valid(); }
+ int64_t boot_timestamp() const { return at<7>().as_int64(); }
+ bool has_error() const { return at<8>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> error() const { return GetRepeated<::protozero::ConstBytes>(8); }
+ bool has_last_read_event_timestamp() const { return at<9>().valid(); }
+ uint64_t last_read_event_timestamp() const { return at<9>().as_uint64(); }
+};
+
+class FtraceEventBundle : public ::protozero::Message {
+ public:
+ using Decoder = FtraceEventBundle_Decoder;
+ enum : int32_t {
+ kCpuFieldNumber = 1,
+ kEventFieldNumber = 2,
+ kLostEventsFieldNumber = 3,
+ kCompactSchedFieldNumber = 4,
+ kFtraceClockFieldNumber = 5,
+ kFtraceTimestampFieldNumber = 6,
+ kBootTimestampFieldNumber = 7,
+ kErrorFieldNumber = 8,
+ kLastReadEventTimestampFieldNumber = 9,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.FtraceEventBundle"; }
+
+ using CompactSched = ::perfetto::protos::pbzero::FtraceEventBundle_CompactSched;
+ using FtraceError = ::perfetto::protos::pbzero::FtraceEventBundle_FtraceError;
+
+ using FieldMetadata_Cpu =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ FtraceEventBundle>;
+
+ static constexpr FieldMetadata_Cpu kCpu{};
+ void set_cpu(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Cpu::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Event =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ FtraceEvent,
+ FtraceEventBundle>;
+
+ static constexpr FieldMetadata_Event kEvent{};
+ template <typename T = FtraceEvent> T* add_event() {
+ return BeginNestedMessage<T>(2);
+ }
+
+
+ using FieldMetadata_LostEvents =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ FtraceEventBundle>;
+
+ static constexpr FieldMetadata_LostEvents kLostEvents{};
+ void set_lost_events(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_LostEvents::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CompactSched =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ FtraceEventBundle_CompactSched,
+ FtraceEventBundle>;
+
+ static constexpr FieldMetadata_CompactSched kCompactSched{};
+ template <typename T = FtraceEventBundle_CompactSched> T* set_compact_sched() {
+ return BeginNestedMessage<T>(4);
+ }
+
+
+ using FieldMetadata_FtraceClock =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ FtraceClock,
+ FtraceEventBundle>;
+
+ static constexpr FieldMetadata_FtraceClock kFtraceClock{};
+ void set_ftrace_clock(FtraceClock value) {
+ static constexpr uint32_t field_id = FieldMetadata_FtraceClock::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FtraceTimestamp =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ FtraceEventBundle>;
+
+ static constexpr FieldMetadata_FtraceTimestamp kFtraceTimestamp{};
+ void set_ftrace_timestamp(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FtraceTimestamp::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BootTimestamp =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ FtraceEventBundle>;
+
+ static constexpr FieldMetadata_BootTimestamp kBootTimestamp{};
+ void set_boot_timestamp(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BootTimestamp::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Error =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ FtraceEventBundle_FtraceError,
+ FtraceEventBundle>;
+
+ static constexpr FieldMetadata_Error kError{};
+ template <typename T = FtraceEventBundle_FtraceError> T* add_error() {
+ return BeginNestedMessage<T>(8);
+ }
+
+
+ using FieldMetadata_LastReadEventTimestamp =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ FtraceEventBundle>;
+
+ static constexpr FieldMetadata_LastReadEventTimestamp kLastReadEventTimestamp{};
+ void set_last_read_event_timestamp(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_LastReadEventTimestamp::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class FtraceEventBundle_FtraceError_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ FtraceEventBundle_FtraceError_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit FtraceEventBundle_FtraceError_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit FtraceEventBundle_FtraceError_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_timestamp() const { return at<1>().valid(); }
+ uint64_t timestamp() const { return at<1>().as_uint64(); }
+ bool has_status() const { return at<2>().valid(); }
+ int32_t status() const { return at<2>().as_int32(); }
+};
+
+class FtraceEventBundle_FtraceError : public ::protozero::Message {
+ public:
+ using Decoder = FtraceEventBundle_FtraceError_Decoder;
+ enum : int32_t {
+ kTimestampFieldNumber = 1,
+ kStatusFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.FtraceEventBundle.FtraceError"; }
+
+
+ using FieldMetadata_Timestamp =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ FtraceEventBundle_FtraceError>;
+
+ static constexpr FieldMetadata_Timestamp kTimestamp{};
+ void set_timestamp(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Timestamp::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Status =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ FtraceParseStatus,
+ FtraceEventBundle_FtraceError>;
+
+ static constexpr FieldMetadata_Status kStatus{};
+ void set_status(FtraceParseStatus value) {
+ static constexpr uint32_t field_id = FieldMetadata_Status::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class FtraceEventBundle_CompactSched_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/12, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ FtraceEventBundle_CompactSched_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit FtraceEventBundle_CompactSched_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit FtraceEventBundle_CompactSched_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_intern_table() const { return at<5>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstChars> intern_table() const { return GetRepeated<::protozero::ConstChars>(5); }
+ bool has_switch_timestamp() const { return at<1>().valid(); }
+ ::protozero::PackedRepeatedFieldIterator<::protozero::proto_utils::ProtoWireType::kVarInt, uint64_t> switch_timestamp(bool* parse_error_ptr) const { return GetPackedRepeated<::protozero::proto_utils::ProtoWireType::kVarInt, uint64_t>(1, parse_error_ptr); }
+ bool has_switch_prev_state() const { return at<2>().valid(); }
+ ::protozero::PackedRepeatedFieldIterator<::protozero::proto_utils::ProtoWireType::kVarInt, int64_t> switch_prev_state(bool* parse_error_ptr) const { return GetPackedRepeated<::protozero::proto_utils::ProtoWireType::kVarInt, int64_t>(2, parse_error_ptr); }
+ bool has_switch_next_pid() const { return at<3>().valid(); }
+ ::protozero::PackedRepeatedFieldIterator<::protozero::proto_utils::ProtoWireType::kVarInt, int32_t> switch_next_pid(bool* parse_error_ptr) const { return GetPackedRepeated<::protozero::proto_utils::ProtoWireType::kVarInt, int32_t>(3, parse_error_ptr); }
+ bool has_switch_next_prio() const { return at<4>().valid(); }
+ ::protozero::PackedRepeatedFieldIterator<::protozero::proto_utils::ProtoWireType::kVarInt, int32_t> switch_next_prio(bool* parse_error_ptr) const { return GetPackedRepeated<::protozero::proto_utils::ProtoWireType::kVarInt, int32_t>(4, parse_error_ptr); }
+ bool has_switch_next_comm_index() const { return at<6>().valid(); }
+ ::protozero::PackedRepeatedFieldIterator<::protozero::proto_utils::ProtoWireType::kVarInt, uint32_t> switch_next_comm_index(bool* parse_error_ptr) const { return GetPackedRepeated<::protozero::proto_utils::ProtoWireType::kVarInt, uint32_t>(6, parse_error_ptr); }
+ bool has_waking_timestamp() const { return at<7>().valid(); }
+ ::protozero::PackedRepeatedFieldIterator<::protozero::proto_utils::ProtoWireType::kVarInt, uint64_t> waking_timestamp(bool* parse_error_ptr) const { return GetPackedRepeated<::protozero::proto_utils::ProtoWireType::kVarInt, uint64_t>(7, parse_error_ptr); }
+ bool has_waking_pid() const { return at<8>().valid(); }
+ ::protozero::PackedRepeatedFieldIterator<::protozero::proto_utils::ProtoWireType::kVarInt, int32_t> waking_pid(bool* parse_error_ptr) const { return GetPackedRepeated<::protozero::proto_utils::ProtoWireType::kVarInt, int32_t>(8, parse_error_ptr); }
+ bool has_waking_target_cpu() const { return at<9>().valid(); }
+ ::protozero::PackedRepeatedFieldIterator<::protozero::proto_utils::ProtoWireType::kVarInt, int32_t> waking_target_cpu(bool* parse_error_ptr) const { return GetPackedRepeated<::protozero::proto_utils::ProtoWireType::kVarInt, int32_t>(9, parse_error_ptr); }
+ bool has_waking_prio() const { return at<10>().valid(); }
+ ::protozero::PackedRepeatedFieldIterator<::protozero::proto_utils::ProtoWireType::kVarInt, int32_t> waking_prio(bool* parse_error_ptr) const { return GetPackedRepeated<::protozero::proto_utils::ProtoWireType::kVarInt, int32_t>(10, parse_error_ptr); }
+ bool has_waking_comm_index() const { return at<11>().valid(); }
+ ::protozero::PackedRepeatedFieldIterator<::protozero::proto_utils::ProtoWireType::kVarInt, uint32_t> waking_comm_index(bool* parse_error_ptr) const { return GetPackedRepeated<::protozero::proto_utils::ProtoWireType::kVarInt, uint32_t>(11, parse_error_ptr); }
+ bool has_waking_common_flags() const { return at<12>().valid(); }
+ ::protozero::PackedRepeatedFieldIterator<::protozero::proto_utils::ProtoWireType::kVarInt, uint32_t> waking_common_flags(bool* parse_error_ptr) const { return GetPackedRepeated<::protozero::proto_utils::ProtoWireType::kVarInt, uint32_t>(12, parse_error_ptr); }
+};
+
+class FtraceEventBundle_CompactSched : public ::protozero::Message {
+ public:
+ using Decoder = FtraceEventBundle_CompactSched_Decoder;
+ enum : int32_t {
+ kInternTableFieldNumber = 5,
+ kSwitchTimestampFieldNumber = 1,
+ kSwitchPrevStateFieldNumber = 2,
+ kSwitchNextPidFieldNumber = 3,
+ kSwitchNextPrioFieldNumber = 4,
+ kSwitchNextCommIndexFieldNumber = 6,
+ kWakingTimestampFieldNumber = 7,
+ kWakingPidFieldNumber = 8,
+ kWakingTargetCpuFieldNumber = 9,
+ kWakingPrioFieldNumber = 10,
+ kWakingCommIndexFieldNumber = 11,
+ kWakingCommonFlagsFieldNumber = 12,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.FtraceEventBundle.CompactSched"; }
+
+
+ using FieldMetadata_InternTable =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ FtraceEventBundle_CompactSched>;
+
+ static constexpr FieldMetadata_InternTable kInternTable{};
+ void add_intern_table(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_InternTable::kFieldId, data, size);
+ }
+ void add_intern_table(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_InternTable::kFieldId, chars.data, chars.size);
+ }
+ void add_intern_table(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_InternTable::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SwitchTimestamp =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ FtraceEventBundle_CompactSched>;
+
+ static constexpr FieldMetadata_SwitchTimestamp kSwitchTimestamp{};
+ void set_switch_timestamp(const ::protozero::PackedVarInt& packed_buffer) {
+ AppendBytes(FieldMetadata_SwitchTimestamp::kFieldId, packed_buffer.data(),
+ packed_buffer.size());
+ }
+
+ using FieldMetadata_SwitchPrevState =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ FtraceEventBundle_CompactSched>;
+
+ static constexpr FieldMetadata_SwitchPrevState kSwitchPrevState{};
+ void set_switch_prev_state(const ::protozero::PackedVarInt& packed_buffer) {
+ AppendBytes(FieldMetadata_SwitchPrevState::kFieldId, packed_buffer.data(),
+ packed_buffer.size());
+ }
+
+ using FieldMetadata_SwitchNextPid =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kRepeatedPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ FtraceEventBundle_CompactSched>;
+
+ static constexpr FieldMetadata_SwitchNextPid kSwitchNextPid{};
+ void set_switch_next_pid(const ::protozero::PackedVarInt& packed_buffer) {
+ AppendBytes(FieldMetadata_SwitchNextPid::kFieldId, packed_buffer.data(),
+ packed_buffer.size());
+ }
+
+ using FieldMetadata_SwitchNextPrio =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kRepeatedPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ FtraceEventBundle_CompactSched>;
+
+ static constexpr FieldMetadata_SwitchNextPrio kSwitchNextPrio{};
+ void set_switch_next_prio(const ::protozero::PackedVarInt& packed_buffer) {
+ AppendBytes(FieldMetadata_SwitchNextPrio::kFieldId, packed_buffer.data(),
+ packed_buffer.size());
+ }
+
+ using FieldMetadata_SwitchNextCommIndex =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kRepeatedPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ FtraceEventBundle_CompactSched>;
+
+ static constexpr FieldMetadata_SwitchNextCommIndex kSwitchNextCommIndex{};
+ void set_switch_next_comm_index(const ::protozero::PackedVarInt& packed_buffer) {
+ AppendBytes(FieldMetadata_SwitchNextCommIndex::kFieldId, packed_buffer.data(),
+ packed_buffer.size());
+ }
+
+ using FieldMetadata_WakingTimestamp =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kRepeatedPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ FtraceEventBundle_CompactSched>;
+
+ static constexpr FieldMetadata_WakingTimestamp kWakingTimestamp{};
+ void set_waking_timestamp(const ::protozero::PackedVarInt& packed_buffer) {
+ AppendBytes(FieldMetadata_WakingTimestamp::kFieldId, packed_buffer.data(),
+ packed_buffer.size());
+ }
+
+ using FieldMetadata_WakingPid =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kRepeatedPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ FtraceEventBundle_CompactSched>;
+
+ static constexpr FieldMetadata_WakingPid kWakingPid{};
+ void set_waking_pid(const ::protozero::PackedVarInt& packed_buffer) {
+ AppendBytes(FieldMetadata_WakingPid::kFieldId, packed_buffer.data(),
+ packed_buffer.size());
+ }
+
+ using FieldMetadata_WakingTargetCpu =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kRepeatedPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ FtraceEventBundle_CompactSched>;
+
+ static constexpr FieldMetadata_WakingTargetCpu kWakingTargetCpu{};
+ void set_waking_target_cpu(const ::protozero::PackedVarInt& packed_buffer) {
+ AppendBytes(FieldMetadata_WakingTargetCpu::kFieldId, packed_buffer.data(),
+ packed_buffer.size());
+ }
+
+ using FieldMetadata_WakingPrio =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kRepeatedPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ FtraceEventBundle_CompactSched>;
+
+ static constexpr FieldMetadata_WakingPrio kWakingPrio{};
+ void set_waking_prio(const ::protozero::PackedVarInt& packed_buffer) {
+ AppendBytes(FieldMetadata_WakingPrio::kFieldId, packed_buffer.data(),
+ packed_buffer.size());
+ }
+
+ using FieldMetadata_WakingCommIndex =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kRepeatedPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ FtraceEventBundle_CompactSched>;
+
+ static constexpr FieldMetadata_WakingCommIndex kWakingCommIndex{};
+ void set_waking_comm_index(const ::protozero::PackedVarInt& packed_buffer) {
+ AppendBytes(FieldMetadata_WakingCommIndex::kFieldId, packed_buffer.data(),
+ packed_buffer.size());
+ }
+
+ using FieldMetadata_WakingCommonFlags =
+ ::protozero::proto_utils::FieldMetadata<
+ 12,
+ ::protozero::proto_utils::RepetitionType::kRepeatedPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ FtraceEventBundle_CompactSched>;
+
+ static constexpr FieldMetadata_WakingCommonFlags kWakingCommonFlags{};
+ void set_waking_common_flags(const ::protozero::PackedVarInt& packed_buffer) {
+ AppendBytes(FieldMetadata_WakingCommonFlags::kFieldId, packed_buffer.data(),
+ packed_buffer.size());
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/ftrace_stats.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_FTRACE_STATS_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_FTRACE_STATS_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class FtraceCpuStats;
+enum FtraceParseStatus : int32_t;
+namespace perfetto_pbzero_enum_FtraceStats {
+enum Phase : int32_t;
+} // namespace perfetto_pbzero_enum_FtraceStats
+using FtraceStats_Phase = perfetto_pbzero_enum_FtraceStats::Phase;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+enum FtraceParseStatus : int32_t {
+ FTRACE_STATUS_UNSPECIFIED = 0,
+ FTRACE_STATUS_OK = 1,
+ FTRACE_STATUS_UNEXPECTED_READ_ERROR = 2,
+ FTRACE_STATUS_PARTIAL_PAGE_READ = 3,
+ FTRACE_STATUS_ABI_INVALID_PAGE_HEADER = 4,
+ FTRACE_STATUS_ABI_SHORT_EVENT_HEADER = 5,
+ FTRACE_STATUS_ABI_NULL_PADDING = 6,
+ FTRACE_STATUS_ABI_SHORT_PADDING_LENGTH = 7,
+ FTRACE_STATUS_ABI_INVALID_PADDING_LENGTH = 8,
+ FTRACE_STATUS_ABI_SHORT_TIME_EXTEND = 9,
+ FTRACE_STATUS_ABI_SHORT_TIME_STAMP = 10,
+ FTRACE_STATUS_ABI_SHORT_DATA_LENGTH = 11,
+ FTRACE_STATUS_ABI_ZERO_DATA_LENGTH = 12,
+ FTRACE_STATUS_ABI_INVALID_DATA_LENGTH = 13,
+ FTRACE_STATUS_ABI_SHORT_EVENT_ID = 14,
+ FTRACE_STATUS_ABI_END_OVERFLOW = 15,
+ FTRACE_STATUS_SHORT_COMPACT_EVENT = 16,
+ FTRACE_STATUS_INVALID_EVENT = 17,
+};
+
+constexpr FtraceParseStatus FtraceParseStatus_MIN = FtraceParseStatus::FTRACE_STATUS_UNSPECIFIED;
+constexpr FtraceParseStatus FtraceParseStatus_MAX = FtraceParseStatus::FTRACE_STATUS_INVALID_EVENT;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* FtraceParseStatus_Name(::perfetto::protos::pbzero::FtraceParseStatus value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::FtraceParseStatus::FTRACE_STATUS_UNSPECIFIED:
+ return "FTRACE_STATUS_UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::FtraceParseStatus::FTRACE_STATUS_OK:
+ return "FTRACE_STATUS_OK";
+
+ case ::perfetto::protos::pbzero::FtraceParseStatus::FTRACE_STATUS_UNEXPECTED_READ_ERROR:
+ return "FTRACE_STATUS_UNEXPECTED_READ_ERROR";
+
+ case ::perfetto::protos::pbzero::FtraceParseStatus::FTRACE_STATUS_PARTIAL_PAGE_READ:
+ return "FTRACE_STATUS_PARTIAL_PAGE_READ";
+
+ case ::perfetto::protos::pbzero::FtraceParseStatus::FTRACE_STATUS_ABI_INVALID_PAGE_HEADER:
+ return "FTRACE_STATUS_ABI_INVALID_PAGE_HEADER";
+
+ case ::perfetto::protos::pbzero::FtraceParseStatus::FTRACE_STATUS_ABI_SHORT_EVENT_HEADER:
+ return "FTRACE_STATUS_ABI_SHORT_EVENT_HEADER";
+
+ case ::perfetto::protos::pbzero::FtraceParseStatus::FTRACE_STATUS_ABI_NULL_PADDING:
+ return "FTRACE_STATUS_ABI_NULL_PADDING";
+
+ case ::perfetto::protos::pbzero::FtraceParseStatus::FTRACE_STATUS_ABI_SHORT_PADDING_LENGTH:
+ return "FTRACE_STATUS_ABI_SHORT_PADDING_LENGTH";
+
+ case ::perfetto::protos::pbzero::FtraceParseStatus::FTRACE_STATUS_ABI_INVALID_PADDING_LENGTH:
+ return "FTRACE_STATUS_ABI_INVALID_PADDING_LENGTH";
+
+ case ::perfetto::protos::pbzero::FtraceParseStatus::FTRACE_STATUS_ABI_SHORT_TIME_EXTEND:
+ return "FTRACE_STATUS_ABI_SHORT_TIME_EXTEND";
+
+ case ::perfetto::protos::pbzero::FtraceParseStatus::FTRACE_STATUS_ABI_SHORT_TIME_STAMP:
+ return "FTRACE_STATUS_ABI_SHORT_TIME_STAMP";
+
+ case ::perfetto::protos::pbzero::FtraceParseStatus::FTRACE_STATUS_ABI_SHORT_DATA_LENGTH:
+ return "FTRACE_STATUS_ABI_SHORT_DATA_LENGTH";
+
+ case ::perfetto::protos::pbzero::FtraceParseStatus::FTRACE_STATUS_ABI_ZERO_DATA_LENGTH:
+ return "FTRACE_STATUS_ABI_ZERO_DATA_LENGTH";
+
+ case ::perfetto::protos::pbzero::FtraceParseStatus::FTRACE_STATUS_ABI_INVALID_DATA_LENGTH:
+ return "FTRACE_STATUS_ABI_INVALID_DATA_LENGTH";
+
+ case ::perfetto::protos::pbzero::FtraceParseStatus::FTRACE_STATUS_ABI_SHORT_EVENT_ID:
+ return "FTRACE_STATUS_ABI_SHORT_EVENT_ID";
+
+ case ::perfetto::protos::pbzero::FtraceParseStatus::FTRACE_STATUS_ABI_END_OVERFLOW:
+ return "FTRACE_STATUS_ABI_END_OVERFLOW";
+
+ case ::perfetto::protos::pbzero::FtraceParseStatus::FTRACE_STATUS_SHORT_COMPACT_EVENT:
+ return "FTRACE_STATUS_SHORT_COMPACT_EVENT";
+
+ case ::perfetto::protos::pbzero::FtraceParseStatus::FTRACE_STATUS_INVALID_EVENT:
+ return "FTRACE_STATUS_INVALID_EVENT";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_FtraceStats {
+enum Phase : int32_t {
+ UNSPECIFIED = 0,
+ START_OF_TRACE = 1,
+ END_OF_TRACE = 2,
+};
+} // namespace perfetto_pbzero_enum_FtraceStats
+using FtraceStats_Phase = perfetto_pbzero_enum_FtraceStats::Phase;
+
+
+constexpr FtraceStats_Phase FtraceStats_Phase_MIN = FtraceStats_Phase::UNSPECIFIED;
+constexpr FtraceStats_Phase FtraceStats_Phase_MAX = FtraceStats_Phase::END_OF_TRACE;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* FtraceStats_Phase_Name(::perfetto::protos::pbzero::FtraceStats_Phase value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::FtraceStats_Phase::UNSPECIFIED:
+ return "UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::FtraceStats_Phase::START_OF_TRACE:
+ return "START_OF_TRACE";
+
+ case ::perfetto::protos::pbzero::FtraceStats_Phase::END_OF_TRACE:
+ return "END_OF_TRACE";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+class FtraceStats_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/9, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ FtraceStats_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit FtraceStats_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit FtraceStats_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_phase() const { return at<1>().valid(); }
+ int32_t phase() const { return at<1>().as_int32(); }
+ bool has_cpu_stats() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> cpu_stats() const { return GetRepeated<::protozero::ConstBytes>(2); }
+ bool has_kernel_symbols_parsed() const { return at<3>().valid(); }
+ uint32_t kernel_symbols_parsed() const { return at<3>().as_uint32(); }
+ bool has_kernel_symbols_mem_kb() const { return at<4>().valid(); }
+ uint32_t kernel_symbols_mem_kb() const { return at<4>().as_uint32(); }
+ bool has_atrace_errors() const { return at<5>().valid(); }
+ ::protozero::ConstChars atrace_errors() const { return at<5>().as_string(); }
+ bool has_unknown_ftrace_events() const { return at<6>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstChars> unknown_ftrace_events() const { return GetRepeated<::protozero::ConstChars>(6); }
+ bool has_failed_ftrace_events() const { return at<7>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstChars> failed_ftrace_events() const { return GetRepeated<::protozero::ConstChars>(7); }
+ bool has_preserve_ftrace_buffer() const { return at<8>().valid(); }
+ bool preserve_ftrace_buffer() const { return at<8>().as_bool(); }
+ bool has_ftrace_parse_errors() const { return at<9>().valid(); }
+ ::protozero::RepeatedFieldIterator<int32_t> ftrace_parse_errors() const { return GetRepeated<int32_t>(9); }
+};
+
+class FtraceStats : public ::protozero::Message {
+ public:
+ using Decoder = FtraceStats_Decoder;
+ enum : int32_t {
+ kPhaseFieldNumber = 1,
+ kCpuStatsFieldNumber = 2,
+ kKernelSymbolsParsedFieldNumber = 3,
+ kKernelSymbolsMemKbFieldNumber = 4,
+ kAtraceErrorsFieldNumber = 5,
+ kUnknownFtraceEventsFieldNumber = 6,
+ kFailedFtraceEventsFieldNumber = 7,
+ kPreserveFtraceBufferFieldNumber = 8,
+ kFtraceParseErrorsFieldNumber = 9,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.FtraceStats"; }
+
+
+ using Phase = ::perfetto::protos::pbzero::FtraceStats_Phase;
+ static inline const char* Phase_Name(Phase value) {
+ return ::perfetto::protos::pbzero::FtraceStats_Phase_Name(value);
+ }
+ static inline const Phase UNSPECIFIED = Phase::UNSPECIFIED;
+ static inline const Phase START_OF_TRACE = Phase::START_OF_TRACE;
+ static inline const Phase END_OF_TRACE = Phase::END_OF_TRACE;
+
+ using FieldMetadata_Phase =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ FtraceStats_Phase,
+ FtraceStats>;
+
+ static constexpr FieldMetadata_Phase kPhase{};
+ void set_phase(FtraceStats_Phase value) {
+ static constexpr uint32_t field_id = FieldMetadata_Phase::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CpuStats =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ FtraceCpuStats,
+ FtraceStats>;
+
+ static constexpr FieldMetadata_CpuStats kCpuStats{};
+ template <typename T = FtraceCpuStats> T* add_cpu_stats() {
+ return BeginNestedMessage<T>(2);
+ }
+
+
+ using FieldMetadata_KernelSymbolsParsed =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ FtraceStats>;
+
+ static constexpr FieldMetadata_KernelSymbolsParsed kKernelSymbolsParsed{};
+ void set_kernel_symbols_parsed(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_KernelSymbolsParsed::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_KernelSymbolsMemKb =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ FtraceStats>;
+
+ static constexpr FieldMetadata_KernelSymbolsMemKb kKernelSymbolsMemKb{};
+ void set_kernel_symbols_mem_kb(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_KernelSymbolsMemKb::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_AtraceErrors =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ FtraceStats>;
+
+ static constexpr FieldMetadata_AtraceErrors kAtraceErrors{};
+ void set_atrace_errors(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_AtraceErrors::kFieldId, data, size);
+ }
+ void set_atrace_errors(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_AtraceErrors::kFieldId, chars.data, chars.size);
+ }
+ void set_atrace_errors(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_AtraceErrors::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_UnknownFtraceEvents =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ FtraceStats>;
+
+ static constexpr FieldMetadata_UnknownFtraceEvents kUnknownFtraceEvents{};
+ void add_unknown_ftrace_events(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_UnknownFtraceEvents::kFieldId, data, size);
+ }
+ void add_unknown_ftrace_events(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_UnknownFtraceEvents::kFieldId, chars.data, chars.size);
+ }
+ void add_unknown_ftrace_events(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_UnknownFtraceEvents::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FailedFtraceEvents =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ FtraceStats>;
+
+ static constexpr FieldMetadata_FailedFtraceEvents kFailedFtraceEvents{};
+ void add_failed_ftrace_events(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_FailedFtraceEvents::kFieldId, data, size);
+ }
+ void add_failed_ftrace_events(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_FailedFtraceEvents::kFieldId, chars.data, chars.size);
+ }
+ void add_failed_ftrace_events(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_FailedFtraceEvents::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PreserveFtraceBuffer =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ FtraceStats>;
+
+ static constexpr FieldMetadata_PreserveFtraceBuffer kPreserveFtraceBuffer{};
+ void set_preserve_ftrace_buffer(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_PreserveFtraceBuffer::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FtraceParseErrors =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ FtraceParseStatus,
+ FtraceStats>;
+
+ static constexpr FieldMetadata_FtraceParseErrors kFtraceParseErrors{};
+ void add_ftrace_parse_errors(FtraceParseStatus value) {
+ static constexpr uint32_t field_id = FieldMetadata_FtraceParseErrors::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class FtraceCpuStats_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/9, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ FtraceCpuStats_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit FtraceCpuStats_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit FtraceCpuStats_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_cpu() const { return at<1>().valid(); }
+ uint64_t cpu() const { return at<1>().as_uint64(); }
+ bool has_entries() const { return at<2>().valid(); }
+ uint64_t entries() const { return at<2>().as_uint64(); }
+ bool has_overrun() const { return at<3>().valid(); }
+ uint64_t overrun() const { return at<3>().as_uint64(); }
+ bool has_commit_overrun() const { return at<4>().valid(); }
+ uint64_t commit_overrun() const { return at<4>().as_uint64(); }
+ bool has_bytes_read() const { return at<5>().valid(); }
+ uint64_t bytes_read() const { return at<5>().as_uint64(); }
+ bool has_oldest_event_ts() const { return at<6>().valid(); }
+ double oldest_event_ts() const { return at<6>().as_double(); }
+ bool has_now_ts() const { return at<7>().valid(); }
+ double now_ts() const { return at<7>().as_double(); }
+ bool has_dropped_events() const { return at<8>().valid(); }
+ uint64_t dropped_events() const { return at<8>().as_uint64(); }
+ bool has_read_events() const { return at<9>().valid(); }
+ uint64_t read_events() const { return at<9>().as_uint64(); }
+};
+
+class FtraceCpuStats : public ::protozero::Message {
+ public:
+ using Decoder = FtraceCpuStats_Decoder;
+ enum : int32_t {
+ kCpuFieldNumber = 1,
+ kEntriesFieldNumber = 2,
+ kOverrunFieldNumber = 3,
+ kCommitOverrunFieldNumber = 4,
+ kBytesReadFieldNumber = 5,
+ kOldestEventTsFieldNumber = 6,
+ kNowTsFieldNumber = 7,
+ kDroppedEventsFieldNumber = 8,
+ kReadEventsFieldNumber = 9,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.FtraceCpuStats"; }
+
+
+ using FieldMetadata_Cpu =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ FtraceCpuStats>;
+
+ static constexpr FieldMetadata_Cpu kCpu{};
+ void set_cpu(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Cpu::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Entries =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ FtraceCpuStats>;
+
+ static constexpr FieldMetadata_Entries kEntries{};
+ void set_entries(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Entries::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Overrun =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ FtraceCpuStats>;
+
+ static constexpr FieldMetadata_Overrun kOverrun{};
+ void set_overrun(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Overrun::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CommitOverrun =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ FtraceCpuStats>;
+
+ static constexpr FieldMetadata_CommitOverrun kCommitOverrun{};
+ void set_commit_overrun(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CommitOverrun::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BytesRead =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ FtraceCpuStats>;
+
+ static constexpr FieldMetadata_BytesRead kBytesRead{};
+ void set_bytes_read(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BytesRead::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_OldestEventTs =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kDouble,
+ double,
+ FtraceCpuStats>;
+
+ static constexpr FieldMetadata_OldestEventTs kOldestEventTs{};
+ void set_oldest_event_ts(double value) {
+ static constexpr uint32_t field_id = FieldMetadata_OldestEventTs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kDouble>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NowTs =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kDouble,
+ double,
+ FtraceCpuStats>;
+
+ static constexpr FieldMetadata_NowTs kNowTs{};
+ void set_now_ts(double value) {
+ static constexpr uint32_t field_id = FieldMetadata_NowTs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kDouble>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DroppedEvents =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ FtraceCpuStats>;
+
+ static constexpr FieldMetadata_DroppedEvents kDroppedEvents{};
+ void set_dropped_events(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DroppedEvents::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ReadEvents =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ FtraceCpuStats>;
+
+ static constexpr FieldMetadata_ReadEvents kReadEvents{};
+ void set_read_events(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ReadEvents::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/test_bundle_wrapper.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_TEST_BUNDLE_WRAPPER_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_TEST_BUNDLE_WRAPPER_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class FtraceEventBundle;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class TestBundleWrapper_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ TestBundleWrapper_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TestBundleWrapper_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TestBundleWrapper_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_before() const { return at<1>().valid(); }
+ ::protozero::ConstChars before() const { return at<1>().as_string(); }
+ bool has_bundle() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> bundle() const { return GetRepeated<::protozero::ConstBytes>(2); }
+ bool has_after() const { return at<3>().valid(); }
+ ::protozero::ConstChars after() const { return at<3>().as_string(); }
+};
+
+class TestBundleWrapper : public ::protozero::Message {
+ public:
+ using Decoder = TestBundleWrapper_Decoder;
+ enum : int32_t {
+ kBeforeFieldNumber = 1,
+ kBundleFieldNumber = 2,
+ kAfterFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TestBundleWrapper"; }
+
+
+ using FieldMetadata_Before =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ TestBundleWrapper>;
+
+ static constexpr FieldMetadata_Before kBefore{};
+ void set_before(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Before::kFieldId, data, size);
+ }
+ void set_before(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Before::kFieldId, chars.data, chars.size);
+ }
+ void set_before(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Before::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Bundle =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ FtraceEventBundle,
+ TestBundleWrapper>;
+
+ static constexpr FieldMetadata_Bundle kBundle{};
+ template <typename T = FtraceEventBundle> T* add_bundle() {
+ return BeginNestedMessage<T>(2);
+ }
+
+
+ using FieldMetadata_After =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ TestBundleWrapper>;
+
+ static constexpr FieldMetadata_After kAfter{};
+ void set_after(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_After::kFieldId, data, size);
+ }
+ void set_after(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_After::kFieldId, chars.data, chars.size);
+ }
+ void set_after(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_After::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/generic.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_GENERIC_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_GENERIC_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class GenericFtraceEvent_Field;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class GenericFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ GenericFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit GenericFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit GenericFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_event_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars event_name() const { return at<1>().as_string(); }
+ bool has_field() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> field() const { return GetRepeated<::protozero::ConstBytes>(2); }
+};
+
+class GenericFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = GenericFtraceEvent_Decoder;
+ enum : int32_t {
+ kEventNameFieldNumber = 1,
+ kFieldFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.GenericFtraceEvent"; }
+
+ using Field = ::perfetto::protos::pbzero::GenericFtraceEvent_Field;
+
+ using FieldMetadata_EventName =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ GenericFtraceEvent>;
+
+ static constexpr FieldMetadata_EventName kEventName{};
+ void set_event_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_EventName::kFieldId, data, size);
+ }
+ void set_event_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_EventName::kFieldId, chars.data, chars.size);
+ }
+ void set_event_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_EventName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Field =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ GenericFtraceEvent_Field,
+ GenericFtraceEvent>;
+
+ static constexpr FieldMetadata_Field kField{};
+ template <typename T = GenericFtraceEvent_Field> T* add_field() {
+ return BeginNestedMessage<T>(2);
+ }
+
+};
+
+class GenericFtraceEvent_Field_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ GenericFtraceEvent_Field_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit GenericFtraceEvent_Field_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit GenericFtraceEvent_Field_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars name() const { return at<1>().as_string(); }
+ bool has_str_value() const { return at<3>().valid(); }
+ ::protozero::ConstChars str_value() const { return at<3>().as_string(); }
+ bool has_int_value() const { return at<4>().valid(); }
+ int64_t int_value() const { return at<4>().as_int64(); }
+ bool has_uint_value() const { return at<5>().valid(); }
+ uint64_t uint_value() const { return at<5>().as_uint64(); }
+};
+
+class GenericFtraceEvent_Field : public ::protozero::Message {
+ public:
+ using Decoder = GenericFtraceEvent_Field_Decoder;
+ enum : int32_t {
+ kNameFieldNumber = 1,
+ kStrValueFieldNumber = 3,
+ kIntValueFieldNumber = 4,
+ kUintValueFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.GenericFtraceEvent.Field"; }
+
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ GenericFtraceEvent_Field>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_StrValue =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ GenericFtraceEvent_Field>;
+
+ static constexpr FieldMetadata_StrValue kStrValue{};
+ void set_str_value(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_StrValue::kFieldId, data, size);
+ }
+ void set_str_value(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_StrValue::kFieldId, chars.data, chars.size);
+ }
+ void set_str_value(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_StrValue::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IntValue =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ GenericFtraceEvent_Field>;
+
+ static constexpr FieldMetadata_IntValue kIntValue{};
+ void set_int_value(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_IntValue::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_UintValue =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ GenericFtraceEvent_Field>;
+
+ static constexpr FieldMetadata_UintValue kUintValue{};
+ void set_uint_value(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_UintValue::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/android_fs.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_ANDROID_FS_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_ANDROID_FS_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class AndroidFsFsyncStartFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ AndroidFsFsyncStartFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit AndroidFsFsyncStartFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit AndroidFsFsyncStartFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_cmdline() const { return at<1>().valid(); }
+ ::protozero::ConstChars cmdline() const { return at<1>().as_string(); }
+ bool has_i_size() const { return at<2>().valid(); }
+ int64_t i_size() const { return at<2>().as_int64(); }
+ bool has_ino() const { return at<3>().valid(); }
+ uint64_t ino() const { return at<3>().as_uint64(); }
+ bool has_pathbuf() const { return at<4>().valid(); }
+ ::protozero::ConstChars pathbuf() const { return at<4>().as_string(); }
+ bool has_pid() const { return at<5>().valid(); }
+ int32_t pid() const { return at<5>().as_int32(); }
+};
+
+class AndroidFsFsyncStartFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = AndroidFsFsyncStartFtraceEvent_Decoder;
+ enum : int32_t {
+ kCmdlineFieldNumber = 1,
+ kISizeFieldNumber = 2,
+ kInoFieldNumber = 3,
+ kPathbufFieldNumber = 4,
+ kPidFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.AndroidFsFsyncStartFtraceEvent"; }
+
+
+ using FieldMetadata_Cmdline =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ AndroidFsFsyncStartFtraceEvent>;
+
+ static constexpr FieldMetadata_Cmdline kCmdline{};
+ void set_cmdline(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Cmdline::kFieldId, data, size);
+ }
+ void set_cmdline(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Cmdline::kFieldId, chars.data, chars.size);
+ }
+ void set_cmdline(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Cmdline::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ISize =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ AndroidFsFsyncStartFtraceEvent>;
+
+ static constexpr FieldMetadata_ISize kISize{};
+ void set_i_size(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ISize::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ AndroidFsFsyncStartFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pathbuf =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ AndroidFsFsyncStartFtraceEvent>;
+
+ static constexpr FieldMetadata_Pathbuf kPathbuf{};
+ void set_pathbuf(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Pathbuf::kFieldId, data, size);
+ }
+ void set_pathbuf(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Pathbuf::kFieldId, chars.data, chars.size);
+ }
+ void set_pathbuf(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pathbuf::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ AndroidFsFsyncStartFtraceEvent>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class AndroidFsFsyncEndFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ AndroidFsFsyncEndFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit AndroidFsFsyncEndFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit AndroidFsFsyncEndFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_bytes() const { return at<1>().valid(); }
+ int32_t bytes() const { return at<1>().as_int32(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_offset() const { return at<3>().valid(); }
+ int64_t offset() const { return at<3>().as_int64(); }
+};
+
+class AndroidFsFsyncEndFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = AndroidFsFsyncEndFtraceEvent_Decoder;
+ enum : int32_t {
+ kBytesFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kOffsetFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.AndroidFsFsyncEndFtraceEvent"; }
+
+
+ using FieldMetadata_Bytes =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ AndroidFsFsyncEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Bytes kBytes{};
+ void set_bytes(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Bytes::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ AndroidFsFsyncEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Offset =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ AndroidFsFsyncEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Offset kOffset{};
+ void set_offset(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Offset::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class AndroidFsDatawriteStartFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/7, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ AndroidFsDatawriteStartFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit AndroidFsDatawriteStartFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit AndroidFsDatawriteStartFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_bytes() const { return at<1>().valid(); }
+ int32_t bytes() const { return at<1>().as_int32(); }
+ bool has_cmdline() const { return at<2>().valid(); }
+ ::protozero::ConstChars cmdline() const { return at<2>().as_string(); }
+ bool has_i_size() const { return at<3>().valid(); }
+ int64_t i_size() const { return at<3>().as_int64(); }
+ bool has_ino() const { return at<4>().valid(); }
+ uint64_t ino() const { return at<4>().as_uint64(); }
+ bool has_offset() const { return at<5>().valid(); }
+ int64_t offset() const { return at<5>().as_int64(); }
+ bool has_pathbuf() const { return at<6>().valid(); }
+ ::protozero::ConstChars pathbuf() const { return at<6>().as_string(); }
+ bool has_pid() const { return at<7>().valid(); }
+ int32_t pid() const { return at<7>().as_int32(); }
+};
+
+class AndroidFsDatawriteStartFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = AndroidFsDatawriteStartFtraceEvent_Decoder;
+ enum : int32_t {
+ kBytesFieldNumber = 1,
+ kCmdlineFieldNumber = 2,
+ kISizeFieldNumber = 3,
+ kInoFieldNumber = 4,
+ kOffsetFieldNumber = 5,
+ kPathbufFieldNumber = 6,
+ kPidFieldNumber = 7,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.AndroidFsDatawriteStartFtraceEvent"; }
+
+
+ using FieldMetadata_Bytes =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ AndroidFsDatawriteStartFtraceEvent>;
+
+ static constexpr FieldMetadata_Bytes kBytes{};
+ void set_bytes(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Bytes::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Cmdline =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ AndroidFsDatawriteStartFtraceEvent>;
+
+ static constexpr FieldMetadata_Cmdline kCmdline{};
+ void set_cmdline(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Cmdline::kFieldId, data, size);
+ }
+ void set_cmdline(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Cmdline::kFieldId, chars.data, chars.size);
+ }
+ void set_cmdline(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Cmdline::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ISize =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ AndroidFsDatawriteStartFtraceEvent>;
+
+ static constexpr FieldMetadata_ISize kISize{};
+ void set_i_size(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ISize::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ AndroidFsDatawriteStartFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Offset =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ AndroidFsDatawriteStartFtraceEvent>;
+
+ static constexpr FieldMetadata_Offset kOffset{};
+ void set_offset(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Offset::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pathbuf =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ AndroidFsDatawriteStartFtraceEvent>;
+
+ static constexpr FieldMetadata_Pathbuf kPathbuf{};
+ void set_pathbuf(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Pathbuf::kFieldId, data, size);
+ }
+ void set_pathbuf(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Pathbuf::kFieldId, chars.data, chars.size);
+ }
+ void set_pathbuf(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pathbuf::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ AndroidFsDatawriteStartFtraceEvent>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class AndroidFsDatawriteEndFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ AndroidFsDatawriteEndFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit AndroidFsDatawriteEndFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit AndroidFsDatawriteEndFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_bytes() const { return at<1>().valid(); }
+ int32_t bytes() const { return at<1>().as_int32(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_offset() const { return at<3>().valid(); }
+ int64_t offset() const { return at<3>().as_int64(); }
+};
+
+class AndroidFsDatawriteEndFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = AndroidFsDatawriteEndFtraceEvent_Decoder;
+ enum : int32_t {
+ kBytesFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kOffsetFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.AndroidFsDatawriteEndFtraceEvent"; }
+
+
+ using FieldMetadata_Bytes =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ AndroidFsDatawriteEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Bytes kBytes{};
+ void set_bytes(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Bytes::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ AndroidFsDatawriteEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Offset =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ AndroidFsDatawriteEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Offset kOffset{};
+ void set_offset(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Offset::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class AndroidFsDatareadStartFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/7, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ AndroidFsDatareadStartFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit AndroidFsDatareadStartFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit AndroidFsDatareadStartFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_bytes() const { return at<1>().valid(); }
+ int32_t bytes() const { return at<1>().as_int32(); }
+ bool has_cmdline() const { return at<2>().valid(); }
+ ::protozero::ConstChars cmdline() const { return at<2>().as_string(); }
+ bool has_i_size() const { return at<3>().valid(); }
+ int64_t i_size() const { return at<3>().as_int64(); }
+ bool has_ino() const { return at<4>().valid(); }
+ uint64_t ino() const { return at<4>().as_uint64(); }
+ bool has_offset() const { return at<5>().valid(); }
+ int64_t offset() const { return at<5>().as_int64(); }
+ bool has_pathbuf() const { return at<6>().valid(); }
+ ::protozero::ConstChars pathbuf() const { return at<6>().as_string(); }
+ bool has_pid() const { return at<7>().valid(); }
+ int32_t pid() const { return at<7>().as_int32(); }
+};
+
+class AndroidFsDatareadStartFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = AndroidFsDatareadStartFtraceEvent_Decoder;
+ enum : int32_t {
+ kBytesFieldNumber = 1,
+ kCmdlineFieldNumber = 2,
+ kISizeFieldNumber = 3,
+ kInoFieldNumber = 4,
+ kOffsetFieldNumber = 5,
+ kPathbufFieldNumber = 6,
+ kPidFieldNumber = 7,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.AndroidFsDatareadStartFtraceEvent"; }
+
+
+ using FieldMetadata_Bytes =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ AndroidFsDatareadStartFtraceEvent>;
+
+ static constexpr FieldMetadata_Bytes kBytes{};
+ void set_bytes(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Bytes::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Cmdline =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ AndroidFsDatareadStartFtraceEvent>;
+
+ static constexpr FieldMetadata_Cmdline kCmdline{};
+ void set_cmdline(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Cmdline::kFieldId, data, size);
+ }
+ void set_cmdline(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Cmdline::kFieldId, chars.data, chars.size);
+ }
+ void set_cmdline(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Cmdline::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ISize =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ AndroidFsDatareadStartFtraceEvent>;
+
+ static constexpr FieldMetadata_ISize kISize{};
+ void set_i_size(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ISize::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ AndroidFsDatareadStartFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Offset =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ AndroidFsDatareadStartFtraceEvent>;
+
+ static constexpr FieldMetadata_Offset kOffset{};
+ void set_offset(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Offset::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pathbuf =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ AndroidFsDatareadStartFtraceEvent>;
+
+ static constexpr FieldMetadata_Pathbuf kPathbuf{};
+ void set_pathbuf(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Pathbuf::kFieldId, data, size);
+ }
+ void set_pathbuf(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Pathbuf::kFieldId, chars.data, chars.size);
+ }
+ void set_pathbuf(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pathbuf::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ AndroidFsDatareadStartFtraceEvent>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class AndroidFsDatareadEndFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ AndroidFsDatareadEndFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit AndroidFsDatareadEndFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit AndroidFsDatareadEndFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_bytes() const { return at<1>().valid(); }
+ int32_t bytes() const { return at<1>().as_int32(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_offset() const { return at<3>().valid(); }
+ int64_t offset() const { return at<3>().as_int64(); }
+};
+
+class AndroidFsDatareadEndFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = AndroidFsDatareadEndFtraceEvent_Decoder;
+ enum : int32_t {
+ kBytesFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kOffsetFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.AndroidFsDatareadEndFtraceEvent"; }
+
+
+ using FieldMetadata_Bytes =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ AndroidFsDatareadEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Bytes kBytes{};
+ void set_bytes(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Bytes::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ AndroidFsDatareadEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Offset =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ AndroidFsDatareadEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Offset kOffset{};
+ void set_offset(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Offset::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/binder.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_BINDER_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_BINDER_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class BinderReturnFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ BinderReturnFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit BinderReturnFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit BinderReturnFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_cmd() const { return at<1>().valid(); }
+ uint32_t cmd() const { return at<1>().as_uint32(); }
+};
+
+class BinderReturnFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = BinderReturnFtraceEvent_Decoder;
+ enum : int32_t {
+ kCmdFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.BinderReturnFtraceEvent"; }
+
+
+ using FieldMetadata_Cmd =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ BinderReturnFtraceEvent>;
+
+ static constexpr FieldMetadata_Cmd kCmd{};
+ void set_cmd(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Cmd::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class BinderCommandFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ BinderCommandFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit BinderCommandFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit BinderCommandFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_cmd() const { return at<1>().valid(); }
+ uint32_t cmd() const { return at<1>().as_uint32(); }
+};
+
+class BinderCommandFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = BinderCommandFtraceEvent_Decoder;
+ enum : int32_t {
+ kCmdFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.BinderCommandFtraceEvent"; }
+
+
+ using FieldMetadata_Cmd =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ BinderCommandFtraceEvent>;
+
+ static constexpr FieldMetadata_Cmd kCmd{};
+ void set_cmd(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Cmd::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class BinderTransactionAllocBufFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ BinderTransactionAllocBufFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit BinderTransactionAllocBufFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit BinderTransactionAllocBufFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_data_size() const { return at<1>().valid(); }
+ uint64_t data_size() const { return at<1>().as_uint64(); }
+ bool has_debug_id() const { return at<2>().valid(); }
+ int32_t debug_id() const { return at<2>().as_int32(); }
+ bool has_offsets_size() const { return at<3>().valid(); }
+ uint64_t offsets_size() const { return at<3>().as_uint64(); }
+ bool has_extra_buffers_size() const { return at<4>().valid(); }
+ uint64_t extra_buffers_size() const { return at<4>().as_uint64(); }
+};
+
+class BinderTransactionAllocBufFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = BinderTransactionAllocBufFtraceEvent_Decoder;
+ enum : int32_t {
+ kDataSizeFieldNumber = 1,
+ kDebugIdFieldNumber = 2,
+ kOffsetsSizeFieldNumber = 3,
+ kExtraBuffersSizeFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.BinderTransactionAllocBufFtraceEvent"; }
+
+
+ using FieldMetadata_DataSize =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ BinderTransactionAllocBufFtraceEvent>;
+
+ static constexpr FieldMetadata_DataSize kDataSize{};
+ void set_data_size(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DataSize::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DebugId =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ BinderTransactionAllocBufFtraceEvent>;
+
+ static constexpr FieldMetadata_DebugId kDebugId{};
+ void set_debug_id(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DebugId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_OffsetsSize =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ BinderTransactionAllocBufFtraceEvent>;
+
+ static constexpr FieldMetadata_OffsetsSize kOffsetsSize{};
+ void set_offsets_size(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_OffsetsSize::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ExtraBuffersSize =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ BinderTransactionAllocBufFtraceEvent>;
+
+ static constexpr FieldMetadata_ExtraBuffersSize kExtraBuffersSize{};
+ void set_extra_buffers_size(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ExtraBuffersSize::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class BinderUnlockFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ BinderUnlockFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit BinderUnlockFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit BinderUnlockFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_tag() const { return at<1>().valid(); }
+ ::protozero::ConstChars tag() const { return at<1>().as_string(); }
+};
+
+class BinderUnlockFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = BinderUnlockFtraceEvent_Decoder;
+ enum : int32_t {
+ kTagFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.BinderUnlockFtraceEvent"; }
+
+
+ using FieldMetadata_Tag =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ BinderUnlockFtraceEvent>;
+
+ static constexpr FieldMetadata_Tag kTag{};
+ void set_tag(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Tag::kFieldId, data, size);
+ }
+ void set_tag(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Tag::kFieldId, chars.data, chars.size);
+ }
+ void set_tag(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Tag::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class BinderLockedFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ BinderLockedFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit BinderLockedFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit BinderLockedFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_tag() const { return at<1>().valid(); }
+ ::protozero::ConstChars tag() const { return at<1>().as_string(); }
+};
+
+class BinderLockedFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = BinderLockedFtraceEvent_Decoder;
+ enum : int32_t {
+ kTagFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.BinderLockedFtraceEvent"; }
+
+
+ using FieldMetadata_Tag =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ BinderLockedFtraceEvent>;
+
+ static constexpr FieldMetadata_Tag kTag{};
+ void set_tag(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Tag::kFieldId, data, size);
+ }
+ void set_tag(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Tag::kFieldId, chars.data, chars.size);
+ }
+ void set_tag(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Tag::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class BinderLockFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ BinderLockFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit BinderLockFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit BinderLockFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_tag() const { return at<1>().valid(); }
+ ::protozero::ConstChars tag() const { return at<1>().as_string(); }
+};
+
+class BinderLockFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = BinderLockFtraceEvent_Decoder;
+ enum : int32_t {
+ kTagFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.BinderLockFtraceEvent"; }
+
+
+ using FieldMetadata_Tag =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ BinderLockFtraceEvent>;
+
+ static constexpr FieldMetadata_Tag kTag{};
+ void set_tag(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Tag::kFieldId, data, size);
+ }
+ void set_tag(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Tag::kFieldId, chars.data, chars.size);
+ }
+ void set_tag(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Tag::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class BinderSetPriorityFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ BinderSetPriorityFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit BinderSetPriorityFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit BinderSetPriorityFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_proc() const { return at<1>().valid(); }
+ int32_t proc() const { return at<1>().as_int32(); }
+ bool has_thread() const { return at<2>().valid(); }
+ int32_t thread() const { return at<2>().as_int32(); }
+ bool has_old_prio() const { return at<3>().valid(); }
+ uint32_t old_prio() const { return at<3>().as_uint32(); }
+ bool has_new_prio() const { return at<4>().valid(); }
+ uint32_t new_prio() const { return at<4>().as_uint32(); }
+ bool has_desired_prio() const { return at<5>().valid(); }
+ uint32_t desired_prio() const { return at<5>().as_uint32(); }
+};
+
+class BinderSetPriorityFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = BinderSetPriorityFtraceEvent_Decoder;
+ enum : int32_t {
+ kProcFieldNumber = 1,
+ kThreadFieldNumber = 2,
+ kOldPrioFieldNumber = 3,
+ kNewPrioFieldNumber = 4,
+ kDesiredPrioFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.BinderSetPriorityFtraceEvent"; }
+
+
+ using FieldMetadata_Proc =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ BinderSetPriorityFtraceEvent>;
+
+ static constexpr FieldMetadata_Proc kProc{};
+ void set_proc(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Proc::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Thread =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ BinderSetPriorityFtraceEvent>;
+
+ static constexpr FieldMetadata_Thread kThread{};
+ void set_thread(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Thread::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_OldPrio =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ BinderSetPriorityFtraceEvent>;
+
+ static constexpr FieldMetadata_OldPrio kOldPrio{};
+ void set_old_prio(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_OldPrio::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NewPrio =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ BinderSetPriorityFtraceEvent>;
+
+ static constexpr FieldMetadata_NewPrio kNewPrio{};
+ void set_new_prio(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NewPrio::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DesiredPrio =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ BinderSetPriorityFtraceEvent>;
+
+ static constexpr FieldMetadata_DesiredPrio kDesiredPrio{};
+ void set_desired_prio(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DesiredPrio::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class BinderTransactionReceivedFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ BinderTransactionReceivedFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit BinderTransactionReceivedFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit BinderTransactionReceivedFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_debug_id() const { return at<1>().valid(); }
+ int32_t debug_id() const { return at<1>().as_int32(); }
+};
+
+class BinderTransactionReceivedFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = BinderTransactionReceivedFtraceEvent_Decoder;
+ enum : int32_t {
+ kDebugIdFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.BinderTransactionReceivedFtraceEvent"; }
+
+
+ using FieldMetadata_DebugId =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ BinderTransactionReceivedFtraceEvent>;
+
+ static constexpr FieldMetadata_DebugId kDebugId{};
+ void set_debug_id(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DebugId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class BinderTransactionFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/7, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ BinderTransactionFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit BinderTransactionFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit BinderTransactionFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_debug_id() const { return at<1>().valid(); }
+ int32_t debug_id() const { return at<1>().as_int32(); }
+ bool has_target_node() const { return at<2>().valid(); }
+ int32_t target_node() const { return at<2>().as_int32(); }
+ bool has_to_proc() const { return at<3>().valid(); }
+ int32_t to_proc() const { return at<3>().as_int32(); }
+ bool has_to_thread() const { return at<4>().valid(); }
+ int32_t to_thread() const { return at<4>().as_int32(); }
+ bool has_reply() const { return at<5>().valid(); }
+ int32_t reply() const { return at<5>().as_int32(); }
+ bool has_code() const { return at<6>().valid(); }
+ uint32_t code() const { return at<6>().as_uint32(); }
+ bool has_flags() const { return at<7>().valid(); }
+ uint32_t flags() const { return at<7>().as_uint32(); }
+};
+
+class BinderTransactionFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = BinderTransactionFtraceEvent_Decoder;
+ enum : int32_t {
+ kDebugIdFieldNumber = 1,
+ kTargetNodeFieldNumber = 2,
+ kToProcFieldNumber = 3,
+ kToThreadFieldNumber = 4,
+ kReplyFieldNumber = 5,
+ kCodeFieldNumber = 6,
+ kFlagsFieldNumber = 7,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.BinderTransactionFtraceEvent"; }
+
+
+ using FieldMetadata_DebugId =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ BinderTransactionFtraceEvent>;
+
+ static constexpr FieldMetadata_DebugId kDebugId{};
+ void set_debug_id(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DebugId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TargetNode =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ BinderTransactionFtraceEvent>;
+
+ static constexpr FieldMetadata_TargetNode kTargetNode{};
+ void set_target_node(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TargetNode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ToProc =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ BinderTransactionFtraceEvent>;
+
+ static constexpr FieldMetadata_ToProc kToProc{};
+ void set_to_proc(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ToProc::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ToThread =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ BinderTransactionFtraceEvent>;
+
+ static constexpr FieldMetadata_ToThread kToThread{};
+ void set_to_thread(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ToThread::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Reply =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ BinderTransactionFtraceEvent>;
+
+ static constexpr FieldMetadata_Reply kReply{};
+ void set_reply(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Reply::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Code =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ BinderTransactionFtraceEvent>;
+
+ static constexpr FieldMetadata_Code kCode{};
+ void set_code(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Code::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Flags =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ BinderTransactionFtraceEvent>;
+
+ static constexpr FieldMetadata_Flags kFlags{};
+ void set_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Flags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/block.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_BLOCK_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_BLOCK_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class BlockUnplugFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ BlockUnplugFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit BlockUnplugFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit BlockUnplugFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_nr_rq() const { return at<1>().valid(); }
+ int32_t nr_rq() const { return at<1>().as_int32(); }
+ bool has_comm() const { return at<2>().valid(); }
+ ::protozero::ConstChars comm() const { return at<2>().as_string(); }
+};
+
+class BlockUnplugFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = BlockUnplugFtraceEvent_Decoder;
+ enum : int32_t {
+ kNrRqFieldNumber = 1,
+ kCommFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.BlockUnplugFtraceEvent"; }
+
+
+ using FieldMetadata_NrRq =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ BlockUnplugFtraceEvent>;
+
+ static constexpr FieldMetadata_NrRq kNrRq{};
+ void set_nr_rq(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NrRq::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Comm =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ BlockUnplugFtraceEvent>;
+
+ static constexpr FieldMetadata_Comm kComm{};
+ void set_comm(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Comm::kFieldId, data, size);
+ }
+ void set_comm(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Comm::kFieldId, chars.data, chars.size);
+ }
+ void set_comm(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Comm::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class BlockTouchBufferFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ BlockTouchBufferFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit BlockTouchBufferFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit BlockTouchBufferFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_sector() const { return at<2>().valid(); }
+ uint64_t sector() const { return at<2>().as_uint64(); }
+ bool has_size() const { return at<3>().valid(); }
+ uint64_t size() const { return at<3>().as_uint64(); }
+};
+
+class BlockTouchBufferFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = BlockTouchBufferFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kSectorFieldNumber = 2,
+ kSizeFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.BlockTouchBufferFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ BlockTouchBufferFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Sector =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ BlockTouchBufferFtraceEvent>;
+
+ static constexpr FieldMetadata_Sector kSector{};
+ void set_sector(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Sector::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Size =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ BlockTouchBufferFtraceEvent>;
+
+ static constexpr FieldMetadata_Size kSize{};
+ void set_size(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Size::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class BlockSplitFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ BlockSplitFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit BlockSplitFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit BlockSplitFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_sector() const { return at<2>().valid(); }
+ uint64_t sector() const { return at<2>().as_uint64(); }
+ bool has_new_sector() const { return at<3>().valid(); }
+ uint64_t new_sector() const { return at<3>().as_uint64(); }
+ bool has_rwbs() const { return at<4>().valid(); }
+ ::protozero::ConstChars rwbs() const { return at<4>().as_string(); }
+ bool has_comm() const { return at<5>().valid(); }
+ ::protozero::ConstChars comm() const { return at<5>().as_string(); }
+};
+
+class BlockSplitFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = BlockSplitFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kSectorFieldNumber = 2,
+ kNewSectorFieldNumber = 3,
+ kRwbsFieldNumber = 4,
+ kCommFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.BlockSplitFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ BlockSplitFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Sector =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ BlockSplitFtraceEvent>;
+
+ static constexpr FieldMetadata_Sector kSector{};
+ void set_sector(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Sector::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NewSector =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ BlockSplitFtraceEvent>;
+
+ static constexpr FieldMetadata_NewSector kNewSector{};
+ void set_new_sector(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NewSector::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Rwbs =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ BlockSplitFtraceEvent>;
+
+ static constexpr FieldMetadata_Rwbs kRwbs{};
+ void set_rwbs(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Rwbs::kFieldId, data, size);
+ }
+ void set_rwbs(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Rwbs::kFieldId, chars.data, chars.size);
+ }
+ void set_rwbs(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Rwbs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Comm =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ BlockSplitFtraceEvent>;
+
+ static constexpr FieldMetadata_Comm kComm{};
+ void set_comm(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Comm::kFieldId, data, size);
+ }
+ void set_comm(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Comm::kFieldId, chars.data, chars.size);
+ }
+ void set_comm(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Comm::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class BlockSleeprqFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ BlockSleeprqFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit BlockSleeprqFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit BlockSleeprqFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_sector() const { return at<2>().valid(); }
+ uint64_t sector() const { return at<2>().as_uint64(); }
+ bool has_nr_sector() const { return at<3>().valid(); }
+ uint32_t nr_sector() const { return at<3>().as_uint32(); }
+ bool has_rwbs() const { return at<4>().valid(); }
+ ::protozero::ConstChars rwbs() const { return at<4>().as_string(); }
+ bool has_comm() const { return at<5>().valid(); }
+ ::protozero::ConstChars comm() const { return at<5>().as_string(); }
+};
+
+class BlockSleeprqFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = BlockSleeprqFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kSectorFieldNumber = 2,
+ kNrSectorFieldNumber = 3,
+ kRwbsFieldNumber = 4,
+ kCommFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.BlockSleeprqFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ BlockSleeprqFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Sector =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ BlockSleeprqFtraceEvent>;
+
+ static constexpr FieldMetadata_Sector kSector{};
+ void set_sector(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Sector::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NrSector =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ BlockSleeprqFtraceEvent>;
+
+ static constexpr FieldMetadata_NrSector kNrSector{};
+ void set_nr_sector(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NrSector::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Rwbs =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ BlockSleeprqFtraceEvent>;
+
+ static constexpr FieldMetadata_Rwbs kRwbs{};
+ void set_rwbs(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Rwbs::kFieldId, data, size);
+ }
+ void set_rwbs(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Rwbs::kFieldId, chars.data, chars.size);
+ }
+ void set_rwbs(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Rwbs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Comm =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ BlockSleeprqFtraceEvent>;
+
+ static constexpr FieldMetadata_Comm kComm{};
+ void set_comm(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Comm::kFieldId, data, size);
+ }
+ void set_comm(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Comm::kFieldId, chars.data, chars.size);
+ }
+ void set_comm(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Comm::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class BlockRqRequeueFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/6, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ BlockRqRequeueFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit BlockRqRequeueFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit BlockRqRequeueFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_sector() const { return at<2>().valid(); }
+ uint64_t sector() const { return at<2>().as_uint64(); }
+ bool has_nr_sector() const { return at<3>().valid(); }
+ uint32_t nr_sector() const { return at<3>().as_uint32(); }
+ bool has_errors() const { return at<4>().valid(); }
+ int32_t errors() const { return at<4>().as_int32(); }
+ bool has_rwbs() const { return at<5>().valid(); }
+ ::protozero::ConstChars rwbs() const { return at<5>().as_string(); }
+ bool has_cmd() const { return at<6>().valid(); }
+ ::protozero::ConstChars cmd() const { return at<6>().as_string(); }
+};
+
+class BlockRqRequeueFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = BlockRqRequeueFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kSectorFieldNumber = 2,
+ kNrSectorFieldNumber = 3,
+ kErrorsFieldNumber = 4,
+ kRwbsFieldNumber = 5,
+ kCmdFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.BlockRqRequeueFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ BlockRqRequeueFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Sector =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ BlockRqRequeueFtraceEvent>;
+
+ static constexpr FieldMetadata_Sector kSector{};
+ void set_sector(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Sector::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NrSector =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ BlockRqRequeueFtraceEvent>;
+
+ static constexpr FieldMetadata_NrSector kNrSector{};
+ void set_nr_sector(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NrSector::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Errors =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ BlockRqRequeueFtraceEvent>;
+
+ static constexpr FieldMetadata_Errors kErrors{};
+ void set_errors(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Errors::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Rwbs =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ BlockRqRequeueFtraceEvent>;
+
+ static constexpr FieldMetadata_Rwbs kRwbs{};
+ void set_rwbs(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Rwbs::kFieldId, data, size);
+ }
+ void set_rwbs(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Rwbs::kFieldId, chars.data, chars.size);
+ }
+ void set_rwbs(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Rwbs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Cmd =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ BlockRqRequeueFtraceEvent>;
+
+ static constexpr FieldMetadata_Cmd kCmd{};
+ void set_cmd(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Cmd::kFieldId, data, size);
+ }
+ void set_cmd(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Cmd::kFieldId, chars.data, chars.size);
+ }
+ void set_cmd(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Cmd::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class BlockRqRemapFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/7, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ BlockRqRemapFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit BlockRqRemapFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit BlockRqRemapFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_sector() const { return at<2>().valid(); }
+ uint64_t sector() const { return at<2>().as_uint64(); }
+ bool has_nr_sector() const { return at<3>().valid(); }
+ uint32_t nr_sector() const { return at<3>().as_uint32(); }
+ bool has_old_dev() const { return at<4>().valid(); }
+ uint64_t old_dev() const { return at<4>().as_uint64(); }
+ bool has_old_sector() const { return at<5>().valid(); }
+ uint64_t old_sector() const { return at<5>().as_uint64(); }
+ bool has_nr_bios() const { return at<6>().valid(); }
+ uint32_t nr_bios() const { return at<6>().as_uint32(); }
+ bool has_rwbs() const { return at<7>().valid(); }
+ ::protozero::ConstChars rwbs() const { return at<7>().as_string(); }
+};
+
+class BlockRqRemapFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = BlockRqRemapFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kSectorFieldNumber = 2,
+ kNrSectorFieldNumber = 3,
+ kOldDevFieldNumber = 4,
+ kOldSectorFieldNumber = 5,
+ kNrBiosFieldNumber = 6,
+ kRwbsFieldNumber = 7,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.BlockRqRemapFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ BlockRqRemapFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Sector =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ BlockRqRemapFtraceEvent>;
+
+ static constexpr FieldMetadata_Sector kSector{};
+ void set_sector(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Sector::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NrSector =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ BlockRqRemapFtraceEvent>;
+
+ static constexpr FieldMetadata_NrSector kNrSector{};
+ void set_nr_sector(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NrSector::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_OldDev =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ BlockRqRemapFtraceEvent>;
+
+ static constexpr FieldMetadata_OldDev kOldDev{};
+ void set_old_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_OldDev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_OldSector =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ BlockRqRemapFtraceEvent>;
+
+ static constexpr FieldMetadata_OldSector kOldSector{};
+ void set_old_sector(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_OldSector::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NrBios =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ BlockRqRemapFtraceEvent>;
+
+ static constexpr FieldMetadata_NrBios kNrBios{};
+ void set_nr_bios(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NrBios::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Rwbs =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ BlockRqRemapFtraceEvent>;
+
+ static constexpr FieldMetadata_Rwbs kRwbs{};
+ void set_rwbs(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Rwbs::kFieldId, data, size);
+ }
+ void set_rwbs(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Rwbs::kFieldId, chars.data, chars.size);
+ }
+ void set_rwbs(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Rwbs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class BlockRqInsertFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/7, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ BlockRqInsertFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit BlockRqInsertFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit BlockRqInsertFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_sector() const { return at<2>().valid(); }
+ uint64_t sector() const { return at<2>().as_uint64(); }
+ bool has_nr_sector() const { return at<3>().valid(); }
+ uint32_t nr_sector() const { return at<3>().as_uint32(); }
+ bool has_bytes() const { return at<4>().valid(); }
+ uint32_t bytes() const { return at<4>().as_uint32(); }
+ bool has_rwbs() const { return at<5>().valid(); }
+ ::protozero::ConstChars rwbs() const { return at<5>().as_string(); }
+ bool has_comm() const { return at<6>().valid(); }
+ ::protozero::ConstChars comm() const { return at<6>().as_string(); }
+ bool has_cmd() const { return at<7>().valid(); }
+ ::protozero::ConstChars cmd() const { return at<7>().as_string(); }
+};
+
+class BlockRqInsertFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = BlockRqInsertFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kSectorFieldNumber = 2,
+ kNrSectorFieldNumber = 3,
+ kBytesFieldNumber = 4,
+ kRwbsFieldNumber = 5,
+ kCommFieldNumber = 6,
+ kCmdFieldNumber = 7,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.BlockRqInsertFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ BlockRqInsertFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Sector =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ BlockRqInsertFtraceEvent>;
+
+ static constexpr FieldMetadata_Sector kSector{};
+ void set_sector(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Sector::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NrSector =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ BlockRqInsertFtraceEvent>;
+
+ static constexpr FieldMetadata_NrSector kNrSector{};
+ void set_nr_sector(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NrSector::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Bytes =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ BlockRqInsertFtraceEvent>;
+
+ static constexpr FieldMetadata_Bytes kBytes{};
+ void set_bytes(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Bytes::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Rwbs =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ BlockRqInsertFtraceEvent>;
+
+ static constexpr FieldMetadata_Rwbs kRwbs{};
+ void set_rwbs(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Rwbs::kFieldId, data, size);
+ }
+ void set_rwbs(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Rwbs::kFieldId, chars.data, chars.size);
+ }
+ void set_rwbs(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Rwbs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Comm =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ BlockRqInsertFtraceEvent>;
+
+ static constexpr FieldMetadata_Comm kComm{};
+ void set_comm(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Comm::kFieldId, data, size);
+ }
+ void set_comm(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Comm::kFieldId, chars.data, chars.size);
+ }
+ void set_comm(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Comm::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Cmd =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ BlockRqInsertFtraceEvent>;
+
+ static constexpr FieldMetadata_Cmd kCmd{};
+ void set_cmd(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Cmd::kFieldId, data, size);
+ }
+ void set_cmd(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Cmd::kFieldId, chars.data, chars.size);
+ }
+ void set_cmd(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Cmd::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class BlockRqCompleteFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/7, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ BlockRqCompleteFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit BlockRqCompleteFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit BlockRqCompleteFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_sector() const { return at<2>().valid(); }
+ uint64_t sector() const { return at<2>().as_uint64(); }
+ bool has_nr_sector() const { return at<3>().valid(); }
+ uint32_t nr_sector() const { return at<3>().as_uint32(); }
+ bool has_errors() const { return at<4>().valid(); }
+ int32_t errors() const { return at<4>().as_int32(); }
+ bool has_rwbs() const { return at<5>().valid(); }
+ ::protozero::ConstChars rwbs() const { return at<5>().as_string(); }
+ bool has_cmd() const { return at<6>().valid(); }
+ ::protozero::ConstChars cmd() const { return at<6>().as_string(); }
+ bool has_error() const { return at<7>().valid(); }
+ int32_t error() const { return at<7>().as_int32(); }
+};
+
+class BlockRqCompleteFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = BlockRqCompleteFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kSectorFieldNumber = 2,
+ kNrSectorFieldNumber = 3,
+ kErrorsFieldNumber = 4,
+ kRwbsFieldNumber = 5,
+ kCmdFieldNumber = 6,
+ kErrorFieldNumber = 7,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.BlockRqCompleteFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ BlockRqCompleteFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Sector =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ BlockRqCompleteFtraceEvent>;
+
+ static constexpr FieldMetadata_Sector kSector{};
+ void set_sector(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Sector::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NrSector =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ BlockRqCompleteFtraceEvent>;
+
+ static constexpr FieldMetadata_NrSector kNrSector{};
+ void set_nr_sector(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NrSector::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Errors =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ BlockRqCompleteFtraceEvent>;
+
+ static constexpr FieldMetadata_Errors kErrors{};
+ void set_errors(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Errors::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Rwbs =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ BlockRqCompleteFtraceEvent>;
+
+ static constexpr FieldMetadata_Rwbs kRwbs{};
+ void set_rwbs(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Rwbs::kFieldId, data, size);
+ }
+ void set_rwbs(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Rwbs::kFieldId, chars.data, chars.size);
+ }
+ void set_rwbs(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Rwbs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Cmd =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ BlockRqCompleteFtraceEvent>;
+
+ static constexpr FieldMetadata_Cmd kCmd{};
+ void set_cmd(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Cmd::kFieldId, data, size);
+ }
+ void set_cmd(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Cmd::kFieldId, chars.data, chars.size);
+ }
+ void set_cmd(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Cmd::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Error =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ BlockRqCompleteFtraceEvent>;
+
+ static constexpr FieldMetadata_Error kError{};
+ void set_error(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Error::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class BlockRqAbortFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/6, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ BlockRqAbortFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit BlockRqAbortFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit BlockRqAbortFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_sector() const { return at<2>().valid(); }
+ uint64_t sector() const { return at<2>().as_uint64(); }
+ bool has_nr_sector() const { return at<3>().valid(); }
+ uint32_t nr_sector() const { return at<3>().as_uint32(); }
+ bool has_errors() const { return at<4>().valid(); }
+ int32_t errors() const { return at<4>().as_int32(); }
+ bool has_rwbs() const { return at<5>().valid(); }
+ ::protozero::ConstChars rwbs() const { return at<5>().as_string(); }
+ bool has_cmd() const { return at<6>().valid(); }
+ ::protozero::ConstChars cmd() const { return at<6>().as_string(); }
+};
+
+class BlockRqAbortFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = BlockRqAbortFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kSectorFieldNumber = 2,
+ kNrSectorFieldNumber = 3,
+ kErrorsFieldNumber = 4,
+ kRwbsFieldNumber = 5,
+ kCmdFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.BlockRqAbortFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ BlockRqAbortFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Sector =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ BlockRqAbortFtraceEvent>;
+
+ static constexpr FieldMetadata_Sector kSector{};
+ void set_sector(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Sector::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NrSector =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ BlockRqAbortFtraceEvent>;
+
+ static constexpr FieldMetadata_NrSector kNrSector{};
+ void set_nr_sector(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NrSector::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Errors =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ BlockRqAbortFtraceEvent>;
+
+ static constexpr FieldMetadata_Errors kErrors{};
+ void set_errors(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Errors::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Rwbs =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ BlockRqAbortFtraceEvent>;
+
+ static constexpr FieldMetadata_Rwbs kRwbs{};
+ void set_rwbs(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Rwbs::kFieldId, data, size);
+ }
+ void set_rwbs(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Rwbs::kFieldId, chars.data, chars.size);
+ }
+ void set_rwbs(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Rwbs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Cmd =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ BlockRqAbortFtraceEvent>;
+
+ static constexpr FieldMetadata_Cmd kCmd{};
+ void set_cmd(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Cmd::kFieldId, data, size);
+ }
+ void set_cmd(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Cmd::kFieldId, chars.data, chars.size);
+ }
+ void set_cmd(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Cmd::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class BlockPlugFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ BlockPlugFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit BlockPlugFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit BlockPlugFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_comm() const { return at<1>().valid(); }
+ ::protozero::ConstChars comm() const { return at<1>().as_string(); }
+};
+
+class BlockPlugFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = BlockPlugFtraceEvent_Decoder;
+ enum : int32_t {
+ kCommFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.BlockPlugFtraceEvent"; }
+
+
+ using FieldMetadata_Comm =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ BlockPlugFtraceEvent>;
+
+ static constexpr FieldMetadata_Comm kComm{};
+ void set_comm(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Comm::kFieldId, data, size);
+ }
+ void set_comm(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Comm::kFieldId, chars.data, chars.size);
+ }
+ void set_comm(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Comm::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class BlockGetrqFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ BlockGetrqFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit BlockGetrqFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit BlockGetrqFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_sector() const { return at<2>().valid(); }
+ uint64_t sector() const { return at<2>().as_uint64(); }
+ bool has_nr_sector() const { return at<3>().valid(); }
+ uint32_t nr_sector() const { return at<3>().as_uint32(); }
+ bool has_rwbs() const { return at<4>().valid(); }
+ ::protozero::ConstChars rwbs() const { return at<4>().as_string(); }
+ bool has_comm() const { return at<5>().valid(); }
+ ::protozero::ConstChars comm() const { return at<5>().as_string(); }
+};
+
+class BlockGetrqFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = BlockGetrqFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kSectorFieldNumber = 2,
+ kNrSectorFieldNumber = 3,
+ kRwbsFieldNumber = 4,
+ kCommFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.BlockGetrqFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ BlockGetrqFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Sector =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ BlockGetrqFtraceEvent>;
+
+ static constexpr FieldMetadata_Sector kSector{};
+ void set_sector(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Sector::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NrSector =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ BlockGetrqFtraceEvent>;
+
+ static constexpr FieldMetadata_NrSector kNrSector{};
+ void set_nr_sector(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NrSector::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Rwbs =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ BlockGetrqFtraceEvent>;
+
+ static constexpr FieldMetadata_Rwbs kRwbs{};
+ void set_rwbs(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Rwbs::kFieldId, data, size);
+ }
+ void set_rwbs(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Rwbs::kFieldId, chars.data, chars.size);
+ }
+ void set_rwbs(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Rwbs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Comm =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ BlockGetrqFtraceEvent>;
+
+ static constexpr FieldMetadata_Comm kComm{};
+ void set_comm(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Comm::kFieldId, data, size);
+ }
+ void set_comm(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Comm::kFieldId, chars.data, chars.size);
+ }
+ void set_comm(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Comm::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class BlockDirtyBufferFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ BlockDirtyBufferFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit BlockDirtyBufferFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit BlockDirtyBufferFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_sector() const { return at<2>().valid(); }
+ uint64_t sector() const { return at<2>().as_uint64(); }
+ bool has_size() const { return at<3>().valid(); }
+ uint64_t size() const { return at<3>().as_uint64(); }
+};
+
+class BlockDirtyBufferFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = BlockDirtyBufferFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kSectorFieldNumber = 2,
+ kSizeFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.BlockDirtyBufferFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ BlockDirtyBufferFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Sector =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ BlockDirtyBufferFtraceEvent>;
+
+ static constexpr FieldMetadata_Sector kSector{};
+ void set_sector(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Sector::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Size =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ BlockDirtyBufferFtraceEvent>;
+
+ static constexpr FieldMetadata_Size kSize{};
+ void set_size(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Size::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class BlockBioRemapFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/6, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ BlockBioRemapFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit BlockBioRemapFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit BlockBioRemapFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_sector() const { return at<2>().valid(); }
+ uint64_t sector() const { return at<2>().as_uint64(); }
+ bool has_nr_sector() const { return at<3>().valid(); }
+ uint32_t nr_sector() const { return at<3>().as_uint32(); }
+ bool has_old_dev() const { return at<4>().valid(); }
+ uint64_t old_dev() const { return at<4>().as_uint64(); }
+ bool has_old_sector() const { return at<5>().valid(); }
+ uint64_t old_sector() const { return at<5>().as_uint64(); }
+ bool has_rwbs() const { return at<6>().valid(); }
+ ::protozero::ConstChars rwbs() const { return at<6>().as_string(); }
+};
+
+class BlockBioRemapFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = BlockBioRemapFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kSectorFieldNumber = 2,
+ kNrSectorFieldNumber = 3,
+ kOldDevFieldNumber = 4,
+ kOldSectorFieldNumber = 5,
+ kRwbsFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.BlockBioRemapFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ BlockBioRemapFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Sector =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ BlockBioRemapFtraceEvent>;
+
+ static constexpr FieldMetadata_Sector kSector{};
+ void set_sector(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Sector::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NrSector =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ BlockBioRemapFtraceEvent>;
+
+ static constexpr FieldMetadata_NrSector kNrSector{};
+ void set_nr_sector(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NrSector::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_OldDev =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ BlockBioRemapFtraceEvent>;
+
+ static constexpr FieldMetadata_OldDev kOldDev{};
+ void set_old_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_OldDev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_OldSector =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ BlockBioRemapFtraceEvent>;
+
+ static constexpr FieldMetadata_OldSector kOldSector{};
+ void set_old_sector(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_OldSector::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Rwbs =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ BlockBioRemapFtraceEvent>;
+
+ static constexpr FieldMetadata_Rwbs kRwbs{};
+ void set_rwbs(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Rwbs::kFieldId, data, size);
+ }
+ void set_rwbs(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Rwbs::kFieldId, chars.data, chars.size);
+ }
+ void set_rwbs(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Rwbs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class BlockBioQueueFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ BlockBioQueueFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit BlockBioQueueFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit BlockBioQueueFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_sector() const { return at<2>().valid(); }
+ uint64_t sector() const { return at<2>().as_uint64(); }
+ bool has_nr_sector() const { return at<3>().valid(); }
+ uint32_t nr_sector() const { return at<3>().as_uint32(); }
+ bool has_rwbs() const { return at<4>().valid(); }
+ ::protozero::ConstChars rwbs() const { return at<4>().as_string(); }
+ bool has_comm() const { return at<5>().valid(); }
+ ::protozero::ConstChars comm() const { return at<5>().as_string(); }
+};
+
+class BlockBioQueueFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = BlockBioQueueFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kSectorFieldNumber = 2,
+ kNrSectorFieldNumber = 3,
+ kRwbsFieldNumber = 4,
+ kCommFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.BlockBioQueueFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ BlockBioQueueFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Sector =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ BlockBioQueueFtraceEvent>;
+
+ static constexpr FieldMetadata_Sector kSector{};
+ void set_sector(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Sector::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NrSector =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ BlockBioQueueFtraceEvent>;
+
+ static constexpr FieldMetadata_NrSector kNrSector{};
+ void set_nr_sector(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NrSector::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Rwbs =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ BlockBioQueueFtraceEvent>;
+
+ static constexpr FieldMetadata_Rwbs kRwbs{};
+ void set_rwbs(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Rwbs::kFieldId, data, size);
+ }
+ void set_rwbs(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Rwbs::kFieldId, chars.data, chars.size);
+ }
+ void set_rwbs(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Rwbs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Comm =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ BlockBioQueueFtraceEvent>;
+
+ static constexpr FieldMetadata_Comm kComm{};
+ void set_comm(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Comm::kFieldId, data, size);
+ }
+ void set_comm(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Comm::kFieldId, chars.data, chars.size);
+ }
+ void set_comm(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Comm::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class BlockBioFrontmergeFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ BlockBioFrontmergeFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit BlockBioFrontmergeFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit BlockBioFrontmergeFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_sector() const { return at<2>().valid(); }
+ uint64_t sector() const { return at<2>().as_uint64(); }
+ bool has_nr_sector() const { return at<3>().valid(); }
+ uint32_t nr_sector() const { return at<3>().as_uint32(); }
+ bool has_rwbs() const { return at<4>().valid(); }
+ ::protozero::ConstChars rwbs() const { return at<4>().as_string(); }
+ bool has_comm() const { return at<5>().valid(); }
+ ::protozero::ConstChars comm() const { return at<5>().as_string(); }
+};
+
+class BlockBioFrontmergeFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = BlockBioFrontmergeFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kSectorFieldNumber = 2,
+ kNrSectorFieldNumber = 3,
+ kRwbsFieldNumber = 4,
+ kCommFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.BlockBioFrontmergeFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ BlockBioFrontmergeFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Sector =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ BlockBioFrontmergeFtraceEvent>;
+
+ static constexpr FieldMetadata_Sector kSector{};
+ void set_sector(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Sector::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NrSector =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ BlockBioFrontmergeFtraceEvent>;
+
+ static constexpr FieldMetadata_NrSector kNrSector{};
+ void set_nr_sector(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NrSector::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Rwbs =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ BlockBioFrontmergeFtraceEvent>;
+
+ static constexpr FieldMetadata_Rwbs kRwbs{};
+ void set_rwbs(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Rwbs::kFieldId, data, size);
+ }
+ void set_rwbs(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Rwbs::kFieldId, chars.data, chars.size);
+ }
+ void set_rwbs(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Rwbs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Comm =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ BlockBioFrontmergeFtraceEvent>;
+
+ static constexpr FieldMetadata_Comm kComm{};
+ void set_comm(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Comm::kFieldId, data, size);
+ }
+ void set_comm(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Comm::kFieldId, chars.data, chars.size);
+ }
+ void set_comm(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Comm::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class BlockBioCompleteFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ BlockBioCompleteFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit BlockBioCompleteFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit BlockBioCompleteFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_sector() const { return at<2>().valid(); }
+ uint64_t sector() const { return at<2>().as_uint64(); }
+ bool has_nr_sector() const { return at<3>().valid(); }
+ uint32_t nr_sector() const { return at<3>().as_uint32(); }
+ bool has_error() const { return at<4>().valid(); }
+ int32_t error() const { return at<4>().as_int32(); }
+ bool has_rwbs() const { return at<5>().valid(); }
+ ::protozero::ConstChars rwbs() const { return at<5>().as_string(); }
+};
+
+class BlockBioCompleteFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = BlockBioCompleteFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kSectorFieldNumber = 2,
+ kNrSectorFieldNumber = 3,
+ kErrorFieldNumber = 4,
+ kRwbsFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.BlockBioCompleteFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ BlockBioCompleteFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Sector =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ BlockBioCompleteFtraceEvent>;
+
+ static constexpr FieldMetadata_Sector kSector{};
+ void set_sector(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Sector::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NrSector =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ BlockBioCompleteFtraceEvent>;
+
+ static constexpr FieldMetadata_NrSector kNrSector{};
+ void set_nr_sector(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NrSector::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Error =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ BlockBioCompleteFtraceEvent>;
+
+ static constexpr FieldMetadata_Error kError{};
+ void set_error(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Error::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Rwbs =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ BlockBioCompleteFtraceEvent>;
+
+ static constexpr FieldMetadata_Rwbs kRwbs{};
+ void set_rwbs(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Rwbs::kFieldId, data, size);
+ }
+ void set_rwbs(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Rwbs::kFieldId, chars.data, chars.size);
+ }
+ void set_rwbs(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Rwbs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class BlockBioBounceFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ BlockBioBounceFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit BlockBioBounceFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit BlockBioBounceFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_sector() const { return at<2>().valid(); }
+ uint64_t sector() const { return at<2>().as_uint64(); }
+ bool has_nr_sector() const { return at<3>().valid(); }
+ uint32_t nr_sector() const { return at<3>().as_uint32(); }
+ bool has_rwbs() const { return at<4>().valid(); }
+ ::protozero::ConstChars rwbs() const { return at<4>().as_string(); }
+ bool has_comm() const { return at<5>().valid(); }
+ ::protozero::ConstChars comm() const { return at<5>().as_string(); }
+};
+
+class BlockBioBounceFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = BlockBioBounceFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kSectorFieldNumber = 2,
+ kNrSectorFieldNumber = 3,
+ kRwbsFieldNumber = 4,
+ kCommFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.BlockBioBounceFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ BlockBioBounceFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Sector =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ BlockBioBounceFtraceEvent>;
+
+ static constexpr FieldMetadata_Sector kSector{};
+ void set_sector(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Sector::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NrSector =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ BlockBioBounceFtraceEvent>;
+
+ static constexpr FieldMetadata_NrSector kNrSector{};
+ void set_nr_sector(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NrSector::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Rwbs =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ BlockBioBounceFtraceEvent>;
+
+ static constexpr FieldMetadata_Rwbs kRwbs{};
+ void set_rwbs(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Rwbs::kFieldId, data, size);
+ }
+ void set_rwbs(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Rwbs::kFieldId, chars.data, chars.size);
+ }
+ void set_rwbs(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Rwbs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Comm =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ BlockBioBounceFtraceEvent>;
+
+ static constexpr FieldMetadata_Comm kComm{};
+ void set_comm(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Comm::kFieldId, data, size);
+ }
+ void set_comm(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Comm::kFieldId, chars.data, chars.size);
+ }
+ void set_comm(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Comm::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class BlockBioBackmergeFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ BlockBioBackmergeFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit BlockBioBackmergeFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit BlockBioBackmergeFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_sector() const { return at<2>().valid(); }
+ uint64_t sector() const { return at<2>().as_uint64(); }
+ bool has_nr_sector() const { return at<3>().valid(); }
+ uint32_t nr_sector() const { return at<3>().as_uint32(); }
+ bool has_rwbs() const { return at<4>().valid(); }
+ ::protozero::ConstChars rwbs() const { return at<4>().as_string(); }
+ bool has_comm() const { return at<5>().valid(); }
+ ::protozero::ConstChars comm() const { return at<5>().as_string(); }
+};
+
+class BlockBioBackmergeFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = BlockBioBackmergeFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kSectorFieldNumber = 2,
+ kNrSectorFieldNumber = 3,
+ kRwbsFieldNumber = 4,
+ kCommFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.BlockBioBackmergeFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ BlockBioBackmergeFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Sector =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ BlockBioBackmergeFtraceEvent>;
+
+ static constexpr FieldMetadata_Sector kSector{};
+ void set_sector(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Sector::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NrSector =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ BlockBioBackmergeFtraceEvent>;
+
+ static constexpr FieldMetadata_NrSector kNrSector{};
+ void set_nr_sector(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NrSector::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Rwbs =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ BlockBioBackmergeFtraceEvent>;
+
+ static constexpr FieldMetadata_Rwbs kRwbs{};
+ void set_rwbs(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Rwbs::kFieldId, data, size);
+ }
+ void set_rwbs(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Rwbs::kFieldId, chars.data, chars.size);
+ }
+ void set_rwbs(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Rwbs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Comm =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ BlockBioBackmergeFtraceEvent>;
+
+ static constexpr FieldMetadata_Comm kComm{};
+ void set_comm(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Comm::kFieldId, data, size);
+ }
+ void set_comm(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Comm::kFieldId, chars.data, chars.size);
+ }
+ void set_comm(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Comm::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class BlockRqIssueFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/7, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ BlockRqIssueFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit BlockRqIssueFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit BlockRqIssueFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_sector() const { return at<2>().valid(); }
+ uint64_t sector() const { return at<2>().as_uint64(); }
+ bool has_nr_sector() const { return at<3>().valid(); }
+ uint32_t nr_sector() const { return at<3>().as_uint32(); }
+ bool has_bytes() const { return at<4>().valid(); }
+ uint32_t bytes() const { return at<4>().as_uint32(); }
+ bool has_rwbs() const { return at<5>().valid(); }
+ ::protozero::ConstChars rwbs() const { return at<5>().as_string(); }
+ bool has_comm() const { return at<6>().valid(); }
+ ::protozero::ConstChars comm() const { return at<6>().as_string(); }
+ bool has_cmd() const { return at<7>().valid(); }
+ ::protozero::ConstChars cmd() const { return at<7>().as_string(); }
+};
+
+class BlockRqIssueFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = BlockRqIssueFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kSectorFieldNumber = 2,
+ kNrSectorFieldNumber = 3,
+ kBytesFieldNumber = 4,
+ kRwbsFieldNumber = 5,
+ kCommFieldNumber = 6,
+ kCmdFieldNumber = 7,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.BlockRqIssueFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ BlockRqIssueFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Sector =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ BlockRqIssueFtraceEvent>;
+
+ static constexpr FieldMetadata_Sector kSector{};
+ void set_sector(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Sector::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NrSector =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ BlockRqIssueFtraceEvent>;
+
+ static constexpr FieldMetadata_NrSector kNrSector{};
+ void set_nr_sector(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NrSector::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Bytes =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ BlockRqIssueFtraceEvent>;
+
+ static constexpr FieldMetadata_Bytes kBytes{};
+ void set_bytes(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Bytes::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Rwbs =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ BlockRqIssueFtraceEvent>;
+
+ static constexpr FieldMetadata_Rwbs kRwbs{};
+ void set_rwbs(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Rwbs::kFieldId, data, size);
+ }
+ void set_rwbs(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Rwbs::kFieldId, chars.data, chars.size);
+ }
+ void set_rwbs(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Rwbs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Comm =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ BlockRqIssueFtraceEvent>;
+
+ static constexpr FieldMetadata_Comm kComm{};
+ void set_comm(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Comm::kFieldId, data, size);
+ }
+ void set_comm(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Comm::kFieldId, chars.data, chars.size);
+ }
+ void set_comm(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Comm::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Cmd =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ BlockRqIssueFtraceEvent>;
+
+ static constexpr FieldMetadata_Cmd kCmd{};
+ void set_cmd(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Cmd::kFieldId, data, size);
+ }
+ void set_cmd(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Cmd::kFieldId, chars.data, chars.size);
+ }
+ void set_cmd(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Cmd::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/cgroup.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_CGROUP_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_CGROUP_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class CgroupSetupRootFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ CgroupSetupRootFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit CgroupSetupRootFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit CgroupSetupRootFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_root() const { return at<1>().valid(); }
+ int32_t root() const { return at<1>().as_int32(); }
+ bool has_ss_mask() const { return at<2>().valid(); }
+ uint32_t ss_mask() const { return at<2>().as_uint32(); }
+ bool has_name() const { return at<3>().valid(); }
+ ::protozero::ConstChars name() const { return at<3>().as_string(); }
+};
+
+class CgroupSetupRootFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = CgroupSetupRootFtraceEvent_Decoder;
+ enum : int32_t {
+ kRootFieldNumber = 1,
+ kSsMaskFieldNumber = 2,
+ kNameFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.CgroupSetupRootFtraceEvent"; }
+
+
+ using FieldMetadata_Root =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ CgroupSetupRootFtraceEvent>;
+
+ static constexpr FieldMetadata_Root kRoot{};
+ void set_root(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Root::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SsMask =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ CgroupSetupRootFtraceEvent>;
+
+ static constexpr FieldMetadata_SsMask kSsMask{};
+ void set_ss_mask(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SsMask::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ CgroupSetupRootFtraceEvent>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class CgroupRenameFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ CgroupRenameFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit CgroupRenameFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit CgroupRenameFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_root() const { return at<1>().valid(); }
+ int32_t root() const { return at<1>().as_int32(); }
+ bool has_id() const { return at<2>().valid(); }
+ int32_t id() const { return at<2>().as_int32(); }
+ bool has_cname() const { return at<3>().valid(); }
+ ::protozero::ConstChars cname() const { return at<3>().as_string(); }
+ bool has_level() const { return at<4>().valid(); }
+ int32_t level() const { return at<4>().as_int32(); }
+ bool has_path() const { return at<5>().valid(); }
+ ::protozero::ConstChars path() const { return at<5>().as_string(); }
+};
+
+class CgroupRenameFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = CgroupRenameFtraceEvent_Decoder;
+ enum : int32_t {
+ kRootFieldNumber = 1,
+ kIdFieldNumber = 2,
+ kCnameFieldNumber = 3,
+ kLevelFieldNumber = 4,
+ kPathFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.CgroupRenameFtraceEvent"; }
+
+
+ using FieldMetadata_Root =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ CgroupRenameFtraceEvent>;
+
+ static constexpr FieldMetadata_Root kRoot{};
+ void set_root(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Root::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Id =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ CgroupRenameFtraceEvent>;
+
+ static constexpr FieldMetadata_Id kId{};
+ void set_id(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Id::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Cname =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ CgroupRenameFtraceEvent>;
+
+ static constexpr FieldMetadata_Cname kCname{};
+ void set_cname(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Cname::kFieldId, data, size);
+ }
+ void set_cname(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Cname::kFieldId, chars.data, chars.size);
+ }
+ void set_cname(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Cname::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Level =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ CgroupRenameFtraceEvent>;
+
+ static constexpr FieldMetadata_Level kLevel{};
+ void set_level(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Level::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Path =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ CgroupRenameFtraceEvent>;
+
+ static constexpr FieldMetadata_Path kPath{};
+ void set_path(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Path::kFieldId, data, size);
+ }
+ void set_path(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Path::kFieldId, chars.data, chars.size);
+ }
+ void set_path(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Path::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class CgroupReleaseFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ CgroupReleaseFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit CgroupReleaseFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit CgroupReleaseFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_root() const { return at<1>().valid(); }
+ int32_t root() const { return at<1>().as_int32(); }
+ bool has_id() const { return at<2>().valid(); }
+ int32_t id() const { return at<2>().as_int32(); }
+ bool has_cname() const { return at<3>().valid(); }
+ ::protozero::ConstChars cname() const { return at<3>().as_string(); }
+ bool has_level() const { return at<4>().valid(); }
+ int32_t level() const { return at<4>().as_int32(); }
+ bool has_path() const { return at<5>().valid(); }
+ ::protozero::ConstChars path() const { return at<5>().as_string(); }
+};
+
+class CgroupReleaseFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = CgroupReleaseFtraceEvent_Decoder;
+ enum : int32_t {
+ kRootFieldNumber = 1,
+ kIdFieldNumber = 2,
+ kCnameFieldNumber = 3,
+ kLevelFieldNumber = 4,
+ kPathFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.CgroupReleaseFtraceEvent"; }
+
+
+ using FieldMetadata_Root =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ CgroupReleaseFtraceEvent>;
+
+ static constexpr FieldMetadata_Root kRoot{};
+ void set_root(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Root::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Id =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ CgroupReleaseFtraceEvent>;
+
+ static constexpr FieldMetadata_Id kId{};
+ void set_id(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Id::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Cname =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ CgroupReleaseFtraceEvent>;
+
+ static constexpr FieldMetadata_Cname kCname{};
+ void set_cname(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Cname::kFieldId, data, size);
+ }
+ void set_cname(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Cname::kFieldId, chars.data, chars.size);
+ }
+ void set_cname(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Cname::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Level =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ CgroupReleaseFtraceEvent>;
+
+ static constexpr FieldMetadata_Level kLevel{};
+ void set_level(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Level::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Path =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ CgroupReleaseFtraceEvent>;
+
+ static constexpr FieldMetadata_Path kPath{};
+ void set_path(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Path::kFieldId, data, size);
+ }
+ void set_path(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Path::kFieldId, chars.data, chars.size);
+ }
+ void set_path(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Path::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class CgroupDestroyRootFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ CgroupDestroyRootFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit CgroupDestroyRootFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit CgroupDestroyRootFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_root() const { return at<1>().valid(); }
+ int32_t root() const { return at<1>().as_int32(); }
+ bool has_ss_mask() const { return at<2>().valid(); }
+ uint32_t ss_mask() const { return at<2>().as_uint32(); }
+ bool has_name() const { return at<3>().valid(); }
+ ::protozero::ConstChars name() const { return at<3>().as_string(); }
+};
+
+class CgroupDestroyRootFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = CgroupDestroyRootFtraceEvent_Decoder;
+ enum : int32_t {
+ kRootFieldNumber = 1,
+ kSsMaskFieldNumber = 2,
+ kNameFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.CgroupDestroyRootFtraceEvent"; }
+
+
+ using FieldMetadata_Root =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ CgroupDestroyRootFtraceEvent>;
+
+ static constexpr FieldMetadata_Root kRoot{};
+ void set_root(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Root::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SsMask =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ CgroupDestroyRootFtraceEvent>;
+
+ static constexpr FieldMetadata_SsMask kSsMask{};
+ void set_ss_mask(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SsMask::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ CgroupDestroyRootFtraceEvent>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class CgroupTransferTasksFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/7, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ CgroupTransferTasksFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit CgroupTransferTasksFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit CgroupTransferTasksFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dst_root() const { return at<1>().valid(); }
+ int32_t dst_root() const { return at<1>().as_int32(); }
+ bool has_dst_id() const { return at<2>().valid(); }
+ int32_t dst_id() const { return at<2>().as_int32(); }
+ bool has_pid() const { return at<3>().valid(); }
+ int32_t pid() const { return at<3>().as_int32(); }
+ bool has_comm() const { return at<4>().valid(); }
+ ::protozero::ConstChars comm() const { return at<4>().as_string(); }
+ bool has_cname() const { return at<5>().valid(); }
+ ::protozero::ConstChars cname() const { return at<5>().as_string(); }
+ bool has_dst_level() const { return at<6>().valid(); }
+ int32_t dst_level() const { return at<6>().as_int32(); }
+ bool has_dst_path() const { return at<7>().valid(); }
+ ::protozero::ConstChars dst_path() const { return at<7>().as_string(); }
+};
+
+class CgroupTransferTasksFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = CgroupTransferTasksFtraceEvent_Decoder;
+ enum : int32_t {
+ kDstRootFieldNumber = 1,
+ kDstIdFieldNumber = 2,
+ kPidFieldNumber = 3,
+ kCommFieldNumber = 4,
+ kCnameFieldNumber = 5,
+ kDstLevelFieldNumber = 6,
+ kDstPathFieldNumber = 7,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.CgroupTransferTasksFtraceEvent"; }
+
+
+ using FieldMetadata_DstRoot =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ CgroupTransferTasksFtraceEvent>;
+
+ static constexpr FieldMetadata_DstRoot kDstRoot{};
+ void set_dst_root(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DstRoot::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DstId =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ CgroupTransferTasksFtraceEvent>;
+
+ static constexpr FieldMetadata_DstId kDstId{};
+ void set_dst_id(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DstId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ CgroupTransferTasksFtraceEvent>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Comm =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ CgroupTransferTasksFtraceEvent>;
+
+ static constexpr FieldMetadata_Comm kComm{};
+ void set_comm(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Comm::kFieldId, data, size);
+ }
+ void set_comm(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Comm::kFieldId, chars.data, chars.size);
+ }
+ void set_comm(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Comm::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Cname =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ CgroupTransferTasksFtraceEvent>;
+
+ static constexpr FieldMetadata_Cname kCname{};
+ void set_cname(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Cname::kFieldId, data, size);
+ }
+ void set_cname(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Cname::kFieldId, chars.data, chars.size);
+ }
+ void set_cname(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Cname::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DstLevel =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ CgroupTransferTasksFtraceEvent>;
+
+ static constexpr FieldMetadata_DstLevel kDstLevel{};
+ void set_dst_level(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DstLevel::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DstPath =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ CgroupTransferTasksFtraceEvent>;
+
+ static constexpr FieldMetadata_DstPath kDstPath{};
+ void set_dst_path(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_DstPath::kFieldId, data, size);
+ }
+ void set_dst_path(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_DstPath::kFieldId, chars.data, chars.size);
+ }
+ void set_dst_path(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_DstPath::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class CgroupRmdirFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ CgroupRmdirFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit CgroupRmdirFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit CgroupRmdirFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_root() const { return at<1>().valid(); }
+ int32_t root() const { return at<1>().as_int32(); }
+ bool has_id() const { return at<2>().valid(); }
+ int32_t id() const { return at<2>().as_int32(); }
+ bool has_cname() const { return at<3>().valid(); }
+ ::protozero::ConstChars cname() const { return at<3>().as_string(); }
+ bool has_level() const { return at<4>().valid(); }
+ int32_t level() const { return at<4>().as_int32(); }
+ bool has_path() const { return at<5>().valid(); }
+ ::protozero::ConstChars path() const { return at<5>().as_string(); }
+};
+
+class CgroupRmdirFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = CgroupRmdirFtraceEvent_Decoder;
+ enum : int32_t {
+ kRootFieldNumber = 1,
+ kIdFieldNumber = 2,
+ kCnameFieldNumber = 3,
+ kLevelFieldNumber = 4,
+ kPathFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.CgroupRmdirFtraceEvent"; }
+
+
+ using FieldMetadata_Root =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ CgroupRmdirFtraceEvent>;
+
+ static constexpr FieldMetadata_Root kRoot{};
+ void set_root(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Root::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Id =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ CgroupRmdirFtraceEvent>;
+
+ static constexpr FieldMetadata_Id kId{};
+ void set_id(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Id::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Cname =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ CgroupRmdirFtraceEvent>;
+
+ static constexpr FieldMetadata_Cname kCname{};
+ void set_cname(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Cname::kFieldId, data, size);
+ }
+ void set_cname(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Cname::kFieldId, chars.data, chars.size);
+ }
+ void set_cname(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Cname::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Level =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ CgroupRmdirFtraceEvent>;
+
+ static constexpr FieldMetadata_Level kLevel{};
+ void set_level(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Level::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Path =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ CgroupRmdirFtraceEvent>;
+
+ static constexpr FieldMetadata_Path kPath{};
+ void set_path(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Path::kFieldId, data, size);
+ }
+ void set_path(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Path::kFieldId, chars.data, chars.size);
+ }
+ void set_path(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Path::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class CgroupRemountFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ CgroupRemountFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit CgroupRemountFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit CgroupRemountFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_root() const { return at<1>().valid(); }
+ int32_t root() const { return at<1>().as_int32(); }
+ bool has_ss_mask() const { return at<2>().valid(); }
+ uint32_t ss_mask() const { return at<2>().as_uint32(); }
+ bool has_name() const { return at<3>().valid(); }
+ ::protozero::ConstChars name() const { return at<3>().as_string(); }
+};
+
+class CgroupRemountFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = CgroupRemountFtraceEvent_Decoder;
+ enum : int32_t {
+ kRootFieldNumber = 1,
+ kSsMaskFieldNumber = 2,
+ kNameFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.CgroupRemountFtraceEvent"; }
+
+
+ using FieldMetadata_Root =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ CgroupRemountFtraceEvent>;
+
+ static constexpr FieldMetadata_Root kRoot{};
+ void set_root(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Root::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SsMask =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ CgroupRemountFtraceEvent>;
+
+ static constexpr FieldMetadata_SsMask kSsMask{};
+ void set_ss_mask(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SsMask::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ CgroupRemountFtraceEvent>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class CgroupMkdirFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ CgroupMkdirFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit CgroupMkdirFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit CgroupMkdirFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_root() const { return at<1>().valid(); }
+ int32_t root() const { return at<1>().as_int32(); }
+ bool has_id() const { return at<2>().valid(); }
+ int32_t id() const { return at<2>().as_int32(); }
+ bool has_cname() const { return at<3>().valid(); }
+ ::protozero::ConstChars cname() const { return at<3>().as_string(); }
+ bool has_level() const { return at<4>().valid(); }
+ int32_t level() const { return at<4>().as_int32(); }
+ bool has_path() const { return at<5>().valid(); }
+ ::protozero::ConstChars path() const { return at<5>().as_string(); }
+};
+
+class CgroupMkdirFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = CgroupMkdirFtraceEvent_Decoder;
+ enum : int32_t {
+ kRootFieldNumber = 1,
+ kIdFieldNumber = 2,
+ kCnameFieldNumber = 3,
+ kLevelFieldNumber = 4,
+ kPathFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.CgroupMkdirFtraceEvent"; }
+
+
+ using FieldMetadata_Root =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ CgroupMkdirFtraceEvent>;
+
+ static constexpr FieldMetadata_Root kRoot{};
+ void set_root(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Root::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Id =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ CgroupMkdirFtraceEvent>;
+
+ static constexpr FieldMetadata_Id kId{};
+ void set_id(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Id::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Cname =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ CgroupMkdirFtraceEvent>;
+
+ static constexpr FieldMetadata_Cname kCname{};
+ void set_cname(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Cname::kFieldId, data, size);
+ }
+ void set_cname(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Cname::kFieldId, chars.data, chars.size);
+ }
+ void set_cname(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Cname::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Level =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ CgroupMkdirFtraceEvent>;
+
+ static constexpr FieldMetadata_Level kLevel{};
+ void set_level(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Level::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Path =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ CgroupMkdirFtraceEvent>;
+
+ static constexpr FieldMetadata_Path kPath{};
+ void set_path(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Path::kFieldId, data, size);
+ }
+ void set_path(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Path::kFieldId, chars.data, chars.size);
+ }
+ void set_path(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Path::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class CgroupAttachTaskFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/7, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ CgroupAttachTaskFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit CgroupAttachTaskFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit CgroupAttachTaskFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dst_root() const { return at<1>().valid(); }
+ int32_t dst_root() const { return at<1>().as_int32(); }
+ bool has_dst_id() const { return at<2>().valid(); }
+ int32_t dst_id() const { return at<2>().as_int32(); }
+ bool has_pid() const { return at<3>().valid(); }
+ int32_t pid() const { return at<3>().as_int32(); }
+ bool has_comm() const { return at<4>().valid(); }
+ ::protozero::ConstChars comm() const { return at<4>().as_string(); }
+ bool has_cname() const { return at<5>().valid(); }
+ ::protozero::ConstChars cname() const { return at<5>().as_string(); }
+ bool has_dst_level() const { return at<6>().valid(); }
+ int32_t dst_level() const { return at<6>().as_int32(); }
+ bool has_dst_path() const { return at<7>().valid(); }
+ ::protozero::ConstChars dst_path() const { return at<7>().as_string(); }
+};
+
+class CgroupAttachTaskFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = CgroupAttachTaskFtraceEvent_Decoder;
+ enum : int32_t {
+ kDstRootFieldNumber = 1,
+ kDstIdFieldNumber = 2,
+ kPidFieldNumber = 3,
+ kCommFieldNumber = 4,
+ kCnameFieldNumber = 5,
+ kDstLevelFieldNumber = 6,
+ kDstPathFieldNumber = 7,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.CgroupAttachTaskFtraceEvent"; }
+
+
+ using FieldMetadata_DstRoot =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ CgroupAttachTaskFtraceEvent>;
+
+ static constexpr FieldMetadata_DstRoot kDstRoot{};
+ void set_dst_root(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DstRoot::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DstId =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ CgroupAttachTaskFtraceEvent>;
+
+ static constexpr FieldMetadata_DstId kDstId{};
+ void set_dst_id(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DstId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ CgroupAttachTaskFtraceEvent>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Comm =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ CgroupAttachTaskFtraceEvent>;
+
+ static constexpr FieldMetadata_Comm kComm{};
+ void set_comm(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Comm::kFieldId, data, size);
+ }
+ void set_comm(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Comm::kFieldId, chars.data, chars.size);
+ }
+ void set_comm(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Comm::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Cname =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ CgroupAttachTaskFtraceEvent>;
+
+ static constexpr FieldMetadata_Cname kCname{};
+ void set_cname(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Cname::kFieldId, data, size);
+ }
+ void set_cname(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Cname::kFieldId, chars.data, chars.size);
+ }
+ void set_cname(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Cname::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DstLevel =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ CgroupAttachTaskFtraceEvent>;
+
+ static constexpr FieldMetadata_DstLevel kDstLevel{};
+ void set_dst_level(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DstLevel::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DstPath =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ CgroupAttachTaskFtraceEvent>;
+
+ static constexpr FieldMetadata_DstPath kDstPath{};
+ void set_dst_path(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_DstPath::kFieldId, data, size);
+ }
+ void set_dst_path(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_DstPath::kFieldId, chars.data, chars.size);
+ }
+ void set_dst_path(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_DstPath::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/clk.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_CLK_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_CLK_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class ClkSetRateFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ClkSetRateFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ClkSetRateFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ClkSetRateFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars name() const { return at<1>().as_string(); }
+ bool has_rate() const { return at<2>().valid(); }
+ uint64_t rate() const { return at<2>().as_uint64(); }
+};
+
+class ClkSetRateFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = ClkSetRateFtraceEvent_Decoder;
+ enum : int32_t {
+ kNameFieldNumber = 1,
+ kRateFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ClkSetRateFtraceEvent"; }
+
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ClkSetRateFtraceEvent>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Rate =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ClkSetRateFtraceEvent>;
+
+ static constexpr FieldMetadata_Rate kRate{};
+ void set_rate(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Rate::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class ClkDisableFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ClkDisableFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ClkDisableFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ClkDisableFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars name() const { return at<1>().as_string(); }
+};
+
+class ClkDisableFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = ClkDisableFtraceEvent_Decoder;
+ enum : int32_t {
+ kNameFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ClkDisableFtraceEvent"; }
+
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ClkDisableFtraceEvent>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class ClkEnableFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ClkEnableFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ClkEnableFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ClkEnableFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars name() const { return at<1>().as_string(); }
+};
+
+class ClkEnableFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = ClkEnableFtraceEvent_Decoder;
+ enum : int32_t {
+ kNameFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ClkEnableFtraceEvent"; }
+
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ClkEnableFtraceEvent>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/cma.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_CMA_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_CMA_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class CmaAllocInfoFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/10, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ CmaAllocInfoFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit CmaAllocInfoFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit CmaAllocInfoFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_align() const { return at<1>().valid(); }
+ uint32_t align() const { return at<1>().as_uint32(); }
+ bool has_count() const { return at<2>().valid(); }
+ uint32_t count() const { return at<2>().as_uint32(); }
+ bool has_err_iso() const { return at<3>().valid(); }
+ uint32_t err_iso() const { return at<3>().as_uint32(); }
+ bool has_err_mig() const { return at<4>().valid(); }
+ uint32_t err_mig() const { return at<4>().as_uint32(); }
+ bool has_err_test() const { return at<5>().valid(); }
+ uint32_t err_test() const { return at<5>().as_uint32(); }
+ bool has_name() const { return at<6>().valid(); }
+ ::protozero::ConstChars name() const { return at<6>().as_string(); }
+ bool has_nr_mapped() const { return at<7>().valid(); }
+ uint64_t nr_mapped() const { return at<7>().as_uint64(); }
+ bool has_nr_migrated() const { return at<8>().valid(); }
+ uint64_t nr_migrated() const { return at<8>().as_uint64(); }
+ bool has_nr_reclaimed() const { return at<9>().valid(); }
+ uint64_t nr_reclaimed() const { return at<9>().as_uint64(); }
+ bool has_pfn() const { return at<10>().valid(); }
+ uint64_t pfn() const { return at<10>().as_uint64(); }
+};
+
+class CmaAllocInfoFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = CmaAllocInfoFtraceEvent_Decoder;
+ enum : int32_t {
+ kAlignFieldNumber = 1,
+ kCountFieldNumber = 2,
+ kErrIsoFieldNumber = 3,
+ kErrMigFieldNumber = 4,
+ kErrTestFieldNumber = 5,
+ kNameFieldNumber = 6,
+ kNrMappedFieldNumber = 7,
+ kNrMigratedFieldNumber = 8,
+ kNrReclaimedFieldNumber = 9,
+ kPfnFieldNumber = 10,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.CmaAllocInfoFtraceEvent"; }
+
+
+ using FieldMetadata_Align =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ CmaAllocInfoFtraceEvent>;
+
+ static constexpr FieldMetadata_Align kAlign{};
+ void set_align(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Align::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Count =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ CmaAllocInfoFtraceEvent>;
+
+ static constexpr FieldMetadata_Count kCount{};
+ void set_count(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Count::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ErrIso =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ CmaAllocInfoFtraceEvent>;
+
+ static constexpr FieldMetadata_ErrIso kErrIso{};
+ void set_err_iso(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ErrIso::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ErrMig =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ CmaAllocInfoFtraceEvent>;
+
+ static constexpr FieldMetadata_ErrMig kErrMig{};
+ void set_err_mig(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ErrMig::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ErrTest =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ CmaAllocInfoFtraceEvent>;
+
+ static constexpr FieldMetadata_ErrTest kErrTest{};
+ void set_err_test(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ErrTest::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ CmaAllocInfoFtraceEvent>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NrMapped =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ CmaAllocInfoFtraceEvent>;
+
+ static constexpr FieldMetadata_NrMapped kNrMapped{};
+ void set_nr_mapped(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NrMapped::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NrMigrated =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ CmaAllocInfoFtraceEvent>;
+
+ static constexpr FieldMetadata_NrMigrated kNrMigrated{};
+ void set_nr_migrated(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NrMigrated::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NrReclaimed =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ CmaAllocInfoFtraceEvent>;
+
+ static constexpr FieldMetadata_NrReclaimed kNrReclaimed{};
+ void set_nr_reclaimed(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NrReclaimed::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pfn =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ CmaAllocInfoFtraceEvent>;
+
+ static constexpr FieldMetadata_Pfn kPfn{};
+ void set_pfn(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pfn::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class CmaAllocStartFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ CmaAllocStartFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit CmaAllocStartFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit CmaAllocStartFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_align() const { return at<1>().valid(); }
+ uint32_t align() const { return at<1>().as_uint32(); }
+ bool has_count() const { return at<2>().valid(); }
+ uint32_t count() const { return at<2>().as_uint32(); }
+ bool has_name() const { return at<3>().valid(); }
+ ::protozero::ConstChars name() const { return at<3>().as_string(); }
+};
+
+class CmaAllocStartFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = CmaAllocStartFtraceEvent_Decoder;
+ enum : int32_t {
+ kAlignFieldNumber = 1,
+ kCountFieldNumber = 2,
+ kNameFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.CmaAllocStartFtraceEvent"; }
+
+
+ using FieldMetadata_Align =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ CmaAllocStartFtraceEvent>;
+
+ static constexpr FieldMetadata_Align kAlign{};
+ void set_align(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Align::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Count =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ CmaAllocStartFtraceEvent>;
+
+ static constexpr FieldMetadata_Count kCount{};
+ void set_count(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Count::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ CmaAllocStartFtraceEvent>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/compaction.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_COMPACTION_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_COMPACTION_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class MmCompactionWakeupKcompactdFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MmCompactionWakeupKcompactdFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MmCompactionWakeupKcompactdFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MmCompactionWakeupKcompactdFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_nid() const { return at<1>().valid(); }
+ int32_t nid() const { return at<1>().as_int32(); }
+ bool has_order() const { return at<2>().valid(); }
+ int32_t order() const { return at<2>().as_int32(); }
+ bool has_classzone_idx() const { return at<3>().valid(); }
+ uint32_t classzone_idx() const { return at<3>().as_uint32(); }
+ bool has_highest_zoneidx() const { return at<4>().valid(); }
+ uint32_t highest_zoneidx() const { return at<4>().as_uint32(); }
+};
+
+class MmCompactionWakeupKcompactdFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MmCompactionWakeupKcompactdFtraceEvent_Decoder;
+ enum : int32_t {
+ kNidFieldNumber = 1,
+ kOrderFieldNumber = 2,
+ kClasszoneIdxFieldNumber = 3,
+ kHighestZoneidxFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MmCompactionWakeupKcompactdFtraceEvent"; }
+
+
+ using FieldMetadata_Nid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MmCompactionWakeupKcompactdFtraceEvent>;
+
+ static constexpr FieldMetadata_Nid kNid{};
+ void set_nid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Nid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Order =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MmCompactionWakeupKcompactdFtraceEvent>;
+
+ static constexpr FieldMetadata_Order kOrder{};
+ void set_order(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Order::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ClasszoneIdx =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MmCompactionWakeupKcompactdFtraceEvent>;
+
+ static constexpr FieldMetadata_ClasszoneIdx kClasszoneIdx{};
+ void set_classzone_idx(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ClasszoneIdx::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_HighestZoneidx =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MmCompactionWakeupKcompactdFtraceEvent>;
+
+ static constexpr FieldMetadata_HighestZoneidx kHighestZoneidx{};
+ void set_highest_zoneidx(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_HighestZoneidx::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class MmCompactionTryToCompactPagesFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MmCompactionTryToCompactPagesFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MmCompactionTryToCompactPagesFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MmCompactionTryToCompactPagesFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_order() const { return at<1>().valid(); }
+ int32_t order() const { return at<1>().as_int32(); }
+ bool has_gfp_mask() const { return at<2>().valid(); }
+ uint32_t gfp_mask() const { return at<2>().as_uint32(); }
+ bool has_mode() const { return at<3>().valid(); }
+ uint32_t mode() const { return at<3>().as_uint32(); }
+ bool has_prio() const { return at<4>().valid(); }
+ int32_t prio() const { return at<4>().as_int32(); }
+};
+
+class MmCompactionTryToCompactPagesFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MmCompactionTryToCompactPagesFtraceEvent_Decoder;
+ enum : int32_t {
+ kOrderFieldNumber = 1,
+ kGfpMaskFieldNumber = 2,
+ kModeFieldNumber = 3,
+ kPrioFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MmCompactionTryToCompactPagesFtraceEvent"; }
+
+
+ using FieldMetadata_Order =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MmCompactionTryToCompactPagesFtraceEvent>;
+
+ static constexpr FieldMetadata_Order kOrder{};
+ void set_order(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Order::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_GfpMask =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MmCompactionTryToCompactPagesFtraceEvent>;
+
+ static constexpr FieldMetadata_GfpMask kGfpMask{};
+ void set_gfp_mask(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_GfpMask::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Mode =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MmCompactionTryToCompactPagesFtraceEvent>;
+
+ static constexpr FieldMetadata_Mode kMode{};
+ void set_mode(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Mode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Prio =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MmCompactionTryToCompactPagesFtraceEvent>;
+
+ static constexpr FieldMetadata_Prio kPrio{};
+ void set_prio(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Prio::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class MmCompactionSuitableFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MmCompactionSuitableFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MmCompactionSuitableFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MmCompactionSuitableFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_nid() const { return at<1>().valid(); }
+ int32_t nid() const { return at<1>().as_int32(); }
+ bool has_idx() const { return at<2>().valid(); }
+ uint32_t idx() const { return at<2>().as_uint32(); }
+ bool has_order() const { return at<3>().valid(); }
+ int32_t order() const { return at<3>().as_int32(); }
+ bool has_ret() const { return at<4>().valid(); }
+ int32_t ret() const { return at<4>().as_int32(); }
+};
+
+class MmCompactionSuitableFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MmCompactionSuitableFtraceEvent_Decoder;
+ enum : int32_t {
+ kNidFieldNumber = 1,
+ kIdxFieldNumber = 2,
+ kOrderFieldNumber = 3,
+ kRetFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MmCompactionSuitableFtraceEvent"; }
+
+
+ using FieldMetadata_Nid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MmCompactionSuitableFtraceEvent>;
+
+ static constexpr FieldMetadata_Nid kNid{};
+ void set_nid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Nid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Idx =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MmCompactionSuitableFtraceEvent>;
+
+ static constexpr FieldMetadata_Idx kIdx{};
+ void set_idx(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Idx::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Order =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MmCompactionSuitableFtraceEvent>;
+
+ static constexpr FieldMetadata_Order kOrder{};
+ void set_order(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Order::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ret =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MmCompactionSuitableFtraceEvent>;
+
+ static constexpr FieldMetadata_Ret kRet{};
+ void set_ret(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ret::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class MmCompactionMigratepagesFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MmCompactionMigratepagesFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MmCompactionMigratepagesFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MmCompactionMigratepagesFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_nr_migrated() const { return at<1>().valid(); }
+ uint64_t nr_migrated() const { return at<1>().as_uint64(); }
+ bool has_nr_failed() const { return at<2>().valid(); }
+ uint64_t nr_failed() const { return at<2>().as_uint64(); }
+};
+
+class MmCompactionMigratepagesFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MmCompactionMigratepagesFtraceEvent_Decoder;
+ enum : int32_t {
+ kNrMigratedFieldNumber = 1,
+ kNrFailedFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MmCompactionMigratepagesFtraceEvent"; }
+
+
+ using FieldMetadata_NrMigrated =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MmCompactionMigratepagesFtraceEvent>;
+
+ static constexpr FieldMetadata_NrMigrated kNrMigrated{};
+ void set_nr_migrated(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NrMigrated::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NrFailed =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MmCompactionMigratepagesFtraceEvent>;
+
+ static constexpr FieldMetadata_NrFailed kNrFailed{};
+ void set_nr_failed(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NrFailed::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class MmCompactionKcompactdWakeFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MmCompactionKcompactdWakeFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MmCompactionKcompactdWakeFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MmCompactionKcompactdWakeFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_nid() const { return at<1>().valid(); }
+ int32_t nid() const { return at<1>().as_int32(); }
+ bool has_order() const { return at<2>().valid(); }
+ int32_t order() const { return at<2>().as_int32(); }
+ bool has_classzone_idx() const { return at<3>().valid(); }
+ uint32_t classzone_idx() const { return at<3>().as_uint32(); }
+ bool has_highest_zoneidx() const { return at<4>().valid(); }
+ uint32_t highest_zoneidx() const { return at<4>().as_uint32(); }
+};
+
+class MmCompactionKcompactdWakeFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MmCompactionKcompactdWakeFtraceEvent_Decoder;
+ enum : int32_t {
+ kNidFieldNumber = 1,
+ kOrderFieldNumber = 2,
+ kClasszoneIdxFieldNumber = 3,
+ kHighestZoneidxFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MmCompactionKcompactdWakeFtraceEvent"; }
+
+
+ using FieldMetadata_Nid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MmCompactionKcompactdWakeFtraceEvent>;
+
+ static constexpr FieldMetadata_Nid kNid{};
+ void set_nid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Nid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Order =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MmCompactionKcompactdWakeFtraceEvent>;
+
+ static constexpr FieldMetadata_Order kOrder{};
+ void set_order(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Order::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ClasszoneIdx =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MmCompactionKcompactdWakeFtraceEvent>;
+
+ static constexpr FieldMetadata_ClasszoneIdx kClasszoneIdx{};
+ void set_classzone_idx(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ClasszoneIdx::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_HighestZoneidx =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MmCompactionKcompactdWakeFtraceEvent>;
+
+ static constexpr FieldMetadata_HighestZoneidx kHighestZoneidx{};
+ void set_highest_zoneidx(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_HighestZoneidx::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class MmCompactionKcompactdSleepFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MmCompactionKcompactdSleepFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MmCompactionKcompactdSleepFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MmCompactionKcompactdSleepFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_nid() const { return at<1>().valid(); }
+ int32_t nid() const { return at<1>().as_int32(); }
+};
+
+class MmCompactionKcompactdSleepFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MmCompactionKcompactdSleepFtraceEvent_Decoder;
+ enum : int32_t {
+ kNidFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MmCompactionKcompactdSleepFtraceEvent"; }
+
+
+ using FieldMetadata_Nid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MmCompactionKcompactdSleepFtraceEvent>;
+
+ static constexpr FieldMetadata_Nid kNid{};
+ void set_nid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Nid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class MmCompactionIsolateMigratepagesFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MmCompactionIsolateMigratepagesFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MmCompactionIsolateMigratepagesFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MmCompactionIsolateMigratepagesFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_start_pfn() const { return at<1>().valid(); }
+ uint64_t start_pfn() const { return at<1>().as_uint64(); }
+ bool has_end_pfn() const { return at<2>().valid(); }
+ uint64_t end_pfn() const { return at<2>().as_uint64(); }
+ bool has_nr_scanned() const { return at<3>().valid(); }
+ uint64_t nr_scanned() const { return at<3>().as_uint64(); }
+ bool has_nr_taken() const { return at<4>().valid(); }
+ uint64_t nr_taken() const { return at<4>().as_uint64(); }
+};
+
+class MmCompactionIsolateMigratepagesFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MmCompactionIsolateMigratepagesFtraceEvent_Decoder;
+ enum : int32_t {
+ kStartPfnFieldNumber = 1,
+ kEndPfnFieldNumber = 2,
+ kNrScannedFieldNumber = 3,
+ kNrTakenFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MmCompactionIsolateMigratepagesFtraceEvent"; }
+
+
+ using FieldMetadata_StartPfn =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MmCompactionIsolateMigratepagesFtraceEvent>;
+
+ static constexpr FieldMetadata_StartPfn kStartPfn{};
+ void set_start_pfn(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_StartPfn::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_EndPfn =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MmCompactionIsolateMigratepagesFtraceEvent>;
+
+ static constexpr FieldMetadata_EndPfn kEndPfn{};
+ void set_end_pfn(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_EndPfn::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NrScanned =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MmCompactionIsolateMigratepagesFtraceEvent>;
+
+ static constexpr FieldMetadata_NrScanned kNrScanned{};
+ void set_nr_scanned(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NrScanned::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NrTaken =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MmCompactionIsolateMigratepagesFtraceEvent>;
+
+ static constexpr FieldMetadata_NrTaken kNrTaken{};
+ void set_nr_taken(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NrTaken::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class MmCompactionIsolateFreepagesFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MmCompactionIsolateFreepagesFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MmCompactionIsolateFreepagesFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MmCompactionIsolateFreepagesFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_start_pfn() const { return at<1>().valid(); }
+ uint64_t start_pfn() const { return at<1>().as_uint64(); }
+ bool has_end_pfn() const { return at<2>().valid(); }
+ uint64_t end_pfn() const { return at<2>().as_uint64(); }
+ bool has_nr_scanned() const { return at<3>().valid(); }
+ uint64_t nr_scanned() const { return at<3>().as_uint64(); }
+ bool has_nr_taken() const { return at<4>().valid(); }
+ uint64_t nr_taken() const { return at<4>().as_uint64(); }
+};
+
+class MmCompactionIsolateFreepagesFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MmCompactionIsolateFreepagesFtraceEvent_Decoder;
+ enum : int32_t {
+ kStartPfnFieldNumber = 1,
+ kEndPfnFieldNumber = 2,
+ kNrScannedFieldNumber = 3,
+ kNrTakenFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MmCompactionIsolateFreepagesFtraceEvent"; }
+
+
+ using FieldMetadata_StartPfn =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MmCompactionIsolateFreepagesFtraceEvent>;
+
+ static constexpr FieldMetadata_StartPfn kStartPfn{};
+ void set_start_pfn(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_StartPfn::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_EndPfn =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MmCompactionIsolateFreepagesFtraceEvent>;
+
+ static constexpr FieldMetadata_EndPfn kEndPfn{};
+ void set_end_pfn(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_EndPfn::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NrScanned =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MmCompactionIsolateFreepagesFtraceEvent>;
+
+ static constexpr FieldMetadata_NrScanned kNrScanned{};
+ void set_nr_scanned(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NrScanned::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NrTaken =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MmCompactionIsolateFreepagesFtraceEvent>;
+
+ static constexpr FieldMetadata_NrTaken kNrTaken{};
+ void set_nr_taken(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NrTaken::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class MmCompactionFinishedFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MmCompactionFinishedFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MmCompactionFinishedFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MmCompactionFinishedFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_nid() const { return at<1>().valid(); }
+ int32_t nid() const { return at<1>().as_int32(); }
+ bool has_idx() const { return at<2>().valid(); }
+ uint32_t idx() const { return at<2>().as_uint32(); }
+ bool has_order() const { return at<3>().valid(); }
+ int32_t order() const { return at<3>().as_int32(); }
+ bool has_ret() const { return at<4>().valid(); }
+ int32_t ret() const { return at<4>().as_int32(); }
+};
+
+class MmCompactionFinishedFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MmCompactionFinishedFtraceEvent_Decoder;
+ enum : int32_t {
+ kNidFieldNumber = 1,
+ kIdxFieldNumber = 2,
+ kOrderFieldNumber = 3,
+ kRetFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MmCompactionFinishedFtraceEvent"; }
+
+
+ using FieldMetadata_Nid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MmCompactionFinishedFtraceEvent>;
+
+ static constexpr FieldMetadata_Nid kNid{};
+ void set_nid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Nid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Idx =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MmCompactionFinishedFtraceEvent>;
+
+ static constexpr FieldMetadata_Idx kIdx{};
+ void set_idx(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Idx::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Order =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MmCompactionFinishedFtraceEvent>;
+
+ static constexpr FieldMetadata_Order kOrder{};
+ void set_order(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Order::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ret =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MmCompactionFinishedFtraceEvent>;
+
+ static constexpr FieldMetadata_Ret kRet{};
+ void set_ret(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ret::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class MmCompactionEndFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/6, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MmCompactionEndFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MmCompactionEndFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MmCompactionEndFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_zone_start() const { return at<1>().valid(); }
+ uint64_t zone_start() const { return at<1>().as_uint64(); }
+ bool has_migrate_pfn() const { return at<2>().valid(); }
+ uint64_t migrate_pfn() const { return at<2>().as_uint64(); }
+ bool has_free_pfn() const { return at<3>().valid(); }
+ uint64_t free_pfn() const { return at<3>().as_uint64(); }
+ bool has_zone_end() const { return at<4>().valid(); }
+ uint64_t zone_end() const { return at<4>().as_uint64(); }
+ bool has_sync() const { return at<5>().valid(); }
+ uint32_t sync() const { return at<5>().as_uint32(); }
+ bool has_status() const { return at<6>().valid(); }
+ int32_t status() const { return at<6>().as_int32(); }
+};
+
+class MmCompactionEndFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MmCompactionEndFtraceEvent_Decoder;
+ enum : int32_t {
+ kZoneStartFieldNumber = 1,
+ kMigratePfnFieldNumber = 2,
+ kFreePfnFieldNumber = 3,
+ kZoneEndFieldNumber = 4,
+ kSyncFieldNumber = 5,
+ kStatusFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MmCompactionEndFtraceEvent"; }
+
+
+ using FieldMetadata_ZoneStart =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MmCompactionEndFtraceEvent>;
+
+ static constexpr FieldMetadata_ZoneStart kZoneStart{};
+ void set_zone_start(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ZoneStart::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MigratePfn =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MmCompactionEndFtraceEvent>;
+
+ static constexpr FieldMetadata_MigratePfn kMigratePfn{};
+ void set_migrate_pfn(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MigratePfn::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FreePfn =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MmCompactionEndFtraceEvent>;
+
+ static constexpr FieldMetadata_FreePfn kFreePfn{};
+ void set_free_pfn(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FreePfn::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ZoneEnd =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MmCompactionEndFtraceEvent>;
+
+ static constexpr FieldMetadata_ZoneEnd kZoneEnd{};
+ void set_zone_end(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ZoneEnd::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Sync =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MmCompactionEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Sync kSync{};
+ void set_sync(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Sync::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Status =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MmCompactionEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Status kStatus{};
+ void set_status(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Status::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class MmCompactionDeferResetFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/6, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MmCompactionDeferResetFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MmCompactionDeferResetFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MmCompactionDeferResetFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_nid() const { return at<1>().valid(); }
+ int32_t nid() const { return at<1>().as_int32(); }
+ bool has_idx() const { return at<2>().valid(); }
+ uint32_t idx() const { return at<2>().as_uint32(); }
+ bool has_order() const { return at<3>().valid(); }
+ int32_t order() const { return at<3>().as_int32(); }
+ bool has_considered() const { return at<4>().valid(); }
+ uint32_t considered() const { return at<4>().as_uint32(); }
+ bool has_defer_shift() const { return at<5>().valid(); }
+ uint32_t defer_shift() const { return at<5>().as_uint32(); }
+ bool has_order_failed() const { return at<6>().valid(); }
+ int32_t order_failed() const { return at<6>().as_int32(); }
+};
+
+class MmCompactionDeferResetFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MmCompactionDeferResetFtraceEvent_Decoder;
+ enum : int32_t {
+ kNidFieldNumber = 1,
+ kIdxFieldNumber = 2,
+ kOrderFieldNumber = 3,
+ kConsideredFieldNumber = 4,
+ kDeferShiftFieldNumber = 5,
+ kOrderFailedFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MmCompactionDeferResetFtraceEvent"; }
+
+
+ using FieldMetadata_Nid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MmCompactionDeferResetFtraceEvent>;
+
+ static constexpr FieldMetadata_Nid kNid{};
+ void set_nid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Nid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Idx =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MmCompactionDeferResetFtraceEvent>;
+
+ static constexpr FieldMetadata_Idx kIdx{};
+ void set_idx(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Idx::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Order =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MmCompactionDeferResetFtraceEvent>;
+
+ static constexpr FieldMetadata_Order kOrder{};
+ void set_order(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Order::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Considered =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MmCompactionDeferResetFtraceEvent>;
+
+ static constexpr FieldMetadata_Considered kConsidered{};
+ void set_considered(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Considered::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DeferShift =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MmCompactionDeferResetFtraceEvent>;
+
+ static constexpr FieldMetadata_DeferShift kDeferShift{};
+ void set_defer_shift(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DeferShift::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_OrderFailed =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MmCompactionDeferResetFtraceEvent>;
+
+ static constexpr FieldMetadata_OrderFailed kOrderFailed{};
+ void set_order_failed(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_OrderFailed::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class MmCompactionDeferredFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/6, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MmCompactionDeferredFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MmCompactionDeferredFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MmCompactionDeferredFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_nid() const { return at<1>().valid(); }
+ int32_t nid() const { return at<1>().as_int32(); }
+ bool has_idx() const { return at<2>().valid(); }
+ uint32_t idx() const { return at<2>().as_uint32(); }
+ bool has_order() const { return at<3>().valid(); }
+ int32_t order() const { return at<3>().as_int32(); }
+ bool has_considered() const { return at<4>().valid(); }
+ uint32_t considered() const { return at<4>().as_uint32(); }
+ bool has_defer_shift() const { return at<5>().valid(); }
+ uint32_t defer_shift() const { return at<5>().as_uint32(); }
+ bool has_order_failed() const { return at<6>().valid(); }
+ int32_t order_failed() const { return at<6>().as_int32(); }
+};
+
+class MmCompactionDeferredFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MmCompactionDeferredFtraceEvent_Decoder;
+ enum : int32_t {
+ kNidFieldNumber = 1,
+ kIdxFieldNumber = 2,
+ kOrderFieldNumber = 3,
+ kConsideredFieldNumber = 4,
+ kDeferShiftFieldNumber = 5,
+ kOrderFailedFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MmCompactionDeferredFtraceEvent"; }
+
+
+ using FieldMetadata_Nid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MmCompactionDeferredFtraceEvent>;
+
+ static constexpr FieldMetadata_Nid kNid{};
+ void set_nid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Nid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Idx =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MmCompactionDeferredFtraceEvent>;
+
+ static constexpr FieldMetadata_Idx kIdx{};
+ void set_idx(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Idx::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Order =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MmCompactionDeferredFtraceEvent>;
+
+ static constexpr FieldMetadata_Order kOrder{};
+ void set_order(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Order::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Considered =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MmCompactionDeferredFtraceEvent>;
+
+ static constexpr FieldMetadata_Considered kConsidered{};
+ void set_considered(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Considered::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DeferShift =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MmCompactionDeferredFtraceEvent>;
+
+ static constexpr FieldMetadata_DeferShift kDeferShift{};
+ void set_defer_shift(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DeferShift::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_OrderFailed =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MmCompactionDeferredFtraceEvent>;
+
+ static constexpr FieldMetadata_OrderFailed kOrderFailed{};
+ void set_order_failed(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_OrderFailed::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class MmCompactionDeferCompactionFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/6, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MmCompactionDeferCompactionFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MmCompactionDeferCompactionFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MmCompactionDeferCompactionFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_nid() const { return at<1>().valid(); }
+ int32_t nid() const { return at<1>().as_int32(); }
+ bool has_idx() const { return at<2>().valid(); }
+ uint32_t idx() const { return at<2>().as_uint32(); }
+ bool has_order() const { return at<3>().valid(); }
+ int32_t order() const { return at<3>().as_int32(); }
+ bool has_considered() const { return at<4>().valid(); }
+ uint32_t considered() const { return at<4>().as_uint32(); }
+ bool has_defer_shift() const { return at<5>().valid(); }
+ uint32_t defer_shift() const { return at<5>().as_uint32(); }
+ bool has_order_failed() const { return at<6>().valid(); }
+ int32_t order_failed() const { return at<6>().as_int32(); }
+};
+
+class MmCompactionDeferCompactionFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MmCompactionDeferCompactionFtraceEvent_Decoder;
+ enum : int32_t {
+ kNidFieldNumber = 1,
+ kIdxFieldNumber = 2,
+ kOrderFieldNumber = 3,
+ kConsideredFieldNumber = 4,
+ kDeferShiftFieldNumber = 5,
+ kOrderFailedFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MmCompactionDeferCompactionFtraceEvent"; }
+
+
+ using FieldMetadata_Nid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MmCompactionDeferCompactionFtraceEvent>;
+
+ static constexpr FieldMetadata_Nid kNid{};
+ void set_nid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Nid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Idx =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MmCompactionDeferCompactionFtraceEvent>;
+
+ static constexpr FieldMetadata_Idx kIdx{};
+ void set_idx(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Idx::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Order =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MmCompactionDeferCompactionFtraceEvent>;
+
+ static constexpr FieldMetadata_Order kOrder{};
+ void set_order(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Order::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Considered =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MmCompactionDeferCompactionFtraceEvent>;
+
+ static constexpr FieldMetadata_Considered kConsidered{};
+ void set_considered(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Considered::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DeferShift =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MmCompactionDeferCompactionFtraceEvent>;
+
+ static constexpr FieldMetadata_DeferShift kDeferShift{};
+ void set_defer_shift(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DeferShift::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_OrderFailed =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MmCompactionDeferCompactionFtraceEvent>;
+
+ static constexpr FieldMetadata_OrderFailed kOrderFailed{};
+ void set_order_failed(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_OrderFailed::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class MmCompactionBeginFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MmCompactionBeginFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MmCompactionBeginFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MmCompactionBeginFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_zone_start() const { return at<1>().valid(); }
+ uint64_t zone_start() const { return at<1>().as_uint64(); }
+ bool has_migrate_pfn() const { return at<2>().valid(); }
+ uint64_t migrate_pfn() const { return at<2>().as_uint64(); }
+ bool has_free_pfn() const { return at<3>().valid(); }
+ uint64_t free_pfn() const { return at<3>().as_uint64(); }
+ bool has_zone_end() const { return at<4>().valid(); }
+ uint64_t zone_end() const { return at<4>().as_uint64(); }
+ bool has_sync() const { return at<5>().valid(); }
+ uint32_t sync() const { return at<5>().as_uint32(); }
+};
+
+class MmCompactionBeginFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MmCompactionBeginFtraceEvent_Decoder;
+ enum : int32_t {
+ kZoneStartFieldNumber = 1,
+ kMigratePfnFieldNumber = 2,
+ kFreePfnFieldNumber = 3,
+ kZoneEndFieldNumber = 4,
+ kSyncFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MmCompactionBeginFtraceEvent"; }
+
+
+ using FieldMetadata_ZoneStart =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MmCompactionBeginFtraceEvent>;
+
+ static constexpr FieldMetadata_ZoneStart kZoneStart{};
+ void set_zone_start(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ZoneStart::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MigratePfn =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MmCompactionBeginFtraceEvent>;
+
+ static constexpr FieldMetadata_MigratePfn kMigratePfn{};
+ void set_migrate_pfn(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MigratePfn::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FreePfn =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MmCompactionBeginFtraceEvent>;
+
+ static constexpr FieldMetadata_FreePfn kFreePfn{};
+ void set_free_pfn(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FreePfn::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ZoneEnd =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MmCompactionBeginFtraceEvent>;
+
+ static constexpr FieldMetadata_ZoneEnd kZoneEnd{};
+ void set_zone_end(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ZoneEnd::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Sync =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MmCompactionBeginFtraceEvent>;
+
+ static constexpr FieldMetadata_Sync kSync{};
+ void set_sync(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Sync::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/cpuhp.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_CPUHP_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_CPUHP_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class CpuhpPauseFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ CpuhpPauseFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit CpuhpPauseFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit CpuhpPauseFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_active_cpus() const { return at<1>().valid(); }
+ uint32_t active_cpus() const { return at<1>().as_uint32(); }
+ bool has_cpus() const { return at<2>().valid(); }
+ uint32_t cpus() const { return at<2>().as_uint32(); }
+ bool has_pause() const { return at<3>().valid(); }
+ uint32_t pause() const { return at<3>().as_uint32(); }
+ bool has_time() const { return at<4>().valid(); }
+ uint32_t time() const { return at<4>().as_uint32(); }
+};
+
+class CpuhpPauseFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = CpuhpPauseFtraceEvent_Decoder;
+ enum : int32_t {
+ kActiveCpusFieldNumber = 1,
+ kCpusFieldNumber = 2,
+ kPauseFieldNumber = 3,
+ kTimeFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.CpuhpPauseFtraceEvent"; }
+
+
+ using FieldMetadata_ActiveCpus =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ CpuhpPauseFtraceEvent>;
+
+ static constexpr FieldMetadata_ActiveCpus kActiveCpus{};
+ void set_active_cpus(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ActiveCpus::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Cpus =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ CpuhpPauseFtraceEvent>;
+
+ static constexpr FieldMetadata_Cpus kCpus{};
+ void set_cpus(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Cpus::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pause =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ CpuhpPauseFtraceEvent>;
+
+ static constexpr FieldMetadata_Pause kPause{};
+ void set_pause(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pause::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Time =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ CpuhpPauseFtraceEvent>;
+
+ static constexpr FieldMetadata_Time kTime{};
+ void set_time(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Time::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class CpuhpLatencyFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ CpuhpLatencyFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit CpuhpLatencyFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit CpuhpLatencyFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_cpu() const { return at<1>().valid(); }
+ uint32_t cpu() const { return at<1>().as_uint32(); }
+ bool has_ret() const { return at<2>().valid(); }
+ int32_t ret() const { return at<2>().as_int32(); }
+ bool has_state() const { return at<3>().valid(); }
+ uint32_t state() const { return at<3>().as_uint32(); }
+ bool has_time() const { return at<4>().valid(); }
+ uint64_t time() const { return at<4>().as_uint64(); }
+};
+
+class CpuhpLatencyFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = CpuhpLatencyFtraceEvent_Decoder;
+ enum : int32_t {
+ kCpuFieldNumber = 1,
+ kRetFieldNumber = 2,
+ kStateFieldNumber = 3,
+ kTimeFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.CpuhpLatencyFtraceEvent"; }
+
+
+ using FieldMetadata_Cpu =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ CpuhpLatencyFtraceEvent>;
+
+ static constexpr FieldMetadata_Cpu kCpu{};
+ void set_cpu(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Cpu::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ret =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ CpuhpLatencyFtraceEvent>;
+
+ static constexpr FieldMetadata_Ret kRet{};
+ void set_ret(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ret::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_State =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ CpuhpLatencyFtraceEvent>;
+
+ static constexpr FieldMetadata_State kState{};
+ void set_state(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_State::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Time =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ CpuhpLatencyFtraceEvent>;
+
+ static constexpr FieldMetadata_Time kTime{};
+ void set_time(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Time::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class CpuhpEnterFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ CpuhpEnterFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit CpuhpEnterFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit CpuhpEnterFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_cpu() const { return at<1>().valid(); }
+ uint32_t cpu() const { return at<1>().as_uint32(); }
+ bool has_fun() const { return at<2>().valid(); }
+ uint64_t fun() const { return at<2>().as_uint64(); }
+ bool has_idx() const { return at<3>().valid(); }
+ int32_t idx() const { return at<3>().as_int32(); }
+ bool has_target() const { return at<4>().valid(); }
+ int32_t target() const { return at<4>().as_int32(); }
+};
+
+class CpuhpEnterFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = CpuhpEnterFtraceEvent_Decoder;
+ enum : int32_t {
+ kCpuFieldNumber = 1,
+ kFunFieldNumber = 2,
+ kIdxFieldNumber = 3,
+ kTargetFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.CpuhpEnterFtraceEvent"; }
+
+
+ using FieldMetadata_Cpu =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ CpuhpEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Cpu kCpu{};
+ void set_cpu(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Cpu::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Fun =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ CpuhpEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Fun kFun{};
+ void set_fun(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Fun::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Idx =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ CpuhpEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Idx kIdx{};
+ void set_idx(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Idx::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Target =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ CpuhpEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Target kTarget{};
+ void set_target(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Target::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class CpuhpMultiEnterFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ CpuhpMultiEnterFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit CpuhpMultiEnterFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit CpuhpMultiEnterFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_cpu() const { return at<1>().valid(); }
+ uint32_t cpu() const { return at<1>().as_uint32(); }
+ bool has_fun() const { return at<2>().valid(); }
+ uint64_t fun() const { return at<2>().as_uint64(); }
+ bool has_idx() const { return at<3>().valid(); }
+ int32_t idx() const { return at<3>().as_int32(); }
+ bool has_target() const { return at<4>().valid(); }
+ int32_t target() const { return at<4>().as_int32(); }
+};
+
+class CpuhpMultiEnterFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = CpuhpMultiEnterFtraceEvent_Decoder;
+ enum : int32_t {
+ kCpuFieldNumber = 1,
+ kFunFieldNumber = 2,
+ kIdxFieldNumber = 3,
+ kTargetFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.CpuhpMultiEnterFtraceEvent"; }
+
+
+ using FieldMetadata_Cpu =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ CpuhpMultiEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Cpu kCpu{};
+ void set_cpu(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Cpu::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Fun =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ CpuhpMultiEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Fun kFun{};
+ void set_fun(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Fun::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Idx =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ CpuhpMultiEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Idx kIdx{};
+ void set_idx(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Idx::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Target =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ CpuhpMultiEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Target kTarget{};
+ void set_target(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Target::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class CpuhpExitFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ CpuhpExitFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit CpuhpExitFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit CpuhpExitFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_cpu() const { return at<1>().valid(); }
+ uint32_t cpu() const { return at<1>().as_uint32(); }
+ bool has_idx() const { return at<2>().valid(); }
+ int32_t idx() const { return at<2>().as_int32(); }
+ bool has_ret() const { return at<3>().valid(); }
+ int32_t ret() const { return at<3>().as_int32(); }
+ bool has_state() const { return at<4>().valid(); }
+ int32_t state() const { return at<4>().as_int32(); }
+};
+
+class CpuhpExitFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = CpuhpExitFtraceEvent_Decoder;
+ enum : int32_t {
+ kCpuFieldNumber = 1,
+ kIdxFieldNumber = 2,
+ kRetFieldNumber = 3,
+ kStateFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.CpuhpExitFtraceEvent"; }
+
+
+ using FieldMetadata_Cpu =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ CpuhpExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Cpu kCpu{};
+ void set_cpu(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Cpu::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Idx =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ CpuhpExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Idx kIdx{};
+ void set_idx(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Idx::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ret =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ CpuhpExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Ret kRet{};
+ void set_ret(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ret::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_State =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ CpuhpExitFtraceEvent>;
+
+ static constexpr FieldMetadata_State kState{};
+ void set_state(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_State::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/cros_ec.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_CROS_EC_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_CROS_EC_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class CrosEcSensorhubDataFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/6, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ CrosEcSensorhubDataFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit CrosEcSensorhubDataFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit CrosEcSensorhubDataFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_current_time() const { return at<1>().valid(); }
+ int64_t current_time() const { return at<1>().as_int64(); }
+ bool has_current_timestamp() const { return at<2>().valid(); }
+ int64_t current_timestamp() const { return at<2>().as_int64(); }
+ bool has_delta() const { return at<3>().valid(); }
+ int64_t delta() const { return at<3>().as_int64(); }
+ bool has_ec_fifo_timestamp() const { return at<4>().valid(); }
+ uint32_t ec_fifo_timestamp() const { return at<4>().as_uint32(); }
+ bool has_ec_sensor_num() const { return at<5>().valid(); }
+ uint32_t ec_sensor_num() const { return at<5>().as_uint32(); }
+ bool has_fifo_timestamp() const { return at<6>().valid(); }
+ int64_t fifo_timestamp() const { return at<6>().as_int64(); }
+};
+
+class CrosEcSensorhubDataFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = CrosEcSensorhubDataFtraceEvent_Decoder;
+ enum : int32_t {
+ kCurrentTimeFieldNumber = 1,
+ kCurrentTimestampFieldNumber = 2,
+ kDeltaFieldNumber = 3,
+ kEcFifoTimestampFieldNumber = 4,
+ kEcSensorNumFieldNumber = 5,
+ kFifoTimestampFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.CrosEcSensorhubDataFtraceEvent"; }
+
+
+ using FieldMetadata_CurrentTime =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ CrosEcSensorhubDataFtraceEvent>;
+
+ static constexpr FieldMetadata_CurrentTime kCurrentTime{};
+ void set_current_time(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CurrentTime::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CurrentTimestamp =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ CrosEcSensorhubDataFtraceEvent>;
+
+ static constexpr FieldMetadata_CurrentTimestamp kCurrentTimestamp{};
+ void set_current_timestamp(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CurrentTimestamp::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Delta =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ CrosEcSensorhubDataFtraceEvent>;
+
+ static constexpr FieldMetadata_Delta kDelta{};
+ void set_delta(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Delta::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_EcFifoTimestamp =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ CrosEcSensorhubDataFtraceEvent>;
+
+ static constexpr FieldMetadata_EcFifoTimestamp kEcFifoTimestamp{};
+ void set_ec_fifo_timestamp(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_EcFifoTimestamp::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_EcSensorNum =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ CrosEcSensorhubDataFtraceEvent>;
+
+ static constexpr FieldMetadata_EcSensorNum kEcSensorNum{};
+ void set_ec_sensor_num(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_EcSensorNum::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FifoTimestamp =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ CrosEcSensorhubDataFtraceEvent>;
+
+ static constexpr FieldMetadata_FifoTimestamp kFifoTimestamp{};
+ void set_fifo_timestamp(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FifoTimestamp::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/dma_fence.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_DMA_FENCE_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_DMA_FENCE_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class DmaFenceWaitEndFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ DmaFenceWaitEndFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit DmaFenceWaitEndFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit DmaFenceWaitEndFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_context() const { return at<1>().valid(); }
+ uint32_t context() const { return at<1>().as_uint32(); }
+ bool has_driver() const { return at<2>().valid(); }
+ ::protozero::ConstChars driver() const { return at<2>().as_string(); }
+ bool has_seqno() const { return at<3>().valid(); }
+ uint32_t seqno() const { return at<3>().as_uint32(); }
+ bool has_timeline() const { return at<4>().valid(); }
+ ::protozero::ConstChars timeline() const { return at<4>().as_string(); }
+};
+
+class DmaFenceWaitEndFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = DmaFenceWaitEndFtraceEvent_Decoder;
+ enum : int32_t {
+ kContextFieldNumber = 1,
+ kDriverFieldNumber = 2,
+ kSeqnoFieldNumber = 3,
+ kTimelineFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.DmaFenceWaitEndFtraceEvent"; }
+
+
+ using FieldMetadata_Context =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ DmaFenceWaitEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Context kContext{};
+ void set_context(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Context::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Driver =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ DmaFenceWaitEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Driver kDriver{};
+ void set_driver(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Driver::kFieldId, data, size);
+ }
+ void set_driver(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Driver::kFieldId, chars.data, chars.size);
+ }
+ void set_driver(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Driver::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Seqno =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ DmaFenceWaitEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Seqno kSeqno{};
+ void set_seqno(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Seqno::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Timeline =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ DmaFenceWaitEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Timeline kTimeline{};
+ void set_timeline(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Timeline::kFieldId, data, size);
+ }
+ void set_timeline(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Timeline::kFieldId, chars.data, chars.size);
+ }
+ void set_timeline(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Timeline::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class DmaFenceWaitStartFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ DmaFenceWaitStartFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit DmaFenceWaitStartFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit DmaFenceWaitStartFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_context() const { return at<1>().valid(); }
+ uint32_t context() const { return at<1>().as_uint32(); }
+ bool has_driver() const { return at<2>().valid(); }
+ ::protozero::ConstChars driver() const { return at<2>().as_string(); }
+ bool has_seqno() const { return at<3>().valid(); }
+ uint32_t seqno() const { return at<3>().as_uint32(); }
+ bool has_timeline() const { return at<4>().valid(); }
+ ::protozero::ConstChars timeline() const { return at<4>().as_string(); }
+};
+
+class DmaFenceWaitStartFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = DmaFenceWaitStartFtraceEvent_Decoder;
+ enum : int32_t {
+ kContextFieldNumber = 1,
+ kDriverFieldNumber = 2,
+ kSeqnoFieldNumber = 3,
+ kTimelineFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.DmaFenceWaitStartFtraceEvent"; }
+
+
+ using FieldMetadata_Context =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ DmaFenceWaitStartFtraceEvent>;
+
+ static constexpr FieldMetadata_Context kContext{};
+ void set_context(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Context::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Driver =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ DmaFenceWaitStartFtraceEvent>;
+
+ static constexpr FieldMetadata_Driver kDriver{};
+ void set_driver(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Driver::kFieldId, data, size);
+ }
+ void set_driver(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Driver::kFieldId, chars.data, chars.size);
+ }
+ void set_driver(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Driver::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Seqno =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ DmaFenceWaitStartFtraceEvent>;
+
+ static constexpr FieldMetadata_Seqno kSeqno{};
+ void set_seqno(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Seqno::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Timeline =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ DmaFenceWaitStartFtraceEvent>;
+
+ static constexpr FieldMetadata_Timeline kTimeline{};
+ void set_timeline(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Timeline::kFieldId, data, size);
+ }
+ void set_timeline(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Timeline::kFieldId, chars.data, chars.size);
+ }
+ void set_timeline(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Timeline::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class DmaFenceSignaledFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ DmaFenceSignaledFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit DmaFenceSignaledFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit DmaFenceSignaledFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_context() const { return at<1>().valid(); }
+ uint32_t context() const { return at<1>().as_uint32(); }
+ bool has_driver() const { return at<2>().valid(); }
+ ::protozero::ConstChars driver() const { return at<2>().as_string(); }
+ bool has_seqno() const { return at<3>().valid(); }
+ uint32_t seqno() const { return at<3>().as_uint32(); }
+ bool has_timeline() const { return at<4>().valid(); }
+ ::protozero::ConstChars timeline() const { return at<4>().as_string(); }
+};
+
+class DmaFenceSignaledFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = DmaFenceSignaledFtraceEvent_Decoder;
+ enum : int32_t {
+ kContextFieldNumber = 1,
+ kDriverFieldNumber = 2,
+ kSeqnoFieldNumber = 3,
+ kTimelineFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.DmaFenceSignaledFtraceEvent"; }
+
+
+ using FieldMetadata_Context =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ DmaFenceSignaledFtraceEvent>;
+
+ static constexpr FieldMetadata_Context kContext{};
+ void set_context(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Context::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Driver =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ DmaFenceSignaledFtraceEvent>;
+
+ static constexpr FieldMetadata_Driver kDriver{};
+ void set_driver(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Driver::kFieldId, data, size);
+ }
+ void set_driver(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Driver::kFieldId, chars.data, chars.size);
+ }
+ void set_driver(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Driver::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Seqno =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ DmaFenceSignaledFtraceEvent>;
+
+ static constexpr FieldMetadata_Seqno kSeqno{};
+ void set_seqno(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Seqno::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Timeline =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ DmaFenceSignaledFtraceEvent>;
+
+ static constexpr FieldMetadata_Timeline kTimeline{};
+ void set_timeline(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Timeline::kFieldId, data, size);
+ }
+ void set_timeline(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Timeline::kFieldId, chars.data, chars.size);
+ }
+ void set_timeline(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Timeline::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class DmaFenceEmitFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ DmaFenceEmitFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit DmaFenceEmitFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit DmaFenceEmitFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_context() const { return at<1>().valid(); }
+ uint32_t context() const { return at<1>().as_uint32(); }
+ bool has_driver() const { return at<2>().valid(); }
+ ::protozero::ConstChars driver() const { return at<2>().as_string(); }
+ bool has_seqno() const { return at<3>().valid(); }
+ uint32_t seqno() const { return at<3>().as_uint32(); }
+ bool has_timeline() const { return at<4>().valid(); }
+ ::protozero::ConstChars timeline() const { return at<4>().as_string(); }
+};
+
+class DmaFenceEmitFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = DmaFenceEmitFtraceEvent_Decoder;
+ enum : int32_t {
+ kContextFieldNumber = 1,
+ kDriverFieldNumber = 2,
+ kSeqnoFieldNumber = 3,
+ kTimelineFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.DmaFenceEmitFtraceEvent"; }
+
+
+ using FieldMetadata_Context =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ DmaFenceEmitFtraceEvent>;
+
+ static constexpr FieldMetadata_Context kContext{};
+ void set_context(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Context::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Driver =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ DmaFenceEmitFtraceEvent>;
+
+ static constexpr FieldMetadata_Driver kDriver{};
+ void set_driver(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Driver::kFieldId, data, size);
+ }
+ void set_driver(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Driver::kFieldId, chars.data, chars.size);
+ }
+ void set_driver(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Driver::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Seqno =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ DmaFenceEmitFtraceEvent>;
+
+ static constexpr FieldMetadata_Seqno kSeqno{};
+ void set_seqno(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Seqno::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Timeline =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ DmaFenceEmitFtraceEvent>;
+
+ static constexpr FieldMetadata_Timeline kTimeline{};
+ void set_timeline(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Timeline::kFieldId, data, size);
+ }
+ void set_timeline(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Timeline::kFieldId, chars.data, chars.size);
+ }
+ void set_timeline(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Timeline::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class DmaFenceInitFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ DmaFenceInitFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit DmaFenceInitFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit DmaFenceInitFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_context() const { return at<1>().valid(); }
+ uint32_t context() const { return at<1>().as_uint32(); }
+ bool has_driver() const { return at<2>().valid(); }
+ ::protozero::ConstChars driver() const { return at<2>().as_string(); }
+ bool has_seqno() const { return at<3>().valid(); }
+ uint32_t seqno() const { return at<3>().as_uint32(); }
+ bool has_timeline() const { return at<4>().valid(); }
+ ::protozero::ConstChars timeline() const { return at<4>().as_string(); }
+};
+
+class DmaFenceInitFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = DmaFenceInitFtraceEvent_Decoder;
+ enum : int32_t {
+ kContextFieldNumber = 1,
+ kDriverFieldNumber = 2,
+ kSeqnoFieldNumber = 3,
+ kTimelineFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.DmaFenceInitFtraceEvent"; }
+
+
+ using FieldMetadata_Context =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ DmaFenceInitFtraceEvent>;
+
+ static constexpr FieldMetadata_Context kContext{};
+ void set_context(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Context::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Driver =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ DmaFenceInitFtraceEvent>;
+
+ static constexpr FieldMetadata_Driver kDriver{};
+ void set_driver(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Driver::kFieldId, data, size);
+ }
+ void set_driver(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Driver::kFieldId, chars.data, chars.size);
+ }
+ void set_driver(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Driver::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Seqno =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ DmaFenceInitFtraceEvent>;
+
+ static constexpr FieldMetadata_Seqno kSeqno{};
+ void set_seqno(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Seqno::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Timeline =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ DmaFenceInitFtraceEvent>;
+
+ static constexpr FieldMetadata_Timeline kTimeline{};
+ void set_timeline(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Timeline::kFieldId, data, size);
+ }
+ void set_timeline(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Timeline::kFieldId, chars.data, chars.size);
+ }
+ void set_timeline(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Timeline::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/dmabuf_heap.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_DMABUF_HEAP_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_DMABUF_HEAP_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class DmaHeapStatFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ DmaHeapStatFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit DmaHeapStatFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit DmaHeapStatFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_inode() const { return at<1>().valid(); }
+ uint64_t inode() const { return at<1>().as_uint64(); }
+ bool has_len() const { return at<2>().valid(); }
+ int64_t len() const { return at<2>().as_int64(); }
+ bool has_total_allocated() const { return at<3>().valid(); }
+ uint64_t total_allocated() const { return at<3>().as_uint64(); }
+};
+
+class DmaHeapStatFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = DmaHeapStatFtraceEvent_Decoder;
+ enum : int32_t {
+ kInodeFieldNumber = 1,
+ kLenFieldNumber = 2,
+ kTotalAllocatedFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.DmaHeapStatFtraceEvent"; }
+
+
+ using FieldMetadata_Inode =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ DmaHeapStatFtraceEvent>;
+
+ static constexpr FieldMetadata_Inode kInode{};
+ void set_inode(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Inode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ DmaHeapStatFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TotalAllocated =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ DmaHeapStatFtraceEvent>;
+
+ static constexpr FieldMetadata_TotalAllocated kTotalAllocated{};
+ void set_total_allocated(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TotalAllocated::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/dpu.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_DPU_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_DPU_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class DpuDsiTxFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ DpuDsiTxFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit DpuDsiTxFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit DpuDsiTxFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_type() const { return at<1>().valid(); }
+ uint32_t type() const { return at<1>().as_uint32(); }
+ bool has_tx_buf() const { return at<2>().valid(); }
+ uint32_t tx_buf() const { return at<2>().as_uint32(); }
+ bool has_last() const { return at<3>().valid(); }
+ uint32_t last() const { return at<3>().as_uint32(); }
+ bool has_delay_ms() const { return at<4>().valid(); }
+ uint32_t delay_ms() const { return at<4>().as_uint32(); }
+};
+
+class DpuDsiTxFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = DpuDsiTxFtraceEvent_Decoder;
+ enum : int32_t {
+ kTypeFieldNumber = 1,
+ kTxBufFieldNumber = 2,
+ kLastFieldNumber = 3,
+ kDelayMsFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.DpuDsiTxFtraceEvent"; }
+
+
+ using FieldMetadata_Type =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ DpuDsiTxFtraceEvent>;
+
+ static constexpr FieldMetadata_Type kType{};
+ void set_type(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Type::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TxBuf =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ DpuDsiTxFtraceEvent>;
+
+ static constexpr FieldMetadata_TxBuf kTxBuf{};
+ void set_tx_buf(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TxBuf::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Last =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ DpuDsiTxFtraceEvent>;
+
+ static constexpr FieldMetadata_Last kLast{};
+ void set_last(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Last::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DelayMs =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ DpuDsiTxFtraceEvent>;
+
+ static constexpr FieldMetadata_DelayMs kDelayMs{};
+ void set_delay_ms(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DelayMs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class DpuDsiRxFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ DpuDsiRxFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit DpuDsiRxFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit DpuDsiRxFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_cmd() const { return at<1>().valid(); }
+ uint32_t cmd() const { return at<1>().as_uint32(); }
+ bool has_rx_buf() const { return at<2>().valid(); }
+ uint32_t rx_buf() const { return at<2>().as_uint32(); }
+};
+
+class DpuDsiRxFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = DpuDsiRxFtraceEvent_Decoder;
+ enum : int32_t {
+ kCmdFieldNumber = 1,
+ kRxBufFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.DpuDsiRxFtraceEvent"; }
+
+
+ using FieldMetadata_Cmd =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ DpuDsiRxFtraceEvent>;
+
+ static constexpr FieldMetadata_Cmd kCmd{};
+ void set_cmd(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Cmd::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_RxBuf =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ DpuDsiRxFtraceEvent>;
+
+ static constexpr FieldMetadata_RxBuf kRxBuf{};
+ void set_rx_buf(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_RxBuf::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class DpuDsiCmdFifoStatusFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ DpuDsiCmdFifoStatusFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit DpuDsiCmdFifoStatusFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit DpuDsiCmdFifoStatusFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_header() const { return at<1>().valid(); }
+ uint32_t header() const { return at<1>().as_uint32(); }
+ bool has_payload() const { return at<2>().valid(); }
+ uint32_t payload() const { return at<2>().as_uint32(); }
+};
+
+class DpuDsiCmdFifoStatusFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = DpuDsiCmdFifoStatusFtraceEvent_Decoder;
+ enum : int32_t {
+ kHeaderFieldNumber = 1,
+ kPayloadFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.DpuDsiCmdFifoStatusFtraceEvent"; }
+
+
+ using FieldMetadata_Header =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ DpuDsiCmdFifoStatusFtraceEvent>;
+
+ static constexpr FieldMetadata_Header kHeader{};
+ void set_header(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Header::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Payload =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ DpuDsiCmdFifoStatusFtraceEvent>;
+
+ static constexpr FieldMetadata_Payload kPayload{};
+ void set_payload(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Payload::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class DpuTracingMarkWriteFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/6, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ DpuTracingMarkWriteFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit DpuTracingMarkWriteFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit DpuTracingMarkWriteFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_pid() const { return at<1>().valid(); }
+ int32_t pid() const { return at<1>().as_int32(); }
+ bool has_trace_name() const { return at<2>().valid(); }
+ ::protozero::ConstChars trace_name() const { return at<2>().as_string(); }
+ bool has_trace_begin() const { return at<3>().valid(); }
+ uint32_t trace_begin() const { return at<3>().as_uint32(); }
+ bool has_name() const { return at<4>().valid(); }
+ ::protozero::ConstChars name() const { return at<4>().as_string(); }
+ bool has_type() const { return at<5>().valid(); }
+ uint32_t type() const { return at<5>().as_uint32(); }
+ bool has_value() const { return at<6>().valid(); }
+ int32_t value() const { return at<6>().as_int32(); }
+};
+
+class DpuTracingMarkWriteFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = DpuTracingMarkWriteFtraceEvent_Decoder;
+ enum : int32_t {
+ kPidFieldNumber = 1,
+ kTraceNameFieldNumber = 2,
+ kTraceBeginFieldNumber = 3,
+ kNameFieldNumber = 4,
+ kTypeFieldNumber = 5,
+ kValueFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.DpuTracingMarkWriteFtraceEvent"; }
+
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ DpuTracingMarkWriteFtraceEvent>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TraceName =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ DpuTracingMarkWriteFtraceEvent>;
+
+ static constexpr FieldMetadata_TraceName kTraceName{};
+ void set_trace_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_TraceName::kFieldId, data, size);
+ }
+ void set_trace_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_TraceName::kFieldId, chars.data, chars.size);
+ }
+ void set_trace_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_TraceName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TraceBegin =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ DpuTracingMarkWriteFtraceEvent>;
+
+ static constexpr FieldMetadata_TraceBegin kTraceBegin{};
+ void set_trace_begin(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TraceBegin::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ DpuTracingMarkWriteFtraceEvent>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Type =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ DpuTracingMarkWriteFtraceEvent>;
+
+ static constexpr FieldMetadata_Type kType{};
+ void set_type(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Type::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Value =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ DpuTracingMarkWriteFtraceEvent>;
+
+ static constexpr FieldMetadata_Value kValue{};
+ void set_value(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Value::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/drm.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_DRM_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_DRM_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class DrmVblankEventDeliveredFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ DrmVblankEventDeliveredFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit DrmVblankEventDeliveredFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit DrmVblankEventDeliveredFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_crtc() const { return at<1>().valid(); }
+ int32_t crtc() const { return at<1>().as_int32(); }
+ bool has_file() const { return at<2>().valid(); }
+ uint64_t file() const { return at<2>().as_uint64(); }
+ bool has_seq() const { return at<3>().valid(); }
+ uint32_t seq() const { return at<3>().as_uint32(); }
+};
+
+class DrmVblankEventDeliveredFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = DrmVblankEventDeliveredFtraceEvent_Decoder;
+ enum : int32_t {
+ kCrtcFieldNumber = 1,
+ kFileFieldNumber = 2,
+ kSeqFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.DrmVblankEventDeliveredFtraceEvent"; }
+
+
+ using FieldMetadata_Crtc =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ DrmVblankEventDeliveredFtraceEvent>;
+
+ static constexpr FieldMetadata_Crtc kCrtc{};
+ void set_crtc(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Crtc::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_File =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ DrmVblankEventDeliveredFtraceEvent>;
+
+ static constexpr FieldMetadata_File kFile{};
+ void set_file(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_File::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Seq =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ DrmVblankEventDeliveredFtraceEvent>;
+
+ static constexpr FieldMetadata_Seq kSeq{};
+ void set_seq(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Seq::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class DrmVblankEventFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ DrmVblankEventFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit DrmVblankEventFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit DrmVblankEventFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_crtc() const { return at<1>().valid(); }
+ int32_t crtc() const { return at<1>().as_int32(); }
+ bool has_high_prec() const { return at<2>().valid(); }
+ uint32_t high_prec() const { return at<2>().as_uint32(); }
+ bool has_seq() const { return at<3>().valid(); }
+ uint32_t seq() const { return at<3>().as_uint32(); }
+ bool has_time() const { return at<4>().valid(); }
+ int64_t time() const { return at<4>().as_int64(); }
+};
+
+class DrmVblankEventFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = DrmVblankEventFtraceEvent_Decoder;
+ enum : int32_t {
+ kCrtcFieldNumber = 1,
+ kHighPrecFieldNumber = 2,
+ kSeqFieldNumber = 3,
+ kTimeFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.DrmVblankEventFtraceEvent"; }
+
+
+ using FieldMetadata_Crtc =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ DrmVblankEventFtraceEvent>;
+
+ static constexpr FieldMetadata_Crtc kCrtc{};
+ void set_crtc(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Crtc::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_HighPrec =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ DrmVblankEventFtraceEvent>;
+
+ static constexpr FieldMetadata_HighPrec kHighPrec{};
+ void set_high_prec(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_HighPrec::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Seq =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ DrmVblankEventFtraceEvent>;
+
+ static constexpr FieldMetadata_Seq kSeq{};
+ void set_seq(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Seq::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Time =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ DrmVblankEventFtraceEvent>;
+
+ static constexpr FieldMetadata_Time kTime{};
+ void set_time(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Time::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/ext4.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_EXT4_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_EXT4_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class Ext4ZeroRangeFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4ZeroRangeFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4ZeroRangeFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4ZeroRangeFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_offset() const { return at<3>().valid(); }
+ int64_t offset() const { return at<3>().as_int64(); }
+ bool has_len() const { return at<4>().valid(); }
+ int64_t len() const { return at<4>().as_int64(); }
+ bool has_mode() const { return at<5>().valid(); }
+ int32_t mode() const { return at<5>().as_int32(); }
+};
+
+class Ext4ZeroRangeFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4ZeroRangeFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kOffsetFieldNumber = 3,
+ kLenFieldNumber = 4,
+ kModeFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4ZeroRangeFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4ZeroRangeFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4ZeroRangeFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Offset =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ Ext4ZeroRangeFtraceEvent>;
+
+ static constexpr FieldMetadata_Offset kOffset{};
+ void set_offset(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Offset::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ Ext4ZeroRangeFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Mode =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4ZeroRangeFtraceEvent>;
+
+ static constexpr FieldMetadata_Mode kMode{};
+ void set_mode(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Mode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4WritepagesResultFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/7, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4WritepagesResultFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4WritepagesResultFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4WritepagesResultFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_ret() const { return at<3>().valid(); }
+ int32_t ret() const { return at<3>().as_int32(); }
+ bool has_pages_written() const { return at<4>().valid(); }
+ int32_t pages_written() const { return at<4>().as_int32(); }
+ bool has_pages_skipped() const { return at<5>().valid(); }
+ int64_t pages_skipped() const { return at<5>().as_int64(); }
+ bool has_writeback_index() const { return at<6>().valid(); }
+ uint64_t writeback_index() const { return at<6>().as_uint64(); }
+ bool has_sync_mode() const { return at<7>().valid(); }
+ int32_t sync_mode() const { return at<7>().as_int32(); }
+};
+
+class Ext4WritepagesResultFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4WritepagesResultFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kRetFieldNumber = 3,
+ kPagesWrittenFieldNumber = 4,
+ kPagesSkippedFieldNumber = 5,
+ kWritebackIndexFieldNumber = 6,
+ kSyncModeFieldNumber = 7,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4WritepagesResultFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4WritepagesResultFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4WritepagesResultFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ret =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4WritepagesResultFtraceEvent>;
+
+ static constexpr FieldMetadata_Ret kRet{};
+ void set_ret(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ret::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PagesWritten =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4WritepagesResultFtraceEvent>;
+
+ static constexpr FieldMetadata_PagesWritten kPagesWritten{};
+ void set_pages_written(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PagesWritten::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PagesSkipped =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ Ext4WritepagesResultFtraceEvent>;
+
+ static constexpr FieldMetadata_PagesSkipped kPagesSkipped{};
+ void set_pages_skipped(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PagesSkipped::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_WritebackIndex =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4WritepagesResultFtraceEvent>;
+
+ static constexpr FieldMetadata_WritebackIndex kWritebackIndex{};
+ void set_writeback_index(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_WritebackIndex::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SyncMode =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4WritepagesResultFtraceEvent>;
+
+ static constexpr FieldMetadata_SyncMode kSyncMode{};
+ void set_sync_mode(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SyncMode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4WritepagesFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/10, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4WritepagesFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4WritepagesFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4WritepagesFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_nr_to_write() const { return at<3>().valid(); }
+ int64_t nr_to_write() const { return at<3>().as_int64(); }
+ bool has_pages_skipped() const { return at<4>().valid(); }
+ int64_t pages_skipped() const { return at<4>().as_int64(); }
+ bool has_range_start() const { return at<5>().valid(); }
+ int64_t range_start() const { return at<5>().as_int64(); }
+ bool has_range_end() const { return at<6>().valid(); }
+ int64_t range_end() const { return at<6>().as_int64(); }
+ bool has_writeback_index() const { return at<7>().valid(); }
+ uint64_t writeback_index() const { return at<7>().as_uint64(); }
+ bool has_sync_mode() const { return at<8>().valid(); }
+ int32_t sync_mode() const { return at<8>().as_int32(); }
+ bool has_for_kupdate() const { return at<9>().valid(); }
+ uint32_t for_kupdate() const { return at<9>().as_uint32(); }
+ bool has_range_cyclic() const { return at<10>().valid(); }
+ uint32_t range_cyclic() const { return at<10>().as_uint32(); }
+};
+
+class Ext4WritepagesFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4WritepagesFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kNrToWriteFieldNumber = 3,
+ kPagesSkippedFieldNumber = 4,
+ kRangeStartFieldNumber = 5,
+ kRangeEndFieldNumber = 6,
+ kWritebackIndexFieldNumber = 7,
+ kSyncModeFieldNumber = 8,
+ kForKupdateFieldNumber = 9,
+ kRangeCyclicFieldNumber = 10,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4WritepagesFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4WritepagesFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4WritepagesFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NrToWrite =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ Ext4WritepagesFtraceEvent>;
+
+ static constexpr FieldMetadata_NrToWrite kNrToWrite{};
+ void set_nr_to_write(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NrToWrite::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PagesSkipped =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ Ext4WritepagesFtraceEvent>;
+
+ static constexpr FieldMetadata_PagesSkipped kPagesSkipped{};
+ void set_pages_skipped(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PagesSkipped::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_RangeStart =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ Ext4WritepagesFtraceEvent>;
+
+ static constexpr FieldMetadata_RangeStart kRangeStart{};
+ void set_range_start(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_RangeStart::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_RangeEnd =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ Ext4WritepagesFtraceEvent>;
+
+ static constexpr FieldMetadata_RangeEnd kRangeEnd{};
+ void set_range_end(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_RangeEnd::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_WritebackIndex =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4WritepagesFtraceEvent>;
+
+ static constexpr FieldMetadata_WritebackIndex kWritebackIndex{};
+ void set_writeback_index(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_WritebackIndex::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SyncMode =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4WritepagesFtraceEvent>;
+
+ static constexpr FieldMetadata_SyncMode kSyncMode{};
+ void set_sync_mode(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SyncMode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ForKupdate =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4WritepagesFtraceEvent>;
+
+ static constexpr FieldMetadata_ForKupdate kForKupdate{};
+ void set_for_kupdate(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ForKupdate::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_RangeCyclic =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4WritepagesFtraceEvent>;
+
+ static constexpr FieldMetadata_RangeCyclic kRangeCyclic{};
+ void set_range_cyclic(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_RangeCyclic::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4WritepageFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4WritepageFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4WritepageFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4WritepageFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_index() const { return at<3>().valid(); }
+ uint64_t index() const { return at<3>().as_uint64(); }
+};
+
+class Ext4WritepageFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4WritepageFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kIndexFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4WritepageFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4WritepageFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4WritepageFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Index =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4WritepageFtraceEvent>;
+
+ static constexpr FieldMetadata_Index kIndex{};
+ void set_index(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Index::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4WriteEndFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4WriteEndFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4WriteEndFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4WriteEndFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_pos() const { return at<3>().valid(); }
+ int64_t pos() const { return at<3>().as_int64(); }
+ bool has_len() const { return at<4>().valid(); }
+ uint32_t len() const { return at<4>().as_uint32(); }
+ bool has_copied() const { return at<5>().valid(); }
+ uint32_t copied() const { return at<5>().as_uint32(); }
+};
+
+class Ext4WriteEndFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4WriteEndFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kPosFieldNumber = 3,
+ kLenFieldNumber = 4,
+ kCopiedFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4WriteEndFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4WriteEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4WriteEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pos =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ Ext4WriteEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Pos kPos{};
+ void set_pos(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pos::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4WriteEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Copied =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4WriteEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Copied kCopied{};
+ void set_copied(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Copied::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4WriteBeginFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4WriteBeginFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4WriteBeginFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4WriteBeginFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_pos() const { return at<3>().valid(); }
+ int64_t pos() const { return at<3>().as_int64(); }
+ bool has_len() const { return at<4>().valid(); }
+ uint32_t len() const { return at<4>().as_uint32(); }
+ bool has_flags() const { return at<5>().valid(); }
+ uint32_t flags() const { return at<5>().as_uint32(); }
+};
+
+class Ext4WriteBeginFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4WriteBeginFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kPosFieldNumber = 3,
+ kLenFieldNumber = 4,
+ kFlagsFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4WriteBeginFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4WriteBeginFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4WriteBeginFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pos =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ Ext4WriteBeginFtraceEvent>;
+
+ static constexpr FieldMetadata_Pos kPos{};
+ void set_pos(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pos::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4WriteBeginFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Flags =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4WriteBeginFtraceEvent>;
+
+ static constexpr FieldMetadata_Flags kFlags{};
+ void set_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Flags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4UnlinkExitFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4UnlinkExitFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4UnlinkExitFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4UnlinkExitFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_ret() const { return at<3>().valid(); }
+ int32_t ret() const { return at<3>().as_int32(); }
+};
+
+class Ext4UnlinkExitFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4UnlinkExitFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kRetFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4UnlinkExitFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4UnlinkExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4UnlinkExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ret =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4UnlinkExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Ret kRet{};
+ void set_ret(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ret::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4UnlinkEnterFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4UnlinkEnterFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4UnlinkEnterFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4UnlinkEnterFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_parent() const { return at<3>().valid(); }
+ uint64_t parent() const { return at<3>().as_uint64(); }
+ bool has_size() const { return at<4>().valid(); }
+ int64_t size() const { return at<4>().as_int64(); }
+};
+
+class Ext4UnlinkEnterFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4UnlinkEnterFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kParentFieldNumber = 3,
+ kSizeFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4UnlinkEnterFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4UnlinkEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4UnlinkEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Parent =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4UnlinkEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Parent kParent{};
+ void set_parent(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Parent::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Size =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ Ext4UnlinkEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Size kSize{};
+ void set_size(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Size::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4TruncateExitFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4TruncateExitFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4TruncateExitFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4TruncateExitFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_blocks() const { return at<3>().valid(); }
+ uint64_t blocks() const { return at<3>().as_uint64(); }
+};
+
+class Ext4TruncateExitFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4TruncateExitFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kBlocksFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4TruncateExitFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4TruncateExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4TruncateExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Blocks =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4TruncateExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Blocks kBlocks{};
+ void set_blocks(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Blocks::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4TruncateEnterFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4TruncateEnterFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4TruncateEnterFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4TruncateEnterFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_blocks() const { return at<3>().valid(); }
+ uint64_t blocks() const { return at<3>().as_uint64(); }
+};
+
+class Ext4TruncateEnterFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4TruncateEnterFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kBlocksFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4TruncateEnterFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4TruncateEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4TruncateEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Blocks =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4TruncateEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Blocks kBlocks{};
+ void set_blocks(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Blocks::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4TrimExtentFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4TrimExtentFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4TrimExtentFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4TrimExtentFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev_major() const { return at<1>().valid(); }
+ int32_t dev_major() const { return at<1>().as_int32(); }
+ bool has_dev_minor() const { return at<2>().valid(); }
+ int32_t dev_minor() const { return at<2>().as_int32(); }
+ bool has_group() const { return at<3>().valid(); }
+ uint32_t group() const { return at<3>().as_uint32(); }
+ bool has_start() const { return at<4>().valid(); }
+ int32_t start() const { return at<4>().as_int32(); }
+ bool has_len() const { return at<5>().valid(); }
+ int32_t len() const { return at<5>().as_int32(); }
+};
+
+class Ext4TrimExtentFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4TrimExtentFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevMajorFieldNumber = 1,
+ kDevMinorFieldNumber = 2,
+ kGroupFieldNumber = 3,
+ kStartFieldNumber = 4,
+ kLenFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4TrimExtentFtraceEvent"; }
+
+
+ using FieldMetadata_DevMajor =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4TrimExtentFtraceEvent>;
+
+ static constexpr FieldMetadata_DevMajor kDevMajor{};
+ void set_dev_major(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DevMajor::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DevMinor =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4TrimExtentFtraceEvent>;
+
+ static constexpr FieldMetadata_DevMinor kDevMinor{};
+ void set_dev_minor(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DevMinor::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Group =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4TrimExtentFtraceEvent>;
+
+ static constexpr FieldMetadata_Group kGroup{};
+ void set_group(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Group::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Start =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4TrimExtentFtraceEvent>;
+
+ static constexpr FieldMetadata_Start kStart{};
+ void set_start(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Start::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4TrimExtentFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4TrimAllFreeFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4TrimAllFreeFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4TrimAllFreeFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4TrimAllFreeFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev_major() const { return at<1>().valid(); }
+ int32_t dev_major() const { return at<1>().as_int32(); }
+ bool has_dev_minor() const { return at<2>().valid(); }
+ int32_t dev_minor() const { return at<2>().as_int32(); }
+ bool has_group() const { return at<3>().valid(); }
+ uint32_t group() const { return at<3>().as_uint32(); }
+ bool has_start() const { return at<4>().valid(); }
+ int32_t start() const { return at<4>().as_int32(); }
+ bool has_len() const { return at<5>().valid(); }
+ int32_t len() const { return at<5>().as_int32(); }
+};
+
+class Ext4TrimAllFreeFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4TrimAllFreeFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevMajorFieldNumber = 1,
+ kDevMinorFieldNumber = 2,
+ kGroupFieldNumber = 3,
+ kStartFieldNumber = 4,
+ kLenFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4TrimAllFreeFtraceEvent"; }
+
+
+ using FieldMetadata_DevMajor =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4TrimAllFreeFtraceEvent>;
+
+ static constexpr FieldMetadata_DevMajor kDevMajor{};
+ void set_dev_major(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DevMajor::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DevMinor =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4TrimAllFreeFtraceEvent>;
+
+ static constexpr FieldMetadata_DevMinor kDevMinor{};
+ void set_dev_minor(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DevMinor::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Group =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4TrimAllFreeFtraceEvent>;
+
+ static constexpr FieldMetadata_Group kGroup{};
+ void set_group(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Group::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Start =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4TrimAllFreeFtraceEvent>;
+
+ static constexpr FieldMetadata_Start kStart{};
+ void set_start(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Start::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4TrimAllFreeFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4SyncFsFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4SyncFsFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4SyncFsFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4SyncFsFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_wait() const { return at<2>().valid(); }
+ int32_t wait() const { return at<2>().as_int32(); }
+};
+
+class Ext4SyncFsFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4SyncFsFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kWaitFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4SyncFsFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4SyncFsFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Wait =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4SyncFsFtraceEvent>;
+
+ static constexpr FieldMetadata_Wait kWait{};
+ void set_wait(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Wait::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4RequestInodeFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4RequestInodeFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4RequestInodeFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4RequestInodeFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_dir() const { return at<2>().valid(); }
+ uint64_t dir() const { return at<2>().as_uint64(); }
+ bool has_mode() const { return at<3>().valid(); }
+ uint32_t mode() const { return at<3>().as_uint32(); }
+};
+
+class Ext4RequestInodeFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4RequestInodeFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kDirFieldNumber = 2,
+ kModeFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4RequestInodeFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4RequestInodeFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Dir =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4RequestInodeFtraceEvent>;
+
+ static constexpr FieldMetadata_Dir kDir{};
+ void set_dir(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dir::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Mode =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4RequestInodeFtraceEvent>;
+
+ static constexpr FieldMetadata_Mode kMode{};
+ void set_mode(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Mode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4RequestBlocksFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/10, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4RequestBlocksFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4RequestBlocksFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4RequestBlocksFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_len() const { return at<3>().valid(); }
+ uint32_t len() const { return at<3>().as_uint32(); }
+ bool has_logical() const { return at<4>().valid(); }
+ uint32_t logical() const { return at<4>().as_uint32(); }
+ bool has_lleft() const { return at<5>().valid(); }
+ uint32_t lleft() const { return at<5>().as_uint32(); }
+ bool has_lright() const { return at<6>().valid(); }
+ uint32_t lright() const { return at<6>().as_uint32(); }
+ bool has_goal() const { return at<7>().valid(); }
+ uint64_t goal() const { return at<7>().as_uint64(); }
+ bool has_pleft() const { return at<8>().valid(); }
+ uint64_t pleft() const { return at<8>().as_uint64(); }
+ bool has_pright() const { return at<9>().valid(); }
+ uint64_t pright() const { return at<9>().as_uint64(); }
+ bool has_flags() const { return at<10>().valid(); }
+ uint32_t flags() const { return at<10>().as_uint32(); }
+};
+
+class Ext4RequestBlocksFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4RequestBlocksFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kLenFieldNumber = 3,
+ kLogicalFieldNumber = 4,
+ kLleftFieldNumber = 5,
+ kLrightFieldNumber = 6,
+ kGoalFieldNumber = 7,
+ kPleftFieldNumber = 8,
+ kPrightFieldNumber = 9,
+ kFlagsFieldNumber = 10,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4RequestBlocksFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4RequestBlocksFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4RequestBlocksFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4RequestBlocksFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Logical =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4RequestBlocksFtraceEvent>;
+
+ static constexpr FieldMetadata_Logical kLogical{};
+ void set_logical(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Logical::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Lleft =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4RequestBlocksFtraceEvent>;
+
+ static constexpr FieldMetadata_Lleft kLleft{};
+ void set_lleft(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Lleft::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Lright =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4RequestBlocksFtraceEvent>;
+
+ static constexpr FieldMetadata_Lright kLright{};
+ void set_lright(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Lright::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Goal =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4RequestBlocksFtraceEvent>;
+
+ static constexpr FieldMetadata_Goal kGoal{};
+ void set_goal(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Goal::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pleft =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4RequestBlocksFtraceEvent>;
+
+ static constexpr FieldMetadata_Pleft kPleft{};
+ void set_pleft(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pleft::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pright =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4RequestBlocksFtraceEvent>;
+
+ static constexpr FieldMetadata_Pright kPright{};
+ void set_pright(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pright::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Flags =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4RequestBlocksFtraceEvent>;
+
+ static constexpr FieldMetadata_Flags kFlags{};
+ void set_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Flags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4RemoveBlocksFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/11, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4RemoveBlocksFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4RemoveBlocksFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4RemoveBlocksFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_from() const { return at<3>().valid(); }
+ uint32_t from() const { return at<3>().as_uint32(); }
+ bool has_to() const { return at<4>().valid(); }
+ uint32_t to() const { return at<4>().as_uint32(); }
+ bool has_partial() const { return at<5>().valid(); }
+ int64_t partial() const { return at<5>().as_int64(); }
+ bool has_ee_pblk() const { return at<6>().valid(); }
+ uint64_t ee_pblk() const { return at<6>().as_uint64(); }
+ bool has_ee_lblk() const { return at<7>().valid(); }
+ uint32_t ee_lblk() const { return at<7>().as_uint32(); }
+ bool has_ee_len() const { return at<8>().valid(); }
+ uint32_t ee_len() const { return at<8>().as_uint32(); }
+ bool has_pc_lblk() const { return at<9>().valid(); }
+ uint32_t pc_lblk() const { return at<9>().as_uint32(); }
+ bool has_pc_pclu() const { return at<10>().valid(); }
+ uint64_t pc_pclu() const { return at<10>().as_uint64(); }
+ bool has_pc_state() const { return at<11>().valid(); }
+ int32_t pc_state() const { return at<11>().as_int32(); }
+};
+
+class Ext4RemoveBlocksFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4RemoveBlocksFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kFromFieldNumber = 3,
+ kToFieldNumber = 4,
+ kPartialFieldNumber = 5,
+ kEePblkFieldNumber = 6,
+ kEeLblkFieldNumber = 7,
+ kEeLenFieldNumber = 8,
+ kPcLblkFieldNumber = 9,
+ kPcPcluFieldNumber = 10,
+ kPcStateFieldNumber = 11,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4RemoveBlocksFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4RemoveBlocksFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4RemoveBlocksFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_From =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4RemoveBlocksFtraceEvent>;
+
+ static constexpr FieldMetadata_From kFrom{};
+ void set_from(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_From::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_To =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4RemoveBlocksFtraceEvent>;
+
+ static constexpr FieldMetadata_To kTo{};
+ void set_to(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_To::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Partial =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ Ext4RemoveBlocksFtraceEvent>;
+
+ static constexpr FieldMetadata_Partial kPartial{};
+ void set_partial(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Partial::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_EePblk =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4RemoveBlocksFtraceEvent>;
+
+ static constexpr FieldMetadata_EePblk kEePblk{};
+ void set_ee_pblk(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_EePblk::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_EeLblk =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4RemoveBlocksFtraceEvent>;
+
+ static constexpr FieldMetadata_EeLblk kEeLblk{};
+ void set_ee_lblk(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_EeLblk::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_EeLen =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4RemoveBlocksFtraceEvent>;
+
+ static constexpr FieldMetadata_EeLen kEeLen{};
+ void set_ee_len(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_EeLen::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PcLblk =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4RemoveBlocksFtraceEvent>;
+
+ static constexpr FieldMetadata_PcLblk kPcLblk{};
+ void set_pc_lblk(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PcLblk::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PcPclu =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4RemoveBlocksFtraceEvent>;
+
+ static constexpr FieldMetadata_PcPclu kPcPclu{};
+ void set_pc_pclu(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PcPclu::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PcState =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4RemoveBlocksFtraceEvent>;
+
+ static constexpr FieldMetadata_PcState kPcState{};
+ void set_pc_state(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PcState::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4ReleasepageFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4ReleasepageFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4ReleasepageFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4ReleasepageFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_index() const { return at<3>().valid(); }
+ uint64_t index() const { return at<3>().as_uint64(); }
+};
+
+class Ext4ReleasepageFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4ReleasepageFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kIndexFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4ReleasepageFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4ReleasepageFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4ReleasepageFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Index =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4ReleasepageFtraceEvent>;
+
+ static constexpr FieldMetadata_Index kIndex{};
+ void set_index(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Index::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4ReadpageFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4ReadpageFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4ReadpageFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4ReadpageFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_index() const { return at<3>().valid(); }
+ uint64_t index() const { return at<3>().as_uint64(); }
+};
+
+class Ext4ReadpageFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4ReadpageFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kIndexFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4ReadpageFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4ReadpageFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4ReadpageFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Index =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4ReadpageFtraceEvent>;
+
+ static constexpr FieldMetadata_Index kIndex{};
+ void set_index(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Index::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4ReadBlockBitmapLoadFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4ReadBlockBitmapLoadFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4ReadBlockBitmapLoadFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4ReadBlockBitmapLoadFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_group() const { return at<2>().valid(); }
+ uint32_t group() const { return at<2>().as_uint32(); }
+ bool has_prefetch() const { return at<3>().valid(); }
+ uint32_t prefetch() const { return at<3>().as_uint32(); }
+};
+
+class Ext4ReadBlockBitmapLoadFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4ReadBlockBitmapLoadFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kGroupFieldNumber = 2,
+ kPrefetchFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4ReadBlockBitmapLoadFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4ReadBlockBitmapLoadFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Group =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4ReadBlockBitmapLoadFtraceEvent>;
+
+ static constexpr FieldMetadata_Group kGroup{};
+ void set_group(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Group::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Prefetch =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4ReadBlockBitmapLoadFtraceEvent>;
+
+ static constexpr FieldMetadata_Prefetch kPrefetch{};
+ void set_prefetch(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Prefetch::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4PunchHoleFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4PunchHoleFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4PunchHoleFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4PunchHoleFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_offset() const { return at<3>().valid(); }
+ int64_t offset() const { return at<3>().as_int64(); }
+ bool has_len() const { return at<4>().valid(); }
+ int64_t len() const { return at<4>().as_int64(); }
+ bool has_mode() const { return at<5>().valid(); }
+ int32_t mode() const { return at<5>().as_int32(); }
+};
+
+class Ext4PunchHoleFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4PunchHoleFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kOffsetFieldNumber = 3,
+ kLenFieldNumber = 4,
+ kModeFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4PunchHoleFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4PunchHoleFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4PunchHoleFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Offset =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ Ext4PunchHoleFtraceEvent>;
+
+ static constexpr FieldMetadata_Offset kOffset{};
+ void set_offset(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Offset::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ Ext4PunchHoleFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Mode =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4PunchHoleFtraceEvent>;
+
+ static constexpr FieldMetadata_Mode kMode{};
+ void set_mode(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Mode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4OtherInodeUpdateTimeFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/6, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4OtherInodeUpdateTimeFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4OtherInodeUpdateTimeFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4OtherInodeUpdateTimeFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_orig_ino() const { return at<3>().valid(); }
+ uint64_t orig_ino() const { return at<3>().as_uint64(); }
+ bool has_uid() const { return at<4>().valid(); }
+ uint32_t uid() const { return at<4>().as_uint32(); }
+ bool has_gid() const { return at<5>().valid(); }
+ uint32_t gid() const { return at<5>().as_uint32(); }
+ bool has_mode() const { return at<6>().valid(); }
+ uint32_t mode() const { return at<6>().as_uint32(); }
+};
+
+class Ext4OtherInodeUpdateTimeFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4OtherInodeUpdateTimeFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kOrigInoFieldNumber = 3,
+ kUidFieldNumber = 4,
+ kGidFieldNumber = 5,
+ kModeFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4OtherInodeUpdateTimeFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4OtherInodeUpdateTimeFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4OtherInodeUpdateTimeFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_OrigIno =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4OtherInodeUpdateTimeFtraceEvent>;
+
+ static constexpr FieldMetadata_OrigIno kOrigIno{};
+ void set_orig_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_OrigIno::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Uid =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4OtherInodeUpdateTimeFtraceEvent>;
+
+ static constexpr FieldMetadata_Uid kUid{};
+ void set_uid(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Uid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Gid =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4OtherInodeUpdateTimeFtraceEvent>;
+
+ static constexpr FieldMetadata_Gid kGid{};
+ void set_gid(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Gid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Mode =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4OtherInodeUpdateTimeFtraceEvent>;
+
+ static constexpr FieldMetadata_Mode kMode{};
+ void set_mode(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Mode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4MballocPreallocFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/10, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4MballocPreallocFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4MballocPreallocFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4MballocPreallocFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_orig_logical() const { return at<3>().valid(); }
+ uint32_t orig_logical() const { return at<3>().as_uint32(); }
+ bool has_orig_start() const { return at<4>().valid(); }
+ int32_t orig_start() const { return at<4>().as_int32(); }
+ bool has_orig_group() const { return at<5>().valid(); }
+ uint32_t orig_group() const { return at<5>().as_uint32(); }
+ bool has_orig_len() const { return at<6>().valid(); }
+ int32_t orig_len() const { return at<6>().as_int32(); }
+ bool has_result_logical() const { return at<7>().valid(); }
+ uint32_t result_logical() const { return at<7>().as_uint32(); }
+ bool has_result_start() const { return at<8>().valid(); }
+ int32_t result_start() const { return at<8>().as_int32(); }
+ bool has_result_group() const { return at<9>().valid(); }
+ uint32_t result_group() const { return at<9>().as_uint32(); }
+ bool has_result_len() const { return at<10>().valid(); }
+ int32_t result_len() const { return at<10>().as_int32(); }
+};
+
+class Ext4MballocPreallocFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4MballocPreallocFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kOrigLogicalFieldNumber = 3,
+ kOrigStartFieldNumber = 4,
+ kOrigGroupFieldNumber = 5,
+ kOrigLenFieldNumber = 6,
+ kResultLogicalFieldNumber = 7,
+ kResultStartFieldNumber = 8,
+ kResultGroupFieldNumber = 9,
+ kResultLenFieldNumber = 10,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4MballocPreallocFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4MballocPreallocFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4MballocPreallocFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_OrigLogical =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4MballocPreallocFtraceEvent>;
+
+ static constexpr FieldMetadata_OrigLogical kOrigLogical{};
+ void set_orig_logical(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_OrigLogical::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_OrigStart =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4MballocPreallocFtraceEvent>;
+
+ static constexpr FieldMetadata_OrigStart kOrigStart{};
+ void set_orig_start(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_OrigStart::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_OrigGroup =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4MballocPreallocFtraceEvent>;
+
+ static constexpr FieldMetadata_OrigGroup kOrigGroup{};
+ void set_orig_group(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_OrigGroup::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_OrigLen =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4MballocPreallocFtraceEvent>;
+
+ static constexpr FieldMetadata_OrigLen kOrigLen{};
+ void set_orig_len(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_OrigLen::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ResultLogical =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4MballocPreallocFtraceEvent>;
+
+ static constexpr FieldMetadata_ResultLogical kResultLogical{};
+ void set_result_logical(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ResultLogical::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ResultStart =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4MballocPreallocFtraceEvent>;
+
+ static constexpr FieldMetadata_ResultStart kResultStart{};
+ void set_result_start(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ResultStart::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ResultGroup =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4MballocPreallocFtraceEvent>;
+
+ static constexpr FieldMetadata_ResultGroup kResultGroup{};
+ void set_result_group(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ResultGroup::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ResultLen =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4MballocPreallocFtraceEvent>;
+
+ static constexpr FieldMetadata_ResultLen kResultLen{};
+ void set_result_len(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ResultLen::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4MballocFreeFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4MballocFreeFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4MballocFreeFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4MballocFreeFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_result_start() const { return at<3>().valid(); }
+ int32_t result_start() const { return at<3>().as_int32(); }
+ bool has_result_group() const { return at<4>().valid(); }
+ uint32_t result_group() const { return at<4>().as_uint32(); }
+ bool has_result_len() const { return at<5>().valid(); }
+ int32_t result_len() const { return at<5>().as_int32(); }
+};
+
+class Ext4MballocFreeFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4MballocFreeFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kResultStartFieldNumber = 3,
+ kResultGroupFieldNumber = 4,
+ kResultLenFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4MballocFreeFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4MballocFreeFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4MballocFreeFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ResultStart =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4MballocFreeFtraceEvent>;
+
+ static constexpr FieldMetadata_ResultStart kResultStart{};
+ void set_result_start(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ResultStart::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ResultGroup =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4MballocFreeFtraceEvent>;
+
+ static constexpr FieldMetadata_ResultGroup kResultGroup{};
+ void set_result_group(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ResultGroup::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ResultLen =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4MballocFreeFtraceEvent>;
+
+ static constexpr FieldMetadata_ResultLen kResultLen{};
+ void set_result_len(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ResultLen::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4MballocDiscardFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4MballocDiscardFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4MballocDiscardFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4MballocDiscardFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_result_start() const { return at<3>().valid(); }
+ int32_t result_start() const { return at<3>().as_int32(); }
+ bool has_result_group() const { return at<4>().valid(); }
+ uint32_t result_group() const { return at<4>().as_uint32(); }
+ bool has_result_len() const { return at<5>().valid(); }
+ int32_t result_len() const { return at<5>().as_int32(); }
+};
+
+class Ext4MballocDiscardFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4MballocDiscardFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kResultStartFieldNumber = 3,
+ kResultGroupFieldNumber = 4,
+ kResultLenFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4MballocDiscardFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4MballocDiscardFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4MballocDiscardFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ResultStart =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4MballocDiscardFtraceEvent>;
+
+ static constexpr FieldMetadata_ResultStart kResultStart{};
+ void set_result_start(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ResultStart::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ResultGroup =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4MballocDiscardFtraceEvent>;
+
+ static constexpr FieldMetadata_ResultGroup kResultGroup{};
+ void set_result_group(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ResultGroup::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ResultLen =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4MballocDiscardFtraceEvent>;
+
+ static constexpr FieldMetadata_ResultLen kResultLen{};
+ void set_result_len(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ResultLen::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4MballocAllocFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/20, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4MballocAllocFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4MballocAllocFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4MballocAllocFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_orig_logical() const { return at<3>().valid(); }
+ uint32_t orig_logical() const { return at<3>().as_uint32(); }
+ bool has_orig_start() const { return at<4>().valid(); }
+ int32_t orig_start() const { return at<4>().as_int32(); }
+ bool has_orig_group() const { return at<5>().valid(); }
+ uint32_t orig_group() const { return at<5>().as_uint32(); }
+ bool has_orig_len() const { return at<6>().valid(); }
+ int32_t orig_len() const { return at<6>().as_int32(); }
+ bool has_goal_logical() const { return at<7>().valid(); }
+ uint32_t goal_logical() const { return at<7>().as_uint32(); }
+ bool has_goal_start() const { return at<8>().valid(); }
+ int32_t goal_start() const { return at<8>().as_int32(); }
+ bool has_goal_group() const { return at<9>().valid(); }
+ uint32_t goal_group() const { return at<9>().as_uint32(); }
+ bool has_goal_len() const { return at<10>().valid(); }
+ int32_t goal_len() const { return at<10>().as_int32(); }
+ bool has_result_logical() const { return at<11>().valid(); }
+ uint32_t result_logical() const { return at<11>().as_uint32(); }
+ bool has_result_start() const { return at<12>().valid(); }
+ int32_t result_start() const { return at<12>().as_int32(); }
+ bool has_result_group() const { return at<13>().valid(); }
+ uint32_t result_group() const { return at<13>().as_uint32(); }
+ bool has_result_len() const { return at<14>().valid(); }
+ int32_t result_len() const { return at<14>().as_int32(); }
+ bool has_found() const { return at<15>().valid(); }
+ uint32_t found() const { return at<15>().as_uint32(); }
+ bool has_groups() const { return at<16>().valid(); }
+ uint32_t groups() const { return at<16>().as_uint32(); }
+ bool has_buddy() const { return at<17>().valid(); }
+ uint32_t buddy() const { return at<17>().as_uint32(); }
+ bool has_flags() const { return at<18>().valid(); }
+ uint32_t flags() const { return at<18>().as_uint32(); }
+ bool has_tail() const { return at<19>().valid(); }
+ uint32_t tail() const { return at<19>().as_uint32(); }
+ bool has_cr() const { return at<20>().valid(); }
+ uint32_t cr() const { return at<20>().as_uint32(); }
+};
+
+class Ext4MballocAllocFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4MballocAllocFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kOrigLogicalFieldNumber = 3,
+ kOrigStartFieldNumber = 4,
+ kOrigGroupFieldNumber = 5,
+ kOrigLenFieldNumber = 6,
+ kGoalLogicalFieldNumber = 7,
+ kGoalStartFieldNumber = 8,
+ kGoalGroupFieldNumber = 9,
+ kGoalLenFieldNumber = 10,
+ kResultLogicalFieldNumber = 11,
+ kResultStartFieldNumber = 12,
+ kResultGroupFieldNumber = 13,
+ kResultLenFieldNumber = 14,
+ kFoundFieldNumber = 15,
+ kGroupsFieldNumber = 16,
+ kBuddyFieldNumber = 17,
+ kFlagsFieldNumber = 18,
+ kTailFieldNumber = 19,
+ kCrFieldNumber = 20,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4MballocAllocFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4MballocAllocFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4MballocAllocFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_OrigLogical =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4MballocAllocFtraceEvent>;
+
+ static constexpr FieldMetadata_OrigLogical kOrigLogical{};
+ void set_orig_logical(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_OrigLogical::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_OrigStart =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4MballocAllocFtraceEvent>;
+
+ static constexpr FieldMetadata_OrigStart kOrigStart{};
+ void set_orig_start(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_OrigStart::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_OrigGroup =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4MballocAllocFtraceEvent>;
+
+ static constexpr FieldMetadata_OrigGroup kOrigGroup{};
+ void set_orig_group(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_OrigGroup::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_OrigLen =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4MballocAllocFtraceEvent>;
+
+ static constexpr FieldMetadata_OrigLen kOrigLen{};
+ void set_orig_len(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_OrigLen::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_GoalLogical =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4MballocAllocFtraceEvent>;
+
+ static constexpr FieldMetadata_GoalLogical kGoalLogical{};
+ void set_goal_logical(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_GoalLogical::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_GoalStart =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4MballocAllocFtraceEvent>;
+
+ static constexpr FieldMetadata_GoalStart kGoalStart{};
+ void set_goal_start(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_GoalStart::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_GoalGroup =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4MballocAllocFtraceEvent>;
+
+ static constexpr FieldMetadata_GoalGroup kGoalGroup{};
+ void set_goal_group(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_GoalGroup::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_GoalLen =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4MballocAllocFtraceEvent>;
+
+ static constexpr FieldMetadata_GoalLen kGoalLen{};
+ void set_goal_len(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_GoalLen::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ResultLogical =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4MballocAllocFtraceEvent>;
+
+ static constexpr FieldMetadata_ResultLogical kResultLogical{};
+ void set_result_logical(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ResultLogical::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ResultStart =
+ ::protozero::proto_utils::FieldMetadata<
+ 12,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4MballocAllocFtraceEvent>;
+
+ static constexpr FieldMetadata_ResultStart kResultStart{};
+ void set_result_start(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ResultStart::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ResultGroup =
+ ::protozero::proto_utils::FieldMetadata<
+ 13,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4MballocAllocFtraceEvent>;
+
+ static constexpr FieldMetadata_ResultGroup kResultGroup{};
+ void set_result_group(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ResultGroup::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ResultLen =
+ ::protozero::proto_utils::FieldMetadata<
+ 14,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4MballocAllocFtraceEvent>;
+
+ static constexpr FieldMetadata_ResultLen kResultLen{};
+ void set_result_len(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ResultLen::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Found =
+ ::protozero::proto_utils::FieldMetadata<
+ 15,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4MballocAllocFtraceEvent>;
+
+ static constexpr FieldMetadata_Found kFound{};
+ void set_found(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Found::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Groups =
+ ::protozero::proto_utils::FieldMetadata<
+ 16,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4MballocAllocFtraceEvent>;
+
+ static constexpr FieldMetadata_Groups kGroups{};
+ void set_groups(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Groups::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Buddy =
+ ::protozero::proto_utils::FieldMetadata<
+ 17,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4MballocAllocFtraceEvent>;
+
+ static constexpr FieldMetadata_Buddy kBuddy{};
+ void set_buddy(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Buddy::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Flags =
+ ::protozero::proto_utils::FieldMetadata<
+ 18,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4MballocAllocFtraceEvent>;
+
+ static constexpr FieldMetadata_Flags kFlags{};
+ void set_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Flags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Tail =
+ ::protozero::proto_utils::FieldMetadata<
+ 19,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4MballocAllocFtraceEvent>;
+
+ static constexpr FieldMetadata_Tail kTail{};
+ void set_tail(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Tail::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Cr =
+ ::protozero::proto_utils::FieldMetadata<
+ 20,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4MballocAllocFtraceEvent>;
+
+ static constexpr FieldMetadata_Cr kCr{};
+ void set_cr(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Cr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4MbReleaseInodePaFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4MbReleaseInodePaFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4MbReleaseInodePaFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4MbReleaseInodePaFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_block() const { return at<3>().valid(); }
+ uint64_t block() const { return at<3>().as_uint64(); }
+ bool has_count() const { return at<4>().valid(); }
+ uint32_t count() const { return at<4>().as_uint32(); }
+};
+
+class Ext4MbReleaseInodePaFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4MbReleaseInodePaFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kBlockFieldNumber = 3,
+ kCountFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4MbReleaseInodePaFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4MbReleaseInodePaFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4MbReleaseInodePaFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Block =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4MbReleaseInodePaFtraceEvent>;
+
+ static constexpr FieldMetadata_Block kBlock{};
+ void set_block(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Block::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Count =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4MbReleaseInodePaFtraceEvent>;
+
+ static constexpr FieldMetadata_Count kCount{};
+ void set_count(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Count::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4MbReleaseGroupPaFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4MbReleaseGroupPaFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4MbReleaseGroupPaFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4MbReleaseGroupPaFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_pa_pstart() const { return at<2>().valid(); }
+ uint64_t pa_pstart() const { return at<2>().as_uint64(); }
+ bool has_pa_len() const { return at<3>().valid(); }
+ uint32_t pa_len() const { return at<3>().as_uint32(); }
+};
+
+class Ext4MbReleaseGroupPaFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4MbReleaseGroupPaFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kPaPstartFieldNumber = 2,
+ kPaLenFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4MbReleaseGroupPaFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4MbReleaseGroupPaFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PaPstart =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4MbReleaseGroupPaFtraceEvent>;
+
+ static constexpr FieldMetadata_PaPstart kPaPstart{};
+ void set_pa_pstart(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PaPstart::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PaLen =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4MbReleaseGroupPaFtraceEvent>;
+
+ static constexpr FieldMetadata_PaLen kPaLen{};
+ void set_pa_len(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PaLen::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4MbNewInodePaFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4MbNewInodePaFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4MbNewInodePaFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4MbNewInodePaFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_pa_pstart() const { return at<3>().valid(); }
+ uint64_t pa_pstart() const { return at<3>().as_uint64(); }
+ bool has_pa_lstart() const { return at<4>().valid(); }
+ uint64_t pa_lstart() const { return at<4>().as_uint64(); }
+ bool has_pa_len() const { return at<5>().valid(); }
+ uint32_t pa_len() const { return at<5>().as_uint32(); }
+};
+
+class Ext4MbNewInodePaFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4MbNewInodePaFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kPaPstartFieldNumber = 3,
+ kPaLstartFieldNumber = 4,
+ kPaLenFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4MbNewInodePaFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4MbNewInodePaFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4MbNewInodePaFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PaPstart =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4MbNewInodePaFtraceEvent>;
+
+ static constexpr FieldMetadata_PaPstart kPaPstart{};
+ void set_pa_pstart(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PaPstart::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PaLstart =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4MbNewInodePaFtraceEvent>;
+
+ static constexpr FieldMetadata_PaLstart kPaLstart{};
+ void set_pa_lstart(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PaLstart::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PaLen =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4MbNewInodePaFtraceEvent>;
+
+ static constexpr FieldMetadata_PaLen kPaLen{};
+ void set_pa_len(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PaLen::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4MbNewGroupPaFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4MbNewGroupPaFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4MbNewGroupPaFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4MbNewGroupPaFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_pa_pstart() const { return at<3>().valid(); }
+ uint64_t pa_pstart() const { return at<3>().as_uint64(); }
+ bool has_pa_lstart() const { return at<4>().valid(); }
+ uint64_t pa_lstart() const { return at<4>().as_uint64(); }
+ bool has_pa_len() const { return at<5>().valid(); }
+ uint32_t pa_len() const { return at<5>().as_uint32(); }
+};
+
+class Ext4MbNewGroupPaFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4MbNewGroupPaFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kPaPstartFieldNumber = 3,
+ kPaLstartFieldNumber = 4,
+ kPaLenFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4MbNewGroupPaFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4MbNewGroupPaFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4MbNewGroupPaFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PaPstart =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4MbNewGroupPaFtraceEvent>;
+
+ static constexpr FieldMetadata_PaPstart kPaPstart{};
+ void set_pa_pstart(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PaPstart::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PaLstart =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4MbNewGroupPaFtraceEvent>;
+
+ static constexpr FieldMetadata_PaLstart kPaLstart{};
+ void set_pa_lstart(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PaLstart::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PaLen =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4MbNewGroupPaFtraceEvent>;
+
+ static constexpr FieldMetadata_PaLen kPaLen{};
+ void set_pa_len(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PaLen::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4MbDiscardPreallocationsFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4MbDiscardPreallocationsFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4MbDiscardPreallocationsFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4MbDiscardPreallocationsFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_needed() const { return at<2>().valid(); }
+ int32_t needed() const { return at<2>().as_int32(); }
+};
+
+class Ext4MbDiscardPreallocationsFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4MbDiscardPreallocationsFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kNeededFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4MbDiscardPreallocationsFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4MbDiscardPreallocationsFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Needed =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4MbDiscardPreallocationsFtraceEvent>;
+
+ static constexpr FieldMetadata_Needed kNeeded{};
+ void set_needed(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Needed::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4MbBuddyBitmapLoadFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4MbBuddyBitmapLoadFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4MbBuddyBitmapLoadFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4MbBuddyBitmapLoadFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_group() const { return at<2>().valid(); }
+ uint32_t group() const { return at<2>().as_uint32(); }
+};
+
+class Ext4MbBuddyBitmapLoadFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4MbBuddyBitmapLoadFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kGroupFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4MbBuddyBitmapLoadFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4MbBuddyBitmapLoadFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Group =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4MbBuddyBitmapLoadFtraceEvent>;
+
+ static constexpr FieldMetadata_Group kGroup{};
+ void set_group(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Group::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4MbBitmapLoadFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4MbBitmapLoadFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4MbBitmapLoadFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4MbBitmapLoadFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_group() const { return at<2>().valid(); }
+ uint32_t group() const { return at<2>().as_uint32(); }
+};
+
+class Ext4MbBitmapLoadFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4MbBitmapLoadFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kGroupFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4MbBitmapLoadFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4MbBitmapLoadFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Group =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4MbBitmapLoadFtraceEvent>;
+
+ static constexpr FieldMetadata_Group kGroup{};
+ void set_group(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Group::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4MarkInodeDirtyFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4MarkInodeDirtyFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4MarkInodeDirtyFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4MarkInodeDirtyFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_ip() const { return at<3>().valid(); }
+ uint64_t ip() const { return at<3>().as_uint64(); }
+};
+
+class Ext4MarkInodeDirtyFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4MarkInodeDirtyFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kIpFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4MarkInodeDirtyFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4MarkInodeDirtyFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4MarkInodeDirtyFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ip =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4MarkInodeDirtyFtraceEvent>;
+
+ static constexpr FieldMetadata_Ip kIp{};
+ void set_ip(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ip::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4LoadInodeBitmapFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4LoadInodeBitmapFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4LoadInodeBitmapFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4LoadInodeBitmapFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_group() const { return at<2>().valid(); }
+ uint32_t group() const { return at<2>().as_uint32(); }
+};
+
+class Ext4LoadInodeBitmapFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4LoadInodeBitmapFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kGroupFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4LoadInodeBitmapFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4LoadInodeBitmapFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Group =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4LoadInodeBitmapFtraceEvent>;
+
+ static constexpr FieldMetadata_Group kGroup{};
+ void set_group(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Group::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4LoadInodeFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4LoadInodeFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4LoadInodeFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4LoadInodeFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+};
+
+class Ext4LoadInodeFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4LoadInodeFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4LoadInodeFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4LoadInodeFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4LoadInodeFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4JournalledWriteEndFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4JournalledWriteEndFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4JournalledWriteEndFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4JournalledWriteEndFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_pos() const { return at<3>().valid(); }
+ int64_t pos() const { return at<3>().as_int64(); }
+ bool has_len() const { return at<4>().valid(); }
+ uint32_t len() const { return at<4>().as_uint32(); }
+ bool has_copied() const { return at<5>().valid(); }
+ uint32_t copied() const { return at<5>().as_uint32(); }
+};
+
+class Ext4JournalledWriteEndFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4JournalledWriteEndFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kPosFieldNumber = 3,
+ kLenFieldNumber = 4,
+ kCopiedFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4JournalledWriteEndFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4JournalledWriteEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4JournalledWriteEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pos =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ Ext4JournalledWriteEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Pos kPos{};
+ void set_pos(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pos::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4JournalledWriteEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Copied =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4JournalledWriteEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Copied kCopied{};
+ void set_copied(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Copied::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4JournalledInvalidatepageFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4JournalledInvalidatepageFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4JournalledInvalidatepageFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4JournalledInvalidatepageFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_index() const { return at<3>().valid(); }
+ uint64_t index() const { return at<3>().as_uint64(); }
+ bool has_offset() const { return at<4>().valid(); }
+ uint64_t offset() const { return at<4>().as_uint64(); }
+ bool has_length() const { return at<5>().valid(); }
+ uint32_t length() const { return at<5>().as_uint32(); }
+};
+
+class Ext4JournalledInvalidatepageFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4JournalledInvalidatepageFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kIndexFieldNumber = 3,
+ kOffsetFieldNumber = 4,
+ kLengthFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4JournalledInvalidatepageFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4JournalledInvalidatepageFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4JournalledInvalidatepageFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Index =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4JournalledInvalidatepageFtraceEvent>;
+
+ static constexpr FieldMetadata_Index kIndex{};
+ void set_index(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Index::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Offset =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4JournalledInvalidatepageFtraceEvent>;
+
+ static constexpr FieldMetadata_Offset kOffset{};
+ void set_offset(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Offset::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Length =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4JournalledInvalidatepageFtraceEvent>;
+
+ static constexpr FieldMetadata_Length kLength{};
+ void set_length(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Length::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4JournalStartReservedFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4JournalStartReservedFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4JournalStartReservedFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4JournalStartReservedFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ip() const { return at<2>().valid(); }
+ uint64_t ip() const { return at<2>().as_uint64(); }
+ bool has_blocks() const { return at<3>().valid(); }
+ int32_t blocks() const { return at<3>().as_int32(); }
+};
+
+class Ext4JournalStartReservedFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4JournalStartReservedFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kIpFieldNumber = 2,
+ kBlocksFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4JournalStartReservedFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4JournalStartReservedFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ip =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4JournalStartReservedFtraceEvent>;
+
+ static constexpr FieldMetadata_Ip kIp{};
+ void set_ip(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ip::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Blocks =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4JournalStartReservedFtraceEvent>;
+
+ static constexpr FieldMetadata_Blocks kBlocks{};
+ void set_blocks(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Blocks::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4JournalStartFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/6, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4JournalStartFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4JournalStartFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4JournalStartFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ip() const { return at<2>().valid(); }
+ uint64_t ip() const { return at<2>().as_uint64(); }
+ bool has_blocks() const { return at<3>().valid(); }
+ int32_t blocks() const { return at<3>().as_int32(); }
+ bool has_rsv_blocks() const { return at<4>().valid(); }
+ int32_t rsv_blocks() const { return at<4>().as_int32(); }
+ bool has_nblocks() const { return at<5>().valid(); }
+ int32_t nblocks() const { return at<5>().as_int32(); }
+ bool has_revoke_creds() const { return at<6>().valid(); }
+ int32_t revoke_creds() const { return at<6>().as_int32(); }
+};
+
+class Ext4JournalStartFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4JournalStartFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kIpFieldNumber = 2,
+ kBlocksFieldNumber = 3,
+ kRsvBlocksFieldNumber = 4,
+ kNblocksFieldNumber = 5,
+ kRevokeCredsFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4JournalStartFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4JournalStartFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ip =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4JournalStartFtraceEvent>;
+
+ static constexpr FieldMetadata_Ip kIp{};
+ void set_ip(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ip::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Blocks =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4JournalStartFtraceEvent>;
+
+ static constexpr FieldMetadata_Blocks kBlocks{};
+ void set_blocks(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Blocks::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_RsvBlocks =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4JournalStartFtraceEvent>;
+
+ static constexpr FieldMetadata_RsvBlocks kRsvBlocks{};
+ void set_rsv_blocks(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_RsvBlocks::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Nblocks =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4JournalStartFtraceEvent>;
+
+ static constexpr FieldMetadata_Nblocks kNblocks{};
+ void set_nblocks(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Nblocks::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_RevokeCreds =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4JournalStartFtraceEvent>;
+
+ static constexpr FieldMetadata_RevokeCreds kRevokeCreds{};
+ void set_revoke_creds(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_RevokeCreds::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4InvalidatepageFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4InvalidatepageFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4InvalidatepageFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4InvalidatepageFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_index() const { return at<3>().valid(); }
+ uint64_t index() const { return at<3>().as_uint64(); }
+ bool has_offset() const { return at<4>().valid(); }
+ uint64_t offset() const { return at<4>().as_uint64(); }
+ bool has_length() const { return at<5>().valid(); }
+ uint32_t length() const { return at<5>().as_uint32(); }
+};
+
+class Ext4InvalidatepageFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4InvalidatepageFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kIndexFieldNumber = 3,
+ kOffsetFieldNumber = 4,
+ kLengthFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4InvalidatepageFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4InvalidatepageFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4InvalidatepageFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Index =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4InvalidatepageFtraceEvent>;
+
+ static constexpr FieldMetadata_Index kIndex{};
+ void set_index(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Index::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Offset =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4InvalidatepageFtraceEvent>;
+
+ static constexpr FieldMetadata_Offset kOffset{};
+ void set_offset(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Offset::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Length =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4InvalidatepageFtraceEvent>;
+
+ static constexpr FieldMetadata_Length kLength{};
+ void set_length(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Length::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4InsertRangeFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4InsertRangeFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4InsertRangeFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4InsertRangeFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_offset() const { return at<3>().valid(); }
+ int64_t offset() const { return at<3>().as_int64(); }
+ bool has_len() const { return at<4>().valid(); }
+ int64_t len() const { return at<4>().as_int64(); }
+};
+
+class Ext4InsertRangeFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4InsertRangeFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kOffsetFieldNumber = 3,
+ kLenFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4InsertRangeFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4InsertRangeFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4InsertRangeFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Offset =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ Ext4InsertRangeFtraceEvent>;
+
+ static constexpr FieldMetadata_Offset kOffset{};
+ void set_offset(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Offset::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ Ext4InsertRangeFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4IndMapBlocksExitFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/8, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4IndMapBlocksExitFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4IndMapBlocksExitFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4IndMapBlocksExitFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_flags() const { return at<3>().valid(); }
+ uint32_t flags() const { return at<3>().as_uint32(); }
+ bool has_pblk() const { return at<4>().valid(); }
+ uint64_t pblk() const { return at<4>().as_uint64(); }
+ bool has_lblk() const { return at<5>().valid(); }
+ uint32_t lblk() const { return at<5>().as_uint32(); }
+ bool has_len() const { return at<6>().valid(); }
+ uint32_t len() const { return at<6>().as_uint32(); }
+ bool has_mflags() const { return at<7>().valid(); }
+ uint32_t mflags() const { return at<7>().as_uint32(); }
+ bool has_ret() const { return at<8>().valid(); }
+ int32_t ret() const { return at<8>().as_int32(); }
+};
+
+class Ext4IndMapBlocksExitFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4IndMapBlocksExitFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kFlagsFieldNumber = 3,
+ kPblkFieldNumber = 4,
+ kLblkFieldNumber = 5,
+ kLenFieldNumber = 6,
+ kMflagsFieldNumber = 7,
+ kRetFieldNumber = 8,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4IndMapBlocksExitFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4IndMapBlocksExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4IndMapBlocksExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Flags =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4IndMapBlocksExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Flags kFlags{};
+ void set_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Flags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pblk =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4IndMapBlocksExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Pblk kPblk{};
+ void set_pblk(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pblk::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Lblk =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4IndMapBlocksExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Lblk kLblk{};
+ void set_lblk(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Lblk::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4IndMapBlocksExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Mflags =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4IndMapBlocksExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Mflags kMflags{};
+ void set_mflags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Mflags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ret =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4IndMapBlocksExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Ret kRet{};
+ void set_ret(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ret::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4IndMapBlocksEnterFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4IndMapBlocksEnterFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4IndMapBlocksEnterFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4IndMapBlocksEnterFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_lblk() const { return at<3>().valid(); }
+ uint32_t lblk() const { return at<3>().as_uint32(); }
+ bool has_len() const { return at<4>().valid(); }
+ uint32_t len() const { return at<4>().as_uint32(); }
+ bool has_flags() const { return at<5>().valid(); }
+ uint32_t flags() const { return at<5>().as_uint32(); }
+};
+
+class Ext4IndMapBlocksEnterFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4IndMapBlocksEnterFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kLblkFieldNumber = 3,
+ kLenFieldNumber = 4,
+ kFlagsFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4IndMapBlocksEnterFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4IndMapBlocksEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4IndMapBlocksEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Lblk =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4IndMapBlocksEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Lblk kLblk{};
+ void set_lblk(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Lblk::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4IndMapBlocksEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Flags =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4IndMapBlocksEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Flags kFlags{};
+ void set_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Flags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4GetReservedClusterAllocFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4GetReservedClusterAllocFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4GetReservedClusterAllocFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4GetReservedClusterAllocFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_lblk() const { return at<3>().valid(); }
+ uint32_t lblk() const { return at<3>().as_uint32(); }
+ bool has_len() const { return at<4>().valid(); }
+ uint32_t len() const { return at<4>().as_uint32(); }
+};
+
+class Ext4GetReservedClusterAllocFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4GetReservedClusterAllocFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kLblkFieldNumber = 3,
+ kLenFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4GetReservedClusterAllocFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4GetReservedClusterAllocFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4GetReservedClusterAllocFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Lblk =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4GetReservedClusterAllocFtraceEvent>;
+
+ static constexpr FieldMetadata_Lblk kLblk{};
+ void set_lblk(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Lblk::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4GetReservedClusterAllocFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4GetImpliedClusterAllocExitFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/6, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4GetImpliedClusterAllocExitFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4GetImpliedClusterAllocExitFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4GetImpliedClusterAllocExitFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_flags() const { return at<2>().valid(); }
+ uint32_t flags() const { return at<2>().as_uint32(); }
+ bool has_lblk() const { return at<3>().valid(); }
+ uint32_t lblk() const { return at<3>().as_uint32(); }
+ bool has_pblk() const { return at<4>().valid(); }
+ uint64_t pblk() const { return at<4>().as_uint64(); }
+ bool has_len() const { return at<5>().valid(); }
+ uint32_t len() const { return at<5>().as_uint32(); }
+ bool has_ret() const { return at<6>().valid(); }
+ int32_t ret() const { return at<6>().as_int32(); }
+};
+
+class Ext4GetImpliedClusterAllocExitFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4GetImpliedClusterAllocExitFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kFlagsFieldNumber = 2,
+ kLblkFieldNumber = 3,
+ kPblkFieldNumber = 4,
+ kLenFieldNumber = 5,
+ kRetFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4GetImpliedClusterAllocExitFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4GetImpliedClusterAllocExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Flags =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4GetImpliedClusterAllocExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Flags kFlags{};
+ void set_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Flags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Lblk =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4GetImpliedClusterAllocExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Lblk kLblk{};
+ void set_lblk(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Lblk::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pblk =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4GetImpliedClusterAllocExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Pblk kPblk{};
+ void set_pblk(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pblk::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4GetImpliedClusterAllocExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ret =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4GetImpliedClusterAllocExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Ret kRet{};
+ void set_ret(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ret::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4FreeInodeFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/6, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4FreeInodeFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4FreeInodeFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4FreeInodeFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_uid() const { return at<3>().valid(); }
+ uint32_t uid() const { return at<3>().as_uint32(); }
+ bool has_gid() const { return at<4>().valid(); }
+ uint32_t gid() const { return at<4>().as_uint32(); }
+ bool has_blocks() const { return at<5>().valid(); }
+ uint64_t blocks() const { return at<5>().as_uint64(); }
+ bool has_mode() const { return at<6>().valid(); }
+ uint32_t mode() const { return at<6>().as_uint32(); }
+};
+
+class Ext4FreeInodeFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4FreeInodeFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kUidFieldNumber = 3,
+ kGidFieldNumber = 4,
+ kBlocksFieldNumber = 5,
+ kModeFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4FreeInodeFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4FreeInodeFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4FreeInodeFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Uid =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4FreeInodeFtraceEvent>;
+
+ static constexpr FieldMetadata_Uid kUid{};
+ void set_uid(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Uid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Gid =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4FreeInodeFtraceEvent>;
+
+ static constexpr FieldMetadata_Gid kGid{};
+ void set_gid(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Gid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Blocks =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4FreeInodeFtraceEvent>;
+
+ static constexpr FieldMetadata_Blocks kBlocks{};
+ void set_blocks(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Blocks::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Mode =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4FreeInodeFtraceEvent>;
+
+ static constexpr FieldMetadata_Mode kMode{};
+ void set_mode(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Mode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4FreeBlocksFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/6, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4FreeBlocksFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4FreeBlocksFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4FreeBlocksFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_block() const { return at<3>().valid(); }
+ uint64_t block() const { return at<3>().as_uint64(); }
+ bool has_count() const { return at<4>().valid(); }
+ uint64_t count() const { return at<4>().as_uint64(); }
+ bool has_flags() const { return at<5>().valid(); }
+ int32_t flags() const { return at<5>().as_int32(); }
+ bool has_mode() const { return at<6>().valid(); }
+ uint32_t mode() const { return at<6>().as_uint32(); }
+};
+
+class Ext4FreeBlocksFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4FreeBlocksFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kBlockFieldNumber = 3,
+ kCountFieldNumber = 4,
+ kFlagsFieldNumber = 5,
+ kModeFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4FreeBlocksFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4FreeBlocksFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4FreeBlocksFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Block =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4FreeBlocksFtraceEvent>;
+
+ static constexpr FieldMetadata_Block kBlock{};
+ void set_block(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Block::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Count =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4FreeBlocksFtraceEvent>;
+
+ static constexpr FieldMetadata_Count kCount{};
+ void set_count(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Count::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Flags =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4FreeBlocksFtraceEvent>;
+
+ static constexpr FieldMetadata_Flags kFlags{};
+ void set_flags(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Flags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Mode =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4FreeBlocksFtraceEvent>;
+
+ static constexpr FieldMetadata_Mode kMode{};
+ void set_mode(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Mode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4ForgetFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4ForgetFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4ForgetFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4ForgetFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_block() const { return at<3>().valid(); }
+ uint64_t block() const { return at<3>().as_uint64(); }
+ bool has_is_metadata() const { return at<4>().valid(); }
+ int32_t is_metadata() const { return at<4>().as_int32(); }
+ bool has_mode() const { return at<5>().valid(); }
+ uint32_t mode() const { return at<5>().as_uint32(); }
+};
+
+class Ext4ForgetFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4ForgetFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kBlockFieldNumber = 3,
+ kIsMetadataFieldNumber = 4,
+ kModeFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4ForgetFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4ForgetFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4ForgetFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Block =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4ForgetFtraceEvent>;
+
+ static constexpr FieldMetadata_Block kBlock{};
+ void set_block(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Block::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IsMetadata =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4ForgetFtraceEvent>;
+
+ static constexpr FieldMetadata_IsMetadata kIsMetadata{};
+ void set_is_metadata(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_IsMetadata::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Mode =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4ForgetFtraceEvent>;
+
+ static constexpr FieldMetadata_Mode kMode{};
+ void set_mode(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Mode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4FindDelallocRangeFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/7, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4FindDelallocRangeFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4FindDelallocRangeFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4FindDelallocRangeFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_from() const { return at<3>().valid(); }
+ uint32_t from() const { return at<3>().as_uint32(); }
+ bool has_to() const { return at<4>().valid(); }
+ uint32_t to() const { return at<4>().as_uint32(); }
+ bool has_reverse() const { return at<5>().valid(); }
+ int32_t reverse() const { return at<5>().as_int32(); }
+ bool has_found() const { return at<6>().valid(); }
+ int32_t found() const { return at<6>().as_int32(); }
+ bool has_found_blk() const { return at<7>().valid(); }
+ uint32_t found_blk() const { return at<7>().as_uint32(); }
+};
+
+class Ext4FindDelallocRangeFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4FindDelallocRangeFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kFromFieldNumber = 3,
+ kToFieldNumber = 4,
+ kReverseFieldNumber = 5,
+ kFoundFieldNumber = 6,
+ kFoundBlkFieldNumber = 7,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4FindDelallocRangeFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4FindDelallocRangeFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4FindDelallocRangeFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_From =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4FindDelallocRangeFtraceEvent>;
+
+ static constexpr FieldMetadata_From kFrom{};
+ void set_from(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_From::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_To =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4FindDelallocRangeFtraceEvent>;
+
+ static constexpr FieldMetadata_To kTo{};
+ void set_to(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_To::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Reverse =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4FindDelallocRangeFtraceEvent>;
+
+ static constexpr FieldMetadata_Reverse kReverse{};
+ void set_reverse(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Reverse::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Found =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4FindDelallocRangeFtraceEvent>;
+
+ static constexpr FieldMetadata_Found kFound{};
+ void set_found(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Found::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FoundBlk =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4FindDelallocRangeFtraceEvent>;
+
+ static constexpr FieldMetadata_FoundBlk kFoundBlk{};
+ void set_found_blk(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FoundBlk::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4FallocateExitFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4FallocateExitFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4FallocateExitFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4FallocateExitFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_pos() const { return at<3>().valid(); }
+ int64_t pos() const { return at<3>().as_int64(); }
+ bool has_blocks() const { return at<4>().valid(); }
+ uint32_t blocks() const { return at<4>().as_uint32(); }
+ bool has_ret() const { return at<5>().valid(); }
+ int32_t ret() const { return at<5>().as_int32(); }
+};
+
+class Ext4FallocateExitFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4FallocateExitFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kPosFieldNumber = 3,
+ kBlocksFieldNumber = 4,
+ kRetFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4FallocateExitFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4FallocateExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4FallocateExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pos =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ Ext4FallocateExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Pos kPos{};
+ void set_pos(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pos::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Blocks =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4FallocateExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Blocks kBlocks{};
+ void set_blocks(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Blocks::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ret =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4FallocateExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Ret kRet{};
+ void set_ret(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ret::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4FallocateEnterFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/6, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4FallocateEnterFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4FallocateEnterFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4FallocateEnterFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_offset() const { return at<3>().valid(); }
+ int64_t offset() const { return at<3>().as_int64(); }
+ bool has_len() const { return at<4>().valid(); }
+ int64_t len() const { return at<4>().as_int64(); }
+ bool has_mode() const { return at<5>().valid(); }
+ int32_t mode() const { return at<5>().as_int32(); }
+ bool has_pos() const { return at<6>().valid(); }
+ int64_t pos() const { return at<6>().as_int64(); }
+};
+
+class Ext4FallocateEnterFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4FallocateEnterFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kOffsetFieldNumber = 3,
+ kLenFieldNumber = 4,
+ kModeFieldNumber = 5,
+ kPosFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4FallocateEnterFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4FallocateEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4FallocateEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Offset =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ Ext4FallocateEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Offset kOffset{};
+ void set_offset(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Offset::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ Ext4FallocateEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Mode =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4FallocateEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Mode kMode{};
+ void set_mode(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Mode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pos =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ Ext4FallocateEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Pos kPos{};
+ void set_pos(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pos::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4ExtShowExtentFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4ExtShowExtentFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4ExtShowExtentFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4ExtShowExtentFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_pblk() const { return at<3>().valid(); }
+ uint64_t pblk() const { return at<3>().as_uint64(); }
+ bool has_lblk() const { return at<4>().valid(); }
+ uint32_t lblk() const { return at<4>().as_uint32(); }
+ bool has_len() const { return at<5>().valid(); }
+ uint32_t len() const { return at<5>().as_uint32(); }
+};
+
+class Ext4ExtShowExtentFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4ExtShowExtentFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kPblkFieldNumber = 3,
+ kLblkFieldNumber = 4,
+ kLenFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4ExtShowExtentFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4ExtShowExtentFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4ExtShowExtentFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pblk =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4ExtShowExtentFtraceEvent>;
+
+ static constexpr FieldMetadata_Pblk kPblk{};
+ void set_pblk(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pblk::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Lblk =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4ExtShowExtentFtraceEvent>;
+
+ static constexpr FieldMetadata_Lblk kLblk{};
+ void set_lblk(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Lblk::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4ExtShowExtentFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4ExtRmLeafFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/10, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4ExtRmLeafFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4ExtRmLeafFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4ExtRmLeafFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_partial() const { return at<3>().valid(); }
+ int64_t partial() const { return at<3>().as_int64(); }
+ bool has_start() const { return at<4>().valid(); }
+ uint32_t start() const { return at<4>().as_uint32(); }
+ bool has_ee_lblk() const { return at<5>().valid(); }
+ uint32_t ee_lblk() const { return at<5>().as_uint32(); }
+ bool has_ee_pblk() const { return at<6>().valid(); }
+ uint64_t ee_pblk() const { return at<6>().as_uint64(); }
+ bool has_ee_len() const { return at<7>().valid(); }
+ int32_t ee_len() const { return at<7>().as_int32(); }
+ bool has_pc_lblk() const { return at<8>().valid(); }
+ uint32_t pc_lblk() const { return at<8>().as_uint32(); }
+ bool has_pc_pclu() const { return at<9>().valid(); }
+ uint64_t pc_pclu() const { return at<9>().as_uint64(); }
+ bool has_pc_state() const { return at<10>().valid(); }
+ int32_t pc_state() const { return at<10>().as_int32(); }
+};
+
+class Ext4ExtRmLeafFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4ExtRmLeafFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kPartialFieldNumber = 3,
+ kStartFieldNumber = 4,
+ kEeLblkFieldNumber = 5,
+ kEePblkFieldNumber = 6,
+ kEeLenFieldNumber = 7,
+ kPcLblkFieldNumber = 8,
+ kPcPcluFieldNumber = 9,
+ kPcStateFieldNumber = 10,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4ExtRmLeafFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4ExtRmLeafFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4ExtRmLeafFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Partial =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ Ext4ExtRmLeafFtraceEvent>;
+
+ static constexpr FieldMetadata_Partial kPartial{};
+ void set_partial(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Partial::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Start =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4ExtRmLeafFtraceEvent>;
+
+ static constexpr FieldMetadata_Start kStart{};
+ void set_start(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Start::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_EeLblk =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4ExtRmLeafFtraceEvent>;
+
+ static constexpr FieldMetadata_EeLblk kEeLblk{};
+ void set_ee_lblk(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_EeLblk::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_EePblk =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4ExtRmLeafFtraceEvent>;
+
+ static constexpr FieldMetadata_EePblk kEePblk{};
+ void set_ee_pblk(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_EePblk::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_EeLen =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4ExtRmLeafFtraceEvent>;
+
+ static constexpr FieldMetadata_EeLen kEeLen{};
+ void set_ee_len(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_EeLen::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PcLblk =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4ExtRmLeafFtraceEvent>;
+
+ static constexpr FieldMetadata_PcLblk kPcLblk{};
+ void set_pc_lblk(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PcLblk::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PcPclu =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4ExtRmLeafFtraceEvent>;
+
+ static constexpr FieldMetadata_PcPclu kPcPclu{};
+ void set_pc_pclu(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PcPclu::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PcState =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4ExtRmLeafFtraceEvent>;
+
+ static constexpr FieldMetadata_PcState kPcState{};
+ void set_pc_state(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PcState::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4ExtRmIdxFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4ExtRmIdxFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4ExtRmIdxFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4ExtRmIdxFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_pblk() const { return at<3>().valid(); }
+ uint64_t pblk() const { return at<3>().as_uint64(); }
+};
+
+class Ext4ExtRmIdxFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4ExtRmIdxFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kPblkFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4ExtRmIdxFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4ExtRmIdxFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4ExtRmIdxFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pblk =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4ExtRmIdxFtraceEvent>;
+
+ static constexpr FieldMetadata_Pblk kPblk{};
+ void set_pblk(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pblk::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4ExtRemoveSpaceDoneFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/10, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4ExtRemoveSpaceDoneFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4ExtRemoveSpaceDoneFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4ExtRemoveSpaceDoneFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_start() const { return at<3>().valid(); }
+ uint32_t start() const { return at<3>().as_uint32(); }
+ bool has_end() const { return at<4>().valid(); }
+ uint32_t end() const { return at<4>().as_uint32(); }
+ bool has_depth() const { return at<5>().valid(); }
+ int32_t depth() const { return at<5>().as_int32(); }
+ bool has_partial() const { return at<6>().valid(); }
+ int64_t partial() const { return at<6>().as_int64(); }
+ bool has_eh_entries() const { return at<7>().valid(); }
+ uint32_t eh_entries() const { return at<7>().as_uint32(); }
+ bool has_pc_lblk() const { return at<8>().valid(); }
+ uint32_t pc_lblk() const { return at<8>().as_uint32(); }
+ bool has_pc_pclu() const { return at<9>().valid(); }
+ uint64_t pc_pclu() const { return at<9>().as_uint64(); }
+ bool has_pc_state() const { return at<10>().valid(); }
+ int32_t pc_state() const { return at<10>().as_int32(); }
+};
+
+class Ext4ExtRemoveSpaceDoneFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4ExtRemoveSpaceDoneFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kStartFieldNumber = 3,
+ kEndFieldNumber = 4,
+ kDepthFieldNumber = 5,
+ kPartialFieldNumber = 6,
+ kEhEntriesFieldNumber = 7,
+ kPcLblkFieldNumber = 8,
+ kPcPcluFieldNumber = 9,
+ kPcStateFieldNumber = 10,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4ExtRemoveSpaceDoneFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4ExtRemoveSpaceDoneFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4ExtRemoveSpaceDoneFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Start =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4ExtRemoveSpaceDoneFtraceEvent>;
+
+ static constexpr FieldMetadata_Start kStart{};
+ void set_start(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Start::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_End =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4ExtRemoveSpaceDoneFtraceEvent>;
+
+ static constexpr FieldMetadata_End kEnd{};
+ void set_end(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_End::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Depth =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4ExtRemoveSpaceDoneFtraceEvent>;
+
+ static constexpr FieldMetadata_Depth kDepth{};
+ void set_depth(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Depth::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Partial =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ Ext4ExtRemoveSpaceDoneFtraceEvent>;
+
+ static constexpr FieldMetadata_Partial kPartial{};
+ void set_partial(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Partial::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_EhEntries =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4ExtRemoveSpaceDoneFtraceEvent>;
+
+ static constexpr FieldMetadata_EhEntries kEhEntries{};
+ void set_eh_entries(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_EhEntries::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PcLblk =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4ExtRemoveSpaceDoneFtraceEvent>;
+
+ static constexpr FieldMetadata_PcLblk kPcLblk{};
+ void set_pc_lblk(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PcLblk::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PcPclu =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4ExtRemoveSpaceDoneFtraceEvent>;
+
+ static constexpr FieldMetadata_PcPclu kPcPclu{};
+ void set_pc_pclu(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PcPclu::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PcState =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4ExtRemoveSpaceDoneFtraceEvent>;
+
+ static constexpr FieldMetadata_PcState kPcState{};
+ void set_pc_state(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PcState::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4ExtRemoveSpaceFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4ExtRemoveSpaceFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4ExtRemoveSpaceFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4ExtRemoveSpaceFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_start() const { return at<3>().valid(); }
+ uint32_t start() const { return at<3>().as_uint32(); }
+ bool has_end() const { return at<4>().valid(); }
+ uint32_t end() const { return at<4>().as_uint32(); }
+ bool has_depth() const { return at<5>().valid(); }
+ int32_t depth() const { return at<5>().as_int32(); }
+};
+
+class Ext4ExtRemoveSpaceFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4ExtRemoveSpaceFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kStartFieldNumber = 3,
+ kEndFieldNumber = 4,
+ kDepthFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4ExtRemoveSpaceFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4ExtRemoveSpaceFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4ExtRemoveSpaceFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Start =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4ExtRemoveSpaceFtraceEvent>;
+
+ static constexpr FieldMetadata_Start kStart{};
+ void set_start(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Start::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_End =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4ExtRemoveSpaceFtraceEvent>;
+
+ static constexpr FieldMetadata_End kEnd{};
+ void set_end(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_End::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Depth =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4ExtRemoveSpaceFtraceEvent>;
+
+ static constexpr FieldMetadata_Depth kDepth{};
+ void set_depth(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Depth::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4ExtPutInCacheFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4ExtPutInCacheFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4ExtPutInCacheFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4ExtPutInCacheFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_lblk() const { return at<3>().valid(); }
+ uint32_t lblk() const { return at<3>().as_uint32(); }
+ bool has_len() const { return at<4>().valid(); }
+ uint32_t len() const { return at<4>().as_uint32(); }
+ bool has_start() const { return at<5>().valid(); }
+ uint64_t start() const { return at<5>().as_uint64(); }
+};
+
+class Ext4ExtPutInCacheFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4ExtPutInCacheFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kLblkFieldNumber = 3,
+ kLenFieldNumber = 4,
+ kStartFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4ExtPutInCacheFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4ExtPutInCacheFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4ExtPutInCacheFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Lblk =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4ExtPutInCacheFtraceEvent>;
+
+ static constexpr FieldMetadata_Lblk kLblk{};
+ void set_lblk(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Lblk::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4ExtPutInCacheFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Start =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4ExtPutInCacheFtraceEvent>;
+
+ static constexpr FieldMetadata_Start kStart{};
+ void set_start(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Start::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4ExtMapBlocksExitFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/8, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4ExtMapBlocksExitFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4ExtMapBlocksExitFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4ExtMapBlocksExitFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_flags() const { return at<3>().valid(); }
+ uint32_t flags() const { return at<3>().as_uint32(); }
+ bool has_pblk() const { return at<4>().valid(); }
+ uint64_t pblk() const { return at<4>().as_uint64(); }
+ bool has_lblk() const { return at<5>().valid(); }
+ uint32_t lblk() const { return at<5>().as_uint32(); }
+ bool has_len() const { return at<6>().valid(); }
+ uint32_t len() const { return at<6>().as_uint32(); }
+ bool has_mflags() const { return at<7>().valid(); }
+ uint32_t mflags() const { return at<7>().as_uint32(); }
+ bool has_ret() const { return at<8>().valid(); }
+ int32_t ret() const { return at<8>().as_int32(); }
+};
+
+class Ext4ExtMapBlocksExitFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4ExtMapBlocksExitFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kFlagsFieldNumber = 3,
+ kPblkFieldNumber = 4,
+ kLblkFieldNumber = 5,
+ kLenFieldNumber = 6,
+ kMflagsFieldNumber = 7,
+ kRetFieldNumber = 8,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4ExtMapBlocksExitFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4ExtMapBlocksExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4ExtMapBlocksExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Flags =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4ExtMapBlocksExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Flags kFlags{};
+ void set_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Flags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pblk =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4ExtMapBlocksExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Pblk kPblk{};
+ void set_pblk(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pblk::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Lblk =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4ExtMapBlocksExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Lblk kLblk{};
+ void set_lblk(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Lblk::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4ExtMapBlocksExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Mflags =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4ExtMapBlocksExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Mflags kMflags{};
+ void set_mflags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Mflags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ret =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4ExtMapBlocksExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Ret kRet{};
+ void set_ret(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ret::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4ExtMapBlocksEnterFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4ExtMapBlocksEnterFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4ExtMapBlocksEnterFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4ExtMapBlocksEnterFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_lblk() const { return at<3>().valid(); }
+ uint32_t lblk() const { return at<3>().as_uint32(); }
+ bool has_len() const { return at<4>().valid(); }
+ uint32_t len() const { return at<4>().as_uint32(); }
+ bool has_flags() const { return at<5>().valid(); }
+ uint32_t flags() const { return at<5>().as_uint32(); }
+};
+
+class Ext4ExtMapBlocksEnterFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4ExtMapBlocksEnterFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kLblkFieldNumber = 3,
+ kLenFieldNumber = 4,
+ kFlagsFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4ExtMapBlocksEnterFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4ExtMapBlocksEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4ExtMapBlocksEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Lblk =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4ExtMapBlocksEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Lblk kLblk{};
+ void set_lblk(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Lblk::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4ExtMapBlocksEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Flags =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4ExtMapBlocksEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Flags kFlags{};
+ void set_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Flags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4ExtLoadExtentFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4ExtLoadExtentFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4ExtLoadExtentFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4ExtLoadExtentFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_pblk() const { return at<3>().valid(); }
+ uint64_t pblk() const { return at<3>().as_uint64(); }
+ bool has_lblk() const { return at<4>().valid(); }
+ uint32_t lblk() const { return at<4>().as_uint32(); }
+};
+
+class Ext4ExtLoadExtentFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4ExtLoadExtentFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kPblkFieldNumber = 3,
+ kLblkFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4ExtLoadExtentFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4ExtLoadExtentFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4ExtLoadExtentFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pblk =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4ExtLoadExtentFtraceEvent>;
+
+ static constexpr FieldMetadata_Pblk kPblk{};
+ void set_pblk(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pblk::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Lblk =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4ExtLoadExtentFtraceEvent>;
+
+ static constexpr FieldMetadata_Lblk kLblk{};
+ void set_lblk(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Lblk::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4ExtInCacheFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4ExtInCacheFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4ExtInCacheFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4ExtInCacheFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_lblk() const { return at<3>().valid(); }
+ uint32_t lblk() const { return at<3>().as_uint32(); }
+ bool has_ret() const { return at<4>().valid(); }
+ int32_t ret() const { return at<4>().as_int32(); }
+};
+
+class Ext4ExtInCacheFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4ExtInCacheFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kLblkFieldNumber = 3,
+ kRetFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4ExtInCacheFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4ExtInCacheFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4ExtInCacheFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Lblk =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4ExtInCacheFtraceEvent>;
+
+ static constexpr FieldMetadata_Lblk kLblk{};
+ void set_lblk(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Lblk::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ret =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4ExtInCacheFtraceEvent>;
+
+ static constexpr FieldMetadata_Ret kRet{};
+ void set_ret(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ret::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4ExtHandleUnwrittenExtentsFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/8, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4ExtHandleUnwrittenExtentsFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4ExtHandleUnwrittenExtentsFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4ExtHandleUnwrittenExtentsFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_flags() const { return at<3>().valid(); }
+ int32_t flags() const { return at<3>().as_int32(); }
+ bool has_lblk() const { return at<4>().valid(); }
+ uint32_t lblk() const { return at<4>().as_uint32(); }
+ bool has_pblk() const { return at<5>().valid(); }
+ uint64_t pblk() const { return at<5>().as_uint64(); }
+ bool has_len() const { return at<6>().valid(); }
+ uint32_t len() const { return at<6>().as_uint32(); }
+ bool has_allocated() const { return at<7>().valid(); }
+ uint32_t allocated() const { return at<7>().as_uint32(); }
+ bool has_newblk() const { return at<8>().valid(); }
+ uint64_t newblk() const { return at<8>().as_uint64(); }
+};
+
+class Ext4ExtHandleUnwrittenExtentsFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4ExtHandleUnwrittenExtentsFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kFlagsFieldNumber = 3,
+ kLblkFieldNumber = 4,
+ kPblkFieldNumber = 5,
+ kLenFieldNumber = 6,
+ kAllocatedFieldNumber = 7,
+ kNewblkFieldNumber = 8,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4ExtHandleUnwrittenExtentsFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4ExtHandleUnwrittenExtentsFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4ExtHandleUnwrittenExtentsFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Flags =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4ExtHandleUnwrittenExtentsFtraceEvent>;
+
+ static constexpr FieldMetadata_Flags kFlags{};
+ void set_flags(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Flags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Lblk =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4ExtHandleUnwrittenExtentsFtraceEvent>;
+
+ static constexpr FieldMetadata_Lblk kLblk{};
+ void set_lblk(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Lblk::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pblk =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4ExtHandleUnwrittenExtentsFtraceEvent>;
+
+ static constexpr FieldMetadata_Pblk kPblk{};
+ void set_pblk(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pblk::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4ExtHandleUnwrittenExtentsFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Allocated =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4ExtHandleUnwrittenExtentsFtraceEvent>;
+
+ static constexpr FieldMetadata_Allocated kAllocated{};
+ void set_allocated(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Allocated::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Newblk =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4ExtHandleUnwrittenExtentsFtraceEvent>;
+
+ static constexpr FieldMetadata_Newblk kNewblk{};
+ void set_newblk(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Newblk::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4ExtConvertToInitializedFastpathFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/10, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4ExtConvertToInitializedFastpathFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4ExtConvertToInitializedFastpathFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4ExtConvertToInitializedFastpathFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_m_lblk() const { return at<3>().valid(); }
+ uint32_t m_lblk() const { return at<3>().as_uint32(); }
+ bool has_m_len() const { return at<4>().valid(); }
+ uint32_t m_len() const { return at<4>().as_uint32(); }
+ bool has_u_lblk() const { return at<5>().valid(); }
+ uint32_t u_lblk() const { return at<5>().as_uint32(); }
+ bool has_u_len() const { return at<6>().valid(); }
+ uint32_t u_len() const { return at<6>().as_uint32(); }
+ bool has_u_pblk() const { return at<7>().valid(); }
+ uint64_t u_pblk() const { return at<7>().as_uint64(); }
+ bool has_i_lblk() const { return at<8>().valid(); }
+ uint32_t i_lblk() const { return at<8>().as_uint32(); }
+ bool has_i_len() const { return at<9>().valid(); }
+ uint32_t i_len() const { return at<9>().as_uint32(); }
+ bool has_i_pblk() const { return at<10>().valid(); }
+ uint64_t i_pblk() const { return at<10>().as_uint64(); }
+};
+
+class Ext4ExtConvertToInitializedFastpathFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4ExtConvertToInitializedFastpathFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kMLblkFieldNumber = 3,
+ kMLenFieldNumber = 4,
+ kULblkFieldNumber = 5,
+ kULenFieldNumber = 6,
+ kUPblkFieldNumber = 7,
+ kILblkFieldNumber = 8,
+ kILenFieldNumber = 9,
+ kIPblkFieldNumber = 10,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4ExtConvertToInitializedFastpathFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4ExtConvertToInitializedFastpathFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4ExtConvertToInitializedFastpathFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MLblk =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4ExtConvertToInitializedFastpathFtraceEvent>;
+
+ static constexpr FieldMetadata_MLblk kMLblk{};
+ void set_m_lblk(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MLblk::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MLen =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4ExtConvertToInitializedFastpathFtraceEvent>;
+
+ static constexpr FieldMetadata_MLen kMLen{};
+ void set_m_len(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MLen::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ULblk =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4ExtConvertToInitializedFastpathFtraceEvent>;
+
+ static constexpr FieldMetadata_ULblk kULblk{};
+ void set_u_lblk(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ULblk::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ULen =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4ExtConvertToInitializedFastpathFtraceEvent>;
+
+ static constexpr FieldMetadata_ULen kULen{};
+ void set_u_len(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ULen::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_UPblk =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4ExtConvertToInitializedFastpathFtraceEvent>;
+
+ static constexpr FieldMetadata_UPblk kUPblk{};
+ void set_u_pblk(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_UPblk::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ILblk =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4ExtConvertToInitializedFastpathFtraceEvent>;
+
+ static constexpr FieldMetadata_ILblk kILblk{};
+ void set_i_lblk(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ILblk::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ILen =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4ExtConvertToInitializedFastpathFtraceEvent>;
+
+ static constexpr FieldMetadata_ILen kILen{};
+ void set_i_len(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ILen::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IPblk =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4ExtConvertToInitializedFastpathFtraceEvent>;
+
+ static constexpr FieldMetadata_IPblk kIPblk{};
+ void set_i_pblk(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_IPblk::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4ExtConvertToInitializedEnterFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/7, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4ExtConvertToInitializedEnterFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4ExtConvertToInitializedEnterFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4ExtConvertToInitializedEnterFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_m_lblk() const { return at<3>().valid(); }
+ uint32_t m_lblk() const { return at<3>().as_uint32(); }
+ bool has_m_len() const { return at<4>().valid(); }
+ uint32_t m_len() const { return at<4>().as_uint32(); }
+ bool has_u_lblk() const { return at<5>().valid(); }
+ uint32_t u_lblk() const { return at<5>().as_uint32(); }
+ bool has_u_len() const { return at<6>().valid(); }
+ uint32_t u_len() const { return at<6>().as_uint32(); }
+ bool has_u_pblk() const { return at<7>().valid(); }
+ uint64_t u_pblk() const { return at<7>().as_uint64(); }
+};
+
+class Ext4ExtConvertToInitializedEnterFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4ExtConvertToInitializedEnterFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kMLblkFieldNumber = 3,
+ kMLenFieldNumber = 4,
+ kULblkFieldNumber = 5,
+ kULenFieldNumber = 6,
+ kUPblkFieldNumber = 7,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4ExtConvertToInitializedEnterFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4ExtConvertToInitializedEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4ExtConvertToInitializedEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MLblk =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4ExtConvertToInitializedEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_MLblk kMLblk{};
+ void set_m_lblk(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MLblk::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MLen =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4ExtConvertToInitializedEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_MLen kMLen{};
+ void set_m_len(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MLen::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ULblk =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4ExtConvertToInitializedEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_ULblk kULblk{};
+ void set_u_lblk(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ULblk::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ULen =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4ExtConvertToInitializedEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_ULen kULen{};
+ void set_u_len(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ULen::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_UPblk =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4ExtConvertToInitializedEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_UPblk kUPblk{};
+ void set_u_pblk(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_UPblk::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4EvictInodeFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4EvictInodeFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4EvictInodeFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4EvictInodeFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_nlink() const { return at<3>().valid(); }
+ int32_t nlink() const { return at<3>().as_int32(); }
+};
+
+class Ext4EvictInodeFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4EvictInodeFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kNlinkFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4EvictInodeFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4EvictInodeFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4EvictInodeFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Nlink =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4EvictInodeFtraceEvent>;
+
+ static constexpr FieldMetadata_Nlink kNlink{};
+ void set_nlink(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Nlink::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4EsShrinkScanExitFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4EsShrinkScanExitFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4EsShrinkScanExitFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4EsShrinkScanExitFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_nr_shrunk() const { return at<2>().valid(); }
+ int32_t nr_shrunk() const { return at<2>().as_int32(); }
+ bool has_cache_cnt() const { return at<3>().valid(); }
+ int32_t cache_cnt() const { return at<3>().as_int32(); }
+};
+
+class Ext4EsShrinkScanExitFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4EsShrinkScanExitFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kNrShrunkFieldNumber = 2,
+ kCacheCntFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4EsShrinkScanExitFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4EsShrinkScanExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NrShrunk =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4EsShrinkScanExitFtraceEvent>;
+
+ static constexpr FieldMetadata_NrShrunk kNrShrunk{};
+ void set_nr_shrunk(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NrShrunk::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CacheCnt =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4EsShrinkScanExitFtraceEvent>;
+
+ static constexpr FieldMetadata_CacheCnt kCacheCnt{};
+ void set_cache_cnt(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CacheCnt::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4EsShrinkScanEnterFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4EsShrinkScanEnterFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4EsShrinkScanEnterFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4EsShrinkScanEnterFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_nr_to_scan() const { return at<2>().valid(); }
+ int32_t nr_to_scan() const { return at<2>().as_int32(); }
+ bool has_cache_cnt() const { return at<3>().valid(); }
+ int32_t cache_cnt() const { return at<3>().as_int32(); }
+};
+
+class Ext4EsShrinkScanEnterFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4EsShrinkScanEnterFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kNrToScanFieldNumber = 2,
+ kCacheCntFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4EsShrinkScanEnterFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4EsShrinkScanEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NrToScan =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4EsShrinkScanEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_NrToScan kNrToScan{};
+ void set_nr_to_scan(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NrToScan::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CacheCnt =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4EsShrinkScanEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_CacheCnt kCacheCnt{};
+ void set_cache_cnt(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CacheCnt::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4EsShrinkCountFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4EsShrinkCountFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4EsShrinkCountFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4EsShrinkCountFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_nr_to_scan() const { return at<2>().valid(); }
+ int32_t nr_to_scan() const { return at<2>().as_int32(); }
+ bool has_cache_cnt() const { return at<3>().valid(); }
+ int32_t cache_cnt() const { return at<3>().as_int32(); }
+};
+
+class Ext4EsShrinkCountFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4EsShrinkCountFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kNrToScanFieldNumber = 2,
+ kCacheCntFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4EsShrinkCountFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4EsShrinkCountFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NrToScan =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4EsShrinkCountFtraceEvent>;
+
+ static constexpr FieldMetadata_NrToScan kNrToScan{};
+ void set_nr_to_scan(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NrToScan::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CacheCnt =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4EsShrinkCountFtraceEvent>;
+
+ static constexpr FieldMetadata_CacheCnt kCacheCnt{};
+ void set_cache_cnt(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CacheCnt::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4EsShrinkFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4EsShrinkFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4EsShrinkFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4EsShrinkFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_nr_shrunk() const { return at<2>().valid(); }
+ int32_t nr_shrunk() const { return at<2>().as_int32(); }
+ bool has_scan_time() const { return at<3>().valid(); }
+ uint64_t scan_time() const { return at<3>().as_uint64(); }
+ bool has_nr_skipped() const { return at<4>().valid(); }
+ int32_t nr_skipped() const { return at<4>().as_int32(); }
+ bool has_retried() const { return at<5>().valid(); }
+ int32_t retried() const { return at<5>().as_int32(); }
+};
+
+class Ext4EsShrinkFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4EsShrinkFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kNrShrunkFieldNumber = 2,
+ kScanTimeFieldNumber = 3,
+ kNrSkippedFieldNumber = 4,
+ kRetriedFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4EsShrinkFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4EsShrinkFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NrShrunk =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4EsShrinkFtraceEvent>;
+
+ static constexpr FieldMetadata_NrShrunk kNrShrunk{};
+ void set_nr_shrunk(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NrShrunk::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ScanTime =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4EsShrinkFtraceEvent>;
+
+ static constexpr FieldMetadata_ScanTime kScanTime{};
+ void set_scan_time(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ScanTime::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NrSkipped =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4EsShrinkFtraceEvent>;
+
+ static constexpr FieldMetadata_NrSkipped kNrSkipped{};
+ void set_nr_skipped(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NrSkipped::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Retried =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4EsShrinkFtraceEvent>;
+
+ static constexpr FieldMetadata_Retried kRetried{};
+ void set_retried(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Retried::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4EsRemoveExtentFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4EsRemoveExtentFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4EsRemoveExtentFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4EsRemoveExtentFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_lblk() const { return at<3>().valid(); }
+ int64_t lblk() const { return at<3>().as_int64(); }
+ bool has_len() const { return at<4>().valid(); }
+ int64_t len() const { return at<4>().as_int64(); }
+};
+
+class Ext4EsRemoveExtentFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4EsRemoveExtentFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kLblkFieldNumber = 3,
+ kLenFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4EsRemoveExtentFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4EsRemoveExtentFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4EsRemoveExtentFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Lblk =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ Ext4EsRemoveExtentFtraceEvent>;
+
+ static constexpr FieldMetadata_Lblk kLblk{};
+ void set_lblk(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Lblk::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ Ext4EsRemoveExtentFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4EsLookupExtentExitFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/7, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4EsLookupExtentExitFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4EsLookupExtentExitFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4EsLookupExtentExitFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_lblk() const { return at<3>().valid(); }
+ uint32_t lblk() const { return at<3>().as_uint32(); }
+ bool has_len() const { return at<4>().valid(); }
+ uint32_t len() const { return at<4>().as_uint32(); }
+ bool has_pblk() const { return at<5>().valid(); }
+ uint64_t pblk() const { return at<5>().as_uint64(); }
+ bool has_status() const { return at<6>().valid(); }
+ uint64_t status() const { return at<6>().as_uint64(); }
+ bool has_found() const { return at<7>().valid(); }
+ int32_t found() const { return at<7>().as_int32(); }
+};
+
+class Ext4EsLookupExtentExitFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4EsLookupExtentExitFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kLblkFieldNumber = 3,
+ kLenFieldNumber = 4,
+ kPblkFieldNumber = 5,
+ kStatusFieldNumber = 6,
+ kFoundFieldNumber = 7,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4EsLookupExtentExitFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4EsLookupExtentExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4EsLookupExtentExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Lblk =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4EsLookupExtentExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Lblk kLblk{};
+ void set_lblk(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Lblk::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4EsLookupExtentExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pblk =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4EsLookupExtentExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Pblk kPblk{};
+ void set_pblk(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pblk::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Status =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4EsLookupExtentExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Status kStatus{};
+ void set_status(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Status::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Found =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4EsLookupExtentExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Found kFound{};
+ void set_found(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Found::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4EsLookupExtentEnterFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4EsLookupExtentEnterFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4EsLookupExtentEnterFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4EsLookupExtentEnterFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_lblk() const { return at<3>().valid(); }
+ uint32_t lblk() const { return at<3>().as_uint32(); }
+};
+
+class Ext4EsLookupExtentEnterFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4EsLookupExtentEnterFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kLblkFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4EsLookupExtentEnterFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4EsLookupExtentEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4EsLookupExtentEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Lblk =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4EsLookupExtentEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Lblk kLblk{};
+ void set_lblk(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Lblk::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4EsInsertExtentFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/6, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4EsInsertExtentFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4EsInsertExtentFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4EsInsertExtentFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_lblk() const { return at<3>().valid(); }
+ uint32_t lblk() const { return at<3>().as_uint32(); }
+ bool has_len() const { return at<4>().valid(); }
+ uint32_t len() const { return at<4>().as_uint32(); }
+ bool has_pblk() const { return at<5>().valid(); }
+ uint64_t pblk() const { return at<5>().as_uint64(); }
+ bool has_status() const { return at<6>().valid(); }
+ uint64_t status() const { return at<6>().as_uint64(); }
+};
+
+class Ext4EsInsertExtentFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4EsInsertExtentFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kLblkFieldNumber = 3,
+ kLenFieldNumber = 4,
+ kPblkFieldNumber = 5,
+ kStatusFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4EsInsertExtentFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4EsInsertExtentFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4EsInsertExtentFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Lblk =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4EsInsertExtentFtraceEvent>;
+
+ static constexpr FieldMetadata_Lblk kLblk{};
+ void set_lblk(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Lblk::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4EsInsertExtentFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pblk =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4EsInsertExtentFtraceEvent>;
+
+ static constexpr FieldMetadata_Pblk kPblk{};
+ void set_pblk(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pblk::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Status =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4EsInsertExtentFtraceEvent>;
+
+ static constexpr FieldMetadata_Status kStatus{};
+ void set_status(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Status::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4EsFindDelayedExtentRangeExitFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/6, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4EsFindDelayedExtentRangeExitFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4EsFindDelayedExtentRangeExitFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4EsFindDelayedExtentRangeExitFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_lblk() const { return at<3>().valid(); }
+ uint32_t lblk() const { return at<3>().as_uint32(); }
+ bool has_len() const { return at<4>().valid(); }
+ uint32_t len() const { return at<4>().as_uint32(); }
+ bool has_pblk() const { return at<5>().valid(); }
+ uint64_t pblk() const { return at<5>().as_uint64(); }
+ bool has_status() const { return at<6>().valid(); }
+ uint64_t status() const { return at<6>().as_uint64(); }
+};
+
+class Ext4EsFindDelayedExtentRangeExitFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4EsFindDelayedExtentRangeExitFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kLblkFieldNumber = 3,
+ kLenFieldNumber = 4,
+ kPblkFieldNumber = 5,
+ kStatusFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4EsFindDelayedExtentRangeExitFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4EsFindDelayedExtentRangeExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4EsFindDelayedExtentRangeExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Lblk =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4EsFindDelayedExtentRangeExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Lblk kLblk{};
+ void set_lblk(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Lblk::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4EsFindDelayedExtentRangeExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pblk =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4EsFindDelayedExtentRangeExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Pblk kPblk{};
+ void set_pblk(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pblk::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Status =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4EsFindDelayedExtentRangeExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Status kStatus{};
+ void set_status(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Status::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4EsFindDelayedExtentRangeEnterFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4EsFindDelayedExtentRangeEnterFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4EsFindDelayedExtentRangeEnterFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4EsFindDelayedExtentRangeEnterFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_lblk() const { return at<3>().valid(); }
+ uint32_t lblk() const { return at<3>().as_uint32(); }
+};
+
+class Ext4EsFindDelayedExtentRangeEnterFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4EsFindDelayedExtentRangeEnterFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kLblkFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4EsFindDelayedExtentRangeEnterFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4EsFindDelayedExtentRangeEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4EsFindDelayedExtentRangeEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Lblk =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4EsFindDelayedExtentRangeEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Lblk kLblk{};
+ void set_lblk(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Lblk::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4EsCacheExtentFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/6, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4EsCacheExtentFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4EsCacheExtentFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4EsCacheExtentFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_lblk() const { return at<3>().valid(); }
+ uint32_t lblk() const { return at<3>().as_uint32(); }
+ bool has_len() const { return at<4>().valid(); }
+ uint32_t len() const { return at<4>().as_uint32(); }
+ bool has_pblk() const { return at<5>().valid(); }
+ uint64_t pblk() const { return at<5>().as_uint64(); }
+ bool has_status() const { return at<6>().valid(); }
+ uint32_t status() const { return at<6>().as_uint32(); }
+};
+
+class Ext4EsCacheExtentFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4EsCacheExtentFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kLblkFieldNumber = 3,
+ kLenFieldNumber = 4,
+ kPblkFieldNumber = 5,
+ kStatusFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4EsCacheExtentFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4EsCacheExtentFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4EsCacheExtentFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Lblk =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4EsCacheExtentFtraceEvent>;
+
+ static constexpr FieldMetadata_Lblk kLblk{};
+ void set_lblk(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Lblk::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4EsCacheExtentFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pblk =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4EsCacheExtentFtraceEvent>;
+
+ static constexpr FieldMetadata_Pblk kPblk{};
+ void set_pblk(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pblk::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Status =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4EsCacheExtentFtraceEvent>;
+
+ static constexpr FieldMetadata_Status kStatus{};
+ void set_status(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Status::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4DropInodeFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4DropInodeFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4DropInodeFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4DropInodeFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_drop() const { return at<3>().valid(); }
+ int32_t drop() const { return at<3>().as_int32(); }
+};
+
+class Ext4DropInodeFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4DropInodeFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kDropFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4DropInodeFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4DropInodeFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4DropInodeFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Drop =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4DropInodeFtraceEvent>;
+
+ static constexpr FieldMetadata_Drop kDrop{};
+ void set_drop(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Drop::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4DiscardPreallocationsFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4DiscardPreallocationsFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4DiscardPreallocationsFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4DiscardPreallocationsFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_len() const { return at<3>().valid(); }
+ uint32_t len() const { return at<3>().as_uint32(); }
+ bool has_needed() const { return at<4>().valid(); }
+ uint32_t needed() const { return at<4>().as_uint32(); }
+};
+
+class Ext4DiscardPreallocationsFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4DiscardPreallocationsFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kLenFieldNumber = 3,
+ kNeededFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4DiscardPreallocationsFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4DiscardPreallocationsFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4DiscardPreallocationsFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4DiscardPreallocationsFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Needed =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4DiscardPreallocationsFtraceEvent>;
+
+ static constexpr FieldMetadata_Needed kNeeded{};
+ void set_needed(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Needed::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4DiscardBlocksFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4DiscardBlocksFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4DiscardBlocksFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4DiscardBlocksFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_blk() const { return at<2>().valid(); }
+ uint64_t blk() const { return at<2>().as_uint64(); }
+ bool has_count() const { return at<3>().valid(); }
+ uint64_t count() const { return at<3>().as_uint64(); }
+};
+
+class Ext4DiscardBlocksFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4DiscardBlocksFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kBlkFieldNumber = 2,
+ kCountFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4DiscardBlocksFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4DiscardBlocksFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Blk =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4DiscardBlocksFtraceEvent>;
+
+ static constexpr FieldMetadata_Blk kBlk{};
+ void set_blk(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Blk::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Count =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4DiscardBlocksFtraceEvent>;
+
+ static constexpr FieldMetadata_Count kCount{};
+ void set_count(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Count::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4DirectIOExitFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/6, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4DirectIOExitFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4DirectIOExitFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4DirectIOExitFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_pos() const { return at<3>().valid(); }
+ int64_t pos() const { return at<3>().as_int64(); }
+ bool has_len() const { return at<4>().valid(); }
+ uint64_t len() const { return at<4>().as_uint64(); }
+ bool has_rw() const { return at<5>().valid(); }
+ int32_t rw() const { return at<5>().as_int32(); }
+ bool has_ret() const { return at<6>().valid(); }
+ int32_t ret() const { return at<6>().as_int32(); }
+};
+
+class Ext4DirectIOExitFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4DirectIOExitFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kPosFieldNumber = 3,
+ kLenFieldNumber = 4,
+ kRwFieldNumber = 5,
+ kRetFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4DirectIOExitFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4DirectIOExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4DirectIOExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pos =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ Ext4DirectIOExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Pos kPos{};
+ void set_pos(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pos::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4DirectIOExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Rw =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4DirectIOExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Rw kRw{};
+ void set_rw(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Rw::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ret =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4DirectIOExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Ret kRet{};
+ void set_ret(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ret::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4DirectIOEnterFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4DirectIOEnterFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4DirectIOEnterFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4DirectIOEnterFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_pos() const { return at<3>().valid(); }
+ int64_t pos() const { return at<3>().as_int64(); }
+ bool has_len() const { return at<4>().valid(); }
+ uint64_t len() const { return at<4>().as_uint64(); }
+ bool has_rw() const { return at<5>().valid(); }
+ int32_t rw() const { return at<5>().as_int32(); }
+};
+
+class Ext4DirectIOEnterFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4DirectIOEnterFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kPosFieldNumber = 3,
+ kLenFieldNumber = 4,
+ kRwFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4DirectIOEnterFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4DirectIOEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4DirectIOEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pos =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ Ext4DirectIOEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Pos kPos{};
+ void set_pos(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pos::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4DirectIOEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Rw =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4DirectIOEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Rw kRw{};
+ void set_rw(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Rw::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4DaWritePagesExtentFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4DaWritePagesExtentFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4DaWritePagesExtentFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4DaWritePagesExtentFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_lblk() const { return at<3>().valid(); }
+ uint64_t lblk() const { return at<3>().as_uint64(); }
+ bool has_len() const { return at<4>().valid(); }
+ uint32_t len() const { return at<4>().as_uint32(); }
+ bool has_flags() const { return at<5>().valid(); }
+ uint32_t flags() const { return at<5>().as_uint32(); }
+};
+
+class Ext4DaWritePagesExtentFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4DaWritePagesExtentFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kLblkFieldNumber = 3,
+ kLenFieldNumber = 4,
+ kFlagsFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4DaWritePagesExtentFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4DaWritePagesExtentFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4DaWritePagesExtentFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Lblk =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4DaWritePagesExtentFtraceEvent>;
+
+ static constexpr FieldMetadata_Lblk kLblk{};
+ void set_lblk(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Lblk::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4DaWritePagesExtentFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Flags =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4DaWritePagesExtentFtraceEvent>;
+
+ static constexpr FieldMetadata_Flags kFlags{};
+ void set_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Flags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4DaWritePagesFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/10, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4DaWritePagesFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4DaWritePagesFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4DaWritePagesFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_first_page() const { return at<3>().valid(); }
+ uint64_t first_page() const { return at<3>().as_uint64(); }
+ bool has_nr_to_write() const { return at<4>().valid(); }
+ int64_t nr_to_write() const { return at<4>().as_int64(); }
+ bool has_sync_mode() const { return at<5>().valid(); }
+ int32_t sync_mode() const { return at<5>().as_int32(); }
+ bool has_b_blocknr() const { return at<6>().valid(); }
+ uint64_t b_blocknr() const { return at<6>().as_uint64(); }
+ bool has_b_size() const { return at<7>().valid(); }
+ uint32_t b_size() const { return at<7>().as_uint32(); }
+ bool has_b_state() const { return at<8>().valid(); }
+ uint32_t b_state() const { return at<8>().as_uint32(); }
+ bool has_io_done() const { return at<9>().valid(); }
+ int32_t io_done() const { return at<9>().as_int32(); }
+ bool has_pages_written() const { return at<10>().valid(); }
+ int32_t pages_written() const { return at<10>().as_int32(); }
+};
+
+class Ext4DaWritePagesFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4DaWritePagesFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kFirstPageFieldNumber = 3,
+ kNrToWriteFieldNumber = 4,
+ kSyncModeFieldNumber = 5,
+ kBBlocknrFieldNumber = 6,
+ kBSizeFieldNumber = 7,
+ kBStateFieldNumber = 8,
+ kIoDoneFieldNumber = 9,
+ kPagesWrittenFieldNumber = 10,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4DaWritePagesFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4DaWritePagesFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4DaWritePagesFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FirstPage =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4DaWritePagesFtraceEvent>;
+
+ static constexpr FieldMetadata_FirstPage kFirstPage{};
+ void set_first_page(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FirstPage::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NrToWrite =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ Ext4DaWritePagesFtraceEvent>;
+
+ static constexpr FieldMetadata_NrToWrite kNrToWrite{};
+ void set_nr_to_write(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NrToWrite::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SyncMode =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4DaWritePagesFtraceEvent>;
+
+ static constexpr FieldMetadata_SyncMode kSyncMode{};
+ void set_sync_mode(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SyncMode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BBlocknr =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4DaWritePagesFtraceEvent>;
+
+ static constexpr FieldMetadata_BBlocknr kBBlocknr{};
+ void set_b_blocknr(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BBlocknr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BSize =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4DaWritePagesFtraceEvent>;
+
+ static constexpr FieldMetadata_BSize kBSize{};
+ void set_b_size(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BSize::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BState =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4DaWritePagesFtraceEvent>;
+
+ static constexpr FieldMetadata_BState kBState{};
+ void set_b_state(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BState::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IoDone =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4DaWritePagesFtraceEvent>;
+
+ static constexpr FieldMetadata_IoDone kIoDone{};
+ void set_io_done(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_IoDone::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PagesWritten =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4DaWritePagesFtraceEvent>;
+
+ static constexpr FieldMetadata_PagesWritten kPagesWritten{};
+ void set_pages_written(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PagesWritten::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4DaUpdateReserveSpaceFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/9, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4DaUpdateReserveSpaceFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4DaUpdateReserveSpaceFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4DaUpdateReserveSpaceFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_i_blocks() const { return at<3>().valid(); }
+ uint64_t i_blocks() const { return at<3>().as_uint64(); }
+ bool has_used_blocks() const { return at<4>().valid(); }
+ int32_t used_blocks() const { return at<4>().as_int32(); }
+ bool has_reserved_data_blocks() const { return at<5>().valid(); }
+ int32_t reserved_data_blocks() const { return at<5>().as_int32(); }
+ bool has_reserved_meta_blocks() const { return at<6>().valid(); }
+ int32_t reserved_meta_blocks() const { return at<6>().as_int32(); }
+ bool has_allocated_meta_blocks() const { return at<7>().valid(); }
+ int32_t allocated_meta_blocks() const { return at<7>().as_int32(); }
+ bool has_quota_claim() const { return at<8>().valid(); }
+ int32_t quota_claim() const { return at<8>().as_int32(); }
+ bool has_mode() const { return at<9>().valid(); }
+ uint32_t mode() const { return at<9>().as_uint32(); }
+};
+
+class Ext4DaUpdateReserveSpaceFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4DaUpdateReserveSpaceFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kIBlocksFieldNumber = 3,
+ kUsedBlocksFieldNumber = 4,
+ kReservedDataBlocksFieldNumber = 5,
+ kReservedMetaBlocksFieldNumber = 6,
+ kAllocatedMetaBlocksFieldNumber = 7,
+ kQuotaClaimFieldNumber = 8,
+ kModeFieldNumber = 9,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4DaUpdateReserveSpaceFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4DaUpdateReserveSpaceFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4DaUpdateReserveSpaceFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IBlocks =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4DaUpdateReserveSpaceFtraceEvent>;
+
+ static constexpr FieldMetadata_IBlocks kIBlocks{};
+ void set_i_blocks(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_IBlocks::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_UsedBlocks =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4DaUpdateReserveSpaceFtraceEvent>;
+
+ static constexpr FieldMetadata_UsedBlocks kUsedBlocks{};
+ void set_used_blocks(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_UsedBlocks::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ReservedDataBlocks =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4DaUpdateReserveSpaceFtraceEvent>;
+
+ static constexpr FieldMetadata_ReservedDataBlocks kReservedDataBlocks{};
+ void set_reserved_data_blocks(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ReservedDataBlocks::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ReservedMetaBlocks =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4DaUpdateReserveSpaceFtraceEvent>;
+
+ static constexpr FieldMetadata_ReservedMetaBlocks kReservedMetaBlocks{};
+ void set_reserved_meta_blocks(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ReservedMetaBlocks::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_AllocatedMetaBlocks =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4DaUpdateReserveSpaceFtraceEvent>;
+
+ static constexpr FieldMetadata_AllocatedMetaBlocks kAllocatedMetaBlocks{};
+ void set_allocated_meta_blocks(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_AllocatedMetaBlocks::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_QuotaClaim =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4DaUpdateReserveSpaceFtraceEvent>;
+
+ static constexpr FieldMetadata_QuotaClaim kQuotaClaim{};
+ void set_quota_claim(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_QuotaClaim::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Mode =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4DaUpdateReserveSpaceFtraceEvent>;
+
+ static constexpr FieldMetadata_Mode kMode{};
+ void set_mode(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Mode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4DaReserveSpaceFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/7, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4DaReserveSpaceFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4DaReserveSpaceFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4DaReserveSpaceFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_i_blocks() const { return at<3>().valid(); }
+ uint64_t i_blocks() const { return at<3>().as_uint64(); }
+ bool has_reserved_data_blocks() const { return at<4>().valid(); }
+ int32_t reserved_data_blocks() const { return at<4>().as_int32(); }
+ bool has_reserved_meta_blocks() const { return at<5>().valid(); }
+ int32_t reserved_meta_blocks() const { return at<5>().as_int32(); }
+ bool has_mode() const { return at<6>().valid(); }
+ uint32_t mode() const { return at<6>().as_uint32(); }
+ bool has_md_needed() const { return at<7>().valid(); }
+ int32_t md_needed() const { return at<7>().as_int32(); }
+};
+
+class Ext4DaReserveSpaceFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4DaReserveSpaceFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kIBlocksFieldNumber = 3,
+ kReservedDataBlocksFieldNumber = 4,
+ kReservedMetaBlocksFieldNumber = 5,
+ kModeFieldNumber = 6,
+ kMdNeededFieldNumber = 7,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4DaReserveSpaceFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4DaReserveSpaceFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4DaReserveSpaceFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IBlocks =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4DaReserveSpaceFtraceEvent>;
+
+ static constexpr FieldMetadata_IBlocks kIBlocks{};
+ void set_i_blocks(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_IBlocks::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ReservedDataBlocks =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4DaReserveSpaceFtraceEvent>;
+
+ static constexpr FieldMetadata_ReservedDataBlocks kReservedDataBlocks{};
+ void set_reserved_data_blocks(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ReservedDataBlocks::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ReservedMetaBlocks =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4DaReserveSpaceFtraceEvent>;
+
+ static constexpr FieldMetadata_ReservedMetaBlocks kReservedMetaBlocks{};
+ void set_reserved_meta_blocks(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ReservedMetaBlocks::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Mode =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4DaReserveSpaceFtraceEvent>;
+
+ static constexpr FieldMetadata_Mode kMode{};
+ void set_mode(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Mode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MdNeeded =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4DaReserveSpaceFtraceEvent>;
+
+ static constexpr FieldMetadata_MdNeeded kMdNeeded{};
+ void set_md_needed(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MdNeeded::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4DaReleaseSpaceFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/8, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4DaReleaseSpaceFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4DaReleaseSpaceFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4DaReleaseSpaceFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_i_blocks() const { return at<3>().valid(); }
+ uint64_t i_blocks() const { return at<3>().as_uint64(); }
+ bool has_freed_blocks() const { return at<4>().valid(); }
+ int32_t freed_blocks() const { return at<4>().as_int32(); }
+ bool has_reserved_data_blocks() const { return at<5>().valid(); }
+ int32_t reserved_data_blocks() const { return at<5>().as_int32(); }
+ bool has_reserved_meta_blocks() const { return at<6>().valid(); }
+ int32_t reserved_meta_blocks() const { return at<6>().as_int32(); }
+ bool has_allocated_meta_blocks() const { return at<7>().valid(); }
+ int32_t allocated_meta_blocks() const { return at<7>().as_int32(); }
+ bool has_mode() const { return at<8>().valid(); }
+ uint32_t mode() const { return at<8>().as_uint32(); }
+};
+
+class Ext4DaReleaseSpaceFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4DaReleaseSpaceFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kIBlocksFieldNumber = 3,
+ kFreedBlocksFieldNumber = 4,
+ kReservedDataBlocksFieldNumber = 5,
+ kReservedMetaBlocksFieldNumber = 6,
+ kAllocatedMetaBlocksFieldNumber = 7,
+ kModeFieldNumber = 8,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4DaReleaseSpaceFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4DaReleaseSpaceFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4DaReleaseSpaceFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IBlocks =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4DaReleaseSpaceFtraceEvent>;
+
+ static constexpr FieldMetadata_IBlocks kIBlocks{};
+ void set_i_blocks(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_IBlocks::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FreedBlocks =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4DaReleaseSpaceFtraceEvent>;
+
+ static constexpr FieldMetadata_FreedBlocks kFreedBlocks{};
+ void set_freed_blocks(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FreedBlocks::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ReservedDataBlocks =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4DaReleaseSpaceFtraceEvent>;
+
+ static constexpr FieldMetadata_ReservedDataBlocks kReservedDataBlocks{};
+ void set_reserved_data_blocks(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ReservedDataBlocks::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ReservedMetaBlocks =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4DaReleaseSpaceFtraceEvent>;
+
+ static constexpr FieldMetadata_ReservedMetaBlocks kReservedMetaBlocks{};
+ void set_reserved_meta_blocks(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ReservedMetaBlocks::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_AllocatedMetaBlocks =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4DaReleaseSpaceFtraceEvent>;
+
+ static constexpr FieldMetadata_AllocatedMetaBlocks kAllocatedMetaBlocks{};
+ void set_allocated_meta_blocks(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_AllocatedMetaBlocks::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Mode =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4DaReleaseSpaceFtraceEvent>;
+
+ static constexpr FieldMetadata_Mode kMode{};
+ void set_mode(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Mode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4CollapseRangeFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4CollapseRangeFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4CollapseRangeFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4CollapseRangeFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_offset() const { return at<3>().valid(); }
+ int64_t offset() const { return at<3>().as_int64(); }
+ bool has_len() const { return at<4>().valid(); }
+ int64_t len() const { return at<4>().as_int64(); }
+};
+
+class Ext4CollapseRangeFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4CollapseRangeFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kOffsetFieldNumber = 3,
+ kLenFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4CollapseRangeFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4CollapseRangeFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4CollapseRangeFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Offset =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ Ext4CollapseRangeFtraceEvent>;
+
+ static constexpr FieldMetadata_Offset kOffset{};
+ void set_offset(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Offset::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ Ext4CollapseRangeFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4BeginOrderedTruncateFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4BeginOrderedTruncateFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4BeginOrderedTruncateFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4BeginOrderedTruncateFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_new_size() const { return at<3>().valid(); }
+ int64_t new_size() const { return at<3>().as_int64(); }
+};
+
+class Ext4BeginOrderedTruncateFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4BeginOrderedTruncateFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kNewSizeFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4BeginOrderedTruncateFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4BeginOrderedTruncateFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4BeginOrderedTruncateFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NewSize =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ Ext4BeginOrderedTruncateFtraceEvent>;
+
+ static constexpr FieldMetadata_NewSize kNewSize{};
+ void set_new_size(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NewSize::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4AllocateInodeFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4AllocateInodeFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4AllocateInodeFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4AllocateInodeFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_dir() const { return at<3>().valid(); }
+ uint64_t dir() const { return at<3>().as_uint64(); }
+ bool has_mode() const { return at<4>().valid(); }
+ uint32_t mode() const { return at<4>().as_uint32(); }
+};
+
+class Ext4AllocateInodeFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4AllocateInodeFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kDirFieldNumber = 3,
+ kModeFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4AllocateInodeFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4AllocateInodeFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4AllocateInodeFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Dir =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4AllocateInodeFtraceEvent>;
+
+ static constexpr FieldMetadata_Dir kDir{};
+ void set_dir(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dir::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Mode =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4AllocateInodeFtraceEvent>;
+
+ static constexpr FieldMetadata_Mode kMode{};
+ void set_mode(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Mode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4AllocateBlocksFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/11, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4AllocateBlocksFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4AllocateBlocksFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4AllocateBlocksFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_block() const { return at<3>().valid(); }
+ uint64_t block() const { return at<3>().as_uint64(); }
+ bool has_len() const { return at<4>().valid(); }
+ uint32_t len() const { return at<4>().as_uint32(); }
+ bool has_logical() const { return at<5>().valid(); }
+ uint32_t logical() const { return at<5>().as_uint32(); }
+ bool has_lleft() const { return at<6>().valid(); }
+ uint32_t lleft() const { return at<6>().as_uint32(); }
+ bool has_lright() const { return at<7>().valid(); }
+ uint32_t lright() const { return at<7>().as_uint32(); }
+ bool has_goal() const { return at<8>().valid(); }
+ uint64_t goal() const { return at<8>().as_uint64(); }
+ bool has_pleft() const { return at<9>().valid(); }
+ uint64_t pleft() const { return at<9>().as_uint64(); }
+ bool has_pright() const { return at<10>().valid(); }
+ uint64_t pright() const { return at<10>().as_uint64(); }
+ bool has_flags() const { return at<11>().valid(); }
+ uint32_t flags() const { return at<11>().as_uint32(); }
+};
+
+class Ext4AllocateBlocksFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4AllocateBlocksFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kBlockFieldNumber = 3,
+ kLenFieldNumber = 4,
+ kLogicalFieldNumber = 5,
+ kLleftFieldNumber = 6,
+ kLrightFieldNumber = 7,
+ kGoalFieldNumber = 8,
+ kPleftFieldNumber = 9,
+ kPrightFieldNumber = 10,
+ kFlagsFieldNumber = 11,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4AllocateBlocksFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4AllocateBlocksFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4AllocateBlocksFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Block =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4AllocateBlocksFtraceEvent>;
+
+ static constexpr FieldMetadata_Block kBlock{};
+ void set_block(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Block::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4AllocateBlocksFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Logical =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4AllocateBlocksFtraceEvent>;
+
+ static constexpr FieldMetadata_Logical kLogical{};
+ void set_logical(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Logical::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Lleft =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4AllocateBlocksFtraceEvent>;
+
+ static constexpr FieldMetadata_Lleft kLleft{};
+ void set_lleft(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Lleft::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Lright =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4AllocateBlocksFtraceEvent>;
+
+ static constexpr FieldMetadata_Lright kLright{};
+ void set_lright(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Lright::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Goal =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4AllocateBlocksFtraceEvent>;
+
+ static constexpr FieldMetadata_Goal kGoal{};
+ void set_goal(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Goal::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pleft =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4AllocateBlocksFtraceEvent>;
+
+ static constexpr FieldMetadata_Pleft kPleft{};
+ void set_pleft(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pleft::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pright =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4AllocateBlocksFtraceEvent>;
+
+ static constexpr FieldMetadata_Pright kPright{};
+ void set_pright(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pright::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Flags =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4AllocateBlocksFtraceEvent>;
+
+ static constexpr FieldMetadata_Flags kFlags{};
+ void set_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Flags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4AllocDaBlocksFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4AllocDaBlocksFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4AllocDaBlocksFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4AllocDaBlocksFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_data_blocks() const { return at<3>().valid(); }
+ uint32_t data_blocks() const { return at<3>().as_uint32(); }
+ bool has_meta_blocks() const { return at<4>().valid(); }
+ uint32_t meta_blocks() const { return at<4>().as_uint32(); }
+};
+
+class Ext4AllocDaBlocksFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4AllocDaBlocksFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kDataBlocksFieldNumber = 3,
+ kMetaBlocksFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4AllocDaBlocksFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4AllocDaBlocksFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4AllocDaBlocksFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DataBlocks =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4AllocDaBlocksFtraceEvent>;
+
+ static constexpr FieldMetadata_DataBlocks kDataBlocks{};
+ void set_data_blocks(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DataBlocks::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MetaBlocks =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4AllocDaBlocksFtraceEvent>;
+
+ static constexpr FieldMetadata_MetaBlocks kMetaBlocks{};
+ void set_meta_blocks(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MetaBlocks::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4SyncFileExitFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4SyncFileExitFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4SyncFileExitFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4SyncFileExitFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_ret() const { return at<3>().valid(); }
+ int32_t ret() const { return at<3>().as_int32(); }
+};
+
+class Ext4SyncFileExitFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4SyncFileExitFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kRetFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4SyncFileExitFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4SyncFileExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4SyncFileExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ret =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4SyncFileExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Ret kRet{};
+ void set_ret(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ret::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4SyncFileEnterFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4SyncFileEnterFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4SyncFileEnterFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4SyncFileEnterFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_parent() const { return at<3>().valid(); }
+ uint64_t parent() const { return at<3>().as_uint64(); }
+ bool has_datasync() const { return at<4>().valid(); }
+ int32_t datasync() const { return at<4>().as_int32(); }
+};
+
+class Ext4SyncFileEnterFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4SyncFileEnterFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kParentFieldNumber = 3,
+ kDatasyncFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4SyncFileEnterFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4SyncFileEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4SyncFileEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Parent =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4SyncFileEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Parent kParent{};
+ void set_parent(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Parent::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Datasync =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Ext4SyncFileEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Datasync kDatasync{};
+ void set_datasync(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Datasync::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4DaWriteEndFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4DaWriteEndFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4DaWriteEndFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4DaWriteEndFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_pos() const { return at<3>().valid(); }
+ int64_t pos() const { return at<3>().as_int64(); }
+ bool has_len() const { return at<4>().valid(); }
+ uint32_t len() const { return at<4>().as_uint32(); }
+ bool has_copied() const { return at<5>().valid(); }
+ uint32_t copied() const { return at<5>().as_uint32(); }
+};
+
+class Ext4DaWriteEndFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4DaWriteEndFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kPosFieldNumber = 3,
+ kLenFieldNumber = 4,
+ kCopiedFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4DaWriteEndFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4DaWriteEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4DaWriteEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pos =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ Ext4DaWriteEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Pos kPos{};
+ void set_pos(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pos::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4DaWriteEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Copied =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4DaWriteEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Copied kCopied{};
+ void set_copied(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Copied::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Ext4DaWriteBeginFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Ext4DaWriteBeginFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Ext4DaWriteBeginFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Ext4DaWriteBeginFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_pos() const { return at<3>().valid(); }
+ int64_t pos() const { return at<3>().as_int64(); }
+ bool has_len() const { return at<4>().valid(); }
+ uint32_t len() const { return at<4>().as_uint32(); }
+ bool has_flags() const { return at<5>().valid(); }
+ uint32_t flags() const { return at<5>().as_uint32(); }
+};
+
+class Ext4DaWriteBeginFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Ext4DaWriteBeginFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kPosFieldNumber = 3,
+ kLenFieldNumber = 4,
+ kFlagsFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Ext4DaWriteBeginFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4DaWriteBeginFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Ext4DaWriteBeginFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pos =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ Ext4DaWriteBeginFtraceEvent>;
+
+ static constexpr FieldMetadata_Pos kPos{};
+ void set_pos(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pos::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4DaWriteBeginFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Flags =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Ext4DaWriteBeginFtraceEvent>;
+
+ static constexpr FieldMetadata_Flags kFlags{};
+ void set_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Flags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/f2fs.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_F2FS_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_F2FS_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class F2fsGcEndFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/11, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ F2fsGcEndFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit F2fsGcEndFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit F2fsGcEndFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ret() const { return at<2>().valid(); }
+ int32_t ret() const { return at<2>().as_int32(); }
+ bool has_seg_freed() const { return at<3>().valid(); }
+ int32_t seg_freed() const { return at<3>().as_int32(); }
+ bool has_sec_freed() const { return at<4>().valid(); }
+ int32_t sec_freed() const { return at<4>().as_int32(); }
+ bool has_dirty_nodes() const { return at<5>().valid(); }
+ int64_t dirty_nodes() const { return at<5>().as_int64(); }
+ bool has_dirty_dents() const { return at<6>().valid(); }
+ int64_t dirty_dents() const { return at<6>().as_int64(); }
+ bool has_dirty_imeta() const { return at<7>().valid(); }
+ int64_t dirty_imeta() const { return at<7>().as_int64(); }
+ bool has_free_sec() const { return at<8>().valid(); }
+ uint32_t free_sec() const { return at<8>().as_uint32(); }
+ bool has_free_seg() const { return at<9>().valid(); }
+ uint32_t free_seg() const { return at<9>().as_uint32(); }
+ bool has_reserved_seg() const { return at<10>().valid(); }
+ int32_t reserved_seg() const { return at<10>().as_int32(); }
+ bool has_prefree_seg() const { return at<11>().valid(); }
+ uint32_t prefree_seg() const { return at<11>().as_uint32(); }
+};
+
+class F2fsGcEndFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = F2fsGcEndFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kRetFieldNumber = 2,
+ kSegFreedFieldNumber = 3,
+ kSecFreedFieldNumber = 4,
+ kDirtyNodesFieldNumber = 5,
+ kDirtyDentsFieldNumber = 6,
+ kDirtyImetaFieldNumber = 7,
+ kFreeSecFieldNumber = 8,
+ kFreeSegFieldNumber = 9,
+ kReservedSegFieldNumber = 10,
+ kPrefreeSegFieldNumber = 11,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.F2fsGcEndFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsGcEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ret =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ F2fsGcEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Ret kRet{};
+ void set_ret(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ret::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SegFreed =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ F2fsGcEndFtraceEvent>;
+
+ static constexpr FieldMetadata_SegFreed kSegFreed{};
+ void set_seg_freed(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SegFreed::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SecFreed =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ F2fsGcEndFtraceEvent>;
+
+ static constexpr FieldMetadata_SecFreed kSecFreed{};
+ void set_sec_freed(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SecFreed::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DirtyNodes =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ F2fsGcEndFtraceEvent>;
+
+ static constexpr FieldMetadata_DirtyNodes kDirtyNodes{};
+ void set_dirty_nodes(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DirtyNodes::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DirtyDents =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ F2fsGcEndFtraceEvent>;
+
+ static constexpr FieldMetadata_DirtyDents kDirtyDents{};
+ void set_dirty_dents(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DirtyDents::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DirtyImeta =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ F2fsGcEndFtraceEvent>;
+
+ static constexpr FieldMetadata_DirtyImeta kDirtyImeta{};
+ void set_dirty_imeta(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DirtyImeta::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FreeSec =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsGcEndFtraceEvent>;
+
+ static constexpr FieldMetadata_FreeSec kFreeSec{};
+ void set_free_sec(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FreeSec::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FreeSeg =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsGcEndFtraceEvent>;
+
+ static constexpr FieldMetadata_FreeSeg kFreeSeg{};
+ void set_free_seg(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FreeSeg::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ReservedSeg =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ F2fsGcEndFtraceEvent>;
+
+ static constexpr FieldMetadata_ReservedSeg kReservedSeg{};
+ void set_reserved_seg(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ReservedSeg::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PrefreeSeg =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsGcEndFtraceEvent>;
+
+ static constexpr FieldMetadata_PrefreeSeg kPrefreeSeg{};
+ void set_prefree_seg(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PrefreeSeg::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class F2fsGcBeginFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/13, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ F2fsGcBeginFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit F2fsGcBeginFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit F2fsGcBeginFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_sync() const { return at<2>().valid(); }
+ uint32_t sync() const { return at<2>().as_uint32(); }
+ bool has_background() const { return at<3>().valid(); }
+ uint32_t background() const { return at<3>().as_uint32(); }
+ bool has_dirty_nodes() const { return at<4>().valid(); }
+ int64_t dirty_nodes() const { return at<4>().as_int64(); }
+ bool has_dirty_dents() const { return at<5>().valid(); }
+ int64_t dirty_dents() const { return at<5>().as_int64(); }
+ bool has_dirty_imeta() const { return at<6>().valid(); }
+ int64_t dirty_imeta() const { return at<6>().as_int64(); }
+ bool has_free_sec() const { return at<7>().valid(); }
+ uint32_t free_sec() const { return at<7>().as_uint32(); }
+ bool has_free_seg() const { return at<8>().valid(); }
+ uint32_t free_seg() const { return at<8>().as_uint32(); }
+ bool has_reserved_seg() const { return at<9>().valid(); }
+ int32_t reserved_seg() const { return at<9>().as_int32(); }
+ bool has_prefree_seg() const { return at<10>().valid(); }
+ uint32_t prefree_seg() const { return at<10>().as_uint32(); }
+ bool has_gc_type() const { return at<11>().valid(); }
+ int32_t gc_type() const { return at<11>().as_int32(); }
+ bool has_no_bg_gc() const { return at<12>().valid(); }
+ uint32_t no_bg_gc() const { return at<12>().as_uint32(); }
+ bool has_nr_free_secs() const { return at<13>().valid(); }
+ uint32_t nr_free_secs() const { return at<13>().as_uint32(); }
+};
+
+class F2fsGcBeginFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = F2fsGcBeginFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kSyncFieldNumber = 2,
+ kBackgroundFieldNumber = 3,
+ kDirtyNodesFieldNumber = 4,
+ kDirtyDentsFieldNumber = 5,
+ kDirtyImetaFieldNumber = 6,
+ kFreeSecFieldNumber = 7,
+ kFreeSegFieldNumber = 8,
+ kReservedSegFieldNumber = 9,
+ kPrefreeSegFieldNumber = 10,
+ kGcTypeFieldNumber = 11,
+ kNoBgGcFieldNumber = 12,
+ kNrFreeSecsFieldNumber = 13,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.F2fsGcBeginFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsGcBeginFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Sync =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsGcBeginFtraceEvent>;
+
+ static constexpr FieldMetadata_Sync kSync{};
+ void set_sync(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Sync::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Background =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsGcBeginFtraceEvent>;
+
+ static constexpr FieldMetadata_Background kBackground{};
+ void set_background(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Background::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DirtyNodes =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ F2fsGcBeginFtraceEvent>;
+
+ static constexpr FieldMetadata_DirtyNodes kDirtyNodes{};
+ void set_dirty_nodes(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DirtyNodes::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DirtyDents =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ F2fsGcBeginFtraceEvent>;
+
+ static constexpr FieldMetadata_DirtyDents kDirtyDents{};
+ void set_dirty_dents(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DirtyDents::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DirtyImeta =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ F2fsGcBeginFtraceEvent>;
+
+ static constexpr FieldMetadata_DirtyImeta kDirtyImeta{};
+ void set_dirty_imeta(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DirtyImeta::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FreeSec =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsGcBeginFtraceEvent>;
+
+ static constexpr FieldMetadata_FreeSec kFreeSec{};
+ void set_free_sec(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FreeSec::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FreeSeg =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsGcBeginFtraceEvent>;
+
+ static constexpr FieldMetadata_FreeSeg kFreeSeg{};
+ void set_free_seg(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FreeSeg::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ReservedSeg =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ F2fsGcBeginFtraceEvent>;
+
+ static constexpr FieldMetadata_ReservedSeg kReservedSeg{};
+ void set_reserved_seg(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ReservedSeg::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PrefreeSeg =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsGcBeginFtraceEvent>;
+
+ static constexpr FieldMetadata_PrefreeSeg kPrefreeSeg{};
+ void set_prefree_seg(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PrefreeSeg::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_GcType =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ F2fsGcBeginFtraceEvent>;
+
+ static constexpr FieldMetadata_GcType kGcType{};
+ void set_gc_type(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_GcType::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NoBgGc =
+ ::protozero::proto_utils::FieldMetadata<
+ 12,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsGcBeginFtraceEvent>;
+
+ static constexpr FieldMetadata_NoBgGc kNoBgGc{};
+ void set_no_bg_gc(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NoBgGc::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NrFreeSecs =
+ ::protozero::proto_utils::FieldMetadata<
+ 13,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsGcBeginFtraceEvent>;
+
+ static constexpr FieldMetadata_NrFreeSecs kNrFreeSecs{};
+ void set_nr_free_secs(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NrFreeSecs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class F2fsBackgroundGcFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ F2fsBackgroundGcFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit F2fsBackgroundGcFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit F2fsBackgroundGcFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_wait_ms() const { return at<2>().valid(); }
+ uint32_t wait_ms() const { return at<2>().as_uint32(); }
+ bool has_prefree() const { return at<3>().valid(); }
+ uint32_t prefree() const { return at<3>().as_uint32(); }
+ bool has_free() const { return at<4>().valid(); }
+ uint32_t free() const { return at<4>().as_uint32(); }
+};
+
+class F2fsBackgroundGcFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = F2fsBackgroundGcFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kWaitMsFieldNumber = 2,
+ kPrefreeFieldNumber = 3,
+ kFreeFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.F2fsBackgroundGcFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsBackgroundGcFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_WaitMs =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsBackgroundGcFtraceEvent>;
+
+ static constexpr FieldMetadata_WaitMs kWaitMs{};
+ void set_wait_ms(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_WaitMs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Prefree =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsBackgroundGcFtraceEvent>;
+
+ static constexpr FieldMetadata_Prefree kPrefree{};
+ void set_prefree(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Prefree::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Free =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsBackgroundGcFtraceEvent>;
+
+ static constexpr FieldMetadata_Free kFree{};
+ void set_free(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Free::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class F2fsIostatLatencyFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/28, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ F2fsIostatLatencyFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit F2fsIostatLatencyFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit F2fsIostatLatencyFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_d_rd_avg() const { return at<1>().valid(); }
+ uint32_t d_rd_avg() const { return at<1>().as_uint32(); }
+ bool has_d_rd_cnt() const { return at<2>().valid(); }
+ uint32_t d_rd_cnt() const { return at<2>().as_uint32(); }
+ bool has_d_rd_peak() const { return at<3>().valid(); }
+ uint32_t d_rd_peak() const { return at<3>().as_uint32(); }
+ bool has_d_wr_as_avg() const { return at<4>().valid(); }
+ uint32_t d_wr_as_avg() const { return at<4>().as_uint32(); }
+ bool has_d_wr_as_cnt() const { return at<5>().valid(); }
+ uint32_t d_wr_as_cnt() const { return at<5>().as_uint32(); }
+ bool has_d_wr_as_peak() const { return at<6>().valid(); }
+ uint32_t d_wr_as_peak() const { return at<6>().as_uint32(); }
+ bool has_d_wr_s_avg() const { return at<7>().valid(); }
+ uint32_t d_wr_s_avg() const { return at<7>().as_uint32(); }
+ bool has_d_wr_s_cnt() const { return at<8>().valid(); }
+ uint32_t d_wr_s_cnt() const { return at<8>().as_uint32(); }
+ bool has_d_wr_s_peak() const { return at<9>().valid(); }
+ uint32_t d_wr_s_peak() const { return at<9>().as_uint32(); }
+ bool has_dev() const { return at<10>().valid(); }
+ uint64_t dev() const { return at<10>().as_uint64(); }
+ bool has_m_rd_avg() const { return at<11>().valid(); }
+ uint32_t m_rd_avg() const { return at<11>().as_uint32(); }
+ bool has_m_rd_cnt() const { return at<12>().valid(); }
+ uint32_t m_rd_cnt() const { return at<12>().as_uint32(); }
+ bool has_m_rd_peak() const { return at<13>().valid(); }
+ uint32_t m_rd_peak() const { return at<13>().as_uint32(); }
+ bool has_m_wr_as_avg() const { return at<14>().valid(); }
+ uint32_t m_wr_as_avg() const { return at<14>().as_uint32(); }
+ bool has_m_wr_as_cnt() const { return at<15>().valid(); }
+ uint32_t m_wr_as_cnt() const { return at<15>().as_uint32(); }
+ bool has_m_wr_as_peak() const { return at<16>().valid(); }
+ uint32_t m_wr_as_peak() const { return at<16>().as_uint32(); }
+ bool has_m_wr_s_avg() const { return at<17>().valid(); }
+ uint32_t m_wr_s_avg() const { return at<17>().as_uint32(); }
+ bool has_m_wr_s_cnt() const { return at<18>().valid(); }
+ uint32_t m_wr_s_cnt() const { return at<18>().as_uint32(); }
+ bool has_m_wr_s_peak() const { return at<19>().valid(); }
+ uint32_t m_wr_s_peak() const { return at<19>().as_uint32(); }
+ bool has_n_rd_avg() const { return at<20>().valid(); }
+ uint32_t n_rd_avg() const { return at<20>().as_uint32(); }
+ bool has_n_rd_cnt() const { return at<21>().valid(); }
+ uint32_t n_rd_cnt() const { return at<21>().as_uint32(); }
+ bool has_n_rd_peak() const { return at<22>().valid(); }
+ uint32_t n_rd_peak() const { return at<22>().as_uint32(); }
+ bool has_n_wr_as_avg() const { return at<23>().valid(); }
+ uint32_t n_wr_as_avg() const { return at<23>().as_uint32(); }
+ bool has_n_wr_as_cnt() const { return at<24>().valid(); }
+ uint32_t n_wr_as_cnt() const { return at<24>().as_uint32(); }
+ bool has_n_wr_as_peak() const { return at<25>().valid(); }
+ uint32_t n_wr_as_peak() const { return at<25>().as_uint32(); }
+ bool has_n_wr_s_avg() const { return at<26>().valid(); }
+ uint32_t n_wr_s_avg() const { return at<26>().as_uint32(); }
+ bool has_n_wr_s_cnt() const { return at<27>().valid(); }
+ uint32_t n_wr_s_cnt() const { return at<27>().as_uint32(); }
+ bool has_n_wr_s_peak() const { return at<28>().valid(); }
+ uint32_t n_wr_s_peak() const { return at<28>().as_uint32(); }
+};
+
+class F2fsIostatLatencyFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = F2fsIostatLatencyFtraceEvent_Decoder;
+ enum : int32_t {
+ kDRdAvgFieldNumber = 1,
+ kDRdCntFieldNumber = 2,
+ kDRdPeakFieldNumber = 3,
+ kDWrAsAvgFieldNumber = 4,
+ kDWrAsCntFieldNumber = 5,
+ kDWrAsPeakFieldNumber = 6,
+ kDWrSAvgFieldNumber = 7,
+ kDWrSCntFieldNumber = 8,
+ kDWrSPeakFieldNumber = 9,
+ kDevFieldNumber = 10,
+ kMRdAvgFieldNumber = 11,
+ kMRdCntFieldNumber = 12,
+ kMRdPeakFieldNumber = 13,
+ kMWrAsAvgFieldNumber = 14,
+ kMWrAsCntFieldNumber = 15,
+ kMWrAsPeakFieldNumber = 16,
+ kMWrSAvgFieldNumber = 17,
+ kMWrSCntFieldNumber = 18,
+ kMWrSPeakFieldNumber = 19,
+ kNRdAvgFieldNumber = 20,
+ kNRdCntFieldNumber = 21,
+ kNRdPeakFieldNumber = 22,
+ kNWrAsAvgFieldNumber = 23,
+ kNWrAsCntFieldNumber = 24,
+ kNWrAsPeakFieldNumber = 25,
+ kNWrSAvgFieldNumber = 26,
+ kNWrSCntFieldNumber = 27,
+ kNWrSPeakFieldNumber = 28,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.F2fsIostatLatencyFtraceEvent"; }
+
+
+ using FieldMetadata_DRdAvg =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsIostatLatencyFtraceEvent>;
+
+ static constexpr FieldMetadata_DRdAvg kDRdAvg{};
+ void set_d_rd_avg(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DRdAvg::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DRdCnt =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsIostatLatencyFtraceEvent>;
+
+ static constexpr FieldMetadata_DRdCnt kDRdCnt{};
+ void set_d_rd_cnt(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DRdCnt::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DRdPeak =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsIostatLatencyFtraceEvent>;
+
+ static constexpr FieldMetadata_DRdPeak kDRdPeak{};
+ void set_d_rd_peak(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DRdPeak::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DWrAsAvg =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsIostatLatencyFtraceEvent>;
+
+ static constexpr FieldMetadata_DWrAsAvg kDWrAsAvg{};
+ void set_d_wr_as_avg(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DWrAsAvg::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DWrAsCnt =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsIostatLatencyFtraceEvent>;
+
+ static constexpr FieldMetadata_DWrAsCnt kDWrAsCnt{};
+ void set_d_wr_as_cnt(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DWrAsCnt::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DWrAsPeak =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsIostatLatencyFtraceEvent>;
+
+ static constexpr FieldMetadata_DWrAsPeak kDWrAsPeak{};
+ void set_d_wr_as_peak(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DWrAsPeak::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DWrSAvg =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsIostatLatencyFtraceEvent>;
+
+ static constexpr FieldMetadata_DWrSAvg kDWrSAvg{};
+ void set_d_wr_s_avg(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DWrSAvg::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DWrSCnt =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsIostatLatencyFtraceEvent>;
+
+ static constexpr FieldMetadata_DWrSCnt kDWrSCnt{};
+ void set_d_wr_s_cnt(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DWrSCnt::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DWrSPeak =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsIostatLatencyFtraceEvent>;
+
+ static constexpr FieldMetadata_DWrSPeak kDWrSPeak{};
+ void set_d_wr_s_peak(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DWrSPeak::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsIostatLatencyFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MRdAvg =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsIostatLatencyFtraceEvent>;
+
+ static constexpr FieldMetadata_MRdAvg kMRdAvg{};
+ void set_m_rd_avg(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MRdAvg::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MRdCnt =
+ ::protozero::proto_utils::FieldMetadata<
+ 12,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsIostatLatencyFtraceEvent>;
+
+ static constexpr FieldMetadata_MRdCnt kMRdCnt{};
+ void set_m_rd_cnt(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MRdCnt::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MRdPeak =
+ ::protozero::proto_utils::FieldMetadata<
+ 13,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsIostatLatencyFtraceEvent>;
+
+ static constexpr FieldMetadata_MRdPeak kMRdPeak{};
+ void set_m_rd_peak(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MRdPeak::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MWrAsAvg =
+ ::protozero::proto_utils::FieldMetadata<
+ 14,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsIostatLatencyFtraceEvent>;
+
+ static constexpr FieldMetadata_MWrAsAvg kMWrAsAvg{};
+ void set_m_wr_as_avg(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MWrAsAvg::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MWrAsCnt =
+ ::protozero::proto_utils::FieldMetadata<
+ 15,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsIostatLatencyFtraceEvent>;
+
+ static constexpr FieldMetadata_MWrAsCnt kMWrAsCnt{};
+ void set_m_wr_as_cnt(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MWrAsCnt::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MWrAsPeak =
+ ::protozero::proto_utils::FieldMetadata<
+ 16,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsIostatLatencyFtraceEvent>;
+
+ static constexpr FieldMetadata_MWrAsPeak kMWrAsPeak{};
+ void set_m_wr_as_peak(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MWrAsPeak::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MWrSAvg =
+ ::protozero::proto_utils::FieldMetadata<
+ 17,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsIostatLatencyFtraceEvent>;
+
+ static constexpr FieldMetadata_MWrSAvg kMWrSAvg{};
+ void set_m_wr_s_avg(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MWrSAvg::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MWrSCnt =
+ ::protozero::proto_utils::FieldMetadata<
+ 18,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsIostatLatencyFtraceEvent>;
+
+ static constexpr FieldMetadata_MWrSCnt kMWrSCnt{};
+ void set_m_wr_s_cnt(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MWrSCnt::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MWrSPeak =
+ ::protozero::proto_utils::FieldMetadata<
+ 19,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsIostatLatencyFtraceEvent>;
+
+ static constexpr FieldMetadata_MWrSPeak kMWrSPeak{};
+ void set_m_wr_s_peak(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MWrSPeak::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NRdAvg =
+ ::protozero::proto_utils::FieldMetadata<
+ 20,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsIostatLatencyFtraceEvent>;
+
+ static constexpr FieldMetadata_NRdAvg kNRdAvg{};
+ void set_n_rd_avg(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NRdAvg::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NRdCnt =
+ ::protozero::proto_utils::FieldMetadata<
+ 21,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsIostatLatencyFtraceEvent>;
+
+ static constexpr FieldMetadata_NRdCnt kNRdCnt{};
+ void set_n_rd_cnt(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NRdCnt::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NRdPeak =
+ ::protozero::proto_utils::FieldMetadata<
+ 22,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsIostatLatencyFtraceEvent>;
+
+ static constexpr FieldMetadata_NRdPeak kNRdPeak{};
+ void set_n_rd_peak(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NRdPeak::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NWrAsAvg =
+ ::protozero::proto_utils::FieldMetadata<
+ 23,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsIostatLatencyFtraceEvent>;
+
+ static constexpr FieldMetadata_NWrAsAvg kNWrAsAvg{};
+ void set_n_wr_as_avg(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NWrAsAvg::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NWrAsCnt =
+ ::protozero::proto_utils::FieldMetadata<
+ 24,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsIostatLatencyFtraceEvent>;
+
+ static constexpr FieldMetadata_NWrAsCnt kNWrAsCnt{};
+ void set_n_wr_as_cnt(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NWrAsCnt::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NWrAsPeak =
+ ::protozero::proto_utils::FieldMetadata<
+ 25,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsIostatLatencyFtraceEvent>;
+
+ static constexpr FieldMetadata_NWrAsPeak kNWrAsPeak{};
+ void set_n_wr_as_peak(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NWrAsPeak::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NWrSAvg =
+ ::protozero::proto_utils::FieldMetadata<
+ 26,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsIostatLatencyFtraceEvent>;
+
+ static constexpr FieldMetadata_NWrSAvg kNWrSAvg{};
+ void set_n_wr_s_avg(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NWrSAvg::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NWrSCnt =
+ ::protozero::proto_utils::FieldMetadata<
+ 27,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsIostatLatencyFtraceEvent>;
+
+ static constexpr FieldMetadata_NWrSCnt kNWrSCnt{};
+ void set_n_wr_s_cnt(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NWrSCnt::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NWrSPeak =
+ ::protozero::proto_utils::FieldMetadata<
+ 28,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsIostatLatencyFtraceEvent>;
+
+ static constexpr FieldMetadata_NWrSPeak kNWrSPeak{};
+ void set_n_wr_s_peak(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NWrSPeak::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class F2fsIostatFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/23, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ F2fsIostatFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit F2fsIostatFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit F2fsIostatFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_app_bio() const { return at<1>().valid(); }
+ uint64_t app_bio() const { return at<1>().as_uint64(); }
+ bool has_app_brio() const { return at<2>().valid(); }
+ uint64_t app_brio() const { return at<2>().as_uint64(); }
+ bool has_app_dio() const { return at<3>().valid(); }
+ uint64_t app_dio() const { return at<3>().as_uint64(); }
+ bool has_app_drio() const { return at<4>().valid(); }
+ uint64_t app_drio() const { return at<4>().as_uint64(); }
+ bool has_app_mio() const { return at<5>().valid(); }
+ uint64_t app_mio() const { return at<5>().as_uint64(); }
+ bool has_app_mrio() const { return at<6>().valid(); }
+ uint64_t app_mrio() const { return at<6>().as_uint64(); }
+ bool has_app_rio() const { return at<7>().valid(); }
+ uint64_t app_rio() const { return at<7>().as_uint64(); }
+ bool has_app_wio() const { return at<8>().valid(); }
+ uint64_t app_wio() const { return at<8>().as_uint64(); }
+ bool has_dev() const { return at<9>().valid(); }
+ uint64_t dev() const { return at<9>().as_uint64(); }
+ bool has_fs_cdrio() const { return at<10>().valid(); }
+ uint64_t fs_cdrio() const { return at<10>().as_uint64(); }
+ bool has_fs_cp_dio() const { return at<11>().valid(); }
+ uint64_t fs_cp_dio() const { return at<11>().as_uint64(); }
+ bool has_fs_cp_mio() const { return at<12>().valid(); }
+ uint64_t fs_cp_mio() const { return at<12>().as_uint64(); }
+ bool has_fs_cp_nio() const { return at<13>().valid(); }
+ uint64_t fs_cp_nio() const { return at<13>().as_uint64(); }
+ bool has_fs_dio() const { return at<14>().valid(); }
+ uint64_t fs_dio() const { return at<14>().as_uint64(); }
+ bool has_fs_discard() const { return at<15>().valid(); }
+ uint64_t fs_discard() const { return at<15>().as_uint64(); }
+ bool has_fs_drio() const { return at<16>().valid(); }
+ uint64_t fs_drio() const { return at<16>().as_uint64(); }
+ bool has_fs_gc_dio() const { return at<17>().valid(); }
+ uint64_t fs_gc_dio() const { return at<17>().as_uint64(); }
+ bool has_fs_gc_nio() const { return at<18>().valid(); }
+ uint64_t fs_gc_nio() const { return at<18>().as_uint64(); }
+ bool has_fs_gdrio() const { return at<19>().valid(); }
+ uint64_t fs_gdrio() const { return at<19>().as_uint64(); }
+ bool has_fs_mio() const { return at<20>().valid(); }
+ uint64_t fs_mio() const { return at<20>().as_uint64(); }
+ bool has_fs_mrio() const { return at<21>().valid(); }
+ uint64_t fs_mrio() const { return at<21>().as_uint64(); }
+ bool has_fs_nio() const { return at<22>().valid(); }
+ uint64_t fs_nio() const { return at<22>().as_uint64(); }
+ bool has_fs_nrio() const { return at<23>().valid(); }
+ uint64_t fs_nrio() const { return at<23>().as_uint64(); }
+};
+
+class F2fsIostatFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = F2fsIostatFtraceEvent_Decoder;
+ enum : int32_t {
+ kAppBioFieldNumber = 1,
+ kAppBrioFieldNumber = 2,
+ kAppDioFieldNumber = 3,
+ kAppDrioFieldNumber = 4,
+ kAppMioFieldNumber = 5,
+ kAppMrioFieldNumber = 6,
+ kAppRioFieldNumber = 7,
+ kAppWioFieldNumber = 8,
+ kDevFieldNumber = 9,
+ kFsCdrioFieldNumber = 10,
+ kFsCpDioFieldNumber = 11,
+ kFsCpMioFieldNumber = 12,
+ kFsCpNioFieldNumber = 13,
+ kFsDioFieldNumber = 14,
+ kFsDiscardFieldNumber = 15,
+ kFsDrioFieldNumber = 16,
+ kFsGcDioFieldNumber = 17,
+ kFsGcNioFieldNumber = 18,
+ kFsGdrioFieldNumber = 19,
+ kFsMioFieldNumber = 20,
+ kFsMrioFieldNumber = 21,
+ kFsNioFieldNumber = 22,
+ kFsNrioFieldNumber = 23,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.F2fsIostatFtraceEvent"; }
+
+
+ using FieldMetadata_AppBio =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsIostatFtraceEvent>;
+
+ static constexpr FieldMetadata_AppBio kAppBio{};
+ void set_app_bio(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_AppBio::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_AppBrio =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsIostatFtraceEvent>;
+
+ static constexpr FieldMetadata_AppBrio kAppBrio{};
+ void set_app_brio(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_AppBrio::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_AppDio =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsIostatFtraceEvent>;
+
+ static constexpr FieldMetadata_AppDio kAppDio{};
+ void set_app_dio(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_AppDio::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_AppDrio =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsIostatFtraceEvent>;
+
+ static constexpr FieldMetadata_AppDrio kAppDrio{};
+ void set_app_drio(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_AppDrio::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_AppMio =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsIostatFtraceEvent>;
+
+ static constexpr FieldMetadata_AppMio kAppMio{};
+ void set_app_mio(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_AppMio::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_AppMrio =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsIostatFtraceEvent>;
+
+ static constexpr FieldMetadata_AppMrio kAppMrio{};
+ void set_app_mrio(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_AppMrio::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_AppRio =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsIostatFtraceEvent>;
+
+ static constexpr FieldMetadata_AppRio kAppRio{};
+ void set_app_rio(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_AppRio::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_AppWio =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsIostatFtraceEvent>;
+
+ static constexpr FieldMetadata_AppWio kAppWio{};
+ void set_app_wio(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_AppWio::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsIostatFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FsCdrio =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsIostatFtraceEvent>;
+
+ static constexpr FieldMetadata_FsCdrio kFsCdrio{};
+ void set_fs_cdrio(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FsCdrio::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FsCpDio =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsIostatFtraceEvent>;
+
+ static constexpr FieldMetadata_FsCpDio kFsCpDio{};
+ void set_fs_cp_dio(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FsCpDio::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FsCpMio =
+ ::protozero::proto_utils::FieldMetadata<
+ 12,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsIostatFtraceEvent>;
+
+ static constexpr FieldMetadata_FsCpMio kFsCpMio{};
+ void set_fs_cp_mio(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FsCpMio::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FsCpNio =
+ ::protozero::proto_utils::FieldMetadata<
+ 13,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsIostatFtraceEvent>;
+
+ static constexpr FieldMetadata_FsCpNio kFsCpNio{};
+ void set_fs_cp_nio(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FsCpNio::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FsDio =
+ ::protozero::proto_utils::FieldMetadata<
+ 14,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsIostatFtraceEvent>;
+
+ static constexpr FieldMetadata_FsDio kFsDio{};
+ void set_fs_dio(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FsDio::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FsDiscard =
+ ::protozero::proto_utils::FieldMetadata<
+ 15,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsIostatFtraceEvent>;
+
+ static constexpr FieldMetadata_FsDiscard kFsDiscard{};
+ void set_fs_discard(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FsDiscard::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FsDrio =
+ ::protozero::proto_utils::FieldMetadata<
+ 16,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsIostatFtraceEvent>;
+
+ static constexpr FieldMetadata_FsDrio kFsDrio{};
+ void set_fs_drio(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FsDrio::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FsGcDio =
+ ::protozero::proto_utils::FieldMetadata<
+ 17,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsIostatFtraceEvent>;
+
+ static constexpr FieldMetadata_FsGcDio kFsGcDio{};
+ void set_fs_gc_dio(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FsGcDio::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FsGcNio =
+ ::protozero::proto_utils::FieldMetadata<
+ 18,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsIostatFtraceEvent>;
+
+ static constexpr FieldMetadata_FsGcNio kFsGcNio{};
+ void set_fs_gc_nio(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FsGcNio::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FsGdrio =
+ ::protozero::proto_utils::FieldMetadata<
+ 19,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsIostatFtraceEvent>;
+
+ static constexpr FieldMetadata_FsGdrio kFsGdrio{};
+ void set_fs_gdrio(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FsGdrio::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FsMio =
+ ::protozero::proto_utils::FieldMetadata<
+ 20,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsIostatFtraceEvent>;
+
+ static constexpr FieldMetadata_FsMio kFsMio{};
+ void set_fs_mio(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FsMio::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FsMrio =
+ ::protozero::proto_utils::FieldMetadata<
+ 21,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsIostatFtraceEvent>;
+
+ static constexpr FieldMetadata_FsMrio kFsMrio{};
+ void set_fs_mrio(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FsMrio::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FsNio =
+ ::protozero::proto_utils::FieldMetadata<
+ 22,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsIostatFtraceEvent>;
+
+ static constexpr FieldMetadata_FsNio kFsNio{};
+ void set_fs_nio(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FsNio::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FsNrio =
+ ::protozero::proto_utils::FieldMetadata<
+ 23,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsIostatFtraceEvent>;
+
+ static constexpr FieldMetadata_FsNrio kFsNrio{};
+ void set_fs_nrio(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FsNrio::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class F2fsWriteEndFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ F2fsWriteEndFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit F2fsWriteEndFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit F2fsWriteEndFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_pos() const { return at<3>().valid(); }
+ int64_t pos() const { return at<3>().as_int64(); }
+ bool has_len() const { return at<4>().valid(); }
+ uint32_t len() const { return at<4>().as_uint32(); }
+ bool has_copied() const { return at<5>().valid(); }
+ uint32_t copied() const { return at<5>().as_uint32(); }
+};
+
+class F2fsWriteEndFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = F2fsWriteEndFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kPosFieldNumber = 3,
+ kLenFieldNumber = 4,
+ kCopiedFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.F2fsWriteEndFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsWriteEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsWriteEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pos =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ F2fsWriteEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Pos kPos{};
+ void set_pos(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pos::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsWriteEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Copied =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsWriteEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Copied kCopied{};
+ void set_copied(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Copied::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class F2fsWriteCheckpointFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ F2fsWriteCheckpointFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit F2fsWriteCheckpointFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit F2fsWriteCheckpointFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_is_umount() const { return at<2>().valid(); }
+ uint32_t is_umount() const { return at<2>().as_uint32(); }
+ bool has_msg() const { return at<3>().valid(); }
+ ::protozero::ConstChars msg() const { return at<3>().as_string(); }
+ bool has_reason() const { return at<4>().valid(); }
+ int32_t reason() const { return at<4>().as_int32(); }
+};
+
+class F2fsWriteCheckpointFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = F2fsWriteCheckpointFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kIsUmountFieldNumber = 2,
+ kMsgFieldNumber = 3,
+ kReasonFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.F2fsWriteCheckpointFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsWriteCheckpointFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IsUmount =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsWriteCheckpointFtraceEvent>;
+
+ static constexpr FieldMetadata_IsUmount kIsUmount{};
+ void set_is_umount(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_IsUmount::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Msg =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ F2fsWriteCheckpointFtraceEvent>;
+
+ static constexpr FieldMetadata_Msg kMsg{};
+ void set_msg(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Msg::kFieldId, data, size);
+ }
+ void set_msg(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Msg::kFieldId, chars.data, chars.size);
+ }
+ void set_msg(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Msg::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Reason =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ F2fsWriteCheckpointFtraceEvent>;
+
+ static constexpr FieldMetadata_Reason kReason{};
+ void set_reason(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Reason::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class F2fsWriteBeginFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ F2fsWriteBeginFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit F2fsWriteBeginFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit F2fsWriteBeginFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_pos() const { return at<3>().valid(); }
+ int64_t pos() const { return at<3>().as_int64(); }
+ bool has_len() const { return at<4>().valid(); }
+ uint32_t len() const { return at<4>().as_uint32(); }
+ bool has_flags() const { return at<5>().valid(); }
+ uint32_t flags() const { return at<5>().as_uint32(); }
+};
+
+class F2fsWriteBeginFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = F2fsWriteBeginFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kPosFieldNumber = 3,
+ kLenFieldNumber = 4,
+ kFlagsFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.F2fsWriteBeginFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsWriteBeginFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsWriteBeginFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pos =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ F2fsWriteBeginFtraceEvent>;
+
+ static constexpr FieldMetadata_Pos kPos{};
+ void set_pos(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pos::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsWriteBeginFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Flags =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsWriteBeginFtraceEvent>;
+
+ static constexpr FieldMetadata_Flags kFlags{};
+ void set_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Flags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class F2fsVmPageMkwriteFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/7, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ F2fsVmPageMkwriteFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit F2fsVmPageMkwriteFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit F2fsVmPageMkwriteFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_type() const { return at<3>().valid(); }
+ int32_t type() const { return at<3>().as_int32(); }
+ bool has_dir() const { return at<4>().valid(); }
+ int32_t dir() const { return at<4>().as_int32(); }
+ bool has_index() const { return at<5>().valid(); }
+ uint64_t index() const { return at<5>().as_uint64(); }
+ bool has_dirty() const { return at<6>().valid(); }
+ int32_t dirty() const { return at<6>().as_int32(); }
+ bool has_uptodate() const { return at<7>().valid(); }
+ int32_t uptodate() const { return at<7>().as_int32(); }
+};
+
+class F2fsVmPageMkwriteFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = F2fsVmPageMkwriteFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kTypeFieldNumber = 3,
+ kDirFieldNumber = 4,
+ kIndexFieldNumber = 5,
+ kDirtyFieldNumber = 6,
+ kUptodateFieldNumber = 7,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.F2fsVmPageMkwriteFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsVmPageMkwriteFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsVmPageMkwriteFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Type =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ F2fsVmPageMkwriteFtraceEvent>;
+
+ static constexpr FieldMetadata_Type kType{};
+ void set_type(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Type::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Dir =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ F2fsVmPageMkwriteFtraceEvent>;
+
+ static constexpr FieldMetadata_Dir kDir{};
+ void set_dir(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dir::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Index =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsVmPageMkwriteFtraceEvent>;
+
+ static constexpr FieldMetadata_Index kIndex{};
+ void set_index(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Index::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Dirty =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ F2fsVmPageMkwriteFtraceEvent>;
+
+ static constexpr FieldMetadata_Dirty kDirty{};
+ void set_dirty(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dirty::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Uptodate =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ F2fsVmPageMkwriteFtraceEvent>;
+
+ static constexpr FieldMetadata_Uptodate kUptodate{};
+ void set_uptodate(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Uptodate::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class F2fsUnlinkExitFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ F2fsUnlinkExitFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit F2fsUnlinkExitFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit F2fsUnlinkExitFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_ret() const { return at<3>().valid(); }
+ int32_t ret() const { return at<3>().as_int32(); }
+};
+
+class F2fsUnlinkExitFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = F2fsUnlinkExitFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kRetFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.F2fsUnlinkExitFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsUnlinkExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsUnlinkExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ret =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ F2fsUnlinkExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Ret kRet{};
+ void set_ret(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ret::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class F2fsUnlinkEnterFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ F2fsUnlinkEnterFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit F2fsUnlinkEnterFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit F2fsUnlinkEnterFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_size() const { return at<3>().valid(); }
+ int64_t size() const { return at<3>().as_int64(); }
+ bool has_blocks() const { return at<4>().valid(); }
+ uint64_t blocks() const { return at<4>().as_uint64(); }
+ bool has_name() const { return at<5>().valid(); }
+ ::protozero::ConstChars name() const { return at<5>().as_string(); }
+};
+
+class F2fsUnlinkEnterFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = F2fsUnlinkEnterFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kSizeFieldNumber = 3,
+ kBlocksFieldNumber = 4,
+ kNameFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.F2fsUnlinkEnterFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsUnlinkEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsUnlinkEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Size =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ F2fsUnlinkEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Size kSize{};
+ void set_size(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Size::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Blocks =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsUnlinkEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Blocks kBlocks{};
+ void set_blocks(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Blocks::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ F2fsUnlinkEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class F2fsTruncatePartialNodesFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ F2fsTruncatePartialNodesFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit F2fsTruncatePartialNodesFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit F2fsTruncatePartialNodesFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_nid() const { return at<3>().valid(); }
+ uint32_t nid() const { return at<3>().as_uint32(); }
+ bool has_depth() const { return at<4>().valid(); }
+ int32_t depth() const { return at<4>().as_int32(); }
+ bool has_err() const { return at<5>().valid(); }
+ int32_t err() const { return at<5>().as_int32(); }
+};
+
+class F2fsTruncatePartialNodesFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = F2fsTruncatePartialNodesFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kNidFieldNumber = 3,
+ kDepthFieldNumber = 4,
+ kErrFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.F2fsTruncatePartialNodesFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsTruncatePartialNodesFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsTruncatePartialNodesFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Nid =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsTruncatePartialNodesFtraceEvent>;
+
+ static constexpr FieldMetadata_Nid kNid{};
+ void set_nid(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Nid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Depth =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ F2fsTruncatePartialNodesFtraceEvent>;
+
+ static constexpr FieldMetadata_Depth kDepth{};
+ void set_depth(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Depth::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Err =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ F2fsTruncatePartialNodesFtraceEvent>;
+
+ static constexpr FieldMetadata_Err kErr{};
+ void set_err(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Err::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class F2fsTruncateNodesExitFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ F2fsTruncateNodesExitFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit F2fsTruncateNodesExitFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit F2fsTruncateNodesExitFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_ret() const { return at<3>().valid(); }
+ int32_t ret() const { return at<3>().as_int32(); }
+};
+
+class F2fsTruncateNodesExitFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = F2fsTruncateNodesExitFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kRetFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.F2fsTruncateNodesExitFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsTruncateNodesExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsTruncateNodesExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ret =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ F2fsTruncateNodesExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Ret kRet{};
+ void set_ret(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ret::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class F2fsTruncateNodesEnterFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ F2fsTruncateNodesEnterFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit F2fsTruncateNodesEnterFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit F2fsTruncateNodesEnterFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_nid() const { return at<3>().valid(); }
+ uint32_t nid() const { return at<3>().as_uint32(); }
+ bool has_blk_addr() const { return at<4>().valid(); }
+ uint32_t blk_addr() const { return at<4>().as_uint32(); }
+};
+
+class F2fsTruncateNodesEnterFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = F2fsTruncateNodesEnterFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kNidFieldNumber = 3,
+ kBlkAddrFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.F2fsTruncateNodesEnterFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsTruncateNodesEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsTruncateNodesEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Nid =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsTruncateNodesEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Nid kNid{};
+ void set_nid(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Nid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BlkAddr =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsTruncateNodesEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_BlkAddr kBlkAddr{};
+ void set_blk_addr(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BlkAddr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class F2fsTruncateNodeFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ F2fsTruncateNodeFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit F2fsTruncateNodeFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit F2fsTruncateNodeFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_nid() const { return at<3>().valid(); }
+ uint32_t nid() const { return at<3>().as_uint32(); }
+ bool has_blk_addr() const { return at<4>().valid(); }
+ uint32_t blk_addr() const { return at<4>().as_uint32(); }
+};
+
+class F2fsTruncateNodeFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = F2fsTruncateNodeFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kNidFieldNumber = 3,
+ kBlkAddrFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.F2fsTruncateNodeFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsTruncateNodeFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsTruncateNodeFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Nid =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsTruncateNodeFtraceEvent>;
+
+ static constexpr FieldMetadata_Nid kNid{};
+ void set_nid(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Nid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BlkAddr =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsTruncateNodeFtraceEvent>;
+
+ static constexpr FieldMetadata_BlkAddr kBlkAddr{};
+ void set_blk_addr(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BlkAddr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class F2fsTruncateInodeBlocksExitFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ F2fsTruncateInodeBlocksExitFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit F2fsTruncateInodeBlocksExitFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit F2fsTruncateInodeBlocksExitFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_ret() const { return at<3>().valid(); }
+ int32_t ret() const { return at<3>().as_int32(); }
+};
+
+class F2fsTruncateInodeBlocksExitFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = F2fsTruncateInodeBlocksExitFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kRetFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.F2fsTruncateInodeBlocksExitFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsTruncateInodeBlocksExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsTruncateInodeBlocksExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ret =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ F2fsTruncateInodeBlocksExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Ret kRet{};
+ void set_ret(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ret::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class F2fsTruncateInodeBlocksEnterFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ F2fsTruncateInodeBlocksEnterFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit F2fsTruncateInodeBlocksEnterFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit F2fsTruncateInodeBlocksEnterFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_size() const { return at<3>().valid(); }
+ int64_t size() const { return at<3>().as_int64(); }
+ bool has_blocks() const { return at<4>().valid(); }
+ uint64_t blocks() const { return at<4>().as_uint64(); }
+ bool has_from() const { return at<5>().valid(); }
+ uint64_t from() const { return at<5>().as_uint64(); }
+};
+
+class F2fsTruncateInodeBlocksEnterFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = F2fsTruncateInodeBlocksEnterFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kSizeFieldNumber = 3,
+ kBlocksFieldNumber = 4,
+ kFromFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.F2fsTruncateInodeBlocksEnterFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsTruncateInodeBlocksEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsTruncateInodeBlocksEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Size =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ F2fsTruncateInodeBlocksEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Size kSize{};
+ void set_size(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Size::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Blocks =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsTruncateInodeBlocksEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Blocks kBlocks{};
+ void set_blocks(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Blocks::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_From =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsTruncateInodeBlocksEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_From kFrom{};
+ void set_from(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_From::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class F2fsTruncateDataBlocksRangeFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ F2fsTruncateDataBlocksRangeFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit F2fsTruncateDataBlocksRangeFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit F2fsTruncateDataBlocksRangeFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_nid() const { return at<3>().valid(); }
+ uint32_t nid() const { return at<3>().as_uint32(); }
+ bool has_ofs() const { return at<4>().valid(); }
+ uint32_t ofs() const { return at<4>().as_uint32(); }
+ bool has_free() const { return at<5>().valid(); }
+ int32_t free() const { return at<5>().as_int32(); }
+};
+
+class F2fsTruncateDataBlocksRangeFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = F2fsTruncateDataBlocksRangeFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kNidFieldNumber = 3,
+ kOfsFieldNumber = 4,
+ kFreeFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.F2fsTruncateDataBlocksRangeFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsTruncateDataBlocksRangeFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsTruncateDataBlocksRangeFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Nid =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsTruncateDataBlocksRangeFtraceEvent>;
+
+ static constexpr FieldMetadata_Nid kNid{};
+ void set_nid(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Nid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ofs =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsTruncateDataBlocksRangeFtraceEvent>;
+
+ static constexpr FieldMetadata_Ofs kOfs{};
+ void set_ofs(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ofs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Free =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ F2fsTruncateDataBlocksRangeFtraceEvent>;
+
+ static constexpr FieldMetadata_Free kFree{};
+ void set_free(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Free::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class F2fsTruncateBlocksExitFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ F2fsTruncateBlocksExitFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit F2fsTruncateBlocksExitFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit F2fsTruncateBlocksExitFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_ret() const { return at<3>().valid(); }
+ int32_t ret() const { return at<3>().as_int32(); }
+};
+
+class F2fsTruncateBlocksExitFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = F2fsTruncateBlocksExitFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kRetFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.F2fsTruncateBlocksExitFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsTruncateBlocksExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsTruncateBlocksExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ret =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ F2fsTruncateBlocksExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Ret kRet{};
+ void set_ret(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ret::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class F2fsTruncateBlocksEnterFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ F2fsTruncateBlocksEnterFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit F2fsTruncateBlocksEnterFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit F2fsTruncateBlocksEnterFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_size() const { return at<3>().valid(); }
+ int64_t size() const { return at<3>().as_int64(); }
+ bool has_blocks() const { return at<4>().valid(); }
+ uint64_t blocks() const { return at<4>().as_uint64(); }
+ bool has_from() const { return at<5>().valid(); }
+ uint64_t from() const { return at<5>().as_uint64(); }
+};
+
+class F2fsTruncateBlocksEnterFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = F2fsTruncateBlocksEnterFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kSizeFieldNumber = 3,
+ kBlocksFieldNumber = 4,
+ kFromFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.F2fsTruncateBlocksEnterFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsTruncateBlocksEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsTruncateBlocksEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Size =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ F2fsTruncateBlocksEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Size kSize{};
+ void set_size(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Size::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Blocks =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsTruncateBlocksEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Blocks kBlocks{};
+ void set_blocks(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Blocks::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_From =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsTruncateBlocksEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_From kFrom{};
+ void set_from(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_From::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class F2fsTruncateFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/8, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ F2fsTruncateFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit F2fsTruncateFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit F2fsTruncateFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_pino() const { return at<3>().valid(); }
+ uint64_t pino() const { return at<3>().as_uint64(); }
+ bool has_mode() const { return at<4>().valid(); }
+ uint32_t mode() const { return at<4>().as_uint32(); }
+ bool has_size() const { return at<5>().valid(); }
+ int64_t size() const { return at<5>().as_int64(); }
+ bool has_nlink() const { return at<6>().valid(); }
+ uint32_t nlink() const { return at<6>().as_uint32(); }
+ bool has_blocks() const { return at<7>().valid(); }
+ uint64_t blocks() const { return at<7>().as_uint64(); }
+ bool has_advise() const { return at<8>().valid(); }
+ uint32_t advise() const { return at<8>().as_uint32(); }
+};
+
+class F2fsTruncateFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = F2fsTruncateFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kPinoFieldNumber = 3,
+ kModeFieldNumber = 4,
+ kSizeFieldNumber = 5,
+ kNlinkFieldNumber = 6,
+ kBlocksFieldNumber = 7,
+ kAdviseFieldNumber = 8,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.F2fsTruncateFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsTruncateFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsTruncateFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pino =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsTruncateFtraceEvent>;
+
+ static constexpr FieldMetadata_Pino kPino{};
+ void set_pino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Mode =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsTruncateFtraceEvent>;
+
+ static constexpr FieldMetadata_Mode kMode{};
+ void set_mode(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Mode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Size =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ F2fsTruncateFtraceEvent>;
+
+ static constexpr FieldMetadata_Size kSize{};
+ void set_size(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Size::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Nlink =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsTruncateFtraceEvent>;
+
+ static constexpr FieldMetadata_Nlink kNlink{};
+ void set_nlink(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Nlink::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Blocks =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsTruncateFtraceEvent>;
+
+ static constexpr FieldMetadata_Blocks kBlocks{};
+ void set_blocks(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Blocks::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Advise =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsTruncateFtraceEvent>;
+
+ static constexpr FieldMetadata_Advise kAdvise{};
+ void set_advise(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Advise::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class F2fsSyncFsFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ F2fsSyncFsFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit F2fsSyncFsFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit F2fsSyncFsFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_dirty() const { return at<2>().valid(); }
+ int32_t dirty() const { return at<2>().as_int32(); }
+ bool has_wait() const { return at<3>().valid(); }
+ int32_t wait() const { return at<3>().as_int32(); }
+};
+
+class F2fsSyncFsFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = F2fsSyncFsFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kDirtyFieldNumber = 2,
+ kWaitFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.F2fsSyncFsFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsSyncFsFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Dirty =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ F2fsSyncFsFtraceEvent>;
+
+ static constexpr FieldMetadata_Dirty kDirty{};
+ void set_dirty(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dirty::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Wait =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ F2fsSyncFsFtraceEvent>;
+
+ static constexpr FieldMetadata_Wait kWait{};
+ void set_wait(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Wait::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class F2fsSyncFileExitFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/6, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ F2fsSyncFileExitFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit F2fsSyncFileExitFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit F2fsSyncFileExitFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_need_cp() const { return at<3>().valid(); }
+ uint32_t need_cp() const { return at<3>().as_uint32(); }
+ bool has_datasync() const { return at<4>().valid(); }
+ int32_t datasync() const { return at<4>().as_int32(); }
+ bool has_ret() const { return at<5>().valid(); }
+ int32_t ret() const { return at<5>().as_int32(); }
+ bool has_cp_reason() const { return at<6>().valid(); }
+ int32_t cp_reason() const { return at<6>().as_int32(); }
+};
+
+class F2fsSyncFileExitFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = F2fsSyncFileExitFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kNeedCpFieldNumber = 3,
+ kDatasyncFieldNumber = 4,
+ kRetFieldNumber = 5,
+ kCpReasonFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.F2fsSyncFileExitFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsSyncFileExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsSyncFileExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NeedCp =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsSyncFileExitFtraceEvent>;
+
+ static constexpr FieldMetadata_NeedCp kNeedCp{};
+ void set_need_cp(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NeedCp::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Datasync =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ F2fsSyncFileExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Datasync kDatasync{};
+ void set_datasync(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Datasync::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ret =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ F2fsSyncFileExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Ret kRet{};
+ void set_ret(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ret::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CpReason =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ F2fsSyncFileExitFtraceEvent>;
+
+ static constexpr FieldMetadata_CpReason kCpReason{};
+ void set_cp_reason(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CpReason::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class F2fsSyncFileEnterFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/8, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ F2fsSyncFileEnterFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit F2fsSyncFileEnterFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit F2fsSyncFileEnterFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_pino() const { return at<3>().valid(); }
+ uint64_t pino() const { return at<3>().as_uint64(); }
+ bool has_mode() const { return at<4>().valid(); }
+ uint32_t mode() const { return at<4>().as_uint32(); }
+ bool has_size() const { return at<5>().valid(); }
+ int64_t size() const { return at<5>().as_int64(); }
+ bool has_nlink() const { return at<6>().valid(); }
+ uint32_t nlink() const { return at<6>().as_uint32(); }
+ bool has_blocks() const { return at<7>().valid(); }
+ uint64_t blocks() const { return at<7>().as_uint64(); }
+ bool has_advise() const { return at<8>().valid(); }
+ uint32_t advise() const { return at<8>().as_uint32(); }
+};
+
+class F2fsSyncFileEnterFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = F2fsSyncFileEnterFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kPinoFieldNumber = 3,
+ kModeFieldNumber = 4,
+ kSizeFieldNumber = 5,
+ kNlinkFieldNumber = 6,
+ kBlocksFieldNumber = 7,
+ kAdviseFieldNumber = 8,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.F2fsSyncFileEnterFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsSyncFileEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsSyncFileEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pino =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsSyncFileEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Pino kPino{};
+ void set_pino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Mode =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsSyncFileEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Mode kMode{};
+ void set_mode(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Mode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Size =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ F2fsSyncFileEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Size kSize{};
+ void set_size(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Size::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Nlink =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsSyncFileEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Nlink kNlink{};
+ void set_nlink(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Nlink::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Blocks =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsSyncFileEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Blocks kBlocks{};
+ void set_blocks(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Blocks::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Advise =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsSyncFileEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Advise kAdvise{};
+ void set_advise(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Advise::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class F2fsSubmitWritePageFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ F2fsSubmitWritePageFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit F2fsSubmitWritePageFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit F2fsSubmitWritePageFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_type() const { return at<3>().valid(); }
+ int32_t type() const { return at<3>().as_int32(); }
+ bool has_index() const { return at<4>().valid(); }
+ uint64_t index() const { return at<4>().as_uint64(); }
+ bool has_block() const { return at<5>().valid(); }
+ uint32_t block() const { return at<5>().as_uint32(); }
+};
+
+class F2fsSubmitWritePageFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = F2fsSubmitWritePageFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kTypeFieldNumber = 3,
+ kIndexFieldNumber = 4,
+ kBlockFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.F2fsSubmitWritePageFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsSubmitWritePageFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsSubmitWritePageFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Type =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ F2fsSubmitWritePageFtraceEvent>;
+
+ static constexpr FieldMetadata_Type kType{};
+ void set_type(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Type::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Index =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsSubmitWritePageFtraceEvent>;
+
+ static constexpr FieldMetadata_Index kIndex{};
+ void set_index(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Index::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Block =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsSubmitWritePageFtraceEvent>;
+
+ static constexpr FieldMetadata_Block kBlock{};
+ void set_block(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Block::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class F2fsSetPageDirtyFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/7, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ F2fsSetPageDirtyFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit F2fsSetPageDirtyFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit F2fsSetPageDirtyFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_type() const { return at<3>().valid(); }
+ int32_t type() const { return at<3>().as_int32(); }
+ bool has_dir() const { return at<4>().valid(); }
+ int32_t dir() const { return at<4>().as_int32(); }
+ bool has_index() const { return at<5>().valid(); }
+ uint64_t index() const { return at<5>().as_uint64(); }
+ bool has_dirty() const { return at<6>().valid(); }
+ int32_t dirty() const { return at<6>().as_int32(); }
+ bool has_uptodate() const { return at<7>().valid(); }
+ int32_t uptodate() const { return at<7>().as_int32(); }
+};
+
+class F2fsSetPageDirtyFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = F2fsSetPageDirtyFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kTypeFieldNumber = 3,
+ kDirFieldNumber = 4,
+ kIndexFieldNumber = 5,
+ kDirtyFieldNumber = 6,
+ kUptodateFieldNumber = 7,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.F2fsSetPageDirtyFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsSetPageDirtyFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsSetPageDirtyFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Type =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ F2fsSetPageDirtyFtraceEvent>;
+
+ static constexpr FieldMetadata_Type kType{};
+ void set_type(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Type::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Dir =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ F2fsSetPageDirtyFtraceEvent>;
+
+ static constexpr FieldMetadata_Dir kDir{};
+ void set_dir(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dir::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Index =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsSetPageDirtyFtraceEvent>;
+
+ static constexpr FieldMetadata_Index kIndex{};
+ void set_index(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Index::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Dirty =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ F2fsSetPageDirtyFtraceEvent>;
+
+ static constexpr FieldMetadata_Dirty kDirty{};
+ void set_dirty(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dirty::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Uptodate =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ F2fsSetPageDirtyFtraceEvent>;
+
+ static constexpr FieldMetadata_Uptodate kUptodate{};
+ void set_uptodate(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Uptodate::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class F2fsReserveNewBlockFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ F2fsReserveNewBlockFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit F2fsReserveNewBlockFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit F2fsReserveNewBlockFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_nid() const { return at<2>().valid(); }
+ uint32_t nid() const { return at<2>().as_uint32(); }
+ bool has_ofs_in_node() const { return at<3>().valid(); }
+ uint32_t ofs_in_node() const { return at<3>().as_uint32(); }
+};
+
+class F2fsReserveNewBlockFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = F2fsReserveNewBlockFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kNidFieldNumber = 2,
+ kOfsInNodeFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.F2fsReserveNewBlockFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsReserveNewBlockFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Nid =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsReserveNewBlockFtraceEvent>;
+
+ static constexpr FieldMetadata_Nid kNid{};
+ void set_nid(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Nid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_OfsInNode =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsReserveNewBlockFtraceEvent>;
+
+ static constexpr FieldMetadata_OfsInNode kOfsInNode{};
+ void set_ofs_in_node(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_OfsInNode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class F2fsReadpageFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/8, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ F2fsReadpageFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit F2fsReadpageFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit F2fsReadpageFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_index() const { return at<3>().valid(); }
+ uint64_t index() const { return at<3>().as_uint64(); }
+ bool has_blkaddr() const { return at<4>().valid(); }
+ uint64_t blkaddr() const { return at<4>().as_uint64(); }
+ bool has_type() const { return at<5>().valid(); }
+ int32_t type() const { return at<5>().as_int32(); }
+ bool has_dir() const { return at<6>().valid(); }
+ int32_t dir() const { return at<6>().as_int32(); }
+ bool has_dirty() const { return at<7>().valid(); }
+ int32_t dirty() const { return at<7>().as_int32(); }
+ bool has_uptodate() const { return at<8>().valid(); }
+ int32_t uptodate() const { return at<8>().as_int32(); }
+};
+
+class F2fsReadpageFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = F2fsReadpageFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kIndexFieldNumber = 3,
+ kBlkaddrFieldNumber = 4,
+ kTypeFieldNumber = 5,
+ kDirFieldNumber = 6,
+ kDirtyFieldNumber = 7,
+ kUptodateFieldNumber = 8,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.F2fsReadpageFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsReadpageFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsReadpageFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Index =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsReadpageFtraceEvent>;
+
+ static constexpr FieldMetadata_Index kIndex{};
+ void set_index(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Index::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Blkaddr =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsReadpageFtraceEvent>;
+
+ static constexpr FieldMetadata_Blkaddr kBlkaddr{};
+ void set_blkaddr(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Blkaddr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Type =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ F2fsReadpageFtraceEvent>;
+
+ static constexpr FieldMetadata_Type kType{};
+ void set_type(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Type::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Dir =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ F2fsReadpageFtraceEvent>;
+
+ static constexpr FieldMetadata_Dir kDir{};
+ void set_dir(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dir::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Dirty =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ F2fsReadpageFtraceEvent>;
+
+ static constexpr FieldMetadata_Dirty kDirty{};
+ void set_dirty(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dirty::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Uptodate =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ F2fsReadpageFtraceEvent>;
+
+ static constexpr FieldMetadata_Uptodate kUptodate{};
+ void set_uptodate(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Uptodate::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class F2fsNewInodeFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ F2fsNewInodeFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit F2fsNewInodeFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit F2fsNewInodeFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_ret() const { return at<3>().valid(); }
+ int32_t ret() const { return at<3>().as_int32(); }
+};
+
+class F2fsNewInodeFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = F2fsNewInodeFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kRetFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.F2fsNewInodeFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsNewInodeFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsNewInodeFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ret =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ F2fsNewInodeFtraceEvent>;
+
+ static constexpr FieldMetadata_Ret kRet{};
+ void set_ret(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ret::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class F2fsIgetExitFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ F2fsIgetExitFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit F2fsIgetExitFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit F2fsIgetExitFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_ret() const { return at<3>().valid(); }
+ int32_t ret() const { return at<3>().as_int32(); }
+};
+
+class F2fsIgetExitFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = F2fsIgetExitFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kRetFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.F2fsIgetExitFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsIgetExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsIgetExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ret =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ F2fsIgetExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Ret kRet{};
+ void set_ret(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ret::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class F2fsIgetFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/8, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ F2fsIgetFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit F2fsIgetFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit F2fsIgetFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_pino() const { return at<3>().valid(); }
+ uint64_t pino() const { return at<3>().as_uint64(); }
+ bool has_mode() const { return at<4>().valid(); }
+ uint32_t mode() const { return at<4>().as_uint32(); }
+ bool has_size() const { return at<5>().valid(); }
+ int64_t size() const { return at<5>().as_int64(); }
+ bool has_nlink() const { return at<6>().valid(); }
+ uint32_t nlink() const { return at<6>().as_uint32(); }
+ bool has_blocks() const { return at<7>().valid(); }
+ uint64_t blocks() const { return at<7>().as_uint64(); }
+ bool has_advise() const { return at<8>().valid(); }
+ uint32_t advise() const { return at<8>().as_uint32(); }
+};
+
+class F2fsIgetFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = F2fsIgetFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kPinoFieldNumber = 3,
+ kModeFieldNumber = 4,
+ kSizeFieldNumber = 5,
+ kNlinkFieldNumber = 6,
+ kBlocksFieldNumber = 7,
+ kAdviseFieldNumber = 8,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.F2fsIgetFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsIgetFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsIgetFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pino =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsIgetFtraceEvent>;
+
+ static constexpr FieldMetadata_Pino kPino{};
+ void set_pino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Mode =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsIgetFtraceEvent>;
+
+ static constexpr FieldMetadata_Mode kMode{};
+ void set_mode(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Mode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Size =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ F2fsIgetFtraceEvent>;
+
+ static constexpr FieldMetadata_Size kSize{};
+ void set_size(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Size::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Nlink =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsIgetFtraceEvent>;
+
+ static constexpr FieldMetadata_Nlink kNlink{};
+ void set_nlink(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Nlink::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Blocks =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsIgetFtraceEvent>;
+
+ static constexpr FieldMetadata_Blocks kBlocks{};
+ void set_blocks(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Blocks::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Advise =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsIgetFtraceEvent>;
+
+ static constexpr FieldMetadata_Advise kAdvise{};
+ void set_advise(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Advise::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class F2fsGetVictimFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/11, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ F2fsGetVictimFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit F2fsGetVictimFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit F2fsGetVictimFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_type() const { return at<2>().valid(); }
+ int32_t type() const { return at<2>().as_int32(); }
+ bool has_gc_type() const { return at<3>().valid(); }
+ int32_t gc_type() const { return at<3>().as_int32(); }
+ bool has_alloc_mode() const { return at<4>().valid(); }
+ int32_t alloc_mode() const { return at<4>().as_int32(); }
+ bool has_gc_mode() const { return at<5>().valid(); }
+ int32_t gc_mode() const { return at<5>().as_int32(); }
+ bool has_victim() const { return at<6>().valid(); }
+ uint32_t victim() const { return at<6>().as_uint32(); }
+ bool has_ofs_unit() const { return at<7>().valid(); }
+ uint32_t ofs_unit() const { return at<7>().as_uint32(); }
+ bool has_pre_victim() const { return at<8>().valid(); }
+ uint32_t pre_victim() const { return at<8>().as_uint32(); }
+ bool has_prefree() const { return at<9>().valid(); }
+ uint32_t prefree() const { return at<9>().as_uint32(); }
+ bool has_free() const { return at<10>().valid(); }
+ uint32_t free() const { return at<10>().as_uint32(); }
+ bool has_cost() const { return at<11>().valid(); }
+ uint32_t cost() const { return at<11>().as_uint32(); }
+};
+
+class F2fsGetVictimFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = F2fsGetVictimFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kTypeFieldNumber = 2,
+ kGcTypeFieldNumber = 3,
+ kAllocModeFieldNumber = 4,
+ kGcModeFieldNumber = 5,
+ kVictimFieldNumber = 6,
+ kOfsUnitFieldNumber = 7,
+ kPreVictimFieldNumber = 8,
+ kPrefreeFieldNumber = 9,
+ kFreeFieldNumber = 10,
+ kCostFieldNumber = 11,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.F2fsGetVictimFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsGetVictimFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Type =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ F2fsGetVictimFtraceEvent>;
+
+ static constexpr FieldMetadata_Type kType{};
+ void set_type(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Type::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_GcType =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ F2fsGetVictimFtraceEvent>;
+
+ static constexpr FieldMetadata_GcType kGcType{};
+ void set_gc_type(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_GcType::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_AllocMode =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ F2fsGetVictimFtraceEvent>;
+
+ static constexpr FieldMetadata_AllocMode kAllocMode{};
+ void set_alloc_mode(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_AllocMode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_GcMode =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ F2fsGetVictimFtraceEvent>;
+
+ static constexpr FieldMetadata_GcMode kGcMode{};
+ void set_gc_mode(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_GcMode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Victim =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsGetVictimFtraceEvent>;
+
+ static constexpr FieldMetadata_Victim kVictim{};
+ void set_victim(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Victim::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_OfsUnit =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsGetVictimFtraceEvent>;
+
+ static constexpr FieldMetadata_OfsUnit kOfsUnit{};
+ void set_ofs_unit(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_OfsUnit::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PreVictim =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsGetVictimFtraceEvent>;
+
+ static constexpr FieldMetadata_PreVictim kPreVictim{};
+ void set_pre_victim(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PreVictim::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Prefree =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsGetVictimFtraceEvent>;
+
+ static constexpr FieldMetadata_Prefree kPrefree{};
+ void set_prefree(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Prefree::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Free =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsGetVictimFtraceEvent>;
+
+ static constexpr FieldMetadata_Free kFree{};
+ void set_free(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Free::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Cost =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsGetVictimFtraceEvent>;
+
+ static constexpr FieldMetadata_Cost kCost{};
+ void set_cost(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Cost::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class F2fsGetDataBlockFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/6, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ F2fsGetDataBlockFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit F2fsGetDataBlockFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit F2fsGetDataBlockFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_iblock() const { return at<3>().valid(); }
+ uint64_t iblock() const { return at<3>().as_uint64(); }
+ bool has_bh_start() const { return at<4>().valid(); }
+ uint64_t bh_start() const { return at<4>().as_uint64(); }
+ bool has_bh_size() const { return at<5>().valid(); }
+ uint64_t bh_size() const { return at<5>().as_uint64(); }
+ bool has_ret() const { return at<6>().valid(); }
+ int32_t ret() const { return at<6>().as_int32(); }
+};
+
+class F2fsGetDataBlockFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = F2fsGetDataBlockFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kIblockFieldNumber = 3,
+ kBhStartFieldNumber = 4,
+ kBhSizeFieldNumber = 5,
+ kRetFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.F2fsGetDataBlockFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsGetDataBlockFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsGetDataBlockFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Iblock =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsGetDataBlockFtraceEvent>;
+
+ static constexpr FieldMetadata_Iblock kIblock{};
+ void set_iblock(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Iblock::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BhStart =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsGetDataBlockFtraceEvent>;
+
+ static constexpr FieldMetadata_BhStart kBhStart{};
+ void set_bh_start(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BhStart::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BhSize =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsGetDataBlockFtraceEvent>;
+
+ static constexpr FieldMetadata_BhSize kBhSize{};
+ void set_bh_size(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BhSize::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ret =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ F2fsGetDataBlockFtraceEvent>;
+
+ static constexpr FieldMetadata_Ret kRet{};
+ void set_ret(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ret::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class F2fsFallocateFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/8, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ F2fsFallocateFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit F2fsFallocateFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit F2fsFallocateFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_mode() const { return at<3>().valid(); }
+ int32_t mode() const { return at<3>().as_int32(); }
+ bool has_offset() const { return at<4>().valid(); }
+ int64_t offset() const { return at<4>().as_int64(); }
+ bool has_len() const { return at<5>().valid(); }
+ int64_t len() const { return at<5>().as_int64(); }
+ bool has_size() const { return at<6>().valid(); }
+ int64_t size() const { return at<6>().as_int64(); }
+ bool has_blocks() const { return at<7>().valid(); }
+ uint64_t blocks() const { return at<7>().as_uint64(); }
+ bool has_ret() const { return at<8>().valid(); }
+ int32_t ret() const { return at<8>().as_int32(); }
+};
+
+class F2fsFallocateFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = F2fsFallocateFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kModeFieldNumber = 3,
+ kOffsetFieldNumber = 4,
+ kLenFieldNumber = 5,
+ kSizeFieldNumber = 6,
+ kBlocksFieldNumber = 7,
+ kRetFieldNumber = 8,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.F2fsFallocateFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsFallocateFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsFallocateFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Mode =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ F2fsFallocateFtraceEvent>;
+
+ static constexpr FieldMetadata_Mode kMode{};
+ void set_mode(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Mode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Offset =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ F2fsFallocateFtraceEvent>;
+
+ static constexpr FieldMetadata_Offset kOffset{};
+ void set_offset(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Offset::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ F2fsFallocateFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Size =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ F2fsFallocateFtraceEvent>;
+
+ static constexpr FieldMetadata_Size kSize{};
+ void set_size(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Size::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Blocks =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsFallocateFtraceEvent>;
+
+ static constexpr FieldMetadata_Blocks kBlocks{};
+ void set_blocks(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Blocks::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ret =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ F2fsFallocateFtraceEvent>;
+
+ static constexpr FieldMetadata_Ret kRet{};
+ void set_ret(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ret::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class F2fsEvictInodeFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/8, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ F2fsEvictInodeFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit F2fsEvictInodeFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit F2fsEvictInodeFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_ino() const { return at<2>().valid(); }
+ uint64_t ino() const { return at<2>().as_uint64(); }
+ bool has_pino() const { return at<3>().valid(); }
+ uint64_t pino() const { return at<3>().as_uint64(); }
+ bool has_mode() const { return at<4>().valid(); }
+ uint32_t mode() const { return at<4>().as_uint32(); }
+ bool has_size() const { return at<5>().valid(); }
+ int64_t size() const { return at<5>().as_int64(); }
+ bool has_nlink() const { return at<6>().valid(); }
+ uint32_t nlink() const { return at<6>().as_uint32(); }
+ bool has_blocks() const { return at<7>().valid(); }
+ uint64_t blocks() const { return at<7>().as_uint64(); }
+ bool has_advise() const { return at<8>().valid(); }
+ uint32_t advise() const { return at<8>().as_uint32(); }
+};
+
+class F2fsEvictInodeFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = F2fsEvictInodeFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kInoFieldNumber = 2,
+ kPinoFieldNumber = 3,
+ kModeFieldNumber = 4,
+ kSizeFieldNumber = 5,
+ kNlinkFieldNumber = 6,
+ kBlocksFieldNumber = 7,
+ kAdviseFieldNumber = 8,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.F2fsEvictInodeFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsEvictInodeFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ino =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsEvictInodeFtraceEvent>;
+
+ static constexpr FieldMetadata_Ino kIno{};
+ void set_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pino =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsEvictInodeFtraceEvent>;
+
+ static constexpr FieldMetadata_Pino kPino{};
+ void set_pino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pino::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Mode =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsEvictInodeFtraceEvent>;
+
+ static constexpr FieldMetadata_Mode kMode{};
+ void set_mode(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Mode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Size =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ F2fsEvictInodeFtraceEvent>;
+
+ static constexpr FieldMetadata_Size kSize{};
+ void set_size(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Size::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Nlink =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsEvictInodeFtraceEvent>;
+
+ static constexpr FieldMetadata_Nlink kNlink{};
+ void set_nlink(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Nlink::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Blocks =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsEvictInodeFtraceEvent>;
+
+ static constexpr FieldMetadata_Blocks kBlocks{};
+ void set_blocks(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Blocks::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Advise =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsEvictInodeFtraceEvent>;
+
+ static constexpr FieldMetadata_Advise kAdvise{};
+ void set_advise(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Advise::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class F2fsDoSubmitBioFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ F2fsDoSubmitBioFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit F2fsDoSubmitBioFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit F2fsDoSubmitBioFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev() const { return at<1>().valid(); }
+ uint64_t dev() const { return at<1>().as_uint64(); }
+ bool has_btype() const { return at<2>().valid(); }
+ int32_t btype() const { return at<2>().as_int32(); }
+ bool has_sync() const { return at<3>().valid(); }
+ uint32_t sync() const { return at<3>().as_uint32(); }
+ bool has_sector() const { return at<4>().valid(); }
+ uint64_t sector() const { return at<4>().as_uint64(); }
+ bool has_size() const { return at<5>().valid(); }
+ uint32_t size() const { return at<5>().as_uint32(); }
+};
+
+class F2fsDoSubmitBioFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = F2fsDoSubmitBioFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevFieldNumber = 1,
+ kBtypeFieldNumber = 2,
+ kSyncFieldNumber = 3,
+ kSectorFieldNumber = 4,
+ kSizeFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.F2fsDoSubmitBioFtraceEvent"; }
+
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsDoSubmitBioFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Btype =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ F2fsDoSubmitBioFtraceEvent>;
+
+ static constexpr FieldMetadata_Btype kBtype{};
+ void set_btype(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Btype::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Sync =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsDoSubmitBioFtraceEvent>;
+
+ static constexpr FieldMetadata_Sync kSync{};
+ void set_sync(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Sync::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Sector =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ F2fsDoSubmitBioFtraceEvent>;
+
+ static constexpr FieldMetadata_Sector kSector{};
+ void set_sector(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Sector::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Size =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ F2fsDoSubmitBioFtraceEvent>;
+
+ static constexpr FieldMetadata_Size kSize{};
+ void set_size(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Size::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/fastrpc.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_FASTRPC_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_FASTRPC_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class FastrpcDmaStatFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ FastrpcDmaStatFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit FastrpcDmaStatFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit FastrpcDmaStatFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_cid() const { return at<1>().valid(); }
+ int32_t cid() const { return at<1>().as_int32(); }
+ bool has_len() const { return at<2>().valid(); }
+ int64_t len() const { return at<2>().as_int64(); }
+ bool has_total_allocated() const { return at<3>().valid(); }
+ uint64_t total_allocated() const { return at<3>().as_uint64(); }
+};
+
+class FastrpcDmaStatFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = FastrpcDmaStatFtraceEvent_Decoder;
+ enum : int32_t {
+ kCidFieldNumber = 1,
+ kLenFieldNumber = 2,
+ kTotalAllocatedFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.FastrpcDmaStatFtraceEvent"; }
+
+
+ using FieldMetadata_Cid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ FastrpcDmaStatFtraceEvent>;
+
+ static constexpr FieldMetadata_Cid kCid{};
+ void set_cid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Cid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ FastrpcDmaStatFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TotalAllocated =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ FastrpcDmaStatFtraceEvent>;
+
+ static constexpr FieldMetadata_TotalAllocated kTotalAllocated{};
+ void set_total_allocated(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TotalAllocated::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/fence.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_FENCE_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_FENCE_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class FenceSignaledFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ FenceSignaledFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit FenceSignaledFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit FenceSignaledFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_context() const { return at<1>().valid(); }
+ uint32_t context() const { return at<1>().as_uint32(); }
+ bool has_driver() const { return at<2>().valid(); }
+ ::protozero::ConstChars driver() const { return at<2>().as_string(); }
+ bool has_seqno() const { return at<3>().valid(); }
+ uint32_t seqno() const { return at<3>().as_uint32(); }
+ bool has_timeline() const { return at<4>().valid(); }
+ ::protozero::ConstChars timeline() const { return at<4>().as_string(); }
+};
+
+class FenceSignaledFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = FenceSignaledFtraceEvent_Decoder;
+ enum : int32_t {
+ kContextFieldNumber = 1,
+ kDriverFieldNumber = 2,
+ kSeqnoFieldNumber = 3,
+ kTimelineFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.FenceSignaledFtraceEvent"; }
+
+
+ using FieldMetadata_Context =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ FenceSignaledFtraceEvent>;
+
+ static constexpr FieldMetadata_Context kContext{};
+ void set_context(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Context::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Driver =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ FenceSignaledFtraceEvent>;
+
+ static constexpr FieldMetadata_Driver kDriver{};
+ void set_driver(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Driver::kFieldId, data, size);
+ }
+ void set_driver(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Driver::kFieldId, chars.data, chars.size);
+ }
+ void set_driver(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Driver::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Seqno =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ FenceSignaledFtraceEvent>;
+
+ static constexpr FieldMetadata_Seqno kSeqno{};
+ void set_seqno(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Seqno::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Timeline =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ FenceSignaledFtraceEvent>;
+
+ static constexpr FieldMetadata_Timeline kTimeline{};
+ void set_timeline(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Timeline::kFieldId, data, size);
+ }
+ void set_timeline(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Timeline::kFieldId, chars.data, chars.size);
+ }
+ void set_timeline(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Timeline::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class FenceEnableSignalFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ FenceEnableSignalFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit FenceEnableSignalFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit FenceEnableSignalFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_context() const { return at<1>().valid(); }
+ uint32_t context() const { return at<1>().as_uint32(); }
+ bool has_driver() const { return at<2>().valid(); }
+ ::protozero::ConstChars driver() const { return at<2>().as_string(); }
+ bool has_seqno() const { return at<3>().valid(); }
+ uint32_t seqno() const { return at<3>().as_uint32(); }
+ bool has_timeline() const { return at<4>().valid(); }
+ ::protozero::ConstChars timeline() const { return at<4>().as_string(); }
+};
+
+class FenceEnableSignalFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = FenceEnableSignalFtraceEvent_Decoder;
+ enum : int32_t {
+ kContextFieldNumber = 1,
+ kDriverFieldNumber = 2,
+ kSeqnoFieldNumber = 3,
+ kTimelineFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.FenceEnableSignalFtraceEvent"; }
+
+
+ using FieldMetadata_Context =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ FenceEnableSignalFtraceEvent>;
+
+ static constexpr FieldMetadata_Context kContext{};
+ void set_context(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Context::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Driver =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ FenceEnableSignalFtraceEvent>;
+
+ static constexpr FieldMetadata_Driver kDriver{};
+ void set_driver(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Driver::kFieldId, data, size);
+ }
+ void set_driver(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Driver::kFieldId, chars.data, chars.size);
+ }
+ void set_driver(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Driver::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Seqno =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ FenceEnableSignalFtraceEvent>;
+
+ static constexpr FieldMetadata_Seqno kSeqno{};
+ void set_seqno(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Seqno::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Timeline =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ FenceEnableSignalFtraceEvent>;
+
+ static constexpr FieldMetadata_Timeline kTimeline{};
+ void set_timeline(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Timeline::kFieldId, data, size);
+ }
+ void set_timeline(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Timeline::kFieldId, chars.data, chars.size);
+ }
+ void set_timeline(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Timeline::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class FenceDestroyFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ FenceDestroyFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit FenceDestroyFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit FenceDestroyFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_context() const { return at<1>().valid(); }
+ uint32_t context() const { return at<1>().as_uint32(); }
+ bool has_driver() const { return at<2>().valid(); }
+ ::protozero::ConstChars driver() const { return at<2>().as_string(); }
+ bool has_seqno() const { return at<3>().valid(); }
+ uint32_t seqno() const { return at<3>().as_uint32(); }
+ bool has_timeline() const { return at<4>().valid(); }
+ ::protozero::ConstChars timeline() const { return at<4>().as_string(); }
+};
+
+class FenceDestroyFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = FenceDestroyFtraceEvent_Decoder;
+ enum : int32_t {
+ kContextFieldNumber = 1,
+ kDriverFieldNumber = 2,
+ kSeqnoFieldNumber = 3,
+ kTimelineFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.FenceDestroyFtraceEvent"; }
+
+
+ using FieldMetadata_Context =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ FenceDestroyFtraceEvent>;
+
+ static constexpr FieldMetadata_Context kContext{};
+ void set_context(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Context::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Driver =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ FenceDestroyFtraceEvent>;
+
+ static constexpr FieldMetadata_Driver kDriver{};
+ void set_driver(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Driver::kFieldId, data, size);
+ }
+ void set_driver(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Driver::kFieldId, chars.data, chars.size);
+ }
+ void set_driver(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Driver::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Seqno =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ FenceDestroyFtraceEvent>;
+
+ static constexpr FieldMetadata_Seqno kSeqno{};
+ void set_seqno(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Seqno::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Timeline =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ FenceDestroyFtraceEvent>;
+
+ static constexpr FieldMetadata_Timeline kTimeline{};
+ void set_timeline(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Timeline::kFieldId, data, size);
+ }
+ void set_timeline(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Timeline::kFieldId, chars.data, chars.size);
+ }
+ void set_timeline(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Timeline::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class FenceInitFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ FenceInitFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit FenceInitFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit FenceInitFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_context() const { return at<1>().valid(); }
+ uint32_t context() const { return at<1>().as_uint32(); }
+ bool has_driver() const { return at<2>().valid(); }
+ ::protozero::ConstChars driver() const { return at<2>().as_string(); }
+ bool has_seqno() const { return at<3>().valid(); }
+ uint32_t seqno() const { return at<3>().as_uint32(); }
+ bool has_timeline() const { return at<4>().valid(); }
+ ::protozero::ConstChars timeline() const { return at<4>().as_string(); }
+};
+
+class FenceInitFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = FenceInitFtraceEvent_Decoder;
+ enum : int32_t {
+ kContextFieldNumber = 1,
+ kDriverFieldNumber = 2,
+ kSeqnoFieldNumber = 3,
+ kTimelineFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.FenceInitFtraceEvent"; }
+
+
+ using FieldMetadata_Context =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ FenceInitFtraceEvent>;
+
+ static constexpr FieldMetadata_Context kContext{};
+ void set_context(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Context::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Driver =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ FenceInitFtraceEvent>;
+
+ static constexpr FieldMetadata_Driver kDriver{};
+ void set_driver(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Driver::kFieldId, data, size);
+ }
+ void set_driver(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Driver::kFieldId, chars.data, chars.size);
+ }
+ void set_driver(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Driver::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Seqno =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ FenceInitFtraceEvent>;
+
+ static constexpr FieldMetadata_Seqno kSeqno{};
+ void set_seqno(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Seqno::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Timeline =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ FenceInitFtraceEvent>;
+
+ static constexpr FieldMetadata_Timeline kTimeline{};
+ void set_timeline(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Timeline::kFieldId, data, size);
+ }
+ void set_timeline(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Timeline::kFieldId, chars.data, chars.size);
+ }
+ void set_timeline(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Timeline::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/filemap.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_FILEMAP_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_FILEMAP_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class MmFilemapDeleteFromPageCacheFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MmFilemapDeleteFromPageCacheFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MmFilemapDeleteFromPageCacheFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MmFilemapDeleteFromPageCacheFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_pfn() const { return at<1>().valid(); }
+ uint64_t pfn() const { return at<1>().as_uint64(); }
+ bool has_i_ino() const { return at<2>().valid(); }
+ uint64_t i_ino() const { return at<2>().as_uint64(); }
+ bool has_index() const { return at<3>().valid(); }
+ uint64_t index() const { return at<3>().as_uint64(); }
+ bool has_s_dev() const { return at<4>().valid(); }
+ uint64_t s_dev() const { return at<4>().as_uint64(); }
+ bool has_page() const { return at<5>().valid(); }
+ uint64_t page() const { return at<5>().as_uint64(); }
+};
+
+class MmFilemapDeleteFromPageCacheFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MmFilemapDeleteFromPageCacheFtraceEvent_Decoder;
+ enum : int32_t {
+ kPfnFieldNumber = 1,
+ kIInoFieldNumber = 2,
+ kIndexFieldNumber = 3,
+ kSDevFieldNumber = 4,
+ kPageFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MmFilemapDeleteFromPageCacheFtraceEvent"; }
+
+
+ using FieldMetadata_Pfn =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MmFilemapDeleteFromPageCacheFtraceEvent>;
+
+ static constexpr FieldMetadata_Pfn kPfn{};
+ void set_pfn(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pfn::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IIno =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MmFilemapDeleteFromPageCacheFtraceEvent>;
+
+ static constexpr FieldMetadata_IIno kIIno{};
+ void set_i_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_IIno::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Index =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MmFilemapDeleteFromPageCacheFtraceEvent>;
+
+ static constexpr FieldMetadata_Index kIndex{};
+ void set_index(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Index::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SDev =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MmFilemapDeleteFromPageCacheFtraceEvent>;
+
+ static constexpr FieldMetadata_SDev kSDev{};
+ void set_s_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SDev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Page =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MmFilemapDeleteFromPageCacheFtraceEvent>;
+
+ static constexpr FieldMetadata_Page kPage{};
+ void set_page(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Page::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class MmFilemapAddToPageCacheFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MmFilemapAddToPageCacheFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MmFilemapAddToPageCacheFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MmFilemapAddToPageCacheFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_pfn() const { return at<1>().valid(); }
+ uint64_t pfn() const { return at<1>().as_uint64(); }
+ bool has_i_ino() const { return at<2>().valid(); }
+ uint64_t i_ino() const { return at<2>().as_uint64(); }
+ bool has_index() const { return at<3>().valid(); }
+ uint64_t index() const { return at<3>().as_uint64(); }
+ bool has_s_dev() const { return at<4>().valid(); }
+ uint64_t s_dev() const { return at<4>().as_uint64(); }
+ bool has_page() const { return at<5>().valid(); }
+ uint64_t page() const { return at<5>().as_uint64(); }
+};
+
+class MmFilemapAddToPageCacheFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MmFilemapAddToPageCacheFtraceEvent_Decoder;
+ enum : int32_t {
+ kPfnFieldNumber = 1,
+ kIInoFieldNumber = 2,
+ kIndexFieldNumber = 3,
+ kSDevFieldNumber = 4,
+ kPageFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MmFilemapAddToPageCacheFtraceEvent"; }
+
+
+ using FieldMetadata_Pfn =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MmFilemapAddToPageCacheFtraceEvent>;
+
+ static constexpr FieldMetadata_Pfn kPfn{};
+ void set_pfn(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pfn::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IIno =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MmFilemapAddToPageCacheFtraceEvent>;
+
+ static constexpr FieldMetadata_IIno kIIno{};
+ void set_i_ino(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_IIno::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Index =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MmFilemapAddToPageCacheFtraceEvent>;
+
+ static constexpr FieldMetadata_Index kIndex{};
+ void set_index(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Index::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SDev =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MmFilemapAddToPageCacheFtraceEvent>;
+
+ static constexpr FieldMetadata_SDev kSDev{};
+ void set_s_dev(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SDev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Page =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MmFilemapAddToPageCacheFtraceEvent>;
+
+ static constexpr FieldMetadata_Page kPage{};
+ void set_page(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Page::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/ftrace.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_FTRACE_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_FTRACE_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class FuncgraphExitFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ FuncgraphExitFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit FuncgraphExitFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit FuncgraphExitFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_calltime() const { return at<1>().valid(); }
+ uint64_t calltime() const { return at<1>().as_uint64(); }
+ bool has_depth() const { return at<2>().valid(); }
+ int32_t depth() const { return at<2>().as_int32(); }
+ bool has_func() const { return at<3>().valid(); }
+ uint64_t func() const { return at<3>().as_uint64(); }
+ bool has_overrun() const { return at<4>().valid(); }
+ uint64_t overrun() const { return at<4>().as_uint64(); }
+ bool has_rettime() const { return at<5>().valid(); }
+ uint64_t rettime() const { return at<5>().as_uint64(); }
+};
+
+class FuncgraphExitFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = FuncgraphExitFtraceEvent_Decoder;
+ enum : int32_t {
+ kCalltimeFieldNumber = 1,
+ kDepthFieldNumber = 2,
+ kFuncFieldNumber = 3,
+ kOverrunFieldNumber = 4,
+ kRettimeFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.FuncgraphExitFtraceEvent"; }
+
+
+ using FieldMetadata_Calltime =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ FuncgraphExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Calltime kCalltime{};
+ void set_calltime(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Calltime::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Depth =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ FuncgraphExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Depth kDepth{};
+ void set_depth(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Depth::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Func =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ FuncgraphExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Func kFunc{};
+ void set_func(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Func::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Overrun =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ FuncgraphExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Overrun kOverrun{};
+ void set_overrun(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Overrun::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Rettime =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ FuncgraphExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Rettime kRettime{};
+ void set_rettime(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Rettime::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class FuncgraphEntryFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ FuncgraphEntryFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit FuncgraphEntryFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit FuncgraphEntryFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_depth() const { return at<1>().valid(); }
+ int32_t depth() const { return at<1>().as_int32(); }
+ bool has_func() const { return at<2>().valid(); }
+ uint64_t func() const { return at<2>().as_uint64(); }
+};
+
+class FuncgraphEntryFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = FuncgraphEntryFtraceEvent_Decoder;
+ enum : int32_t {
+ kDepthFieldNumber = 1,
+ kFuncFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.FuncgraphEntryFtraceEvent"; }
+
+
+ using FieldMetadata_Depth =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ FuncgraphEntryFtraceEvent>;
+
+ static constexpr FieldMetadata_Depth kDepth{};
+ void set_depth(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Depth::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Func =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ FuncgraphEntryFtraceEvent>;
+
+ static constexpr FieldMetadata_Func kFunc{};
+ void set_func(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Func::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class PrintFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ PrintFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit PrintFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit PrintFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_ip() const { return at<1>().valid(); }
+ uint64_t ip() const { return at<1>().as_uint64(); }
+ bool has_buf() const { return at<2>().valid(); }
+ ::protozero::ConstChars buf() const { return at<2>().as_string(); }
+};
+
+class PrintFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = PrintFtraceEvent_Decoder;
+ enum : int32_t {
+ kIpFieldNumber = 1,
+ kBufFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.PrintFtraceEvent"; }
+
+
+ using FieldMetadata_Ip =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ PrintFtraceEvent>;
+
+ static constexpr FieldMetadata_Ip kIp{};
+ void set_ip(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ip::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Buf =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ PrintFtraceEvent>;
+
+ static constexpr FieldMetadata_Buf kBuf{};
+ void set_buf(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Buf::kFieldId, data, size);
+ }
+ void set_buf(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Buf::kFieldId, chars.data, chars.size);
+ }
+ void set_buf(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Buf::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/g2d.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_G2D_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_G2D_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class G2dTracingMarkWriteFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/6, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ G2dTracingMarkWriteFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit G2dTracingMarkWriteFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit G2dTracingMarkWriteFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_pid() const { return at<1>().valid(); }
+ int32_t pid() const { return at<1>().as_int32(); }
+ bool has_name() const { return at<4>().valid(); }
+ ::protozero::ConstChars name() const { return at<4>().as_string(); }
+ bool has_type() const { return at<5>().valid(); }
+ uint32_t type() const { return at<5>().as_uint32(); }
+ bool has_value() const { return at<6>().valid(); }
+ int32_t value() const { return at<6>().as_int32(); }
+};
+
+class G2dTracingMarkWriteFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = G2dTracingMarkWriteFtraceEvent_Decoder;
+ enum : int32_t {
+ kPidFieldNumber = 1,
+ kNameFieldNumber = 4,
+ kTypeFieldNumber = 5,
+ kValueFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.G2dTracingMarkWriteFtraceEvent"; }
+
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ G2dTracingMarkWriteFtraceEvent>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ G2dTracingMarkWriteFtraceEvent>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Type =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ G2dTracingMarkWriteFtraceEvent>;
+
+ static constexpr FieldMetadata_Type kType{};
+ void set_type(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Type::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Value =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ G2dTracingMarkWriteFtraceEvent>;
+
+ static constexpr FieldMetadata_Value kValue{};
+ void set_value(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Value::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/gpu_mem.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_GPU_MEM_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_GPU_MEM_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class GpuMemTotalFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ GpuMemTotalFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit GpuMemTotalFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit GpuMemTotalFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_gpu_id() const { return at<1>().valid(); }
+ uint32_t gpu_id() const { return at<1>().as_uint32(); }
+ bool has_pid() const { return at<2>().valid(); }
+ uint32_t pid() const { return at<2>().as_uint32(); }
+ bool has_size() const { return at<3>().valid(); }
+ uint64_t size() const { return at<3>().as_uint64(); }
+};
+
+class GpuMemTotalFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = GpuMemTotalFtraceEvent_Decoder;
+ enum : int32_t {
+ kGpuIdFieldNumber = 1,
+ kPidFieldNumber = 2,
+ kSizeFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.GpuMemTotalFtraceEvent"; }
+
+
+ using FieldMetadata_GpuId =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ GpuMemTotalFtraceEvent>;
+
+ static constexpr FieldMetadata_GpuId kGpuId{};
+ void set_gpu_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_GpuId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ GpuMemTotalFtraceEvent>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Size =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ GpuMemTotalFtraceEvent>;
+
+ static constexpr FieldMetadata_Size kSize{};
+ void set_size(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Size::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/gpu_scheduler.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_GPU_SCHEDULER_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_GPU_SCHEDULER_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class DrmSchedProcessJobFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ DrmSchedProcessJobFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit DrmSchedProcessJobFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit DrmSchedProcessJobFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_fence() const { return at<1>().valid(); }
+ uint64_t fence() const { return at<1>().as_uint64(); }
+};
+
+class DrmSchedProcessJobFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = DrmSchedProcessJobFtraceEvent_Decoder;
+ enum : int32_t {
+ kFenceFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.DrmSchedProcessJobFtraceEvent"; }
+
+
+ using FieldMetadata_Fence =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ DrmSchedProcessJobFtraceEvent>;
+
+ static constexpr FieldMetadata_Fence kFence{};
+ void set_fence(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Fence::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class DrmRunJobFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/6, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ DrmRunJobFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit DrmRunJobFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit DrmRunJobFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_entity() const { return at<1>().valid(); }
+ uint64_t entity() const { return at<1>().as_uint64(); }
+ bool has_fence() const { return at<2>().valid(); }
+ uint64_t fence() const { return at<2>().as_uint64(); }
+ bool has_hw_job_count() const { return at<3>().valid(); }
+ int32_t hw_job_count() const { return at<3>().as_int32(); }
+ bool has_id() const { return at<4>().valid(); }
+ uint64_t id() const { return at<4>().as_uint64(); }
+ bool has_job_count() const { return at<5>().valid(); }
+ uint32_t job_count() const { return at<5>().as_uint32(); }
+ bool has_name() const { return at<6>().valid(); }
+ ::protozero::ConstChars name() const { return at<6>().as_string(); }
+};
+
+class DrmRunJobFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = DrmRunJobFtraceEvent_Decoder;
+ enum : int32_t {
+ kEntityFieldNumber = 1,
+ kFenceFieldNumber = 2,
+ kHwJobCountFieldNumber = 3,
+ kIdFieldNumber = 4,
+ kJobCountFieldNumber = 5,
+ kNameFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.DrmRunJobFtraceEvent"; }
+
+
+ using FieldMetadata_Entity =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ DrmRunJobFtraceEvent>;
+
+ static constexpr FieldMetadata_Entity kEntity{};
+ void set_entity(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Entity::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Fence =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ DrmRunJobFtraceEvent>;
+
+ static constexpr FieldMetadata_Fence kFence{};
+ void set_fence(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Fence::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_HwJobCount =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ DrmRunJobFtraceEvent>;
+
+ static constexpr FieldMetadata_HwJobCount kHwJobCount{};
+ void set_hw_job_count(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_HwJobCount::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Id =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ DrmRunJobFtraceEvent>;
+
+ static constexpr FieldMetadata_Id kId{};
+ void set_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Id::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_JobCount =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ DrmRunJobFtraceEvent>;
+
+ static constexpr FieldMetadata_JobCount kJobCount{};
+ void set_job_count(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_JobCount::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ DrmRunJobFtraceEvent>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class DrmSchedJobFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/6, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ DrmSchedJobFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit DrmSchedJobFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit DrmSchedJobFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_entity() const { return at<1>().valid(); }
+ uint64_t entity() const { return at<1>().as_uint64(); }
+ bool has_fence() const { return at<2>().valid(); }
+ uint64_t fence() const { return at<2>().as_uint64(); }
+ bool has_hw_job_count() const { return at<3>().valid(); }
+ int32_t hw_job_count() const { return at<3>().as_int32(); }
+ bool has_id() const { return at<4>().valid(); }
+ uint64_t id() const { return at<4>().as_uint64(); }
+ bool has_job_count() const { return at<5>().valid(); }
+ uint32_t job_count() const { return at<5>().as_uint32(); }
+ bool has_name() const { return at<6>().valid(); }
+ ::protozero::ConstChars name() const { return at<6>().as_string(); }
+};
+
+class DrmSchedJobFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = DrmSchedJobFtraceEvent_Decoder;
+ enum : int32_t {
+ kEntityFieldNumber = 1,
+ kFenceFieldNumber = 2,
+ kHwJobCountFieldNumber = 3,
+ kIdFieldNumber = 4,
+ kJobCountFieldNumber = 5,
+ kNameFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.DrmSchedJobFtraceEvent"; }
+
+
+ using FieldMetadata_Entity =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ DrmSchedJobFtraceEvent>;
+
+ static constexpr FieldMetadata_Entity kEntity{};
+ void set_entity(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Entity::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Fence =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ DrmSchedJobFtraceEvent>;
+
+ static constexpr FieldMetadata_Fence kFence{};
+ void set_fence(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Fence::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_HwJobCount =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ DrmSchedJobFtraceEvent>;
+
+ static constexpr FieldMetadata_HwJobCount kHwJobCount{};
+ void set_hw_job_count(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_HwJobCount::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Id =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ DrmSchedJobFtraceEvent>;
+
+ static constexpr FieldMetadata_Id kId{};
+ void set_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Id::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_JobCount =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ DrmSchedJobFtraceEvent>;
+
+ static constexpr FieldMetadata_JobCount kJobCount{};
+ void set_job_count(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_JobCount::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ DrmSchedJobFtraceEvent>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/hyp.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_HYP_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_HYP_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class HostMemAbortFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ HostMemAbortFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit HostMemAbortFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit HostMemAbortFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_esr() const { return at<1>().valid(); }
+ uint64_t esr() const { return at<1>().as_uint64(); }
+ bool has_addr() const { return at<2>().valid(); }
+ uint64_t addr() const { return at<2>().as_uint64(); }
+};
+
+class HostMemAbortFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = HostMemAbortFtraceEvent_Decoder;
+ enum : int32_t {
+ kEsrFieldNumber = 1,
+ kAddrFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.HostMemAbortFtraceEvent"; }
+
+
+ using FieldMetadata_Esr =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ HostMemAbortFtraceEvent>;
+
+ static constexpr FieldMetadata_Esr kEsr{};
+ void set_esr(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Esr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Addr =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ HostMemAbortFtraceEvent>;
+
+ static constexpr FieldMetadata_Addr kAddr{};
+ void set_addr(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Addr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class HostSmcFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ HostSmcFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit HostSmcFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit HostSmcFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_id() const { return at<1>().valid(); }
+ uint64_t id() const { return at<1>().as_uint64(); }
+ bool has_forwarded() const { return at<2>().valid(); }
+ uint32_t forwarded() const { return at<2>().as_uint32(); }
+};
+
+class HostSmcFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = HostSmcFtraceEvent_Decoder;
+ enum : int32_t {
+ kIdFieldNumber = 1,
+ kForwardedFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.HostSmcFtraceEvent"; }
+
+
+ using FieldMetadata_Id =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ HostSmcFtraceEvent>;
+
+ static constexpr FieldMetadata_Id kId{};
+ void set_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Id::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Forwarded =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ HostSmcFtraceEvent>;
+
+ static constexpr FieldMetadata_Forwarded kForwarded{};
+ void set_forwarded(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Forwarded::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class HostHcallFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ HostHcallFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit HostHcallFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit HostHcallFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_id() const { return at<1>().valid(); }
+ uint32_t id() const { return at<1>().as_uint32(); }
+ bool has_invalid() const { return at<2>().valid(); }
+ uint32_t invalid() const { return at<2>().as_uint32(); }
+};
+
+class HostHcallFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = HostHcallFtraceEvent_Decoder;
+ enum : int32_t {
+ kIdFieldNumber = 1,
+ kInvalidFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.HostHcallFtraceEvent"; }
+
+
+ using FieldMetadata_Id =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ HostHcallFtraceEvent>;
+
+ static constexpr FieldMetadata_Id kId{};
+ void set_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Id::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Invalid =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ HostHcallFtraceEvent>;
+
+ static constexpr FieldMetadata_Invalid kInvalid{};
+ void set_invalid(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Invalid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class HypExitFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/0, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ HypExitFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit HypExitFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit HypExitFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+};
+
+class HypExitFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = HypExitFtraceEvent_Decoder;
+ static constexpr const char* GetName() { return ".perfetto.protos.HypExitFtraceEvent"; }
+
+};
+
+class HypEnterFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/0, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ HypEnterFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit HypEnterFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit HypEnterFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+};
+
+class HypEnterFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = HypEnterFtraceEvent_Decoder;
+ static constexpr const char* GetName() { return ".perfetto.protos.HypEnterFtraceEvent"; }
+
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/i2c.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_I2C_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_I2C_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class SmbusReplyFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/6, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ SmbusReplyFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SmbusReplyFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SmbusReplyFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_adapter_nr() const { return at<1>().valid(); }
+ int32_t adapter_nr() const { return at<1>().as_int32(); }
+ bool has_addr() const { return at<2>().valid(); }
+ uint32_t addr() const { return at<2>().as_uint32(); }
+ bool has_flags() const { return at<3>().valid(); }
+ uint32_t flags() const { return at<3>().as_uint32(); }
+ bool has_command() const { return at<4>().valid(); }
+ uint32_t command() const { return at<4>().as_uint32(); }
+ bool has_len() const { return at<5>().valid(); }
+ uint32_t len() const { return at<5>().as_uint32(); }
+ bool has_protocol() const { return at<6>().valid(); }
+ uint32_t protocol() const { return at<6>().as_uint32(); }
+};
+
+class SmbusReplyFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = SmbusReplyFtraceEvent_Decoder;
+ enum : int32_t {
+ kAdapterNrFieldNumber = 1,
+ kAddrFieldNumber = 2,
+ kFlagsFieldNumber = 3,
+ kCommandFieldNumber = 4,
+ kLenFieldNumber = 5,
+ kProtocolFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SmbusReplyFtraceEvent"; }
+
+
+ using FieldMetadata_AdapterNr =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SmbusReplyFtraceEvent>;
+
+ static constexpr FieldMetadata_AdapterNr kAdapterNr{};
+ void set_adapter_nr(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_AdapterNr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Addr =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SmbusReplyFtraceEvent>;
+
+ static constexpr FieldMetadata_Addr kAddr{};
+ void set_addr(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Addr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Flags =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SmbusReplyFtraceEvent>;
+
+ static constexpr FieldMetadata_Flags kFlags{};
+ void set_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Flags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Command =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SmbusReplyFtraceEvent>;
+
+ static constexpr FieldMetadata_Command kCommand{};
+ void set_command(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Command::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SmbusReplyFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Protocol =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SmbusReplyFtraceEvent>;
+
+ static constexpr FieldMetadata_Protocol kProtocol{};
+ void set_protocol(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Protocol::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class SmbusResultFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/7, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ SmbusResultFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SmbusResultFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SmbusResultFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_adapter_nr() const { return at<1>().valid(); }
+ int32_t adapter_nr() const { return at<1>().as_int32(); }
+ bool has_addr() const { return at<2>().valid(); }
+ uint32_t addr() const { return at<2>().as_uint32(); }
+ bool has_flags() const { return at<3>().valid(); }
+ uint32_t flags() const { return at<3>().as_uint32(); }
+ bool has_read_write() const { return at<4>().valid(); }
+ uint32_t read_write() const { return at<4>().as_uint32(); }
+ bool has_command() const { return at<5>().valid(); }
+ uint32_t command() const { return at<5>().as_uint32(); }
+ bool has_res() const { return at<6>().valid(); }
+ int32_t res() const { return at<6>().as_int32(); }
+ bool has_protocol() const { return at<7>().valid(); }
+ uint32_t protocol() const { return at<7>().as_uint32(); }
+};
+
+class SmbusResultFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = SmbusResultFtraceEvent_Decoder;
+ enum : int32_t {
+ kAdapterNrFieldNumber = 1,
+ kAddrFieldNumber = 2,
+ kFlagsFieldNumber = 3,
+ kReadWriteFieldNumber = 4,
+ kCommandFieldNumber = 5,
+ kResFieldNumber = 6,
+ kProtocolFieldNumber = 7,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SmbusResultFtraceEvent"; }
+
+
+ using FieldMetadata_AdapterNr =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SmbusResultFtraceEvent>;
+
+ static constexpr FieldMetadata_AdapterNr kAdapterNr{};
+ void set_adapter_nr(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_AdapterNr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Addr =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SmbusResultFtraceEvent>;
+
+ static constexpr FieldMetadata_Addr kAddr{};
+ void set_addr(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Addr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Flags =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SmbusResultFtraceEvent>;
+
+ static constexpr FieldMetadata_Flags kFlags{};
+ void set_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Flags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ReadWrite =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SmbusResultFtraceEvent>;
+
+ static constexpr FieldMetadata_ReadWrite kReadWrite{};
+ void set_read_write(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ReadWrite::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Command =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SmbusResultFtraceEvent>;
+
+ static constexpr FieldMetadata_Command kCommand{};
+ void set_command(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Command::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Res =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SmbusResultFtraceEvent>;
+
+ static constexpr FieldMetadata_Res kRes{};
+ void set_res(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Res::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Protocol =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SmbusResultFtraceEvent>;
+
+ static constexpr FieldMetadata_Protocol kProtocol{};
+ void set_protocol(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Protocol::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class SmbusWriteFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/6, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ SmbusWriteFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SmbusWriteFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SmbusWriteFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_adapter_nr() const { return at<1>().valid(); }
+ int32_t adapter_nr() const { return at<1>().as_int32(); }
+ bool has_addr() const { return at<2>().valid(); }
+ uint32_t addr() const { return at<2>().as_uint32(); }
+ bool has_flags() const { return at<3>().valid(); }
+ uint32_t flags() const { return at<3>().as_uint32(); }
+ bool has_command() const { return at<4>().valid(); }
+ uint32_t command() const { return at<4>().as_uint32(); }
+ bool has_len() const { return at<5>().valid(); }
+ uint32_t len() const { return at<5>().as_uint32(); }
+ bool has_protocol() const { return at<6>().valid(); }
+ uint32_t protocol() const { return at<6>().as_uint32(); }
+};
+
+class SmbusWriteFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = SmbusWriteFtraceEvent_Decoder;
+ enum : int32_t {
+ kAdapterNrFieldNumber = 1,
+ kAddrFieldNumber = 2,
+ kFlagsFieldNumber = 3,
+ kCommandFieldNumber = 4,
+ kLenFieldNumber = 5,
+ kProtocolFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SmbusWriteFtraceEvent"; }
+
+
+ using FieldMetadata_AdapterNr =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SmbusWriteFtraceEvent>;
+
+ static constexpr FieldMetadata_AdapterNr kAdapterNr{};
+ void set_adapter_nr(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_AdapterNr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Addr =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SmbusWriteFtraceEvent>;
+
+ static constexpr FieldMetadata_Addr kAddr{};
+ void set_addr(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Addr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Flags =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SmbusWriteFtraceEvent>;
+
+ static constexpr FieldMetadata_Flags kFlags{};
+ void set_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Flags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Command =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SmbusWriteFtraceEvent>;
+
+ static constexpr FieldMetadata_Command kCommand{};
+ void set_command(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Command::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SmbusWriteFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Protocol =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SmbusWriteFtraceEvent>;
+
+ static constexpr FieldMetadata_Protocol kProtocol{};
+ void set_protocol(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Protocol::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class SmbusReadFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ SmbusReadFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SmbusReadFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SmbusReadFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_adapter_nr() const { return at<1>().valid(); }
+ int32_t adapter_nr() const { return at<1>().as_int32(); }
+ bool has_flags() const { return at<2>().valid(); }
+ uint32_t flags() const { return at<2>().as_uint32(); }
+ bool has_addr() const { return at<3>().valid(); }
+ uint32_t addr() const { return at<3>().as_uint32(); }
+ bool has_command() const { return at<4>().valid(); }
+ uint32_t command() const { return at<4>().as_uint32(); }
+ bool has_protocol() const { return at<5>().valid(); }
+ uint32_t protocol() const { return at<5>().as_uint32(); }
+};
+
+class SmbusReadFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = SmbusReadFtraceEvent_Decoder;
+ enum : int32_t {
+ kAdapterNrFieldNumber = 1,
+ kFlagsFieldNumber = 2,
+ kAddrFieldNumber = 3,
+ kCommandFieldNumber = 4,
+ kProtocolFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SmbusReadFtraceEvent"; }
+
+
+ using FieldMetadata_AdapterNr =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SmbusReadFtraceEvent>;
+
+ static constexpr FieldMetadata_AdapterNr kAdapterNr{};
+ void set_adapter_nr(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_AdapterNr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Flags =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SmbusReadFtraceEvent>;
+
+ static constexpr FieldMetadata_Flags kFlags{};
+ void set_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Flags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Addr =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SmbusReadFtraceEvent>;
+
+ static constexpr FieldMetadata_Addr kAddr{};
+ void set_addr(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Addr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Command =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SmbusReadFtraceEvent>;
+
+ static constexpr FieldMetadata_Command kCommand{};
+ void set_command(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Command::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Protocol =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SmbusReadFtraceEvent>;
+
+ static constexpr FieldMetadata_Protocol kProtocol{};
+ void set_protocol(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Protocol::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class I2cReplyFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/6, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ I2cReplyFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit I2cReplyFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit I2cReplyFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_adapter_nr() const { return at<1>().valid(); }
+ int32_t adapter_nr() const { return at<1>().as_int32(); }
+ bool has_msg_nr() const { return at<2>().valid(); }
+ uint32_t msg_nr() const { return at<2>().as_uint32(); }
+ bool has_addr() const { return at<3>().valid(); }
+ uint32_t addr() const { return at<3>().as_uint32(); }
+ bool has_flags() const { return at<4>().valid(); }
+ uint32_t flags() const { return at<4>().as_uint32(); }
+ bool has_len() const { return at<5>().valid(); }
+ uint32_t len() const { return at<5>().as_uint32(); }
+ bool has_buf() const { return at<6>().valid(); }
+ uint32_t buf() const { return at<6>().as_uint32(); }
+};
+
+class I2cReplyFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = I2cReplyFtraceEvent_Decoder;
+ enum : int32_t {
+ kAdapterNrFieldNumber = 1,
+ kMsgNrFieldNumber = 2,
+ kAddrFieldNumber = 3,
+ kFlagsFieldNumber = 4,
+ kLenFieldNumber = 5,
+ kBufFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.I2cReplyFtraceEvent"; }
+
+
+ using FieldMetadata_AdapterNr =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ I2cReplyFtraceEvent>;
+
+ static constexpr FieldMetadata_AdapterNr kAdapterNr{};
+ void set_adapter_nr(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_AdapterNr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MsgNr =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ I2cReplyFtraceEvent>;
+
+ static constexpr FieldMetadata_MsgNr kMsgNr{};
+ void set_msg_nr(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MsgNr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Addr =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ I2cReplyFtraceEvent>;
+
+ static constexpr FieldMetadata_Addr kAddr{};
+ void set_addr(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Addr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Flags =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ I2cReplyFtraceEvent>;
+
+ static constexpr FieldMetadata_Flags kFlags{};
+ void set_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Flags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ I2cReplyFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Buf =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ I2cReplyFtraceEvent>;
+
+ static constexpr FieldMetadata_Buf kBuf{};
+ void set_buf(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Buf::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class I2cResultFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ I2cResultFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit I2cResultFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit I2cResultFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_adapter_nr() const { return at<1>().valid(); }
+ int32_t adapter_nr() const { return at<1>().as_int32(); }
+ bool has_nr_msgs() const { return at<2>().valid(); }
+ uint32_t nr_msgs() const { return at<2>().as_uint32(); }
+ bool has_ret() const { return at<3>().valid(); }
+ int32_t ret() const { return at<3>().as_int32(); }
+};
+
+class I2cResultFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = I2cResultFtraceEvent_Decoder;
+ enum : int32_t {
+ kAdapterNrFieldNumber = 1,
+ kNrMsgsFieldNumber = 2,
+ kRetFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.I2cResultFtraceEvent"; }
+
+
+ using FieldMetadata_AdapterNr =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ I2cResultFtraceEvent>;
+
+ static constexpr FieldMetadata_AdapterNr kAdapterNr{};
+ void set_adapter_nr(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_AdapterNr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NrMsgs =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ I2cResultFtraceEvent>;
+
+ static constexpr FieldMetadata_NrMsgs kNrMsgs{};
+ void set_nr_msgs(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NrMsgs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ret =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ I2cResultFtraceEvent>;
+
+ static constexpr FieldMetadata_Ret kRet{};
+ void set_ret(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ret::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class I2cWriteFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/6, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ I2cWriteFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit I2cWriteFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit I2cWriteFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_adapter_nr() const { return at<1>().valid(); }
+ int32_t adapter_nr() const { return at<1>().as_int32(); }
+ bool has_msg_nr() const { return at<2>().valid(); }
+ uint32_t msg_nr() const { return at<2>().as_uint32(); }
+ bool has_addr() const { return at<3>().valid(); }
+ uint32_t addr() const { return at<3>().as_uint32(); }
+ bool has_flags() const { return at<4>().valid(); }
+ uint32_t flags() const { return at<4>().as_uint32(); }
+ bool has_len() const { return at<5>().valid(); }
+ uint32_t len() const { return at<5>().as_uint32(); }
+ bool has_buf() const { return at<6>().valid(); }
+ uint32_t buf() const { return at<6>().as_uint32(); }
+};
+
+class I2cWriteFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = I2cWriteFtraceEvent_Decoder;
+ enum : int32_t {
+ kAdapterNrFieldNumber = 1,
+ kMsgNrFieldNumber = 2,
+ kAddrFieldNumber = 3,
+ kFlagsFieldNumber = 4,
+ kLenFieldNumber = 5,
+ kBufFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.I2cWriteFtraceEvent"; }
+
+
+ using FieldMetadata_AdapterNr =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ I2cWriteFtraceEvent>;
+
+ static constexpr FieldMetadata_AdapterNr kAdapterNr{};
+ void set_adapter_nr(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_AdapterNr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MsgNr =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ I2cWriteFtraceEvent>;
+
+ static constexpr FieldMetadata_MsgNr kMsgNr{};
+ void set_msg_nr(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MsgNr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Addr =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ I2cWriteFtraceEvent>;
+
+ static constexpr FieldMetadata_Addr kAddr{};
+ void set_addr(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Addr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Flags =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ I2cWriteFtraceEvent>;
+
+ static constexpr FieldMetadata_Flags kFlags{};
+ void set_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Flags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ I2cWriteFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Buf =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ I2cWriteFtraceEvent>;
+
+ static constexpr FieldMetadata_Buf kBuf{};
+ void set_buf(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Buf::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class I2cReadFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ I2cReadFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit I2cReadFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit I2cReadFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_adapter_nr() const { return at<1>().valid(); }
+ int32_t adapter_nr() const { return at<1>().as_int32(); }
+ bool has_msg_nr() const { return at<2>().valid(); }
+ uint32_t msg_nr() const { return at<2>().as_uint32(); }
+ bool has_addr() const { return at<3>().valid(); }
+ uint32_t addr() const { return at<3>().as_uint32(); }
+ bool has_flags() const { return at<4>().valid(); }
+ uint32_t flags() const { return at<4>().as_uint32(); }
+ bool has_len() const { return at<5>().valid(); }
+ uint32_t len() const { return at<5>().as_uint32(); }
+};
+
+class I2cReadFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = I2cReadFtraceEvent_Decoder;
+ enum : int32_t {
+ kAdapterNrFieldNumber = 1,
+ kMsgNrFieldNumber = 2,
+ kAddrFieldNumber = 3,
+ kFlagsFieldNumber = 4,
+ kLenFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.I2cReadFtraceEvent"; }
+
+
+ using FieldMetadata_AdapterNr =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ I2cReadFtraceEvent>;
+
+ static constexpr FieldMetadata_AdapterNr kAdapterNr{};
+ void set_adapter_nr(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_AdapterNr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MsgNr =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ I2cReadFtraceEvent>;
+
+ static constexpr FieldMetadata_MsgNr kMsgNr{};
+ void set_msg_nr(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MsgNr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Addr =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ I2cReadFtraceEvent>;
+
+ static constexpr FieldMetadata_Addr kAddr{};
+ void set_addr(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Addr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Flags =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ I2cReadFtraceEvent>;
+
+ static constexpr FieldMetadata_Flags kFlags{};
+ void set_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Flags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ I2cReadFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/ion.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_ION_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_ION_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class IonStatFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ IonStatFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit IonStatFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit IonStatFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_buffer_id() const { return at<1>().valid(); }
+ uint32_t buffer_id() const { return at<1>().as_uint32(); }
+ bool has_len() const { return at<2>().valid(); }
+ int64_t len() const { return at<2>().as_int64(); }
+ bool has_total_allocated() const { return at<3>().valid(); }
+ uint64_t total_allocated() const { return at<3>().as_uint64(); }
+};
+
+class IonStatFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = IonStatFtraceEvent_Decoder;
+ enum : int32_t {
+ kBufferIdFieldNumber = 1,
+ kLenFieldNumber = 2,
+ kTotalAllocatedFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.IonStatFtraceEvent"; }
+
+
+ using FieldMetadata_BufferId =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ IonStatFtraceEvent>;
+
+ static constexpr FieldMetadata_BufferId kBufferId{};
+ void set_buffer_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BufferId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ IonStatFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TotalAllocated =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ IonStatFtraceEvent>;
+
+ static constexpr FieldMetadata_TotalAllocated kTotalAllocated{};
+ void set_total_allocated(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TotalAllocated::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/ipi.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_IPI_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_IPI_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class IpiRaiseFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ IpiRaiseFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit IpiRaiseFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit IpiRaiseFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_target_cpus() const { return at<1>().valid(); }
+ uint32_t target_cpus() const { return at<1>().as_uint32(); }
+ bool has_reason() const { return at<2>().valid(); }
+ ::protozero::ConstChars reason() const { return at<2>().as_string(); }
+};
+
+class IpiRaiseFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = IpiRaiseFtraceEvent_Decoder;
+ enum : int32_t {
+ kTargetCpusFieldNumber = 1,
+ kReasonFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.IpiRaiseFtraceEvent"; }
+
+
+ using FieldMetadata_TargetCpus =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ IpiRaiseFtraceEvent>;
+
+ static constexpr FieldMetadata_TargetCpus kTargetCpus{};
+ void set_target_cpus(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TargetCpus::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Reason =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ IpiRaiseFtraceEvent>;
+
+ static constexpr FieldMetadata_Reason kReason{};
+ void set_reason(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Reason::kFieldId, data, size);
+ }
+ void set_reason(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Reason::kFieldId, chars.data, chars.size);
+ }
+ void set_reason(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Reason::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class IpiExitFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ IpiExitFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit IpiExitFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit IpiExitFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_reason() const { return at<1>().valid(); }
+ ::protozero::ConstChars reason() const { return at<1>().as_string(); }
+};
+
+class IpiExitFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = IpiExitFtraceEvent_Decoder;
+ enum : int32_t {
+ kReasonFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.IpiExitFtraceEvent"; }
+
+
+ using FieldMetadata_Reason =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ IpiExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Reason kReason{};
+ void set_reason(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Reason::kFieldId, data, size);
+ }
+ void set_reason(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Reason::kFieldId, chars.data, chars.size);
+ }
+ void set_reason(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Reason::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class IpiEntryFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ IpiEntryFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit IpiEntryFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit IpiEntryFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_reason() const { return at<1>().valid(); }
+ ::protozero::ConstChars reason() const { return at<1>().as_string(); }
+};
+
+class IpiEntryFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = IpiEntryFtraceEvent_Decoder;
+ enum : int32_t {
+ kReasonFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.IpiEntryFtraceEvent"; }
+
+
+ using FieldMetadata_Reason =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ IpiEntryFtraceEvent>;
+
+ static constexpr FieldMetadata_Reason kReason{};
+ void set_reason(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Reason::kFieldId, data, size);
+ }
+ void set_reason(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Reason::kFieldId, chars.data, chars.size);
+ }
+ void set_reason(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Reason::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/irq.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_IRQ_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_IRQ_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class IrqHandlerExitFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ IrqHandlerExitFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit IrqHandlerExitFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit IrqHandlerExitFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_irq() const { return at<1>().valid(); }
+ int32_t irq() const { return at<1>().as_int32(); }
+ bool has_ret() const { return at<2>().valid(); }
+ int32_t ret() const { return at<2>().as_int32(); }
+};
+
+class IrqHandlerExitFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = IrqHandlerExitFtraceEvent_Decoder;
+ enum : int32_t {
+ kIrqFieldNumber = 1,
+ kRetFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.IrqHandlerExitFtraceEvent"; }
+
+
+ using FieldMetadata_Irq =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ IrqHandlerExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Irq kIrq{};
+ void set_irq(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Irq::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ret =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ IrqHandlerExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Ret kRet{};
+ void set_ret(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ret::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class IrqHandlerEntryFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ IrqHandlerEntryFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit IrqHandlerEntryFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit IrqHandlerEntryFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_irq() const { return at<1>().valid(); }
+ int32_t irq() const { return at<1>().as_int32(); }
+ bool has_name() const { return at<2>().valid(); }
+ ::protozero::ConstChars name() const { return at<2>().as_string(); }
+ bool has_handler() const { return at<3>().valid(); }
+ uint32_t handler() const { return at<3>().as_uint32(); }
+};
+
+class IrqHandlerEntryFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = IrqHandlerEntryFtraceEvent_Decoder;
+ enum : int32_t {
+ kIrqFieldNumber = 1,
+ kNameFieldNumber = 2,
+ kHandlerFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.IrqHandlerEntryFtraceEvent"; }
+
+
+ using FieldMetadata_Irq =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ IrqHandlerEntryFtraceEvent>;
+
+ static constexpr FieldMetadata_Irq kIrq{};
+ void set_irq(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Irq::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ IrqHandlerEntryFtraceEvent>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Handler =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ IrqHandlerEntryFtraceEvent>;
+
+ static constexpr FieldMetadata_Handler kHandler{};
+ void set_handler(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Handler::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class SoftirqRaiseFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ SoftirqRaiseFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SoftirqRaiseFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SoftirqRaiseFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_vec() const { return at<1>().valid(); }
+ uint32_t vec() const { return at<1>().as_uint32(); }
+};
+
+class SoftirqRaiseFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = SoftirqRaiseFtraceEvent_Decoder;
+ enum : int32_t {
+ kVecFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SoftirqRaiseFtraceEvent"; }
+
+
+ using FieldMetadata_Vec =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SoftirqRaiseFtraceEvent>;
+
+ static constexpr FieldMetadata_Vec kVec{};
+ void set_vec(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Vec::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class SoftirqExitFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ SoftirqExitFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SoftirqExitFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SoftirqExitFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_vec() const { return at<1>().valid(); }
+ uint32_t vec() const { return at<1>().as_uint32(); }
+};
+
+class SoftirqExitFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = SoftirqExitFtraceEvent_Decoder;
+ enum : int32_t {
+ kVecFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SoftirqExitFtraceEvent"; }
+
+
+ using FieldMetadata_Vec =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SoftirqExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Vec kVec{};
+ void set_vec(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Vec::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class SoftirqEntryFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ SoftirqEntryFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SoftirqEntryFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SoftirqEntryFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_vec() const { return at<1>().valid(); }
+ uint32_t vec() const { return at<1>().as_uint32(); }
+};
+
+class SoftirqEntryFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = SoftirqEntryFtraceEvent_Decoder;
+ enum : int32_t {
+ kVecFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SoftirqEntryFtraceEvent"; }
+
+
+ using FieldMetadata_Vec =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SoftirqEntryFtraceEvent>;
+
+ static constexpr FieldMetadata_Vec kVec{};
+ void set_vec(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Vec::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/kmem.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_KMEM_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_KMEM_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class IonBufferDestroyFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ IonBufferDestroyFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit IonBufferDestroyFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit IonBufferDestroyFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_addr() const { return at<1>().valid(); }
+ uint64_t addr() const { return at<1>().as_uint64(); }
+ bool has_len() const { return at<2>().valid(); }
+ uint64_t len() const { return at<2>().as_uint64(); }
+};
+
+class IonBufferDestroyFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = IonBufferDestroyFtraceEvent_Decoder;
+ enum : int32_t {
+ kAddrFieldNumber = 1,
+ kLenFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.IonBufferDestroyFtraceEvent"; }
+
+
+ using FieldMetadata_Addr =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ IonBufferDestroyFtraceEvent>;
+
+ static constexpr FieldMetadata_Addr kAddr{};
+ void set_addr(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Addr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ IonBufferDestroyFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class IonBufferCreateFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ IonBufferCreateFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit IonBufferCreateFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit IonBufferCreateFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_addr() const { return at<1>().valid(); }
+ uint64_t addr() const { return at<1>().as_uint64(); }
+ bool has_len() const { return at<2>().valid(); }
+ uint64_t len() const { return at<2>().as_uint64(); }
+};
+
+class IonBufferCreateFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = IonBufferCreateFtraceEvent_Decoder;
+ enum : int32_t {
+ kAddrFieldNumber = 1,
+ kLenFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.IonBufferCreateFtraceEvent"; }
+
+
+ using FieldMetadata_Addr =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ IonBufferCreateFtraceEvent>;
+
+ static constexpr FieldMetadata_Addr kAddr{};
+ void set_addr(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Addr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ IonBufferCreateFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class IonHeapGrowFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ IonHeapGrowFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit IonHeapGrowFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit IonHeapGrowFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_heap_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars heap_name() const { return at<1>().as_string(); }
+ bool has_len() const { return at<2>().valid(); }
+ uint64_t len() const { return at<2>().as_uint64(); }
+ bool has_total_allocated() const { return at<3>().valid(); }
+ int64_t total_allocated() const { return at<3>().as_int64(); }
+};
+
+class IonHeapGrowFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = IonHeapGrowFtraceEvent_Decoder;
+ enum : int32_t {
+ kHeapNameFieldNumber = 1,
+ kLenFieldNumber = 2,
+ kTotalAllocatedFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.IonHeapGrowFtraceEvent"; }
+
+
+ using FieldMetadata_HeapName =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ IonHeapGrowFtraceEvent>;
+
+ static constexpr FieldMetadata_HeapName kHeapName{};
+ void set_heap_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_HeapName::kFieldId, data, size);
+ }
+ void set_heap_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_HeapName::kFieldId, chars.data, chars.size);
+ }
+ void set_heap_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_HeapName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ IonHeapGrowFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TotalAllocated =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ IonHeapGrowFtraceEvent>;
+
+ static constexpr FieldMetadata_TotalAllocated kTotalAllocated{};
+ void set_total_allocated(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TotalAllocated::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class IonHeapShrinkFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ IonHeapShrinkFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit IonHeapShrinkFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit IonHeapShrinkFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_heap_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars heap_name() const { return at<1>().as_string(); }
+ bool has_len() const { return at<2>().valid(); }
+ uint64_t len() const { return at<2>().as_uint64(); }
+ bool has_total_allocated() const { return at<3>().valid(); }
+ int64_t total_allocated() const { return at<3>().as_int64(); }
+};
+
+class IonHeapShrinkFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = IonHeapShrinkFtraceEvent_Decoder;
+ enum : int32_t {
+ kHeapNameFieldNumber = 1,
+ kLenFieldNumber = 2,
+ kTotalAllocatedFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.IonHeapShrinkFtraceEvent"; }
+
+
+ using FieldMetadata_HeapName =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ IonHeapShrinkFtraceEvent>;
+
+ static constexpr FieldMetadata_HeapName kHeapName{};
+ void set_heap_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_HeapName::kFieldId, data, size);
+ }
+ void set_heap_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_HeapName::kFieldId, chars.data, chars.size);
+ }
+ void set_heap_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_HeapName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ IonHeapShrinkFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TotalAllocated =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ IonHeapShrinkFtraceEvent>;
+
+ static constexpr FieldMetadata_TotalAllocated kTotalAllocated{};
+ void set_total_allocated(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TotalAllocated::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class RssStatFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ RssStatFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit RssStatFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit RssStatFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_member() const { return at<1>().valid(); }
+ int32_t member() const { return at<1>().as_int32(); }
+ bool has_size() const { return at<2>().valid(); }
+ int64_t size() const { return at<2>().as_int64(); }
+ bool has_curr() const { return at<3>().valid(); }
+ uint32_t curr() const { return at<3>().as_uint32(); }
+ bool has_mm_id() const { return at<4>().valid(); }
+ uint32_t mm_id() const { return at<4>().as_uint32(); }
+};
+
+class RssStatFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = RssStatFtraceEvent_Decoder;
+ enum : int32_t {
+ kMemberFieldNumber = 1,
+ kSizeFieldNumber = 2,
+ kCurrFieldNumber = 3,
+ kMmIdFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.RssStatFtraceEvent"; }
+
+
+ using FieldMetadata_Member =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ RssStatFtraceEvent>;
+
+ static constexpr FieldMetadata_Member kMember{};
+ void set_member(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Member::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Size =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ RssStatFtraceEvent>;
+
+ static constexpr FieldMetadata_Size kSize{};
+ void set_size(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Size::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Curr =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ RssStatFtraceEvent>;
+
+ static constexpr FieldMetadata_Curr kCurr{};
+ void set_curr(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Curr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MmId =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ RssStatFtraceEvent>;
+
+ static constexpr FieldMetadata_MmId kMmId{};
+ void set_mm_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MmId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class MmPagePcpuDrainFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MmPagePcpuDrainFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MmPagePcpuDrainFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MmPagePcpuDrainFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_migratetype() const { return at<1>().valid(); }
+ int32_t migratetype() const { return at<1>().as_int32(); }
+ bool has_order() const { return at<2>().valid(); }
+ uint32_t order() const { return at<2>().as_uint32(); }
+ bool has_page() const { return at<3>().valid(); }
+ uint64_t page() const { return at<3>().as_uint64(); }
+ bool has_pfn() const { return at<4>().valid(); }
+ uint64_t pfn() const { return at<4>().as_uint64(); }
+};
+
+class MmPagePcpuDrainFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MmPagePcpuDrainFtraceEvent_Decoder;
+ enum : int32_t {
+ kMigratetypeFieldNumber = 1,
+ kOrderFieldNumber = 2,
+ kPageFieldNumber = 3,
+ kPfnFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MmPagePcpuDrainFtraceEvent"; }
+
+
+ using FieldMetadata_Migratetype =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MmPagePcpuDrainFtraceEvent>;
+
+ static constexpr FieldMetadata_Migratetype kMigratetype{};
+ void set_migratetype(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Migratetype::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Order =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MmPagePcpuDrainFtraceEvent>;
+
+ static constexpr FieldMetadata_Order kOrder{};
+ void set_order(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Order::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Page =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MmPagePcpuDrainFtraceEvent>;
+
+ static constexpr FieldMetadata_Page kPage{};
+ void set_page(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Page::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pfn =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MmPagePcpuDrainFtraceEvent>;
+
+ static constexpr FieldMetadata_Pfn kPfn{};
+ void set_pfn(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pfn::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class MmPageFreeBatchedFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MmPageFreeBatchedFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MmPageFreeBatchedFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MmPageFreeBatchedFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_cold() const { return at<1>().valid(); }
+ int32_t cold() const { return at<1>().as_int32(); }
+ bool has_page() const { return at<2>().valid(); }
+ uint64_t page() const { return at<2>().as_uint64(); }
+ bool has_pfn() const { return at<3>().valid(); }
+ uint64_t pfn() const { return at<3>().as_uint64(); }
+};
+
+class MmPageFreeBatchedFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MmPageFreeBatchedFtraceEvent_Decoder;
+ enum : int32_t {
+ kColdFieldNumber = 1,
+ kPageFieldNumber = 2,
+ kPfnFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MmPageFreeBatchedFtraceEvent"; }
+
+
+ using FieldMetadata_Cold =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MmPageFreeBatchedFtraceEvent>;
+
+ static constexpr FieldMetadata_Cold kCold{};
+ void set_cold(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Cold::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Page =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MmPageFreeBatchedFtraceEvent>;
+
+ static constexpr FieldMetadata_Page kPage{};
+ void set_page(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Page::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pfn =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MmPageFreeBatchedFtraceEvent>;
+
+ static constexpr FieldMetadata_Pfn kPfn{};
+ void set_pfn(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pfn::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class MmPageFreeFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MmPageFreeFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MmPageFreeFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MmPageFreeFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_order() const { return at<1>().valid(); }
+ uint32_t order() const { return at<1>().as_uint32(); }
+ bool has_page() const { return at<2>().valid(); }
+ uint64_t page() const { return at<2>().as_uint64(); }
+ bool has_pfn() const { return at<3>().valid(); }
+ uint64_t pfn() const { return at<3>().as_uint64(); }
+};
+
+class MmPageFreeFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MmPageFreeFtraceEvent_Decoder;
+ enum : int32_t {
+ kOrderFieldNumber = 1,
+ kPageFieldNumber = 2,
+ kPfnFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MmPageFreeFtraceEvent"; }
+
+
+ using FieldMetadata_Order =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MmPageFreeFtraceEvent>;
+
+ static constexpr FieldMetadata_Order kOrder{};
+ void set_order(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Order::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Page =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MmPageFreeFtraceEvent>;
+
+ static constexpr FieldMetadata_Page kPage{};
+ void set_page(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Page::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pfn =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MmPageFreeFtraceEvent>;
+
+ static constexpr FieldMetadata_Pfn kPfn{};
+ void set_pfn(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pfn::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class MmPageAllocZoneLockedFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MmPageAllocZoneLockedFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MmPageAllocZoneLockedFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MmPageAllocZoneLockedFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_migratetype() const { return at<1>().valid(); }
+ int32_t migratetype() const { return at<1>().as_int32(); }
+ bool has_order() const { return at<2>().valid(); }
+ uint32_t order() const { return at<2>().as_uint32(); }
+ bool has_page() const { return at<3>().valid(); }
+ uint64_t page() const { return at<3>().as_uint64(); }
+ bool has_pfn() const { return at<4>().valid(); }
+ uint64_t pfn() const { return at<4>().as_uint64(); }
+};
+
+class MmPageAllocZoneLockedFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MmPageAllocZoneLockedFtraceEvent_Decoder;
+ enum : int32_t {
+ kMigratetypeFieldNumber = 1,
+ kOrderFieldNumber = 2,
+ kPageFieldNumber = 3,
+ kPfnFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MmPageAllocZoneLockedFtraceEvent"; }
+
+
+ using FieldMetadata_Migratetype =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MmPageAllocZoneLockedFtraceEvent>;
+
+ static constexpr FieldMetadata_Migratetype kMigratetype{};
+ void set_migratetype(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Migratetype::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Order =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MmPageAllocZoneLockedFtraceEvent>;
+
+ static constexpr FieldMetadata_Order kOrder{};
+ void set_order(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Order::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Page =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MmPageAllocZoneLockedFtraceEvent>;
+
+ static constexpr FieldMetadata_Page kPage{};
+ void set_page(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Page::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pfn =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MmPageAllocZoneLockedFtraceEvent>;
+
+ static constexpr FieldMetadata_Pfn kPfn{};
+ void set_pfn(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pfn::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class MmPageAllocExtfragFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/7, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MmPageAllocExtfragFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MmPageAllocExtfragFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MmPageAllocExtfragFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_alloc_migratetype() const { return at<1>().valid(); }
+ int32_t alloc_migratetype() const { return at<1>().as_int32(); }
+ bool has_alloc_order() const { return at<2>().valid(); }
+ int32_t alloc_order() const { return at<2>().as_int32(); }
+ bool has_fallback_migratetype() const { return at<3>().valid(); }
+ int32_t fallback_migratetype() const { return at<3>().as_int32(); }
+ bool has_fallback_order() const { return at<4>().valid(); }
+ int32_t fallback_order() const { return at<4>().as_int32(); }
+ bool has_page() const { return at<5>().valid(); }
+ uint64_t page() const { return at<5>().as_uint64(); }
+ bool has_change_ownership() const { return at<6>().valid(); }
+ int32_t change_ownership() const { return at<6>().as_int32(); }
+ bool has_pfn() const { return at<7>().valid(); }
+ uint64_t pfn() const { return at<7>().as_uint64(); }
+};
+
+class MmPageAllocExtfragFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MmPageAllocExtfragFtraceEvent_Decoder;
+ enum : int32_t {
+ kAllocMigratetypeFieldNumber = 1,
+ kAllocOrderFieldNumber = 2,
+ kFallbackMigratetypeFieldNumber = 3,
+ kFallbackOrderFieldNumber = 4,
+ kPageFieldNumber = 5,
+ kChangeOwnershipFieldNumber = 6,
+ kPfnFieldNumber = 7,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MmPageAllocExtfragFtraceEvent"; }
+
+
+ using FieldMetadata_AllocMigratetype =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MmPageAllocExtfragFtraceEvent>;
+
+ static constexpr FieldMetadata_AllocMigratetype kAllocMigratetype{};
+ void set_alloc_migratetype(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_AllocMigratetype::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_AllocOrder =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MmPageAllocExtfragFtraceEvent>;
+
+ static constexpr FieldMetadata_AllocOrder kAllocOrder{};
+ void set_alloc_order(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_AllocOrder::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FallbackMigratetype =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MmPageAllocExtfragFtraceEvent>;
+
+ static constexpr FieldMetadata_FallbackMigratetype kFallbackMigratetype{};
+ void set_fallback_migratetype(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FallbackMigratetype::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FallbackOrder =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MmPageAllocExtfragFtraceEvent>;
+
+ static constexpr FieldMetadata_FallbackOrder kFallbackOrder{};
+ void set_fallback_order(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FallbackOrder::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Page =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MmPageAllocExtfragFtraceEvent>;
+
+ static constexpr FieldMetadata_Page kPage{};
+ void set_page(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Page::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ChangeOwnership =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MmPageAllocExtfragFtraceEvent>;
+
+ static constexpr FieldMetadata_ChangeOwnership kChangeOwnership{};
+ void set_change_ownership(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ChangeOwnership::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pfn =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MmPageAllocExtfragFtraceEvent>;
+
+ static constexpr FieldMetadata_Pfn kPfn{};
+ void set_pfn(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pfn::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class MmPageAllocFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MmPageAllocFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MmPageAllocFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MmPageAllocFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_gfp_flags() const { return at<1>().valid(); }
+ uint32_t gfp_flags() const { return at<1>().as_uint32(); }
+ bool has_migratetype() const { return at<2>().valid(); }
+ int32_t migratetype() const { return at<2>().as_int32(); }
+ bool has_order() const { return at<3>().valid(); }
+ uint32_t order() const { return at<3>().as_uint32(); }
+ bool has_page() const { return at<4>().valid(); }
+ uint64_t page() const { return at<4>().as_uint64(); }
+ bool has_pfn() const { return at<5>().valid(); }
+ uint64_t pfn() const { return at<5>().as_uint64(); }
+};
+
+class MmPageAllocFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MmPageAllocFtraceEvent_Decoder;
+ enum : int32_t {
+ kGfpFlagsFieldNumber = 1,
+ kMigratetypeFieldNumber = 2,
+ kOrderFieldNumber = 3,
+ kPageFieldNumber = 4,
+ kPfnFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MmPageAllocFtraceEvent"; }
+
+
+ using FieldMetadata_GfpFlags =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MmPageAllocFtraceEvent>;
+
+ static constexpr FieldMetadata_GfpFlags kGfpFlags{};
+ void set_gfp_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_GfpFlags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Migratetype =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MmPageAllocFtraceEvent>;
+
+ static constexpr FieldMetadata_Migratetype kMigratetype{};
+ void set_migratetype(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Migratetype::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Order =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MmPageAllocFtraceEvent>;
+
+ static constexpr FieldMetadata_Order kOrder{};
+ void set_order(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Order::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Page =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MmPageAllocFtraceEvent>;
+
+ static constexpr FieldMetadata_Page kPage{};
+ void set_page(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Page::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pfn =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MmPageAllocFtraceEvent>;
+
+ static constexpr FieldMetadata_Pfn kPfn{};
+ void set_pfn(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pfn::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class MigrateRetryFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MigrateRetryFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MigrateRetryFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MigrateRetryFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_tries() const { return at<1>().valid(); }
+ int32_t tries() const { return at<1>().as_int32(); }
+};
+
+class MigrateRetryFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MigrateRetryFtraceEvent_Decoder;
+ enum : int32_t {
+ kTriesFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MigrateRetryFtraceEvent"; }
+
+
+ using FieldMetadata_Tries =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MigrateRetryFtraceEvent>;
+
+ static constexpr FieldMetadata_Tries kTries{};
+ void set_tries(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Tries::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class MigratePagesStartFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MigratePagesStartFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MigratePagesStartFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MigratePagesStartFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_mode() const { return at<1>().valid(); }
+ int32_t mode() const { return at<1>().as_int32(); }
+};
+
+class MigratePagesStartFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MigratePagesStartFtraceEvent_Decoder;
+ enum : int32_t {
+ kModeFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MigratePagesStartFtraceEvent"; }
+
+
+ using FieldMetadata_Mode =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MigratePagesStartFtraceEvent>;
+
+ static constexpr FieldMetadata_Mode kMode{};
+ void set_mode(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Mode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class MigratePagesEndFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MigratePagesEndFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MigratePagesEndFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MigratePagesEndFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_mode() const { return at<1>().valid(); }
+ int32_t mode() const { return at<1>().as_int32(); }
+};
+
+class MigratePagesEndFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MigratePagesEndFtraceEvent_Decoder;
+ enum : int32_t {
+ kModeFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MigratePagesEndFtraceEvent"; }
+
+
+ using FieldMetadata_Mode =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MigratePagesEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Mode kMode{};
+ void set_mode(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Mode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class KmemCacheFreeFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ KmemCacheFreeFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit KmemCacheFreeFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit KmemCacheFreeFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_call_site() const { return at<1>().valid(); }
+ uint64_t call_site() const { return at<1>().as_uint64(); }
+ bool has_ptr() const { return at<2>().valid(); }
+ uint64_t ptr() const { return at<2>().as_uint64(); }
+};
+
+class KmemCacheFreeFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = KmemCacheFreeFtraceEvent_Decoder;
+ enum : int32_t {
+ kCallSiteFieldNumber = 1,
+ kPtrFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.KmemCacheFreeFtraceEvent"; }
+
+
+ using FieldMetadata_CallSite =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KmemCacheFreeFtraceEvent>;
+
+ static constexpr FieldMetadata_CallSite kCallSite{};
+ void set_call_site(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CallSite::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ptr =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KmemCacheFreeFtraceEvent>;
+
+ static constexpr FieldMetadata_Ptr kPtr{};
+ void set_ptr(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ptr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class KmemCacheAllocNodeFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/6, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ KmemCacheAllocNodeFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit KmemCacheAllocNodeFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit KmemCacheAllocNodeFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_bytes_alloc() const { return at<1>().valid(); }
+ uint64_t bytes_alloc() const { return at<1>().as_uint64(); }
+ bool has_bytes_req() const { return at<2>().valid(); }
+ uint64_t bytes_req() const { return at<2>().as_uint64(); }
+ bool has_call_site() const { return at<3>().valid(); }
+ uint64_t call_site() const { return at<3>().as_uint64(); }
+ bool has_gfp_flags() const { return at<4>().valid(); }
+ uint32_t gfp_flags() const { return at<4>().as_uint32(); }
+ bool has_node() const { return at<5>().valid(); }
+ int32_t node() const { return at<5>().as_int32(); }
+ bool has_ptr() const { return at<6>().valid(); }
+ uint64_t ptr() const { return at<6>().as_uint64(); }
+};
+
+class KmemCacheAllocNodeFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = KmemCacheAllocNodeFtraceEvent_Decoder;
+ enum : int32_t {
+ kBytesAllocFieldNumber = 1,
+ kBytesReqFieldNumber = 2,
+ kCallSiteFieldNumber = 3,
+ kGfpFlagsFieldNumber = 4,
+ kNodeFieldNumber = 5,
+ kPtrFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.KmemCacheAllocNodeFtraceEvent"; }
+
+
+ using FieldMetadata_BytesAlloc =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KmemCacheAllocNodeFtraceEvent>;
+
+ static constexpr FieldMetadata_BytesAlloc kBytesAlloc{};
+ void set_bytes_alloc(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BytesAlloc::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BytesReq =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KmemCacheAllocNodeFtraceEvent>;
+
+ static constexpr FieldMetadata_BytesReq kBytesReq{};
+ void set_bytes_req(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BytesReq::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CallSite =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KmemCacheAllocNodeFtraceEvent>;
+
+ static constexpr FieldMetadata_CallSite kCallSite{};
+ void set_call_site(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CallSite::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_GfpFlags =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ KmemCacheAllocNodeFtraceEvent>;
+
+ static constexpr FieldMetadata_GfpFlags kGfpFlags{};
+ void set_gfp_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_GfpFlags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Node =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ KmemCacheAllocNodeFtraceEvent>;
+
+ static constexpr FieldMetadata_Node kNode{};
+ void set_node(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Node::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ptr =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KmemCacheAllocNodeFtraceEvent>;
+
+ static constexpr FieldMetadata_Ptr kPtr{};
+ void set_ptr(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ptr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class KmemCacheAllocFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ KmemCacheAllocFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit KmemCacheAllocFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit KmemCacheAllocFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_bytes_alloc() const { return at<1>().valid(); }
+ uint64_t bytes_alloc() const { return at<1>().as_uint64(); }
+ bool has_bytes_req() const { return at<2>().valid(); }
+ uint64_t bytes_req() const { return at<2>().as_uint64(); }
+ bool has_call_site() const { return at<3>().valid(); }
+ uint64_t call_site() const { return at<3>().as_uint64(); }
+ bool has_gfp_flags() const { return at<4>().valid(); }
+ uint32_t gfp_flags() const { return at<4>().as_uint32(); }
+ bool has_ptr() const { return at<5>().valid(); }
+ uint64_t ptr() const { return at<5>().as_uint64(); }
+};
+
+class KmemCacheAllocFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = KmemCacheAllocFtraceEvent_Decoder;
+ enum : int32_t {
+ kBytesAllocFieldNumber = 1,
+ kBytesReqFieldNumber = 2,
+ kCallSiteFieldNumber = 3,
+ kGfpFlagsFieldNumber = 4,
+ kPtrFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.KmemCacheAllocFtraceEvent"; }
+
+
+ using FieldMetadata_BytesAlloc =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KmemCacheAllocFtraceEvent>;
+
+ static constexpr FieldMetadata_BytesAlloc kBytesAlloc{};
+ void set_bytes_alloc(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BytesAlloc::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BytesReq =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KmemCacheAllocFtraceEvent>;
+
+ static constexpr FieldMetadata_BytesReq kBytesReq{};
+ void set_bytes_req(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BytesReq::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CallSite =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KmemCacheAllocFtraceEvent>;
+
+ static constexpr FieldMetadata_CallSite kCallSite{};
+ void set_call_site(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CallSite::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_GfpFlags =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ KmemCacheAllocFtraceEvent>;
+
+ static constexpr FieldMetadata_GfpFlags kGfpFlags{};
+ void set_gfp_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_GfpFlags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ptr =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KmemCacheAllocFtraceEvent>;
+
+ static constexpr FieldMetadata_Ptr kPtr{};
+ void set_ptr(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ptr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class KmallocNodeFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/6, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ KmallocNodeFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit KmallocNodeFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit KmallocNodeFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_bytes_alloc() const { return at<1>().valid(); }
+ uint64_t bytes_alloc() const { return at<1>().as_uint64(); }
+ bool has_bytes_req() const { return at<2>().valid(); }
+ uint64_t bytes_req() const { return at<2>().as_uint64(); }
+ bool has_call_site() const { return at<3>().valid(); }
+ uint64_t call_site() const { return at<3>().as_uint64(); }
+ bool has_gfp_flags() const { return at<4>().valid(); }
+ uint32_t gfp_flags() const { return at<4>().as_uint32(); }
+ bool has_node() const { return at<5>().valid(); }
+ int32_t node() const { return at<5>().as_int32(); }
+ bool has_ptr() const { return at<6>().valid(); }
+ uint64_t ptr() const { return at<6>().as_uint64(); }
+};
+
+class KmallocNodeFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = KmallocNodeFtraceEvent_Decoder;
+ enum : int32_t {
+ kBytesAllocFieldNumber = 1,
+ kBytesReqFieldNumber = 2,
+ kCallSiteFieldNumber = 3,
+ kGfpFlagsFieldNumber = 4,
+ kNodeFieldNumber = 5,
+ kPtrFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.KmallocNodeFtraceEvent"; }
+
+
+ using FieldMetadata_BytesAlloc =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KmallocNodeFtraceEvent>;
+
+ static constexpr FieldMetadata_BytesAlloc kBytesAlloc{};
+ void set_bytes_alloc(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BytesAlloc::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BytesReq =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KmallocNodeFtraceEvent>;
+
+ static constexpr FieldMetadata_BytesReq kBytesReq{};
+ void set_bytes_req(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BytesReq::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CallSite =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KmallocNodeFtraceEvent>;
+
+ static constexpr FieldMetadata_CallSite kCallSite{};
+ void set_call_site(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CallSite::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_GfpFlags =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ KmallocNodeFtraceEvent>;
+
+ static constexpr FieldMetadata_GfpFlags kGfpFlags{};
+ void set_gfp_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_GfpFlags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Node =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ KmallocNodeFtraceEvent>;
+
+ static constexpr FieldMetadata_Node kNode{};
+ void set_node(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Node::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ptr =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KmallocNodeFtraceEvent>;
+
+ static constexpr FieldMetadata_Ptr kPtr{};
+ void set_ptr(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ptr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class KmallocFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ KmallocFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit KmallocFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit KmallocFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_bytes_alloc() const { return at<1>().valid(); }
+ uint64_t bytes_alloc() const { return at<1>().as_uint64(); }
+ bool has_bytes_req() const { return at<2>().valid(); }
+ uint64_t bytes_req() const { return at<2>().as_uint64(); }
+ bool has_call_site() const { return at<3>().valid(); }
+ uint64_t call_site() const { return at<3>().as_uint64(); }
+ bool has_gfp_flags() const { return at<4>().valid(); }
+ uint32_t gfp_flags() const { return at<4>().as_uint32(); }
+ bool has_ptr() const { return at<5>().valid(); }
+ uint64_t ptr() const { return at<5>().as_uint64(); }
+};
+
+class KmallocFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = KmallocFtraceEvent_Decoder;
+ enum : int32_t {
+ kBytesAllocFieldNumber = 1,
+ kBytesReqFieldNumber = 2,
+ kCallSiteFieldNumber = 3,
+ kGfpFlagsFieldNumber = 4,
+ kPtrFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.KmallocFtraceEvent"; }
+
+
+ using FieldMetadata_BytesAlloc =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KmallocFtraceEvent>;
+
+ static constexpr FieldMetadata_BytesAlloc kBytesAlloc{};
+ void set_bytes_alloc(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BytesAlloc::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BytesReq =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KmallocFtraceEvent>;
+
+ static constexpr FieldMetadata_BytesReq kBytesReq{};
+ void set_bytes_req(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BytesReq::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CallSite =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KmallocFtraceEvent>;
+
+ static constexpr FieldMetadata_CallSite kCallSite{};
+ void set_call_site(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CallSite::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_GfpFlags =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ KmallocFtraceEvent>;
+
+ static constexpr FieldMetadata_GfpFlags kGfpFlags{};
+ void set_gfp_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_GfpFlags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ptr =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KmallocFtraceEvent>;
+
+ static constexpr FieldMetadata_Ptr kPtr{};
+ void set_ptr(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ptr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class KfreeFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ KfreeFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit KfreeFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit KfreeFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_call_site() const { return at<1>().valid(); }
+ uint64_t call_site() const { return at<1>().as_uint64(); }
+ bool has_ptr() const { return at<2>().valid(); }
+ uint64_t ptr() const { return at<2>().as_uint64(); }
+};
+
+class KfreeFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = KfreeFtraceEvent_Decoder;
+ enum : int32_t {
+ kCallSiteFieldNumber = 1,
+ kPtrFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.KfreeFtraceEvent"; }
+
+
+ using FieldMetadata_CallSite =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KfreeFtraceEvent>;
+
+ static constexpr FieldMetadata_CallSite kCallSite{};
+ void set_call_site(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CallSite::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ptr =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KfreeFtraceEvent>;
+
+ static constexpr FieldMetadata_Ptr kPtr{};
+ void set_ptr(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ptr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class IonSecureCmaShrinkPoolStartFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ IonSecureCmaShrinkPoolStartFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit IonSecureCmaShrinkPoolStartFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit IonSecureCmaShrinkPoolStartFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_drained_size() const { return at<1>().valid(); }
+ uint64_t drained_size() const { return at<1>().as_uint64(); }
+ bool has_skipped_size() const { return at<2>().valid(); }
+ uint64_t skipped_size() const { return at<2>().as_uint64(); }
+};
+
+class IonSecureCmaShrinkPoolStartFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = IonSecureCmaShrinkPoolStartFtraceEvent_Decoder;
+ enum : int32_t {
+ kDrainedSizeFieldNumber = 1,
+ kSkippedSizeFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.IonSecureCmaShrinkPoolStartFtraceEvent"; }
+
+
+ using FieldMetadata_DrainedSize =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ IonSecureCmaShrinkPoolStartFtraceEvent>;
+
+ static constexpr FieldMetadata_DrainedSize kDrainedSize{};
+ void set_drained_size(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DrainedSize::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SkippedSize =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ IonSecureCmaShrinkPoolStartFtraceEvent>;
+
+ static constexpr FieldMetadata_SkippedSize kSkippedSize{};
+ void set_skipped_size(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SkippedSize::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class IonSecureCmaShrinkPoolEndFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ IonSecureCmaShrinkPoolEndFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit IonSecureCmaShrinkPoolEndFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit IonSecureCmaShrinkPoolEndFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_drained_size() const { return at<1>().valid(); }
+ uint64_t drained_size() const { return at<1>().as_uint64(); }
+ bool has_skipped_size() const { return at<2>().valid(); }
+ uint64_t skipped_size() const { return at<2>().as_uint64(); }
+};
+
+class IonSecureCmaShrinkPoolEndFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = IonSecureCmaShrinkPoolEndFtraceEvent_Decoder;
+ enum : int32_t {
+ kDrainedSizeFieldNumber = 1,
+ kSkippedSizeFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.IonSecureCmaShrinkPoolEndFtraceEvent"; }
+
+
+ using FieldMetadata_DrainedSize =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ IonSecureCmaShrinkPoolEndFtraceEvent>;
+
+ static constexpr FieldMetadata_DrainedSize kDrainedSize{};
+ void set_drained_size(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DrainedSize::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SkippedSize =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ IonSecureCmaShrinkPoolEndFtraceEvent>;
+
+ static constexpr FieldMetadata_SkippedSize kSkippedSize{};
+ void set_skipped_size(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SkippedSize::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class IonSecureCmaAllocateStartFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ IonSecureCmaAllocateStartFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit IonSecureCmaAllocateStartFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit IonSecureCmaAllocateStartFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_align() const { return at<1>().valid(); }
+ uint64_t align() const { return at<1>().as_uint64(); }
+ bool has_flags() const { return at<2>().valid(); }
+ uint64_t flags() const { return at<2>().as_uint64(); }
+ bool has_heap_name() const { return at<3>().valid(); }
+ ::protozero::ConstChars heap_name() const { return at<3>().as_string(); }
+ bool has_len() const { return at<4>().valid(); }
+ uint64_t len() const { return at<4>().as_uint64(); }
+};
+
+class IonSecureCmaAllocateStartFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = IonSecureCmaAllocateStartFtraceEvent_Decoder;
+ enum : int32_t {
+ kAlignFieldNumber = 1,
+ kFlagsFieldNumber = 2,
+ kHeapNameFieldNumber = 3,
+ kLenFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.IonSecureCmaAllocateStartFtraceEvent"; }
+
+
+ using FieldMetadata_Align =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ IonSecureCmaAllocateStartFtraceEvent>;
+
+ static constexpr FieldMetadata_Align kAlign{};
+ void set_align(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Align::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Flags =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ IonSecureCmaAllocateStartFtraceEvent>;
+
+ static constexpr FieldMetadata_Flags kFlags{};
+ void set_flags(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Flags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_HeapName =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ IonSecureCmaAllocateStartFtraceEvent>;
+
+ static constexpr FieldMetadata_HeapName kHeapName{};
+ void set_heap_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_HeapName::kFieldId, data, size);
+ }
+ void set_heap_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_HeapName::kFieldId, chars.data, chars.size);
+ }
+ void set_heap_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_HeapName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ IonSecureCmaAllocateStartFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class IonSecureCmaAllocateEndFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ IonSecureCmaAllocateEndFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit IonSecureCmaAllocateEndFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit IonSecureCmaAllocateEndFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_align() const { return at<1>().valid(); }
+ uint64_t align() const { return at<1>().as_uint64(); }
+ bool has_flags() const { return at<2>().valid(); }
+ uint64_t flags() const { return at<2>().as_uint64(); }
+ bool has_heap_name() const { return at<3>().valid(); }
+ ::protozero::ConstChars heap_name() const { return at<3>().as_string(); }
+ bool has_len() const { return at<4>().valid(); }
+ uint64_t len() const { return at<4>().as_uint64(); }
+};
+
+class IonSecureCmaAllocateEndFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = IonSecureCmaAllocateEndFtraceEvent_Decoder;
+ enum : int32_t {
+ kAlignFieldNumber = 1,
+ kFlagsFieldNumber = 2,
+ kHeapNameFieldNumber = 3,
+ kLenFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.IonSecureCmaAllocateEndFtraceEvent"; }
+
+
+ using FieldMetadata_Align =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ IonSecureCmaAllocateEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Align kAlign{};
+ void set_align(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Align::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Flags =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ IonSecureCmaAllocateEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Flags kFlags{};
+ void set_flags(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Flags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_HeapName =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ IonSecureCmaAllocateEndFtraceEvent>;
+
+ static constexpr FieldMetadata_HeapName kHeapName{};
+ void set_heap_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_HeapName::kFieldId, data, size);
+ }
+ void set_heap_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_HeapName::kFieldId, chars.data, chars.size);
+ }
+ void set_heap_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_HeapName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ IonSecureCmaAllocateEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class IonSecureCmaAddToPoolStartFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ IonSecureCmaAddToPoolStartFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit IonSecureCmaAddToPoolStartFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit IonSecureCmaAddToPoolStartFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_is_prefetch() const { return at<1>().valid(); }
+ uint32_t is_prefetch() const { return at<1>().as_uint32(); }
+ bool has_len() const { return at<2>().valid(); }
+ uint64_t len() const { return at<2>().as_uint64(); }
+ bool has_pool_total() const { return at<3>().valid(); }
+ int32_t pool_total() const { return at<3>().as_int32(); }
+};
+
+class IonSecureCmaAddToPoolStartFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = IonSecureCmaAddToPoolStartFtraceEvent_Decoder;
+ enum : int32_t {
+ kIsPrefetchFieldNumber = 1,
+ kLenFieldNumber = 2,
+ kPoolTotalFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.IonSecureCmaAddToPoolStartFtraceEvent"; }
+
+
+ using FieldMetadata_IsPrefetch =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ IonSecureCmaAddToPoolStartFtraceEvent>;
+
+ static constexpr FieldMetadata_IsPrefetch kIsPrefetch{};
+ void set_is_prefetch(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_IsPrefetch::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ IonSecureCmaAddToPoolStartFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PoolTotal =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ IonSecureCmaAddToPoolStartFtraceEvent>;
+
+ static constexpr FieldMetadata_PoolTotal kPoolTotal{};
+ void set_pool_total(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PoolTotal::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class IonSecureCmaAddToPoolEndFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ IonSecureCmaAddToPoolEndFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit IonSecureCmaAddToPoolEndFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit IonSecureCmaAddToPoolEndFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_is_prefetch() const { return at<1>().valid(); }
+ uint32_t is_prefetch() const { return at<1>().as_uint32(); }
+ bool has_len() const { return at<2>().valid(); }
+ uint64_t len() const { return at<2>().as_uint64(); }
+ bool has_pool_total() const { return at<3>().valid(); }
+ int32_t pool_total() const { return at<3>().as_int32(); }
+};
+
+class IonSecureCmaAddToPoolEndFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = IonSecureCmaAddToPoolEndFtraceEvent_Decoder;
+ enum : int32_t {
+ kIsPrefetchFieldNumber = 1,
+ kLenFieldNumber = 2,
+ kPoolTotalFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.IonSecureCmaAddToPoolEndFtraceEvent"; }
+
+
+ using FieldMetadata_IsPrefetch =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ IonSecureCmaAddToPoolEndFtraceEvent>;
+
+ static constexpr FieldMetadata_IsPrefetch kIsPrefetch{};
+ void set_is_prefetch(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_IsPrefetch::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ IonSecureCmaAddToPoolEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PoolTotal =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ IonSecureCmaAddToPoolEndFtraceEvent>;
+
+ static constexpr FieldMetadata_PoolTotal kPoolTotal{};
+ void set_pool_total(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PoolTotal::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class IonPrefetchingFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ IonPrefetchingFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit IonPrefetchingFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit IonPrefetchingFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_len() const { return at<1>().valid(); }
+ uint64_t len() const { return at<1>().as_uint64(); }
+};
+
+class IonPrefetchingFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = IonPrefetchingFtraceEvent_Decoder;
+ enum : int32_t {
+ kLenFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.IonPrefetchingFtraceEvent"; }
+
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ IonPrefetchingFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class IonCpSecureBufferStartFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ IonCpSecureBufferStartFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit IonCpSecureBufferStartFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit IonCpSecureBufferStartFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_align() const { return at<1>().valid(); }
+ uint64_t align() const { return at<1>().as_uint64(); }
+ bool has_flags() const { return at<2>().valid(); }
+ uint64_t flags() const { return at<2>().as_uint64(); }
+ bool has_heap_name() const { return at<3>().valid(); }
+ ::protozero::ConstChars heap_name() const { return at<3>().as_string(); }
+ bool has_len() const { return at<4>().valid(); }
+ uint64_t len() const { return at<4>().as_uint64(); }
+};
+
+class IonCpSecureBufferStartFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = IonCpSecureBufferStartFtraceEvent_Decoder;
+ enum : int32_t {
+ kAlignFieldNumber = 1,
+ kFlagsFieldNumber = 2,
+ kHeapNameFieldNumber = 3,
+ kLenFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.IonCpSecureBufferStartFtraceEvent"; }
+
+
+ using FieldMetadata_Align =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ IonCpSecureBufferStartFtraceEvent>;
+
+ static constexpr FieldMetadata_Align kAlign{};
+ void set_align(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Align::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Flags =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ IonCpSecureBufferStartFtraceEvent>;
+
+ static constexpr FieldMetadata_Flags kFlags{};
+ void set_flags(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Flags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_HeapName =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ IonCpSecureBufferStartFtraceEvent>;
+
+ static constexpr FieldMetadata_HeapName kHeapName{};
+ void set_heap_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_HeapName::kFieldId, data, size);
+ }
+ void set_heap_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_HeapName::kFieldId, chars.data, chars.size);
+ }
+ void set_heap_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_HeapName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ IonCpSecureBufferStartFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class IonCpSecureBufferEndFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ IonCpSecureBufferEndFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit IonCpSecureBufferEndFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit IonCpSecureBufferEndFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_align() const { return at<1>().valid(); }
+ uint64_t align() const { return at<1>().as_uint64(); }
+ bool has_flags() const { return at<2>().valid(); }
+ uint64_t flags() const { return at<2>().as_uint64(); }
+ bool has_heap_name() const { return at<3>().valid(); }
+ ::protozero::ConstChars heap_name() const { return at<3>().as_string(); }
+ bool has_len() const { return at<4>().valid(); }
+ uint64_t len() const { return at<4>().as_uint64(); }
+};
+
+class IonCpSecureBufferEndFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = IonCpSecureBufferEndFtraceEvent_Decoder;
+ enum : int32_t {
+ kAlignFieldNumber = 1,
+ kFlagsFieldNumber = 2,
+ kHeapNameFieldNumber = 3,
+ kLenFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.IonCpSecureBufferEndFtraceEvent"; }
+
+
+ using FieldMetadata_Align =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ IonCpSecureBufferEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Align kAlign{};
+ void set_align(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Align::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Flags =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ IonCpSecureBufferEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Flags kFlags{};
+ void set_flags(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Flags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_HeapName =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ IonCpSecureBufferEndFtraceEvent>;
+
+ static constexpr FieldMetadata_HeapName kHeapName{};
+ void set_heap_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_HeapName::kFieldId, data, size);
+ }
+ void set_heap_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_HeapName::kFieldId, chars.data, chars.size);
+ }
+ void set_heap_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_HeapName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ IonCpSecureBufferEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class IonCpAllocRetryFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ IonCpAllocRetryFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit IonCpAllocRetryFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit IonCpAllocRetryFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_tries() const { return at<1>().valid(); }
+ int32_t tries() const { return at<1>().as_int32(); }
+};
+
+class IonCpAllocRetryFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = IonCpAllocRetryFtraceEvent_Decoder;
+ enum : int32_t {
+ kTriesFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.IonCpAllocRetryFtraceEvent"; }
+
+
+ using FieldMetadata_Tries =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ IonCpAllocRetryFtraceEvent>;
+
+ static constexpr FieldMetadata_Tries kTries{};
+ void set_tries(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Tries::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class IonAllocBufferStartFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ IonAllocBufferStartFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit IonAllocBufferStartFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit IonAllocBufferStartFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_client_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars client_name() const { return at<1>().as_string(); }
+ bool has_flags() const { return at<2>().valid(); }
+ uint32_t flags() const { return at<2>().as_uint32(); }
+ bool has_heap_name() const { return at<3>().valid(); }
+ ::protozero::ConstChars heap_name() const { return at<3>().as_string(); }
+ bool has_len() const { return at<4>().valid(); }
+ uint64_t len() const { return at<4>().as_uint64(); }
+ bool has_mask() const { return at<5>().valid(); }
+ uint32_t mask() const { return at<5>().as_uint32(); }
+};
+
+class IonAllocBufferStartFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = IonAllocBufferStartFtraceEvent_Decoder;
+ enum : int32_t {
+ kClientNameFieldNumber = 1,
+ kFlagsFieldNumber = 2,
+ kHeapNameFieldNumber = 3,
+ kLenFieldNumber = 4,
+ kMaskFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.IonAllocBufferStartFtraceEvent"; }
+
+
+ using FieldMetadata_ClientName =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ IonAllocBufferStartFtraceEvent>;
+
+ static constexpr FieldMetadata_ClientName kClientName{};
+ void set_client_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_ClientName::kFieldId, data, size);
+ }
+ void set_client_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_ClientName::kFieldId, chars.data, chars.size);
+ }
+ void set_client_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_ClientName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Flags =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ IonAllocBufferStartFtraceEvent>;
+
+ static constexpr FieldMetadata_Flags kFlags{};
+ void set_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Flags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_HeapName =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ IonAllocBufferStartFtraceEvent>;
+
+ static constexpr FieldMetadata_HeapName kHeapName{};
+ void set_heap_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_HeapName::kFieldId, data, size);
+ }
+ void set_heap_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_HeapName::kFieldId, chars.data, chars.size);
+ }
+ void set_heap_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_HeapName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ IonAllocBufferStartFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Mask =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ IonAllocBufferStartFtraceEvent>;
+
+ static constexpr FieldMetadata_Mask kMask{};
+ void set_mask(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Mask::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class IonAllocBufferFallbackFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/6, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ IonAllocBufferFallbackFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit IonAllocBufferFallbackFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit IonAllocBufferFallbackFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_client_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars client_name() const { return at<1>().as_string(); }
+ bool has_error() const { return at<2>().valid(); }
+ int64_t error() const { return at<2>().as_int64(); }
+ bool has_flags() const { return at<3>().valid(); }
+ uint32_t flags() const { return at<3>().as_uint32(); }
+ bool has_heap_name() const { return at<4>().valid(); }
+ ::protozero::ConstChars heap_name() const { return at<4>().as_string(); }
+ bool has_len() const { return at<5>().valid(); }
+ uint64_t len() const { return at<5>().as_uint64(); }
+ bool has_mask() const { return at<6>().valid(); }
+ uint32_t mask() const { return at<6>().as_uint32(); }
+};
+
+class IonAllocBufferFallbackFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = IonAllocBufferFallbackFtraceEvent_Decoder;
+ enum : int32_t {
+ kClientNameFieldNumber = 1,
+ kErrorFieldNumber = 2,
+ kFlagsFieldNumber = 3,
+ kHeapNameFieldNumber = 4,
+ kLenFieldNumber = 5,
+ kMaskFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.IonAllocBufferFallbackFtraceEvent"; }
+
+
+ using FieldMetadata_ClientName =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ IonAllocBufferFallbackFtraceEvent>;
+
+ static constexpr FieldMetadata_ClientName kClientName{};
+ void set_client_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_ClientName::kFieldId, data, size);
+ }
+ void set_client_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_ClientName::kFieldId, chars.data, chars.size);
+ }
+ void set_client_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_ClientName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Error =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ IonAllocBufferFallbackFtraceEvent>;
+
+ static constexpr FieldMetadata_Error kError{};
+ void set_error(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Error::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Flags =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ IonAllocBufferFallbackFtraceEvent>;
+
+ static constexpr FieldMetadata_Flags kFlags{};
+ void set_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Flags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_HeapName =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ IonAllocBufferFallbackFtraceEvent>;
+
+ static constexpr FieldMetadata_HeapName kHeapName{};
+ void set_heap_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_HeapName::kFieldId, data, size);
+ }
+ void set_heap_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_HeapName::kFieldId, chars.data, chars.size);
+ }
+ void set_heap_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_HeapName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ IonAllocBufferFallbackFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Mask =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ IonAllocBufferFallbackFtraceEvent>;
+
+ static constexpr FieldMetadata_Mask kMask{};
+ void set_mask(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Mask::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class IonAllocBufferFailFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/6, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ IonAllocBufferFailFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit IonAllocBufferFailFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit IonAllocBufferFailFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_client_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars client_name() const { return at<1>().as_string(); }
+ bool has_error() const { return at<2>().valid(); }
+ int64_t error() const { return at<2>().as_int64(); }
+ bool has_flags() const { return at<3>().valid(); }
+ uint32_t flags() const { return at<3>().as_uint32(); }
+ bool has_heap_name() const { return at<4>().valid(); }
+ ::protozero::ConstChars heap_name() const { return at<4>().as_string(); }
+ bool has_len() const { return at<5>().valid(); }
+ uint64_t len() const { return at<5>().as_uint64(); }
+ bool has_mask() const { return at<6>().valid(); }
+ uint32_t mask() const { return at<6>().as_uint32(); }
+};
+
+class IonAllocBufferFailFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = IonAllocBufferFailFtraceEvent_Decoder;
+ enum : int32_t {
+ kClientNameFieldNumber = 1,
+ kErrorFieldNumber = 2,
+ kFlagsFieldNumber = 3,
+ kHeapNameFieldNumber = 4,
+ kLenFieldNumber = 5,
+ kMaskFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.IonAllocBufferFailFtraceEvent"; }
+
+
+ using FieldMetadata_ClientName =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ IonAllocBufferFailFtraceEvent>;
+
+ static constexpr FieldMetadata_ClientName kClientName{};
+ void set_client_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_ClientName::kFieldId, data, size);
+ }
+ void set_client_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_ClientName::kFieldId, chars.data, chars.size);
+ }
+ void set_client_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_ClientName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Error =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ IonAllocBufferFailFtraceEvent>;
+
+ static constexpr FieldMetadata_Error kError{};
+ void set_error(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Error::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Flags =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ IonAllocBufferFailFtraceEvent>;
+
+ static constexpr FieldMetadata_Flags kFlags{};
+ void set_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Flags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_HeapName =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ IonAllocBufferFailFtraceEvent>;
+
+ static constexpr FieldMetadata_HeapName kHeapName{};
+ void set_heap_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_HeapName::kFieldId, data, size);
+ }
+ void set_heap_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_HeapName::kFieldId, chars.data, chars.size);
+ }
+ void set_heap_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_HeapName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ IonAllocBufferFailFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Mask =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ IonAllocBufferFailFtraceEvent>;
+
+ static constexpr FieldMetadata_Mask kMask{};
+ void set_mask(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Mask::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class IonAllocBufferEndFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ IonAllocBufferEndFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit IonAllocBufferEndFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit IonAllocBufferEndFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_client_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars client_name() const { return at<1>().as_string(); }
+ bool has_flags() const { return at<2>().valid(); }
+ uint32_t flags() const { return at<2>().as_uint32(); }
+ bool has_heap_name() const { return at<3>().valid(); }
+ ::protozero::ConstChars heap_name() const { return at<3>().as_string(); }
+ bool has_len() const { return at<4>().valid(); }
+ uint64_t len() const { return at<4>().as_uint64(); }
+ bool has_mask() const { return at<5>().valid(); }
+ uint32_t mask() const { return at<5>().as_uint32(); }
+};
+
+class IonAllocBufferEndFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = IonAllocBufferEndFtraceEvent_Decoder;
+ enum : int32_t {
+ kClientNameFieldNumber = 1,
+ kFlagsFieldNumber = 2,
+ kHeapNameFieldNumber = 3,
+ kLenFieldNumber = 4,
+ kMaskFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.IonAllocBufferEndFtraceEvent"; }
+
+
+ using FieldMetadata_ClientName =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ IonAllocBufferEndFtraceEvent>;
+
+ static constexpr FieldMetadata_ClientName kClientName{};
+ void set_client_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_ClientName::kFieldId, data, size);
+ }
+ void set_client_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_ClientName::kFieldId, chars.data, chars.size);
+ }
+ void set_client_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_ClientName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Flags =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ IonAllocBufferEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Flags kFlags{};
+ void set_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Flags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_HeapName =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ IonAllocBufferEndFtraceEvent>;
+
+ static constexpr FieldMetadata_HeapName kHeapName{};
+ void set_heap_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_HeapName::kFieldId, data, size);
+ }
+ void set_heap_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_HeapName::kFieldId, chars.data, chars.size);
+ }
+ void set_heap_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_HeapName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ IonAllocBufferEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Mask =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ IonAllocBufferEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Mask kMask{};
+ void set_mask(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Mask::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class IommuSecPtblMapRangeStartFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ IommuSecPtblMapRangeStartFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit IommuSecPtblMapRangeStartFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit IommuSecPtblMapRangeStartFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_len() const { return at<1>().valid(); }
+ uint64_t len() const { return at<1>().as_uint64(); }
+ bool has_num() const { return at<2>().valid(); }
+ int32_t num() const { return at<2>().as_int32(); }
+ bool has_pa() const { return at<3>().valid(); }
+ uint32_t pa() const { return at<3>().as_uint32(); }
+ bool has_sec_id() const { return at<4>().valid(); }
+ int32_t sec_id() const { return at<4>().as_int32(); }
+ bool has_va() const { return at<5>().valid(); }
+ uint64_t va() const { return at<5>().as_uint64(); }
+};
+
+class IommuSecPtblMapRangeStartFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = IommuSecPtblMapRangeStartFtraceEvent_Decoder;
+ enum : int32_t {
+ kLenFieldNumber = 1,
+ kNumFieldNumber = 2,
+ kPaFieldNumber = 3,
+ kSecIdFieldNumber = 4,
+ kVaFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.IommuSecPtblMapRangeStartFtraceEvent"; }
+
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ IommuSecPtblMapRangeStartFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Num =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ IommuSecPtblMapRangeStartFtraceEvent>;
+
+ static constexpr FieldMetadata_Num kNum{};
+ void set_num(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Num::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pa =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ IommuSecPtblMapRangeStartFtraceEvent>;
+
+ static constexpr FieldMetadata_Pa kPa{};
+ void set_pa(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pa::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SecId =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ IommuSecPtblMapRangeStartFtraceEvent>;
+
+ static constexpr FieldMetadata_SecId kSecId{};
+ void set_sec_id(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SecId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Va =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ IommuSecPtblMapRangeStartFtraceEvent>;
+
+ static constexpr FieldMetadata_Va kVa{};
+ void set_va(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Va::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class IommuSecPtblMapRangeEndFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ IommuSecPtblMapRangeEndFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit IommuSecPtblMapRangeEndFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit IommuSecPtblMapRangeEndFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_len() const { return at<1>().valid(); }
+ uint64_t len() const { return at<1>().as_uint64(); }
+ bool has_num() const { return at<2>().valid(); }
+ int32_t num() const { return at<2>().as_int32(); }
+ bool has_pa() const { return at<3>().valid(); }
+ uint32_t pa() const { return at<3>().as_uint32(); }
+ bool has_sec_id() const { return at<4>().valid(); }
+ int32_t sec_id() const { return at<4>().as_int32(); }
+ bool has_va() const { return at<5>().valid(); }
+ uint64_t va() const { return at<5>().as_uint64(); }
+};
+
+class IommuSecPtblMapRangeEndFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = IommuSecPtblMapRangeEndFtraceEvent_Decoder;
+ enum : int32_t {
+ kLenFieldNumber = 1,
+ kNumFieldNumber = 2,
+ kPaFieldNumber = 3,
+ kSecIdFieldNumber = 4,
+ kVaFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.IommuSecPtblMapRangeEndFtraceEvent"; }
+
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ IommuSecPtblMapRangeEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Num =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ IommuSecPtblMapRangeEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Num kNum{};
+ void set_num(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Num::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pa =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ IommuSecPtblMapRangeEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Pa kPa{};
+ void set_pa(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pa::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SecId =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ IommuSecPtblMapRangeEndFtraceEvent>;
+
+ static constexpr FieldMetadata_SecId kSecId{};
+ void set_sec_id(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SecId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Va =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ IommuSecPtblMapRangeEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Va kVa{};
+ void set_va(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Va::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class IommuMapRangeFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ IommuMapRangeFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit IommuMapRangeFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit IommuMapRangeFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_chunk_size() const { return at<1>().valid(); }
+ uint64_t chunk_size() const { return at<1>().as_uint64(); }
+ bool has_len() const { return at<2>().valid(); }
+ uint64_t len() const { return at<2>().as_uint64(); }
+ bool has_pa() const { return at<3>().valid(); }
+ uint64_t pa() const { return at<3>().as_uint64(); }
+ bool has_va() const { return at<4>().valid(); }
+ uint64_t va() const { return at<4>().as_uint64(); }
+};
+
+class IommuMapRangeFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = IommuMapRangeFtraceEvent_Decoder;
+ enum : int32_t {
+ kChunkSizeFieldNumber = 1,
+ kLenFieldNumber = 2,
+ kPaFieldNumber = 3,
+ kVaFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.IommuMapRangeFtraceEvent"; }
+
+
+ using FieldMetadata_ChunkSize =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ IommuMapRangeFtraceEvent>;
+
+ static constexpr FieldMetadata_ChunkSize kChunkSize{};
+ void set_chunk_size(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ChunkSize::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ IommuMapRangeFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pa =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ IommuMapRangeFtraceEvent>;
+
+ static constexpr FieldMetadata_Pa kPa{};
+ void set_pa(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pa::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Va =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ IommuMapRangeFtraceEvent>;
+
+ static constexpr FieldMetadata_Va kVa{};
+ void set_va(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Va::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class DmaAllocContiguousRetryFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ DmaAllocContiguousRetryFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit DmaAllocContiguousRetryFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit DmaAllocContiguousRetryFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_tries() const { return at<1>().valid(); }
+ int32_t tries() const { return at<1>().as_int32(); }
+};
+
+class DmaAllocContiguousRetryFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = DmaAllocContiguousRetryFtraceEvent_Decoder;
+ enum : int32_t {
+ kTriesFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.DmaAllocContiguousRetryFtraceEvent"; }
+
+
+ using FieldMetadata_Tries =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ DmaAllocContiguousRetryFtraceEvent>;
+
+ static constexpr FieldMetadata_Tries kTries{};
+ void set_tries(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Tries::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class AllocPagesSysStartFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ AllocPagesSysStartFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit AllocPagesSysStartFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit AllocPagesSysStartFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_gfp_flags() const { return at<1>().valid(); }
+ uint32_t gfp_flags() const { return at<1>().as_uint32(); }
+ bool has_order() const { return at<2>().valid(); }
+ uint32_t order() const { return at<2>().as_uint32(); }
+};
+
+class AllocPagesSysStartFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = AllocPagesSysStartFtraceEvent_Decoder;
+ enum : int32_t {
+ kGfpFlagsFieldNumber = 1,
+ kOrderFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.AllocPagesSysStartFtraceEvent"; }
+
+
+ using FieldMetadata_GfpFlags =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ AllocPagesSysStartFtraceEvent>;
+
+ static constexpr FieldMetadata_GfpFlags kGfpFlags{};
+ void set_gfp_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_GfpFlags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Order =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ AllocPagesSysStartFtraceEvent>;
+
+ static constexpr FieldMetadata_Order kOrder{};
+ void set_order(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Order::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class AllocPagesSysFailFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ AllocPagesSysFailFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit AllocPagesSysFailFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit AllocPagesSysFailFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_gfp_flags() const { return at<1>().valid(); }
+ uint32_t gfp_flags() const { return at<1>().as_uint32(); }
+ bool has_order() const { return at<2>().valid(); }
+ uint32_t order() const { return at<2>().as_uint32(); }
+};
+
+class AllocPagesSysFailFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = AllocPagesSysFailFtraceEvent_Decoder;
+ enum : int32_t {
+ kGfpFlagsFieldNumber = 1,
+ kOrderFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.AllocPagesSysFailFtraceEvent"; }
+
+
+ using FieldMetadata_GfpFlags =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ AllocPagesSysFailFtraceEvent>;
+
+ static constexpr FieldMetadata_GfpFlags kGfpFlags{};
+ void set_gfp_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_GfpFlags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Order =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ AllocPagesSysFailFtraceEvent>;
+
+ static constexpr FieldMetadata_Order kOrder{};
+ void set_order(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Order::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class AllocPagesSysEndFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ AllocPagesSysEndFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit AllocPagesSysEndFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit AllocPagesSysEndFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_gfp_flags() const { return at<1>().valid(); }
+ uint32_t gfp_flags() const { return at<1>().as_uint32(); }
+ bool has_order() const { return at<2>().valid(); }
+ uint32_t order() const { return at<2>().as_uint32(); }
+};
+
+class AllocPagesSysEndFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = AllocPagesSysEndFtraceEvent_Decoder;
+ enum : int32_t {
+ kGfpFlagsFieldNumber = 1,
+ kOrderFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.AllocPagesSysEndFtraceEvent"; }
+
+
+ using FieldMetadata_GfpFlags =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ AllocPagesSysEndFtraceEvent>;
+
+ static constexpr FieldMetadata_GfpFlags kGfpFlags{};
+ void set_gfp_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_GfpFlags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Order =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ AllocPagesSysEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Order kOrder{};
+ void set_order(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Order::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class AllocPagesIommuStartFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ AllocPagesIommuStartFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit AllocPagesIommuStartFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit AllocPagesIommuStartFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_gfp_flags() const { return at<1>().valid(); }
+ uint32_t gfp_flags() const { return at<1>().as_uint32(); }
+ bool has_order() const { return at<2>().valid(); }
+ uint32_t order() const { return at<2>().as_uint32(); }
+};
+
+class AllocPagesIommuStartFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = AllocPagesIommuStartFtraceEvent_Decoder;
+ enum : int32_t {
+ kGfpFlagsFieldNumber = 1,
+ kOrderFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.AllocPagesIommuStartFtraceEvent"; }
+
+
+ using FieldMetadata_GfpFlags =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ AllocPagesIommuStartFtraceEvent>;
+
+ static constexpr FieldMetadata_GfpFlags kGfpFlags{};
+ void set_gfp_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_GfpFlags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Order =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ AllocPagesIommuStartFtraceEvent>;
+
+ static constexpr FieldMetadata_Order kOrder{};
+ void set_order(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Order::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class AllocPagesIommuFailFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ AllocPagesIommuFailFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit AllocPagesIommuFailFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit AllocPagesIommuFailFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_gfp_flags() const { return at<1>().valid(); }
+ uint32_t gfp_flags() const { return at<1>().as_uint32(); }
+ bool has_order() const { return at<2>().valid(); }
+ uint32_t order() const { return at<2>().as_uint32(); }
+};
+
+class AllocPagesIommuFailFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = AllocPagesIommuFailFtraceEvent_Decoder;
+ enum : int32_t {
+ kGfpFlagsFieldNumber = 1,
+ kOrderFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.AllocPagesIommuFailFtraceEvent"; }
+
+
+ using FieldMetadata_GfpFlags =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ AllocPagesIommuFailFtraceEvent>;
+
+ static constexpr FieldMetadata_GfpFlags kGfpFlags{};
+ void set_gfp_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_GfpFlags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Order =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ AllocPagesIommuFailFtraceEvent>;
+
+ static constexpr FieldMetadata_Order kOrder{};
+ void set_order(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Order::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class AllocPagesIommuEndFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ AllocPagesIommuEndFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit AllocPagesIommuEndFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit AllocPagesIommuEndFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_gfp_flags() const { return at<1>().valid(); }
+ uint32_t gfp_flags() const { return at<1>().as_uint32(); }
+ bool has_order() const { return at<2>().valid(); }
+ uint32_t order() const { return at<2>().as_uint32(); }
+};
+
+class AllocPagesIommuEndFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = AllocPagesIommuEndFtraceEvent_Decoder;
+ enum : int32_t {
+ kGfpFlagsFieldNumber = 1,
+ kOrderFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.AllocPagesIommuEndFtraceEvent"; }
+
+
+ using FieldMetadata_GfpFlags =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ AllocPagesIommuEndFtraceEvent>;
+
+ static constexpr FieldMetadata_GfpFlags kGfpFlags{};
+ void set_gfp_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_GfpFlags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Order =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ AllocPagesIommuEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Order kOrder{};
+ void set_order(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Order::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/kvm.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_KVM_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_KVM_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class VgicUpdateIrqPendingFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ VgicUpdateIrqPendingFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit VgicUpdateIrqPendingFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit VgicUpdateIrqPendingFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_irq() const { return at<1>().valid(); }
+ uint32_t irq() const { return at<1>().as_uint32(); }
+ bool has_level() const { return at<2>().valid(); }
+ uint32_t level() const { return at<2>().as_uint32(); }
+ bool has_vcpu_id() const { return at<3>().valid(); }
+ uint64_t vcpu_id() const { return at<3>().as_uint64(); }
+};
+
+class VgicUpdateIrqPendingFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = VgicUpdateIrqPendingFtraceEvent_Decoder;
+ enum : int32_t {
+ kIrqFieldNumber = 1,
+ kLevelFieldNumber = 2,
+ kVcpuIdFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.VgicUpdateIrqPendingFtraceEvent"; }
+
+
+ using FieldMetadata_Irq =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ VgicUpdateIrqPendingFtraceEvent>;
+
+ static constexpr FieldMetadata_Irq kIrq{};
+ void set_irq(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Irq::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Level =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ VgicUpdateIrqPendingFtraceEvent>;
+
+ static constexpr FieldMetadata_Level kLevel{};
+ void set_level(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Level::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_VcpuId =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ VgicUpdateIrqPendingFtraceEvent>;
+
+ static constexpr FieldMetadata_VcpuId kVcpuId{};
+ void set_vcpu_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_VcpuId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class TrapRegFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ TrapRegFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TrapRegFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TrapRegFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_fn() const { return at<1>().valid(); }
+ ::protozero::ConstChars fn() const { return at<1>().as_string(); }
+ bool has_is_write() const { return at<2>().valid(); }
+ uint32_t is_write() const { return at<2>().as_uint32(); }
+ bool has_reg() const { return at<3>().valid(); }
+ int32_t reg() const { return at<3>().as_int32(); }
+ bool has_write_value() const { return at<4>().valid(); }
+ uint64_t write_value() const { return at<4>().as_uint64(); }
+};
+
+class TrapRegFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = TrapRegFtraceEvent_Decoder;
+ enum : int32_t {
+ kFnFieldNumber = 1,
+ kIsWriteFieldNumber = 2,
+ kRegFieldNumber = 3,
+ kWriteValueFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TrapRegFtraceEvent"; }
+
+
+ using FieldMetadata_Fn =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ TrapRegFtraceEvent>;
+
+ static constexpr FieldMetadata_Fn kFn{};
+ void set_fn(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Fn::kFieldId, data, size);
+ }
+ void set_fn(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Fn::kFieldId, chars.data, chars.size);
+ }
+ void set_fn(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Fn::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IsWrite =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TrapRegFtraceEvent>;
+
+ static constexpr FieldMetadata_IsWrite kIsWrite{};
+ void set_is_write(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_IsWrite::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Reg =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ TrapRegFtraceEvent>;
+
+ static constexpr FieldMetadata_Reg kReg{};
+ void set_reg(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Reg::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_WriteValue =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TrapRegFtraceEvent>;
+
+ static constexpr FieldMetadata_WriteValue kWriteValue{};
+ void set_write_value(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_WriteValue::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class KvmWfxArm64FtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ KvmWfxArm64FtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit KvmWfxArm64FtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit KvmWfxArm64FtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_is_wfe() const { return at<1>().valid(); }
+ uint32_t is_wfe() const { return at<1>().as_uint32(); }
+ bool has_vcpu_pc() const { return at<2>().valid(); }
+ uint64_t vcpu_pc() const { return at<2>().as_uint64(); }
+};
+
+class KvmWfxArm64FtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = KvmWfxArm64FtraceEvent_Decoder;
+ enum : int32_t {
+ kIsWfeFieldNumber = 1,
+ kVcpuPcFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.KvmWfxArm64FtraceEvent"; }
+
+
+ using FieldMetadata_IsWfe =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ KvmWfxArm64FtraceEvent>;
+
+ static constexpr FieldMetadata_IsWfe kIsWfe{};
+ void set_is_wfe(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_IsWfe::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_VcpuPc =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KvmWfxArm64FtraceEvent>;
+
+ static constexpr FieldMetadata_VcpuPc kVcpuPc{};
+ void set_vcpu_pc(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_VcpuPc::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class KvmVcpuWakeupFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ KvmVcpuWakeupFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit KvmVcpuWakeupFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit KvmVcpuWakeupFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_ns() const { return at<1>().valid(); }
+ uint64_t ns() const { return at<1>().as_uint64(); }
+ bool has_valid() const { return at<2>().valid(); }
+ uint32_t valid() const { return at<2>().as_uint32(); }
+ bool has_waited() const { return at<3>().valid(); }
+ uint32_t waited() const { return at<3>().as_uint32(); }
+};
+
+class KvmVcpuWakeupFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = KvmVcpuWakeupFtraceEvent_Decoder;
+ enum : int32_t {
+ kNsFieldNumber = 1,
+ kValidFieldNumber = 2,
+ kWaitedFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.KvmVcpuWakeupFtraceEvent"; }
+
+
+ using FieldMetadata_Ns =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KvmVcpuWakeupFtraceEvent>;
+
+ static constexpr FieldMetadata_Ns kNs{};
+ void set_ns(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ns::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Valid =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ KvmVcpuWakeupFtraceEvent>;
+
+ static constexpr FieldMetadata_Valid kValid{};
+ void set_valid(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Valid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Waited =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ KvmVcpuWakeupFtraceEvent>;
+
+ static constexpr FieldMetadata_Waited kWaited{};
+ void set_waited(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Waited::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class KvmUserspaceExitFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ KvmUserspaceExitFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit KvmUserspaceExitFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit KvmUserspaceExitFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_reason() const { return at<1>().valid(); }
+ uint32_t reason() const { return at<1>().as_uint32(); }
+};
+
+class KvmUserspaceExitFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = KvmUserspaceExitFtraceEvent_Decoder;
+ enum : int32_t {
+ kReasonFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.KvmUserspaceExitFtraceEvent"; }
+
+
+ using FieldMetadata_Reason =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ KvmUserspaceExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Reason kReason{};
+ void set_reason(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Reason::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class KvmUnmapHvaRangeFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ KvmUnmapHvaRangeFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit KvmUnmapHvaRangeFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit KvmUnmapHvaRangeFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_end() const { return at<1>().valid(); }
+ uint64_t end() const { return at<1>().as_uint64(); }
+ bool has_start() const { return at<2>().valid(); }
+ uint64_t start() const { return at<2>().as_uint64(); }
+};
+
+class KvmUnmapHvaRangeFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = KvmUnmapHvaRangeFtraceEvent_Decoder;
+ enum : int32_t {
+ kEndFieldNumber = 1,
+ kStartFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.KvmUnmapHvaRangeFtraceEvent"; }
+
+
+ using FieldMetadata_End =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KvmUnmapHvaRangeFtraceEvent>;
+
+ static constexpr FieldMetadata_End kEnd{};
+ void set_end(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_End::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Start =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KvmUnmapHvaRangeFtraceEvent>;
+
+ static constexpr FieldMetadata_Start kStart{};
+ void set_start(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Start::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class KvmToggleCacheFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ KvmToggleCacheFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit KvmToggleCacheFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit KvmToggleCacheFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_now() const { return at<1>().valid(); }
+ uint32_t now() const { return at<1>().as_uint32(); }
+ bool has_vcpu_pc() const { return at<2>().valid(); }
+ uint64_t vcpu_pc() const { return at<2>().as_uint64(); }
+ bool has_was() const { return at<3>().valid(); }
+ uint32_t was() const { return at<3>().as_uint32(); }
+};
+
+class KvmToggleCacheFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = KvmToggleCacheFtraceEvent_Decoder;
+ enum : int32_t {
+ kNowFieldNumber = 1,
+ kVcpuPcFieldNumber = 2,
+ kWasFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.KvmToggleCacheFtraceEvent"; }
+
+
+ using FieldMetadata_Now =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ KvmToggleCacheFtraceEvent>;
+
+ static constexpr FieldMetadata_Now kNow{};
+ void set_now(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Now::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_VcpuPc =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KvmToggleCacheFtraceEvent>;
+
+ static constexpr FieldMetadata_VcpuPc kVcpuPc{};
+ void set_vcpu_pc(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_VcpuPc::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Was =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ KvmToggleCacheFtraceEvent>;
+
+ static constexpr FieldMetadata_Was kWas{};
+ void set_was(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Was::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class KvmTimerUpdateIrqFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ KvmTimerUpdateIrqFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit KvmTimerUpdateIrqFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit KvmTimerUpdateIrqFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_irq() const { return at<1>().valid(); }
+ uint32_t irq() const { return at<1>().as_uint32(); }
+ bool has_level() const { return at<2>().valid(); }
+ int32_t level() const { return at<2>().as_int32(); }
+ bool has_vcpu_id() const { return at<3>().valid(); }
+ uint64_t vcpu_id() const { return at<3>().as_uint64(); }
+};
+
+class KvmTimerUpdateIrqFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = KvmTimerUpdateIrqFtraceEvent_Decoder;
+ enum : int32_t {
+ kIrqFieldNumber = 1,
+ kLevelFieldNumber = 2,
+ kVcpuIdFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.KvmTimerUpdateIrqFtraceEvent"; }
+
+
+ using FieldMetadata_Irq =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ KvmTimerUpdateIrqFtraceEvent>;
+
+ static constexpr FieldMetadata_Irq kIrq{};
+ void set_irq(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Irq::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Level =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ KvmTimerUpdateIrqFtraceEvent>;
+
+ static constexpr FieldMetadata_Level kLevel{};
+ void set_level(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Level::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_VcpuId =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KvmTimerUpdateIrqFtraceEvent>;
+
+ static constexpr FieldMetadata_VcpuId kVcpuId{};
+ void set_vcpu_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_VcpuId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class KvmTimerSaveStateFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ KvmTimerSaveStateFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit KvmTimerSaveStateFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit KvmTimerSaveStateFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_ctl() const { return at<1>().valid(); }
+ uint64_t ctl() const { return at<1>().as_uint64(); }
+ bool has_cval() const { return at<2>().valid(); }
+ uint64_t cval() const { return at<2>().as_uint64(); }
+ bool has_timer_idx() const { return at<3>().valid(); }
+ int32_t timer_idx() const { return at<3>().as_int32(); }
+};
+
+class KvmTimerSaveStateFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = KvmTimerSaveStateFtraceEvent_Decoder;
+ enum : int32_t {
+ kCtlFieldNumber = 1,
+ kCvalFieldNumber = 2,
+ kTimerIdxFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.KvmTimerSaveStateFtraceEvent"; }
+
+
+ using FieldMetadata_Ctl =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KvmTimerSaveStateFtraceEvent>;
+
+ static constexpr FieldMetadata_Ctl kCtl{};
+ void set_ctl(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ctl::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Cval =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KvmTimerSaveStateFtraceEvent>;
+
+ static constexpr FieldMetadata_Cval kCval{};
+ void set_cval(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Cval::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimerIdx =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ KvmTimerSaveStateFtraceEvent>;
+
+ static constexpr FieldMetadata_TimerIdx kTimerIdx{};
+ void set_timer_idx(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimerIdx::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class KvmTimerRestoreStateFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ KvmTimerRestoreStateFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit KvmTimerRestoreStateFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit KvmTimerRestoreStateFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_ctl() const { return at<1>().valid(); }
+ uint64_t ctl() const { return at<1>().as_uint64(); }
+ bool has_cval() const { return at<2>().valid(); }
+ uint64_t cval() const { return at<2>().as_uint64(); }
+ bool has_timer_idx() const { return at<3>().valid(); }
+ int32_t timer_idx() const { return at<3>().as_int32(); }
+};
+
+class KvmTimerRestoreStateFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = KvmTimerRestoreStateFtraceEvent_Decoder;
+ enum : int32_t {
+ kCtlFieldNumber = 1,
+ kCvalFieldNumber = 2,
+ kTimerIdxFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.KvmTimerRestoreStateFtraceEvent"; }
+
+
+ using FieldMetadata_Ctl =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KvmTimerRestoreStateFtraceEvent>;
+
+ static constexpr FieldMetadata_Ctl kCtl{};
+ void set_ctl(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ctl::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Cval =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KvmTimerRestoreStateFtraceEvent>;
+
+ static constexpr FieldMetadata_Cval kCval{};
+ void set_cval(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Cval::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimerIdx =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ KvmTimerRestoreStateFtraceEvent>;
+
+ static constexpr FieldMetadata_TimerIdx kTimerIdx{};
+ void set_timer_idx(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimerIdx::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class KvmTimerHrtimerExpireFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ KvmTimerHrtimerExpireFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit KvmTimerHrtimerExpireFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit KvmTimerHrtimerExpireFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_timer_idx() const { return at<1>().valid(); }
+ int32_t timer_idx() const { return at<1>().as_int32(); }
+};
+
+class KvmTimerHrtimerExpireFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = KvmTimerHrtimerExpireFtraceEvent_Decoder;
+ enum : int32_t {
+ kTimerIdxFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.KvmTimerHrtimerExpireFtraceEvent"; }
+
+
+ using FieldMetadata_TimerIdx =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ KvmTimerHrtimerExpireFtraceEvent>;
+
+ static constexpr FieldMetadata_TimerIdx kTimerIdx{};
+ void set_timer_idx(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimerIdx::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class KvmTimerEmulateFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ KvmTimerEmulateFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit KvmTimerEmulateFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit KvmTimerEmulateFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_should_fire() const { return at<1>().valid(); }
+ uint32_t should_fire() const { return at<1>().as_uint32(); }
+ bool has_timer_idx() const { return at<2>().valid(); }
+ int32_t timer_idx() const { return at<2>().as_int32(); }
+};
+
+class KvmTimerEmulateFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = KvmTimerEmulateFtraceEvent_Decoder;
+ enum : int32_t {
+ kShouldFireFieldNumber = 1,
+ kTimerIdxFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.KvmTimerEmulateFtraceEvent"; }
+
+
+ using FieldMetadata_ShouldFire =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ KvmTimerEmulateFtraceEvent>;
+
+ static constexpr FieldMetadata_ShouldFire kShouldFire{};
+ void set_should_fire(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ShouldFire::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimerIdx =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ KvmTimerEmulateFtraceEvent>;
+
+ static constexpr FieldMetadata_TimerIdx kTimerIdx{};
+ void set_timer_idx(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimerIdx::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class KvmTestAgeHvaFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ KvmTestAgeHvaFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit KvmTestAgeHvaFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit KvmTestAgeHvaFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_hva() const { return at<1>().valid(); }
+ uint64_t hva() const { return at<1>().as_uint64(); }
+};
+
+class KvmTestAgeHvaFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = KvmTestAgeHvaFtraceEvent_Decoder;
+ enum : int32_t {
+ kHvaFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.KvmTestAgeHvaFtraceEvent"; }
+
+
+ using FieldMetadata_Hva =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KvmTestAgeHvaFtraceEvent>;
+
+ static constexpr FieldMetadata_Hva kHva{};
+ void set_hva(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Hva::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class KvmSysAccessFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/8, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ KvmSysAccessFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit KvmSysAccessFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit KvmSysAccessFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_crm() const { return at<1>().valid(); }
+ uint32_t crm() const { return at<1>().as_uint32(); }
+ bool has_crn() const { return at<2>().valid(); }
+ uint32_t crn() const { return at<2>().as_uint32(); }
+ bool has_op0() const { return at<3>().valid(); }
+ uint32_t op0() const { return at<3>().as_uint32(); }
+ bool has_op1() const { return at<4>().valid(); }
+ uint32_t op1() const { return at<4>().as_uint32(); }
+ bool has_op2() const { return at<5>().valid(); }
+ uint32_t op2() const { return at<5>().as_uint32(); }
+ bool has_is_write() const { return at<6>().valid(); }
+ uint32_t is_write() const { return at<6>().as_uint32(); }
+ bool has_name() const { return at<7>().valid(); }
+ ::protozero::ConstChars name() const { return at<7>().as_string(); }
+ bool has_vcpu_pc() const { return at<8>().valid(); }
+ uint64_t vcpu_pc() const { return at<8>().as_uint64(); }
+};
+
+class KvmSysAccessFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = KvmSysAccessFtraceEvent_Decoder;
+ enum : int32_t {
+ kCRmFieldNumber = 1,
+ kCRnFieldNumber = 2,
+ kOp0FieldNumber = 3,
+ kOp1FieldNumber = 4,
+ kOp2FieldNumber = 5,
+ kIsWriteFieldNumber = 6,
+ kNameFieldNumber = 7,
+ kVcpuPcFieldNumber = 8,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.KvmSysAccessFtraceEvent"; }
+
+
+ using FieldMetadata_CRm =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ KvmSysAccessFtraceEvent>;
+
+ static constexpr FieldMetadata_CRm kCRm{};
+ void set_crm(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CRm::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CRn =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ KvmSysAccessFtraceEvent>;
+
+ static constexpr FieldMetadata_CRn kCRn{};
+ void set_crn(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CRn::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Op0 =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ KvmSysAccessFtraceEvent>;
+
+ static constexpr FieldMetadata_Op0 kOp0{};
+ void set_op0(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Op0::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Op1 =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ KvmSysAccessFtraceEvent>;
+
+ static constexpr FieldMetadata_Op1 kOp1{};
+ void set_op1(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Op1::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Op2 =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ KvmSysAccessFtraceEvent>;
+
+ static constexpr FieldMetadata_Op2 kOp2{};
+ void set_op2(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Op2::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IsWrite =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ KvmSysAccessFtraceEvent>;
+
+ static constexpr FieldMetadata_IsWrite kIsWrite{};
+ void set_is_write(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_IsWrite::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ KvmSysAccessFtraceEvent>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_VcpuPc =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KvmSysAccessFtraceEvent>;
+
+ static constexpr FieldMetadata_VcpuPc kVcpuPc{};
+ void set_vcpu_pc(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_VcpuPc::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class KvmSetWayFlushFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ KvmSetWayFlushFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit KvmSetWayFlushFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit KvmSetWayFlushFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_cache() const { return at<1>().valid(); }
+ uint32_t cache() const { return at<1>().as_uint32(); }
+ bool has_vcpu_pc() const { return at<2>().valid(); }
+ uint64_t vcpu_pc() const { return at<2>().as_uint64(); }
+};
+
+class KvmSetWayFlushFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = KvmSetWayFlushFtraceEvent_Decoder;
+ enum : int32_t {
+ kCacheFieldNumber = 1,
+ kVcpuPcFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.KvmSetWayFlushFtraceEvent"; }
+
+
+ using FieldMetadata_Cache =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ KvmSetWayFlushFtraceEvent>;
+
+ static constexpr FieldMetadata_Cache kCache{};
+ void set_cache(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Cache::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_VcpuPc =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KvmSetWayFlushFtraceEvent>;
+
+ static constexpr FieldMetadata_VcpuPc kVcpuPc{};
+ void set_vcpu_pc(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_VcpuPc::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class KvmSetSpteHvaFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ KvmSetSpteHvaFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit KvmSetSpteHvaFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit KvmSetSpteHvaFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_hva() const { return at<1>().valid(); }
+ uint64_t hva() const { return at<1>().as_uint64(); }
+};
+
+class KvmSetSpteHvaFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = KvmSetSpteHvaFtraceEvent_Decoder;
+ enum : int32_t {
+ kHvaFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.KvmSetSpteHvaFtraceEvent"; }
+
+
+ using FieldMetadata_Hva =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KvmSetSpteHvaFtraceEvent>;
+
+ static constexpr FieldMetadata_Hva kHva{};
+ void set_hva(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Hva::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class KvmSetIrqFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ KvmSetIrqFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit KvmSetIrqFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit KvmSetIrqFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_gsi() const { return at<1>().valid(); }
+ uint32_t gsi() const { return at<1>().as_uint32(); }
+ bool has_irq_source_id() const { return at<2>().valid(); }
+ int32_t irq_source_id() const { return at<2>().as_int32(); }
+ bool has_level() const { return at<3>().valid(); }
+ int32_t level() const { return at<3>().as_int32(); }
+};
+
+class KvmSetIrqFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = KvmSetIrqFtraceEvent_Decoder;
+ enum : int32_t {
+ kGsiFieldNumber = 1,
+ kIrqSourceIdFieldNumber = 2,
+ kLevelFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.KvmSetIrqFtraceEvent"; }
+
+
+ using FieldMetadata_Gsi =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ KvmSetIrqFtraceEvent>;
+
+ static constexpr FieldMetadata_Gsi kGsi{};
+ void set_gsi(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Gsi::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IrqSourceId =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ KvmSetIrqFtraceEvent>;
+
+ static constexpr FieldMetadata_IrqSourceId kIrqSourceId{};
+ void set_irq_source_id(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_IrqSourceId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Level =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ KvmSetIrqFtraceEvent>;
+
+ static constexpr FieldMetadata_Level kLevel{};
+ void set_level(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Level::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class KvmSetGuestDebugFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ KvmSetGuestDebugFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit KvmSetGuestDebugFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit KvmSetGuestDebugFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_guest_debug() const { return at<1>().valid(); }
+ uint32_t guest_debug() const { return at<1>().as_uint32(); }
+ bool has_vcpu() const { return at<2>().valid(); }
+ uint64_t vcpu() const { return at<2>().as_uint64(); }
+};
+
+class KvmSetGuestDebugFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = KvmSetGuestDebugFtraceEvent_Decoder;
+ enum : int32_t {
+ kGuestDebugFieldNumber = 1,
+ kVcpuFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.KvmSetGuestDebugFtraceEvent"; }
+
+
+ using FieldMetadata_GuestDebug =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ KvmSetGuestDebugFtraceEvent>;
+
+ static constexpr FieldMetadata_GuestDebug kGuestDebug{};
+ void set_guest_debug(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_GuestDebug::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Vcpu =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KvmSetGuestDebugFtraceEvent>;
+
+ static constexpr FieldMetadata_Vcpu kVcpu{};
+ void set_vcpu(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Vcpu::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class KvmMmioEmulateFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ KvmMmioEmulateFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit KvmMmioEmulateFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit KvmMmioEmulateFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_cpsr() const { return at<1>().valid(); }
+ uint64_t cpsr() const { return at<1>().as_uint64(); }
+ bool has_instr() const { return at<2>().valid(); }
+ uint64_t instr() const { return at<2>().as_uint64(); }
+ bool has_vcpu_pc() const { return at<3>().valid(); }
+ uint64_t vcpu_pc() const { return at<3>().as_uint64(); }
+};
+
+class KvmMmioEmulateFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = KvmMmioEmulateFtraceEvent_Decoder;
+ enum : int32_t {
+ kCpsrFieldNumber = 1,
+ kInstrFieldNumber = 2,
+ kVcpuPcFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.KvmMmioEmulateFtraceEvent"; }
+
+
+ using FieldMetadata_Cpsr =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KvmMmioEmulateFtraceEvent>;
+
+ static constexpr FieldMetadata_Cpsr kCpsr{};
+ void set_cpsr(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Cpsr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Instr =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KvmMmioEmulateFtraceEvent>;
+
+ static constexpr FieldMetadata_Instr kInstr{};
+ void set_instr(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Instr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_VcpuPc =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KvmMmioEmulateFtraceEvent>;
+
+ static constexpr FieldMetadata_VcpuPc kVcpuPc{};
+ void set_vcpu_pc(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_VcpuPc::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class KvmMmioFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ KvmMmioFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit KvmMmioFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit KvmMmioFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_gpa() const { return at<1>().valid(); }
+ uint64_t gpa() const { return at<1>().as_uint64(); }
+ bool has_len() const { return at<2>().valid(); }
+ uint32_t len() const { return at<2>().as_uint32(); }
+ bool has_type() const { return at<3>().valid(); }
+ uint32_t type() const { return at<3>().as_uint32(); }
+ bool has_val() const { return at<4>().valid(); }
+ uint64_t val() const { return at<4>().as_uint64(); }
+};
+
+class KvmMmioFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = KvmMmioFtraceEvent_Decoder;
+ enum : int32_t {
+ kGpaFieldNumber = 1,
+ kLenFieldNumber = 2,
+ kTypeFieldNumber = 3,
+ kValFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.KvmMmioFtraceEvent"; }
+
+
+ using FieldMetadata_Gpa =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KvmMmioFtraceEvent>;
+
+ static constexpr FieldMetadata_Gpa kGpa{};
+ void set_gpa(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Gpa::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ KvmMmioFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Type =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ KvmMmioFtraceEvent>;
+
+ static constexpr FieldMetadata_Type kType{};
+ void set_type(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Type::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Val =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KvmMmioFtraceEvent>;
+
+ static constexpr FieldMetadata_Val kVal{};
+ void set_val(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Val::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class KvmIrqLineFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ KvmIrqLineFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit KvmIrqLineFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit KvmIrqLineFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_irq_num() const { return at<1>().valid(); }
+ int32_t irq_num() const { return at<1>().as_int32(); }
+ bool has_level() const { return at<2>().valid(); }
+ int32_t level() const { return at<2>().as_int32(); }
+ bool has_type() const { return at<3>().valid(); }
+ uint32_t type() const { return at<3>().as_uint32(); }
+ bool has_vcpu_idx() const { return at<4>().valid(); }
+ int32_t vcpu_idx() const { return at<4>().as_int32(); }
+};
+
+class KvmIrqLineFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = KvmIrqLineFtraceEvent_Decoder;
+ enum : int32_t {
+ kIrqNumFieldNumber = 1,
+ kLevelFieldNumber = 2,
+ kTypeFieldNumber = 3,
+ kVcpuIdxFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.KvmIrqLineFtraceEvent"; }
+
+
+ using FieldMetadata_IrqNum =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ KvmIrqLineFtraceEvent>;
+
+ static constexpr FieldMetadata_IrqNum kIrqNum{};
+ void set_irq_num(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_IrqNum::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Level =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ KvmIrqLineFtraceEvent>;
+
+ static constexpr FieldMetadata_Level kLevel{};
+ void set_level(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Level::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Type =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ KvmIrqLineFtraceEvent>;
+
+ static constexpr FieldMetadata_Type kType{};
+ void set_type(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Type::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_VcpuIdx =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ KvmIrqLineFtraceEvent>;
+
+ static constexpr FieldMetadata_VcpuIdx kVcpuIdx{};
+ void set_vcpu_idx(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_VcpuIdx::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class KvmHvcArm64FtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ KvmHvcArm64FtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit KvmHvcArm64FtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit KvmHvcArm64FtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_imm() const { return at<1>().valid(); }
+ uint64_t imm() const { return at<1>().as_uint64(); }
+ bool has_r0() const { return at<2>().valid(); }
+ uint64_t r0() const { return at<2>().as_uint64(); }
+ bool has_vcpu_pc() const { return at<3>().valid(); }
+ uint64_t vcpu_pc() const { return at<3>().as_uint64(); }
+};
+
+class KvmHvcArm64FtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = KvmHvcArm64FtraceEvent_Decoder;
+ enum : int32_t {
+ kImmFieldNumber = 1,
+ kR0FieldNumber = 2,
+ kVcpuPcFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.KvmHvcArm64FtraceEvent"; }
+
+
+ using FieldMetadata_Imm =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KvmHvcArm64FtraceEvent>;
+
+ static constexpr FieldMetadata_Imm kImm{};
+ void set_imm(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Imm::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_R0 =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KvmHvcArm64FtraceEvent>;
+
+ static constexpr FieldMetadata_R0 kR0{};
+ void set_r0(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_R0::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_VcpuPc =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KvmHvcArm64FtraceEvent>;
+
+ static constexpr FieldMetadata_VcpuPc kVcpuPc{};
+ void set_vcpu_pc(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_VcpuPc::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class KvmHandleSysRegFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ KvmHandleSysRegFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit KvmHandleSysRegFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit KvmHandleSysRegFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_hsr() const { return at<1>().valid(); }
+ uint64_t hsr() const { return at<1>().as_uint64(); }
+};
+
+class KvmHandleSysRegFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = KvmHandleSysRegFtraceEvent_Decoder;
+ enum : int32_t {
+ kHsrFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.KvmHandleSysRegFtraceEvent"; }
+
+
+ using FieldMetadata_Hsr =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KvmHandleSysRegFtraceEvent>;
+
+ static constexpr FieldMetadata_Hsr kHsr{};
+ void set_hsr(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Hsr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class KvmGuestFaultFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ KvmGuestFaultFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit KvmGuestFaultFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit KvmGuestFaultFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_hsr() const { return at<1>().valid(); }
+ uint64_t hsr() const { return at<1>().as_uint64(); }
+ bool has_hxfar() const { return at<2>().valid(); }
+ uint64_t hxfar() const { return at<2>().as_uint64(); }
+ bool has_ipa() const { return at<3>().valid(); }
+ uint64_t ipa() const { return at<3>().as_uint64(); }
+ bool has_vcpu_pc() const { return at<4>().valid(); }
+ uint64_t vcpu_pc() const { return at<4>().as_uint64(); }
+};
+
+class KvmGuestFaultFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = KvmGuestFaultFtraceEvent_Decoder;
+ enum : int32_t {
+ kHsrFieldNumber = 1,
+ kHxfarFieldNumber = 2,
+ kIpaFieldNumber = 3,
+ kVcpuPcFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.KvmGuestFaultFtraceEvent"; }
+
+
+ using FieldMetadata_Hsr =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KvmGuestFaultFtraceEvent>;
+
+ static constexpr FieldMetadata_Hsr kHsr{};
+ void set_hsr(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Hsr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Hxfar =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KvmGuestFaultFtraceEvent>;
+
+ static constexpr FieldMetadata_Hxfar kHxfar{};
+ void set_hxfar(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Hxfar::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ipa =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KvmGuestFaultFtraceEvent>;
+
+ static constexpr FieldMetadata_Ipa kIpa{};
+ void set_ipa(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ipa::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_VcpuPc =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KvmGuestFaultFtraceEvent>;
+
+ static constexpr FieldMetadata_VcpuPc kVcpuPc{};
+ void set_vcpu_pc(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_VcpuPc::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class KvmGetTimerMapFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ KvmGetTimerMapFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit KvmGetTimerMapFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit KvmGetTimerMapFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_direct_ptimer() const { return at<1>().valid(); }
+ int32_t direct_ptimer() const { return at<1>().as_int32(); }
+ bool has_direct_vtimer() const { return at<2>().valid(); }
+ int32_t direct_vtimer() const { return at<2>().as_int32(); }
+ bool has_emul_ptimer() const { return at<3>().valid(); }
+ int32_t emul_ptimer() const { return at<3>().as_int32(); }
+ bool has_vcpu_id() const { return at<4>().valid(); }
+ uint64_t vcpu_id() const { return at<4>().as_uint64(); }
+};
+
+class KvmGetTimerMapFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = KvmGetTimerMapFtraceEvent_Decoder;
+ enum : int32_t {
+ kDirectPtimerFieldNumber = 1,
+ kDirectVtimerFieldNumber = 2,
+ kEmulPtimerFieldNumber = 3,
+ kVcpuIdFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.KvmGetTimerMapFtraceEvent"; }
+
+
+ using FieldMetadata_DirectPtimer =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ KvmGetTimerMapFtraceEvent>;
+
+ static constexpr FieldMetadata_DirectPtimer kDirectPtimer{};
+ void set_direct_ptimer(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DirectPtimer::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DirectVtimer =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ KvmGetTimerMapFtraceEvent>;
+
+ static constexpr FieldMetadata_DirectVtimer kDirectVtimer{};
+ void set_direct_vtimer(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DirectVtimer::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_EmulPtimer =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ KvmGetTimerMapFtraceEvent>;
+
+ static constexpr FieldMetadata_EmulPtimer kEmulPtimer{};
+ void set_emul_ptimer(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_EmulPtimer::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_VcpuId =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KvmGetTimerMapFtraceEvent>;
+
+ static constexpr FieldMetadata_VcpuId kVcpuId{};
+ void set_vcpu_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_VcpuId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class KvmFpuFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ KvmFpuFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit KvmFpuFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit KvmFpuFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_load() const { return at<1>().valid(); }
+ uint32_t load() const { return at<1>().as_uint32(); }
+};
+
+class KvmFpuFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = KvmFpuFtraceEvent_Decoder;
+ enum : int32_t {
+ kLoadFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.KvmFpuFtraceEvent"; }
+
+
+ using FieldMetadata_Load =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ KvmFpuFtraceEvent>;
+
+ static constexpr FieldMetadata_Load kLoad{};
+ void set_load(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Load::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class KvmExitFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ KvmExitFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit KvmExitFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit KvmExitFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_esr_ec() const { return at<1>().valid(); }
+ uint32_t esr_ec() const { return at<1>().as_uint32(); }
+ bool has_ret() const { return at<2>().valid(); }
+ int32_t ret() const { return at<2>().as_int32(); }
+ bool has_vcpu_pc() const { return at<3>().valid(); }
+ uint64_t vcpu_pc() const { return at<3>().as_uint64(); }
+};
+
+class KvmExitFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = KvmExitFtraceEvent_Decoder;
+ enum : int32_t {
+ kEsrEcFieldNumber = 1,
+ kRetFieldNumber = 2,
+ kVcpuPcFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.KvmExitFtraceEvent"; }
+
+
+ using FieldMetadata_EsrEc =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ KvmExitFtraceEvent>;
+
+ static constexpr FieldMetadata_EsrEc kEsrEc{};
+ void set_esr_ec(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_EsrEc::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ret =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ KvmExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Ret kRet{};
+ void set_ret(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ret::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_VcpuPc =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KvmExitFtraceEvent>;
+
+ static constexpr FieldMetadata_VcpuPc kVcpuPc{};
+ void set_vcpu_pc(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_VcpuPc::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class KvmEntryFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ KvmEntryFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit KvmEntryFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit KvmEntryFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_vcpu_pc() const { return at<1>().valid(); }
+ uint64_t vcpu_pc() const { return at<1>().as_uint64(); }
+};
+
+class KvmEntryFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = KvmEntryFtraceEvent_Decoder;
+ enum : int32_t {
+ kVcpuPcFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.KvmEntryFtraceEvent"; }
+
+
+ using FieldMetadata_VcpuPc =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KvmEntryFtraceEvent>;
+
+ static constexpr FieldMetadata_VcpuPc kVcpuPc{};
+ void set_vcpu_pc(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_VcpuPc::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class KvmArmSetupDebugFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ KvmArmSetupDebugFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit KvmArmSetupDebugFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit KvmArmSetupDebugFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_guest_debug() const { return at<1>().valid(); }
+ uint32_t guest_debug() const { return at<1>().as_uint32(); }
+ bool has_vcpu() const { return at<2>().valid(); }
+ uint64_t vcpu() const { return at<2>().as_uint64(); }
+};
+
+class KvmArmSetupDebugFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = KvmArmSetupDebugFtraceEvent_Decoder;
+ enum : int32_t {
+ kGuestDebugFieldNumber = 1,
+ kVcpuFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.KvmArmSetupDebugFtraceEvent"; }
+
+
+ using FieldMetadata_GuestDebug =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ KvmArmSetupDebugFtraceEvent>;
+
+ static constexpr FieldMetadata_GuestDebug kGuestDebug{};
+ void set_guest_debug(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_GuestDebug::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Vcpu =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KvmArmSetupDebugFtraceEvent>;
+
+ static constexpr FieldMetadata_Vcpu kVcpu{};
+ void set_vcpu(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Vcpu::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class KvmArmSetRegsetFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ KvmArmSetRegsetFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit KvmArmSetRegsetFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit KvmArmSetRegsetFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_len() const { return at<1>().valid(); }
+ int32_t len() const { return at<1>().as_int32(); }
+ bool has_name() const { return at<2>().valid(); }
+ ::protozero::ConstChars name() const { return at<2>().as_string(); }
+};
+
+class KvmArmSetRegsetFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = KvmArmSetRegsetFtraceEvent_Decoder;
+ enum : int32_t {
+ kLenFieldNumber = 1,
+ kNameFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.KvmArmSetRegsetFtraceEvent"; }
+
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ KvmArmSetRegsetFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ KvmArmSetRegsetFtraceEvent>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class KvmArmSetDreg32FtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ KvmArmSetDreg32FtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit KvmArmSetDreg32FtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit KvmArmSetDreg32FtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars name() const { return at<1>().as_string(); }
+ bool has_value() const { return at<2>().valid(); }
+ uint32_t value() const { return at<2>().as_uint32(); }
+};
+
+class KvmArmSetDreg32FtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = KvmArmSetDreg32FtraceEvent_Decoder;
+ enum : int32_t {
+ kNameFieldNumber = 1,
+ kValueFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.KvmArmSetDreg32FtraceEvent"; }
+
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ KvmArmSetDreg32FtraceEvent>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Value =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ KvmArmSetDreg32FtraceEvent>;
+
+ static constexpr FieldMetadata_Value kValue{};
+ void set_value(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Value::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class KvmArmClearDebugFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ KvmArmClearDebugFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit KvmArmClearDebugFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit KvmArmClearDebugFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_guest_debug() const { return at<1>().valid(); }
+ uint32_t guest_debug() const { return at<1>().as_uint32(); }
+};
+
+class KvmArmClearDebugFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = KvmArmClearDebugFtraceEvent_Decoder;
+ enum : int32_t {
+ kGuestDebugFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.KvmArmClearDebugFtraceEvent"; }
+
+
+ using FieldMetadata_GuestDebug =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ KvmArmClearDebugFtraceEvent>;
+
+ static constexpr FieldMetadata_GuestDebug kGuestDebug{};
+ void set_guest_debug(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_GuestDebug::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class KvmAgePageFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ KvmAgePageFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit KvmAgePageFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit KvmAgePageFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_gfn() const { return at<1>().valid(); }
+ uint64_t gfn() const { return at<1>().as_uint64(); }
+ bool has_hva() const { return at<2>().valid(); }
+ uint64_t hva() const { return at<2>().as_uint64(); }
+ bool has_level() const { return at<3>().valid(); }
+ uint32_t level() const { return at<3>().as_uint32(); }
+ bool has_referenced() const { return at<4>().valid(); }
+ uint32_t referenced() const { return at<4>().as_uint32(); }
+};
+
+class KvmAgePageFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = KvmAgePageFtraceEvent_Decoder;
+ enum : int32_t {
+ kGfnFieldNumber = 1,
+ kHvaFieldNumber = 2,
+ kLevelFieldNumber = 3,
+ kReferencedFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.KvmAgePageFtraceEvent"; }
+
+
+ using FieldMetadata_Gfn =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KvmAgePageFtraceEvent>;
+
+ static constexpr FieldMetadata_Gfn kGfn{};
+ void set_gfn(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Gfn::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Hva =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KvmAgePageFtraceEvent>;
+
+ static constexpr FieldMetadata_Hva kHva{};
+ void set_hva(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Hva::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Level =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ KvmAgePageFtraceEvent>;
+
+ static constexpr FieldMetadata_Level kLevel{};
+ void set_level(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Level::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Referenced =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ KvmAgePageFtraceEvent>;
+
+ static constexpr FieldMetadata_Referenced kReferenced{};
+ void set_referenced(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Referenced::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class KvmAgeHvaFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ KvmAgeHvaFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit KvmAgeHvaFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit KvmAgeHvaFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_end() const { return at<1>().valid(); }
+ uint64_t end() const { return at<1>().as_uint64(); }
+ bool has_start() const { return at<2>().valid(); }
+ uint64_t start() const { return at<2>().as_uint64(); }
+};
+
+class KvmAgeHvaFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = KvmAgeHvaFtraceEvent_Decoder;
+ enum : int32_t {
+ kEndFieldNumber = 1,
+ kStartFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.KvmAgeHvaFtraceEvent"; }
+
+
+ using FieldMetadata_End =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KvmAgeHvaFtraceEvent>;
+
+ static constexpr FieldMetadata_End kEnd{};
+ void set_end(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_End::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Start =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KvmAgeHvaFtraceEvent>;
+
+ static constexpr FieldMetadata_Start kStart{};
+ void set_start(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Start::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class KvmAckIrqFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ KvmAckIrqFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit KvmAckIrqFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit KvmAckIrqFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_irqchip() const { return at<1>().valid(); }
+ uint32_t irqchip() const { return at<1>().as_uint32(); }
+ bool has_pin() const { return at<2>().valid(); }
+ uint32_t pin() const { return at<2>().as_uint32(); }
+};
+
+class KvmAckIrqFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = KvmAckIrqFtraceEvent_Decoder;
+ enum : int32_t {
+ kIrqchipFieldNumber = 1,
+ kPinFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.KvmAckIrqFtraceEvent"; }
+
+
+ using FieldMetadata_Irqchip =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ KvmAckIrqFtraceEvent>;
+
+ static constexpr FieldMetadata_Irqchip kIrqchip{};
+ void set_irqchip(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Irqchip::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pin =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ KvmAckIrqFtraceEvent>;
+
+ static constexpr FieldMetadata_Pin kPin{};
+ void set_pin(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pin::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class KvmAccessFaultFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ KvmAccessFaultFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit KvmAccessFaultFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit KvmAccessFaultFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_ipa() const { return at<1>().valid(); }
+ uint64_t ipa() const { return at<1>().as_uint64(); }
+};
+
+class KvmAccessFaultFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = KvmAccessFaultFtraceEvent_Decoder;
+ enum : int32_t {
+ kIpaFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.KvmAccessFaultFtraceEvent"; }
+
+
+ using FieldMetadata_Ipa =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KvmAccessFaultFtraceEvent>;
+
+ static constexpr FieldMetadata_Ipa kIpa{};
+ void set_ipa(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ipa::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/lowmemorykiller.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_LOWMEMORYKILLER_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_LOWMEMORYKILLER_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class LowmemoryKillFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ LowmemoryKillFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit LowmemoryKillFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit LowmemoryKillFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_comm() const { return at<1>().valid(); }
+ ::protozero::ConstChars comm() const { return at<1>().as_string(); }
+ bool has_pid() const { return at<2>().valid(); }
+ int32_t pid() const { return at<2>().as_int32(); }
+ bool has_pagecache_size() const { return at<3>().valid(); }
+ int64_t pagecache_size() const { return at<3>().as_int64(); }
+ bool has_pagecache_limit() const { return at<4>().valid(); }
+ int64_t pagecache_limit() const { return at<4>().as_int64(); }
+ bool has_free() const { return at<5>().valid(); }
+ int64_t free() const { return at<5>().as_int64(); }
+};
+
+class LowmemoryKillFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = LowmemoryKillFtraceEvent_Decoder;
+ enum : int32_t {
+ kCommFieldNumber = 1,
+ kPidFieldNumber = 2,
+ kPagecacheSizeFieldNumber = 3,
+ kPagecacheLimitFieldNumber = 4,
+ kFreeFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.LowmemoryKillFtraceEvent"; }
+
+
+ using FieldMetadata_Comm =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ LowmemoryKillFtraceEvent>;
+
+ static constexpr FieldMetadata_Comm kComm{};
+ void set_comm(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Comm::kFieldId, data, size);
+ }
+ void set_comm(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Comm::kFieldId, chars.data, chars.size);
+ }
+ void set_comm(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Comm::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ LowmemoryKillFtraceEvent>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PagecacheSize =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ LowmemoryKillFtraceEvent>;
+
+ static constexpr FieldMetadata_PagecacheSize kPagecacheSize{};
+ void set_pagecache_size(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PagecacheSize::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PagecacheLimit =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ LowmemoryKillFtraceEvent>;
+
+ static constexpr FieldMetadata_PagecacheLimit kPagecacheLimit{};
+ void set_pagecache_limit(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PagecacheLimit::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Free =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ LowmemoryKillFtraceEvent>;
+
+ static constexpr FieldMetadata_Free kFree{};
+ void set_free(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Free::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/lwis.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_LWIS_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_LWIS_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class LwisTracingMarkWriteFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ LwisTracingMarkWriteFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit LwisTracingMarkWriteFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit LwisTracingMarkWriteFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_lwis_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars lwis_name() const { return at<1>().as_string(); }
+ bool has_type() const { return at<2>().valid(); }
+ uint32_t type() const { return at<2>().as_uint32(); }
+ bool has_pid() const { return at<3>().valid(); }
+ int32_t pid() const { return at<3>().as_int32(); }
+ bool has_func_name() const { return at<4>().valid(); }
+ ::protozero::ConstChars func_name() const { return at<4>().as_string(); }
+ bool has_value() const { return at<5>().valid(); }
+ int64_t value() const { return at<5>().as_int64(); }
+};
+
+class LwisTracingMarkWriteFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = LwisTracingMarkWriteFtraceEvent_Decoder;
+ enum : int32_t {
+ kLwisNameFieldNumber = 1,
+ kTypeFieldNumber = 2,
+ kPidFieldNumber = 3,
+ kFuncNameFieldNumber = 4,
+ kValueFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.LwisTracingMarkWriteFtraceEvent"; }
+
+
+ using FieldMetadata_LwisName =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ LwisTracingMarkWriteFtraceEvent>;
+
+ static constexpr FieldMetadata_LwisName kLwisName{};
+ void set_lwis_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_LwisName::kFieldId, data, size);
+ }
+ void set_lwis_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_LwisName::kFieldId, chars.data, chars.size);
+ }
+ void set_lwis_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_LwisName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Type =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ LwisTracingMarkWriteFtraceEvent>;
+
+ static constexpr FieldMetadata_Type kType{};
+ void set_type(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Type::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ LwisTracingMarkWriteFtraceEvent>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FuncName =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ LwisTracingMarkWriteFtraceEvent>;
+
+ static constexpr FieldMetadata_FuncName kFuncName{};
+ void set_func_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_FuncName::kFieldId, data, size);
+ }
+ void set_func_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_FuncName::kFieldId, chars.data, chars.size);
+ }
+ void set_func_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_FuncName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Value =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ LwisTracingMarkWriteFtraceEvent>;
+
+ static constexpr FieldMetadata_Value kValue{};
+ void set_value(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Value::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/mali.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_MALI_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_MALI_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class MaliMaliCSFINTERRUPTENDFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MaliMaliCSFINTERRUPTENDFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MaliMaliCSFINTERRUPTENDFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MaliMaliCSFINTERRUPTENDFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_kctx_tgid() const { return at<1>().valid(); }
+ int32_t kctx_tgid() const { return at<1>().as_int32(); }
+ bool has_kctx_id() const { return at<2>().valid(); }
+ uint32_t kctx_id() const { return at<2>().as_uint32(); }
+ bool has_info_val() const { return at<3>().valid(); }
+ uint64_t info_val() const { return at<3>().as_uint64(); }
+};
+
+class MaliMaliCSFINTERRUPTENDFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MaliMaliCSFINTERRUPTENDFtraceEvent_Decoder;
+ enum : int32_t {
+ kKctxTgidFieldNumber = 1,
+ kKctxIdFieldNumber = 2,
+ kInfoValFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MaliMaliCSFINTERRUPTENDFtraceEvent"; }
+
+
+ using FieldMetadata_KctxTgid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MaliMaliCSFINTERRUPTENDFtraceEvent>;
+
+ static constexpr FieldMetadata_KctxTgid kKctxTgid{};
+ void set_kctx_tgid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_KctxTgid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_KctxId =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MaliMaliCSFINTERRUPTENDFtraceEvent>;
+
+ static constexpr FieldMetadata_KctxId kKctxId{};
+ void set_kctx_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_KctxId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_InfoVal =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MaliMaliCSFINTERRUPTENDFtraceEvent>;
+
+ static constexpr FieldMetadata_InfoVal kInfoVal{};
+ void set_info_val(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_InfoVal::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class MaliMaliCSFINTERRUPTSTARTFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MaliMaliCSFINTERRUPTSTARTFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MaliMaliCSFINTERRUPTSTARTFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MaliMaliCSFINTERRUPTSTARTFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_kctx_tgid() const { return at<1>().valid(); }
+ int32_t kctx_tgid() const { return at<1>().as_int32(); }
+ bool has_kctx_id() const { return at<2>().valid(); }
+ uint32_t kctx_id() const { return at<2>().as_uint32(); }
+ bool has_info_val() const { return at<3>().valid(); }
+ uint64_t info_val() const { return at<3>().as_uint64(); }
+};
+
+class MaliMaliCSFINTERRUPTSTARTFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MaliMaliCSFINTERRUPTSTARTFtraceEvent_Decoder;
+ enum : int32_t {
+ kKctxTgidFieldNumber = 1,
+ kKctxIdFieldNumber = 2,
+ kInfoValFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MaliMaliCSFINTERRUPTSTARTFtraceEvent"; }
+
+
+ using FieldMetadata_KctxTgid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MaliMaliCSFINTERRUPTSTARTFtraceEvent>;
+
+ static constexpr FieldMetadata_KctxTgid kKctxTgid{};
+ void set_kctx_tgid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_KctxTgid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_KctxId =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MaliMaliCSFINTERRUPTSTARTFtraceEvent>;
+
+ static constexpr FieldMetadata_KctxId kKctxId{};
+ void set_kctx_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_KctxId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_InfoVal =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MaliMaliCSFINTERRUPTSTARTFtraceEvent>;
+
+ static constexpr FieldMetadata_InfoVal kInfoVal{};
+ void set_info_val(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_InfoVal::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class MaliMaliKCPUFENCEWAITENDFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MaliMaliKCPUFENCEWAITENDFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MaliMaliKCPUFENCEWAITENDFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MaliMaliKCPUFENCEWAITENDFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_info_val1() const { return at<1>().valid(); }
+ uint64_t info_val1() const { return at<1>().as_uint64(); }
+ bool has_info_val2() const { return at<2>().valid(); }
+ uint64_t info_val2() const { return at<2>().as_uint64(); }
+ bool has_kctx_tgid() const { return at<3>().valid(); }
+ int32_t kctx_tgid() const { return at<3>().as_int32(); }
+ bool has_kctx_id() const { return at<4>().valid(); }
+ uint32_t kctx_id() const { return at<4>().as_uint32(); }
+ bool has_id() const { return at<5>().valid(); }
+ uint32_t id() const { return at<5>().as_uint32(); }
+};
+
+class MaliMaliKCPUFENCEWAITENDFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MaliMaliKCPUFENCEWAITENDFtraceEvent_Decoder;
+ enum : int32_t {
+ kInfoVal1FieldNumber = 1,
+ kInfoVal2FieldNumber = 2,
+ kKctxTgidFieldNumber = 3,
+ kKctxIdFieldNumber = 4,
+ kIdFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MaliMaliKCPUFENCEWAITENDFtraceEvent"; }
+
+
+ using FieldMetadata_InfoVal1 =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MaliMaliKCPUFENCEWAITENDFtraceEvent>;
+
+ static constexpr FieldMetadata_InfoVal1 kInfoVal1{};
+ void set_info_val1(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_InfoVal1::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_InfoVal2 =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MaliMaliKCPUFENCEWAITENDFtraceEvent>;
+
+ static constexpr FieldMetadata_InfoVal2 kInfoVal2{};
+ void set_info_val2(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_InfoVal2::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_KctxTgid =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MaliMaliKCPUFENCEWAITENDFtraceEvent>;
+
+ static constexpr FieldMetadata_KctxTgid kKctxTgid{};
+ void set_kctx_tgid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_KctxTgid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_KctxId =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MaliMaliKCPUFENCEWAITENDFtraceEvent>;
+
+ static constexpr FieldMetadata_KctxId kKctxId{};
+ void set_kctx_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_KctxId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Id =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MaliMaliKCPUFENCEWAITENDFtraceEvent>;
+
+ static constexpr FieldMetadata_Id kId{};
+ void set_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Id::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class MaliMaliKCPUFENCEWAITSTARTFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MaliMaliKCPUFENCEWAITSTARTFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MaliMaliKCPUFENCEWAITSTARTFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MaliMaliKCPUFENCEWAITSTARTFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_info_val1() const { return at<1>().valid(); }
+ uint64_t info_val1() const { return at<1>().as_uint64(); }
+ bool has_info_val2() const { return at<2>().valid(); }
+ uint64_t info_val2() const { return at<2>().as_uint64(); }
+ bool has_kctx_tgid() const { return at<3>().valid(); }
+ int32_t kctx_tgid() const { return at<3>().as_int32(); }
+ bool has_kctx_id() const { return at<4>().valid(); }
+ uint32_t kctx_id() const { return at<4>().as_uint32(); }
+ bool has_id() const { return at<5>().valid(); }
+ uint32_t id() const { return at<5>().as_uint32(); }
+};
+
+class MaliMaliKCPUFENCEWAITSTARTFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MaliMaliKCPUFENCEWAITSTARTFtraceEvent_Decoder;
+ enum : int32_t {
+ kInfoVal1FieldNumber = 1,
+ kInfoVal2FieldNumber = 2,
+ kKctxTgidFieldNumber = 3,
+ kKctxIdFieldNumber = 4,
+ kIdFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MaliMaliKCPUFENCEWAITSTARTFtraceEvent"; }
+
+
+ using FieldMetadata_InfoVal1 =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MaliMaliKCPUFENCEWAITSTARTFtraceEvent>;
+
+ static constexpr FieldMetadata_InfoVal1 kInfoVal1{};
+ void set_info_val1(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_InfoVal1::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_InfoVal2 =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MaliMaliKCPUFENCEWAITSTARTFtraceEvent>;
+
+ static constexpr FieldMetadata_InfoVal2 kInfoVal2{};
+ void set_info_val2(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_InfoVal2::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_KctxTgid =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MaliMaliKCPUFENCEWAITSTARTFtraceEvent>;
+
+ static constexpr FieldMetadata_KctxTgid kKctxTgid{};
+ void set_kctx_tgid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_KctxTgid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_KctxId =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MaliMaliKCPUFENCEWAITSTARTFtraceEvent>;
+
+ static constexpr FieldMetadata_KctxId kKctxId{};
+ void set_kctx_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_KctxId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Id =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MaliMaliKCPUFENCEWAITSTARTFtraceEvent>;
+
+ static constexpr FieldMetadata_Id kId{};
+ void set_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Id::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class MaliMaliKCPUFENCESIGNALFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MaliMaliKCPUFENCESIGNALFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MaliMaliKCPUFENCESIGNALFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MaliMaliKCPUFENCESIGNALFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_info_val1() const { return at<1>().valid(); }
+ uint64_t info_val1() const { return at<1>().as_uint64(); }
+ bool has_info_val2() const { return at<2>().valid(); }
+ uint64_t info_val2() const { return at<2>().as_uint64(); }
+ bool has_kctx_tgid() const { return at<3>().valid(); }
+ int32_t kctx_tgid() const { return at<3>().as_int32(); }
+ bool has_kctx_id() const { return at<4>().valid(); }
+ uint32_t kctx_id() const { return at<4>().as_uint32(); }
+ bool has_id() const { return at<5>().valid(); }
+ uint32_t id() const { return at<5>().as_uint32(); }
+};
+
+class MaliMaliKCPUFENCESIGNALFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MaliMaliKCPUFENCESIGNALFtraceEvent_Decoder;
+ enum : int32_t {
+ kInfoVal1FieldNumber = 1,
+ kInfoVal2FieldNumber = 2,
+ kKctxTgidFieldNumber = 3,
+ kKctxIdFieldNumber = 4,
+ kIdFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MaliMaliKCPUFENCESIGNALFtraceEvent"; }
+
+
+ using FieldMetadata_InfoVal1 =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MaliMaliKCPUFENCESIGNALFtraceEvent>;
+
+ static constexpr FieldMetadata_InfoVal1 kInfoVal1{};
+ void set_info_val1(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_InfoVal1::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_InfoVal2 =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MaliMaliKCPUFENCESIGNALFtraceEvent>;
+
+ static constexpr FieldMetadata_InfoVal2 kInfoVal2{};
+ void set_info_val2(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_InfoVal2::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_KctxTgid =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MaliMaliKCPUFENCESIGNALFtraceEvent>;
+
+ static constexpr FieldMetadata_KctxTgid kKctxTgid{};
+ void set_kctx_tgid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_KctxTgid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_KctxId =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MaliMaliKCPUFENCESIGNALFtraceEvent>;
+
+ static constexpr FieldMetadata_KctxId kKctxId{};
+ void set_kctx_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_KctxId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Id =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MaliMaliKCPUFENCESIGNALFtraceEvent>;
+
+ static constexpr FieldMetadata_Id kId{};
+ void set_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Id::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class MaliMaliKCPUCQSWAITENDFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MaliMaliKCPUCQSWAITENDFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MaliMaliKCPUCQSWAITENDFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MaliMaliKCPUCQSWAITENDFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_id() const { return at<1>().valid(); }
+ uint32_t id() const { return at<1>().as_uint32(); }
+ bool has_info_val1() const { return at<2>().valid(); }
+ uint64_t info_val1() const { return at<2>().as_uint64(); }
+ bool has_info_val2() const { return at<3>().valid(); }
+ uint64_t info_val2() const { return at<3>().as_uint64(); }
+ bool has_kctx_id() const { return at<4>().valid(); }
+ uint32_t kctx_id() const { return at<4>().as_uint32(); }
+ bool has_kctx_tgid() const { return at<5>().valid(); }
+ int32_t kctx_tgid() const { return at<5>().as_int32(); }
+};
+
+class MaliMaliKCPUCQSWAITENDFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MaliMaliKCPUCQSWAITENDFtraceEvent_Decoder;
+ enum : int32_t {
+ kIdFieldNumber = 1,
+ kInfoVal1FieldNumber = 2,
+ kInfoVal2FieldNumber = 3,
+ kKctxIdFieldNumber = 4,
+ kKctxTgidFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MaliMaliKCPUCQSWAITENDFtraceEvent"; }
+
+
+ using FieldMetadata_Id =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MaliMaliKCPUCQSWAITENDFtraceEvent>;
+
+ static constexpr FieldMetadata_Id kId{};
+ void set_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Id::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_InfoVal1 =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MaliMaliKCPUCQSWAITENDFtraceEvent>;
+
+ static constexpr FieldMetadata_InfoVal1 kInfoVal1{};
+ void set_info_val1(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_InfoVal1::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_InfoVal2 =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MaliMaliKCPUCQSWAITENDFtraceEvent>;
+
+ static constexpr FieldMetadata_InfoVal2 kInfoVal2{};
+ void set_info_val2(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_InfoVal2::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_KctxId =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MaliMaliKCPUCQSWAITENDFtraceEvent>;
+
+ static constexpr FieldMetadata_KctxId kKctxId{};
+ void set_kctx_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_KctxId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_KctxTgid =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MaliMaliKCPUCQSWAITENDFtraceEvent>;
+
+ static constexpr FieldMetadata_KctxTgid kKctxTgid{};
+ void set_kctx_tgid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_KctxTgid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class MaliMaliKCPUCQSWAITSTARTFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MaliMaliKCPUCQSWAITSTARTFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MaliMaliKCPUCQSWAITSTARTFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MaliMaliKCPUCQSWAITSTARTFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_id() const { return at<1>().valid(); }
+ uint32_t id() const { return at<1>().as_uint32(); }
+ bool has_info_val1() const { return at<2>().valid(); }
+ uint64_t info_val1() const { return at<2>().as_uint64(); }
+ bool has_info_val2() const { return at<3>().valid(); }
+ uint64_t info_val2() const { return at<3>().as_uint64(); }
+ bool has_kctx_id() const { return at<4>().valid(); }
+ uint32_t kctx_id() const { return at<4>().as_uint32(); }
+ bool has_kctx_tgid() const { return at<5>().valid(); }
+ int32_t kctx_tgid() const { return at<5>().as_int32(); }
+};
+
+class MaliMaliKCPUCQSWAITSTARTFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MaliMaliKCPUCQSWAITSTARTFtraceEvent_Decoder;
+ enum : int32_t {
+ kIdFieldNumber = 1,
+ kInfoVal1FieldNumber = 2,
+ kInfoVal2FieldNumber = 3,
+ kKctxIdFieldNumber = 4,
+ kKctxTgidFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MaliMaliKCPUCQSWAITSTARTFtraceEvent"; }
+
+
+ using FieldMetadata_Id =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MaliMaliKCPUCQSWAITSTARTFtraceEvent>;
+
+ static constexpr FieldMetadata_Id kId{};
+ void set_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Id::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_InfoVal1 =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MaliMaliKCPUCQSWAITSTARTFtraceEvent>;
+
+ static constexpr FieldMetadata_InfoVal1 kInfoVal1{};
+ void set_info_val1(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_InfoVal1::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_InfoVal2 =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MaliMaliKCPUCQSWAITSTARTFtraceEvent>;
+
+ static constexpr FieldMetadata_InfoVal2 kInfoVal2{};
+ void set_info_val2(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_InfoVal2::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_KctxId =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MaliMaliKCPUCQSWAITSTARTFtraceEvent>;
+
+ static constexpr FieldMetadata_KctxId kKctxId{};
+ void set_kctx_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_KctxId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_KctxTgid =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MaliMaliKCPUCQSWAITSTARTFtraceEvent>;
+
+ static constexpr FieldMetadata_KctxTgid kKctxTgid{};
+ void set_kctx_tgid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_KctxTgid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class MaliMaliKCPUCQSSETFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MaliMaliKCPUCQSSETFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MaliMaliKCPUCQSSETFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MaliMaliKCPUCQSSETFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_id() const { return at<1>().valid(); }
+ uint32_t id() const { return at<1>().as_uint32(); }
+ bool has_info_val1() const { return at<2>().valid(); }
+ uint64_t info_val1() const { return at<2>().as_uint64(); }
+ bool has_info_val2() const { return at<3>().valid(); }
+ uint64_t info_val2() const { return at<3>().as_uint64(); }
+ bool has_kctx_id() const { return at<4>().valid(); }
+ uint32_t kctx_id() const { return at<4>().as_uint32(); }
+ bool has_kctx_tgid() const { return at<5>().valid(); }
+ int32_t kctx_tgid() const { return at<5>().as_int32(); }
+};
+
+class MaliMaliKCPUCQSSETFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MaliMaliKCPUCQSSETFtraceEvent_Decoder;
+ enum : int32_t {
+ kIdFieldNumber = 1,
+ kInfoVal1FieldNumber = 2,
+ kInfoVal2FieldNumber = 3,
+ kKctxIdFieldNumber = 4,
+ kKctxTgidFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MaliMaliKCPUCQSSETFtraceEvent"; }
+
+
+ using FieldMetadata_Id =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MaliMaliKCPUCQSSETFtraceEvent>;
+
+ static constexpr FieldMetadata_Id kId{};
+ void set_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Id::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_InfoVal1 =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MaliMaliKCPUCQSSETFtraceEvent>;
+
+ static constexpr FieldMetadata_InfoVal1 kInfoVal1{};
+ void set_info_val1(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_InfoVal1::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_InfoVal2 =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MaliMaliKCPUCQSSETFtraceEvent>;
+
+ static constexpr FieldMetadata_InfoVal2 kInfoVal2{};
+ void set_info_val2(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_InfoVal2::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_KctxId =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MaliMaliKCPUCQSSETFtraceEvent>;
+
+ static constexpr FieldMetadata_KctxId kKctxId{};
+ void set_kctx_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_KctxId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_KctxTgid =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MaliMaliKCPUCQSSETFtraceEvent>;
+
+ static constexpr FieldMetadata_KctxTgid kKctxTgid{};
+ void set_kctx_tgid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_KctxTgid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class MaliTracingMarkWriteFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MaliTracingMarkWriteFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MaliTracingMarkWriteFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MaliTracingMarkWriteFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars name() const { return at<1>().as_string(); }
+ bool has_pid() const { return at<2>().valid(); }
+ int32_t pid() const { return at<2>().as_int32(); }
+ bool has_type() const { return at<3>().valid(); }
+ uint32_t type() const { return at<3>().as_uint32(); }
+ bool has_value() const { return at<4>().valid(); }
+ int32_t value() const { return at<4>().as_int32(); }
+};
+
+class MaliTracingMarkWriteFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MaliTracingMarkWriteFtraceEvent_Decoder;
+ enum : int32_t {
+ kNameFieldNumber = 1,
+ kPidFieldNumber = 2,
+ kTypeFieldNumber = 3,
+ kValueFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MaliTracingMarkWriteFtraceEvent"; }
+
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ MaliTracingMarkWriteFtraceEvent>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MaliTracingMarkWriteFtraceEvent>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Type =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MaliTracingMarkWriteFtraceEvent>;
+
+ static constexpr FieldMetadata_Type kType{};
+ void set_type(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Type::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Value =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MaliTracingMarkWriteFtraceEvent>;
+
+ static constexpr FieldMetadata_Value kValue{};
+ void set_value(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Value::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/mdss.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_MDSS_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_MDSS_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class RotatorBwAoAsContextFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ RotatorBwAoAsContextFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit RotatorBwAoAsContextFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit RotatorBwAoAsContextFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_state() const { return at<1>().valid(); }
+ uint32_t state() const { return at<1>().as_uint32(); }
+};
+
+class RotatorBwAoAsContextFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = RotatorBwAoAsContextFtraceEvent_Decoder;
+ enum : int32_t {
+ kStateFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.RotatorBwAoAsContextFtraceEvent"; }
+
+
+ using FieldMetadata_State =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ RotatorBwAoAsContextFtraceEvent>;
+
+ static constexpr FieldMetadata_State kState{};
+ void set_state(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_State::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class MdpPerfUpdateBusFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MdpPerfUpdateBusFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MdpPerfUpdateBusFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MdpPerfUpdateBusFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_client() const { return at<1>().valid(); }
+ int32_t client() const { return at<1>().as_int32(); }
+ bool has_ab_quota() const { return at<2>().valid(); }
+ uint64_t ab_quota() const { return at<2>().as_uint64(); }
+ bool has_ib_quota() const { return at<3>().valid(); }
+ uint64_t ib_quota() const { return at<3>().as_uint64(); }
+};
+
+class MdpPerfUpdateBusFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MdpPerfUpdateBusFtraceEvent_Decoder;
+ enum : int32_t {
+ kClientFieldNumber = 1,
+ kAbQuotaFieldNumber = 2,
+ kIbQuotaFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MdpPerfUpdateBusFtraceEvent"; }
+
+
+ using FieldMetadata_Client =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MdpPerfUpdateBusFtraceEvent>;
+
+ static constexpr FieldMetadata_Client kClient{};
+ void set_client(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Client::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_AbQuota =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MdpPerfUpdateBusFtraceEvent>;
+
+ static constexpr FieldMetadata_AbQuota kAbQuota{};
+ void set_ab_quota(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_AbQuota::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IbQuota =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MdpPerfUpdateBusFtraceEvent>;
+
+ static constexpr FieldMetadata_IbQuota kIbQuota{};
+ void set_ib_quota(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_IbQuota::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class MdpPerfPrefillCalcFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/10, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MdpPerfPrefillCalcFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MdpPerfPrefillCalcFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MdpPerfPrefillCalcFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_pnum() const { return at<1>().valid(); }
+ uint32_t pnum() const { return at<1>().as_uint32(); }
+ bool has_latency_buf() const { return at<2>().valid(); }
+ uint32_t latency_buf() const { return at<2>().as_uint32(); }
+ bool has_ot() const { return at<3>().valid(); }
+ uint32_t ot() const { return at<3>().as_uint32(); }
+ bool has_y_buf() const { return at<4>().valid(); }
+ uint32_t y_buf() const { return at<4>().as_uint32(); }
+ bool has_y_scaler() const { return at<5>().valid(); }
+ uint32_t y_scaler() const { return at<5>().as_uint32(); }
+ bool has_pp_lines() const { return at<6>().valid(); }
+ uint32_t pp_lines() const { return at<6>().as_uint32(); }
+ bool has_pp_bytes() const { return at<7>().valid(); }
+ uint32_t pp_bytes() const { return at<7>().as_uint32(); }
+ bool has_post_sc() const { return at<8>().valid(); }
+ uint32_t post_sc() const { return at<8>().as_uint32(); }
+ bool has_fbc_bytes() const { return at<9>().valid(); }
+ uint32_t fbc_bytes() const { return at<9>().as_uint32(); }
+ bool has_prefill_bytes() const { return at<10>().valid(); }
+ uint32_t prefill_bytes() const { return at<10>().as_uint32(); }
+};
+
+class MdpPerfPrefillCalcFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MdpPerfPrefillCalcFtraceEvent_Decoder;
+ enum : int32_t {
+ kPnumFieldNumber = 1,
+ kLatencyBufFieldNumber = 2,
+ kOtFieldNumber = 3,
+ kYBufFieldNumber = 4,
+ kYScalerFieldNumber = 5,
+ kPpLinesFieldNumber = 6,
+ kPpBytesFieldNumber = 7,
+ kPostScFieldNumber = 8,
+ kFbcBytesFieldNumber = 9,
+ kPrefillBytesFieldNumber = 10,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MdpPerfPrefillCalcFtraceEvent"; }
+
+
+ using FieldMetadata_Pnum =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpPerfPrefillCalcFtraceEvent>;
+
+ static constexpr FieldMetadata_Pnum kPnum{};
+ void set_pnum(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pnum::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_LatencyBuf =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpPerfPrefillCalcFtraceEvent>;
+
+ static constexpr FieldMetadata_LatencyBuf kLatencyBuf{};
+ void set_latency_buf(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_LatencyBuf::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ot =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpPerfPrefillCalcFtraceEvent>;
+
+ static constexpr FieldMetadata_Ot kOt{};
+ void set_ot(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ot::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_YBuf =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpPerfPrefillCalcFtraceEvent>;
+
+ static constexpr FieldMetadata_YBuf kYBuf{};
+ void set_y_buf(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_YBuf::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_YScaler =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpPerfPrefillCalcFtraceEvent>;
+
+ static constexpr FieldMetadata_YScaler kYScaler{};
+ void set_y_scaler(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_YScaler::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PpLines =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpPerfPrefillCalcFtraceEvent>;
+
+ static constexpr FieldMetadata_PpLines kPpLines{};
+ void set_pp_lines(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PpLines::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PpBytes =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpPerfPrefillCalcFtraceEvent>;
+
+ static constexpr FieldMetadata_PpBytes kPpBytes{};
+ void set_pp_bytes(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PpBytes::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PostSc =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpPerfPrefillCalcFtraceEvent>;
+
+ static constexpr FieldMetadata_PostSc kPostSc{};
+ void set_post_sc(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PostSc::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FbcBytes =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpPerfPrefillCalcFtraceEvent>;
+
+ static constexpr FieldMetadata_FbcBytes kFbcBytes{};
+ void set_fbc_bytes(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FbcBytes::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PrefillBytes =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpPerfPrefillCalcFtraceEvent>;
+
+ static constexpr FieldMetadata_PrefillBytes kPrefillBytes{};
+ void set_prefill_bytes(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PrefillBytes::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class MdpCmdWaitPingpongFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MdpCmdWaitPingpongFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MdpCmdWaitPingpongFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MdpCmdWaitPingpongFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_ctl_num() const { return at<1>().valid(); }
+ uint32_t ctl_num() const { return at<1>().as_uint32(); }
+ bool has_kickoff_cnt() const { return at<2>().valid(); }
+ int32_t kickoff_cnt() const { return at<2>().as_int32(); }
+};
+
+class MdpCmdWaitPingpongFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MdpCmdWaitPingpongFtraceEvent_Decoder;
+ enum : int32_t {
+ kCtlNumFieldNumber = 1,
+ kKickoffCntFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MdpCmdWaitPingpongFtraceEvent"; }
+
+
+ using FieldMetadata_CtlNum =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpCmdWaitPingpongFtraceEvent>;
+
+ static constexpr FieldMetadata_CtlNum kCtlNum{};
+ void set_ctl_num(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CtlNum::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_KickoffCnt =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MdpCmdWaitPingpongFtraceEvent>;
+
+ static constexpr FieldMetadata_KickoffCnt kKickoffCnt{};
+ void set_kickoff_cnt(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_KickoffCnt::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class MdpVideoUnderrunDoneFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MdpVideoUnderrunDoneFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MdpVideoUnderrunDoneFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MdpVideoUnderrunDoneFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_ctl_num() const { return at<1>().valid(); }
+ uint32_t ctl_num() const { return at<1>().as_uint32(); }
+ bool has_underrun_cnt() const { return at<2>().valid(); }
+ uint32_t underrun_cnt() const { return at<2>().as_uint32(); }
+};
+
+class MdpVideoUnderrunDoneFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MdpVideoUnderrunDoneFtraceEvent_Decoder;
+ enum : int32_t {
+ kCtlNumFieldNumber = 1,
+ kUnderrunCntFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MdpVideoUnderrunDoneFtraceEvent"; }
+
+
+ using FieldMetadata_CtlNum =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpVideoUnderrunDoneFtraceEvent>;
+
+ static constexpr FieldMetadata_CtlNum kCtlNum{};
+ void set_ctl_num(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CtlNum::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_UnderrunCnt =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpVideoUnderrunDoneFtraceEvent>;
+
+ static constexpr FieldMetadata_UnderrunCnt kUnderrunCnt{};
+ void set_underrun_cnt(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_UnderrunCnt::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class MdpPerfSetWmLevelsFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/8, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MdpPerfSetWmLevelsFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MdpPerfSetWmLevelsFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MdpPerfSetWmLevelsFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_pnum() const { return at<1>().valid(); }
+ uint32_t pnum() const { return at<1>().as_uint32(); }
+ bool has_use_space() const { return at<2>().valid(); }
+ uint32_t use_space() const { return at<2>().as_uint32(); }
+ bool has_priority_bytes() const { return at<3>().valid(); }
+ uint32_t priority_bytes() const { return at<3>().as_uint32(); }
+ bool has_wm0() const { return at<4>().valid(); }
+ uint32_t wm0() const { return at<4>().as_uint32(); }
+ bool has_wm1() const { return at<5>().valid(); }
+ uint32_t wm1() const { return at<5>().as_uint32(); }
+ bool has_wm2() const { return at<6>().valid(); }
+ uint32_t wm2() const { return at<6>().as_uint32(); }
+ bool has_mb_cnt() const { return at<7>().valid(); }
+ uint32_t mb_cnt() const { return at<7>().as_uint32(); }
+ bool has_mb_size() const { return at<8>().valid(); }
+ uint32_t mb_size() const { return at<8>().as_uint32(); }
+};
+
+class MdpPerfSetWmLevelsFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MdpPerfSetWmLevelsFtraceEvent_Decoder;
+ enum : int32_t {
+ kPnumFieldNumber = 1,
+ kUseSpaceFieldNumber = 2,
+ kPriorityBytesFieldNumber = 3,
+ kWm0FieldNumber = 4,
+ kWm1FieldNumber = 5,
+ kWm2FieldNumber = 6,
+ kMbCntFieldNumber = 7,
+ kMbSizeFieldNumber = 8,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MdpPerfSetWmLevelsFtraceEvent"; }
+
+
+ using FieldMetadata_Pnum =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpPerfSetWmLevelsFtraceEvent>;
+
+ static constexpr FieldMetadata_Pnum kPnum{};
+ void set_pnum(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pnum::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_UseSpace =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpPerfSetWmLevelsFtraceEvent>;
+
+ static constexpr FieldMetadata_UseSpace kUseSpace{};
+ void set_use_space(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_UseSpace::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PriorityBytes =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpPerfSetWmLevelsFtraceEvent>;
+
+ static constexpr FieldMetadata_PriorityBytes kPriorityBytes{};
+ void set_priority_bytes(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PriorityBytes::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Wm0 =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpPerfSetWmLevelsFtraceEvent>;
+
+ static constexpr FieldMetadata_Wm0 kWm0{};
+ void set_wm0(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Wm0::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Wm1 =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpPerfSetWmLevelsFtraceEvent>;
+
+ static constexpr FieldMetadata_Wm1 kWm1{};
+ void set_wm1(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Wm1::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Wm2 =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpPerfSetWmLevelsFtraceEvent>;
+
+ static constexpr FieldMetadata_Wm2 kWm2{};
+ void set_wm2(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Wm2::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MbCnt =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpPerfSetWmLevelsFtraceEvent>;
+
+ static constexpr FieldMetadata_MbCnt kMbCnt{};
+ void set_mb_cnt(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MbCnt::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MbSize =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpPerfSetWmLevelsFtraceEvent>;
+
+ static constexpr FieldMetadata_MbSize kMbSize{};
+ void set_mb_size(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MbSize::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class MdpMixerUpdateFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MdpMixerUpdateFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MdpMixerUpdateFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MdpMixerUpdateFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_mixer_num() const { return at<1>().valid(); }
+ uint32_t mixer_num() const { return at<1>().as_uint32(); }
+};
+
+class MdpMixerUpdateFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MdpMixerUpdateFtraceEvent_Decoder;
+ enum : int32_t {
+ kMixerNumFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MdpMixerUpdateFtraceEvent"; }
+
+
+ using FieldMetadata_MixerNum =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpMixerUpdateFtraceEvent>;
+
+ static constexpr FieldMetadata_MixerNum kMixerNum{};
+ void set_mixer_num(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MixerNum::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class MdpCmdReleaseBwFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MdpCmdReleaseBwFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MdpCmdReleaseBwFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MdpCmdReleaseBwFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_ctl_num() const { return at<1>().valid(); }
+ uint32_t ctl_num() const { return at<1>().as_uint32(); }
+};
+
+class MdpCmdReleaseBwFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MdpCmdReleaseBwFtraceEvent_Decoder;
+ enum : int32_t {
+ kCtlNumFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MdpCmdReleaseBwFtraceEvent"; }
+
+
+ using FieldMetadata_CtlNum =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpCmdReleaseBwFtraceEvent>;
+
+ static constexpr FieldMetadata_CtlNum kCtlNum{};
+ void set_ctl_num(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CtlNum::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class MdpTraceCounterFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MdpTraceCounterFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MdpTraceCounterFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MdpTraceCounterFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_pid() const { return at<1>().valid(); }
+ int32_t pid() const { return at<1>().as_int32(); }
+ bool has_counter_name() const { return at<2>().valid(); }
+ ::protozero::ConstChars counter_name() const { return at<2>().as_string(); }
+ bool has_value() const { return at<3>().valid(); }
+ int32_t value() const { return at<3>().as_int32(); }
+};
+
+class MdpTraceCounterFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MdpTraceCounterFtraceEvent_Decoder;
+ enum : int32_t {
+ kPidFieldNumber = 1,
+ kCounterNameFieldNumber = 2,
+ kValueFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MdpTraceCounterFtraceEvent"; }
+
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MdpTraceCounterFtraceEvent>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CounterName =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ MdpTraceCounterFtraceEvent>;
+
+ static constexpr FieldMetadata_CounterName kCounterName{};
+ void set_counter_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_CounterName::kFieldId, data, size);
+ }
+ void set_counter_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_CounterName::kFieldId, chars.data, chars.size);
+ }
+ void set_counter_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_CounterName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Value =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MdpTraceCounterFtraceEvent>;
+
+ static constexpr FieldMetadata_Value kValue{};
+ void set_value(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Value::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class MdpPerfSetQosLutsFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/7, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MdpPerfSetQosLutsFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MdpPerfSetQosLutsFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MdpPerfSetQosLutsFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_pnum() const { return at<1>().valid(); }
+ uint32_t pnum() const { return at<1>().as_uint32(); }
+ bool has_fmt() const { return at<2>().valid(); }
+ uint32_t fmt() const { return at<2>().as_uint32(); }
+ bool has_intf() const { return at<3>().valid(); }
+ uint32_t intf() const { return at<3>().as_uint32(); }
+ bool has_rot() const { return at<4>().valid(); }
+ uint32_t rot() const { return at<4>().as_uint32(); }
+ bool has_fl() const { return at<5>().valid(); }
+ uint32_t fl() const { return at<5>().as_uint32(); }
+ bool has_lut() const { return at<6>().valid(); }
+ uint32_t lut() const { return at<6>().as_uint32(); }
+ bool has_linear() const { return at<7>().valid(); }
+ uint32_t linear() const { return at<7>().as_uint32(); }
+};
+
+class MdpPerfSetQosLutsFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MdpPerfSetQosLutsFtraceEvent_Decoder;
+ enum : int32_t {
+ kPnumFieldNumber = 1,
+ kFmtFieldNumber = 2,
+ kIntfFieldNumber = 3,
+ kRotFieldNumber = 4,
+ kFlFieldNumber = 5,
+ kLutFieldNumber = 6,
+ kLinearFieldNumber = 7,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MdpPerfSetQosLutsFtraceEvent"; }
+
+
+ using FieldMetadata_Pnum =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpPerfSetQosLutsFtraceEvent>;
+
+ static constexpr FieldMetadata_Pnum kPnum{};
+ void set_pnum(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pnum::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Fmt =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpPerfSetQosLutsFtraceEvent>;
+
+ static constexpr FieldMetadata_Fmt kFmt{};
+ void set_fmt(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Fmt::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Intf =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpPerfSetQosLutsFtraceEvent>;
+
+ static constexpr FieldMetadata_Intf kIntf{};
+ void set_intf(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Intf::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Rot =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpPerfSetQosLutsFtraceEvent>;
+
+ static constexpr FieldMetadata_Rot kRot{};
+ void set_rot(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Rot::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Fl =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpPerfSetQosLutsFtraceEvent>;
+
+ static constexpr FieldMetadata_Fl kFl{};
+ void set_fl(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Fl::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Lut =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpPerfSetQosLutsFtraceEvent>;
+
+ static constexpr FieldMetadata_Lut kLut{};
+ void set_lut(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Lut::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Linear =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpPerfSetQosLutsFtraceEvent>;
+
+ static constexpr FieldMetadata_Linear kLinear{};
+ void set_linear(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Linear::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class MdpMisrCrcFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MdpMisrCrcFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MdpMisrCrcFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MdpMisrCrcFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_block_id() const { return at<1>().valid(); }
+ uint32_t block_id() const { return at<1>().as_uint32(); }
+ bool has_vsync_cnt() const { return at<2>().valid(); }
+ uint32_t vsync_cnt() const { return at<2>().as_uint32(); }
+ bool has_crc() const { return at<3>().valid(); }
+ uint32_t crc() const { return at<3>().as_uint32(); }
+};
+
+class MdpMisrCrcFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MdpMisrCrcFtraceEvent_Decoder;
+ enum : int32_t {
+ kBlockIdFieldNumber = 1,
+ kVsyncCntFieldNumber = 2,
+ kCrcFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MdpMisrCrcFtraceEvent"; }
+
+
+ using FieldMetadata_BlockId =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpMisrCrcFtraceEvent>;
+
+ static constexpr FieldMetadata_BlockId kBlockId{};
+ void set_block_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BlockId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_VsyncCnt =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpMisrCrcFtraceEvent>;
+
+ static constexpr FieldMetadata_VsyncCnt kVsyncCnt{};
+ void set_vsync_cnt(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_VsyncCnt::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Crc =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpMisrCrcFtraceEvent>;
+
+ static constexpr FieldMetadata_Crc kCrc{};
+ void set_crc(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Crc::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class MdpCmdReadptrDoneFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MdpCmdReadptrDoneFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MdpCmdReadptrDoneFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MdpCmdReadptrDoneFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_ctl_num() const { return at<1>().valid(); }
+ uint32_t ctl_num() const { return at<1>().as_uint32(); }
+ bool has_koff_cnt() const { return at<2>().valid(); }
+ int32_t koff_cnt() const { return at<2>().as_int32(); }
+};
+
+class MdpCmdReadptrDoneFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MdpCmdReadptrDoneFtraceEvent_Decoder;
+ enum : int32_t {
+ kCtlNumFieldNumber = 1,
+ kKoffCntFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MdpCmdReadptrDoneFtraceEvent"; }
+
+
+ using FieldMetadata_CtlNum =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpCmdReadptrDoneFtraceEvent>;
+
+ static constexpr FieldMetadata_CtlNum kCtlNum{};
+ void set_ctl_num(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CtlNum::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_KoffCnt =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MdpCmdReadptrDoneFtraceEvent>;
+
+ static constexpr FieldMetadata_KoffCnt kKoffCnt{};
+ void set_koff_cnt(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_KoffCnt::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class MdpSsppSetFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/16, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MdpSsppSetFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MdpSsppSetFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MdpSsppSetFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_num() const { return at<1>().valid(); }
+ uint32_t num() const { return at<1>().as_uint32(); }
+ bool has_play_cnt() const { return at<2>().valid(); }
+ uint32_t play_cnt() const { return at<2>().as_uint32(); }
+ bool has_mixer() const { return at<3>().valid(); }
+ uint32_t mixer() const { return at<3>().as_uint32(); }
+ bool has_stage() const { return at<4>().valid(); }
+ uint32_t stage() const { return at<4>().as_uint32(); }
+ bool has_flags() const { return at<5>().valid(); }
+ uint32_t flags() const { return at<5>().as_uint32(); }
+ bool has_format() const { return at<6>().valid(); }
+ uint32_t format() const { return at<6>().as_uint32(); }
+ bool has_img_w() const { return at<7>().valid(); }
+ uint32_t img_w() const { return at<7>().as_uint32(); }
+ bool has_img_h() const { return at<8>().valid(); }
+ uint32_t img_h() const { return at<8>().as_uint32(); }
+ bool has_src_x() const { return at<9>().valid(); }
+ uint32_t src_x() const { return at<9>().as_uint32(); }
+ bool has_src_y() const { return at<10>().valid(); }
+ uint32_t src_y() const { return at<10>().as_uint32(); }
+ bool has_src_w() const { return at<11>().valid(); }
+ uint32_t src_w() const { return at<11>().as_uint32(); }
+ bool has_src_h() const { return at<12>().valid(); }
+ uint32_t src_h() const { return at<12>().as_uint32(); }
+ bool has_dst_x() const { return at<13>().valid(); }
+ uint32_t dst_x() const { return at<13>().as_uint32(); }
+ bool has_dst_y() const { return at<14>().valid(); }
+ uint32_t dst_y() const { return at<14>().as_uint32(); }
+ bool has_dst_w() const { return at<15>().valid(); }
+ uint32_t dst_w() const { return at<15>().as_uint32(); }
+ bool has_dst_h() const { return at<16>().valid(); }
+ uint32_t dst_h() const { return at<16>().as_uint32(); }
+};
+
+class MdpSsppSetFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MdpSsppSetFtraceEvent_Decoder;
+ enum : int32_t {
+ kNumFieldNumber = 1,
+ kPlayCntFieldNumber = 2,
+ kMixerFieldNumber = 3,
+ kStageFieldNumber = 4,
+ kFlagsFieldNumber = 5,
+ kFormatFieldNumber = 6,
+ kImgWFieldNumber = 7,
+ kImgHFieldNumber = 8,
+ kSrcXFieldNumber = 9,
+ kSrcYFieldNumber = 10,
+ kSrcWFieldNumber = 11,
+ kSrcHFieldNumber = 12,
+ kDstXFieldNumber = 13,
+ kDstYFieldNumber = 14,
+ kDstWFieldNumber = 15,
+ kDstHFieldNumber = 16,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MdpSsppSetFtraceEvent"; }
+
+
+ using FieldMetadata_Num =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpSsppSetFtraceEvent>;
+
+ static constexpr FieldMetadata_Num kNum{};
+ void set_num(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Num::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PlayCnt =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpSsppSetFtraceEvent>;
+
+ static constexpr FieldMetadata_PlayCnt kPlayCnt{};
+ void set_play_cnt(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PlayCnt::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Mixer =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpSsppSetFtraceEvent>;
+
+ static constexpr FieldMetadata_Mixer kMixer{};
+ void set_mixer(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Mixer::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Stage =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpSsppSetFtraceEvent>;
+
+ static constexpr FieldMetadata_Stage kStage{};
+ void set_stage(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Stage::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Flags =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpSsppSetFtraceEvent>;
+
+ static constexpr FieldMetadata_Flags kFlags{};
+ void set_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Flags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Format =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpSsppSetFtraceEvent>;
+
+ static constexpr FieldMetadata_Format kFormat{};
+ void set_format(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Format::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ImgW =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpSsppSetFtraceEvent>;
+
+ static constexpr FieldMetadata_ImgW kImgW{};
+ void set_img_w(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ImgW::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ImgH =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpSsppSetFtraceEvent>;
+
+ static constexpr FieldMetadata_ImgH kImgH{};
+ void set_img_h(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ImgH::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SrcX =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpSsppSetFtraceEvent>;
+
+ static constexpr FieldMetadata_SrcX kSrcX{};
+ void set_src_x(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SrcX::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SrcY =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpSsppSetFtraceEvent>;
+
+ static constexpr FieldMetadata_SrcY kSrcY{};
+ void set_src_y(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SrcY::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SrcW =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpSsppSetFtraceEvent>;
+
+ static constexpr FieldMetadata_SrcW kSrcW{};
+ void set_src_w(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SrcW::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SrcH =
+ ::protozero::proto_utils::FieldMetadata<
+ 12,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpSsppSetFtraceEvent>;
+
+ static constexpr FieldMetadata_SrcH kSrcH{};
+ void set_src_h(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SrcH::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DstX =
+ ::protozero::proto_utils::FieldMetadata<
+ 13,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpSsppSetFtraceEvent>;
+
+ static constexpr FieldMetadata_DstX kDstX{};
+ void set_dst_x(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DstX::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DstY =
+ ::protozero::proto_utils::FieldMetadata<
+ 14,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpSsppSetFtraceEvent>;
+
+ static constexpr FieldMetadata_DstY kDstY{};
+ void set_dst_y(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DstY::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DstW =
+ ::protozero::proto_utils::FieldMetadata<
+ 15,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpSsppSetFtraceEvent>;
+
+ static constexpr FieldMetadata_DstW kDstW{};
+ void set_dst_w(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DstW::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DstH =
+ ::protozero::proto_utils::FieldMetadata<
+ 16,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpSsppSetFtraceEvent>;
+
+ static constexpr FieldMetadata_DstH kDstH{};
+ void set_dst_h(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DstH::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class MdpPerfSetPanicLutsFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MdpPerfSetPanicLutsFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MdpPerfSetPanicLutsFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MdpPerfSetPanicLutsFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_pnum() const { return at<1>().valid(); }
+ uint32_t pnum() const { return at<1>().as_uint32(); }
+ bool has_fmt() const { return at<2>().valid(); }
+ uint32_t fmt() const { return at<2>().as_uint32(); }
+ bool has_mode() const { return at<3>().valid(); }
+ uint32_t mode() const { return at<3>().as_uint32(); }
+ bool has_panic_lut() const { return at<4>().valid(); }
+ uint32_t panic_lut() const { return at<4>().as_uint32(); }
+ bool has_robust_lut() const { return at<5>().valid(); }
+ uint32_t robust_lut() const { return at<5>().as_uint32(); }
+};
+
+class MdpPerfSetPanicLutsFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MdpPerfSetPanicLutsFtraceEvent_Decoder;
+ enum : int32_t {
+ kPnumFieldNumber = 1,
+ kFmtFieldNumber = 2,
+ kModeFieldNumber = 3,
+ kPanicLutFieldNumber = 4,
+ kRobustLutFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MdpPerfSetPanicLutsFtraceEvent"; }
+
+
+ using FieldMetadata_Pnum =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpPerfSetPanicLutsFtraceEvent>;
+
+ static constexpr FieldMetadata_Pnum kPnum{};
+ void set_pnum(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pnum::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Fmt =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpPerfSetPanicLutsFtraceEvent>;
+
+ static constexpr FieldMetadata_Fmt kFmt{};
+ void set_fmt(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Fmt::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Mode =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpPerfSetPanicLutsFtraceEvent>;
+
+ static constexpr FieldMetadata_Mode kMode{};
+ void set_mode(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Mode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PanicLut =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpPerfSetPanicLutsFtraceEvent>;
+
+ static constexpr FieldMetadata_PanicLut kPanicLut{};
+ void set_panic_lut(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PanicLut::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_RobustLut =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpPerfSetPanicLutsFtraceEvent>;
+
+ static constexpr FieldMetadata_RobustLut kRobustLut{};
+ void set_robust_lut(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_RobustLut::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class MdpCompareBwFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/8, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MdpCompareBwFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MdpCompareBwFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MdpCompareBwFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_new_ab() const { return at<1>().valid(); }
+ uint64_t new_ab() const { return at<1>().as_uint64(); }
+ bool has_new_ib() const { return at<2>().valid(); }
+ uint64_t new_ib() const { return at<2>().as_uint64(); }
+ bool has_new_wb() const { return at<3>().valid(); }
+ uint64_t new_wb() const { return at<3>().as_uint64(); }
+ bool has_old_ab() const { return at<4>().valid(); }
+ uint64_t old_ab() const { return at<4>().as_uint64(); }
+ bool has_old_ib() const { return at<5>().valid(); }
+ uint64_t old_ib() const { return at<5>().as_uint64(); }
+ bool has_old_wb() const { return at<6>().valid(); }
+ uint64_t old_wb() const { return at<6>().as_uint64(); }
+ bool has_params_changed() const { return at<7>().valid(); }
+ uint32_t params_changed() const { return at<7>().as_uint32(); }
+ bool has_update_bw() const { return at<8>().valid(); }
+ uint32_t update_bw() const { return at<8>().as_uint32(); }
+};
+
+class MdpCompareBwFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MdpCompareBwFtraceEvent_Decoder;
+ enum : int32_t {
+ kNewAbFieldNumber = 1,
+ kNewIbFieldNumber = 2,
+ kNewWbFieldNumber = 3,
+ kOldAbFieldNumber = 4,
+ kOldIbFieldNumber = 5,
+ kOldWbFieldNumber = 6,
+ kParamsChangedFieldNumber = 7,
+ kUpdateBwFieldNumber = 8,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MdpCompareBwFtraceEvent"; }
+
+
+ using FieldMetadata_NewAb =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MdpCompareBwFtraceEvent>;
+
+ static constexpr FieldMetadata_NewAb kNewAb{};
+ void set_new_ab(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NewAb::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NewIb =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MdpCompareBwFtraceEvent>;
+
+ static constexpr FieldMetadata_NewIb kNewIb{};
+ void set_new_ib(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NewIb::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NewWb =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MdpCompareBwFtraceEvent>;
+
+ static constexpr FieldMetadata_NewWb kNewWb{};
+ void set_new_wb(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NewWb::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_OldAb =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MdpCompareBwFtraceEvent>;
+
+ static constexpr FieldMetadata_OldAb kOldAb{};
+ void set_old_ab(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_OldAb::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_OldIb =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MdpCompareBwFtraceEvent>;
+
+ static constexpr FieldMetadata_OldIb kOldIb{};
+ void set_old_ib(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_OldIb::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_OldWb =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MdpCompareBwFtraceEvent>;
+
+ static constexpr FieldMetadata_OldWb kOldWb{};
+ void set_old_wb(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_OldWb::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ParamsChanged =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpCompareBwFtraceEvent>;
+
+ static constexpr FieldMetadata_ParamsChanged kParamsChanged{};
+ void set_params_changed(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ParamsChanged::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_UpdateBw =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpCompareBwFtraceEvent>;
+
+ static constexpr FieldMetadata_UpdateBw kUpdateBw{};
+ void set_update_bw(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_UpdateBw::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class MdpCmdPingpongDoneFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MdpCmdPingpongDoneFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MdpCmdPingpongDoneFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MdpCmdPingpongDoneFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_ctl_num() const { return at<1>().valid(); }
+ uint32_t ctl_num() const { return at<1>().as_uint32(); }
+ bool has_intf_num() const { return at<2>().valid(); }
+ uint32_t intf_num() const { return at<2>().as_uint32(); }
+ bool has_pp_num() const { return at<3>().valid(); }
+ uint32_t pp_num() const { return at<3>().as_uint32(); }
+ bool has_koff_cnt() const { return at<4>().valid(); }
+ int32_t koff_cnt() const { return at<4>().as_int32(); }
+};
+
+class MdpCmdPingpongDoneFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MdpCmdPingpongDoneFtraceEvent_Decoder;
+ enum : int32_t {
+ kCtlNumFieldNumber = 1,
+ kIntfNumFieldNumber = 2,
+ kPpNumFieldNumber = 3,
+ kKoffCntFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MdpCmdPingpongDoneFtraceEvent"; }
+
+
+ using FieldMetadata_CtlNum =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpCmdPingpongDoneFtraceEvent>;
+
+ static constexpr FieldMetadata_CtlNum kCtlNum{};
+ void set_ctl_num(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CtlNum::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IntfNum =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpCmdPingpongDoneFtraceEvent>;
+
+ static constexpr FieldMetadata_IntfNum kIntfNum{};
+ void set_intf_num(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_IntfNum::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PpNum =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpCmdPingpongDoneFtraceEvent>;
+
+ static constexpr FieldMetadata_PpNum kPpNum{};
+ void set_pp_num(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PpNum::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_KoffCnt =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MdpCmdPingpongDoneFtraceEvent>;
+
+ static constexpr FieldMetadata_KoffCnt kKoffCnt{};
+ void set_koff_cnt(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_KoffCnt::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class TracingMarkWriteFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ TracingMarkWriteFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TracingMarkWriteFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TracingMarkWriteFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_pid() const { return at<1>().valid(); }
+ int32_t pid() const { return at<1>().as_int32(); }
+ bool has_trace_name() const { return at<2>().valid(); }
+ ::protozero::ConstChars trace_name() const { return at<2>().as_string(); }
+ bool has_trace_begin() const { return at<3>().valid(); }
+ uint32_t trace_begin() const { return at<3>().as_uint32(); }
+};
+
+class TracingMarkWriteFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = TracingMarkWriteFtraceEvent_Decoder;
+ enum : int32_t {
+ kPidFieldNumber = 1,
+ kTraceNameFieldNumber = 2,
+ kTraceBeginFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TracingMarkWriteFtraceEvent"; }
+
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ TracingMarkWriteFtraceEvent>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TraceName =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ TracingMarkWriteFtraceEvent>;
+
+ static constexpr FieldMetadata_TraceName kTraceName{};
+ void set_trace_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_TraceName::kFieldId, data, size);
+ }
+ void set_trace_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_TraceName::kFieldId, chars.data, chars.size);
+ }
+ void set_trace_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_TraceName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TraceBegin =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TracingMarkWriteFtraceEvent>;
+
+ static constexpr FieldMetadata_TraceBegin kTraceBegin{};
+ void set_trace_begin(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TraceBegin::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class MdpSsppChangeFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/16, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MdpSsppChangeFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MdpSsppChangeFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MdpSsppChangeFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_num() const { return at<1>().valid(); }
+ uint32_t num() const { return at<1>().as_uint32(); }
+ bool has_play_cnt() const { return at<2>().valid(); }
+ uint32_t play_cnt() const { return at<2>().as_uint32(); }
+ bool has_mixer() const { return at<3>().valid(); }
+ uint32_t mixer() const { return at<3>().as_uint32(); }
+ bool has_stage() const { return at<4>().valid(); }
+ uint32_t stage() const { return at<4>().as_uint32(); }
+ bool has_flags() const { return at<5>().valid(); }
+ uint32_t flags() const { return at<5>().as_uint32(); }
+ bool has_format() const { return at<6>().valid(); }
+ uint32_t format() const { return at<6>().as_uint32(); }
+ bool has_img_w() const { return at<7>().valid(); }
+ uint32_t img_w() const { return at<7>().as_uint32(); }
+ bool has_img_h() const { return at<8>().valid(); }
+ uint32_t img_h() const { return at<8>().as_uint32(); }
+ bool has_src_x() const { return at<9>().valid(); }
+ uint32_t src_x() const { return at<9>().as_uint32(); }
+ bool has_src_y() const { return at<10>().valid(); }
+ uint32_t src_y() const { return at<10>().as_uint32(); }
+ bool has_src_w() const { return at<11>().valid(); }
+ uint32_t src_w() const { return at<11>().as_uint32(); }
+ bool has_src_h() const { return at<12>().valid(); }
+ uint32_t src_h() const { return at<12>().as_uint32(); }
+ bool has_dst_x() const { return at<13>().valid(); }
+ uint32_t dst_x() const { return at<13>().as_uint32(); }
+ bool has_dst_y() const { return at<14>().valid(); }
+ uint32_t dst_y() const { return at<14>().as_uint32(); }
+ bool has_dst_w() const { return at<15>().valid(); }
+ uint32_t dst_w() const { return at<15>().as_uint32(); }
+ bool has_dst_h() const { return at<16>().valid(); }
+ uint32_t dst_h() const { return at<16>().as_uint32(); }
+};
+
+class MdpSsppChangeFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MdpSsppChangeFtraceEvent_Decoder;
+ enum : int32_t {
+ kNumFieldNumber = 1,
+ kPlayCntFieldNumber = 2,
+ kMixerFieldNumber = 3,
+ kStageFieldNumber = 4,
+ kFlagsFieldNumber = 5,
+ kFormatFieldNumber = 6,
+ kImgWFieldNumber = 7,
+ kImgHFieldNumber = 8,
+ kSrcXFieldNumber = 9,
+ kSrcYFieldNumber = 10,
+ kSrcWFieldNumber = 11,
+ kSrcHFieldNumber = 12,
+ kDstXFieldNumber = 13,
+ kDstYFieldNumber = 14,
+ kDstWFieldNumber = 15,
+ kDstHFieldNumber = 16,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MdpSsppChangeFtraceEvent"; }
+
+
+ using FieldMetadata_Num =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpSsppChangeFtraceEvent>;
+
+ static constexpr FieldMetadata_Num kNum{};
+ void set_num(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Num::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PlayCnt =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpSsppChangeFtraceEvent>;
+
+ static constexpr FieldMetadata_PlayCnt kPlayCnt{};
+ void set_play_cnt(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PlayCnt::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Mixer =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpSsppChangeFtraceEvent>;
+
+ static constexpr FieldMetadata_Mixer kMixer{};
+ void set_mixer(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Mixer::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Stage =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpSsppChangeFtraceEvent>;
+
+ static constexpr FieldMetadata_Stage kStage{};
+ void set_stage(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Stage::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Flags =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpSsppChangeFtraceEvent>;
+
+ static constexpr FieldMetadata_Flags kFlags{};
+ void set_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Flags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Format =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpSsppChangeFtraceEvent>;
+
+ static constexpr FieldMetadata_Format kFormat{};
+ void set_format(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Format::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ImgW =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpSsppChangeFtraceEvent>;
+
+ static constexpr FieldMetadata_ImgW kImgW{};
+ void set_img_w(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ImgW::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ImgH =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpSsppChangeFtraceEvent>;
+
+ static constexpr FieldMetadata_ImgH kImgH{};
+ void set_img_h(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ImgH::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SrcX =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpSsppChangeFtraceEvent>;
+
+ static constexpr FieldMetadata_SrcX kSrcX{};
+ void set_src_x(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SrcX::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SrcY =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpSsppChangeFtraceEvent>;
+
+ static constexpr FieldMetadata_SrcY kSrcY{};
+ void set_src_y(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SrcY::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SrcW =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpSsppChangeFtraceEvent>;
+
+ static constexpr FieldMetadata_SrcW kSrcW{};
+ void set_src_w(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SrcW::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SrcH =
+ ::protozero::proto_utils::FieldMetadata<
+ 12,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpSsppChangeFtraceEvent>;
+
+ static constexpr FieldMetadata_SrcH kSrcH{};
+ void set_src_h(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SrcH::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DstX =
+ ::protozero::proto_utils::FieldMetadata<
+ 13,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpSsppChangeFtraceEvent>;
+
+ static constexpr FieldMetadata_DstX kDstX{};
+ void set_dst_x(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DstX::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DstY =
+ ::protozero::proto_utils::FieldMetadata<
+ 14,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpSsppChangeFtraceEvent>;
+
+ static constexpr FieldMetadata_DstY kDstY{};
+ void set_dst_y(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DstY::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DstW =
+ ::protozero::proto_utils::FieldMetadata<
+ 15,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpSsppChangeFtraceEvent>;
+
+ static constexpr FieldMetadata_DstW kDstW{};
+ void set_dst_w(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DstW::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DstH =
+ ::protozero::proto_utils::FieldMetadata<
+ 16,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpSsppChangeFtraceEvent>;
+
+ static constexpr FieldMetadata_DstH kDstH{};
+ void set_dst_h(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DstH::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class MdpPerfSetOtFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MdpPerfSetOtFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MdpPerfSetOtFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MdpPerfSetOtFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_pnum() const { return at<1>().valid(); }
+ uint32_t pnum() const { return at<1>().as_uint32(); }
+ bool has_xin_id() const { return at<2>().valid(); }
+ uint32_t xin_id() const { return at<2>().as_uint32(); }
+ bool has_rd_lim() const { return at<3>().valid(); }
+ uint32_t rd_lim() const { return at<3>().as_uint32(); }
+ bool has_is_vbif_rt() const { return at<4>().valid(); }
+ uint32_t is_vbif_rt() const { return at<4>().as_uint32(); }
+};
+
+class MdpPerfSetOtFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MdpPerfSetOtFtraceEvent_Decoder;
+ enum : int32_t {
+ kPnumFieldNumber = 1,
+ kXinIdFieldNumber = 2,
+ kRdLimFieldNumber = 3,
+ kIsVbifRtFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MdpPerfSetOtFtraceEvent"; }
+
+
+ using FieldMetadata_Pnum =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpPerfSetOtFtraceEvent>;
+
+ static constexpr FieldMetadata_Pnum kPnum{};
+ void set_pnum(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pnum::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_XinId =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpPerfSetOtFtraceEvent>;
+
+ static constexpr FieldMetadata_XinId kXinId{};
+ void set_xin_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_XinId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_RdLim =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpPerfSetOtFtraceEvent>;
+
+ static constexpr FieldMetadata_RdLim kRdLim{};
+ void set_rd_lim(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_RdLim::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IsVbifRt =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpPerfSetOtFtraceEvent>;
+
+ static constexpr FieldMetadata_IsVbifRt kIsVbifRt{};
+ void set_is_vbif_rt(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_IsVbifRt::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class MdpCommitFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MdpCommitFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MdpCommitFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MdpCommitFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_num() const { return at<1>().valid(); }
+ uint32_t num() const { return at<1>().as_uint32(); }
+ bool has_play_cnt() const { return at<2>().valid(); }
+ uint32_t play_cnt() const { return at<2>().as_uint32(); }
+ bool has_clk_rate() const { return at<3>().valid(); }
+ uint32_t clk_rate() const { return at<3>().as_uint32(); }
+ bool has_bandwidth() const { return at<4>().valid(); }
+ uint64_t bandwidth() const { return at<4>().as_uint64(); }
+};
+
+class MdpCommitFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MdpCommitFtraceEvent_Decoder;
+ enum : int32_t {
+ kNumFieldNumber = 1,
+ kPlayCntFieldNumber = 2,
+ kClkRateFieldNumber = 3,
+ kBandwidthFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MdpCommitFtraceEvent"; }
+
+
+ using FieldMetadata_Num =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpCommitFtraceEvent>;
+
+ static constexpr FieldMetadata_Num kNum{};
+ void set_num(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Num::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PlayCnt =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpCommitFtraceEvent>;
+
+ static constexpr FieldMetadata_PlayCnt kPlayCnt{};
+ void set_play_cnt(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PlayCnt::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ClkRate =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpCommitFtraceEvent>;
+
+ static constexpr FieldMetadata_ClkRate kClkRate{};
+ void set_clk_rate(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ClkRate::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Bandwidth =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MdpCommitFtraceEvent>;
+
+ static constexpr FieldMetadata_Bandwidth kBandwidth{};
+ void set_bandwidth(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Bandwidth::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class MdpCmdKickoffFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MdpCmdKickoffFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MdpCmdKickoffFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MdpCmdKickoffFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_ctl_num() const { return at<1>().valid(); }
+ uint32_t ctl_num() const { return at<1>().as_uint32(); }
+ bool has_kickoff_cnt() const { return at<2>().valid(); }
+ int32_t kickoff_cnt() const { return at<2>().as_int32(); }
+};
+
+class MdpCmdKickoffFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MdpCmdKickoffFtraceEvent_Decoder;
+ enum : int32_t {
+ kCtlNumFieldNumber = 1,
+ kKickoffCntFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MdpCmdKickoffFtraceEvent"; }
+
+
+ using FieldMetadata_CtlNum =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MdpCmdKickoffFtraceEvent>;
+
+ static constexpr FieldMetadata_CtlNum kCtlNum{};
+ void set_ctl_num(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CtlNum::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_KickoffCnt =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MdpCmdKickoffFtraceEvent>;
+
+ static constexpr FieldMetadata_KickoffCnt kKickoffCnt{};
+ void set_kickoff_cnt(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_KickoffCnt::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/mm_event.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_MM_EVENT_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_MM_EVENT_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class MmEventRecordFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MmEventRecordFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MmEventRecordFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MmEventRecordFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_avg_lat() const { return at<1>().valid(); }
+ uint32_t avg_lat() const { return at<1>().as_uint32(); }
+ bool has_count() const { return at<2>().valid(); }
+ uint32_t count() const { return at<2>().as_uint32(); }
+ bool has_max_lat() const { return at<3>().valid(); }
+ uint32_t max_lat() const { return at<3>().as_uint32(); }
+ bool has_type() const { return at<4>().valid(); }
+ uint32_t type() const { return at<4>().as_uint32(); }
+};
+
+class MmEventRecordFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MmEventRecordFtraceEvent_Decoder;
+ enum : int32_t {
+ kAvgLatFieldNumber = 1,
+ kCountFieldNumber = 2,
+ kMaxLatFieldNumber = 3,
+ kTypeFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MmEventRecordFtraceEvent"; }
+
+
+ using FieldMetadata_AvgLat =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MmEventRecordFtraceEvent>;
+
+ static constexpr FieldMetadata_AvgLat kAvgLat{};
+ void set_avg_lat(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_AvgLat::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Count =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MmEventRecordFtraceEvent>;
+
+ static constexpr FieldMetadata_Count kCount{};
+ void set_count(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Count::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MaxLat =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MmEventRecordFtraceEvent>;
+
+ static constexpr FieldMetadata_MaxLat kMaxLat{};
+ void set_max_lat(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MaxLat::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Type =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MmEventRecordFtraceEvent>;
+
+ static constexpr FieldMetadata_Type kType{};
+ void set_type(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Type::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/net.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_NET_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_NET_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class NapiGroReceiveExitFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ NapiGroReceiveExitFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit NapiGroReceiveExitFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit NapiGroReceiveExitFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_ret() const { return at<1>().valid(); }
+ int32_t ret() const { return at<1>().as_int32(); }
+};
+
+class NapiGroReceiveExitFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = NapiGroReceiveExitFtraceEvent_Decoder;
+ enum : int32_t {
+ kRetFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.NapiGroReceiveExitFtraceEvent"; }
+
+
+ using FieldMetadata_Ret =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ NapiGroReceiveExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Ret kRet{};
+ void set_ret(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ret::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class NapiGroReceiveEntryFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/19, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ NapiGroReceiveEntryFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit NapiGroReceiveEntryFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit NapiGroReceiveEntryFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_data_len() const { return at<1>().valid(); }
+ uint32_t data_len() const { return at<1>().as_uint32(); }
+ bool has_gso_size() const { return at<2>().valid(); }
+ uint32_t gso_size() const { return at<2>().as_uint32(); }
+ bool has_gso_type() const { return at<3>().valid(); }
+ uint32_t gso_type() const { return at<3>().as_uint32(); }
+ bool has_hash() const { return at<4>().valid(); }
+ uint32_t hash() const { return at<4>().as_uint32(); }
+ bool has_ip_summed() const { return at<5>().valid(); }
+ uint32_t ip_summed() const { return at<5>().as_uint32(); }
+ bool has_l4_hash() const { return at<6>().valid(); }
+ uint32_t l4_hash() const { return at<6>().as_uint32(); }
+ bool has_len() const { return at<7>().valid(); }
+ uint32_t len() const { return at<7>().as_uint32(); }
+ bool has_mac_header() const { return at<8>().valid(); }
+ int32_t mac_header() const { return at<8>().as_int32(); }
+ bool has_mac_header_valid() const { return at<9>().valid(); }
+ uint32_t mac_header_valid() const { return at<9>().as_uint32(); }
+ bool has_name() const { return at<10>().valid(); }
+ ::protozero::ConstChars name() const { return at<10>().as_string(); }
+ bool has_napi_id() const { return at<11>().valid(); }
+ uint32_t napi_id() const { return at<11>().as_uint32(); }
+ bool has_nr_frags() const { return at<12>().valid(); }
+ uint32_t nr_frags() const { return at<12>().as_uint32(); }
+ bool has_protocol() const { return at<13>().valid(); }
+ uint32_t protocol() const { return at<13>().as_uint32(); }
+ bool has_queue_mapping() const { return at<14>().valid(); }
+ uint32_t queue_mapping() const { return at<14>().as_uint32(); }
+ bool has_skbaddr() const { return at<15>().valid(); }
+ uint64_t skbaddr() const { return at<15>().as_uint64(); }
+ bool has_truesize() const { return at<16>().valid(); }
+ uint32_t truesize() const { return at<16>().as_uint32(); }
+ bool has_vlan_proto() const { return at<17>().valid(); }
+ uint32_t vlan_proto() const { return at<17>().as_uint32(); }
+ bool has_vlan_tagged() const { return at<18>().valid(); }
+ uint32_t vlan_tagged() const { return at<18>().as_uint32(); }
+ bool has_vlan_tci() const { return at<19>().valid(); }
+ uint32_t vlan_tci() const { return at<19>().as_uint32(); }
+};
+
+class NapiGroReceiveEntryFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = NapiGroReceiveEntryFtraceEvent_Decoder;
+ enum : int32_t {
+ kDataLenFieldNumber = 1,
+ kGsoSizeFieldNumber = 2,
+ kGsoTypeFieldNumber = 3,
+ kHashFieldNumber = 4,
+ kIpSummedFieldNumber = 5,
+ kL4HashFieldNumber = 6,
+ kLenFieldNumber = 7,
+ kMacHeaderFieldNumber = 8,
+ kMacHeaderValidFieldNumber = 9,
+ kNameFieldNumber = 10,
+ kNapiIdFieldNumber = 11,
+ kNrFragsFieldNumber = 12,
+ kProtocolFieldNumber = 13,
+ kQueueMappingFieldNumber = 14,
+ kSkbaddrFieldNumber = 15,
+ kTruesizeFieldNumber = 16,
+ kVlanProtoFieldNumber = 17,
+ kVlanTaggedFieldNumber = 18,
+ kVlanTciFieldNumber = 19,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.NapiGroReceiveEntryFtraceEvent"; }
+
+
+ using FieldMetadata_DataLen =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ NapiGroReceiveEntryFtraceEvent>;
+
+ static constexpr FieldMetadata_DataLen kDataLen{};
+ void set_data_len(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DataLen::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_GsoSize =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ NapiGroReceiveEntryFtraceEvent>;
+
+ static constexpr FieldMetadata_GsoSize kGsoSize{};
+ void set_gso_size(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_GsoSize::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_GsoType =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ NapiGroReceiveEntryFtraceEvent>;
+
+ static constexpr FieldMetadata_GsoType kGsoType{};
+ void set_gso_type(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_GsoType::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Hash =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ NapiGroReceiveEntryFtraceEvent>;
+
+ static constexpr FieldMetadata_Hash kHash{};
+ void set_hash(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Hash::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IpSummed =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ NapiGroReceiveEntryFtraceEvent>;
+
+ static constexpr FieldMetadata_IpSummed kIpSummed{};
+ void set_ip_summed(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_IpSummed::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_L4Hash =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ NapiGroReceiveEntryFtraceEvent>;
+
+ static constexpr FieldMetadata_L4Hash kL4Hash{};
+ void set_l4_hash(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_L4Hash::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ NapiGroReceiveEntryFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MacHeader =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ NapiGroReceiveEntryFtraceEvent>;
+
+ static constexpr FieldMetadata_MacHeader kMacHeader{};
+ void set_mac_header(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MacHeader::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MacHeaderValid =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ NapiGroReceiveEntryFtraceEvent>;
+
+ static constexpr FieldMetadata_MacHeaderValid kMacHeaderValid{};
+ void set_mac_header_valid(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MacHeaderValid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ NapiGroReceiveEntryFtraceEvent>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NapiId =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ NapiGroReceiveEntryFtraceEvent>;
+
+ static constexpr FieldMetadata_NapiId kNapiId{};
+ void set_napi_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NapiId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NrFrags =
+ ::protozero::proto_utils::FieldMetadata<
+ 12,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ NapiGroReceiveEntryFtraceEvent>;
+
+ static constexpr FieldMetadata_NrFrags kNrFrags{};
+ void set_nr_frags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NrFrags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Protocol =
+ ::protozero::proto_utils::FieldMetadata<
+ 13,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ NapiGroReceiveEntryFtraceEvent>;
+
+ static constexpr FieldMetadata_Protocol kProtocol{};
+ void set_protocol(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Protocol::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_QueueMapping =
+ ::protozero::proto_utils::FieldMetadata<
+ 14,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ NapiGroReceiveEntryFtraceEvent>;
+
+ static constexpr FieldMetadata_QueueMapping kQueueMapping{};
+ void set_queue_mapping(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_QueueMapping::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Skbaddr =
+ ::protozero::proto_utils::FieldMetadata<
+ 15,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ NapiGroReceiveEntryFtraceEvent>;
+
+ static constexpr FieldMetadata_Skbaddr kSkbaddr{};
+ void set_skbaddr(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Skbaddr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Truesize =
+ ::protozero::proto_utils::FieldMetadata<
+ 16,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ NapiGroReceiveEntryFtraceEvent>;
+
+ static constexpr FieldMetadata_Truesize kTruesize{};
+ void set_truesize(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Truesize::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_VlanProto =
+ ::protozero::proto_utils::FieldMetadata<
+ 17,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ NapiGroReceiveEntryFtraceEvent>;
+
+ static constexpr FieldMetadata_VlanProto kVlanProto{};
+ void set_vlan_proto(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_VlanProto::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_VlanTagged =
+ ::protozero::proto_utils::FieldMetadata<
+ 18,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ NapiGroReceiveEntryFtraceEvent>;
+
+ static constexpr FieldMetadata_VlanTagged kVlanTagged{};
+ void set_vlan_tagged(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_VlanTagged::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_VlanTci =
+ ::protozero::proto_utils::FieldMetadata<
+ 19,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ NapiGroReceiveEntryFtraceEvent>;
+
+ static constexpr FieldMetadata_VlanTci kVlanTci{};
+ void set_vlan_tci(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_VlanTci::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class NetDevXmitFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ NetDevXmitFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit NetDevXmitFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit NetDevXmitFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_len() const { return at<1>().valid(); }
+ uint32_t len() const { return at<1>().as_uint32(); }
+ bool has_name() const { return at<2>().valid(); }
+ ::protozero::ConstChars name() const { return at<2>().as_string(); }
+ bool has_rc() const { return at<3>().valid(); }
+ int32_t rc() const { return at<3>().as_int32(); }
+ bool has_skbaddr() const { return at<4>().valid(); }
+ uint64_t skbaddr() const { return at<4>().as_uint64(); }
+};
+
+class NetDevXmitFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = NetDevXmitFtraceEvent_Decoder;
+ enum : int32_t {
+ kLenFieldNumber = 1,
+ kNameFieldNumber = 2,
+ kRcFieldNumber = 3,
+ kSkbaddrFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.NetDevXmitFtraceEvent"; }
+
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ NetDevXmitFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ NetDevXmitFtraceEvent>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Rc =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ NetDevXmitFtraceEvent>;
+
+ static constexpr FieldMetadata_Rc kRc{};
+ void set_rc(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Rc::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Skbaddr =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ NetDevXmitFtraceEvent>;
+
+ static constexpr FieldMetadata_Skbaddr kSkbaddr{};
+ void set_skbaddr(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Skbaddr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class NetifReceiveSkbFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ NetifReceiveSkbFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit NetifReceiveSkbFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit NetifReceiveSkbFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_len() const { return at<1>().valid(); }
+ uint32_t len() const { return at<1>().as_uint32(); }
+ bool has_name() const { return at<2>().valid(); }
+ ::protozero::ConstChars name() const { return at<2>().as_string(); }
+ bool has_skbaddr() const { return at<3>().valid(); }
+ uint64_t skbaddr() const { return at<3>().as_uint64(); }
+};
+
+class NetifReceiveSkbFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = NetifReceiveSkbFtraceEvent_Decoder;
+ enum : int32_t {
+ kLenFieldNumber = 1,
+ kNameFieldNumber = 2,
+ kSkbaddrFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.NetifReceiveSkbFtraceEvent"; }
+
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ NetifReceiveSkbFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ NetifReceiveSkbFtraceEvent>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Skbaddr =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ NetifReceiveSkbFtraceEvent>;
+
+ static constexpr FieldMetadata_Skbaddr kSkbaddr{};
+ void set_skbaddr(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Skbaddr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/oom.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_OOM_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_OOM_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class MarkVictimFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MarkVictimFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MarkVictimFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MarkVictimFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_pid() const { return at<1>().valid(); }
+ int32_t pid() const { return at<1>().as_int32(); }
+};
+
+class MarkVictimFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MarkVictimFtraceEvent_Decoder;
+ enum : int32_t {
+ kPidFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MarkVictimFtraceEvent"; }
+
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MarkVictimFtraceEvent>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class OomScoreAdjUpdateFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ OomScoreAdjUpdateFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit OomScoreAdjUpdateFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit OomScoreAdjUpdateFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_comm() const { return at<1>().valid(); }
+ ::protozero::ConstChars comm() const { return at<1>().as_string(); }
+ bool has_oom_score_adj() const { return at<2>().valid(); }
+ int32_t oom_score_adj() const { return at<2>().as_int32(); }
+ bool has_pid() const { return at<3>().valid(); }
+ int32_t pid() const { return at<3>().as_int32(); }
+};
+
+class OomScoreAdjUpdateFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = OomScoreAdjUpdateFtraceEvent_Decoder;
+ enum : int32_t {
+ kCommFieldNumber = 1,
+ kOomScoreAdjFieldNumber = 2,
+ kPidFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.OomScoreAdjUpdateFtraceEvent"; }
+
+
+ using FieldMetadata_Comm =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ OomScoreAdjUpdateFtraceEvent>;
+
+ static constexpr FieldMetadata_Comm kComm{};
+ void set_comm(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Comm::kFieldId, data, size);
+ }
+ void set_comm(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Comm::kFieldId, chars.data, chars.size);
+ }
+ void set_comm(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Comm::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_OomScoreAdj =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ OomScoreAdjUpdateFtraceEvent>;
+
+ static constexpr FieldMetadata_OomScoreAdj kOomScoreAdj{};
+ void set_oom_score_adj(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_OomScoreAdj::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ OomScoreAdjUpdateFtraceEvent>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/panel.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_PANEL_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_PANEL_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class PanelWriteGenericFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/6, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ PanelWriteGenericFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit PanelWriteGenericFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit PanelWriteGenericFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_pid() const { return at<1>().valid(); }
+ int32_t pid() const { return at<1>().as_int32(); }
+ bool has_trace_name() const { return at<2>().valid(); }
+ ::protozero::ConstChars trace_name() const { return at<2>().as_string(); }
+ bool has_trace_begin() const { return at<3>().valid(); }
+ uint32_t trace_begin() const { return at<3>().as_uint32(); }
+ bool has_name() const { return at<4>().valid(); }
+ ::protozero::ConstChars name() const { return at<4>().as_string(); }
+ bool has_type() const { return at<5>().valid(); }
+ uint32_t type() const { return at<5>().as_uint32(); }
+ bool has_value() const { return at<6>().valid(); }
+ int32_t value() const { return at<6>().as_int32(); }
+};
+
+class PanelWriteGenericFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = PanelWriteGenericFtraceEvent_Decoder;
+ enum : int32_t {
+ kPidFieldNumber = 1,
+ kTraceNameFieldNumber = 2,
+ kTraceBeginFieldNumber = 3,
+ kNameFieldNumber = 4,
+ kTypeFieldNumber = 5,
+ kValueFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.PanelWriteGenericFtraceEvent"; }
+
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ PanelWriteGenericFtraceEvent>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TraceName =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ PanelWriteGenericFtraceEvent>;
+
+ static constexpr FieldMetadata_TraceName kTraceName{};
+ void set_trace_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_TraceName::kFieldId, data, size);
+ }
+ void set_trace_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_TraceName::kFieldId, chars.data, chars.size);
+ }
+ void set_trace_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_TraceName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TraceBegin =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ PanelWriteGenericFtraceEvent>;
+
+ static constexpr FieldMetadata_TraceBegin kTraceBegin{};
+ void set_trace_begin(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TraceBegin::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ PanelWriteGenericFtraceEvent>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Type =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ PanelWriteGenericFtraceEvent>;
+
+ static constexpr FieldMetadata_Type kType{};
+ void set_type(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Type::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Value =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ PanelWriteGenericFtraceEvent>;
+
+ static constexpr FieldMetadata_Value kValue{};
+ void set_value(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Value::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class DsiTxFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ DsiTxFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit DsiTxFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit DsiTxFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_last() const { return at<1>().valid(); }
+ uint32_t last() const { return at<1>().as_uint32(); }
+ bool has_tx_buf() const { return at<2>().valid(); }
+ uint32_t tx_buf() const { return at<2>().as_uint32(); }
+ bool has_type() const { return at<3>().valid(); }
+ uint32_t type() const { return at<3>().as_uint32(); }
+};
+
+class DsiTxFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = DsiTxFtraceEvent_Decoder;
+ enum : int32_t {
+ kLastFieldNumber = 1,
+ kTxBufFieldNumber = 2,
+ kTypeFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.DsiTxFtraceEvent"; }
+
+
+ using FieldMetadata_Last =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ DsiTxFtraceEvent>;
+
+ static constexpr FieldMetadata_Last kLast{};
+ void set_last(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Last::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TxBuf =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ DsiTxFtraceEvent>;
+
+ static constexpr FieldMetadata_TxBuf kTxBuf{};
+ void set_tx_buf(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TxBuf::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Type =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ DsiTxFtraceEvent>;
+
+ static constexpr FieldMetadata_Type kType{};
+ void set_type(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Type::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class DsiRxFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ DsiRxFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit DsiRxFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit DsiRxFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_cmd() const { return at<1>().valid(); }
+ uint32_t cmd() const { return at<1>().as_uint32(); }
+ bool has_rx_buf() const { return at<2>().valid(); }
+ uint32_t rx_buf() const { return at<2>().as_uint32(); }
+};
+
+class DsiRxFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = DsiRxFtraceEvent_Decoder;
+ enum : int32_t {
+ kCmdFieldNumber = 1,
+ kRxBufFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.DsiRxFtraceEvent"; }
+
+
+ using FieldMetadata_Cmd =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ DsiRxFtraceEvent>;
+
+ static constexpr FieldMetadata_Cmd kCmd{};
+ void set_cmd(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Cmd::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_RxBuf =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ DsiRxFtraceEvent>;
+
+ static constexpr FieldMetadata_RxBuf kRxBuf{};
+ void set_rx_buf(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_RxBuf::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class DsiCmdFifoStatusFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ DsiCmdFifoStatusFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit DsiCmdFifoStatusFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit DsiCmdFifoStatusFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_header() const { return at<1>().valid(); }
+ uint32_t header() const { return at<1>().as_uint32(); }
+ bool has_payload() const { return at<2>().valid(); }
+ uint32_t payload() const { return at<2>().as_uint32(); }
+};
+
+class DsiCmdFifoStatusFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = DsiCmdFifoStatusFtraceEvent_Decoder;
+ enum : int32_t {
+ kHeaderFieldNumber = 1,
+ kPayloadFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.DsiCmdFifoStatusFtraceEvent"; }
+
+
+ using FieldMetadata_Header =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ DsiCmdFifoStatusFtraceEvent>;
+
+ static constexpr FieldMetadata_Header kHeader{};
+ void set_header(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Header::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Payload =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ DsiCmdFifoStatusFtraceEvent>;
+
+ static constexpr FieldMetadata_Payload kPayload{};
+ void set_payload(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Payload::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/perf_trace_counters.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_PERF_TRACE_COUNTERS_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_PERF_TRACE_COUNTERS_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class SchedSwitchWithCtrsFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/17, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ SchedSwitchWithCtrsFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SchedSwitchWithCtrsFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SchedSwitchWithCtrsFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_old_pid() const { return at<1>().valid(); }
+ int32_t old_pid() const { return at<1>().as_int32(); }
+ bool has_new_pid() const { return at<2>().valid(); }
+ int32_t new_pid() const { return at<2>().as_int32(); }
+ bool has_cctr() const { return at<3>().valid(); }
+ uint32_t cctr() const { return at<3>().as_uint32(); }
+ bool has_ctr0() const { return at<4>().valid(); }
+ uint32_t ctr0() const { return at<4>().as_uint32(); }
+ bool has_ctr1() const { return at<5>().valid(); }
+ uint32_t ctr1() const { return at<5>().as_uint32(); }
+ bool has_ctr2() const { return at<6>().valid(); }
+ uint32_t ctr2() const { return at<6>().as_uint32(); }
+ bool has_ctr3() const { return at<7>().valid(); }
+ uint32_t ctr3() const { return at<7>().as_uint32(); }
+ bool has_lctr0() const { return at<8>().valid(); }
+ uint32_t lctr0() const { return at<8>().as_uint32(); }
+ bool has_lctr1() const { return at<9>().valid(); }
+ uint32_t lctr1() const { return at<9>().as_uint32(); }
+ bool has_ctr4() const { return at<10>().valid(); }
+ uint32_t ctr4() const { return at<10>().as_uint32(); }
+ bool has_ctr5() const { return at<11>().valid(); }
+ uint32_t ctr5() const { return at<11>().as_uint32(); }
+ bool has_prev_comm() const { return at<12>().valid(); }
+ ::protozero::ConstChars prev_comm() const { return at<12>().as_string(); }
+ bool has_prev_pid() const { return at<13>().valid(); }
+ int32_t prev_pid() const { return at<13>().as_int32(); }
+ bool has_cyc() const { return at<14>().valid(); }
+ uint32_t cyc() const { return at<14>().as_uint32(); }
+ bool has_inst() const { return at<15>().valid(); }
+ uint32_t inst() const { return at<15>().as_uint32(); }
+ bool has_stallbm() const { return at<16>().valid(); }
+ uint32_t stallbm() const { return at<16>().as_uint32(); }
+ bool has_l3dm() const { return at<17>().valid(); }
+ uint32_t l3dm() const { return at<17>().as_uint32(); }
+};
+
+class SchedSwitchWithCtrsFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = SchedSwitchWithCtrsFtraceEvent_Decoder;
+ enum : int32_t {
+ kOldPidFieldNumber = 1,
+ kNewPidFieldNumber = 2,
+ kCctrFieldNumber = 3,
+ kCtr0FieldNumber = 4,
+ kCtr1FieldNumber = 5,
+ kCtr2FieldNumber = 6,
+ kCtr3FieldNumber = 7,
+ kLctr0FieldNumber = 8,
+ kLctr1FieldNumber = 9,
+ kCtr4FieldNumber = 10,
+ kCtr5FieldNumber = 11,
+ kPrevCommFieldNumber = 12,
+ kPrevPidFieldNumber = 13,
+ kCycFieldNumber = 14,
+ kInstFieldNumber = 15,
+ kStallbmFieldNumber = 16,
+ kL3dmFieldNumber = 17,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SchedSwitchWithCtrsFtraceEvent"; }
+
+
+ using FieldMetadata_OldPid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SchedSwitchWithCtrsFtraceEvent>;
+
+ static constexpr FieldMetadata_OldPid kOldPid{};
+ void set_old_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_OldPid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NewPid =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SchedSwitchWithCtrsFtraceEvent>;
+
+ static constexpr FieldMetadata_NewPid kNewPid{};
+ void set_new_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NewPid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Cctr =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SchedSwitchWithCtrsFtraceEvent>;
+
+ static constexpr FieldMetadata_Cctr kCctr{};
+ void set_cctr(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Cctr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ctr0 =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SchedSwitchWithCtrsFtraceEvent>;
+
+ static constexpr FieldMetadata_Ctr0 kCtr0{};
+ void set_ctr0(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ctr0::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ctr1 =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SchedSwitchWithCtrsFtraceEvent>;
+
+ static constexpr FieldMetadata_Ctr1 kCtr1{};
+ void set_ctr1(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ctr1::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ctr2 =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SchedSwitchWithCtrsFtraceEvent>;
+
+ static constexpr FieldMetadata_Ctr2 kCtr2{};
+ void set_ctr2(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ctr2::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ctr3 =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SchedSwitchWithCtrsFtraceEvent>;
+
+ static constexpr FieldMetadata_Ctr3 kCtr3{};
+ void set_ctr3(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ctr3::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Lctr0 =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SchedSwitchWithCtrsFtraceEvent>;
+
+ static constexpr FieldMetadata_Lctr0 kLctr0{};
+ void set_lctr0(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Lctr0::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Lctr1 =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SchedSwitchWithCtrsFtraceEvent>;
+
+ static constexpr FieldMetadata_Lctr1 kLctr1{};
+ void set_lctr1(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Lctr1::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ctr4 =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SchedSwitchWithCtrsFtraceEvent>;
+
+ static constexpr FieldMetadata_Ctr4 kCtr4{};
+ void set_ctr4(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ctr4::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ctr5 =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SchedSwitchWithCtrsFtraceEvent>;
+
+ static constexpr FieldMetadata_Ctr5 kCtr5{};
+ void set_ctr5(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ctr5::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PrevComm =
+ ::protozero::proto_utils::FieldMetadata<
+ 12,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ SchedSwitchWithCtrsFtraceEvent>;
+
+ static constexpr FieldMetadata_PrevComm kPrevComm{};
+ void set_prev_comm(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_PrevComm::kFieldId, data, size);
+ }
+ void set_prev_comm(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_PrevComm::kFieldId, chars.data, chars.size);
+ }
+ void set_prev_comm(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_PrevComm::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PrevPid =
+ ::protozero::proto_utils::FieldMetadata<
+ 13,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SchedSwitchWithCtrsFtraceEvent>;
+
+ static constexpr FieldMetadata_PrevPid kPrevPid{};
+ void set_prev_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PrevPid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Cyc =
+ ::protozero::proto_utils::FieldMetadata<
+ 14,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SchedSwitchWithCtrsFtraceEvent>;
+
+ static constexpr FieldMetadata_Cyc kCyc{};
+ void set_cyc(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Cyc::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Inst =
+ ::protozero::proto_utils::FieldMetadata<
+ 15,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SchedSwitchWithCtrsFtraceEvent>;
+
+ static constexpr FieldMetadata_Inst kInst{};
+ void set_inst(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Inst::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Stallbm =
+ ::protozero::proto_utils::FieldMetadata<
+ 16,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SchedSwitchWithCtrsFtraceEvent>;
+
+ static constexpr FieldMetadata_Stallbm kStallbm{};
+ void set_stallbm(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Stallbm::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_L3dm =
+ ::protozero::proto_utils::FieldMetadata<
+ 17,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SchedSwitchWithCtrsFtraceEvent>;
+
+ static constexpr FieldMetadata_L3dm kL3dm{};
+ void set_l3dm(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_L3dm::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/power.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_POWER_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_POWER_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class GpuWorkPeriodFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ GpuWorkPeriodFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit GpuWorkPeriodFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit GpuWorkPeriodFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_gpu_id() const { return at<1>().valid(); }
+ uint32_t gpu_id() const { return at<1>().as_uint32(); }
+ bool has_uid() const { return at<2>().valid(); }
+ uint32_t uid() const { return at<2>().as_uint32(); }
+ bool has_start_time_ns() const { return at<3>().valid(); }
+ uint64_t start_time_ns() const { return at<3>().as_uint64(); }
+ bool has_end_time_ns() const { return at<4>().valid(); }
+ uint64_t end_time_ns() const { return at<4>().as_uint64(); }
+ bool has_total_active_duration_ns() const { return at<5>().valid(); }
+ uint64_t total_active_duration_ns() const { return at<5>().as_uint64(); }
+};
+
+class GpuWorkPeriodFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = GpuWorkPeriodFtraceEvent_Decoder;
+ enum : int32_t {
+ kGpuIdFieldNumber = 1,
+ kUidFieldNumber = 2,
+ kStartTimeNsFieldNumber = 3,
+ kEndTimeNsFieldNumber = 4,
+ kTotalActiveDurationNsFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.GpuWorkPeriodFtraceEvent"; }
+
+
+ using FieldMetadata_GpuId =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ GpuWorkPeriodFtraceEvent>;
+
+ static constexpr FieldMetadata_GpuId kGpuId{};
+ void set_gpu_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_GpuId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Uid =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ GpuWorkPeriodFtraceEvent>;
+
+ static constexpr FieldMetadata_Uid kUid{};
+ void set_uid(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Uid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_StartTimeNs =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ GpuWorkPeriodFtraceEvent>;
+
+ static constexpr FieldMetadata_StartTimeNs kStartTimeNs{};
+ void set_start_time_ns(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_StartTimeNs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_EndTimeNs =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ GpuWorkPeriodFtraceEvent>;
+
+ static constexpr FieldMetadata_EndTimeNs kEndTimeNs{};
+ void set_end_time_ns(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_EndTimeNs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TotalActiveDurationNs =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ GpuWorkPeriodFtraceEvent>;
+
+ static constexpr FieldMetadata_TotalActiveDurationNs kTotalActiveDurationNs{};
+ void set_total_active_duration_ns(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TotalActiveDurationNs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class WakeupSourceDeactivateFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ WakeupSourceDeactivateFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit WakeupSourceDeactivateFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit WakeupSourceDeactivateFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars name() const { return at<1>().as_string(); }
+ bool has_state() const { return at<2>().valid(); }
+ uint64_t state() const { return at<2>().as_uint64(); }
+};
+
+class WakeupSourceDeactivateFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = WakeupSourceDeactivateFtraceEvent_Decoder;
+ enum : int32_t {
+ kNameFieldNumber = 1,
+ kStateFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.WakeupSourceDeactivateFtraceEvent"; }
+
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ WakeupSourceDeactivateFtraceEvent>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_State =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ WakeupSourceDeactivateFtraceEvent>;
+
+ static constexpr FieldMetadata_State kState{};
+ void set_state(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_State::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class WakeupSourceActivateFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ WakeupSourceActivateFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit WakeupSourceActivateFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit WakeupSourceActivateFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars name() const { return at<1>().as_string(); }
+ bool has_state() const { return at<2>().valid(); }
+ uint64_t state() const { return at<2>().as_uint64(); }
+};
+
+class WakeupSourceActivateFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = WakeupSourceActivateFtraceEvent_Decoder;
+ enum : int32_t {
+ kNameFieldNumber = 1,
+ kStateFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.WakeupSourceActivateFtraceEvent"; }
+
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ WakeupSourceActivateFtraceEvent>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_State =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ WakeupSourceActivateFtraceEvent>;
+
+ static constexpr FieldMetadata_State kState{};
+ void set_state(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_State::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class GpuFrequencyFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ GpuFrequencyFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit GpuFrequencyFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit GpuFrequencyFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_gpu_id() const { return at<1>().valid(); }
+ uint32_t gpu_id() const { return at<1>().as_uint32(); }
+ bool has_state() const { return at<2>().valid(); }
+ uint32_t state() const { return at<2>().as_uint32(); }
+};
+
+class GpuFrequencyFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = GpuFrequencyFtraceEvent_Decoder;
+ enum : int32_t {
+ kGpuIdFieldNumber = 1,
+ kStateFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.GpuFrequencyFtraceEvent"; }
+
+
+ using FieldMetadata_GpuId =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ GpuFrequencyFtraceEvent>;
+
+ static constexpr FieldMetadata_GpuId kGpuId{};
+ void set_gpu_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_GpuId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_State =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ GpuFrequencyFtraceEvent>;
+
+ static constexpr FieldMetadata_State kState{};
+ void set_state(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_State::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class SuspendResumeFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ SuspendResumeFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SuspendResumeFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SuspendResumeFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_action() const { return at<1>().valid(); }
+ ::protozero::ConstChars action() const { return at<1>().as_string(); }
+ bool has_val() const { return at<2>().valid(); }
+ int32_t val() const { return at<2>().as_int32(); }
+ bool has_start() const { return at<3>().valid(); }
+ uint32_t start() const { return at<3>().as_uint32(); }
+};
+
+class SuspendResumeFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = SuspendResumeFtraceEvent_Decoder;
+ enum : int32_t {
+ kActionFieldNumber = 1,
+ kValFieldNumber = 2,
+ kStartFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SuspendResumeFtraceEvent"; }
+
+
+ using FieldMetadata_Action =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ SuspendResumeFtraceEvent>;
+
+ static constexpr FieldMetadata_Action kAction{};
+ void set_action(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Action::kFieldId, data, size);
+ }
+ void set_action(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Action::kFieldId, chars.data, chars.size);
+ }
+ void set_action(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Action::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Val =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SuspendResumeFtraceEvent>;
+
+ static constexpr FieldMetadata_Val kVal{};
+ void set_val(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Val::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Start =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SuspendResumeFtraceEvent>;
+
+ static constexpr FieldMetadata_Start kStart{};
+ void set_start(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Start::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class ClockSetRateFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ClockSetRateFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ClockSetRateFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ClockSetRateFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars name() const { return at<1>().as_string(); }
+ bool has_state() const { return at<2>().valid(); }
+ uint64_t state() const { return at<2>().as_uint64(); }
+ bool has_cpu_id() const { return at<3>().valid(); }
+ uint64_t cpu_id() const { return at<3>().as_uint64(); }
+};
+
+class ClockSetRateFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = ClockSetRateFtraceEvent_Decoder;
+ enum : int32_t {
+ kNameFieldNumber = 1,
+ kStateFieldNumber = 2,
+ kCpuIdFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ClockSetRateFtraceEvent"; }
+
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ClockSetRateFtraceEvent>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_State =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ClockSetRateFtraceEvent>;
+
+ static constexpr FieldMetadata_State kState{};
+ void set_state(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_State::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CpuId =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ClockSetRateFtraceEvent>;
+
+ static constexpr FieldMetadata_CpuId kCpuId{};
+ void set_cpu_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CpuId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class ClockDisableFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ClockDisableFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ClockDisableFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ClockDisableFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars name() const { return at<1>().as_string(); }
+ bool has_state() const { return at<2>().valid(); }
+ uint64_t state() const { return at<2>().as_uint64(); }
+ bool has_cpu_id() const { return at<3>().valid(); }
+ uint64_t cpu_id() const { return at<3>().as_uint64(); }
+};
+
+class ClockDisableFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = ClockDisableFtraceEvent_Decoder;
+ enum : int32_t {
+ kNameFieldNumber = 1,
+ kStateFieldNumber = 2,
+ kCpuIdFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ClockDisableFtraceEvent"; }
+
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ClockDisableFtraceEvent>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_State =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ClockDisableFtraceEvent>;
+
+ static constexpr FieldMetadata_State kState{};
+ void set_state(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_State::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CpuId =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ClockDisableFtraceEvent>;
+
+ static constexpr FieldMetadata_CpuId kCpuId{};
+ void set_cpu_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CpuId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class ClockEnableFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ClockEnableFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ClockEnableFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ClockEnableFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars name() const { return at<1>().as_string(); }
+ bool has_state() const { return at<2>().valid(); }
+ uint64_t state() const { return at<2>().as_uint64(); }
+ bool has_cpu_id() const { return at<3>().valid(); }
+ uint64_t cpu_id() const { return at<3>().as_uint64(); }
+};
+
+class ClockEnableFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = ClockEnableFtraceEvent_Decoder;
+ enum : int32_t {
+ kNameFieldNumber = 1,
+ kStateFieldNumber = 2,
+ kCpuIdFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ClockEnableFtraceEvent"; }
+
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ClockEnableFtraceEvent>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_State =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ClockEnableFtraceEvent>;
+
+ static constexpr FieldMetadata_State kState{};
+ void set_state(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_State::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CpuId =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ClockEnableFtraceEvent>;
+
+ static constexpr FieldMetadata_CpuId kCpuId{};
+ void set_cpu_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CpuId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class CpuIdleFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ CpuIdleFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit CpuIdleFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit CpuIdleFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_state() const { return at<1>().valid(); }
+ uint32_t state() const { return at<1>().as_uint32(); }
+ bool has_cpu_id() const { return at<2>().valid(); }
+ uint32_t cpu_id() const { return at<2>().as_uint32(); }
+};
+
+class CpuIdleFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = CpuIdleFtraceEvent_Decoder;
+ enum : int32_t {
+ kStateFieldNumber = 1,
+ kCpuIdFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.CpuIdleFtraceEvent"; }
+
+
+ using FieldMetadata_State =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ CpuIdleFtraceEvent>;
+
+ static constexpr FieldMetadata_State kState{};
+ void set_state(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_State::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CpuId =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ CpuIdleFtraceEvent>;
+
+ static constexpr FieldMetadata_CpuId kCpuId{};
+ void set_cpu_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CpuId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class CpuFrequencyLimitsFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ CpuFrequencyLimitsFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit CpuFrequencyLimitsFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit CpuFrequencyLimitsFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_min_freq() const { return at<1>().valid(); }
+ uint32_t min_freq() const { return at<1>().as_uint32(); }
+ bool has_max_freq() const { return at<2>().valid(); }
+ uint32_t max_freq() const { return at<2>().as_uint32(); }
+ bool has_cpu_id() const { return at<3>().valid(); }
+ uint32_t cpu_id() const { return at<3>().as_uint32(); }
+};
+
+class CpuFrequencyLimitsFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = CpuFrequencyLimitsFtraceEvent_Decoder;
+ enum : int32_t {
+ kMinFreqFieldNumber = 1,
+ kMaxFreqFieldNumber = 2,
+ kCpuIdFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.CpuFrequencyLimitsFtraceEvent"; }
+
+
+ using FieldMetadata_MinFreq =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ CpuFrequencyLimitsFtraceEvent>;
+
+ static constexpr FieldMetadata_MinFreq kMinFreq{};
+ void set_min_freq(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MinFreq::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MaxFreq =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ CpuFrequencyLimitsFtraceEvent>;
+
+ static constexpr FieldMetadata_MaxFreq kMaxFreq{};
+ void set_max_freq(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MaxFreq::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CpuId =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ CpuFrequencyLimitsFtraceEvent>;
+
+ static constexpr FieldMetadata_CpuId kCpuId{};
+ void set_cpu_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CpuId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class CpuFrequencyFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ CpuFrequencyFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit CpuFrequencyFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit CpuFrequencyFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_state() const { return at<1>().valid(); }
+ uint32_t state() const { return at<1>().as_uint32(); }
+ bool has_cpu_id() const { return at<2>().valid(); }
+ uint32_t cpu_id() const { return at<2>().as_uint32(); }
+};
+
+class CpuFrequencyFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = CpuFrequencyFtraceEvent_Decoder;
+ enum : int32_t {
+ kStateFieldNumber = 1,
+ kCpuIdFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.CpuFrequencyFtraceEvent"; }
+
+
+ using FieldMetadata_State =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ CpuFrequencyFtraceEvent>;
+
+ static constexpr FieldMetadata_State kState{};
+ void set_state(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_State::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CpuId =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ CpuFrequencyFtraceEvent>;
+
+ static constexpr FieldMetadata_CpuId kCpuId{};
+ void set_cpu_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CpuId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/printk.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_PRINTK_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_PRINTK_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class ConsoleFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ConsoleFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ConsoleFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ConsoleFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_msg() const { return at<1>().valid(); }
+ ::protozero::ConstChars msg() const { return at<1>().as_string(); }
+};
+
+class ConsoleFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = ConsoleFtraceEvent_Decoder;
+ enum : int32_t {
+ kMsgFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ConsoleFtraceEvent"; }
+
+
+ using FieldMetadata_Msg =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ConsoleFtraceEvent>;
+
+ static constexpr FieldMetadata_Msg kMsg{};
+ void set_msg(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Msg::kFieldId, data, size);
+ }
+ void set_msg(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Msg::kFieldId, chars.data, chars.size);
+ }
+ void set_msg(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Msg::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/raw_syscalls.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_RAW_SYSCALLS_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_RAW_SYSCALLS_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class SysExitFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ SysExitFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SysExitFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SysExitFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_id() const { return at<1>().valid(); }
+ int64_t id() const { return at<1>().as_int64(); }
+ bool has_ret() const { return at<2>().valid(); }
+ int64_t ret() const { return at<2>().as_int64(); }
+};
+
+class SysExitFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = SysExitFtraceEvent_Decoder;
+ enum : int32_t {
+ kIdFieldNumber = 1,
+ kRetFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SysExitFtraceEvent"; }
+
+
+ using FieldMetadata_Id =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ SysExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Id kId{};
+ void set_id(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Id::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ret =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ SysExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Ret kRet{};
+ void set_ret(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ret::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class SysEnterFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ SysEnterFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SysEnterFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SysEnterFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_id() const { return at<1>().valid(); }
+ int64_t id() const { return at<1>().as_int64(); }
+ bool has_args() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<uint64_t> args() const { return GetRepeated<uint64_t>(2); }
+};
+
+class SysEnterFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = SysEnterFtraceEvent_Decoder;
+ enum : int32_t {
+ kIdFieldNumber = 1,
+ kArgsFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SysEnterFtraceEvent"; }
+
+
+ using FieldMetadata_Id =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ SysEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Id kId{};
+ void set_id(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Id::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Args =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SysEnterFtraceEvent>;
+
+ static constexpr FieldMetadata_Args kArgs{};
+ void add_args(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Args::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/regulator.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_REGULATOR_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_REGULATOR_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class RegulatorSetVoltageCompleteFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ RegulatorSetVoltageCompleteFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit RegulatorSetVoltageCompleteFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit RegulatorSetVoltageCompleteFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars name() const { return at<1>().as_string(); }
+ bool has_val() const { return at<2>().valid(); }
+ uint32_t val() const { return at<2>().as_uint32(); }
+};
+
+class RegulatorSetVoltageCompleteFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = RegulatorSetVoltageCompleteFtraceEvent_Decoder;
+ enum : int32_t {
+ kNameFieldNumber = 1,
+ kValFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.RegulatorSetVoltageCompleteFtraceEvent"; }
+
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ RegulatorSetVoltageCompleteFtraceEvent>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Val =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ RegulatorSetVoltageCompleteFtraceEvent>;
+
+ static constexpr FieldMetadata_Val kVal{};
+ void set_val(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Val::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class RegulatorSetVoltageFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ RegulatorSetVoltageFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit RegulatorSetVoltageFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit RegulatorSetVoltageFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars name() const { return at<1>().as_string(); }
+ bool has_min() const { return at<2>().valid(); }
+ int32_t min() const { return at<2>().as_int32(); }
+ bool has_max() const { return at<3>().valid(); }
+ int32_t max() const { return at<3>().as_int32(); }
+};
+
+class RegulatorSetVoltageFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = RegulatorSetVoltageFtraceEvent_Decoder;
+ enum : int32_t {
+ kNameFieldNumber = 1,
+ kMinFieldNumber = 2,
+ kMaxFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.RegulatorSetVoltageFtraceEvent"; }
+
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ RegulatorSetVoltageFtraceEvent>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Min =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ RegulatorSetVoltageFtraceEvent>;
+
+ static constexpr FieldMetadata_Min kMin{};
+ void set_min(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Min::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Max =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ RegulatorSetVoltageFtraceEvent>;
+
+ static constexpr FieldMetadata_Max kMax{};
+ void set_max(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Max::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class RegulatorEnableDelayFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ RegulatorEnableDelayFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit RegulatorEnableDelayFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit RegulatorEnableDelayFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars name() const { return at<1>().as_string(); }
+};
+
+class RegulatorEnableDelayFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = RegulatorEnableDelayFtraceEvent_Decoder;
+ enum : int32_t {
+ kNameFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.RegulatorEnableDelayFtraceEvent"; }
+
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ RegulatorEnableDelayFtraceEvent>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class RegulatorEnableCompleteFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ RegulatorEnableCompleteFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit RegulatorEnableCompleteFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit RegulatorEnableCompleteFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars name() const { return at<1>().as_string(); }
+};
+
+class RegulatorEnableCompleteFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = RegulatorEnableCompleteFtraceEvent_Decoder;
+ enum : int32_t {
+ kNameFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.RegulatorEnableCompleteFtraceEvent"; }
+
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ RegulatorEnableCompleteFtraceEvent>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class RegulatorEnableFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ RegulatorEnableFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit RegulatorEnableFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit RegulatorEnableFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars name() const { return at<1>().as_string(); }
+};
+
+class RegulatorEnableFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = RegulatorEnableFtraceEvent_Decoder;
+ enum : int32_t {
+ kNameFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.RegulatorEnableFtraceEvent"; }
+
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ RegulatorEnableFtraceEvent>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class RegulatorDisableCompleteFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ RegulatorDisableCompleteFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit RegulatorDisableCompleteFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit RegulatorDisableCompleteFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars name() const { return at<1>().as_string(); }
+};
+
+class RegulatorDisableCompleteFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = RegulatorDisableCompleteFtraceEvent_Decoder;
+ enum : int32_t {
+ kNameFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.RegulatorDisableCompleteFtraceEvent"; }
+
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ RegulatorDisableCompleteFtraceEvent>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class RegulatorDisableFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ RegulatorDisableFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit RegulatorDisableFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit RegulatorDisableFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars name() const { return at<1>().as_string(); }
+};
+
+class RegulatorDisableFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = RegulatorDisableFtraceEvent_Decoder;
+ enum : int32_t {
+ kNameFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.RegulatorDisableFtraceEvent"; }
+
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ RegulatorDisableFtraceEvent>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/rpm.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_RPM_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_RPM_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class RpmStatusFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ RpmStatusFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit RpmStatusFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit RpmStatusFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars name() const { return at<1>().as_string(); }
+ bool has_status() const { return at<2>().valid(); }
+ int32_t status() const { return at<2>().as_int32(); }
+};
+
+class RpmStatusFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = RpmStatusFtraceEvent_Decoder;
+ enum : int32_t {
+ kNameFieldNumber = 1,
+ kStatusFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.RpmStatusFtraceEvent"; }
+
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ RpmStatusFtraceEvent>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Status =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ RpmStatusFtraceEvent>;
+
+ static constexpr FieldMetadata_Status kStatus{};
+ void set_status(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Status::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/samsung.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_SAMSUNG_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_SAMSUNG_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class SamsungTracingMarkWriteFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ SamsungTracingMarkWriteFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SamsungTracingMarkWriteFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SamsungTracingMarkWriteFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_pid() const { return at<1>().valid(); }
+ int32_t pid() const { return at<1>().as_int32(); }
+ bool has_trace_name() const { return at<2>().valid(); }
+ ::protozero::ConstChars trace_name() const { return at<2>().as_string(); }
+ bool has_trace_begin() const { return at<3>().valid(); }
+ uint32_t trace_begin() const { return at<3>().as_uint32(); }
+ bool has_trace_type() const { return at<4>().valid(); }
+ uint32_t trace_type() const { return at<4>().as_uint32(); }
+ bool has_value() const { return at<5>().valid(); }
+ int32_t value() const { return at<5>().as_int32(); }
+};
+
+class SamsungTracingMarkWriteFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = SamsungTracingMarkWriteFtraceEvent_Decoder;
+ enum : int32_t {
+ kPidFieldNumber = 1,
+ kTraceNameFieldNumber = 2,
+ kTraceBeginFieldNumber = 3,
+ kTraceTypeFieldNumber = 4,
+ kValueFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SamsungTracingMarkWriteFtraceEvent"; }
+
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SamsungTracingMarkWriteFtraceEvent>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TraceName =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ SamsungTracingMarkWriteFtraceEvent>;
+
+ static constexpr FieldMetadata_TraceName kTraceName{};
+ void set_trace_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_TraceName::kFieldId, data, size);
+ }
+ void set_trace_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_TraceName::kFieldId, chars.data, chars.size);
+ }
+ void set_trace_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_TraceName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TraceBegin =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SamsungTracingMarkWriteFtraceEvent>;
+
+ static constexpr FieldMetadata_TraceBegin kTraceBegin{};
+ void set_trace_begin(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TraceBegin::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TraceType =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SamsungTracingMarkWriteFtraceEvent>;
+
+ static constexpr FieldMetadata_TraceType kTraceType{};
+ void set_trace_type(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TraceType::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Value =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SamsungTracingMarkWriteFtraceEvent>;
+
+ static constexpr FieldMetadata_Value kValue{};
+ void set_value(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Value::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/sched.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_SCHED_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_SCHED_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class SchedMigrateTaskFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/7, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ SchedMigrateTaskFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SchedMigrateTaskFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SchedMigrateTaskFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_comm() const { return at<1>().valid(); }
+ ::protozero::ConstChars comm() const { return at<1>().as_string(); }
+ bool has_pid() const { return at<2>().valid(); }
+ int32_t pid() const { return at<2>().as_int32(); }
+ bool has_prio() const { return at<3>().valid(); }
+ int32_t prio() const { return at<3>().as_int32(); }
+ bool has_orig_cpu() const { return at<4>().valid(); }
+ int32_t orig_cpu() const { return at<4>().as_int32(); }
+ bool has_dest_cpu() const { return at<5>().valid(); }
+ int32_t dest_cpu() const { return at<5>().as_int32(); }
+ bool has_running() const { return at<6>().valid(); }
+ int32_t running() const { return at<6>().as_int32(); }
+ bool has_load() const { return at<7>().valid(); }
+ uint32_t load() const { return at<7>().as_uint32(); }
+};
+
+class SchedMigrateTaskFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = SchedMigrateTaskFtraceEvent_Decoder;
+ enum : int32_t {
+ kCommFieldNumber = 1,
+ kPidFieldNumber = 2,
+ kPrioFieldNumber = 3,
+ kOrigCpuFieldNumber = 4,
+ kDestCpuFieldNumber = 5,
+ kRunningFieldNumber = 6,
+ kLoadFieldNumber = 7,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SchedMigrateTaskFtraceEvent"; }
+
+
+ using FieldMetadata_Comm =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ SchedMigrateTaskFtraceEvent>;
+
+ static constexpr FieldMetadata_Comm kComm{};
+ void set_comm(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Comm::kFieldId, data, size);
+ }
+ void set_comm(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Comm::kFieldId, chars.data, chars.size);
+ }
+ void set_comm(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Comm::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SchedMigrateTaskFtraceEvent>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Prio =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SchedMigrateTaskFtraceEvent>;
+
+ static constexpr FieldMetadata_Prio kPrio{};
+ void set_prio(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Prio::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_OrigCpu =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SchedMigrateTaskFtraceEvent>;
+
+ static constexpr FieldMetadata_OrigCpu kOrigCpu{};
+ void set_orig_cpu(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_OrigCpu::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DestCpu =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SchedMigrateTaskFtraceEvent>;
+
+ static constexpr FieldMetadata_DestCpu kDestCpu{};
+ void set_dest_cpu(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DestCpu::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Running =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SchedMigrateTaskFtraceEvent>;
+
+ static constexpr FieldMetadata_Running kRunning{};
+ void set_running(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Running::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Load =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SchedMigrateTaskFtraceEvent>;
+
+ static constexpr FieldMetadata_Load kLoad{};
+ void set_load(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Load::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class SchedCpuUtilCfsFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/15, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ SchedCpuUtilCfsFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SchedCpuUtilCfsFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SchedCpuUtilCfsFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_active() const { return at<1>().valid(); }
+ int32_t active() const { return at<1>().as_int32(); }
+ bool has_capacity() const { return at<2>().valid(); }
+ uint64_t capacity() const { return at<2>().as_uint64(); }
+ bool has_capacity_orig() const { return at<3>().valid(); }
+ uint64_t capacity_orig() const { return at<3>().as_uint64(); }
+ bool has_cpu() const { return at<4>().valid(); }
+ uint32_t cpu() const { return at<4>().as_uint32(); }
+ bool has_cpu_importance() const { return at<5>().valid(); }
+ uint64_t cpu_importance() const { return at<5>().as_uint64(); }
+ bool has_cpu_util() const { return at<6>().valid(); }
+ uint64_t cpu_util() const { return at<6>().as_uint64(); }
+ bool has_exit_lat() const { return at<7>().valid(); }
+ uint32_t exit_lat() const { return at<7>().as_uint32(); }
+ bool has_group_capacity() const { return at<8>().valid(); }
+ uint64_t group_capacity() const { return at<8>().as_uint64(); }
+ bool has_grp_overutilized() const { return at<9>().valid(); }
+ uint32_t grp_overutilized() const { return at<9>().as_uint32(); }
+ bool has_idle_cpu() const { return at<10>().valid(); }
+ uint32_t idle_cpu() const { return at<10>().as_uint32(); }
+ bool has_nr_running() const { return at<11>().valid(); }
+ uint32_t nr_running() const { return at<11>().as_uint32(); }
+ bool has_spare_cap() const { return at<12>().valid(); }
+ int64_t spare_cap() const { return at<12>().as_int64(); }
+ bool has_task_fits() const { return at<13>().valid(); }
+ uint32_t task_fits() const { return at<13>().as_uint32(); }
+ bool has_wake_group_util() const { return at<14>().valid(); }
+ uint64_t wake_group_util() const { return at<14>().as_uint64(); }
+ bool has_wake_util() const { return at<15>().valid(); }
+ uint64_t wake_util() const { return at<15>().as_uint64(); }
+};
+
+class SchedCpuUtilCfsFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = SchedCpuUtilCfsFtraceEvent_Decoder;
+ enum : int32_t {
+ kActiveFieldNumber = 1,
+ kCapacityFieldNumber = 2,
+ kCapacityOrigFieldNumber = 3,
+ kCpuFieldNumber = 4,
+ kCpuImportanceFieldNumber = 5,
+ kCpuUtilFieldNumber = 6,
+ kExitLatFieldNumber = 7,
+ kGroupCapacityFieldNumber = 8,
+ kGrpOverutilizedFieldNumber = 9,
+ kIdleCpuFieldNumber = 10,
+ kNrRunningFieldNumber = 11,
+ kSpareCapFieldNumber = 12,
+ kTaskFitsFieldNumber = 13,
+ kWakeGroupUtilFieldNumber = 14,
+ kWakeUtilFieldNumber = 15,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SchedCpuUtilCfsFtraceEvent"; }
+
+
+ using FieldMetadata_Active =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SchedCpuUtilCfsFtraceEvent>;
+
+ static constexpr FieldMetadata_Active kActive{};
+ void set_active(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Active::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Capacity =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SchedCpuUtilCfsFtraceEvent>;
+
+ static constexpr FieldMetadata_Capacity kCapacity{};
+ void set_capacity(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Capacity::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CapacityOrig =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SchedCpuUtilCfsFtraceEvent>;
+
+ static constexpr FieldMetadata_CapacityOrig kCapacityOrig{};
+ void set_capacity_orig(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CapacityOrig::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Cpu =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SchedCpuUtilCfsFtraceEvent>;
+
+ static constexpr FieldMetadata_Cpu kCpu{};
+ void set_cpu(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Cpu::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CpuImportance =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SchedCpuUtilCfsFtraceEvent>;
+
+ static constexpr FieldMetadata_CpuImportance kCpuImportance{};
+ void set_cpu_importance(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CpuImportance::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CpuUtil =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SchedCpuUtilCfsFtraceEvent>;
+
+ static constexpr FieldMetadata_CpuUtil kCpuUtil{};
+ void set_cpu_util(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CpuUtil::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ExitLat =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SchedCpuUtilCfsFtraceEvent>;
+
+ static constexpr FieldMetadata_ExitLat kExitLat{};
+ void set_exit_lat(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ExitLat::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_GroupCapacity =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SchedCpuUtilCfsFtraceEvent>;
+
+ static constexpr FieldMetadata_GroupCapacity kGroupCapacity{};
+ void set_group_capacity(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_GroupCapacity::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_GrpOverutilized =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SchedCpuUtilCfsFtraceEvent>;
+
+ static constexpr FieldMetadata_GrpOverutilized kGrpOverutilized{};
+ void set_grp_overutilized(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_GrpOverutilized::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IdleCpu =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SchedCpuUtilCfsFtraceEvent>;
+
+ static constexpr FieldMetadata_IdleCpu kIdleCpu{};
+ void set_idle_cpu(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_IdleCpu::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NrRunning =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SchedCpuUtilCfsFtraceEvent>;
+
+ static constexpr FieldMetadata_NrRunning kNrRunning{};
+ void set_nr_running(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NrRunning::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SpareCap =
+ ::protozero::proto_utils::FieldMetadata<
+ 12,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ SchedCpuUtilCfsFtraceEvent>;
+
+ static constexpr FieldMetadata_SpareCap kSpareCap{};
+ void set_spare_cap(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SpareCap::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TaskFits =
+ ::protozero::proto_utils::FieldMetadata<
+ 13,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SchedCpuUtilCfsFtraceEvent>;
+
+ static constexpr FieldMetadata_TaskFits kTaskFits{};
+ void set_task_fits(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TaskFits::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_WakeGroupUtil =
+ ::protozero::proto_utils::FieldMetadata<
+ 14,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SchedCpuUtilCfsFtraceEvent>;
+
+ static constexpr FieldMetadata_WakeGroupUtil kWakeGroupUtil{};
+ void set_wake_group_util(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_WakeGroupUtil::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_WakeUtil =
+ ::protozero::proto_utils::FieldMetadata<
+ 15,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SchedCpuUtilCfsFtraceEvent>;
+
+ static constexpr FieldMetadata_WakeUtil kWakeUtil{};
+ void set_wake_util(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_WakeUtil::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class SchedPiSetprioFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ SchedPiSetprioFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SchedPiSetprioFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SchedPiSetprioFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_comm() const { return at<1>().valid(); }
+ ::protozero::ConstChars comm() const { return at<1>().as_string(); }
+ bool has_newprio() const { return at<2>().valid(); }
+ int32_t newprio() const { return at<2>().as_int32(); }
+ bool has_oldprio() const { return at<3>().valid(); }
+ int32_t oldprio() const { return at<3>().as_int32(); }
+ bool has_pid() const { return at<4>().valid(); }
+ int32_t pid() const { return at<4>().as_int32(); }
+};
+
+class SchedPiSetprioFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = SchedPiSetprioFtraceEvent_Decoder;
+ enum : int32_t {
+ kCommFieldNumber = 1,
+ kNewprioFieldNumber = 2,
+ kOldprioFieldNumber = 3,
+ kPidFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SchedPiSetprioFtraceEvent"; }
+
+
+ using FieldMetadata_Comm =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ SchedPiSetprioFtraceEvent>;
+
+ static constexpr FieldMetadata_Comm kComm{};
+ void set_comm(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Comm::kFieldId, data, size);
+ }
+ void set_comm(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Comm::kFieldId, chars.data, chars.size);
+ }
+ void set_comm(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Comm::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Newprio =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SchedPiSetprioFtraceEvent>;
+
+ static constexpr FieldMetadata_Newprio kNewprio{};
+ void set_newprio(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Newprio::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Oldprio =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SchedPiSetprioFtraceEvent>;
+
+ static constexpr FieldMetadata_Oldprio kOldprio{};
+ void set_oldprio(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Oldprio::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SchedPiSetprioFtraceEvent>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class SchedProcessWaitFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ SchedProcessWaitFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SchedProcessWaitFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SchedProcessWaitFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_comm() const { return at<1>().valid(); }
+ ::protozero::ConstChars comm() const { return at<1>().as_string(); }
+ bool has_pid() const { return at<2>().valid(); }
+ int32_t pid() const { return at<2>().as_int32(); }
+ bool has_prio() const { return at<3>().valid(); }
+ int32_t prio() const { return at<3>().as_int32(); }
+};
+
+class SchedProcessWaitFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = SchedProcessWaitFtraceEvent_Decoder;
+ enum : int32_t {
+ kCommFieldNumber = 1,
+ kPidFieldNumber = 2,
+ kPrioFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SchedProcessWaitFtraceEvent"; }
+
+
+ using FieldMetadata_Comm =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ SchedProcessWaitFtraceEvent>;
+
+ static constexpr FieldMetadata_Comm kComm{};
+ void set_comm(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Comm::kFieldId, data, size);
+ }
+ void set_comm(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Comm::kFieldId, chars.data, chars.size);
+ }
+ void set_comm(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Comm::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SchedProcessWaitFtraceEvent>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Prio =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SchedProcessWaitFtraceEvent>;
+
+ static constexpr FieldMetadata_Prio kPrio{};
+ void set_prio(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Prio::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class SchedProcessHangFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ SchedProcessHangFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SchedProcessHangFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SchedProcessHangFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_comm() const { return at<1>().valid(); }
+ ::protozero::ConstChars comm() const { return at<1>().as_string(); }
+ bool has_pid() const { return at<2>().valid(); }
+ int32_t pid() const { return at<2>().as_int32(); }
+};
+
+class SchedProcessHangFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = SchedProcessHangFtraceEvent_Decoder;
+ enum : int32_t {
+ kCommFieldNumber = 1,
+ kPidFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SchedProcessHangFtraceEvent"; }
+
+
+ using FieldMetadata_Comm =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ SchedProcessHangFtraceEvent>;
+
+ static constexpr FieldMetadata_Comm kComm{};
+ void set_comm(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Comm::kFieldId, data, size);
+ }
+ void set_comm(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Comm::kFieldId, chars.data, chars.size);
+ }
+ void set_comm(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Comm::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SchedProcessHangFtraceEvent>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class SchedProcessFreeFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ SchedProcessFreeFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SchedProcessFreeFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SchedProcessFreeFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_comm() const { return at<1>().valid(); }
+ ::protozero::ConstChars comm() const { return at<1>().as_string(); }
+ bool has_pid() const { return at<2>().valid(); }
+ int32_t pid() const { return at<2>().as_int32(); }
+ bool has_prio() const { return at<3>().valid(); }
+ int32_t prio() const { return at<3>().as_int32(); }
+};
+
+class SchedProcessFreeFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = SchedProcessFreeFtraceEvent_Decoder;
+ enum : int32_t {
+ kCommFieldNumber = 1,
+ kPidFieldNumber = 2,
+ kPrioFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SchedProcessFreeFtraceEvent"; }
+
+
+ using FieldMetadata_Comm =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ SchedProcessFreeFtraceEvent>;
+
+ static constexpr FieldMetadata_Comm kComm{};
+ void set_comm(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Comm::kFieldId, data, size);
+ }
+ void set_comm(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Comm::kFieldId, chars.data, chars.size);
+ }
+ void set_comm(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Comm::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SchedProcessFreeFtraceEvent>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Prio =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SchedProcessFreeFtraceEvent>;
+
+ static constexpr FieldMetadata_Prio kPrio{};
+ void set_prio(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Prio::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class SchedProcessForkFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ SchedProcessForkFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SchedProcessForkFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SchedProcessForkFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_parent_comm() const { return at<1>().valid(); }
+ ::protozero::ConstChars parent_comm() const { return at<1>().as_string(); }
+ bool has_parent_pid() const { return at<2>().valid(); }
+ int32_t parent_pid() const { return at<2>().as_int32(); }
+ bool has_child_comm() const { return at<3>().valid(); }
+ ::protozero::ConstChars child_comm() const { return at<3>().as_string(); }
+ bool has_child_pid() const { return at<4>().valid(); }
+ int32_t child_pid() const { return at<4>().as_int32(); }
+};
+
+class SchedProcessForkFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = SchedProcessForkFtraceEvent_Decoder;
+ enum : int32_t {
+ kParentCommFieldNumber = 1,
+ kParentPidFieldNumber = 2,
+ kChildCommFieldNumber = 3,
+ kChildPidFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SchedProcessForkFtraceEvent"; }
+
+
+ using FieldMetadata_ParentComm =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ SchedProcessForkFtraceEvent>;
+
+ static constexpr FieldMetadata_ParentComm kParentComm{};
+ void set_parent_comm(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_ParentComm::kFieldId, data, size);
+ }
+ void set_parent_comm(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_ParentComm::kFieldId, chars.data, chars.size);
+ }
+ void set_parent_comm(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_ParentComm::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ParentPid =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SchedProcessForkFtraceEvent>;
+
+ static constexpr FieldMetadata_ParentPid kParentPid{};
+ void set_parent_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ParentPid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ChildComm =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ SchedProcessForkFtraceEvent>;
+
+ static constexpr FieldMetadata_ChildComm kChildComm{};
+ void set_child_comm(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_ChildComm::kFieldId, data, size);
+ }
+ void set_child_comm(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_ChildComm::kFieldId, chars.data, chars.size);
+ }
+ void set_child_comm(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_ChildComm::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ChildPid =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SchedProcessForkFtraceEvent>;
+
+ static constexpr FieldMetadata_ChildPid kChildPid{};
+ void set_child_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ChildPid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class SchedProcessExitFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ SchedProcessExitFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SchedProcessExitFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SchedProcessExitFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_comm() const { return at<1>().valid(); }
+ ::protozero::ConstChars comm() const { return at<1>().as_string(); }
+ bool has_pid() const { return at<2>().valid(); }
+ int32_t pid() const { return at<2>().as_int32(); }
+ bool has_tgid() const { return at<3>().valid(); }
+ int32_t tgid() const { return at<3>().as_int32(); }
+ bool has_prio() const { return at<4>().valid(); }
+ int32_t prio() const { return at<4>().as_int32(); }
+};
+
+class SchedProcessExitFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = SchedProcessExitFtraceEvent_Decoder;
+ enum : int32_t {
+ kCommFieldNumber = 1,
+ kPidFieldNumber = 2,
+ kTgidFieldNumber = 3,
+ kPrioFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SchedProcessExitFtraceEvent"; }
+
+
+ using FieldMetadata_Comm =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ SchedProcessExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Comm kComm{};
+ void set_comm(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Comm::kFieldId, data, size);
+ }
+ void set_comm(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Comm::kFieldId, chars.data, chars.size);
+ }
+ void set_comm(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Comm::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SchedProcessExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Tgid =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SchedProcessExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Tgid kTgid{};
+ void set_tgid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Tgid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Prio =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SchedProcessExitFtraceEvent>;
+
+ static constexpr FieldMetadata_Prio kPrio{};
+ void set_prio(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Prio::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class SchedProcessExecFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ SchedProcessExecFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SchedProcessExecFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SchedProcessExecFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_filename() const { return at<1>().valid(); }
+ ::protozero::ConstChars filename() const { return at<1>().as_string(); }
+ bool has_pid() const { return at<2>().valid(); }
+ int32_t pid() const { return at<2>().as_int32(); }
+ bool has_old_pid() const { return at<3>().valid(); }
+ int32_t old_pid() const { return at<3>().as_int32(); }
+};
+
+class SchedProcessExecFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = SchedProcessExecFtraceEvent_Decoder;
+ enum : int32_t {
+ kFilenameFieldNumber = 1,
+ kPidFieldNumber = 2,
+ kOldPidFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SchedProcessExecFtraceEvent"; }
+
+
+ using FieldMetadata_Filename =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ SchedProcessExecFtraceEvent>;
+
+ static constexpr FieldMetadata_Filename kFilename{};
+ void set_filename(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Filename::kFieldId, data, size);
+ }
+ void set_filename(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Filename::kFieldId, chars.data, chars.size);
+ }
+ void set_filename(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Filename::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SchedProcessExecFtraceEvent>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_OldPid =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SchedProcessExecFtraceEvent>;
+
+ static constexpr FieldMetadata_OldPid kOldPid{};
+ void set_old_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_OldPid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class SchedWakeupNewFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ SchedWakeupNewFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SchedWakeupNewFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SchedWakeupNewFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_comm() const { return at<1>().valid(); }
+ ::protozero::ConstChars comm() const { return at<1>().as_string(); }
+ bool has_pid() const { return at<2>().valid(); }
+ int32_t pid() const { return at<2>().as_int32(); }
+ bool has_prio() const { return at<3>().valid(); }
+ int32_t prio() const { return at<3>().as_int32(); }
+ bool has_success() const { return at<4>().valid(); }
+ int32_t success() const { return at<4>().as_int32(); }
+ bool has_target_cpu() const { return at<5>().valid(); }
+ int32_t target_cpu() const { return at<5>().as_int32(); }
+};
+
+class SchedWakeupNewFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = SchedWakeupNewFtraceEvent_Decoder;
+ enum : int32_t {
+ kCommFieldNumber = 1,
+ kPidFieldNumber = 2,
+ kPrioFieldNumber = 3,
+ kSuccessFieldNumber = 4,
+ kTargetCpuFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SchedWakeupNewFtraceEvent"; }
+
+
+ using FieldMetadata_Comm =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ SchedWakeupNewFtraceEvent>;
+
+ static constexpr FieldMetadata_Comm kComm{};
+ void set_comm(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Comm::kFieldId, data, size);
+ }
+ void set_comm(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Comm::kFieldId, chars.data, chars.size);
+ }
+ void set_comm(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Comm::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SchedWakeupNewFtraceEvent>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Prio =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SchedWakeupNewFtraceEvent>;
+
+ static constexpr FieldMetadata_Prio kPrio{};
+ void set_prio(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Prio::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Success =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SchedWakeupNewFtraceEvent>;
+
+ static constexpr FieldMetadata_Success kSuccess{};
+ void set_success(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Success::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TargetCpu =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SchedWakeupNewFtraceEvent>;
+
+ static constexpr FieldMetadata_TargetCpu kTargetCpu{};
+ void set_target_cpu(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TargetCpu::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class SchedWakingFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ SchedWakingFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SchedWakingFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SchedWakingFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_comm() const { return at<1>().valid(); }
+ ::protozero::ConstChars comm() const { return at<1>().as_string(); }
+ bool has_pid() const { return at<2>().valid(); }
+ int32_t pid() const { return at<2>().as_int32(); }
+ bool has_prio() const { return at<3>().valid(); }
+ int32_t prio() const { return at<3>().as_int32(); }
+ bool has_success() const { return at<4>().valid(); }
+ int32_t success() const { return at<4>().as_int32(); }
+ bool has_target_cpu() const { return at<5>().valid(); }
+ int32_t target_cpu() const { return at<5>().as_int32(); }
+};
+
+class SchedWakingFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = SchedWakingFtraceEvent_Decoder;
+ enum : int32_t {
+ kCommFieldNumber = 1,
+ kPidFieldNumber = 2,
+ kPrioFieldNumber = 3,
+ kSuccessFieldNumber = 4,
+ kTargetCpuFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SchedWakingFtraceEvent"; }
+
+
+ using FieldMetadata_Comm =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ SchedWakingFtraceEvent>;
+
+ static constexpr FieldMetadata_Comm kComm{};
+ void set_comm(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Comm::kFieldId, data, size);
+ }
+ void set_comm(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Comm::kFieldId, chars.data, chars.size);
+ }
+ void set_comm(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Comm::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SchedWakingFtraceEvent>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Prio =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SchedWakingFtraceEvent>;
+
+ static constexpr FieldMetadata_Prio kPrio{};
+ void set_prio(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Prio::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Success =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SchedWakingFtraceEvent>;
+
+ static constexpr FieldMetadata_Success kSuccess{};
+ void set_success(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Success::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TargetCpu =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SchedWakingFtraceEvent>;
+
+ static constexpr FieldMetadata_TargetCpu kTargetCpu{};
+ void set_target_cpu(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TargetCpu::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class SchedCpuHotplugFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ SchedCpuHotplugFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SchedCpuHotplugFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SchedCpuHotplugFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_affected_cpu() const { return at<1>().valid(); }
+ int32_t affected_cpu() const { return at<1>().as_int32(); }
+ bool has_error() const { return at<2>().valid(); }
+ int32_t error() const { return at<2>().as_int32(); }
+ bool has_status() const { return at<3>().valid(); }
+ int32_t status() const { return at<3>().as_int32(); }
+};
+
+class SchedCpuHotplugFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = SchedCpuHotplugFtraceEvent_Decoder;
+ enum : int32_t {
+ kAffectedCpuFieldNumber = 1,
+ kErrorFieldNumber = 2,
+ kStatusFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SchedCpuHotplugFtraceEvent"; }
+
+
+ using FieldMetadata_AffectedCpu =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SchedCpuHotplugFtraceEvent>;
+
+ static constexpr FieldMetadata_AffectedCpu kAffectedCpu{};
+ void set_affected_cpu(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_AffectedCpu::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Error =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SchedCpuHotplugFtraceEvent>;
+
+ static constexpr FieldMetadata_Error kError{};
+ void set_error(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Error::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Status =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SchedCpuHotplugFtraceEvent>;
+
+ static constexpr FieldMetadata_Status kStatus{};
+ void set_status(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Status::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class SchedBlockedReasonFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ SchedBlockedReasonFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SchedBlockedReasonFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SchedBlockedReasonFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_pid() const { return at<1>().valid(); }
+ int32_t pid() const { return at<1>().as_int32(); }
+ bool has_caller() const { return at<2>().valid(); }
+ uint64_t caller() const { return at<2>().as_uint64(); }
+ bool has_io_wait() const { return at<3>().valid(); }
+ uint32_t io_wait() const { return at<3>().as_uint32(); }
+};
+
+class SchedBlockedReasonFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = SchedBlockedReasonFtraceEvent_Decoder;
+ enum : int32_t {
+ kPidFieldNumber = 1,
+ kCallerFieldNumber = 2,
+ kIoWaitFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SchedBlockedReasonFtraceEvent"; }
+
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SchedBlockedReasonFtraceEvent>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Caller =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SchedBlockedReasonFtraceEvent>;
+
+ static constexpr FieldMetadata_Caller kCaller{};
+ void set_caller(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Caller::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IoWait =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SchedBlockedReasonFtraceEvent>;
+
+ static constexpr FieldMetadata_IoWait kIoWait{};
+ void set_io_wait(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_IoWait::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class SchedWakeupFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ SchedWakeupFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SchedWakeupFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SchedWakeupFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_comm() const { return at<1>().valid(); }
+ ::protozero::ConstChars comm() const { return at<1>().as_string(); }
+ bool has_pid() const { return at<2>().valid(); }
+ int32_t pid() const { return at<2>().as_int32(); }
+ bool has_prio() const { return at<3>().valid(); }
+ int32_t prio() const { return at<3>().as_int32(); }
+ bool has_success() const { return at<4>().valid(); }
+ int32_t success() const { return at<4>().as_int32(); }
+ bool has_target_cpu() const { return at<5>().valid(); }
+ int32_t target_cpu() const { return at<5>().as_int32(); }
+};
+
+class SchedWakeupFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = SchedWakeupFtraceEvent_Decoder;
+ enum : int32_t {
+ kCommFieldNumber = 1,
+ kPidFieldNumber = 2,
+ kPrioFieldNumber = 3,
+ kSuccessFieldNumber = 4,
+ kTargetCpuFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SchedWakeupFtraceEvent"; }
+
+
+ using FieldMetadata_Comm =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ SchedWakeupFtraceEvent>;
+
+ static constexpr FieldMetadata_Comm kComm{};
+ void set_comm(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Comm::kFieldId, data, size);
+ }
+ void set_comm(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Comm::kFieldId, chars.data, chars.size);
+ }
+ void set_comm(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Comm::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SchedWakeupFtraceEvent>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Prio =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SchedWakeupFtraceEvent>;
+
+ static constexpr FieldMetadata_Prio kPrio{};
+ void set_prio(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Prio::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Success =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SchedWakeupFtraceEvent>;
+
+ static constexpr FieldMetadata_Success kSuccess{};
+ void set_success(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Success::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TargetCpu =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SchedWakeupFtraceEvent>;
+
+ static constexpr FieldMetadata_TargetCpu kTargetCpu{};
+ void set_target_cpu(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TargetCpu::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class SchedSwitchFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/7, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ SchedSwitchFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SchedSwitchFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SchedSwitchFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_prev_comm() const { return at<1>().valid(); }
+ ::protozero::ConstChars prev_comm() const { return at<1>().as_string(); }
+ bool has_prev_pid() const { return at<2>().valid(); }
+ int32_t prev_pid() const { return at<2>().as_int32(); }
+ bool has_prev_prio() const { return at<3>().valid(); }
+ int32_t prev_prio() const { return at<3>().as_int32(); }
+ bool has_prev_state() const { return at<4>().valid(); }
+ int64_t prev_state() const { return at<4>().as_int64(); }
+ bool has_next_comm() const { return at<5>().valid(); }
+ ::protozero::ConstChars next_comm() const { return at<5>().as_string(); }
+ bool has_next_pid() const { return at<6>().valid(); }
+ int32_t next_pid() const { return at<6>().as_int32(); }
+ bool has_next_prio() const { return at<7>().valid(); }
+ int32_t next_prio() const { return at<7>().as_int32(); }
+};
+
+class SchedSwitchFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = SchedSwitchFtraceEvent_Decoder;
+ enum : int32_t {
+ kPrevCommFieldNumber = 1,
+ kPrevPidFieldNumber = 2,
+ kPrevPrioFieldNumber = 3,
+ kPrevStateFieldNumber = 4,
+ kNextCommFieldNumber = 5,
+ kNextPidFieldNumber = 6,
+ kNextPrioFieldNumber = 7,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SchedSwitchFtraceEvent"; }
+
+
+ using FieldMetadata_PrevComm =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ SchedSwitchFtraceEvent>;
+
+ static constexpr FieldMetadata_PrevComm kPrevComm{};
+ void set_prev_comm(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_PrevComm::kFieldId, data, size);
+ }
+ void set_prev_comm(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_PrevComm::kFieldId, chars.data, chars.size);
+ }
+ void set_prev_comm(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_PrevComm::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PrevPid =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SchedSwitchFtraceEvent>;
+
+ static constexpr FieldMetadata_PrevPid kPrevPid{};
+ void set_prev_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PrevPid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PrevPrio =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SchedSwitchFtraceEvent>;
+
+ static constexpr FieldMetadata_PrevPrio kPrevPrio{};
+ void set_prev_prio(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PrevPrio::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PrevState =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ SchedSwitchFtraceEvent>;
+
+ static constexpr FieldMetadata_PrevState kPrevState{};
+ void set_prev_state(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PrevState::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NextComm =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ SchedSwitchFtraceEvent>;
+
+ static constexpr FieldMetadata_NextComm kNextComm{};
+ void set_next_comm(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_NextComm::kFieldId, data, size);
+ }
+ void set_next_comm(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_NextComm::kFieldId, chars.data, chars.size);
+ }
+ void set_next_comm(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_NextComm::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NextPid =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SchedSwitchFtraceEvent>;
+
+ static constexpr FieldMetadata_NextPid kNextPid{};
+ void set_next_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NextPid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NextPrio =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SchedSwitchFtraceEvent>;
+
+ static constexpr FieldMetadata_NextPrio kNextPrio{};
+ void set_next_prio(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NextPrio::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/scm.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_SCM_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_SCM_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class ScmCallEndFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/0, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ScmCallEndFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ScmCallEndFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ScmCallEndFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+};
+
+class ScmCallEndFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = ScmCallEndFtraceEvent_Decoder;
+ static constexpr const char* GetName() { return ".perfetto.protos.ScmCallEndFtraceEvent"; }
+
+};
+
+class ScmCallStartFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ScmCallStartFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ScmCallStartFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ScmCallStartFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_arginfo() const { return at<1>().valid(); }
+ uint32_t arginfo() const { return at<1>().as_uint32(); }
+ bool has_x0() const { return at<2>().valid(); }
+ uint64_t x0() const { return at<2>().as_uint64(); }
+ bool has_x5() const { return at<3>().valid(); }
+ uint64_t x5() const { return at<3>().as_uint64(); }
+};
+
+class ScmCallStartFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = ScmCallStartFtraceEvent_Decoder;
+ enum : int32_t {
+ kArginfoFieldNumber = 1,
+ kX0FieldNumber = 2,
+ kX5FieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ScmCallStartFtraceEvent"; }
+
+
+ using FieldMetadata_Arginfo =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ ScmCallStartFtraceEvent>;
+
+ static constexpr FieldMetadata_Arginfo kArginfo{};
+ void set_arginfo(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Arginfo::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_X0 =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ScmCallStartFtraceEvent>;
+
+ static constexpr FieldMetadata_X0 kX0{};
+ void set_x0(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_X0::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_X5 =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ScmCallStartFtraceEvent>;
+
+ static constexpr FieldMetadata_X5 kX5{};
+ void set_x5(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_X5::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/sde.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_SDE_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_SDE_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class SdeSdePerfUpdateBusFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ SdeSdePerfUpdateBusFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SdeSdePerfUpdateBusFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SdeSdePerfUpdateBusFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_ab_quota() const { return at<1>().valid(); }
+ uint64_t ab_quota() const { return at<1>().as_uint64(); }
+ bool has_bus_id() const { return at<2>().valid(); }
+ uint32_t bus_id() const { return at<2>().as_uint32(); }
+ bool has_client() const { return at<3>().valid(); }
+ int32_t client() const { return at<3>().as_int32(); }
+ bool has_ib_quota() const { return at<4>().valid(); }
+ uint64_t ib_quota() const { return at<4>().as_uint64(); }
+};
+
+class SdeSdePerfUpdateBusFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = SdeSdePerfUpdateBusFtraceEvent_Decoder;
+ enum : int32_t {
+ kAbQuotaFieldNumber = 1,
+ kBusIdFieldNumber = 2,
+ kClientFieldNumber = 3,
+ kIbQuotaFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SdeSdePerfUpdateBusFtraceEvent"; }
+
+
+ using FieldMetadata_AbQuota =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SdeSdePerfUpdateBusFtraceEvent>;
+
+ static constexpr FieldMetadata_AbQuota kAbQuota{};
+ void set_ab_quota(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_AbQuota::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BusId =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SdeSdePerfUpdateBusFtraceEvent>;
+
+ static constexpr FieldMetadata_BusId kBusId{};
+ void set_bus_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BusId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Client =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SdeSdePerfUpdateBusFtraceEvent>;
+
+ static constexpr FieldMetadata_Client kClient{};
+ void set_client(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Client::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IbQuota =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SdeSdePerfUpdateBusFtraceEvent>;
+
+ static constexpr FieldMetadata_IbQuota kIbQuota{};
+ void set_ib_quota(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_IbQuota::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class SdeSdePerfSetQosLutsFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/6, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ SdeSdePerfSetQosLutsFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SdeSdePerfSetQosLutsFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SdeSdePerfSetQosLutsFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_fl() const { return at<1>().valid(); }
+ uint32_t fl() const { return at<1>().as_uint32(); }
+ bool has_fmt() const { return at<2>().valid(); }
+ uint32_t fmt() const { return at<2>().as_uint32(); }
+ bool has_lut() const { return at<3>().valid(); }
+ uint64_t lut() const { return at<3>().as_uint64(); }
+ bool has_lut_usage() const { return at<4>().valid(); }
+ uint32_t lut_usage() const { return at<4>().as_uint32(); }
+ bool has_pnum() const { return at<5>().valid(); }
+ uint32_t pnum() const { return at<5>().as_uint32(); }
+ bool has_rt() const { return at<6>().valid(); }
+ uint32_t rt() const { return at<6>().as_uint32(); }
+};
+
+class SdeSdePerfSetQosLutsFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = SdeSdePerfSetQosLutsFtraceEvent_Decoder;
+ enum : int32_t {
+ kFlFieldNumber = 1,
+ kFmtFieldNumber = 2,
+ kLutFieldNumber = 3,
+ kLutUsageFieldNumber = 4,
+ kPnumFieldNumber = 5,
+ kRtFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SdeSdePerfSetQosLutsFtraceEvent"; }
+
+
+ using FieldMetadata_Fl =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SdeSdePerfSetQosLutsFtraceEvent>;
+
+ static constexpr FieldMetadata_Fl kFl{};
+ void set_fl(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Fl::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Fmt =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SdeSdePerfSetQosLutsFtraceEvent>;
+
+ static constexpr FieldMetadata_Fmt kFmt{};
+ void set_fmt(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Fmt::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Lut =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SdeSdePerfSetQosLutsFtraceEvent>;
+
+ static constexpr FieldMetadata_Lut kLut{};
+ void set_lut(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Lut::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_LutUsage =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SdeSdePerfSetQosLutsFtraceEvent>;
+
+ static constexpr FieldMetadata_LutUsage kLutUsage{};
+ void set_lut_usage(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_LutUsage::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pnum =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SdeSdePerfSetQosLutsFtraceEvent>;
+
+ static constexpr FieldMetadata_Pnum kPnum{};
+ void set_pnum(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pnum::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Rt =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SdeSdePerfSetQosLutsFtraceEvent>;
+
+ static constexpr FieldMetadata_Rt kRt{};
+ void set_rt(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Rt::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class SdeSdePerfCrtcUpdateFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/12, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ SdeSdePerfCrtcUpdateFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SdeSdePerfCrtcUpdateFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SdeSdePerfCrtcUpdateFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_bw_ctl_ebi() const { return at<1>().valid(); }
+ uint64_t bw_ctl_ebi() const { return at<1>().as_uint64(); }
+ bool has_bw_ctl_llcc() const { return at<2>().valid(); }
+ uint64_t bw_ctl_llcc() const { return at<2>().as_uint64(); }
+ bool has_bw_ctl_mnoc() const { return at<3>().valid(); }
+ uint64_t bw_ctl_mnoc() const { return at<3>().as_uint64(); }
+ bool has_core_clk_rate() const { return at<4>().valid(); }
+ uint32_t core_clk_rate() const { return at<4>().as_uint32(); }
+ bool has_crtc() const { return at<5>().valid(); }
+ uint32_t crtc() const { return at<5>().as_uint32(); }
+ bool has_params() const { return at<6>().valid(); }
+ int32_t params() const { return at<6>().as_int32(); }
+ bool has_per_pipe_ib_ebi() const { return at<7>().valid(); }
+ uint64_t per_pipe_ib_ebi() const { return at<7>().as_uint64(); }
+ bool has_per_pipe_ib_llcc() const { return at<8>().valid(); }
+ uint64_t per_pipe_ib_llcc() const { return at<8>().as_uint64(); }
+ bool has_per_pipe_ib_mnoc() const { return at<9>().valid(); }
+ uint64_t per_pipe_ib_mnoc() const { return at<9>().as_uint64(); }
+ bool has_stop_req() const { return at<10>().valid(); }
+ uint32_t stop_req() const { return at<10>().as_uint32(); }
+ bool has_update_bus() const { return at<11>().valid(); }
+ uint32_t update_bus() const { return at<11>().as_uint32(); }
+ bool has_update_clk() const { return at<12>().valid(); }
+ uint32_t update_clk() const { return at<12>().as_uint32(); }
+};
+
+class SdeSdePerfCrtcUpdateFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = SdeSdePerfCrtcUpdateFtraceEvent_Decoder;
+ enum : int32_t {
+ kBwCtlEbiFieldNumber = 1,
+ kBwCtlLlccFieldNumber = 2,
+ kBwCtlMnocFieldNumber = 3,
+ kCoreClkRateFieldNumber = 4,
+ kCrtcFieldNumber = 5,
+ kParamsFieldNumber = 6,
+ kPerPipeIbEbiFieldNumber = 7,
+ kPerPipeIbLlccFieldNumber = 8,
+ kPerPipeIbMnocFieldNumber = 9,
+ kStopReqFieldNumber = 10,
+ kUpdateBusFieldNumber = 11,
+ kUpdateClkFieldNumber = 12,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SdeSdePerfCrtcUpdateFtraceEvent"; }
+
+
+ using FieldMetadata_BwCtlEbi =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SdeSdePerfCrtcUpdateFtraceEvent>;
+
+ static constexpr FieldMetadata_BwCtlEbi kBwCtlEbi{};
+ void set_bw_ctl_ebi(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BwCtlEbi::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BwCtlLlcc =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SdeSdePerfCrtcUpdateFtraceEvent>;
+
+ static constexpr FieldMetadata_BwCtlLlcc kBwCtlLlcc{};
+ void set_bw_ctl_llcc(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BwCtlLlcc::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BwCtlMnoc =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SdeSdePerfCrtcUpdateFtraceEvent>;
+
+ static constexpr FieldMetadata_BwCtlMnoc kBwCtlMnoc{};
+ void set_bw_ctl_mnoc(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BwCtlMnoc::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CoreClkRate =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SdeSdePerfCrtcUpdateFtraceEvent>;
+
+ static constexpr FieldMetadata_CoreClkRate kCoreClkRate{};
+ void set_core_clk_rate(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CoreClkRate::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Crtc =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SdeSdePerfCrtcUpdateFtraceEvent>;
+
+ static constexpr FieldMetadata_Crtc kCrtc{};
+ void set_crtc(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Crtc::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Params =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SdeSdePerfCrtcUpdateFtraceEvent>;
+
+ static constexpr FieldMetadata_Params kParams{};
+ void set_params(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Params::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PerPipeIbEbi =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SdeSdePerfCrtcUpdateFtraceEvent>;
+
+ static constexpr FieldMetadata_PerPipeIbEbi kPerPipeIbEbi{};
+ void set_per_pipe_ib_ebi(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PerPipeIbEbi::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PerPipeIbLlcc =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SdeSdePerfCrtcUpdateFtraceEvent>;
+
+ static constexpr FieldMetadata_PerPipeIbLlcc kPerPipeIbLlcc{};
+ void set_per_pipe_ib_llcc(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PerPipeIbLlcc::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PerPipeIbMnoc =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SdeSdePerfCrtcUpdateFtraceEvent>;
+
+ static constexpr FieldMetadata_PerPipeIbMnoc kPerPipeIbMnoc{};
+ void set_per_pipe_ib_mnoc(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PerPipeIbMnoc::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_StopReq =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SdeSdePerfCrtcUpdateFtraceEvent>;
+
+ static constexpr FieldMetadata_StopReq kStopReq{};
+ void set_stop_req(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_StopReq::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_UpdateBus =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SdeSdePerfCrtcUpdateFtraceEvent>;
+
+ static constexpr FieldMetadata_UpdateBus kUpdateBus{};
+ void set_update_bus(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_UpdateBus::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_UpdateClk =
+ ::protozero::proto_utils::FieldMetadata<
+ 12,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SdeSdePerfCrtcUpdateFtraceEvent>;
+
+ static constexpr FieldMetadata_UpdateClk kUpdateClk{};
+ void set_update_clk(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_UpdateClk::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class SdeSdePerfCalcCrtcFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/8, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ SdeSdePerfCalcCrtcFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SdeSdePerfCalcCrtcFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SdeSdePerfCalcCrtcFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_bw_ctl_ebi() const { return at<1>().valid(); }
+ uint64_t bw_ctl_ebi() const { return at<1>().as_uint64(); }
+ bool has_bw_ctl_llcc() const { return at<2>().valid(); }
+ uint64_t bw_ctl_llcc() const { return at<2>().as_uint64(); }
+ bool has_bw_ctl_mnoc() const { return at<3>().valid(); }
+ uint64_t bw_ctl_mnoc() const { return at<3>().as_uint64(); }
+ bool has_core_clk_rate() const { return at<4>().valid(); }
+ uint32_t core_clk_rate() const { return at<4>().as_uint32(); }
+ bool has_crtc() const { return at<5>().valid(); }
+ uint32_t crtc() const { return at<5>().as_uint32(); }
+ bool has_ib_ebi() const { return at<6>().valid(); }
+ uint64_t ib_ebi() const { return at<6>().as_uint64(); }
+ bool has_ib_llcc() const { return at<7>().valid(); }
+ uint64_t ib_llcc() const { return at<7>().as_uint64(); }
+ bool has_ib_mnoc() const { return at<8>().valid(); }
+ uint64_t ib_mnoc() const { return at<8>().as_uint64(); }
+};
+
+class SdeSdePerfCalcCrtcFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = SdeSdePerfCalcCrtcFtraceEvent_Decoder;
+ enum : int32_t {
+ kBwCtlEbiFieldNumber = 1,
+ kBwCtlLlccFieldNumber = 2,
+ kBwCtlMnocFieldNumber = 3,
+ kCoreClkRateFieldNumber = 4,
+ kCrtcFieldNumber = 5,
+ kIbEbiFieldNumber = 6,
+ kIbLlccFieldNumber = 7,
+ kIbMnocFieldNumber = 8,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SdeSdePerfCalcCrtcFtraceEvent"; }
+
+
+ using FieldMetadata_BwCtlEbi =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SdeSdePerfCalcCrtcFtraceEvent>;
+
+ static constexpr FieldMetadata_BwCtlEbi kBwCtlEbi{};
+ void set_bw_ctl_ebi(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BwCtlEbi::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BwCtlLlcc =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SdeSdePerfCalcCrtcFtraceEvent>;
+
+ static constexpr FieldMetadata_BwCtlLlcc kBwCtlLlcc{};
+ void set_bw_ctl_llcc(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BwCtlLlcc::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BwCtlMnoc =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SdeSdePerfCalcCrtcFtraceEvent>;
+
+ static constexpr FieldMetadata_BwCtlMnoc kBwCtlMnoc{};
+ void set_bw_ctl_mnoc(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BwCtlMnoc::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CoreClkRate =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SdeSdePerfCalcCrtcFtraceEvent>;
+
+ static constexpr FieldMetadata_CoreClkRate kCoreClkRate{};
+ void set_core_clk_rate(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CoreClkRate::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Crtc =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SdeSdePerfCalcCrtcFtraceEvent>;
+
+ static constexpr FieldMetadata_Crtc kCrtc{};
+ void set_crtc(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Crtc::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IbEbi =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SdeSdePerfCalcCrtcFtraceEvent>;
+
+ static constexpr FieldMetadata_IbEbi kIbEbi{};
+ void set_ib_ebi(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_IbEbi::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IbLlcc =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SdeSdePerfCalcCrtcFtraceEvent>;
+
+ static constexpr FieldMetadata_IbLlcc kIbLlcc{};
+ void set_ib_llcc(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_IbLlcc::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IbMnoc =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SdeSdePerfCalcCrtcFtraceEvent>;
+
+ static constexpr FieldMetadata_IbMnoc kIbMnoc{};
+ void set_ib_mnoc(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_IbMnoc::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class SdeSdeEvtlogFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ SdeSdeEvtlogFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SdeSdeEvtlogFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SdeSdeEvtlogFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_evtlog_tag() const { return at<1>().valid(); }
+ ::protozero::ConstChars evtlog_tag() const { return at<1>().as_string(); }
+ bool has_pid() const { return at<2>().valid(); }
+ int32_t pid() const { return at<2>().as_int32(); }
+ bool has_tag_id() const { return at<3>().valid(); }
+ uint32_t tag_id() const { return at<3>().as_uint32(); }
+};
+
+class SdeSdeEvtlogFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = SdeSdeEvtlogFtraceEvent_Decoder;
+ enum : int32_t {
+ kEvtlogTagFieldNumber = 1,
+ kPidFieldNumber = 2,
+ kTagIdFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SdeSdeEvtlogFtraceEvent"; }
+
+
+ using FieldMetadata_EvtlogTag =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ SdeSdeEvtlogFtraceEvent>;
+
+ static constexpr FieldMetadata_EvtlogTag kEvtlogTag{};
+ void set_evtlog_tag(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_EvtlogTag::kFieldId, data, size);
+ }
+ void set_evtlog_tag(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_EvtlogTag::kFieldId, chars.data, chars.size);
+ }
+ void set_evtlog_tag(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_EvtlogTag::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SdeSdeEvtlogFtraceEvent>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TagId =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SdeSdeEvtlogFtraceEvent>;
+
+ static constexpr FieldMetadata_TagId kTagId{};
+ void set_tag_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TagId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class SdeTracingMarkWriteFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ SdeTracingMarkWriteFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SdeTracingMarkWriteFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SdeTracingMarkWriteFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_pid() const { return at<1>().valid(); }
+ int32_t pid() const { return at<1>().as_int32(); }
+ bool has_trace_name() const { return at<2>().valid(); }
+ ::protozero::ConstChars trace_name() const { return at<2>().as_string(); }
+ bool has_trace_type() const { return at<3>().valid(); }
+ uint32_t trace_type() const { return at<3>().as_uint32(); }
+ bool has_value() const { return at<4>().valid(); }
+ int32_t value() const { return at<4>().as_int32(); }
+ bool has_trace_begin() const { return at<5>().valid(); }
+ uint32_t trace_begin() const { return at<5>().as_uint32(); }
+};
+
+class SdeTracingMarkWriteFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = SdeTracingMarkWriteFtraceEvent_Decoder;
+ enum : int32_t {
+ kPidFieldNumber = 1,
+ kTraceNameFieldNumber = 2,
+ kTraceTypeFieldNumber = 3,
+ kValueFieldNumber = 4,
+ kTraceBeginFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SdeTracingMarkWriteFtraceEvent"; }
+
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SdeTracingMarkWriteFtraceEvent>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TraceName =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ SdeTracingMarkWriteFtraceEvent>;
+
+ static constexpr FieldMetadata_TraceName kTraceName{};
+ void set_trace_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_TraceName::kFieldId, data, size);
+ }
+ void set_trace_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_TraceName::kFieldId, chars.data, chars.size);
+ }
+ void set_trace_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_TraceName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TraceType =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SdeTracingMarkWriteFtraceEvent>;
+
+ static constexpr FieldMetadata_TraceType kTraceType{};
+ void set_trace_type(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TraceType::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Value =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SdeTracingMarkWriteFtraceEvent>;
+
+ static constexpr FieldMetadata_Value kValue{};
+ void set_value(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Value::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TraceBegin =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SdeTracingMarkWriteFtraceEvent>;
+
+ static constexpr FieldMetadata_TraceBegin kTraceBegin{};
+ void set_trace_begin(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TraceBegin::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/signal.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_SIGNAL_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_SIGNAL_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class SignalGenerateFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/6, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ SignalGenerateFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SignalGenerateFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SignalGenerateFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_code() const { return at<1>().valid(); }
+ int32_t code() const { return at<1>().as_int32(); }
+ bool has_comm() const { return at<2>().valid(); }
+ ::protozero::ConstChars comm() const { return at<2>().as_string(); }
+ bool has_group() const { return at<3>().valid(); }
+ int32_t group() const { return at<3>().as_int32(); }
+ bool has_pid() const { return at<4>().valid(); }
+ int32_t pid() const { return at<4>().as_int32(); }
+ bool has_result() const { return at<5>().valid(); }
+ int32_t result() const { return at<5>().as_int32(); }
+ bool has_sig() const { return at<6>().valid(); }
+ int32_t sig() const { return at<6>().as_int32(); }
+};
+
+class SignalGenerateFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = SignalGenerateFtraceEvent_Decoder;
+ enum : int32_t {
+ kCodeFieldNumber = 1,
+ kCommFieldNumber = 2,
+ kGroupFieldNumber = 3,
+ kPidFieldNumber = 4,
+ kResultFieldNumber = 5,
+ kSigFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SignalGenerateFtraceEvent"; }
+
+
+ using FieldMetadata_Code =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SignalGenerateFtraceEvent>;
+
+ static constexpr FieldMetadata_Code kCode{};
+ void set_code(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Code::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Comm =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ SignalGenerateFtraceEvent>;
+
+ static constexpr FieldMetadata_Comm kComm{};
+ void set_comm(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Comm::kFieldId, data, size);
+ }
+ void set_comm(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Comm::kFieldId, chars.data, chars.size);
+ }
+ void set_comm(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Comm::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Group =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SignalGenerateFtraceEvent>;
+
+ static constexpr FieldMetadata_Group kGroup{};
+ void set_group(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Group::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SignalGenerateFtraceEvent>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Result =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SignalGenerateFtraceEvent>;
+
+ static constexpr FieldMetadata_Result kResult{};
+ void set_result(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Result::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Sig =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SignalGenerateFtraceEvent>;
+
+ static constexpr FieldMetadata_Sig kSig{};
+ void set_sig(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Sig::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class SignalDeliverFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ SignalDeliverFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SignalDeliverFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SignalDeliverFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_code() const { return at<1>().valid(); }
+ int32_t code() const { return at<1>().as_int32(); }
+ bool has_sa_flags() const { return at<2>().valid(); }
+ uint64_t sa_flags() const { return at<2>().as_uint64(); }
+ bool has_sig() const { return at<3>().valid(); }
+ int32_t sig() const { return at<3>().as_int32(); }
+};
+
+class SignalDeliverFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = SignalDeliverFtraceEvent_Decoder;
+ enum : int32_t {
+ kCodeFieldNumber = 1,
+ kSaFlagsFieldNumber = 2,
+ kSigFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SignalDeliverFtraceEvent"; }
+
+
+ using FieldMetadata_Code =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SignalDeliverFtraceEvent>;
+
+ static constexpr FieldMetadata_Code kCode{};
+ void set_code(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Code::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SaFlags =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SignalDeliverFtraceEvent>;
+
+ static constexpr FieldMetadata_SaFlags kSaFlags{};
+ void set_sa_flags(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SaFlags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Sig =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SignalDeliverFtraceEvent>;
+
+ static constexpr FieldMetadata_Sig kSig{};
+ void set_sig(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Sig::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/skb.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_SKB_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_SKB_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class KfreeSkbFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ KfreeSkbFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit KfreeSkbFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit KfreeSkbFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_location() const { return at<1>().valid(); }
+ uint64_t location() const { return at<1>().as_uint64(); }
+ bool has_protocol() const { return at<2>().valid(); }
+ uint32_t protocol() const { return at<2>().as_uint32(); }
+ bool has_skbaddr() const { return at<3>().valid(); }
+ uint64_t skbaddr() const { return at<3>().as_uint64(); }
+};
+
+class KfreeSkbFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = KfreeSkbFtraceEvent_Decoder;
+ enum : int32_t {
+ kLocationFieldNumber = 1,
+ kProtocolFieldNumber = 2,
+ kSkbaddrFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.KfreeSkbFtraceEvent"; }
+
+
+ using FieldMetadata_Location =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KfreeSkbFtraceEvent>;
+
+ static constexpr FieldMetadata_Location kLocation{};
+ void set_location(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Location::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Protocol =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ KfreeSkbFtraceEvent>;
+
+ static constexpr FieldMetadata_Protocol kProtocol{};
+ void set_protocol(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Protocol::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Skbaddr =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ KfreeSkbFtraceEvent>;
+
+ static constexpr FieldMetadata_Skbaddr kSkbaddr{};
+ void set_skbaddr(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Skbaddr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/sock.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_SOCK_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_SOCK_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class InetSockSetStateFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/9, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ InetSockSetStateFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit InetSockSetStateFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit InetSockSetStateFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_daddr() const { return at<1>().valid(); }
+ uint32_t daddr() const { return at<1>().as_uint32(); }
+ bool has_dport() const { return at<2>().valid(); }
+ uint32_t dport() const { return at<2>().as_uint32(); }
+ bool has_family() const { return at<3>().valid(); }
+ uint32_t family() const { return at<3>().as_uint32(); }
+ bool has_newstate() const { return at<4>().valid(); }
+ int32_t newstate() const { return at<4>().as_int32(); }
+ bool has_oldstate() const { return at<5>().valid(); }
+ int32_t oldstate() const { return at<5>().as_int32(); }
+ bool has_protocol() const { return at<6>().valid(); }
+ uint32_t protocol() const { return at<6>().as_uint32(); }
+ bool has_saddr() const { return at<7>().valid(); }
+ uint32_t saddr() const { return at<7>().as_uint32(); }
+ bool has_skaddr() const { return at<8>().valid(); }
+ uint64_t skaddr() const { return at<8>().as_uint64(); }
+ bool has_sport() const { return at<9>().valid(); }
+ uint32_t sport() const { return at<9>().as_uint32(); }
+};
+
+class InetSockSetStateFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = InetSockSetStateFtraceEvent_Decoder;
+ enum : int32_t {
+ kDaddrFieldNumber = 1,
+ kDportFieldNumber = 2,
+ kFamilyFieldNumber = 3,
+ kNewstateFieldNumber = 4,
+ kOldstateFieldNumber = 5,
+ kProtocolFieldNumber = 6,
+ kSaddrFieldNumber = 7,
+ kSkaddrFieldNumber = 8,
+ kSportFieldNumber = 9,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.InetSockSetStateFtraceEvent"; }
+
+
+ using FieldMetadata_Daddr =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ InetSockSetStateFtraceEvent>;
+
+ static constexpr FieldMetadata_Daddr kDaddr{};
+ void set_daddr(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Daddr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Dport =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ InetSockSetStateFtraceEvent>;
+
+ static constexpr FieldMetadata_Dport kDport{};
+ void set_dport(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dport::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Family =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ InetSockSetStateFtraceEvent>;
+
+ static constexpr FieldMetadata_Family kFamily{};
+ void set_family(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Family::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Newstate =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ InetSockSetStateFtraceEvent>;
+
+ static constexpr FieldMetadata_Newstate kNewstate{};
+ void set_newstate(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Newstate::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Oldstate =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ InetSockSetStateFtraceEvent>;
+
+ static constexpr FieldMetadata_Oldstate kOldstate{};
+ void set_oldstate(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Oldstate::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Protocol =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ InetSockSetStateFtraceEvent>;
+
+ static constexpr FieldMetadata_Protocol kProtocol{};
+ void set_protocol(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Protocol::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Saddr =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ InetSockSetStateFtraceEvent>;
+
+ static constexpr FieldMetadata_Saddr kSaddr{};
+ void set_saddr(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Saddr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Skaddr =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ InetSockSetStateFtraceEvent>;
+
+ static constexpr FieldMetadata_Skaddr kSkaddr{};
+ void set_skaddr(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Skaddr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Sport =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ InetSockSetStateFtraceEvent>;
+
+ static constexpr FieldMetadata_Sport kSport{};
+ void set_sport(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Sport::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/sync.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_SYNC_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_SYNC_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class SyncWaitFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ SyncWaitFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SyncWaitFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SyncWaitFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars name() const { return at<1>().as_string(); }
+ bool has_status() const { return at<2>().valid(); }
+ int32_t status() const { return at<2>().as_int32(); }
+ bool has_begin() const { return at<3>().valid(); }
+ uint32_t begin() const { return at<3>().as_uint32(); }
+};
+
+class SyncWaitFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = SyncWaitFtraceEvent_Decoder;
+ enum : int32_t {
+ kNameFieldNumber = 1,
+ kStatusFieldNumber = 2,
+ kBeginFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SyncWaitFtraceEvent"; }
+
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ SyncWaitFtraceEvent>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Status =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SyncWaitFtraceEvent>;
+
+ static constexpr FieldMetadata_Status kStatus{};
+ void set_status(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Status::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Begin =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SyncWaitFtraceEvent>;
+
+ static constexpr FieldMetadata_Begin kBegin{};
+ void set_begin(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Begin::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class SyncTimelineFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ SyncTimelineFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SyncTimelineFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SyncTimelineFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars name() const { return at<1>().as_string(); }
+ bool has_value() const { return at<2>().valid(); }
+ ::protozero::ConstChars value() const { return at<2>().as_string(); }
+};
+
+class SyncTimelineFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = SyncTimelineFtraceEvent_Decoder;
+ enum : int32_t {
+ kNameFieldNumber = 1,
+ kValueFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SyncTimelineFtraceEvent"; }
+
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ SyncTimelineFtraceEvent>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Value =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ SyncTimelineFtraceEvent>;
+
+ static constexpr FieldMetadata_Value kValue{};
+ void set_value(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Value::kFieldId, data, size);
+ }
+ void set_value(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Value::kFieldId, chars.data, chars.size);
+ }
+ void set_value(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Value::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class SyncPtFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ SyncPtFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SyncPtFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SyncPtFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_timeline() const { return at<1>().valid(); }
+ ::protozero::ConstChars timeline() const { return at<1>().as_string(); }
+ bool has_value() const { return at<2>().valid(); }
+ ::protozero::ConstChars value() const { return at<2>().as_string(); }
+};
+
+class SyncPtFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = SyncPtFtraceEvent_Decoder;
+ enum : int32_t {
+ kTimelineFieldNumber = 1,
+ kValueFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SyncPtFtraceEvent"; }
+
+
+ using FieldMetadata_Timeline =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ SyncPtFtraceEvent>;
+
+ static constexpr FieldMetadata_Timeline kTimeline{};
+ void set_timeline(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Timeline::kFieldId, data, size);
+ }
+ void set_timeline(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Timeline::kFieldId, chars.data, chars.size);
+ }
+ void set_timeline(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Timeline::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Value =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ SyncPtFtraceEvent>;
+
+ static constexpr FieldMetadata_Value kValue{};
+ void set_value(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Value::kFieldId, data, size);
+ }
+ void set_value(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Value::kFieldId, chars.data, chars.size);
+ }
+ void set_value(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Value::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/synthetic.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_SYNTHETIC_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_SYNTHETIC_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class SuspendResumeMinimalFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ SuspendResumeMinimalFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SuspendResumeMinimalFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SuspendResumeMinimalFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_start() const { return at<1>().valid(); }
+ uint32_t start() const { return at<1>().as_uint32(); }
+};
+
+class SuspendResumeMinimalFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = SuspendResumeMinimalFtraceEvent_Decoder;
+ enum : int32_t {
+ kStartFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SuspendResumeMinimalFtraceEvent"; }
+
+
+ using FieldMetadata_Start =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SuspendResumeMinimalFtraceEvent>;
+
+ static constexpr FieldMetadata_Start kStart{};
+ void set_start(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Start::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class RssStatThrottledFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ RssStatThrottledFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit RssStatThrottledFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit RssStatThrottledFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_curr() const { return at<1>().valid(); }
+ uint32_t curr() const { return at<1>().as_uint32(); }
+ bool has_member() const { return at<2>().valid(); }
+ int32_t member() const { return at<2>().as_int32(); }
+ bool has_mm_id() const { return at<3>().valid(); }
+ uint32_t mm_id() const { return at<3>().as_uint32(); }
+ bool has_size() const { return at<4>().valid(); }
+ int64_t size() const { return at<4>().as_int64(); }
+};
+
+class RssStatThrottledFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = RssStatThrottledFtraceEvent_Decoder;
+ enum : int32_t {
+ kCurrFieldNumber = 1,
+ kMemberFieldNumber = 2,
+ kMmIdFieldNumber = 3,
+ kSizeFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.RssStatThrottledFtraceEvent"; }
+
+
+ using FieldMetadata_Curr =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ RssStatThrottledFtraceEvent>;
+
+ static constexpr FieldMetadata_Curr kCurr{};
+ void set_curr(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Curr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Member =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ RssStatThrottledFtraceEvent>;
+
+ static constexpr FieldMetadata_Member kMember{};
+ void set_member(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Member::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MmId =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ RssStatThrottledFtraceEvent>;
+
+ static constexpr FieldMetadata_MmId kMmId{};
+ void set_mm_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MmId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Size =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ RssStatThrottledFtraceEvent>;
+
+ static constexpr FieldMetadata_Size kSize{};
+ void set_size(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Size::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/systrace.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_SYSTRACE_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_SYSTRACE_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class ZeroFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ZeroFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ZeroFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ZeroFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_flag() const { return at<1>().valid(); }
+ int32_t flag() const { return at<1>().as_int32(); }
+ bool has_name() const { return at<2>().valid(); }
+ ::protozero::ConstChars name() const { return at<2>().as_string(); }
+ bool has_pid() const { return at<3>().valid(); }
+ int32_t pid() const { return at<3>().as_int32(); }
+ bool has_value() const { return at<4>().valid(); }
+ int64_t value() const { return at<4>().as_int64(); }
+};
+
+class ZeroFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = ZeroFtraceEvent_Decoder;
+ enum : int32_t {
+ kFlagFieldNumber = 1,
+ kNameFieldNumber = 2,
+ kPidFieldNumber = 3,
+ kValueFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ZeroFtraceEvent"; }
+
+
+ using FieldMetadata_Flag =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ ZeroFtraceEvent>;
+
+ static constexpr FieldMetadata_Flag kFlag{};
+ void set_flag(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Flag::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ZeroFtraceEvent>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ ZeroFtraceEvent>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Value =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ ZeroFtraceEvent>;
+
+ static constexpr FieldMetadata_Value kValue{};
+ void set_value(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Value::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/task.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_TASK_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_TASK_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class TaskRenameFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ TaskRenameFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TaskRenameFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TaskRenameFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_pid() const { return at<1>().valid(); }
+ int32_t pid() const { return at<1>().as_int32(); }
+ bool has_oldcomm() const { return at<2>().valid(); }
+ ::protozero::ConstChars oldcomm() const { return at<2>().as_string(); }
+ bool has_newcomm() const { return at<3>().valid(); }
+ ::protozero::ConstChars newcomm() const { return at<3>().as_string(); }
+ bool has_oom_score_adj() const { return at<4>().valid(); }
+ int32_t oom_score_adj() const { return at<4>().as_int32(); }
+};
+
+class TaskRenameFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = TaskRenameFtraceEvent_Decoder;
+ enum : int32_t {
+ kPidFieldNumber = 1,
+ kOldcommFieldNumber = 2,
+ kNewcommFieldNumber = 3,
+ kOomScoreAdjFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TaskRenameFtraceEvent"; }
+
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ TaskRenameFtraceEvent>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Oldcomm =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ TaskRenameFtraceEvent>;
+
+ static constexpr FieldMetadata_Oldcomm kOldcomm{};
+ void set_oldcomm(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Oldcomm::kFieldId, data, size);
+ }
+ void set_oldcomm(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Oldcomm::kFieldId, chars.data, chars.size);
+ }
+ void set_oldcomm(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Oldcomm::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Newcomm =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ TaskRenameFtraceEvent>;
+
+ static constexpr FieldMetadata_Newcomm kNewcomm{};
+ void set_newcomm(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Newcomm::kFieldId, data, size);
+ }
+ void set_newcomm(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Newcomm::kFieldId, chars.data, chars.size);
+ }
+ void set_newcomm(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Newcomm::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_OomScoreAdj =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ TaskRenameFtraceEvent>;
+
+ static constexpr FieldMetadata_OomScoreAdj kOomScoreAdj{};
+ void set_oom_score_adj(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_OomScoreAdj::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class TaskNewtaskFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ TaskNewtaskFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TaskNewtaskFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TaskNewtaskFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_pid() const { return at<1>().valid(); }
+ int32_t pid() const { return at<1>().as_int32(); }
+ bool has_comm() const { return at<2>().valid(); }
+ ::protozero::ConstChars comm() const { return at<2>().as_string(); }
+ bool has_clone_flags() const { return at<3>().valid(); }
+ uint64_t clone_flags() const { return at<3>().as_uint64(); }
+ bool has_oom_score_adj() const { return at<4>().valid(); }
+ int32_t oom_score_adj() const { return at<4>().as_int32(); }
+};
+
+class TaskNewtaskFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = TaskNewtaskFtraceEvent_Decoder;
+ enum : int32_t {
+ kPidFieldNumber = 1,
+ kCommFieldNumber = 2,
+ kCloneFlagsFieldNumber = 3,
+ kOomScoreAdjFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TaskNewtaskFtraceEvent"; }
+
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ TaskNewtaskFtraceEvent>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Comm =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ TaskNewtaskFtraceEvent>;
+
+ static constexpr FieldMetadata_Comm kComm{};
+ void set_comm(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Comm::kFieldId, data, size);
+ }
+ void set_comm(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Comm::kFieldId, chars.data, chars.size);
+ }
+ void set_comm(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Comm::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CloneFlags =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TaskNewtaskFtraceEvent>;
+
+ static constexpr FieldMetadata_CloneFlags kCloneFlags{};
+ void set_clone_flags(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CloneFlags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_OomScoreAdj =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ TaskNewtaskFtraceEvent>;
+
+ static constexpr FieldMetadata_OomScoreAdj kOomScoreAdj{};
+ void set_oom_score_adj(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_OomScoreAdj::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/tcp.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_TCP_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_TCP_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class TcpRetransmitSkbFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/7, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ TcpRetransmitSkbFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TcpRetransmitSkbFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TcpRetransmitSkbFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_daddr() const { return at<1>().valid(); }
+ uint32_t daddr() const { return at<1>().as_uint32(); }
+ bool has_dport() const { return at<2>().valid(); }
+ uint32_t dport() const { return at<2>().as_uint32(); }
+ bool has_saddr() const { return at<3>().valid(); }
+ uint32_t saddr() const { return at<3>().as_uint32(); }
+ bool has_skaddr() const { return at<4>().valid(); }
+ uint64_t skaddr() const { return at<4>().as_uint64(); }
+ bool has_skbaddr() const { return at<5>().valid(); }
+ uint64_t skbaddr() const { return at<5>().as_uint64(); }
+ bool has_sport() const { return at<6>().valid(); }
+ uint32_t sport() const { return at<6>().as_uint32(); }
+ bool has_state() const { return at<7>().valid(); }
+ int32_t state() const { return at<7>().as_int32(); }
+};
+
+class TcpRetransmitSkbFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = TcpRetransmitSkbFtraceEvent_Decoder;
+ enum : int32_t {
+ kDaddrFieldNumber = 1,
+ kDportFieldNumber = 2,
+ kSaddrFieldNumber = 3,
+ kSkaddrFieldNumber = 4,
+ kSkbaddrFieldNumber = 5,
+ kSportFieldNumber = 6,
+ kStateFieldNumber = 7,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TcpRetransmitSkbFtraceEvent"; }
+
+
+ using FieldMetadata_Daddr =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TcpRetransmitSkbFtraceEvent>;
+
+ static constexpr FieldMetadata_Daddr kDaddr{};
+ void set_daddr(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Daddr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Dport =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TcpRetransmitSkbFtraceEvent>;
+
+ static constexpr FieldMetadata_Dport kDport{};
+ void set_dport(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dport::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Saddr =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TcpRetransmitSkbFtraceEvent>;
+
+ static constexpr FieldMetadata_Saddr kSaddr{};
+ void set_saddr(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Saddr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Skaddr =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TcpRetransmitSkbFtraceEvent>;
+
+ static constexpr FieldMetadata_Skaddr kSkaddr{};
+ void set_skaddr(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Skaddr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Skbaddr =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TcpRetransmitSkbFtraceEvent>;
+
+ static constexpr FieldMetadata_Skbaddr kSkbaddr{};
+ void set_skbaddr(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Skbaddr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Sport =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TcpRetransmitSkbFtraceEvent>;
+
+ static constexpr FieldMetadata_Sport kSport{};
+ void set_sport(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Sport::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_State =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ TcpRetransmitSkbFtraceEvent>;
+
+ static constexpr FieldMetadata_State kState{};
+ void set_state(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_State::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/thermal.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_THERMAL_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_THERMAL_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class CdevUpdateFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ CdevUpdateFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit CdevUpdateFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit CdevUpdateFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_target() const { return at<1>().valid(); }
+ uint64_t target() const { return at<1>().as_uint64(); }
+ bool has_type() const { return at<2>().valid(); }
+ ::protozero::ConstChars type() const { return at<2>().as_string(); }
+};
+
+class CdevUpdateFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = CdevUpdateFtraceEvent_Decoder;
+ enum : int32_t {
+ kTargetFieldNumber = 1,
+ kTypeFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.CdevUpdateFtraceEvent"; }
+
+
+ using FieldMetadata_Target =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ CdevUpdateFtraceEvent>;
+
+ static constexpr FieldMetadata_Target kTarget{};
+ void set_target(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Target::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Type =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ CdevUpdateFtraceEvent>;
+
+ static constexpr FieldMetadata_Type kType{};
+ void set_type(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Type::kFieldId, data, size);
+ }
+ void set_type(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Type::kFieldId, chars.data, chars.size);
+ }
+ void set_type(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Type::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class ThermalTemperatureFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ThermalTemperatureFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ThermalTemperatureFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ThermalTemperatureFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_id() const { return at<1>().valid(); }
+ int32_t id() const { return at<1>().as_int32(); }
+ bool has_temp() const { return at<2>().valid(); }
+ int32_t temp() const { return at<2>().as_int32(); }
+ bool has_temp_prev() const { return at<3>().valid(); }
+ int32_t temp_prev() const { return at<3>().as_int32(); }
+ bool has_thermal_zone() const { return at<4>().valid(); }
+ ::protozero::ConstChars thermal_zone() const { return at<4>().as_string(); }
+};
+
+class ThermalTemperatureFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = ThermalTemperatureFtraceEvent_Decoder;
+ enum : int32_t {
+ kIdFieldNumber = 1,
+ kTempFieldNumber = 2,
+ kTempPrevFieldNumber = 3,
+ kThermalZoneFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ThermalTemperatureFtraceEvent"; }
+
+
+ using FieldMetadata_Id =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ ThermalTemperatureFtraceEvent>;
+
+ static constexpr FieldMetadata_Id kId{};
+ void set_id(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Id::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Temp =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ ThermalTemperatureFtraceEvent>;
+
+ static constexpr FieldMetadata_Temp kTemp{};
+ void set_temp(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Temp::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TempPrev =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ ThermalTemperatureFtraceEvent>;
+
+ static constexpr FieldMetadata_TempPrev kTempPrev{};
+ void set_temp_prev(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TempPrev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ThermalZone =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ThermalTemperatureFtraceEvent>;
+
+ static constexpr FieldMetadata_ThermalZone kThermalZone{};
+ void set_thermal_zone(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_ThermalZone::kFieldId, data, size);
+ }
+ void set_thermal_zone(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_ThermalZone::kFieldId, chars.data, chars.size);
+ }
+ void set_thermal_zone(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_ThermalZone::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/trusty.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_TRUSTY_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_TRUSTY_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class TrustyEnqueueNopFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ TrustyEnqueueNopFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TrustyEnqueueNopFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TrustyEnqueueNopFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_arg1() const { return at<1>().valid(); }
+ uint32_t arg1() const { return at<1>().as_uint32(); }
+ bool has_arg2() const { return at<2>().valid(); }
+ uint32_t arg2() const { return at<2>().as_uint32(); }
+ bool has_arg3() const { return at<3>().valid(); }
+ uint32_t arg3() const { return at<3>().as_uint32(); }
+};
+
+class TrustyEnqueueNopFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = TrustyEnqueueNopFtraceEvent_Decoder;
+ enum : int32_t {
+ kArg1FieldNumber = 1,
+ kArg2FieldNumber = 2,
+ kArg3FieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TrustyEnqueueNopFtraceEvent"; }
+
+
+ using FieldMetadata_Arg1 =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TrustyEnqueueNopFtraceEvent>;
+
+ static constexpr FieldMetadata_Arg1 kArg1{};
+ void set_arg1(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Arg1::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Arg2 =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TrustyEnqueueNopFtraceEvent>;
+
+ static constexpr FieldMetadata_Arg2 kArg2{};
+ void set_arg2(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Arg2::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Arg3 =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TrustyEnqueueNopFtraceEvent>;
+
+ static constexpr FieldMetadata_Arg3 kArg3{};
+ void set_arg3(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Arg3::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class TrustyIpcRxFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ TrustyIpcRxFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TrustyIpcRxFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TrustyIpcRxFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_buf_id() const { return at<1>().valid(); }
+ uint64_t buf_id() const { return at<1>().as_uint64(); }
+ bool has_chan() const { return at<2>().valid(); }
+ uint32_t chan() const { return at<2>().as_uint32(); }
+ bool has_srv_name() const { return at<3>().valid(); }
+ ::protozero::ConstChars srv_name() const { return at<3>().as_string(); }
+};
+
+class TrustyIpcRxFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = TrustyIpcRxFtraceEvent_Decoder;
+ enum : int32_t {
+ kBufIdFieldNumber = 1,
+ kChanFieldNumber = 2,
+ kSrvNameFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TrustyIpcRxFtraceEvent"; }
+
+
+ using FieldMetadata_BufId =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TrustyIpcRxFtraceEvent>;
+
+ static constexpr FieldMetadata_BufId kBufId{};
+ void set_buf_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BufId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Chan =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TrustyIpcRxFtraceEvent>;
+
+ static constexpr FieldMetadata_Chan kChan{};
+ void set_chan(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Chan::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SrvName =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ TrustyIpcRxFtraceEvent>;
+
+ static constexpr FieldMetadata_SrvName kSrvName{};
+ void set_srv_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_SrvName::kFieldId, data, size);
+ }
+ void set_srv_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_SrvName::kFieldId, chars.data, chars.size);
+ }
+ void set_srv_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_SrvName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class TrustyIpcReadEndFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ TrustyIpcReadEndFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TrustyIpcReadEndFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TrustyIpcReadEndFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_buf_id() const { return at<1>().valid(); }
+ uint64_t buf_id() const { return at<1>().as_uint64(); }
+ bool has_chan() const { return at<2>().valid(); }
+ uint32_t chan() const { return at<2>().as_uint32(); }
+ bool has_len_or_err() const { return at<3>().valid(); }
+ int32_t len_or_err() const { return at<3>().as_int32(); }
+ bool has_shm_cnt() const { return at<4>().valid(); }
+ uint64_t shm_cnt() const { return at<4>().as_uint64(); }
+ bool has_srv_name() const { return at<5>().valid(); }
+ ::protozero::ConstChars srv_name() const { return at<5>().as_string(); }
+};
+
+class TrustyIpcReadEndFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = TrustyIpcReadEndFtraceEvent_Decoder;
+ enum : int32_t {
+ kBufIdFieldNumber = 1,
+ kChanFieldNumber = 2,
+ kLenOrErrFieldNumber = 3,
+ kShmCntFieldNumber = 4,
+ kSrvNameFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TrustyIpcReadEndFtraceEvent"; }
+
+
+ using FieldMetadata_BufId =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TrustyIpcReadEndFtraceEvent>;
+
+ static constexpr FieldMetadata_BufId kBufId{};
+ void set_buf_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BufId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Chan =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TrustyIpcReadEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Chan kChan{};
+ void set_chan(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Chan::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_LenOrErr =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ TrustyIpcReadEndFtraceEvent>;
+
+ static constexpr FieldMetadata_LenOrErr kLenOrErr{};
+ void set_len_or_err(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_LenOrErr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ShmCnt =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TrustyIpcReadEndFtraceEvent>;
+
+ static constexpr FieldMetadata_ShmCnt kShmCnt{};
+ void set_shm_cnt(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ShmCnt::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SrvName =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ TrustyIpcReadEndFtraceEvent>;
+
+ static constexpr FieldMetadata_SrvName kSrvName{};
+ void set_srv_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_SrvName::kFieldId, data, size);
+ }
+ void set_srv_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_SrvName::kFieldId, chars.data, chars.size);
+ }
+ void set_srv_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_SrvName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class TrustyIpcReadFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ TrustyIpcReadFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TrustyIpcReadFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TrustyIpcReadFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_chan() const { return at<1>().valid(); }
+ uint32_t chan() const { return at<1>().as_uint32(); }
+ bool has_srv_name() const { return at<2>().valid(); }
+ ::protozero::ConstChars srv_name() const { return at<2>().as_string(); }
+};
+
+class TrustyIpcReadFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = TrustyIpcReadFtraceEvent_Decoder;
+ enum : int32_t {
+ kChanFieldNumber = 1,
+ kSrvNameFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TrustyIpcReadFtraceEvent"; }
+
+
+ using FieldMetadata_Chan =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TrustyIpcReadFtraceEvent>;
+
+ static constexpr FieldMetadata_Chan kChan{};
+ void set_chan(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Chan::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SrvName =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ TrustyIpcReadFtraceEvent>;
+
+ static constexpr FieldMetadata_SrvName kSrvName{};
+ void set_srv_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_SrvName::kFieldId, data, size);
+ }
+ void set_srv_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_SrvName::kFieldId, chars.data, chars.size);
+ }
+ void set_srv_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_SrvName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class TrustyIpcPollFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ TrustyIpcPollFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TrustyIpcPollFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TrustyIpcPollFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_chan() const { return at<1>().valid(); }
+ uint32_t chan() const { return at<1>().as_uint32(); }
+ bool has_poll_mask() const { return at<2>().valid(); }
+ uint32_t poll_mask() const { return at<2>().as_uint32(); }
+ bool has_srv_name() const { return at<3>().valid(); }
+ ::protozero::ConstChars srv_name() const { return at<3>().as_string(); }
+};
+
+class TrustyIpcPollFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = TrustyIpcPollFtraceEvent_Decoder;
+ enum : int32_t {
+ kChanFieldNumber = 1,
+ kPollMaskFieldNumber = 2,
+ kSrvNameFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TrustyIpcPollFtraceEvent"; }
+
+
+ using FieldMetadata_Chan =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TrustyIpcPollFtraceEvent>;
+
+ static constexpr FieldMetadata_Chan kChan{};
+ void set_chan(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Chan::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PollMask =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TrustyIpcPollFtraceEvent>;
+
+ static constexpr FieldMetadata_PollMask kPollMask{};
+ void set_poll_mask(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PollMask::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SrvName =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ TrustyIpcPollFtraceEvent>;
+
+ static constexpr FieldMetadata_SrvName kSrvName{};
+ void set_srv_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_SrvName::kFieldId, data, size);
+ }
+ void set_srv_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_SrvName::kFieldId, chars.data, chars.size);
+ }
+ void set_srv_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_SrvName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class TrustyIpcWriteFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/6, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ TrustyIpcWriteFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TrustyIpcWriteFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TrustyIpcWriteFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_buf_id() const { return at<1>().valid(); }
+ uint64_t buf_id() const { return at<1>().as_uint64(); }
+ bool has_chan() const { return at<2>().valid(); }
+ uint32_t chan() const { return at<2>().as_uint32(); }
+ bool has_kind_shm() const { return at<3>().valid(); }
+ int32_t kind_shm() const { return at<3>().as_int32(); }
+ bool has_len_or_err() const { return at<4>().valid(); }
+ int32_t len_or_err() const { return at<4>().as_int32(); }
+ bool has_shm_cnt() const { return at<5>().valid(); }
+ uint64_t shm_cnt() const { return at<5>().as_uint64(); }
+ bool has_srv_name() const { return at<6>().valid(); }
+ ::protozero::ConstChars srv_name() const { return at<6>().as_string(); }
+};
+
+class TrustyIpcWriteFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = TrustyIpcWriteFtraceEvent_Decoder;
+ enum : int32_t {
+ kBufIdFieldNumber = 1,
+ kChanFieldNumber = 2,
+ kKindShmFieldNumber = 3,
+ kLenOrErrFieldNumber = 4,
+ kShmCntFieldNumber = 5,
+ kSrvNameFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TrustyIpcWriteFtraceEvent"; }
+
+
+ using FieldMetadata_BufId =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TrustyIpcWriteFtraceEvent>;
+
+ static constexpr FieldMetadata_BufId kBufId{};
+ void set_buf_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BufId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Chan =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TrustyIpcWriteFtraceEvent>;
+
+ static constexpr FieldMetadata_Chan kChan{};
+ void set_chan(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Chan::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_KindShm =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ TrustyIpcWriteFtraceEvent>;
+
+ static constexpr FieldMetadata_KindShm kKindShm{};
+ void set_kind_shm(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_KindShm::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_LenOrErr =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ TrustyIpcWriteFtraceEvent>;
+
+ static constexpr FieldMetadata_LenOrErr kLenOrErr{};
+ void set_len_or_err(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_LenOrErr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ShmCnt =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TrustyIpcWriteFtraceEvent>;
+
+ static constexpr FieldMetadata_ShmCnt kShmCnt{};
+ void set_shm_cnt(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ShmCnt::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SrvName =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ TrustyIpcWriteFtraceEvent>;
+
+ static constexpr FieldMetadata_SrvName kSrvName{};
+ void set_srv_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_SrvName::kFieldId, data, size);
+ }
+ void set_srv_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_SrvName::kFieldId, chars.data, chars.size);
+ }
+ void set_srv_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_SrvName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class TrustyIpcConnectEndFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ TrustyIpcConnectEndFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TrustyIpcConnectEndFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TrustyIpcConnectEndFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_chan() const { return at<1>().valid(); }
+ uint32_t chan() const { return at<1>().as_uint32(); }
+ bool has_err() const { return at<2>().valid(); }
+ int32_t err() const { return at<2>().as_int32(); }
+ bool has_state() const { return at<3>().valid(); }
+ int32_t state() const { return at<3>().as_int32(); }
+};
+
+class TrustyIpcConnectEndFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = TrustyIpcConnectEndFtraceEvent_Decoder;
+ enum : int32_t {
+ kChanFieldNumber = 1,
+ kErrFieldNumber = 2,
+ kStateFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TrustyIpcConnectEndFtraceEvent"; }
+
+
+ using FieldMetadata_Chan =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TrustyIpcConnectEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Chan kChan{};
+ void set_chan(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Chan::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Err =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ TrustyIpcConnectEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Err kErr{};
+ void set_err(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Err::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_State =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ TrustyIpcConnectEndFtraceEvent>;
+
+ static constexpr FieldMetadata_State kState{};
+ void set_state(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_State::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class TrustyIpcConnectFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ TrustyIpcConnectFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TrustyIpcConnectFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TrustyIpcConnectFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_chan() const { return at<1>().valid(); }
+ uint32_t chan() const { return at<1>().as_uint32(); }
+ bool has_port() const { return at<2>().valid(); }
+ ::protozero::ConstChars port() const { return at<2>().as_string(); }
+ bool has_state() const { return at<3>().valid(); }
+ int32_t state() const { return at<3>().as_int32(); }
+};
+
+class TrustyIpcConnectFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = TrustyIpcConnectFtraceEvent_Decoder;
+ enum : int32_t {
+ kChanFieldNumber = 1,
+ kPortFieldNumber = 2,
+ kStateFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TrustyIpcConnectFtraceEvent"; }
+
+
+ using FieldMetadata_Chan =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TrustyIpcConnectFtraceEvent>;
+
+ static constexpr FieldMetadata_Chan kChan{};
+ void set_chan(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Chan::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Port =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ TrustyIpcConnectFtraceEvent>;
+
+ static constexpr FieldMetadata_Port kPort{};
+ void set_port(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Port::kFieldId, data, size);
+ }
+ void set_port(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Port::kFieldId, chars.data, chars.size);
+ }
+ void set_port(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Port::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_State =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ TrustyIpcConnectFtraceEvent>;
+
+ static constexpr FieldMetadata_State kState{};
+ void set_state(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_State::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class TrustyIpcHandleEventFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ TrustyIpcHandleEventFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TrustyIpcHandleEventFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TrustyIpcHandleEventFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_chan() const { return at<1>().valid(); }
+ uint32_t chan() const { return at<1>().as_uint32(); }
+ bool has_event_id() const { return at<2>().valid(); }
+ uint32_t event_id() const { return at<2>().as_uint32(); }
+ bool has_srv_name() const { return at<3>().valid(); }
+ ::protozero::ConstChars srv_name() const { return at<3>().as_string(); }
+};
+
+class TrustyIpcHandleEventFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = TrustyIpcHandleEventFtraceEvent_Decoder;
+ enum : int32_t {
+ kChanFieldNumber = 1,
+ kEventIdFieldNumber = 2,
+ kSrvNameFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TrustyIpcHandleEventFtraceEvent"; }
+
+
+ using FieldMetadata_Chan =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TrustyIpcHandleEventFtraceEvent>;
+
+ static constexpr FieldMetadata_Chan kChan{};
+ void set_chan(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Chan::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_EventId =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TrustyIpcHandleEventFtraceEvent>;
+
+ static constexpr FieldMetadata_EventId kEventId{};
+ void set_event_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_EventId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SrvName =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ TrustyIpcHandleEventFtraceEvent>;
+
+ static constexpr FieldMetadata_SrvName kSrvName{};
+ void set_srv_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_SrvName::kFieldId, data, size);
+ }
+ void set_srv_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_SrvName::kFieldId, chars.data, chars.size);
+ }
+ void set_srv_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_SrvName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class TrustyIrqFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ TrustyIrqFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TrustyIrqFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TrustyIrqFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_irq() const { return at<1>().valid(); }
+ int32_t irq() const { return at<1>().as_int32(); }
+};
+
+class TrustyIrqFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = TrustyIrqFtraceEvent_Decoder;
+ enum : int32_t {
+ kIrqFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TrustyIrqFtraceEvent"; }
+
+
+ using FieldMetadata_Irq =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ TrustyIrqFtraceEvent>;
+
+ static constexpr FieldMetadata_Irq kIrq{};
+ void set_irq(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Irq::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class TrustyReclaimMemoryDoneFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ TrustyReclaimMemoryDoneFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TrustyReclaimMemoryDoneFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TrustyReclaimMemoryDoneFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_id() const { return at<1>().valid(); }
+ uint64_t id() const { return at<1>().as_uint64(); }
+ bool has_ret() const { return at<2>().valid(); }
+ int32_t ret() const { return at<2>().as_int32(); }
+};
+
+class TrustyReclaimMemoryDoneFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = TrustyReclaimMemoryDoneFtraceEvent_Decoder;
+ enum : int32_t {
+ kIdFieldNumber = 1,
+ kRetFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TrustyReclaimMemoryDoneFtraceEvent"; }
+
+
+ using FieldMetadata_Id =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TrustyReclaimMemoryDoneFtraceEvent>;
+
+ static constexpr FieldMetadata_Id kId{};
+ void set_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Id::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ret =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ TrustyReclaimMemoryDoneFtraceEvent>;
+
+ static constexpr FieldMetadata_Ret kRet{};
+ void set_ret(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ret::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class TrustyReclaimMemoryFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ TrustyReclaimMemoryFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TrustyReclaimMemoryFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TrustyReclaimMemoryFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_id() const { return at<1>().valid(); }
+ uint64_t id() const { return at<1>().as_uint64(); }
+};
+
+class TrustyReclaimMemoryFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = TrustyReclaimMemoryFtraceEvent_Decoder;
+ enum : int32_t {
+ kIdFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TrustyReclaimMemoryFtraceEvent"; }
+
+
+ using FieldMetadata_Id =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TrustyReclaimMemoryFtraceEvent>;
+
+ static constexpr FieldMetadata_Id kId{};
+ void set_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Id::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class TrustyShareMemoryDoneFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ TrustyShareMemoryDoneFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TrustyShareMemoryDoneFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TrustyShareMemoryDoneFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_handle() const { return at<1>().valid(); }
+ uint64_t handle() const { return at<1>().as_uint64(); }
+ bool has_len() const { return at<2>().valid(); }
+ uint64_t len() const { return at<2>().as_uint64(); }
+ bool has_lend() const { return at<3>().valid(); }
+ uint32_t lend() const { return at<3>().as_uint32(); }
+ bool has_nents() const { return at<4>().valid(); }
+ uint32_t nents() const { return at<4>().as_uint32(); }
+ bool has_ret() const { return at<5>().valid(); }
+ int32_t ret() const { return at<5>().as_int32(); }
+};
+
+class TrustyShareMemoryDoneFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = TrustyShareMemoryDoneFtraceEvent_Decoder;
+ enum : int32_t {
+ kHandleFieldNumber = 1,
+ kLenFieldNumber = 2,
+ kLendFieldNumber = 3,
+ kNentsFieldNumber = 4,
+ kRetFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TrustyShareMemoryDoneFtraceEvent"; }
+
+
+ using FieldMetadata_Handle =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TrustyShareMemoryDoneFtraceEvent>;
+
+ static constexpr FieldMetadata_Handle kHandle{};
+ void set_handle(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Handle::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TrustyShareMemoryDoneFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Lend =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TrustyShareMemoryDoneFtraceEvent>;
+
+ static constexpr FieldMetadata_Lend kLend{};
+ void set_lend(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Lend::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Nents =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TrustyShareMemoryDoneFtraceEvent>;
+
+ static constexpr FieldMetadata_Nents kNents{};
+ void set_nents(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Nents::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ret =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ TrustyShareMemoryDoneFtraceEvent>;
+
+ static constexpr FieldMetadata_Ret kRet{};
+ void set_ret(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ret::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class TrustyShareMemoryFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ TrustyShareMemoryFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TrustyShareMemoryFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TrustyShareMemoryFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_len() const { return at<1>().valid(); }
+ uint64_t len() const { return at<1>().as_uint64(); }
+ bool has_lend() const { return at<2>().valid(); }
+ uint32_t lend() const { return at<2>().as_uint32(); }
+ bool has_nents() const { return at<3>().valid(); }
+ uint32_t nents() const { return at<3>().as_uint32(); }
+};
+
+class TrustyShareMemoryFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = TrustyShareMemoryFtraceEvent_Decoder;
+ enum : int32_t {
+ kLenFieldNumber = 1,
+ kLendFieldNumber = 2,
+ kNentsFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TrustyShareMemoryFtraceEvent"; }
+
+
+ using FieldMetadata_Len =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TrustyShareMemoryFtraceEvent>;
+
+ static constexpr FieldMetadata_Len kLen{};
+ void set_len(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Len::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Lend =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TrustyShareMemoryFtraceEvent>;
+
+ static constexpr FieldMetadata_Lend kLend{};
+ void set_lend(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Lend::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Nents =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TrustyShareMemoryFtraceEvent>;
+
+ static constexpr FieldMetadata_Nents kNents{};
+ void set_nents(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Nents::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class TrustyStdCall32DoneFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ TrustyStdCall32DoneFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TrustyStdCall32DoneFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TrustyStdCall32DoneFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_ret() const { return at<1>().valid(); }
+ int64_t ret() const { return at<1>().as_int64(); }
+};
+
+class TrustyStdCall32DoneFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = TrustyStdCall32DoneFtraceEvent_Decoder;
+ enum : int32_t {
+ kRetFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TrustyStdCall32DoneFtraceEvent"; }
+
+
+ using FieldMetadata_Ret =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ TrustyStdCall32DoneFtraceEvent>;
+
+ static constexpr FieldMetadata_Ret kRet{};
+ void set_ret(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ret::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class TrustyStdCall32FtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ TrustyStdCall32FtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TrustyStdCall32FtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TrustyStdCall32FtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_r0() const { return at<1>().valid(); }
+ uint64_t r0() const { return at<1>().as_uint64(); }
+ bool has_r1() const { return at<2>().valid(); }
+ uint64_t r1() const { return at<2>().as_uint64(); }
+ bool has_r2() const { return at<3>().valid(); }
+ uint64_t r2() const { return at<3>().as_uint64(); }
+ bool has_r3() const { return at<4>().valid(); }
+ uint64_t r3() const { return at<4>().as_uint64(); }
+};
+
+class TrustyStdCall32FtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = TrustyStdCall32FtraceEvent_Decoder;
+ enum : int32_t {
+ kR0FieldNumber = 1,
+ kR1FieldNumber = 2,
+ kR2FieldNumber = 3,
+ kR3FieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TrustyStdCall32FtraceEvent"; }
+
+
+ using FieldMetadata_R0 =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TrustyStdCall32FtraceEvent>;
+
+ static constexpr FieldMetadata_R0 kR0{};
+ void set_r0(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_R0::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_R1 =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TrustyStdCall32FtraceEvent>;
+
+ static constexpr FieldMetadata_R1 kR1{};
+ void set_r1(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_R1::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_R2 =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TrustyStdCall32FtraceEvent>;
+
+ static constexpr FieldMetadata_R2 kR2{};
+ void set_r2(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_R2::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_R3 =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TrustyStdCall32FtraceEvent>;
+
+ static constexpr FieldMetadata_R3 kR3{};
+ void set_r3(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_R3::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class TrustySmcDoneFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ TrustySmcDoneFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TrustySmcDoneFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TrustySmcDoneFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_ret() const { return at<1>().valid(); }
+ uint64_t ret() const { return at<1>().as_uint64(); }
+};
+
+class TrustySmcDoneFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = TrustySmcDoneFtraceEvent_Decoder;
+ enum : int32_t {
+ kRetFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TrustySmcDoneFtraceEvent"; }
+
+
+ using FieldMetadata_Ret =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TrustySmcDoneFtraceEvent>;
+
+ static constexpr FieldMetadata_Ret kRet{};
+ void set_ret(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ret::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class TrustySmcFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ TrustySmcFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TrustySmcFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TrustySmcFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_r0() const { return at<1>().valid(); }
+ uint64_t r0() const { return at<1>().as_uint64(); }
+ bool has_r1() const { return at<2>().valid(); }
+ uint64_t r1() const { return at<2>().as_uint64(); }
+ bool has_r2() const { return at<3>().valid(); }
+ uint64_t r2() const { return at<3>().as_uint64(); }
+ bool has_r3() const { return at<4>().valid(); }
+ uint64_t r3() const { return at<4>().as_uint64(); }
+};
+
+class TrustySmcFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = TrustySmcFtraceEvent_Decoder;
+ enum : int32_t {
+ kR0FieldNumber = 1,
+ kR1FieldNumber = 2,
+ kR2FieldNumber = 3,
+ kR3FieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TrustySmcFtraceEvent"; }
+
+
+ using FieldMetadata_R0 =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TrustySmcFtraceEvent>;
+
+ static constexpr FieldMetadata_R0 kR0{};
+ void set_r0(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_R0::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_R1 =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TrustySmcFtraceEvent>;
+
+ static constexpr FieldMetadata_R1 kR1{};
+ void set_r1(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_R1::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_R2 =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TrustySmcFtraceEvent>;
+
+ static constexpr FieldMetadata_R2 kR2{};
+ void set_r2(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_R2::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_R3 =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TrustySmcFtraceEvent>;
+
+ static constexpr FieldMetadata_R3 kR3{};
+ void set_r3(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_R3::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/ufs.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_UFS_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_UFS_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class UfshcdClkGatingFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ UfshcdClkGatingFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit UfshcdClkGatingFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit UfshcdClkGatingFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars dev_name() const { return at<1>().as_string(); }
+ bool has_state() const { return at<2>().valid(); }
+ int32_t state() const { return at<2>().as_int32(); }
+};
+
+class UfshcdClkGatingFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = UfshcdClkGatingFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevNameFieldNumber = 1,
+ kStateFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.UfshcdClkGatingFtraceEvent"; }
+
+
+ using FieldMetadata_DevName =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ UfshcdClkGatingFtraceEvent>;
+
+ static constexpr FieldMetadata_DevName kDevName{};
+ void set_dev_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_DevName::kFieldId, data, size);
+ }
+ void set_dev_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_DevName::kFieldId, chars.data, chars.size);
+ }
+ void set_dev_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_DevName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_State =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ UfshcdClkGatingFtraceEvent>;
+
+ static constexpr FieldMetadata_State kState{};
+ void set_state(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_State::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class UfshcdCommandFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/10, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ UfshcdCommandFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit UfshcdCommandFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit UfshcdCommandFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dev_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars dev_name() const { return at<1>().as_string(); }
+ bool has_doorbell() const { return at<2>().valid(); }
+ uint32_t doorbell() const { return at<2>().as_uint32(); }
+ bool has_intr() const { return at<3>().valid(); }
+ uint32_t intr() const { return at<3>().as_uint32(); }
+ bool has_lba() const { return at<4>().valid(); }
+ uint64_t lba() const { return at<4>().as_uint64(); }
+ bool has_opcode() const { return at<5>().valid(); }
+ uint32_t opcode() const { return at<5>().as_uint32(); }
+ bool has_str() const { return at<6>().valid(); }
+ ::protozero::ConstChars str() const { return at<6>().as_string(); }
+ bool has_tag() const { return at<7>().valid(); }
+ uint32_t tag() const { return at<7>().as_uint32(); }
+ bool has_transfer_len() const { return at<8>().valid(); }
+ int32_t transfer_len() const { return at<8>().as_int32(); }
+ bool has_group_id() const { return at<9>().valid(); }
+ uint32_t group_id() const { return at<9>().as_uint32(); }
+ bool has_str_t() const { return at<10>().valid(); }
+ uint32_t str_t() const { return at<10>().as_uint32(); }
+};
+
+class UfshcdCommandFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = UfshcdCommandFtraceEvent_Decoder;
+ enum : int32_t {
+ kDevNameFieldNumber = 1,
+ kDoorbellFieldNumber = 2,
+ kIntrFieldNumber = 3,
+ kLbaFieldNumber = 4,
+ kOpcodeFieldNumber = 5,
+ kStrFieldNumber = 6,
+ kTagFieldNumber = 7,
+ kTransferLenFieldNumber = 8,
+ kGroupIdFieldNumber = 9,
+ kStrTFieldNumber = 10,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.UfshcdCommandFtraceEvent"; }
+
+
+ using FieldMetadata_DevName =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ UfshcdCommandFtraceEvent>;
+
+ static constexpr FieldMetadata_DevName kDevName{};
+ void set_dev_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_DevName::kFieldId, data, size);
+ }
+ void set_dev_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_DevName::kFieldId, chars.data, chars.size);
+ }
+ void set_dev_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_DevName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Doorbell =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ UfshcdCommandFtraceEvent>;
+
+ static constexpr FieldMetadata_Doorbell kDoorbell{};
+ void set_doorbell(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Doorbell::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Intr =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ UfshcdCommandFtraceEvent>;
+
+ static constexpr FieldMetadata_Intr kIntr{};
+ void set_intr(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Intr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Lba =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ UfshcdCommandFtraceEvent>;
+
+ static constexpr FieldMetadata_Lba kLba{};
+ void set_lba(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Lba::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Opcode =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ UfshcdCommandFtraceEvent>;
+
+ static constexpr FieldMetadata_Opcode kOpcode{};
+ void set_opcode(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Opcode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Str =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ UfshcdCommandFtraceEvent>;
+
+ static constexpr FieldMetadata_Str kStr{};
+ void set_str(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Str::kFieldId, data, size);
+ }
+ void set_str(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Str::kFieldId, chars.data, chars.size);
+ }
+ void set_str(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Str::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Tag =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ UfshcdCommandFtraceEvent>;
+
+ static constexpr FieldMetadata_Tag kTag{};
+ void set_tag(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Tag::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TransferLen =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ UfshcdCommandFtraceEvent>;
+
+ static constexpr FieldMetadata_TransferLen kTransferLen{};
+ void set_transfer_len(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TransferLen::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_GroupId =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ UfshcdCommandFtraceEvent>;
+
+ static constexpr FieldMetadata_GroupId kGroupId{};
+ void set_group_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_GroupId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_StrT =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ UfshcdCommandFtraceEvent>;
+
+ static constexpr FieldMetadata_StrT kStrT{};
+ void set_str_t(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_StrT::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/v4l2.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_V4L2_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_V4L2_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class Vb2V4l2DqbufFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/15, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Vb2V4l2DqbufFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Vb2V4l2DqbufFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Vb2V4l2DqbufFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_field() const { return at<1>().valid(); }
+ uint32_t field() const { return at<1>().as_uint32(); }
+ bool has_flags() const { return at<2>().valid(); }
+ uint32_t flags() const { return at<2>().as_uint32(); }
+ bool has_minor() const { return at<3>().valid(); }
+ int32_t minor() const { return at<3>().as_int32(); }
+ bool has_sequence() const { return at<4>().valid(); }
+ uint32_t sequence() const { return at<4>().as_uint32(); }
+ bool has_timecode_flags() const { return at<5>().valid(); }
+ uint32_t timecode_flags() const { return at<5>().as_uint32(); }
+ bool has_timecode_frames() const { return at<6>().valid(); }
+ uint32_t timecode_frames() const { return at<6>().as_uint32(); }
+ bool has_timecode_hours() const { return at<7>().valid(); }
+ uint32_t timecode_hours() const { return at<7>().as_uint32(); }
+ bool has_timecode_minutes() const { return at<8>().valid(); }
+ uint32_t timecode_minutes() const { return at<8>().as_uint32(); }
+ bool has_timecode_seconds() const { return at<9>().valid(); }
+ uint32_t timecode_seconds() const { return at<9>().as_uint32(); }
+ bool has_timecode_type() const { return at<10>().valid(); }
+ uint32_t timecode_type() const { return at<10>().as_uint32(); }
+ bool has_timecode_userbits0() const { return at<11>().valid(); }
+ uint32_t timecode_userbits0() const { return at<11>().as_uint32(); }
+ bool has_timecode_userbits1() const { return at<12>().valid(); }
+ uint32_t timecode_userbits1() const { return at<12>().as_uint32(); }
+ bool has_timecode_userbits2() const { return at<13>().valid(); }
+ uint32_t timecode_userbits2() const { return at<13>().as_uint32(); }
+ bool has_timecode_userbits3() const { return at<14>().valid(); }
+ uint32_t timecode_userbits3() const { return at<14>().as_uint32(); }
+ bool has_timestamp() const { return at<15>().valid(); }
+ int64_t timestamp() const { return at<15>().as_int64(); }
+};
+
+class Vb2V4l2DqbufFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Vb2V4l2DqbufFtraceEvent_Decoder;
+ enum : int32_t {
+ kFieldFieldNumber = 1,
+ kFlagsFieldNumber = 2,
+ kMinorFieldNumber = 3,
+ kSequenceFieldNumber = 4,
+ kTimecodeFlagsFieldNumber = 5,
+ kTimecodeFramesFieldNumber = 6,
+ kTimecodeHoursFieldNumber = 7,
+ kTimecodeMinutesFieldNumber = 8,
+ kTimecodeSecondsFieldNumber = 9,
+ kTimecodeTypeFieldNumber = 10,
+ kTimecodeUserbits0FieldNumber = 11,
+ kTimecodeUserbits1FieldNumber = 12,
+ kTimecodeUserbits2FieldNumber = 13,
+ kTimecodeUserbits3FieldNumber = 14,
+ kTimestampFieldNumber = 15,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Vb2V4l2DqbufFtraceEvent"; }
+
+
+ using FieldMetadata_Field =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Vb2V4l2DqbufFtraceEvent>;
+
+ static constexpr FieldMetadata_Field kField{};
+ void set_field(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Field::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Flags =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Vb2V4l2DqbufFtraceEvent>;
+
+ static constexpr FieldMetadata_Flags kFlags{};
+ void set_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Flags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Minor =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Vb2V4l2DqbufFtraceEvent>;
+
+ static constexpr FieldMetadata_Minor kMinor{};
+ void set_minor(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Minor::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Sequence =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Vb2V4l2DqbufFtraceEvent>;
+
+ static constexpr FieldMetadata_Sequence kSequence{};
+ void set_sequence(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Sequence::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeFlags =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Vb2V4l2DqbufFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeFlags kTimecodeFlags{};
+ void set_timecode_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeFlags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeFrames =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Vb2V4l2DqbufFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeFrames kTimecodeFrames{};
+ void set_timecode_frames(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeFrames::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeHours =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Vb2V4l2DqbufFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeHours kTimecodeHours{};
+ void set_timecode_hours(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeHours::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeMinutes =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Vb2V4l2DqbufFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeMinutes kTimecodeMinutes{};
+ void set_timecode_minutes(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeMinutes::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeSeconds =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Vb2V4l2DqbufFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeSeconds kTimecodeSeconds{};
+ void set_timecode_seconds(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeSeconds::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeType =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Vb2V4l2DqbufFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeType kTimecodeType{};
+ void set_timecode_type(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeType::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeUserbits0 =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Vb2V4l2DqbufFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeUserbits0 kTimecodeUserbits0{};
+ void set_timecode_userbits0(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeUserbits0::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeUserbits1 =
+ ::protozero::proto_utils::FieldMetadata<
+ 12,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Vb2V4l2DqbufFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeUserbits1 kTimecodeUserbits1{};
+ void set_timecode_userbits1(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeUserbits1::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeUserbits2 =
+ ::protozero::proto_utils::FieldMetadata<
+ 13,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Vb2V4l2DqbufFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeUserbits2 kTimecodeUserbits2{};
+ void set_timecode_userbits2(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeUserbits2::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeUserbits3 =
+ ::protozero::proto_utils::FieldMetadata<
+ 14,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Vb2V4l2DqbufFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeUserbits3 kTimecodeUserbits3{};
+ void set_timecode_userbits3(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeUserbits3::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Timestamp =
+ ::protozero::proto_utils::FieldMetadata<
+ 15,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ Vb2V4l2DqbufFtraceEvent>;
+
+ static constexpr FieldMetadata_Timestamp kTimestamp{};
+ void set_timestamp(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Timestamp::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Vb2V4l2QbufFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/15, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Vb2V4l2QbufFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Vb2V4l2QbufFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Vb2V4l2QbufFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_field() const { return at<1>().valid(); }
+ uint32_t field() const { return at<1>().as_uint32(); }
+ bool has_flags() const { return at<2>().valid(); }
+ uint32_t flags() const { return at<2>().as_uint32(); }
+ bool has_minor() const { return at<3>().valid(); }
+ int32_t minor() const { return at<3>().as_int32(); }
+ bool has_sequence() const { return at<4>().valid(); }
+ uint32_t sequence() const { return at<4>().as_uint32(); }
+ bool has_timecode_flags() const { return at<5>().valid(); }
+ uint32_t timecode_flags() const { return at<5>().as_uint32(); }
+ bool has_timecode_frames() const { return at<6>().valid(); }
+ uint32_t timecode_frames() const { return at<6>().as_uint32(); }
+ bool has_timecode_hours() const { return at<7>().valid(); }
+ uint32_t timecode_hours() const { return at<7>().as_uint32(); }
+ bool has_timecode_minutes() const { return at<8>().valid(); }
+ uint32_t timecode_minutes() const { return at<8>().as_uint32(); }
+ bool has_timecode_seconds() const { return at<9>().valid(); }
+ uint32_t timecode_seconds() const { return at<9>().as_uint32(); }
+ bool has_timecode_type() const { return at<10>().valid(); }
+ uint32_t timecode_type() const { return at<10>().as_uint32(); }
+ bool has_timecode_userbits0() const { return at<11>().valid(); }
+ uint32_t timecode_userbits0() const { return at<11>().as_uint32(); }
+ bool has_timecode_userbits1() const { return at<12>().valid(); }
+ uint32_t timecode_userbits1() const { return at<12>().as_uint32(); }
+ bool has_timecode_userbits2() const { return at<13>().valid(); }
+ uint32_t timecode_userbits2() const { return at<13>().as_uint32(); }
+ bool has_timecode_userbits3() const { return at<14>().valid(); }
+ uint32_t timecode_userbits3() const { return at<14>().as_uint32(); }
+ bool has_timestamp() const { return at<15>().valid(); }
+ int64_t timestamp() const { return at<15>().as_int64(); }
+};
+
+class Vb2V4l2QbufFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Vb2V4l2QbufFtraceEvent_Decoder;
+ enum : int32_t {
+ kFieldFieldNumber = 1,
+ kFlagsFieldNumber = 2,
+ kMinorFieldNumber = 3,
+ kSequenceFieldNumber = 4,
+ kTimecodeFlagsFieldNumber = 5,
+ kTimecodeFramesFieldNumber = 6,
+ kTimecodeHoursFieldNumber = 7,
+ kTimecodeMinutesFieldNumber = 8,
+ kTimecodeSecondsFieldNumber = 9,
+ kTimecodeTypeFieldNumber = 10,
+ kTimecodeUserbits0FieldNumber = 11,
+ kTimecodeUserbits1FieldNumber = 12,
+ kTimecodeUserbits2FieldNumber = 13,
+ kTimecodeUserbits3FieldNumber = 14,
+ kTimestampFieldNumber = 15,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Vb2V4l2QbufFtraceEvent"; }
+
+
+ using FieldMetadata_Field =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Vb2V4l2QbufFtraceEvent>;
+
+ static constexpr FieldMetadata_Field kField{};
+ void set_field(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Field::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Flags =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Vb2V4l2QbufFtraceEvent>;
+
+ static constexpr FieldMetadata_Flags kFlags{};
+ void set_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Flags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Minor =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Vb2V4l2QbufFtraceEvent>;
+
+ static constexpr FieldMetadata_Minor kMinor{};
+ void set_minor(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Minor::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Sequence =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Vb2V4l2QbufFtraceEvent>;
+
+ static constexpr FieldMetadata_Sequence kSequence{};
+ void set_sequence(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Sequence::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeFlags =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Vb2V4l2QbufFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeFlags kTimecodeFlags{};
+ void set_timecode_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeFlags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeFrames =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Vb2V4l2QbufFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeFrames kTimecodeFrames{};
+ void set_timecode_frames(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeFrames::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeHours =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Vb2V4l2QbufFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeHours kTimecodeHours{};
+ void set_timecode_hours(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeHours::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeMinutes =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Vb2V4l2QbufFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeMinutes kTimecodeMinutes{};
+ void set_timecode_minutes(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeMinutes::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeSeconds =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Vb2V4l2QbufFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeSeconds kTimecodeSeconds{};
+ void set_timecode_seconds(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeSeconds::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeType =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Vb2V4l2QbufFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeType kTimecodeType{};
+ void set_timecode_type(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeType::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeUserbits0 =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Vb2V4l2QbufFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeUserbits0 kTimecodeUserbits0{};
+ void set_timecode_userbits0(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeUserbits0::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeUserbits1 =
+ ::protozero::proto_utils::FieldMetadata<
+ 12,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Vb2V4l2QbufFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeUserbits1 kTimecodeUserbits1{};
+ void set_timecode_userbits1(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeUserbits1::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeUserbits2 =
+ ::protozero::proto_utils::FieldMetadata<
+ 13,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Vb2V4l2QbufFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeUserbits2 kTimecodeUserbits2{};
+ void set_timecode_userbits2(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeUserbits2::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeUserbits3 =
+ ::protozero::proto_utils::FieldMetadata<
+ 14,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Vb2V4l2QbufFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeUserbits3 kTimecodeUserbits3{};
+ void set_timecode_userbits3(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeUserbits3::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Timestamp =
+ ::protozero::proto_utils::FieldMetadata<
+ 15,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ Vb2V4l2QbufFtraceEvent>;
+
+ static constexpr FieldMetadata_Timestamp kTimestamp{};
+ void set_timestamp(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Timestamp::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Vb2V4l2BufDoneFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/15, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Vb2V4l2BufDoneFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Vb2V4l2BufDoneFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Vb2V4l2BufDoneFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_field() const { return at<1>().valid(); }
+ uint32_t field() const { return at<1>().as_uint32(); }
+ bool has_flags() const { return at<2>().valid(); }
+ uint32_t flags() const { return at<2>().as_uint32(); }
+ bool has_minor() const { return at<3>().valid(); }
+ int32_t minor() const { return at<3>().as_int32(); }
+ bool has_sequence() const { return at<4>().valid(); }
+ uint32_t sequence() const { return at<4>().as_uint32(); }
+ bool has_timecode_flags() const { return at<5>().valid(); }
+ uint32_t timecode_flags() const { return at<5>().as_uint32(); }
+ bool has_timecode_frames() const { return at<6>().valid(); }
+ uint32_t timecode_frames() const { return at<6>().as_uint32(); }
+ bool has_timecode_hours() const { return at<7>().valid(); }
+ uint32_t timecode_hours() const { return at<7>().as_uint32(); }
+ bool has_timecode_minutes() const { return at<8>().valid(); }
+ uint32_t timecode_minutes() const { return at<8>().as_uint32(); }
+ bool has_timecode_seconds() const { return at<9>().valid(); }
+ uint32_t timecode_seconds() const { return at<9>().as_uint32(); }
+ bool has_timecode_type() const { return at<10>().valid(); }
+ uint32_t timecode_type() const { return at<10>().as_uint32(); }
+ bool has_timecode_userbits0() const { return at<11>().valid(); }
+ uint32_t timecode_userbits0() const { return at<11>().as_uint32(); }
+ bool has_timecode_userbits1() const { return at<12>().valid(); }
+ uint32_t timecode_userbits1() const { return at<12>().as_uint32(); }
+ bool has_timecode_userbits2() const { return at<13>().valid(); }
+ uint32_t timecode_userbits2() const { return at<13>().as_uint32(); }
+ bool has_timecode_userbits3() const { return at<14>().valid(); }
+ uint32_t timecode_userbits3() const { return at<14>().as_uint32(); }
+ bool has_timestamp() const { return at<15>().valid(); }
+ int64_t timestamp() const { return at<15>().as_int64(); }
+};
+
+class Vb2V4l2BufDoneFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Vb2V4l2BufDoneFtraceEvent_Decoder;
+ enum : int32_t {
+ kFieldFieldNumber = 1,
+ kFlagsFieldNumber = 2,
+ kMinorFieldNumber = 3,
+ kSequenceFieldNumber = 4,
+ kTimecodeFlagsFieldNumber = 5,
+ kTimecodeFramesFieldNumber = 6,
+ kTimecodeHoursFieldNumber = 7,
+ kTimecodeMinutesFieldNumber = 8,
+ kTimecodeSecondsFieldNumber = 9,
+ kTimecodeTypeFieldNumber = 10,
+ kTimecodeUserbits0FieldNumber = 11,
+ kTimecodeUserbits1FieldNumber = 12,
+ kTimecodeUserbits2FieldNumber = 13,
+ kTimecodeUserbits3FieldNumber = 14,
+ kTimestampFieldNumber = 15,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Vb2V4l2BufDoneFtraceEvent"; }
+
+
+ using FieldMetadata_Field =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Vb2V4l2BufDoneFtraceEvent>;
+
+ static constexpr FieldMetadata_Field kField{};
+ void set_field(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Field::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Flags =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Vb2V4l2BufDoneFtraceEvent>;
+
+ static constexpr FieldMetadata_Flags kFlags{};
+ void set_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Flags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Minor =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Vb2V4l2BufDoneFtraceEvent>;
+
+ static constexpr FieldMetadata_Minor kMinor{};
+ void set_minor(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Minor::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Sequence =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Vb2V4l2BufDoneFtraceEvent>;
+
+ static constexpr FieldMetadata_Sequence kSequence{};
+ void set_sequence(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Sequence::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeFlags =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Vb2V4l2BufDoneFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeFlags kTimecodeFlags{};
+ void set_timecode_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeFlags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeFrames =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Vb2V4l2BufDoneFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeFrames kTimecodeFrames{};
+ void set_timecode_frames(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeFrames::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeHours =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Vb2V4l2BufDoneFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeHours kTimecodeHours{};
+ void set_timecode_hours(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeHours::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeMinutes =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Vb2V4l2BufDoneFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeMinutes kTimecodeMinutes{};
+ void set_timecode_minutes(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeMinutes::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeSeconds =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Vb2V4l2BufDoneFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeSeconds kTimecodeSeconds{};
+ void set_timecode_seconds(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeSeconds::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeType =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Vb2V4l2BufDoneFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeType kTimecodeType{};
+ void set_timecode_type(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeType::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeUserbits0 =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Vb2V4l2BufDoneFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeUserbits0 kTimecodeUserbits0{};
+ void set_timecode_userbits0(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeUserbits0::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeUserbits1 =
+ ::protozero::proto_utils::FieldMetadata<
+ 12,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Vb2V4l2BufDoneFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeUserbits1 kTimecodeUserbits1{};
+ void set_timecode_userbits1(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeUserbits1::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeUserbits2 =
+ ::protozero::proto_utils::FieldMetadata<
+ 13,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Vb2V4l2BufDoneFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeUserbits2 kTimecodeUserbits2{};
+ void set_timecode_userbits2(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeUserbits2::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeUserbits3 =
+ ::protozero::proto_utils::FieldMetadata<
+ 14,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Vb2V4l2BufDoneFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeUserbits3 kTimecodeUserbits3{};
+ void set_timecode_userbits3(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeUserbits3::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Timestamp =
+ ::protozero::proto_utils::FieldMetadata<
+ 15,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ Vb2V4l2BufDoneFtraceEvent>;
+
+ static constexpr FieldMetadata_Timestamp kTimestamp{};
+ void set_timestamp(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Timestamp::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Vb2V4l2BufQueueFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/15, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Vb2V4l2BufQueueFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Vb2V4l2BufQueueFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Vb2V4l2BufQueueFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_field() const { return at<1>().valid(); }
+ uint32_t field() const { return at<1>().as_uint32(); }
+ bool has_flags() const { return at<2>().valid(); }
+ uint32_t flags() const { return at<2>().as_uint32(); }
+ bool has_minor() const { return at<3>().valid(); }
+ int32_t minor() const { return at<3>().as_int32(); }
+ bool has_sequence() const { return at<4>().valid(); }
+ uint32_t sequence() const { return at<4>().as_uint32(); }
+ bool has_timecode_flags() const { return at<5>().valid(); }
+ uint32_t timecode_flags() const { return at<5>().as_uint32(); }
+ bool has_timecode_frames() const { return at<6>().valid(); }
+ uint32_t timecode_frames() const { return at<6>().as_uint32(); }
+ bool has_timecode_hours() const { return at<7>().valid(); }
+ uint32_t timecode_hours() const { return at<7>().as_uint32(); }
+ bool has_timecode_minutes() const { return at<8>().valid(); }
+ uint32_t timecode_minutes() const { return at<8>().as_uint32(); }
+ bool has_timecode_seconds() const { return at<9>().valid(); }
+ uint32_t timecode_seconds() const { return at<9>().as_uint32(); }
+ bool has_timecode_type() const { return at<10>().valid(); }
+ uint32_t timecode_type() const { return at<10>().as_uint32(); }
+ bool has_timecode_userbits0() const { return at<11>().valid(); }
+ uint32_t timecode_userbits0() const { return at<11>().as_uint32(); }
+ bool has_timecode_userbits1() const { return at<12>().valid(); }
+ uint32_t timecode_userbits1() const { return at<12>().as_uint32(); }
+ bool has_timecode_userbits2() const { return at<13>().valid(); }
+ uint32_t timecode_userbits2() const { return at<13>().as_uint32(); }
+ bool has_timecode_userbits3() const { return at<14>().valid(); }
+ uint32_t timecode_userbits3() const { return at<14>().as_uint32(); }
+ bool has_timestamp() const { return at<15>().valid(); }
+ int64_t timestamp() const { return at<15>().as_int64(); }
+};
+
+class Vb2V4l2BufQueueFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = Vb2V4l2BufQueueFtraceEvent_Decoder;
+ enum : int32_t {
+ kFieldFieldNumber = 1,
+ kFlagsFieldNumber = 2,
+ kMinorFieldNumber = 3,
+ kSequenceFieldNumber = 4,
+ kTimecodeFlagsFieldNumber = 5,
+ kTimecodeFramesFieldNumber = 6,
+ kTimecodeHoursFieldNumber = 7,
+ kTimecodeMinutesFieldNumber = 8,
+ kTimecodeSecondsFieldNumber = 9,
+ kTimecodeTypeFieldNumber = 10,
+ kTimecodeUserbits0FieldNumber = 11,
+ kTimecodeUserbits1FieldNumber = 12,
+ kTimecodeUserbits2FieldNumber = 13,
+ kTimecodeUserbits3FieldNumber = 14,
+ kTimestampFieldNumber = 15,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Vb2V4l2BufQueueFtraceEvent"; }
+
+
+ using FieldMetadata_Field =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Vb2V4l2BufQueueFtraceEvent>;
+
+ static constexpr FieldMetadata_Field kField{};
+ void set_field(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Field::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Flags =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Vb2V4l2BufQueueFtraceEvent>;
+
+ static constexpr FieldMetadata_Flags kFlags{};
+ void set_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Flags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Minor =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ Vb2V4l2BufQueueFtraceEvent>;
+
+ static constexpr FieldMetadata_Minor kMinor{};
+ void set_minor(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Minor::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Sequence =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Vb2V4l2BufQueueFtraceEvent>;
+
+ static constexpr FieldMetadata_Sequence kSequence{};
+ void set_sequence(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Sequence::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeFlags =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Vb2V4l2BufQueueFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeFlags kTimecodeFlags{};
+ void set_timecode_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeFlags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeFrames =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Vb2V4l2BufQueueFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeFrames kTimecodeFrames{};
+ void set_timecode_frames(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeFrames::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeHours =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Vb2V4l2BufQueueFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeHours kTimecodeHours{};
+ void set_timecode_hours(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeHours::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeMinutes =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Vb2V4l2BufQueueFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeMinutes kTimecodeMinutes{};
+ void set_timecode_minutes(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeMinutes::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeSeconds =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Vb2V4l2BufQueueFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeSeconds kTimecodeSeconds{};
+ void set_timecode_seconds(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeSeconds::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeType =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Vb2V4l2BufQueueFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeType kTimecodeType{};
+ void set_timecode_type(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeType::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeUserbits0 =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Vb2V4l2BufQueueFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeUserbits0 kTimecodeUserbits0{};
+ void set_timecode_userbits0(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeUserbits0::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeUserbits1 =
+ ::protozero::proto_utils::FieldMetadata<
+ 12,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Vb2V4l2BufQueueFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeUserbits1 kTimecodeUserbits1{};
+ void set_timecode_userbits1(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeUserbits1::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeUserbits2 =
+ ::protozero::proto_utils::FieldMetadata<
+ 13,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Vb2V4l2BufQueueFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeUserbits2 kTimecodeUserbits2{};
+ void set_timecode_userbits2(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeUserbits2::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeUserbits3 =
+ ::protozero::proto_utils::FieldMetadata<
+ 14,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Vb2V4l2BufQueueFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeUserbits3 kTimecodeUserbits3{};
+ void set_timecode_userbits3(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeUserbits3::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Timestamp =
+ ::protozero::proto_utils::FieldMetadata<
+ 15,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ Vb2V4l2BufQueueFtraceEvent>;
+
+ static constexpr FieldMetadata_Timestamp kTimestamp{};
+ void set_timestamp(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Timestamp::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class V4l2DqbufFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/18, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ V4l2DqbufFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit V4l2DqbufFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit V4l2DqbufFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_bytesused() const { return at<1>().valid(); }
+ uint32_t bytesused() const { return at<1>().as_uint32(); }
+ bool has_field() const { return at<2>().valid(); }
+ uint32_t field() const { return at<2>().as_uint32(); }
+ bool has_flags() const { return at<3>().valid(); }
+ uint32_t flags() const { return at<3>().as_uint32(); }
+ bool has_index() const { return at<4>().valid(); }
+ uint32_t index() const { return at<4>().as_uint32(); }
+ bool has_minor() const { return at<5>().valid(); }
+ int32_t minor() const { return at<5>().as_int32(); }
+ bool has_sequence() const { return at<6>().valid(); }
+ uint32_t sequence() const { return at<6>().as_uint32(); }
+ bool has_timecode_flags() const { return at<7>().valid(); }
+ uint32_t timecode_flags() const { return at<7>().as_uint32(); }
+ bool has_timecode_frames() const { return at<8>().valid(); }
+ uint32_t timecode_frames() const { return at<8>().as_uint32(); }
+ bool has_timecode_hours() const { return at<9>().valid(); }
+ uint32_t timecode_hours() const { return at<9>().as_uint32(); }
+ bool has_timecode_minutes() const { return at<10>().valid(); }
+ uint32_t timecode_minutes() const { return at<10>().as_uint32(); }
+ bool has_timecode_seconds() const { return at<11>().valid(); }
+ uint32_t timecode_seconds() const { return at<11>().as_uint32(); }
+ bool has_timecode_type() const { return at<12>().valid(); }
+ uint32_t timecode_type() const { return at<12>().as_uint32(); }
+ bool has_timecode_userbits0() const { return at<13>().valid(); }
+ uint32_t timecode_userbits0() const { return at<13>().as_uint32(); }
+ bool has_timecode_userbits1() const { return at<14>().valid(); }
+ uint32_t timecode_userbits1() const { return at<14>().as_uint32(); }
+ bool has_timecode_userbits2() const { return at<15>().valid(); }
+ uint32_t timecode_userbits2() const { return at<15>().as_uint32(); }
+ bool has_timecode_userbits3() const { return at<16>().valid(); }
+ uint32_t timecode_userbits3() const { return at<16>().as_uint32(); }
+ bool has_timestamp() const { return at<17>().valid(); }
+ int64_t timestamp() const { return at<17>().as_int64(); }
+ bool has_type() const { return at<18>().valid(); }
+ uint32_t type() const { return at<18>().as_uint32(); }
+};
+
+class V4l2DqbufFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = V4l2DqbufFtraceEvent_Decoder;
+ enum : int32_t {
+ kBytesusedFieldNumber = 1,
+ kFieldFieldNumber = 2,
+ kFlagsFieldNumber = 3,
+ kIndexFieldNumber = 4,
+ kMinorFieldNumber = 5,
+ kSequenceFieldNumber = 6,
+ kTimecodeFlagsFieldNumber = 7,
+ kTimecodeFramesFieldNumber = 8,
+ kTimecodeHoursFieldNumber = 9,
+ kTimecodeMinutesFieldNumber = 10,
+ kTimecodeSecondsFieldNumber = 11,
+ kTimecodeTypeFieldNumber = 12,
+ kTimecodeUserbits0FieldNumber = 13,
+ kTimecodeUserbits1FieldNumber = 14,
+ kTimecodeUserbits2FieldNumber = 15,
+ kTimecodeUserbits3FieldNumber = 16,
+ kTimestampFieldNumber = 17,
+ kTypeFieldNumber = 18,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.V4l2DqbufFtraceEvent"; }
+
+
+ using FieldMetadata_Bytesused =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ V4l2DqbufFtraceEvent>;
+
+ static constexpr FieldMetadata_Bytesused kBytesused{};
+ void set_bytesused(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Bytesused::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Field =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ V4l2DqbufFtraceEvent>;
+
+ static constexpr FieldMetadata_Field kField{};
+ void set_field(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Field::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Flags =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ V4l2DqbufFtraceEvent>;
+
+ static constexpr FieldMetadata_Flags kFlags{};
+ void set_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Flags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Index =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ V4l2DqbufFtraceEvent>;
+
+ static constexpr FieldMetadata_Index kIndex{};
+ void set_index(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Index::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Minor =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ V4l2DqbufFtraceEvent>;
+
+ static constexpr FieldMetadata_Minor kMinor{};
+ void set_minor(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Minor::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Sequence =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ V4l2DqbufFtraceEvent>;
+
+ static constexpr FieldMetadata_Sequence kSequence{};
+ void set_sequence(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Sequence::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeFlags =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ V4l2DqbufFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeFlags kTimecodeFlags{};
+ void set_timecode_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeFlags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeFrames =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ V4l2DqbufFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeFrames kTimecodeFrames{};
+ void set_timecode_frames(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeFrames::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeHours =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ V4l2DqbufFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeHours kTimecodeHours{};
+ void set_timecode_hours(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeHours::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeMinutes =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ V4l2DqbufFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeMinutes kTimecodeMinutes{};
+ void set_timecode_minutes(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeMinutes::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeSeconds =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ V4l2DqbufFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeSeconds kTimecodeSeconds{};
+ void set_timecode_seconds(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeSeconds::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeType =
+ ::protozero::proto_utils::FieldMetadata<
+ 12,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ V4l2DqbufFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeType kTimecodeType{};
+ void set_timecode_type(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeType::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeUserbits0 =
+ ::protozero::proto_utils::FieldMetadata<
+ 13,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ V4l2DqbufFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeUserbits0 kTimecodeUserbits0{};
+ void set_timecode_userbits0(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeUserbits0::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeUserbits1 =
+ ::protozero::proto_utils::FieldMetadata<
+ 14,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ V4l2DqbufFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeUserbits1 kTimecodeUserbits1{};
+ void set_timecode_userbits1(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeUserbits1::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeUserbits2 =
+ ::protozero::proto_utils::FieldMetadata<
+ 15,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ V4l2DqbufFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeUserbits2 kTimecodeUserbits2{};
+ void set_timecode_userbits2(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeUserbits2::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeUserbits3 =
+ ::protozero::proto_utils::FieldMetadata<
+ 16,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ V4l2DqbufFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeUserbits3 kTimecodeUserbits3{};
+ void set_timecode_userbits3(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeUserbits3::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Timestamp =
+ ::protozero::proto_utils::FieldMetadata<
+ 17,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ V4l2DqbufFtraceEvent>;
+
+ static constexpr FieldMetadata_Timestamp kTimestamp{};
+ void set_timestamp(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Timestamp::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Type =
+ ::protozero::proto_utils::FieldMetadata<
+ 18,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ V4l2DqbufFtraceEvent>;
+
+ static constexpr FieldMetadata_Type kType{};
+ void set_type(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Type::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class V4l2QbufFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/18, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ V4l2QbufFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit V4l2QbufFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit V4l2QbufFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_bytesused() const { return at<1>().valid(); }
+ uint32_t bytesused() const { return at<1>().as_uint32(); }
+ bool has_field() const { return at<2>().valid(); }
+ uint32_t field() const { return at<2>().as_uint32(); }
+ bool has_flags() const { return at<3>().valid(); }
+ uint32_t flags() const { return at<3>().as_uint32(); }
+ bool has_index() const { return at<4>().valid(); }
+ uint32_t index() const { return at<4>().as_uint32(); }
+ bool has_minor() const { return at<5>().valid(); }
+ int32_t minor() const { return at<5>().as_int32(); }
+ bool has_sequence() const { return at<6>().valid(); }
+ uint32_t sequence() const { return at<6>().as_uint32(); }
+ bool has_timecode_flags() const { return at<7>().valid(); }
+ uint32_t timecode_flags() const { return at<7>().as_uint32(); }
+ bool has_timecode_frames() const { return at<8>().valid(); }
+ uint32_t timecode_frames() const { return at<8>().as_uint32(); }
+ bool has_timecode_hours() const { return at<9>().valid(); }
+ uint32_t timecode_hours() const { return at<9>().as_uint32(); }
+ bool has_timecode_minutes() const { return at<10>().valid(); }
+ uint32_t timecode_minutes() const { return at<10>().as_uint32(); }
+ bool has_timecode_seconds() const { return at<11>().valid(); }
+ uint32_t timecode_seconds() const { return at<11>().as_uint32(); }
+ bool has_timecode_type() const { return at<12>().valid(); }
+ uint32_t timecode_type() const { return at<12>().as_uint32(); }
+ bool has_timecode_userbits0() const { return at<13>().valid(); }
+ uint32_t timecode_userbits0() const { return at<13>().as_uint32(); }
+ bool has_timecode_userbits1() const { return at<14>().valid(); }
+ uint32_t timecode_userbits1() const { return at<14>().as_uint32(); }
+ bool has_timecode_userbits2() const { return at<15>().valid(); }
+ uint32_t timecode_userbits2() const { return at<15>().as_uint32(); }
+ bool has_timecode_userbits3() const { return at<16>().valid(); }
+ uint32_t timecode_userbits3() const { return at<16>().as_uint32(); }
+ bool has_timestamp() const { return at<17>().valid(); }
+ int64_t timestamp() const { return at<17>().as_int64(); }
+ bool has_type() const { return at<18>().valid(); }
+ uint32_t type() const { return at<18>().as_uint32(); }
+};
+
+class V4l2QbufFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = V4l2QbufFtraceEvent_Decoder;
+ enum : int32_t {
+ kBytesusedFieldNumber = 1,
+ kFieldFieldNumber = 2,
+ kFlagsFieldNumber = 3,
+ kIndexFieldNumber = 4,
+ kMinorFieldNumber = 5,
+ kSequenceFieldNumber = 6,
+ kTimecodeFlagsFieldNumber = 7,
+ kTimecodeFramesFieldNumber = 8,
+ kTimecodeHoursFieldNumber = 9,
+ kTimecodeMinutesFieldNumber = 10,
+ kTimecodeSecondsFieldNumber = 11,
+ kTimecodeTypeFieldNumber = 12,
+ kTimecodeUserbits0FieldNumber = 13,
+ kTimecodeUserbits1FieldNumber = 14,
+ kTimecodeUserbits2FieldNumber = 15,
+ kTimecodeUserbits3FieldNumber = 16,
+ kTimestampFieldNumber = 17,
+ kTypeFieldNumber = 18,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.V4l2QbufFtraceEvent"; }
+
+
+ using FieldMetadata_Bytesused =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ V4l2QbufFtraceEvent>;
+
+ static constexpr FieldMetadata_Bytesused kBytesused{};
+ void set_bytesused(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Bytesused::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Field =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ V4l2QbufFtraceEvent>;
+
+ static constexpr FieldMetadata_Field kField{};
+ void set_field(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Field::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Flags =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ V4l2QbufFtraceEvent>;
+
+ static constexpr FieldMetadata_Flags kFlags{};
+ void set_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Flags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Index =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ V4l2QbufFtraceEvent>;
+
+ static constexpr FieldMetadata_Index kIndex{};
+ void set_index(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Index::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Minor =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ V4l2QbufFtraceEvent>;
+
+ static constexpr FieldMetadata_Minor kMinor{};
+ void set_minor(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Minor::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Sequence =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ V4l2QbufFtraceEvent>;
+
+ static constexpr FieldMetadata_Sequence kSequence{};
+ void set_sequence(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Sequence::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeFlags =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ V4l2QbufFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeFlags kTimecodeFlags{};
+ void set_timecode_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeFlags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeFrames =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ V4l2QbufFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeFrames kTimecodeFrames{};
+ void set_timecode_frames(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeFrames::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeHours =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ V4l2QbufFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeHours kTimecodeHours{};
+ void set_timecode_hours(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeHours::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeMinutes =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ V4l2QbufFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeMinutes kTimecodeMinutes{};
+ void set_timecode_minutes(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeMinutes::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeSeconds =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ V4l2QbufFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeSeconds kTimecodeSeconds{};
+ void set_timecode_seconds(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeSeconds::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeType =
+ ::protozero::proto_utils::FieldMetadata<
+ 12,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ V4l2QbufFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeType kTimecodeType{};
+ void set_timecode_type(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeType::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeUserbits0 =
+ ::protozero::proto_utils::FieldMetadata<
+ 13,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ V4l2QbufFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeUserbits0 kTimecodeUserbits0{};
+ void set_timecode_userbits0(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeUserbits0::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeUserbits1 =
+ ::protozero::proto_utils::FieldMetadata<
+ 14,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ V4l2QbufFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeUserbits1 kTimecodeUserbits1{};
+ void set_timecode_userbits1(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeUserbits1::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeUserbits2 =
+ ::protozero::proto_utils::FieldMetadata<
+ 15,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ V4l2QbufFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeUserbits2 kTimecodeUserbits2{};
+ void set_timecode_userbits2(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeUserbits2::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimecodeUserbits3 =
+ ::protozero::proto_utils::FieldMetadata<
+ 16,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ V4l2QbufFtraceEvent>;
+
+ static constexpr FieldMetadata_TimecodeUserbits3 kTimecodeUserbits3{};
+ void set_timecode_userbits3(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimecodeUserbits3::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Timestamp =
+ ::protozero::proto_utils::FieldMetadata<
+ 17,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ V4l2QbufFtraceEvent>;
+
+ static constexpr FieldMetadata_Timestamp kTimestamp{};
+ void set_timestamp(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Timestamp::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Type =
+ ::protozero::proto_utils::FieldMetadata<
+ 18,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ V4l2QbufFtraceEvent>;
+
+ static constexpr FieldMetadata_Type kType{};
+ void set_type(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Type::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/virtio_gpu.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_VIRTIO_GPU_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_VIRTIO_GPU_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class VirtioGpuCmdResponseFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/9, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ VirtioGpuCmdResponseFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit VirtioGpuCmdResponseFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit VirtioGpuCmdResponseFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_ctx_id() const { return at<1>().valid(); }
+ uint32_t ctx_id() const { return at<1>().as_uint32(); }
+ bool has_dev() const { return at<2>().valid(); }
+ int32_t dev() const { return at<2>().as_int32(); }
+ bool has_fence_id() const { return at<3>().valid(); }
+ uint64_t fence_id() const { return at<3>().as_uint64(); }
+ bool has_flags() const { return at<4>().valid(); }
+ uint32_t flags() const { return at<4>().as_uint32(); }
+ bool has_name() const { return at<5>().valid(); }
+ ::protozero::ConstChars name() const { return at<5>().as_string(); }
+ bool has_num_free() const { return at<6>().valid(); }
+ uint32_t num_free() const { return at<6>().as_uint32(); }
+ bool has_seqno() const { return at<7>().valid(); }
+ uint32_t seqno() const { return at<7>().as_uint32(); }
+ bool has_type() const { return at<8>().valid(); }
+ uint32_t type() const { return at<8>().as_uint32(); }
+ bool has_vq() const { return at<9>().valid(); }
+ uint32_t vq() const { return at<9>().as_uint32(); }
+};
+
+class VirtioGpuCmdResponseFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = VirtioGpuCmdResponseFtraceEvent_Decoder;
+ enum : int32_t {
+ kCtxIdFieldNumber = 1,
+ kDevFieldNumber = 2,
+ kFenceIdFieldNumber = 3,
+ kFlagsFieldNumber = 4,
+ kNameFieldNumber = 5,
+ kNumFreeFieldNumber = 6,
+ kSeqnoFieldNumber = 7,
+ kTypeFieldNumber = 8,
+ kVqFieldNumber = 9,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.VirtioGpuCmdResponseFtraceEvent"; }
+
+
+ using FieldMetadata_CtxId =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ VirtioGpuCmdResponseFtraceEvent>;
+
+ static constexpr FieldMetadata_CtxId kCtxId{};
+ void set_ctx_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CtxId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ VirtioGpuCmdResponseFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FenceId =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ VirtioGpuCmdResponseFtraceEvent>;
+
+ static constexpr FieldMetadata_FenceId kFenceId{};
+ void set_fence_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FenceId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Flags =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ VirtioGpuCmdResponseFtraceEvent>;
+
+ static constexpr FieldMetadata_Flags kFlags{};
+ void set_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Flags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ VirtioGpuCmdResponseFtraceEvent>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NumFree =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ VirtioGpuCmdResponseFtraceEvent>;
+
+ static constexpr FieldMetadata_NumFree kNumFree{};
+ void set_num_free(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NumFree::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Seqno =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ VirtioGpuCmdResponseFtraceEvent>;
+
+ static constexpr FieldMetadata_Seqno kSeqno{};
+ void set_seqno(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Seqno::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Type =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ VirtioGpuCmdResponseFtraceEvent>;
+
+ static constexpr FieldMetadata_Type kType{};
+ void set_type(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Type::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Vq =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ VirtioGpuCmdResponseFtraceEvent>;
+
+ static constexpr FieldMetadata_Vq kVq{};
+ void set_vq(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Vq::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class VirtioGpuCmdQueueFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/9, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ VirtioGpuCmdQueueFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit VirtioGpuCmdQueueFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit VirtioGpuCmdQueueFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_ctx_id() const { return at<1>().valid(); }
+ uint32_t ctx_id() const { return at<1>().as_uint32(); }
+ bool has_dev() const { return at<2>().valid(); }
+ int32_t dev() const { return at<2>().as_int32(); }
+ bool has_fence_id() const { return at<3>().valid(); }
+ uint64_t fence_id() const { return at<3>().as_uint64(); }
+ bool has_flags() const { return at<4>().valid(); }
+ uint32_t flags() const { return at<4>().as_uint32(); }
+ bool has_name() const { return at<5>().valid(); }
+ ::protozero::ConstChars name() const { return at<5>().as_string(); }
+ bool has_num_free() const { return at<6>().valid(); }
+ uint32_t num_free() const { return at<6>().as_uint32(); }
+ bool has_seqno() const { return at<7>().valid(); }
+ uint32_t seqno() const { return at<7>().as_uint32(); }
+ bool has_type() const { return at<8>().valid(); }
+ uint32_t type() const { return at<8>().as_uint32(); }
+ bool has_vq() const { return at<9>().valid(); }
+ uint32_t vq() const { return at<9>().as_uint32(); }
+};
+
+class VirtioGpuCmdQueueFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = VirtioGpuCmdQueueFtraceEvent_Decoder;
+ enum : int32_t {
+ kCtxIdFieldNumber = 1,
+ kDevFieldNumber = 2,
+ kFenceIdFieldNumber = 3,
+ kFlagsFieldNumber = 4,
+ kNameFieldNumber = 5,
+ kNumFreeFieldNumber = 6,
+ kSeqnoFieldNumber = 7,
+ kTypeFieldNumber = 8,
+ kVqFieldNumber = 9,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.VirtioGpuCmdQueueFtraceEvent"; }
+
+
+ using FieldMetadata_CtxId =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ VirtioGpuCmdQueueFtraceEvent>;
+
+ static constexpr FieldMetadata_CtxId kCtxId{};
+ void set_ctx_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CtxId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Dev =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ VirtioGpuCmdQueueFtraceEvent>;
+
+ static constexpr FieldMetadata_Dev kDev{};
+ void set_dev(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dev::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FenceId =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ VirtioGpuCmdQueueFtraceEvent>;
+
+ static constexpr FieldMetadata_FenceId kFenceId{};
+ void set_fence_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FenceId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Flags =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ VirtioGpuCmdQueueFtraceEvent>;
+
+ static constexpr FieldMetadata_Flags kFlags{};
+ void set_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Flags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ VirtioGpuCmdQueueFtraceEvent>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NumFree =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ VirtioGpuCmdQueueFtraceEvent>;
+
+ static constexpr FieldMetadata_NumFree kNumFree{};
+ void set_num_free(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NumFree::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Seqno =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ VirtioGpuCmdQueueFtraceEvent>;
+
+ static constexpr FieldMetadata_Seqno kSeqno{};
+ void set_seqno(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Seqno::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Type =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ VirtioGpuCmdQueueFtraceEvent>;
+
+ static constexpr FieldMetadata_Type kType{};
+ void set_type(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Type::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Vq =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ VirtioGpuCmdQueueFtraceEvent>;
+
+ static constexpr FieldMetadata_Vq kVq{};
+ void set_vq(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Vq::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/virtio_video.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_VIRTIO_VIDEO_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_VIRTIO_VIDEO_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class VirtioVideoResourceQueueDoneFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/8, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ VirtioVideoResourceQueueDoneFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit VirtioVideoResourceQueueDoneFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit VirtioVideoResourceQueueDoneFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_data_size0() const { return at<1>().valid(); }
+ uint32_t data_size0() const { return at<1>().as_uint32(); }
+ bool has_data_size1() const { return at<2>().valid(); }
+ uint32_t data_size1() const { return at<2>().as_uint32(); }
+ bool has_data_size2() const { return at<3>().valid(); }
+ uint32_t data_size2() const { return at<3>().as_uint32(); }
+ bool has_data_size3() const { return at<4>().valid(); }
+ uint32_t data_size3() const { return at<4>().as_uint32(); }
+ bool has_queue_type() const { return at<5>().valid(); }
+ uint32_t queue_type() const { return at<5>().as_uint32(); }
+ bool has_resource_id() const { return at<6>().valid(); }
+ int32_t resource_id() const { return at<6>().as_int32(); }
+ bool has_stream_id() const { return at<7>().valid(); }
+ int32_t stream_id() const { return at<7>().as_int32(); }
+ bool has_timestamp() const { return at<8>().valid(); }
+ uint64_t timestamp() const { return at<8>().as_uint64(); }
+};
+
+class VirtioVideoResourceQueueDoneFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = VirtioVideoResourceQueueDoneFtraceEvent_Decoder;
+ enum : int32_t {
+ kDataSize0FieldNumber = 1,
+ kDataSize1FieldNumber = 2,
+ kDataSize2FieldNumber = 3,
+ kDataSize3FieldNumber = 4,
+ kQueueTypeFieldNumber = 5,
+ kResourceIdFieldNumber = 6,
+ kStreamIdFieldNumber = 7,
+ kTimestampFieldNumber = 8,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.VirtioVideoResourceQueueDoneFtraceEvent"; }
+
+
+ using FieldMetadata_DataSize0 =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ VirtioVideoResourceQueueDoneFtraceEvent>;
+
+ static constexpr FieldMetadata_DataSize0 kDataSize0{};
+ void set_data_size0(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DataSize0::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DataSize1 =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ VirtioVideoResourceQueueDoneFtraceEvent>;
+
+ static constexpr FieldMetadata_DataSize1 kDataSize1{};
+ void set_data_size1(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DataSize1::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DataSize2 =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ VirtioVideoResourceQueueDoneFtraceEvent>;
+
+ static constexpr FieldMetadata_DataSize2 kDataSize2{};
+ void set_data_size2(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DataSize2::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DataSize3 =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ VirtioVideoResourceQueueDoneFtraceEvent>;
+
+ static constexpr FieldMetadata_DataSize3 kDataSize3{};
+ void set_data_size3(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DataSize3::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_QueueType =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ VirtioVideoResourceQueueDoneFtraceEvent>;
+
+ static constexpr FieldMetadata_QueueType kQueueType{};
+ void set_queue_type(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_QueueType::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ResourceId =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ VirtioVideoResourceQueueDoneFtraceEvent>;
+
+ static constexpr FieldMetadata_ResourceId kResourceId{};
+ void set_resource_id(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ResourceId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_StreamId =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ VirtioVideoResourceQueueDoneFtraceEvent>;
+
+ static constexpr FieldMetadata_StreamId kStreamId{};
+ void set_stream_id(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_StreamId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Timestamp =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ VirtioVideoResourceQueueDoneFtraceEvent>;
+
+ static constexpr FieldMetadata_Timestamp kTimestamp{};
+ void set_timestamp(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Timestamp::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class VirtioVideoResourceQueueFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/8, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ VirtioVideoResourceQueueFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit VirtioVideoResourceQueueFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit VirtioVideoResourceQueueFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_data_size0() const { return at<1>().valid(); }
+ uint32_t data_size0() const { return at<1>().as_uint32(); }
+ bool has_data_size1() const { return at<2>().valid(); }
+ uint32_t data_size1() const { return at<2>().as_uint32(); }
+ bool has_data_size2() const { return at<3>().valid(); }
+ uint32_t data_size2() const { return at<3>().as_uint32(); }
+ bool has_data_size3() const { return at<4>().valid(); }
+ uint32_t data_size3() const { return at<4>().as_uint32(); }
+ bool has_queue_type() const { return at<5>().valid(); }
+ uint32_t queue_type() const { return at<5>().as_uint32(); }
+ bool has_resource_id() const { return at<6>().valid(); }
+ int32_t resource_id() const { return at<6>().as_int32(); }
+ bool has_stream_id() const { return at<7>().valid(); }
+ int32_t stream_id() const { return at<7>().as_int32(); }
+ bool has_timestamp() const { return at<8>().valid(); }
+ uint64_t timestamp() const { return at<8>().as_uint64(); }
+};
+
+class VirtioVideoResourceQueueFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = VirtioVideoResourceQueueFtraceEvent_Decoder;
+ enum : int32_t {
+ kDataSize0FieldNumber = 1,
+ kDataSize1FieldNumber = 2,
+ kDataSize2FieldNumber = 3,
+ kDataSize3FieldNumber = 4,
+ kQueueTypeFieldNumber = 5,
+ kResourceIdFieldNumber = 6,
+ kStreamIdFieldNumber = 7,
+ kTimestampFieldNumber = 8,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.VirtioVideoResourceQueueFtraceEvent"; }
+
+
+ using FieldMetadata_DataSize0 =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ VirtioVideoResourceQueueFtraceEvent>;
+
+ static constexpr FieldMetadata_DataSize0 kDataSize0{};
+ void set_data_size0(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DataSize0::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DataSize1 =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ VirtioVideoResourceQueueFtraceEvent>;
+
+ static constexpr FieldMetadata_DataSize1 kDataSize1{};
+ void set_data_size1(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DataSize1::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DataSize2 =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ VirtioVideoResourceQueueFtraceEvent>;
+
+ static constexpr FieldMetadata_DataSize2 kDataSize2{};
+ void set_data_size2(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DataSize2::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DataSize3 =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ VirtioVideoResourceQueueFtraceEvent>;
+
+ static constexpr FieldMetadata_DataSize3 kDataSize3{};
+ void set_data_size3(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DataSize3::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_QueueType =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ VirtioVideoResourceQueueFtraceEvent>;
+
+ static constexpr FieldMetadata_QueueType kQueueType{};
+ void set_queue_type(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_QueueType::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ResourceId =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ VirtioVideoResourceQueueFtraceEvent>;
+
+ static constexpr FieldMetadata_ResourceId kResourceId{};
+ void set_resource_id(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ResourceId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_StreamId =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ VirtioVideoResourceQueueFtraceEvent>;
+
+ static constexpr FieldMetadata_StreamId kStreamId{};
+ void set_stream_id(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_StreamId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Timestamp =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ VirtioVideoResourceQueueFtraceEvent>;
+
+ static constexpr FieldMetadata_Timestamp kTimestamp{};
+ void set_timestamp(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Timestamp::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class VirtioVideoCmdDoneFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ VirtioVideoCmdDoneFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit VirtioVideoCmdDoneFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit VirtioVideoCmdDoneFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_stream_id() const { return at<1>().valid(); }
+ uint32_t stream_id() const { return at<1>().as_uint32(); }
+ bool has_type() const { return at<2>().valid(); }
+ uint32_t type() const { return at<2>().as_uint32(); }
+};
+
+class VirtioVideoCmdDoneFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = VirtioVideoCmdDoneFtraceEvent_Decoder;
+ enum : int32_t {
+ kStreamIdFieldNumber = 1,
+ kTypeFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.VirtioVideoCmdDoneFtraceEvent"; }
+
+
+ using FieldMetadata_StreamId =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ VirtioVideoCmdDoneFtraceEvent>;
+
+ static constexpr FieldMetadata_StreamId kStreamId{};
+ void set_stream_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_StreamId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Type =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ VirtioVideoCmdDoneFtraceEvent>;
+
+ static constexpr FieldMetadata_Type kType{};
+ void set_type(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Type::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class VirtioVideoCmdFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ VirtioVideoCmdFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit VirtioVideoCmdFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit VirtioVideoCmdFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_stream_id() const { return at<1>().valid(); }
+ uint32_t stream_id() const { return at<1>().as_uint32(); }
+ bool has_type() const { return at<2>().valid(); }
+ uint32_t type() const { return at<2>().as_uint32(); }
+};
+
+class VirtioVideoCmdFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = VirtioVideoCmdFtraceEvent_Decoder;
+ enum : int32_t {
+ kStreamIdFieldNumber = 1,
+ kTypeFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.VirtioVideoCmdFtraceEvent"; }
+
+
+ using FieldMetadata_StreamId =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ VirtioVideoCmdFtraceEvent>;
+
+ static constexpr FieldMetadata_StreamId kStreamId{};
+ void set_stream_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_StreamId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Type =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ VirtioVideoCmdFtraceEvent>;
+
+ static constexpr FieldMetadata_Type kType{};
+ void set_type(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Type::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/vmscan.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_VMSCAN_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_VMSCAN_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class MmShrinkSlabEndFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/7, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MmShrinkSlabEndFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MmShrinkSlabEndFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MmShrinkSlabEndFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_new_scan() const { return at<1>().valid(); }
+ int64_t new_scan() const { return at<1>().as_int64(); }
+ bool has_retval() const { return at<2>().valid(); }
+ int32_t retval() const { return at<2>().as_int32(); }
+ bool has_shr() const { return at<3>().valid(); }
+ uint64_t shr() const { return at<3>().as_uint64(); }
+ bool has_shrink() const { return at<4>().valid(); }
+ uint64_t shrink() const { return at<4>().as_uint64(); }
+ bool has_total_scan() const { return at<5>().valid(); }
+ int64_t total_scan() const { return at<5>().as_int64(); }
+ bool has_unused_scan() const { return at<6>().valid(); }
+ int64_t unused_scan() const { return at<6>().as_int64(); }
+ bool has_nid() const { return at<7>().valid(); }
+ int32_t nid() const { return at<7>().as_int32(); }
+};
+
+class MmShrinkSlabEndFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MmShrinkSlabEndFtraceEvent_Decoder;
+ enum : int32_t {
+ kNewScanFieldNumber = 1,
+ kRetvalFieldNumber = 2,
+ kShrFieldNumber = 3,
+ kShrinkFieldNumber = 4,
+ kTotalScanFieldNumber = 5,
+ kUnusedScanFieldNumber = 6,
+ kNidFieldNumber = 7,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MmShrinkSlabEndFtraceEvent"; }
+
+
+ using FieldMetadata_NewScan =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ MmShrinkSlabEndFtraceEvent>;
+
+ static constexpr FieldMetadata_NewScan kNewScan{};
+ void set_new_scan(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NewScan::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Retval =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MmShrinkSlabEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Retval kRetval{};
+ void set_retval(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Retval::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Shr =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MmShrinkSlabEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Shr kShr{};
+ void set_shr(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Shr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Shrink =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MmShrinkSlabEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Shrink kShrink{};
+ void set_shrink(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Shrink::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TotalScan =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ MmShrinkSlabEndFtraceEvent>;
+
+ static constexpr FieldMetadata_TotalScan kTotalScan{};
+ void set_total_scan(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TotalScan::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_UnusedScan =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ MmShrinkSlabEndFtraceEvent>;
+
+ static constexpr FieldMetadata_UnusedScan kUnusedScan{};
+ void set_unused_scan(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_UnusedScan::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Nid =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MmShrinkSlabEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Nid kNid{};
+ void set_nid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Nid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class MmShrinkSlabStartFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/11, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MmShrinkSlabStartFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MmShrinkSlabStartFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MmShrinkSlabStartFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_cache_items() const { return at<1>().valid(); }
+ uint64_t cache_items() const { return at<1>().as_uint64(); }
+ bool has_delta() const { return at<2>().valid(); }
+ uint64_t delta() const { return at<2>().as_uint64(); }
+ bool has_gfp_flags() const { return at<3>().valid(); }
+ uint32_t gfp_flags() const { return at<3>().as_uint32(); }
+ bool has_lru_pgs() const { return at<4>().valid(); }
+ uint64_t lru_pgs() const { return at<4>().as_uint64(); }
+ bool has_nr_objects_to_shrink() const { return at<5>().valid(); }
+ int64_t nr_objects_to_shrink() const { return at<5>().as_int64(); }
+ bool has_pgs_scanned() const { return at<6>().valid(); }
+ uint64_t pgs_scanned() const { return at<6>().as_uint64(); }
+ bool has_shr() const { return at<7>().valid(); }
+ uint64_t shr() const { return at<7>().as_uint64(); }
+ bool has_shrink() const { return at<8>().valid(); }
+ uint64_t shrink() const { return at<8>().as_uint64(); }
+ bool has_total_scan() const { return at<9>().valid(); }
+ uint64_t total_scan() const { return at<9>().as_uint64(); }
+ bool has_nid() const { return at<10>().valid(); }
+ int32_t nid() const { return at<10>().as_int32(); }
+ bool has_priority() const { return at<11>().valid(); }
+ int32_t priority() const { return at<11>().as_int32(); }
+};
+
+class MmShrinkSlabStartFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MmShrinkSlabStartFtraceEvent_Decoder;
+ enum : int32_t {
+ kCacheItemsFieldNumber = 1,
+ kDeltaFieldNumber = 2,
+ kGfpFlagsFieldNumber = 3,
+ kLruPgsFieldNumber = 4,
+ kNrObjectsToShrinkFieldNumber = 5,
+ kPgsScannedFieldNumber = 6,
+ kShrFieldNumber = 7,
+ kShrinkFieldNumber = 8,
+ kTotalScanFieldNumber = 9,
+ kNidFieldNumber = 10,
+ kPriorityFieldNumber = 11,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MmShrinkSlabStartFtraceEvent"; }
+
+
+ using FieldMetadata_CacheItems =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MmShrinkSlabStartFtraceEvent>;
+
+ static constexpr FieldMetadata_CacheItems kCacheItems{};
+ void set_cache_items(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CacheItems::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Delta =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MmShrinkSlabStartFtraceEvent>;
+
+ static constexpr FieldMetadata_Delta kDelta{};
+ void set_delta(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Delta::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_GfpFlags =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MmShrinkSlabStartFtraceEvent>;
+
+ static constexpr FieldMetadata_GfpFlags kGfpFlags{};
+ void set_gfp_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_GfpFlags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_LruPgs =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MmShrinkSlabStartFtraceEvent>;
+
+ static constexpr FieldMetadata_LruPgs kLruPgs{};
+ void set_lru_pgs(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_LruPgs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NrObjectsToShrink =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ MmShrinkSlabStartFtraceEvent>;
+
+ static constexpr FieldMetadata_NrObjectsToShrink kNrObjectsToShrink{};
+ void set_nr_objects_to_shrink(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NrObjectsToShrink::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PgsScanned =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MmShrinkSlabStartFtraceEvent>;
+
+ static constexpr FieldMetadata_PgsScanned kPgsScanned{};
+ void set_pgs_scanned(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PgsScanned::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Shr =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MmShrinkSlabStartFtraceEvent>;
+
+ static constexpr FieldMetadata_Shr kShr{};
+ void set_shr(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Shr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Shrink =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MmShrinkSlabStartFtraceEvent>;
+
+ static constexpr FieldMetadata_Shrink kShrink{};
+ void set_shrink(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Shrink::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TotalScan =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MmShrinkSlabStartFtraceEvent>;
+
+ static constexpr FieldMetadata_TotalScan kTotalScan{};
+ void set_total_scan(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TotalScan::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Nid =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MmShrinkSlabStartFtraceEvent>;
+
+ static constexpr FieldMetadata_Nid kNid{};
+ void set_nid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Nid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Priority =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MmShrinkSlabStartFtraceEvent>;
+
+ static constexpr FieldMetadata_Priority kPriority{};
+ void set_priority(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Priority::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class MmVmscanKswapdSleepFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MmVmscanKswapdSleepFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MmVmscanKswapdSleepFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MmVmscanKswapdSleepFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_nid() const { return at<1>().valid(); }
+ int32_t nid() const { return at<1>().as_int32(); }
+};
+
+class MmVmscanKswapdSleepFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MmVmscanKswapdSleepFtraceEvent_Decoder;
+ enum : int32_t {
+ kNidFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MmVmscanKswapdSleepFtraceEvent"; }
+
+
+ using FieldMetadata_Nid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MmVmscanKswapdSleepFtraceEvent>;
+
+ static constexpr FieldMetadata_Nid kNid{};
+ void set_nid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Nid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class MmVmscanKswapdWakeFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MmVmscanKswapdWakeFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MmVmscanKswapdWakeFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MmVmscanKswapdWakeFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_nid() const { return at<1>().valid(); }
+ int32_t nid() const { return at<1>().as_int32(); }
+ bool has_order() const { return at<2>().valid(); }
+ int32_t order() const { return at<2>().as_int32(); }
+ bool has_zid() const { return at<3>().valid(); }
+ int32_t zid() const { return at<3>().as_int32(); }
+};
+
+class MmVmscanKswapdWakeFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MmVmscanKswapdWakeFtraceEvent_Decoder;
+ enum : int32_t {
+ kNidFieldNumber = 1,
+ kOrderFieldNumber = 2,
+ kZidFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MmVmscanKswapdWakeFtraceEvent"; }
+
+
+ using FieldMetadata_Nid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MmVmscanKswapdWakeFtraceEvent>;
+
+ static constexpr FieldMetadata_Nid kNid{};
+ void set_nid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Nid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Order =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MmVmscanKswapdWakeFtraceEvent>;
+
+ static constexpr FieldMetadata_Order kOrder{};
+ void set_order(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Order::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Zid =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MmVmscanKswapdWakeFtraceEvent>;
+
+ static constexpr FieldMetadata_Zid kZid{};
+ void set_zid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Zid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class MmVmscanDirectReclaimEndFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MmVmscanDirectReclaimEndFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MmVmscanDirectReclaimEndFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MmVmscanDirectReclaimEndFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_nr_reclaimed() const { return at<1>().valid(); }
+ uint64_t nr_reclaimed() const { return at<1>().as_uint64(); }
+};
+
+class MmVmscanDirectReclaimEndFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MmVmscanDirectReclaimEndFtraceEvent_Decoder;
+ enum : int32_t {
+ kNrReclaimedFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MmVmscanDirectReclaimEndFtraceEvent"; }
+
+
+ using FieldMetadata_NrReclaimed =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MmVmscanDirectReclaimEndFtraceEvent>;
+
+ static constexpr FieldMetadata_NrReclaimed kNrReclaimed{};
+ void set_nr_reclaimed(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NrReclaimed::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class MmVmscanDirectReclaimBeginFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MmVmscanDirectReclaimBeginFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MmVmscanDirectReclaimBeginFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MmVmscanDirectReclaimBeginFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_order() const { return at<1>().valid(); }
+ int32_t order() const { return at<1>().as_int32(); }
+ bool has_may_writepage() const { return at<2>().valid(); }
+ int32_t may_writepage() const { return at<2>().as_int32(); }
+ bool has_gfp_flags() const { return at<3>().valid(); }
+ uint32_t gfp_flags() const { return at<3>().as_uint32(); }
+};
+
+class MmVmscanDirectReclaimBeginFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = MmVmscanDirectReclaimBeginFtraceEvent_Decoder;
+ enum : int32_t {
+ kOrderFieldNumber = 1,
+ kMayWritepageFieldNumber = 2,
+ kGfpFlagsFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MmVmscanDirectReclaimBeginFtraceEvent"; }
+
+
+ using FieldMetadata_Order =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MmVmscanDirectReclaimBeginFtraceEvent>;
+
+ static constexpr FieldMetadata_Order kOrder{};
+ void set_order(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Order::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MayWritepage =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MmVmscanDirectReclaimBeginFtraceEvent>;
+
+ static constexpr FieldMetadata_MayWritepage kMayWritepage{};
+ void set_may_writepage(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MayWritepage::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_GfpFlags =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MmVmscanDirectReclaimBeginFtraceEvent>;
+
+ static constexpr FieldMetadata_GfpFlags kGfpFlags{};
+ void set_gfp_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_GfpFlags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ftrace/workqueue.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_WORKQUEUE_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_FTRACE_WORKQUEUE_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class WorkqueueQueueWorkFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ WorkqueueQueueWorkFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit WorkqueueQueueWorkFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit WorkqueueQueueWorkFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_work() const { return at<1>().valid(); }
+ uint64_t work() const { return at<1>().as_uint64(); }
+ bool has_function() const { return at<2>().valid(); }
+ uint64_t function() const { return at<2>().as_uint64(); }
+ bool has_workqueue() const { return at<3>().valid(); }
+ uint64_t workqueue() const { return at<3>().as_uint64(); }
+ bool has_req_cpu() const { return at<4>().valid(); }
+ uint32_t req_cpu() const { return at<4>().as_uint32(); }
+ bool has_cpu() const { return at<5>().valid(); }
+ uint32_t cpu() const { return at<5>().as_uint32(); }
+};
+
+class WorkqueueQueueWorkFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = WorkqueueQueueWorkFtraceEvent_Decoder;
+ enum : int32_t {
+ kWorkFieldNumber = 1,
+ kFunctionFieldNumber = 2,
+ kWorkqueueFieldNumber = 3,
+ kReqCpuFieldNumber = 4,
+ kCpuFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.WorkqueueQueueWorkFtraceEvent"; }
+
+
+ using FieldMetadata_Work =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ WorkqueueQueueWorkFtraceEvent>;
+
+ static constexpr FieldMetadata_Work kWork{};
+ void set_work(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Work::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Function =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ WorkqueueQueueWorkFtraceEvent>;
+
+ static constexpr FieldMetadata_Function kFunction{};
+ void set_function(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Function::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Workqueue =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ WorkqueueQueueWorkFtraceEvent>;
+
+ static constexpr FieldMetadata_Workqueue kWorkqueue{};
+ void set_workqueue(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Workqueue::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ReqCpu =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ WorkqueueQueueWorkFtraceEvent>;
+
+ static constexpr FieldMetadata_ReqCpu kReqCpu{};
+ void set_req_cpu(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ReqCpu::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Cpu =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ WorkqueueQueueWorkFtraceEvent>;
+
+ static constexpr FieldMetadata_Cpu kCpu{};
+ void set_cpu(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Cpu::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class WorkqueueExecuteStartFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ WorkqueueExecuteStartFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit WorkqueueExecuteStartFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit WorkqueueExecuteStartFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_work() const { return at<1>().valid(); }
+ uint64_t work() const { return at<1>().as_uint64(); }
+ bool has_function() const { return at<2>().valid(); }
+ uint64_t function() const { return at<2>().as_uint64(); }
+};
+
+class WorkqueueExecuteStartFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = WorkqueueExecuteStartFtraceEvent_Decoder;
+ enum : int32_t {
+ kWorkFieldNumber = 1,
+ kFunctionFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.WorkqueueExecuteStartFtraceEvent"; }
+
+
+ using FieldMetadata_Work =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ WorkqueueExecuteStartFtraceEvent>;
+
+ static constexpr FieldMetadata_Work kWork{};
+ void set_work(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Work::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Function =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ WorkqueueExecuteStartFtraceEvent>;
+
+ static constexpr FieldMetadata_Function kFunction{};
+ void set_function(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Function::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class WorkqueueExecuteEndFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ WorkqueueExecuteEndFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit WorkqueueExecuteEndFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit WorkqueueExecuteEndFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_work() const { return at<1>().valid(); }
+ uint64_t work() const { return at<1>().as_uint64(); }
+ bool has_function() const { return at<2>().valid(); }
+ uint64_t function() const { return at<2>().as_uint64(); }
+};
+
+class WorkqueueExecuteEndFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = WorkqueueExecuteEndFtraceEvent_Decoder;
+ enum : int32_t {
+ kWorkFieldNumber = 1,
+ kFunctionFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.WorkqueueExecuteEndFtraceEvent"; }
+
+
+ using FieldMetadata_Work =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ WorkqueueExecuteEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Work kWork{};
+ void set_work(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Work::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Function =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ WorkqueueExecuteEndFtraceEvent>;
+
+ static constexpr FieldMetadata_Function kFunction{};
+ void set_function(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Function::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class WorkqueueActivateWorkFtraceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ WorkqueueActivateWorkFtraceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit WorkqueueActivateWorkFtraceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit WorkqueueActivateWorkFtraceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_work() const { return at<1>().valid(); }
+ uint64_t work() const { return at<1>().as_uint64(); }
+};
+
+class WorkqueueActivateWorkFtraceEvent : public ::protozero::Message {
+ public:
+ using Decoder = WorkqueueActivateWorkFtraceEvent_Decoder;
+ enum : int32_t {
+ kWorkFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.WorkqueueActivateWorkFtraceEvent"; }
+
+
+ using FieldMetadata_Work =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ WorkqueueActivateWorkFtraceEvent>;
+
+ static constexpr FieldMetadata_Work kWork{};
+ void set_work(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Work::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/gpu/gpu_counter_event.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_GPU_GPU_COUNTER_EVENT_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_GPU_GPU_COUNTER_EVENT_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class GpuCounterDescriptor;
+class GpuCounterEvent_GpuCounter;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class GpuCounterEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ GpuCounterEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit GpuCounterEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit GpuCounterEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_counter_descriptor() const { return at<1>().valid(); }
+ ::protozero::ConstBytes counter_descriptor() const { return at<1>().as_bytes(); }
+ bool has_counters() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> counters() const { return GetRepeated<::protozero::ConstBytes>(2); }
+ bool has_gpu_id() const { return at<3>().valid(); }
+ int32_t gpu_id() const { return at<3>().as_int32(); }
+};
+
+class GpuCounterEvent : public ::protozero::Message {
+ public:
+ using Decoder = GpuCounterEvent_Decoder;
+ enum : int32_t {
+ kCounterDescriptorFieldNumber = 1,
+ kCountersFieldNumber = 2,
+ kGpuIdFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.GpuCounterEvent"; }
+
+ using GpuCounter = ::perfetto::protos::pbzero::GpuCounterEvent_GpuCounter;
+
+ using FieldMetadata_CounterDescriptor =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ GpuCounterDescriptor,
+ GpuCounterEvent>;
+
+ static constexpr FieldMetadata_CounterDescriptor kCounterDescriptor{};
+ template <typename T = GpuCounterDescriptor> T* set_counter_descriptor() {
+ return BeginNestedMessage<T>(1);
+ }
+
+
+ using FieldMetadata_Counters =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ GpuCounterEvent_GpuCounter,
+ GpuCounterEvent>;
+
+ static constexpr FieldMetadata_Counters kCounters{};
+ template <typename T = GpuCounterEvent_GpuCounter> T* add_counters() {
+ return BeginNestedMessage<T>(2);
+ }
+
+
+ using FieldMetadata_GpuId =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ GpuCounterEvent>;
+
+ static constexpr FieldMetadata_GpuId kGpuId{};
+ void set_gpu_id(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_GpuId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class GpuCounterEvent_GpuCounter_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ GpuCounterEvent_GpuCounter_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit GpuCounterEvent_GpuCounter_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit GpuCounterEvent_GpuCounter_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_counter_id() const { return at<1>().valid(); }
+ uint32_t counter_id() const { return at<1>().as_uint32(); }
+ bool has_int_value() const { return at<2>().valid(); }
+ int64_t int_value() const { return at<2>().as_int64(); }
+ bool has_double_value() const { return at<3>().valid(); }
+ double double_value() const { return at<3>().as_double(); }
+};
+
+class GpuCounterEvent_GpuCounter : public ::protozero::Message {
+ public:
+ using Decoder = GpuCounterEvent_GpuCounter_Decoder;
+ enum : int32_t {
+ kCounterIdFieldNumber = 1,
+ kIntValueFieldNumber = 2,
+ kDoubleValueFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.GpuCounterEvent.GpuCounter"; }
+
+
+ using FieldMetadata_CounterId =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ GpuCounterEvent_GpuCounter>;
+
+ static constexpr FieldMetadata_CounterId kCounterId{};
+ void set_counter_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CounterId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IntValue =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ GpuCounterEvent_GpuCounter>;
+
+ static constexpr FieldMetadata_IntValue kIntValue{};
+ void set_int_value(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_IntValue::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DoubleValue =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kDouble,
+ double,
+ GpuCounterEvent_GpuCounter>;
+
+ static constexpr FieldMetadata_DoubleValue kDoubleValue{};
+ void set_double_value(double value) {
+ static constexpr uint32_t field_id = FieldMetadata_DoubleValue::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kDouble>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/gpu/gpu_log.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_GPU_GPU_LOG_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_GPU_GPU_LOG_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+namespace perfetto_pbzero_enum_GpuLog {
+enum Severity : int32_t;
+} // namespace perfetto_pbzero_enum_GpuLog
+using GpuLog_Severity = perfetto_pbzero_enum_GpuLog::Severity;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+namespace perfetto_pbzero_enum_GpuLog {
+enum Severity : int32_t {
+ LOG_SEVERITY_UNSPECIFIED = 0,
+ LOG_SEVERITY_VERBOSE = 1,
+ LOG_SEVERITY_DEBUG = 2,
+ LOG_SEVERITY_INFO = 3,
+ LOG_SEVERITY_WARNING = 4,
+ LOG_SEVERITY_ERROR = 5,
+};
+} // namespace perfetto_pbzero_enum_GpuLog
+using GpuLog_Severity = perfetto_pbzero_enum_GpuLog::Severity;
+
+
+constexpr GpuLog_Severity GpuLog_Severity_MIN = GpuLog_Severity::LOG_SEVERITY_UNSPECIFIED;
+constexpr GpuLog_Severity GpuLog_Severity_MAX = GpuLog_Severity::LOG_SEVERITY_ERROR;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* GpuLog_Severity_Name(::perfetto::protos::pbzero::GpuLog_Severity value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::GpuLog_Severity::LOG_SEVERITY_UNSPECIFIED:
+ return "LOG_SEVERITY_UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::GpuLog_Severity::LOG_SEVERITY_VERBOSE:
+ return "LOG_SEVERITY_VERBOSE";
+
+ case ::perfetto::protos::pbzero::GpuLog_Severity::LOG_SEVERITY_DEBUG:
+ return "LOG_SEVERITY_DEBUG";
+
+ case ::perfetto::protos::pbzero::GpuLog_Severity::LOG_SEVERITY_INFO:
+ return "LOG_SEVERITY_INFO";
+
+ case ::perfetto::protos::pbzero::GpuLog_Severity::LOG_SEVERITY_WARNING:
+ return "LOG_SEVERITY_WARNING";
+
+ case ::perfetto::protos::pbzero::GpuLog_Severity::LOG_SEVERITY_ERROR:
+ return "LOG_SEVERITY_ERROR";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+class GpuLog_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ GpuLog_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit GpuLog_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit GpuLog_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_severity() const { return at<1>().valid(); }
+ int32_t severity() const { return at<1>().as_int32(); }
+ bool has_tag() const { return at<2>().valid(); }
+ ::protozero::ConstChars tag() const { return at<2>().as_string(); }
+ bool has_log_message() const { return at<3>().valid(); }
+ ::protozero::ConstChars log_message() const { return at<3>().as_string(); }
+};
+
+class GpuLog : public ::protozero::Message {
+ public:
+ using Decoder = GpuLog_Decoder;
+ enum : int32_t {
+ kSeverityFieldNumber = 1,
+ kTagFieldNumber = 2,
+ kLogMessageFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.GpuLog"; }
+
+
+ using Severity = ::perfetto::protos::pbzero::GpuLog_Severity;
+ static inline const char* Severity_Name(Severity value) {
+ return ::perfetto::protos::pbzero::GpuLog_Severity_Name(value);
+ }
+ static inline const Severity LOG_SEVERITY_UNSPECIFIED = Severity::LOG_SEVERITY_UNSPECIFIED;
+ static inline const Severity LOG_SEVERITY_VERBOSE = Severity::LOG_SEVERITY_VERBOSE;
+ static inline const Severity LOG_SEVERITY_DEBUG = Severity::LOG_SEVERITY_DEBUG;
+ static inline const Severity LOG_SEVERITY_INFO = Severity::LOG_SEVERITY_INFO;
+ static inline const Severity LOG_SEVERITY_WARNING = Severity::LOG_SEVERITY_WARNING;
+ static inline const Severity LOG_SEVERITY_ERROR = Severity::LOG_SEVERITY_ERROR;
+
+ using FieldMetadata_Severity =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ GpuLog_Severity,
+ GpuLog>;
+
+ static constexpr FieldMetadata_Severity kSeverity{};
+ void set_severity(GpuLog_Severity value) {
+ static constexpr uint32_t field_id = FieldMetadata_Severity::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Tag =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ GpuLog>;
+
+ static constexpr FieldMetadata_Tag kTag{};
+ void set_tag(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Tag::kFieldId, data, size);
+ }
+ void set_tag(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Tag::kFieldId, chars.data, chars.size);
+ }
+ void set_tag(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Tag::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_LogMessage =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ GpuLog>;
+
+ static constexpr FieldMetadata_LogMessage kLogMessage{};
+ void set_log_message(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_LogMessage::kFieldId, data, size);
+ }
+ void set_log_message(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_LogMessage::kFieldId, chars.data, chars.size);
+ }
+ void set_log_message(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_LogMessage::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/gpu/gpu_render_stage_event.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_GPU_GPU_RENDER_STAGE_EVENT_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_GPU_GPU_RENDER_STAGE_EVENT_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class GpuRenderStageEvent_ExtraData;
+class GpuRenderStageEvent_Specifications;
+class GpuRenderStageEvent_Specifications_ContextSpec;
+class GpuRenderStageEvent_Specifications_Description;
+namespace perfetto_pbzero_enum_InternedGpuRenderStageSpecification {
+enum RenderStageCategory : int32_t;
+} // namespace perfetto_pbzero_enum_InternedGpuRenderStageSpecification
+using InternedGpuRenderStageSpecification_RenderStageCategory = perfetto_pbzero_enum_InternedGpuRenderStageSpecification::RenderStageCategory;
+namespace perfetto_pbzero_enum_InternedGraphicsContext {
+enum Api : int32_t;
+} // namespace perfetto_pbzero_enum_InternedGraphicsContext
+using InternedGraphicsContext_Api = perfetto_pbzero_enum_InternedGraphicsContext::Api;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+namespace perfetto_pbzero_enum_InternedGpuRenderStageSpecification {
+enum RenderStageCategory : int32_t {
+ OTHER = 0,
+ GRAPHICS = 1,
+ COMPUTE = 2,
+};
+} // namespace perfetto_pbzero_enum_InternedGpuRenderStageSpecification
+using InternedGpuRenderStageSpecification_RenderStageCategory = perfetto_pbzero_enum_InternedGpuRenderStageSpecification::RenderStageCategory;
+
+
+constexpr InternedGpuRenderStageSpecification_RenderStageCategory InternedGpuRenderStageSpecification_RenderStageCategory_MIN = InternedGpuRenderStageSpecification_RenderStageCategory::OTHER;
+constexpr InternedGpuRenderStageSpecification_RenderStageCategory InternedGpuRenderStageSpecification_RenderStageCategory_MAX = InternedGpuRenderStageSpecification_RenderStageCategory::COMPUTE;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* InternedGpuRenderStageSpecification_RenderStageCategory_Name(::perfetto::protos::pbzero::InternedGpuRenderStageSpecification_RenderStageCategory value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::InternedGpuRenderStageSpecification_RenderStageCategory::OTHER:
+ return "OTHER";
+
+ case ::perfetto::protos::pbzero::InternedGpuRenderStageSpecification_RenderStageCategory::GRAPHICS:
+ return "GRAPHICS";
+
+ case ::perfetto::protos::pbzero::InternedGpuRenderStageSpecification_RenderStageCategory::COMPUTE:
+ return "COMPUTE";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_InternedGraphicsContext {
+enum Api : int32_t {
+ UNDEFINED = 0,
+ OPEN_GL = 1,
+ VULKAN = 2,
+ OPEN_CL = 3,
+};
+} // namespace perfetto_pbzero_enum_InternedGraphicsContext
+using InternedGraphicsContext_Api = perfetto_pbzero_enum_InternedGraphicsContext::Api;
+
+
+constexpr InternedGraphicsContext_Api InternedGraphicsContext_Api_MIN = InternedGraphicsContext_Api::UNDEFINED;
+constexpr InternedGraphicsContext_Api InternedGraphicsContext_Api_MAX = InternedGraphicsContext_Api::OPEN_CL;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* InternedGraphicsContext_Api_Name(::perfetto::protos::pbzero::InternedGraphicsContext_Api value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::InternedGraphicsContext_Api::UNDEFINED:
+ return "UNDEFINED";
+
+ case ::perfetto::protos::pbzero::InternedGraphicsContext_Api::OPEN_GL:
+ return "OPEN_GL";
+
+ case ::perfetto::protos::pbzero::InternedGraphicsContext_Api::VULKAN:
+ return "VULKAN";
+
+ case ::perfetto::protos::pbzero::InternedGraphicsContext_Api::OPEN_CL:
+ return "OPEN_CL";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+class InternedGpuRenderStageSpecification_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ InternedGpuRenderStageSpecification_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit InternedGpuRenderStageSpecification_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit InternedGpuRenderStageSpecification_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_iid() const { return at<1>().valid(); }
+ uint64_t iid() const { return at<1>().as_uint64(); }
+ bool has_name() const { return at<2>().valid(); }
+ ::protozero::ConstChars name() const { return at<2>().as_string(); }
+ bool has_description() const { return at<3>().valid(); }
+ ::protozero::ConstChars description() const { return at<3>().as_string(); }
+ bool has_category() const { return at<4>().valid(); }
+ int32_t category() const { return at<4>().as_int32(); }
+};
+
+class InternedGpuRenderStageSpecification : public ::protozero::Message {
+ public:
+ using Decoder = InternedGpuRenderStageSpecification_Decoder;
+ enum : int32_t {
+ kIidFieldNumber = 1,
+ kNameFieldNumber = 2,
+ kDescriptionFieldNumber = 3,
+ kCategoryFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.InternedGpuRenderStageSpecification"; }
+
+
+ using RenderStageCategory = ::perfetto::protos::pbzero::InternedGpuRenderStageSpecification_RenderStageCategory;
+ static inline const char* RenderStageCategory_Name(RenderStageCategory value) {
+ return ::perfetto::protos::pbzero::InternedGpuRenderStageSpecification_RenderStageCategory_Name(value);
+ }
+ static inline const RenderStageCategory OTHER = RenderStageCategory::OTHER;
+ static inline const RenderStageCategory GRAPHICS = RenderStageCategory::GRAPHICS;
+ static inline const RenderStageCategory COMPUTE = RenderStageCategory::COMPUTE;
+
+ using FieldMetadata_Iid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ InternedGpuRenderStageSpecification>;
+
+ static constexpr FieldMetadata_Iid kIid{};
+ void set_iid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Iid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ InternedGpuRenderStageSpecification>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Description =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ InternedGpuRenderStageSpecification>;
+
+ static constexpr FieldMetadata_Description kDescription{};
+ void set_description(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Description::kFieldId, data, size);
+ }
+ void set_description(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Description::kFieldId, chars.data, chars.size);
+ }
+ void set_description(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Description::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Category =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ InternedGpuRenderStageSpecification_RenderStageCategory,
+ InternedGpuRenderStageSpecification>;
+
+ static constexpr FieldMetadata_Category kCategory{};
+ void set_category(InternedGpuRenderStageSpecification_RenderStageCategory value) {
+ static constexpr uint32_t field_id = FieldMetadata_Category::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class InternedGraphicsContext_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ InternedGraphicsContext_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit InternedGraphicsContext_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit InternedGraphicsContext_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_iid() const { return at<1>().valid(); }
+ uint64_t iid() const { return at<1>().as_uint64(); }
+ bool has_pid() const { return at<2>().valid(); }
+ int32_t pid() const { return at<2>().as_int32(); }
+ bool has_api() const { return at<3>().valid(); }
+ int32_t api() const { return at<3>().as_int32(); }
+};
+
+class InternedGraphicsContext : public ::protozero::Message {
+ public:
+ using Decoder = InternedGraphicsContext_Decoder;
+ enum : int32_t {
+ kIidFieldNumber = 1,
+ kPidFieldNumber = 2,
+ kApiFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.InternedGraphicsContext"; }
+
+
+ using Api = ::perfetto::protos::pbzero::InternedGraphicsContext_Api;
+ static inline const char* Api_Name(Api value) {
+ return ::perfetto::protos::pbzero::InternedGraphicsContext_Api_Name(value);
+ }
+ static inline const Api UNDEFINED = Api::UNDEFINED;
+ static inline const Api OPEN_GL = Api::OPEN_GL;
+ static inline const Api VULKAN = Api::VULKAN;
+ static inline const Api OPEN_CL = Api::OPEN_CL;
+
+ using FieldMetadata_Iid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ InternedGraphicsContext>;
+
+ static constexpr FieldMetadata_Iid kIid{};
+ void set_iid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Iid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ InternedGraphicsContext>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Api =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ InternedGraphicsContext_Api,
+ InternedGraphicsContext>;
+
+ static constexpr FieldMetadata_Api kApi{};
+ void set_api(InternedGraphicsContext_Api value) {
+ static constexpr uint32_t field_id = FieldMetadata_Api::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class GpuRenderStageEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/15, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ GpuRenderStageEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit GpuRenderStageEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit GpuRenderStageEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_event_id() const { return at<1>().valid(); }
+ uint64_t event_id() const { return at<1>().as_uint64(); }
+ bool has_duration() const { return at<2>().valid(); }
+ uint64_t duration() const { return at<2>().as_uint64(); }
+ bool has_hw_queue_iid() const { return at<13>().valid(); }
+ uint64_t hw_queue_iid() const { return at<13>().as_uint64(); }
+ bool has_stage_iid() const { return at<14>().valid(); }
+ uint64_t stage_iid() const { return at<14>().as_uint64(); }
+ bool has_gpu_id() const { return at<11>().valid(); }
+ int32_t gpu_id() const { return at<11>().as_int32(); }
+ bool has_context() const { return at<5>().valid(); }
+ uint64_t context() const { return at<5>().as_uint64(); }
+ bool has_render_target_handle() const { return at<8>().valid(); }
+ uint64_t render_target_handle() const { return at<8>().as_uint64(); }
+ bool has_submission_id() const { return at<10>().valid(); }
+ uint32_t submission_id() const { return at<10>().as_uint32(); }
+ bool has_extra_data() const { return at<6>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> extra_data() const { return GetRepeated<::protozero::ConstBytes>(6); }
+ bool has_render_pass_handle() const { return at<9>().valid(); }
+ uint64_t render_pass_handle() const { return at<9>().as_uint64(); }
+ bool has_render_subpass_index_mask() const { return at<15>().valid(); }
+ ::protozero::RepeatedFieldIterator<uint64_t> render_subpass_index_mask() const { return GetRepeated<uint64_t>(15); }
+ bool has_command_buffer_handle() const { return at<12>().valid(); }
+ uint64_t command_buffer_handle() const { return at<12>().as_uint64(); }
+ bool has_specifications() const { return at<7>().valid(); }
+ ::protozero::ConstBytes specifications() const { return at<7>().as_bytes(); }
+ bool has_hw_queue_id() const { return at<3>().valid(); }
+ int32_t hw_queue_id() const { return at<3>().as_int32(); }
+ bool has_stage_id() const { return at<4>().valid(); }
+ int32_t stage_id() const { return at<4>().as_int32(); }
+};
+
+class GpuRenderStageEvent : public ::protozero::Message {
+ public:
+ using Decoder = GpuRenderStageEvent_Decoder;
+ enum : int32_t {
+ kEventIdFieldNumber = 1,
+ kDurationFieldNumber = 2,
+ kHwQueueIidFieldNumber = 13,
+ kStageIidFieldNumber = 14,
+ kGpuIdFieldNumber = 11,
+ kContextFieldNumber = 5,
+ kRenderTargetHandleFieldNumber = 8,
+ kSubmissionIdFieldNumber = 10,
+ kExtraDataFieldNumber = 6,
+ kRenderPassHandleFieldNumber = 9,
+ kRenderSubpassIndexMaskFieldNumber = 15,
+ kCommandBufferHandleFieldNumber = 12,
+ kSpecificationsFieldNumber = 7,
+ kHwQueueIdFieldNumber = 3,
+ kStageIdFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.GpuRenderStageEvent"; }
+
+ using ExtraData = ::perfetto::protos::pbzero::GpuRenderStageEvent_ExtraData;
+ using Specifications = ::perfetto::protos::pbzero::GpuRenderStageEvent_Specifications;
+
+ using FieldMetadata_EventId =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ GpuRenderStageEvent>;
+
+ static constexpr FieldMetadata_EventId kEventId{};
+ void set_event_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_EventId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Duration =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ GpuRenderStageEvent>;
+
+ static constexpr FieldMetadata_Duration kDuration{};
+ void set_duration(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Duration::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_HwQueueIid =
+ ::protozero::proto_utils::FieldMetadata<
+ 13,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ GpuRenderStageEvent>;
+
+ static constexpr FieldMetadata_HwQueueIid kHwQueueIid{};
+ void set_hw_queue_iid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_HwQueueIid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_StageIid =
+ ::protozero::proto_utils::FieldMetadata<
+ 14,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ GpuRenderStageEvent>;
+
+ static constexpr FieldMetadata_StageIid kStageIid{};
+ void set_stage_iid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_StageIid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_GpuId =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ GpuRenderStageEvent>;
+
+ static constexpr FieldMetadata_GpuId kGpuId{};
+ void set_gpu_id(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_GpuId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Context =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ GpuRenderStageEvent>;
+
+ static constexpr FieldMetadata_Context kContext{};
+ void set_context(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Context::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_RenderTargetHandle =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ GpuRenderStageEvent>;
+
+ static constexpr FieldMetadata_RenderTargetHandle kRenderTargetHandle{};
+ void set_render_target_handle(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_RenderTargetHandle::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SubmissionId =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ GpuRenderStageEvent>;
+
+ static constexpr FieldMetadata_SubmissionId kSubmissionId{};
+ void set_submission_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SubmissionId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ExtraData =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ GpuRenderStageEvent_ExtraData,
+ GpuRenderStageEvent>;
+
+ static constexpr FieldMetadata_ExtraData kExtraData{};
+ template <typename T = GpuRenderStageEvent_ExtraData> T* add_extra_data() {
+ return BeginNestedMessage<T>(6);
+ }
+
+
+ using FieldMetadata_RenderPassHandle =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ GpuRenderStageEvent>;
+
+ static constexpr FieldMetadata_RenderPassHandle kRenderPassHandle{};
+ void set_render_pass_handle(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_RenderPassHandle::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_RenderSubpassIndexMask =
+ ::protozero::proto_utils::FieldMetadata<
+ 15,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ GpuRenderStageEvent>;
+
+ static constexpr FieldMetadata_RenderSubpassIndexMask kRenderSubpassIndexMask{};
+ void add_render_subpass_index_mask(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_RenderSubpassIndexMask::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CommandBufferHandle =
+ ::protozero::proto_utils::FieldMetadata<
+ 12,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ GpuRenderStageEvent>;
+
+ static constexpr FieldMetadata_CommandBufferHandle kCommandBufferHandle{};
+ void set_command_buffer_handle(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CommandBufferHandle::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Specifications =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ GpuRenderStageEvent_Specifications,
+ GpuRenderStageEvent>;
+
+ static constexpr FieldMetadata_Specifications kSpecifications{};
+ template <typename T = GpuRenderStageEvent_Specifications> T* set_specifications() {
+ return BeginNestedMessage<T>(7);
+ }
+
+
+ using FieldMetadata_HwQueueId =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ GpuRenderStageEvent>;
+
+ static constexpr FieldMetadata_HwQueueId kHwQueueId{};
+ void set_hw_queue_id(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_HwQueueId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_StageId =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ GpuRenderStageEvent>;
+
+ static constexpr FieldMetadata_StageId kStageId{};
+ void set_stage_id(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_StageId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class GpuRenderStageEvent_Specifications_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ GpuRenderStageEvent_Specifications_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit GpuRenderStageEvent_Specifications_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit GpuRenderStageEvent_Specifications_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_context_spec() const { return at<1>().valid(); }
+ ::protozero::ConstBytes context_spec() const { return at<1>().as_bytes(); }
+ bool has_hw_queue() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> hw_queue() const { return GetRepeated<::protozero::ConstBytes>(2); }
+ bool has_stage() const { return at<3>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> stage() const { return GetRepeated<::protozero::ConstBytes>(3); }
+};
+
+class GpuRenderStageEvent_Specifications : public ::protozero::Message {
+ public:
+ using Decoder = GpuRenderStageEvent_Specifications_Decoder;
+ enum : int32_t {
+ kContextSpecFieldNumber = 1,
+ kHwQueueFieldNumber = 2,
+ kStageFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.GpuRenderStageEvent.Specifications"; }
+
+ using ContextSpec = ::perfetto::protos::pbzero::GpuRenderStageEvent_Specifications_ContextSpec;
+ using Description = ::perfetto::protos::pbzero::GpuRenderStageEvent_Specifications_Description;
+
+ using FieldMetadata_ContextSpec =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ GpuRenderStageEvent_Specifications_ContextSpec,
+ GpuRenderStageEvent_Specifications>;
+
+ static constexpr FieldMetadata_ContextSpec kContextSpec{};
+ template <typename T = GpuRenderStageEvent_Specifications_ContextSpec> T* set_context_spec() {
+ return BeginNestedMessage<T>(1);
+ }
+
+
+ using FieldMetadata_HwQueue =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ GpuRenderStageEvent_Specifications_Description,
+ GpuRenderStageEvent_Specifications>;
+
+ static constexpr FieldMetadata_HwQueue kHwQueue{};
+ template <typename T = GpuRenderStageEvent_Specifications_Description> T* add_hw_queue() {
+ return BeginNestedMessage<T>(2);
+ }
+
+
+ using FieldMetadata_Stage =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ GpuRenderStageEvent_Specifications_Description,
+ GpuRenderStageEvent_Specifications>;
+
+ static constexpr FieldMetadata_Stage kStage{};
+ template <typename T = GpuRenderStageEvent_Specifications_Description> T* add_stage() {
+ return BeginNestedMessage<T>(3);
+ }
+
+};
+
+class GpuRenderStageEvent_Specifications_Description_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ GpuRenderStageEvent_Specifications_Description_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit GpuRenderStageEvent_Specifications_Description_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit GpuRenderStageEvent_Specifications_Description_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars name() const { return at<1>().as_string(); }
+ bool has_description() const { return at<2>().valid(); }
+ ::protozero::ConstChars description() const { return at<2>().as_string(); }
+};
+
+class GpuRenderStageEvent_Specifications_Description : public ::protozero::Message {
+ public:
+ using Decoder = GpuRenderStageEvent_Specifications_Description_Decoder;
+ enum : int32_t {
+ kNameFieldNumber = 1,
+ kDescriptionFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.GpuRenderStageEvent.Specifications.Description"; }
+
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ GpuRenderStageEvent_Specifications_Description>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Description =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ GpuRenderStageEvent_Specifications_Description>;
+
+ static constexpr FieldMetadata_Description kDescription{};
+ void set_description(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Description::kFieldId, data, size);
+ }
+ void set_description(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Description::kFieldId, chars.data, chars.size);
+ }
+ void set_description(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Description::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class GpuRenderStageEvent_Specifications_ContextSpec_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ GpuRenderStageEvent_Specifications_ContextSpec_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit GpuRenderStageEvent_Specifications_ContextSpec_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit GpuRenderStageEvent_Specifications_ContextSpec_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_context() const { return at<1>().valid(); }
+ uint64_t context() const { return at<1>().as_uint64(); }
+ bool has_pid() const { return at<2>().valid(); }
+ int32_t pid() const { return at<2>().as_int32(); }
+};
+
+class GpuRenderStageEvent_Specifications_ContextSpec : public ::protozero::Message {
+ public:
+ using Decoder = GpuRenderStageEvent_Specifications_ContextSpec_Decoder;
+ enum : int32_t {
+ kContextFieldNumber = 1,
+ kPidFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.GpuRenderStageEvent.Specifications.ContextSpec"; }
+
+
+ using FieldMetadata_Context =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ GpuRenderStageEvent_Specifications_ContextSpec>;
+
+ static constexpr FieldMetadata_Context kContext{};
+ void set_context(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Context::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ GpuRenderStageEvent_Specifications_ContextSpec>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class GpuRenderStageEvent_ExtraData_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ GpuRenderStageEvent_ExtraData_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit GpuRenderStageEvent_ExtraData_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit GpuRenderStageEvent_ExtraData_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars name() const { return at<1>().as_string(); }
+ bool has_value() const { return at<2>().valid(); }
+ ::protozero::ConstChars value() const { return at<2>().as_string(); }
+};
+
+class GpuRenderStageEvent_ExtraData : public ::protozero::Message {
+ public:
+ using Decoder = GpuRenderStageEvent_ExtraData_Decoder;
+ enum : int32_t {
+ kNameFieldNumber = 1,
+ kValueFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.GpuRenderStageEvent.ExtraData"; }
+
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ GpuRenderStageEvent_ExtraData>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Value =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ GpuRenderStageEvent_ExtraData>;
+
+ static constexpr FieldMetadata_Value kValue{};
+ void set_value(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Value::kFieldId, data, size);
+ }
+ void set_value(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Value::kFieldId, chars.data, chars.size);
+ }
+ void set_value(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Value::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/gpu/vulkan_api_event.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_GPU_VULKAN_API_EVENT_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_GPU_VULKAN_API_EVENT_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class VulkanApiEvent_VkDebugUtilsObjectName;
+class VulkanApiEvent_VkQueueSubmit;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class VulkanApiEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ VulkanApiEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit VulkanApiEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit VulkanApiEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_vk_debug_utils_object_name() const { return at<1>().valid(); }
+ ::protozero::ConstBytes vk_debug_utils_object_name() const { return at<1>().as_bytes(); }
+ bool has_vk_queue_submit() const { return at<2>().valid(); }
+ ::protozero::ConstBytes vk_queue_submit() const { return at<2>().as_bytes(); }
+};
+
+class VulkanApiEvent : public ::protozero::Message {
+ public:
+ using Decoder = VulkanApiEvent_Decoder;
+ enum : int32_t {
+ kVkDebugUtilsObjectNameFieldNumber = 1,
+ kVkQueueSubmitFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.VulkanApiEvent"; }
+
+ using VkDebugUtilsObjectName = ::perfetto::protos::pbzero::VulkanApiEvent_VkDebugUtilsObjectName;
+ using VkQueueSubmit = ::perfetto::protos::pbzero::VulkanApiEvent_VkQueueSubmit;
+
+ using FieldMetadata_VkDebugUtilsObjectName =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ VulkanApiEvent_VkDebugUtilsObjectName,
+ VulkanApiEvent>;
+
+ static constexpr FieldMetadata_VkDebugUtilsObjectName kVkDebugUtilsObjectName{};
+ template <typename T = VulkanApiEvent_VkDebugUtilsObjectName> T* set_vk_debug_utils_object_name() {
+ return BeginNestedMessage<T>(1);
+ }
+
+
+ using FieldMetadata_VkQueueSubmit =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ VulkanApiEvent_VkQueueSubmit,
+ VulkanApiEvent>;
+
+ static constexpr FieldMetadata_VkQueueSubmit kVkQueueSubmit{};
+ template <typename T = VulkanApiEvent_VkQueueSubmit> T* set_vk_queue_submit() {
+ return BeginNestedMessage<T>(2);
+ }
+
+};
+
+class VulkanApiEvent_VkQueueSubmit_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/6, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ VulkanApiEvent_VkQueueSubmit_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit VulkanApiEvent_VkQueueSubmit_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit VulkanApiEvent_VkQueueSubmit_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_duration_ns() const { return at<1>().valid(); }
+ uint64_t duration_ns() const { return at<1>().as_uint64(); }
+ bool has_pid() const { return at<2>().valid(); }
+ uint32_t pid() const { return at<2>().as_uint32(); }
+ bool has_tid() const { return at<3>().valid(); }
+ uint32_t tid() const { return at<3>().as_uint32(); }
+ bool has_vk_queue() const { return at<4>().valid(); }
+ uint64_t vk_queue() const { return at<4>().as_uint64(); }
+ bool has_vk_command_buffers() const { return at<5>().valid(); }
+ ::protozero::RepeatedFieldIterator<uint64_t> vk_command_buffers() const { return GetRepeated<uint64_t>(5); }
+ bool has_submission_id() const { return at<6>().valid(); }
+ uint32_t submission_id() const { return at<6>().as_uint32(); }
+};
+
+class VulkanApiEvent_VkQueueSubmit : public ::protozero::Message {
+ public:
+ using Decoder = VulkanApiEvent_VkQueueSubmit_Decoder;
+ enum : int32_t {
+ kDurationNsFieldNumber = 1,
+ kPidFieldNumber = 2,
+ kTidFieldNumber = 3,
+ kVkQueueFieldNumber = 4,
+ kVkCommandBuffersFieldNumber = 5,
+ kSubmissionIdFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.VulkanApiEvent.VkQueueSubmit"; }
+
+
+ using FieldMetadata_DurationNs =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ VulkanApiEvent_VkQueueSubmit>;
+
+ static constexpr FieldMetadata_DurationNs kDurationNs{};
+ void set_duration_ns(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DurationNs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ VulkanApiEvent_VkQueueSubmit>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Tid =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ VulkanApiEvent_VkQueueSubmit>;
+
+ static constexpr FieldMetadata_Tid kTid{};
+ void set_tid(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Tid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_VkQueue =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ VulkanApiEvent_VkQueueSubmit>;
+
+ static constexpr FieldMetadata_VkQueue kVkQueue{};
+ void set_vk_queue(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_VkQueue::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_VkCommandBuffers =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ VulkanApiEvent_VkQueueSubmit>;
+
+ static constexpr FieldMetadata_VkCommandBuffers kVkCommandBuffers{};
+ void add_vk_command_buffers(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_VkCommandBuffers::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SubmissionId =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ VulkanApiEvent_VkQueueSubmit>;
+
+ static constexpr FieldMetadata_SubmissionId kSubmissionId{};
+ void set_submission_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SubmissionId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class VulkanApiEvent_VkDebugUtilsObjectName_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ VulkanApiEvent_VkDebugUtilsObjectName_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit VulkanApiEvent_VkDebugUtilsObjectName_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit VulkanApiEvent_VkDebugUtilsObjectName_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_pid() const { return at<1>().valid(); }
+ uint32_t pid() const { return at<1>().as_uint32(); }
+ bool has_vk_device() const { return at<2>().valid(); }
+ uint64_t vk_device() const { return at<2>().as_uint64(); }
+ bool has_object_type() const { return at<3>().valid(); }
+ int32_t object_type() const { return at<3>().as_int32(); }
+ bool has_object() const { return at<4>().valid(); }
+ uint64_t object() const { return at<4>().as_uint64(); }
+ bool has_object_name() const { return at<5>().valid(); }
+ ::protozero::ConstChars object_name() const { return at<5>().as_string(); }
+};
+
+class VulkanApiEvent_VkDebugUtilsObjectName : public ::protozero::Message {
+ public:
+ using Decoder = VulkanApiEvent_VkDebugUtilsObjectName_Decoder;
+ enum : int32_t {
+ kPidFieldNumber = 1,
+ kVkDeviceFieldNumber = 2,
+ kObjectTypeFieldNumber = 3,
+ kObjectFieldNumber = 4,
+ kObjectNameFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.VulkanApiEvent.VkDebugUtilsObjectName"; }
+
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ VulkanApiEvent_VkDebugUtilsObjectName>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_VkDevice =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ VulkanApiEvent_VkDebugUtilsObjectName>;
+
+ static constexpr FieldMetadata_VkDevice kVkDevice{};
+ void set_vk_device(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_VkDevice::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ObjectType =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ VulkanApiEvent_VkDebugUtilsObjectName>;
+
+ static constexpr FieldMetadata_ObjectType kObjectType{};
+ void set_object_type(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ObjectType::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Object =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ VulkanApiEvent_VkDebugUtilsObjectName>;
+
+ static constexpr FieldMetadata_Object kObject{};
+ void set_object(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Object::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ObjectName =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ VulkanApiEvent_VkDebugUtilsObjectName>;
+
+ static constexpr FieldMetadata_ObjectName kObjectName{};
+ void set_object_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_ObjectName::kFieldId, data, size);
+ }
+ void set_object_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_ObjectName::kFieldId, chars.data, chars.size);
+ }
+ void set_object_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_ObjectName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/gpu/vulkan_memory_event.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_GPU_VULKAN_MEMORY_EVENT_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_GPU_VULKAN_MEMORY_EVENT_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class VulkanMemoryEventAnnotation;
+namespace perfetto_pbzero_enum_VulkanMemoryEvent {
+enum AllocationScope : int32_t;
+} // namespace perfetto_pbzero_enum_VulkanMemoryEvent
+using VulkanMemoryEvent_AllocationScope = perfetto_pbzero_enum_VulkanMemoryEvent::AllocationScope;
+namespace perfetto_pbzero_enum_VulkanMemoryEvent {
+enum Operation : int32_t;
+} // namespace perfetto_pbzero_enum_VulkanMemoryEvent
+using VulkanMemoryEvent_Operation = perfetto_pbzero_enum_VulkanMemoryEvent::Operation;
+namespace perfetto_pbzero_enum_VulkanMemoryEvent {
+enum Source : int32_t;
+} // namespace perfetto_pbzero_enum_VulkanMemoryEvent
+using VulkanMemoryEvent_Source = perfetto_pbzero_enum_VulkanMemoryEvent::Source;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+namespace perfetto_pbzero_enum_VulkanMemoryEvent {
+enum Source : int32_t {
+ SOURCE_UNSPECIFIED = 0,
+ SOURCE_DRIVER = 1,
+ SOURCE_DEVICE = 2,
+ SOURCE_DEVICE_MEMORY = 3,
+ SOURCE_BUFFER = 4,
+ SOURCE_IMAGE = 5,
+};
+} // namespace perfetto_pbzero_enum_VulkanMemoryEvent
+using VulkanMemoryEvent_Source = perfetto_pbzero_enum_VulkanMemoryEvent::Source;
+
+
+constexpr VulkanMemoryEvent_Source VulkanMemoryEvent_Source_MIN = VulkanMemoryEvent_Source::SOURCE_UNSPECIFIED;
+constexpr VulkanMemoryEvent_Source VulkanMemoryEvent_Source_MAX = VulkanMemoryEvent_Source::SOURCE_IMAGE;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* VulkanMemoryEvent_Source_Name(::perfetto::protos::pbzero::VulkanMemoryEvent_Source value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::VulkanMemoryEvent_Source::SOURCE_UNSPECIFIED:
+ return "SOURCE_UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::VulkanMemoryEvent_Source::SOURCE_DRIVER:
+ return "SOURCE_DRIVER";
+
+ case ::perfetto::protos::pbzero::VulkanMemoryEvent_Source::SOURCE_DEVICE:
+ return "SOURCE_DEVICE";
+
+ case ::perfetto::protos::pbzero::VulkanMemoryEvent_Source::SOURCE_DEVICE_MEMORY:
+ return "SOURCE_DEVICE_MEMORY";
+
+ case ::perfetto::protos::pbzero::VulkanMemoryEvent_Source::SOURCE_BUFFER:
+ return "SOURCE_BUFFER";
+
+ case ::perfetto::protos::pbzero::VulkanMemoryEvent_Source::SOURCE_IMAGE:
+ return "SOURCE_IMAGE";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_VulkanMemoryEvent {
+enum Operation : int32_t {
+ OP_UNSPECIFIED = 0,
+ OP_CREATE = 1,
+ OP_DESTROY = 2,
+ OP_BIND = 3,
+ OP_DESTROY_BOUND = 4,
+ OP_ANNOTATIONS = 5,
+};
+} // namespace perfetto_pbzero_enum_VulkanMemoryEvent
+using VulkanMemoryEvent_Operation = perfetto_pbzero_enum_VulkanMemoryEvent::Operation;
+
+
+constexpr VulkanMemoryEvent_Operation VulkanMemoryEvent_Operation_MIN = VulkanMemoryEvent_Operation::OP_UNSPECIFIED;
+constexpr VulkanMemoryEvent_Operation VulkanMemoryEvent_Operation_MAX = VulkanMemoryEvent_Operation::OP_ANNOTATIONS;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* VulkanMemoryEvent_Operation_Name(::perfetto::protos::pbzero::VulkanMemoryEvent_Operation value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::VulkanMemoryEvent_Operation::OP_UNSPECIFIED:
+ return "OP_UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::VulkanMemoryEvent_Operation::OP_CREATE:
+ return "OP_CREATE";
+
+ case ::perfetto::protos::pbzero::VulkanMemoryEvent_Operation::OP_DESTROY:
+ return "OP_DESTROY";
+
+ case ::perfetto::protos::pbzero::VulkanMemoryEvent_Operation::OP_BIND:
+ return "OP_BIND";
+
+ case ::perfetto::protos::pbzero::VulkanMemoryEvent_Operation::OP_DESTROY_BOUND:
+ return "OP_DESTROY_BOUND";
+
+ case ::perfetto::protos::pbzero::VulkanMemoryEvent_Operation::OP_ANNOTATIONS:
+ return "OP_ANNOTATIONS";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_VulkanMemoryEvent {
+enum AllocationScope : int32_t {
+ SCOPE_UNSPECIFIED = 0,
+ SCOPE_COMMAND = 1,
+ SCOPE_OBJECT = 2,
+ SCOPE_CACHE = 3,
+ SCOPE_DEVICE = 4,
+ SCOPE_INSTANCE = 5,
+};
+} // namespace perfetto_pbzero_enum_VulkanMemoryEvent
+using VulkanMemoryEvent_AllocationScope = perfetto_pbzero_enum_VulkanMemoryEvent::AllocationScope;
+
+
+constexpr VulkanMemoryEvent_AllocationScope VulkanMemoryEvent_AllocationScope_MIN = VulkanMemoryEvent_AllocationScope::SCOPE_UNSPECIFIED;
+constexpr VulkanMemoryEvent_AllocationScope VulkanMemoryEvent_AllocationScope_MAX = VulkanMemoryEvent_AllocationScope::SCOPE_INSTANCE;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* VulkanMemoryEvent_AllocationScope_Name(::perfetto::protos::pbzero::VulkanMemoryEvent_AllocationScope value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::VulkanMemoryEvent_AllocationScope::SCOPE_UNSPECIFIED:
+ return "SCOPE_UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::VulkanMemoryEvent_AllocationScope::SCOPE_COMMAND:
+ return "SCOPE_COMMAND";
+
+ case ::perfetto::protos::pbzero::VulkanMemoryEvent_AllocationScope::SCOPE_OBJECT:
+ return "SCOPE_OBJECT";
+
+ case ::perfetto::protos::pbzero::VulkanMemoryEvent_AllocationScope::SCOPE_CACHE:
+ return "SCOPE_CACHE";
+
+ case ::perfetto::protos::pbzero::VulkanMemoryEvent_AllocationScope::SCOPE_DEVICE:
+ return "SCOPE_DEVICE";
+
+ case ::perfetto::protos::pbzero::VulkanMemoryEvent_AllocationScope::SCOPE_INSTANCE:
+ return "SCOPE_INSTANCE";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+class VulkanMemoryEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/20, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ VulkanMemoryEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit VulkanMemoryEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit VulkanMemoryEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_source() const { return at<1>().valid(); }
+ int32_t source() const { return at<1>().as_int32(); }
+ bool has_operation() const { return at<2>().valid(); }
+ int32_t operation() const { return at<2>().as_int32(); }
+ bool has_timestamp() const { return at<3>().valid(); }
+ int64_t timestamp() const { return at<3>().as_int64(); }
+ bool has_pid() const { return at<4>().valid(); }
+ uint32_t pid() const { return at<4>().as_uint32(); }
+ bool has_memory_address() const { return at<5>().valid(); }
+ uint64_t memory_address() const { return at<5>().as_uint64(); }
+ bool has_memory_size() const { return at<6>().valid(); }
+ uint64_t memory_size() const { return at<6>().as_uint64(); }
+ bool has_caller_iid() const { return at<7>().valid(); }
+ uint64_t caller_iid() const { return at<7>().as_uint64(); }
+ bool has_allocation_scope() const { return at<8>().valid(); }
+ int32_t allocation_scope() const { return at<8>().as_int32(); }
+ bool has_annotations() const { return at<9>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> annotations() const { return GetRepeated<::protozero::ConstBytes>(9); }
+ bool has_device() const { return at<16>().valid(); }
+ uint64_t device() const { return at<16>().as_uint64(); }
+ bool has_device_memory() const { return at<17>().valid(); }
+ uint64_t device_memory() const { return at<17>().as_uint64(); }
+ bool has_memory_type() const { return at<18>().valid(); }
+ uint32_t memory_type() const { return at<18>().as_uint32(); }
+ bool has_heap() const { return at<19>().valid(); }
+ uint32_t heap() const { return at<19>().as_uint32(); }
+ bool has_object_handle() const { return at<20>().valid(); }
+ uint64_t object_handle() const { return at<20>().as_uint64(); }
+};
+
+class VulkanMemoryEvent : public ::protozero::Message {
+ public:
+ using Decoder = VulkanMemoryEvent_Decoder;
+ enum : int32_t {
+ kSourceFieldNumber = 1,
+ kOperationFieldNumber = 2,
+ kTimestampFieldNumber = 3,
+ kPidFieldNumber = 4,
+ kMemoryAddressFieldNumber = 5,
+ kMemorySizeFieldNumber = 6,
+ kCallerIidFieldNumber = 7,
+ kAllocationScopeFieldNumber = 8,
+ kAnnotationsFieldNumber = 9,
+ kDeviceFieldNumber = 16,
+ kDeviceMemoryFieldNumber = 17,
+ kMemoryTypeFieldNumber = 18,
+ kHeapFieldNumber = 19,
+ kObjectHandleFieldNumber = 20,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.VulkanMemoryEvent"; }
+
+
+ using Source = ::perfetto::protos::pbzero::VulkanMemoryEvent_Source;
+ static inline const char* Source_Name(Source value) {
+ return ::perfetto::protos::pbzero::VulkanMemoryEvent_Source_Name(value);
+ }
+
+ using Operation = ::perfetto::protos::pbzero::VulkanMemoryEvent_Operation;
+ static inline const char* Operation_Name(Operation value) {
+ return ::perfetto::protos::pbzero::VulkanMemoryEvent_Operation_Name(value);
+ }
+
+ using AllocationScope = ::perfetto::protos::pbzero::VulkanMemoryEvent_AllocationScope;
+ static inline const char* AllocationScope_Name(AllocationScope value) {
+ return ::perfetto::protos::pbzero::VulkanMemoryEvent_AllocationScope_Name(value);
+ }
+ static inline const Source SOURCE_UNSPECIFIED = Source::SOURCE_UNSPECIFIED;
+ static inline const Source SOURCE_DRIVER = Source::SOURCE_DRIVER;
+ static inline const Source SOURCE_DEVICE = Source::SOURCE_DEVICE;
+ static inline const Source SOURCE_DEVICE_MEMORY = Source::SOURCE_DEVICE_MEMORY;
+ static inline const Source SOURCE_BUFFER = Source::SOURCE_BUFFER;
+ static inline const Source SOURCE_IMAGE = Source::SOURCE_IMAGE;
+ static inline const Operation OP_UNSPECIFIED = Operation::OP_UNSPECIFIED;
+ static inline const Operation OP_CREATE = Operation::OP_CREATE;
+ static inline const Operation OP_DESTROY = Operation::OP_DESTROY;
+ static inline const Operation OP_BIND = Operation::OP_BIND;
+ static inline const Operation OP_DESTROY_BOUND = Operation::OP_DESTROY_BOUND;
+ static inline const Operation OP_ANNOTATIONS = Operation::OP_ANNOTATIONS;
+ static inline const AllocationScope SCOPE_UNSPECIFIED = AllocationScope::SCOPE_UNSPECIFIED;
+ static inline const AllocationScope SCOPE_COMMAND = AllocationScope::SCOPE_COMMAND;
+ static inline const AllocationScope SCOPE_OBJECT = AllocationScope::SCOPE_OBJECT;
+ static inline const AllocationScope SCOPE_CACHE = AllocationScope::SCOPE_CACHE;
+ static inline const AllocationScope SCOPE_DEVICE = AllocationScope::SCOPE_DEVICE;
+ static inline const AllocationScope SCOPE_INSTANCE = AllocationScope::SCOPE_INSTANCE;
+
+ using FieldMetadata_Source =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ VulkanMemoryEvent_Source,
+ VulkanMemoryEvent>;
+
+ static constexpr FieldMetadata_Source kSource{};
+ void set_source(VulkanMemoryEvent_Source value) {
+ static constexpr uint32_t field_id = FieldMetadata_Source::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Operation =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ VulkanMemoryEvent_Operation,
+ VulkanMemoryEvent>;
+
+ static constexpr FieldMetadata_Operation kOperation{};
+ void set_operation(VulkanMemoryEvent_Operation value) {
+ static constexpr uint32_t field_id = FieldMetadata_Operation::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Timestamp =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ VulkanMemoryEvent>;
+
+ static constexpr FieldMetadata_Timestamp kTimestamp{};
+ void set_timestamp(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Timestamp::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ VulkanMemoryEvent>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MemoryAddress =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFixed64,
+ uint64_t,
+ VulkanMemoryEvent>;
+
+ static constexpr FieldMetadata_MemoryAddress kMemoryAddress{};
+ void set_memory_address(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MemoryAddress::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFixed64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MemorySize =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ VulkanMemoryEvent>;
+
+ static constexpr FieldMetadata_MemorySize kMemorySize{};
+ void set_memory_size(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MemorySize::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CallerIid =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ VulkanMemoryEvent>;
+
+ static constexpr FieldMetadata_CallerIid kCallerIid{};
+ void set_caller_iid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CallerIid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_AllocationScope =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ VulkanMemoryEvent_AllocationScope,
+ VulkanMemoryEvent>;
+
+ static constexpr FieldMetadata_AllocationScope kAllocationScope{};
+ void set_allocation_scope(VulkanMemoryEvent_AllocationScope value) {
+ static constexpr uint32_t field_id = FieldMetadata_AllocationScope::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Annotations =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ VulkanMemoryEventAnnotation,
+ VulkanMemoryEvent>;
+
+ static constexpr FieldMetadata_Annotations kAnnotations{};
+ template <typename T = VulkanMemoryEventAnnotation> T* add_annotations() {
+ return BeginNestedMessage<T>(9);
+ }
+
+
+ using FieldMetadata_Device =
+ ::protozero::proto_utils::FieldMetadata<
+ 16,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFixed64,
+ uint64_t,
+ VulkanMemoryEvent>;
+
+ static constexpr FieldMetadata_Device kDevice{};
+ void set_device(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Device::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFixed64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DeviceMemory =
+ ::protozero::proto_utils::FieldMetadata<
+ 17,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFixed64,
+ uint64_t,
+ VulkanMemoryEvent>;
+
+ static constexpr FieldMetadata_DeviceMemory kDeviceMemory{};
+ void set_device_memory(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DeviceMemory::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFixed64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MemoryType =
+ ::protozero::proto_utils::FieldMetadata<
+ 18,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ VulkanMemoryEvent>;
+
+ static constexpr FieldMetadata_MemoryType kMemoryType{};
+ void set_memory_type(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MemoryType::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Heap =
+ ::protozero::proto_utils::FieldMetadata<
+ 19,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ VulkanMemoryEvent>;
+
+ static constexpr FieldMetadata_Heap kHeap{};
+ void set_heap(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Heap::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ObjectHandle =
+ ::protozero::proto_utils::FieldMetadata<
+ 20,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFixed64,
+ uint64_t,
+ VulkanMemoryEvent>;
+
+ static constexpr FieldMetadata_ObjectHandle kObjectHandle{};
+ void set_object_handle(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ObjectHandle::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFixed64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class VulkanMemoryEventAnnotation_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ VulkanMemoryEventAnnotation_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit VulkanMemoryEventAnnotation_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit VulkanMemoryEventAnnotation_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_key_iid() const { return at<1>().valid(); }
+ uint64_t key_iid() const { return at<1>().as_uint64(); }
+ bool has_int_value() const { return at<2>().valid(); }
+ int64_t int_value() const { return at<2>().as_int64(); }
+ bool has_double_value() const { return at<3>().valid(); }
+ double double_value() const { return at<3>().as_double(); }
+ bool has_string_iid() const { return at<4>().valid(); }
+ uint64_t string_iid() const { return at<4>().as_uint64(); }
+};
+
+class VulkanMemoryEventAnnotation : public ::protozero::Message {
+ public:
+ using Decoder = VulkanMemoryEventAnnotation_Decoder;
+ enum : int32_t {
+ kKeyIidFieldNumber = 1,
+ kIntValueFieldNumber = 2,
+ kDoubleValueFieldNumber = 3,
+ kStringIidFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.VulkanMemoryEventAnnotation"; }
+
+
+ using FieldMetadata_KeyIid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ VulkanMemoryEventAnnotation>;
+
+ static constexpr FieldMetadata_KeyIid kKeyIid{};
+ void set_key_iid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_KeyIid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IntValue =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ VulkanMemoryEventAnnotation>;
+
+ static constexpr FieldMetadata_IntValue kIntValue{};
+ void set_int_value(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_IntValue::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DoubleValue =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kDouble,
+ double,
+ VulkanMemoryEventAnnotation>;
+
+ static constexpr FieldMetadata_DoubleValue kDoubleValue{};
+ void set_double_value(double value) {
+ static constexpr uint32_t field_id = FieldMetadata_DoubleValue::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kDouble>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_StringIid =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ VulkanMemoryEventAnnotation>;
+
+ static constexpr FieldMetadata_StringIid kStringIid{};
+ void set_string_iid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_StringIid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/profiling/deobfuscation.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_PROFILING_DEOBFUSCATION_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_PROFILING_DEOBFUSCATION_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class ObfuscatedClass;
+class ObfuscatedMember;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class DeobfuscationMapping_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ DeobfuscationMapping_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit DeobfuscationMapping_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit DeobfuscationMapping_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_package_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars package_name() const { return at<1>().as_string(); }
+ bool has_version_code() const { return at<2>().valid(); }
+ int64_t version_code() const { return at<2>().as_int64(); }
+ bool has_obfuscated_classes() const { return at<3>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> obfuscated_classes() const { return GetRepeated<::protozero::ConstBytes>(3); }
+};
+
+class DeobfuscationMapping : public ::protozero::Message {
+ public:
+ using Decoder = DeobfuscationMapping_Decoder;
+ enum : int32_t {
+ kPackageNameFieldNumber = 1,
+ kVersionCodeFieldNumber = 2,
+ kObfuscatedClassesFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.DeobfuscationMapping"; }
+
+
+ using FieldMetadata_PackageName =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ DeobfuscationMapping>;
+
+ static constexpr FieldMetadata_PackageName kPackageName{};
+ void set_package_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_PackageName::kFieldId, data, size);
+ }
+ void set_package_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_PackageName::kFieldId, chars.data, chars.size);
+ }
+ void set_package_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_PackageName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_VersionCode =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ DeobfuscationMapping>;
+
+ static constexpr FieldMetadata_VersionCode kVersionCode{};
+ void set_version_code(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_VersionCode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ObfuscatedClasses =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ObfuscatedClass,
+ DeobfuscationMapping>;
+
+ static constexpr FieldMetadata_ObfuscatedClasses kObfuscatedClasses{};
+ template <typename T = ObfuscatedClass> T* add_obfuscated_classes() {
+ return BeginNestedMessage<T>(3);
+ }
+
+};
+
+class ObfuscatedClass_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ ObfuscatedClass_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ObfuscatedClass_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ObfuscatedClass_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_obfuscated_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars obfuscated_name() const { return at<1>().as_string(); }
+ bool has_deobfuscated_name() const { return at<2>().valid(); }
+ ::protozero::ConstChars deobfuscated_name() const { return at<2>().as_string(); }
+ bool has_obfuscated_members() const { return at<3>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> obfuscated_members() const { return GetRepeated<::protozero::ConstBytes>(3); }
+ bool has_obfuscated_methods() const { return at<4>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> obfuscated_methods() const { return GetRepeated<::protozero::ConstBytes>(4); }
+};
+
+class ObfuscatedClass : public ::protozero::Message {
+ public:
+ using Decoder = ObfuscatedClass_Decoder;
+ enum : int32_t {
+ kObfuscatedNameFieldNumber = 1,
+ kDeobfuscatedNameFieldNumber = 2,
+ kObfuscatedMembersFieldNumber = 3,
+ kObfuscatedMethodsFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ObfuscatedClass"; }
+
+
+ using FieldMetadata_ObfuscatedName =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ObfuscatedClass>;
+
+ static constexpr FieldMetadata_ObfuscatedName kObfuscatedName{};
+ void set_obfuscated_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_ObfuscatedName::kFieldId, data, size);
+ }
+ void set_obfuscated_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_ObfuscatedName::kFieldId, chars.data, chars.size);
+ }
+ void set_obfuscated_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_ObfuscatedName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DeobfuscatedName =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ObfuscatedClass>;
+
+ static constexpr FieldMetadata_DeobfuscatedName kDeobfuscatedName{};
+ void set_deobfuscated_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_DeobfuscatedName::kFieldId, data, size);
+ }
+ void set_deobfuscated_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_DeobfuscatedName::kFieldId, chars.data, chars.size);
+ }
+ void set_deobfuscated_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_DeobfuscatedName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ObfuscatedMembers =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ObfuscatedMember,
+ ObfuscatedClass>;
+
+ static constexpr FieldMetadata_ObfuscatedMembers kObfuscatedMembers{};
+ template <typename T = ObfuscatedMember> T* add_obfuscated_members() {
+ return BeginNestedMessage<T>(3);
+ }
+
+
+ using FieldMetadata_ObfuscatedMethods =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ObfuscatedMember,
+ ObfuscatedClass>;
+
+ static constexpr FieldMetadata_ObfuscatedMethods kObfuscatedMethods{};
+ template <typename T = ObfuscatedMember> T* add_obfuscated_methods() {
+ return BeginNestedMessage<T>(4);
+ }
+
+};
+
+class ObfuscatedMember_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ObfuscatedMember_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ObfuscatedMember_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ObfuscatedMember_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_obfuscated_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars obfuscated_name() const { return at<1>().as_string(); }
+ bool has_deobfuscated_name() const { return at<2>().valid(); }
+ ::protozero::ConstChars deobfuscated_name() const { return at<2>().as_string(); }
+};
+
+class ObfuscatedMember : public ::protozero::Message {
+ public:
+ using Decoder = ObfuscatedMember_Decoder;
+ enum : int32_t {
+ kObfuscatedNameFieldNumber = 1,
+ kDeobfuscatedNameFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ObfuscatedMember"; }
+
+
+ using FieldMetadata_ObfuscatedName =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ObfuscatedMember>;
+
+ static constexpr FieldMetadata_ObfuscatedName kObfuscatedName{};
+ void set_obfuscated_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_ObfuscatedName::kFieldId, data, size);
+ }
+ void set_obfuscated_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_ObfuscatedName::kFieldId, chars.data, chars.size);
+ }
+ void set_obfuscated_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_ObfuscatedName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DeobfuscatedName =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ObfuscatedMember>;
+
+ static constexpr FieldMetadata_DeobfuscatedName kDeobfuscatedName{};
+ void set_deobfuscated_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_DeobfuscatedName::kFieldId, data, size);
+ }
+ void set_deobfuscated_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_DeobfuscatedName::kFieldId, chars.data, chars.size);
+ }
+ void set_deobfuscated_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_DeobfuscatedName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/profiling/heap_graph.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_PROFILING_HEAP_GRAPH_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_PROFILING_HEAP_GRAPH_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/profiling/deobfuscation.pbzero.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class HeapGraphObject;
+class HeapGraphRoot;
+class HeapGraphType;
+class InternedString;
+namespace perfetto_pbzero_enum_HeapGraphRoot {
+enum Type : int32_t;
+} // namespace perfetto_pbzero_enum_HeapGraphRoot
+using HeapGraphRoot_Type = perfetto_pbzero_enum_HeapGraphRoot::Type;
+namespace perfetto_pbzero_enum_HeapGraphType {
+enum Kind : int32_t;
+} // namespace perfetto_pbzero_enum_HeapGraphType
+using HeapGraphType_Kind = perfetto_pbzero_enum_HeapGraphType::Kind;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+namespace perfetto_pbzero_enum_HeapGraphType {
+enum Kind : int32_t {
+ KIND_UNKNOWN = 0,
+ KIND_NORMAL = 1,
+ KIND_NOREFERENCES = 2,
+ KIND_STRING = 3,
+ KIND_ARRAY = 4,
+ KIND_CLASS = 5,
+ KIND_CLASSLOADER = 6,
+ KIND_DEXCACHE = 7,
+ KIND_SOFT_REFERENCE = 8,
+ KIND_WEAK_REFERENCE = 9,
+ KIND_FINALIZER_REFERENCE = 10,
+ KIND_PHANTOM_REFERENCE = 11,
+};
+} // namespace perfetto_pbzero_enum_HeapGraphType
+using HeapGraphType_Kind = perfetto_pbzero_enum_HeapGraphType::Kind;
+
+
+constexpr HeapGraphType_Kind HeapGraphType_Kind_MIN = HeapGraphType_Kind::KIND_UNKNOWN;
+constexpr HeapGraphType_Kind HeapGraphType_Kind_MAX = HeapGraphType_Kind::KIND_PHANTOM_REFERENCE;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* HeapGraphType_Kind_Name(::perfetto::protos::pbzero::HeapGraphType_Kind value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::HeapGraphType_Kind::KIND_UNKNOWN:
+ return "KIND_UNKNOWN";
+
+ case ::perfetto::protos::pbzero::HeapGraphType_Kind::KIND_NORMAL:
+ return "KIND_NORMAL";
+
+ case ::perfetto::protos::pbzero::HeapGraphType_Kind::KIND_NOREFERENCES:
+ return "KIND_NOREFERENCES";
+
+ case ::perfetto::protos::pbzero::HeapGraphType_Kind::KIND_STRING:
+ return "KIND_STRING";
+
+ case ::perfetto::protos::pbzero::HeapGraphType_Kind::KIND_ARRAY:
+ return "KIND_ARRAY";
+
+ case ::perfetto::protos::pbzero::HeapGraphType_Kind::KIND_CLASS:
+ return "KIND_CLASS";
+
+ case ::perfetto::protos::pbzero::HeapGraphType_Kind::KIND_CLASSLOADER:
+ return "KIND_CLASSLOADER";
+
+ case ::perfetto::protos::pbzero::HeapGraphType_Kind::KIND_DEXCACHE:
+ return "KIND_DEXCACHE";
+
+ case ::perfetto::protos::pbzero::HeapGraphType_Kind::KIND_SOFT_REFERENCE:
+ return "KIND_SOFT_REFERENCE";
+
+ case ::perfetto::protos::pbzero::HeapGraphType_Kind::KIND_WEAK_REFERENCE:
+ return "KIND_WEAK_REFERENCE";
+
+ case ::perfetto::protos::pbzero::HeapGraphType_Kind::KIND_FINALIZER_REFERENCE:
+ return "KIND_FINALIZER_REFERENCE";
+
+ case ::perfetto::protos::pbzero::HeapGraphType_Kind::KIND_PHANTOM_REFERENCE:
+ return "KIND_PHANTOM_REFERENCE";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_HeapGraphRoot {
+enum Type : int32_t {
+ ROOT_UNKNOWN = 0,
+ ROOT_JNI_GLOBAL = 1,
+ ROOT_JNI_LOCAL = 2,
+ ROOT_JAVA_FRAME = 3,
+ ROOT_NATIVE_STACK = 4,
+ ROOT_STICKY_CLASS = 5,
+ ROOT_THREAD_BLOCK = 6,
+ ROOT_MONITOR_USED = 7,
+ ROOT_THREAD_OBJECT = 8,
+ ROOT_INTERNED_STRING = 9,
+ ROOT_FINALIZING = 10,
+ ROOT_DEBUGGER = 11,
+ ROOT_REFERENCE_CLEANUP = 12,
+ ROOT_VM_INTERNAL = 13,
+ ROOT_JNI_MONITOR = 14,
+};
+} // namespace perfetto_pbzero_enum_HeapGraphRoot
+using HeapGraphRoot_Type = perfetto_pbzero_enum_HeapGraphRoot::Type;
+
+
+constexpr HeapGraphRoot_Type HeapGraphRoot_Type_MIN = HeapGraphRoot_Type::ROOT_UNKNOWN;
+constexpr HeapGraphRoot_Type HeapGraphRoot_Type_MAX = HeapGraphRoot_Type::ROOT_JNI_MONITOR;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* HeapGraphRoot_Type_Name(::perfetto::protos::pbzero::HeapGraphRoot_Type value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::HeapGraphRoot_Type::ROOT_UNKNOWN:
+ return "ROOT_UNKNOWN";
+
+ case ::perfetto::protos::pbzero::HeapGraphRoot_Type::ROOT_JNI_GLOBAL:
+ return "ROOT_JNI_GLOBAL";
+
+ case ::perfetto::protos::pbzero::HeapGraphRoot_Type::ROOT_JNI_LOCAL:
+ return "ROOT_JNI_LOCAL";
+
+ case ::perfetto::protos::pbzero::HeapGraphRoot_Type::ROOT_JAVA_FRAME:
+ return "ROOT_JAVA_FRAME";
+
+ case ::perfetto::protos::pbzero::HeapGraphRoot_Type::ROOT_NATIVE_STACK:
+ return "ROOT_NATIVE_STACK";
+
+ case ::perfetto::protos::pbzero::HeapGraphRoot_Type::ROOT_STICKY_CLASS:
+ return "ROOT_STICKY_CLASS";
+
+ case ::perfetto::protos::pbzero::HeapGraphRoot_Type::ROOT_THREAD_BLOCK:
+ return "ROOT_THREAD_BLOCK";
+
+ case ::perfetto::protos::pbzero::HeapGraphRoot_Type::ROOT_MONITOR_USED:
+ return "ROOT_MONITOR_USED";
+
+ case ::perfetto::protos::pbzero::HeapGraphRoot_Type::ROOT_THREAD_OBJECT:
+ return "ROOT_THREAD_OBJECT";
+
+ case ::perfetto::protos::pbzero::HeapGraphRoot_Type::ROOT_INTERNED_STRING:
+ return "ROOT_INTERNED_STRING";
+
+ case ::perfetto::protos::pbzero::HeapGraphRoot_Type::ROOT_FINALIZING:
+ return "ROOT_FINALIZING";
+
+ case ::perfetto::protos::pbzero::HeapGraphRoot_Type::ROOT_DEBUGGER:
+ return "ROOT_DEBUGGER";
+
+ case ::perfetto::protos::pbzero::HeapGraphRoot_Type::ROOT_REFERENCE_CLEANUP:
+ return "ROOT_REFERENCE_CLEANUP";
+
+ case ::perfetto::protos::pbzero::HeapGraphRoot_Type::ROOT_VM_INTERNAL:
+ return "ROOT_VM_INTERNAL";
+
+ case ::perfetto::protos::pbzero::HeapGraphRoot_Type::ROOT_JNI_MONITOR:
+ return "ROOT_JNI_MONITOR";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+class HeapGraph_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/9, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ HeapGraph_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit HeapGraph_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit HeapGraph_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_pid() const { return at<1>().valid(); }
+ int32_t pid() const { return at<1>().as_int32(); }
+ bool has_objects() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> objects() const { return GetRepeated<::protozero::ConstBytes>(2); }
+ bool has_roots() const { return at<7>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> roots() const { return GetRepeated<::protozero::ConstBytes>(7); }
+ bool has_types() const { return at<9>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> types() const { return GetRepeated<::protozero::ConstBytes>(9); }
+ bool has_field_names() const { return at<4>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> field_names() const { return GetRepeated<::protozero::ConstBytes>(4); }
+ bool has_location_names() const { return at<8>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> location_names() const { return GetRepeated<::protozero::ConstBytes>(8); }
+ bool has_continued() const { return at<5>().valid(); }
+ bool continued() const { return at<5>().as_bool(); }
+ bool has_index() const { return at<6>().valid(); }
+ uint64_t index() const { return at<6>().as_uint64(); }
+};
+
+class HeapGraph : public ::protozero::Message {
+ public:
+ using Decoder = HeapGraph_Decoder;
+ enum : int32_t {
+ kPidFieldNumber = 1,
+ kObjectsFieldNumber = 2,
+ kRootsFieldNumber = 7,
+ kTypesFieldNumber = 9,
+ kFieldNamesFieldNumber = 4,
+ kLocationNamesFieldNumber = 8,
+ kContinuedFieldNumber = 5,
+ kIndexFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.HeapGraph"; }
+
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ HeapGraph>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Objects =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ HeapGraphObject,
+ HeapGraph>;
+
+ static constexpr FieldMetadata_Objects kObjects{};
+ template <typename T = HeapGraphObject> T* add_objects() {
+ return BeginNestedMessage<T>(2);
+ }
+
+
+ using FieldMetadata_Roots =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ HeapGraphRoot,
+ HeapGraph>;
+
+ static constexpr FieldMetadata_Roots kRoots{};
+ template <typename T = HeapGraphRoot> T* add_roots() {
+ return BeginNestedMessage<T>(7);
+ }
+
+
+ using FieldMetadata_Types =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ HeapGraphType,
+ HeapGraph>;
+
+ static constexpr FieldMetadata_Types kTypes{};
+ template <typename T = HeapGraphType> T* add_types() {
+ return BeginNestedMessage<T>(9);
+ }
+
+
+ using FieldMetadata_FieldNames =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ InternedString,
+ HeapGraph>;
+
+ static constexpr FieldMetadata_FieldNames kFieldNames{};
+ template <typename T = InternedString> T* add_field_names() {
+ return BeginNestedMessage<T>(4);
+ }
+
+
+ using FieldMetadata_LocationNames =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ InternedString,
+ HeapGraph>;
+
+ static constexpr FieldMetadata_LocationNames kLocationNames{};
+ template <typename T = InternedString> T* add_location_names() {
+ return BeginNestedMessage<T>(8);
+ }
+
+
+ using FieldMetadata_Continued =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ HeapGraph>;
+
+ static constexpr FieldMetadata_Continued kContinued{};
+ void set_continued(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_Continued::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Index =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ HeapGraph>;
+
+ static constexpr FieldMetadata_Index kIndex{};
+ void set_index(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Index::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class HeapGraphObject_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/8, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ HeapGraphObject_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit HeapGraphObject_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit HeapGraphObject_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_id() const { return at<1>().valid(); }
+ uint64_t id() const { return at<1>().as_uint64(); }
+ bool has_id_delta() const { return at<7>().valid(); }
+ uint64_t id_delta() const { return at<7>().as_uint64(); }
+ bool has_type_id() const { return at<2>().valid(); }
+ uint64_t type_id() const { return at<2>().as_uint64(); }
+ bool has_self_size() const { return at<3>().valid(); }
+ uint64_t self_size() const { return at<3>().as_uint64(); }
+ bool has_reference_field_id_base() const { return at<6>().valid(); }
+ uint64_t reference_field_id_base() const { return at<6>().as_uint64(); }
+ bool has_reference_field_id() const { return at<4>().valid(); }
+ ::protozero::PackedRepeatedFieldIterator<::protozero::proto_utils::ProtoWireType::kVarInt, uint64_t> reference_field_id(bool* parse_error_ptr) const { return GetPackedRepeated<::protozero::proto_utils::ProtoWireType::kVarInt, uint64_t>(4, parse_error_ptr); }
+ bool has_reference_object_id() const { return at<5>().valid(); }
+ ::protozero::PackedRepeatedFieldIterator<::protozero::proto_utils::ProtoWireType::kVarInt, uint64_t> reference_object_id(bool* parse_error_ptr) const { return GetPackedRepeated<::protozero::proto_utils::ProtoWireType::kVarInt, uint64_t>(5, parse_error_ptr); }
+ bool has_native_allocation_registry_size_field() const { return at<8>().valid(); }
+ int64_t native_allocation_registry_size_field() const { return at<8>().as_int64(); }
+};
+
+class HeapGraphObject : public ::protozero::Message {
+ public:
+ using Decoder = HeapGraphObject_Decoder;
+ enum : int32_t {
+ kIdFieldNumber = 1,
+ kIdDeltaFieldNumber = 7,
+ kTypeIdFieldNumber = 2,
+ kSelfSizeFieldNumber = 3,
+ kReferenceFieldIdBaseFieldNumber = 6,
+ kReferenceFieldIdFieldNumber = 4,
+ kReferenceObjectIdFieldNumber = 5,
+ kNativeAllocationRegistrySizeFieldFieldNumber = 8,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.HeapGraphObject"; }
+
+
+ using FieldMetadata_Id =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ HeapGraphObject>;
+
+ static constexpr FieldMetadata_Id kId{};
+ void set_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Id::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IdDelta =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ HeapGraphObject>;
+
+ static constexpr FieldMetadata_IdDelta kIdDelta{};
+ void set_id_delta(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_IdDelta::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TypeId =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ HeapGraphObject>;
+
+ static constexpr FieldMetadata_TypeId kTypeId{};
+ void set_type_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TypeId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SelfSize =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ HeapGraphObject>;
+
+ static constexpr FieldMetadata_SelfSize kSelfSize{};
+ void set_self_size(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SelfSize::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ReferenceFieldIdBase =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ HeapGraphObject>;
+
+ static constexpr FieldMetadata_ReferenceFieldIdBase kReferenceFieldIdBase{};
+ void set_reference_field_id_base(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ReferenceFieldIdBase::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ReferenceFieldId =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kRepeatedPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ HeapGraphObject>;
+
+ static constexpr FieldMetadata_ReferenceFieldId kReferenceFieldId{};
+ void set_reference_field_id(const ::protozero::PackedVarInt& packed_buffer) {
+ AppendBytes(FieldMetadata_ReferenceFieldId::kFieldId, packed_buffer.data(),
+ packed_buffer.size());
+ }
+
+ using FieldMetadata_ReferenceObjectId =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kRepeatedPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ HeapGraphObject>;
+
+ static constexpr FieldMetadata_ReferenceObjectId kReferenceObjectId{};
+ void set_reference_object_id(const ::protozero::PackedVarInt& packed_buffer) {
+ AppendBytes(FieldMetadata_ReferenceObjectId::kFieldId, packed_buffer.data(),
+ packed_buffer.size());
+ }
+
+ using FieldMetadata_NativeAllocationRegistrySizeField =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ HeapGraphObject>;
+
+ static constexpr FieldMetadata_NativeAllocationRegistrySizeField kNativeAllocationRegistrySizeField{};
+ void set_native_allocation_registry_size_field(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NativeAllocationRegistrySizeField::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class HeapGraphType_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/8, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ HeapGraphType_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit HeapGraphType_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit HeapGraphType_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_id() const { return at<1>().valid(); }
+ uint64_t id() const { return at<1>().as_uint64(); }
+ bool has_location_id() const { return at<2>().valid(); }
+ uint64_t location_id() const { return at<2>().as_uint64(); }
+ bool has_class_name() const { return at<3>().valid(); }
+ ::protozero::ConstChars class_name() const { return at<3>().as_string(); }
+ bool has_object_size() const { return at<4>().valid(); }
+ uint64_t object_size() const { return at<4>().as_uint64(); }
+ bool has_superclass_id() const { return at<5>().valid(); }
+ uint64_t superclass_id() const { return at<5>().as_uint64(); }
+ bool has_reference_field_id() const { return at<6>().valid(); }
+ ::protozero::PackedRepeatedFieldIterator<::protozero::proto_utils::ProtoWireType::kVarInt, uint64_t> reference_field_id(bool* parse_error_ptr) const { return GetPackedRepeated<::protozero::proto_utils::ProtoWireType::kVarInt, uint64_t>(6, parse_error_ptr); }
+ bool has_kind() const { return at<7>().valid(); }
+ int32_t kind() const { return at<7>().as_int32(); }
+ bool has_classloader_id() const { return at<8>().valid(); }
+ uint64_t classloader_id() const { return at<8>().as_uint64(); }
+};
+
+class HeapGraphType : public ::protozero::Message {
+ public:
+ using Decoder = HeapGraphType_Decoder;
+ enum : int32_t {
+ kIdFieldNumber = 1,
+ kLocationIdFieldNumber = 2,
+ kClassNameFieldNumber = 3,
+ kObjectSizeFieldNumber = 4,
+ kSuperclassIdFieldNumber = 5,
+ kReferenceFieldIdFieldNumber = 6,
+ kKindFieldNumber = 7,
+ kClassloaderIdFieldNumber = 8,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.HeapGraphType"; }
+
+
+ using Kind = ::perfetto::protos::pbzero::HeapGraphType_Kind;
+ static inline const char* Kind_Name(Kind value) {
+ return ::perfetto::protos::pbzero::HeapGraphType_Kind_Name(value);
+ }
+ static inline const Kind KIND_UNKNOWN = Kind::KIND_UNKNOWN;
+ static inline const Kind KIND_NORMAL = Kind::KIND_NORMAL;
+ static inline const Kind KIND_NOREFERENCES = Kind::KIND_NOREFERENCES;
+ static inline const Kind KIND_STRING = Kind::KIND_STRING;
+ static inline const Kind KIND_ARRAY = Kind::KIND_ARRAY;
+ static inline const Kind KIND_CLASS = Kind::KIND_CLASS;
+ static inline const Kind KIND_CLASSLOADER = Kind::KIND_CLASSLOADER;
+ static inline const Kind KIND_DEXCACHE = Kind::KIND_DEXCACHE;
+ static inline const Kind KIND_SOFT_REFERENCE = Kind::KIND_SOFT_REFERENCE;
+ static inline const Kind KIND_WEAK_REFERENCE = Kind::KIND_WEAK_REFERENCE;
+ static inline const Kind KIND_FINALIZER_REFERENCE = Kind::KIND_FINALIZER_REFERENCE;
+ static inline const Kind KIND_PHANTOM_REFERENCE = Kind::KIND_PHANTOM_REFERENCE;
+
+ using FieldMetadata_Id =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ HeapGraphType>;
+
+ static constexpr FieldMetadata_Id kId{};
+ void set_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Id::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_LocationId =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ HeapGraphType>;
+
+ static constexpr FieldMetadata_LocationId kLocationId{};
+ void set_location_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_LocationId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ClassName =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ HeapGraphType>;
+
+ static constexpr FieldMetadata_ClassName kClassName{};
+ void set_class_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_ClassName::kFieldId, data, size);
+ }
+ void set_class_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_ClassName::kFieldId, chars.data, chars.size);
+ }
+ void set_class_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_ClassName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ObjectSize =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ HeapGraphType>;
+
+ static constexpr FieldMetadata_ObjectSize kObjectSize{};
+ void set_object_size(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ObjectSize::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SuperclassId =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ HeapGraphType>;
+
+ static constexpr FieldMetadata_SuperclassId kSuperclassId{};
+ void set_superclass_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SuperclassId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ReferenceFieldId =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kRepeatedPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ HeapGraphType>;
+
+ static constexpr FieldMetadata_ReferenceFieldId kReferenceFieldId{};
+ void set_reference_field_id(const ::protozero::PackedVarInt& packed_buffer) {
+ AppendBytes(FieldMetadata_ReferenceFieldId::kFieldId, packed_buffer.data(),
+ packed_buffer.size());
+ }
+
+ using FieldMetadata_Kind =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ HeapGraphType_Kind,
+ HeapGraphType>;
+
+ static constexpr FieldMetadata_Kind kKind{};
+ void set_kind(HeapGraphType_Kind value) {
+ static constexpr uint32_t field_id = FieldMetadata_Kind::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ClassloaderId =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ HeapGraphType>;
+
+ static constexpr FieldMetadata_ClassloaderId kClassloaderId{};
+ void set_classloader_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ClassloaderId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class HeapGraphRoot_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ HeapGraphRoot_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit HeapGraphRoot_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit HeapGraphRoot_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_object_ids() const { return at<1>().valid(); }
+ ::protozero::PackedRepeatedFieldIterator<::protozero::proto_utils::ProtoWireType::kVarInt, uint64_t> object_ids(bool* parse_error_ptr) const { return GetPackedRepeated<::protozero::proto_utils::ProtoWireType::kVarInt, uint64_t>(1, parse_error_ptr); }
+ bool has_root_type() const { return at<2>().valid(); }
+ int32_t root_type() const { return at<2>().as_int32(); }
+};
+
+class HeapGraphRoot : public ::protozero::Message {
+ public:
+ using Decoder = HeapGraphRoot_Decoder;
+ enum : int32_t {
+ kObjectIdsFieldNumber = 1,
+ kRootTypeFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.HeapGraphRoot"; }
+
+
+ using Type = ::perfetto::protos::pbzero::HeapGraphRoot_Type;
+ static inline const char* Type_Name(Type value) {
+ return ::perfetto::protos::pbzero::HeapGraphRoot_Type_Name(value);
+ }
+ static inline const Type ROOT_UNKNOWN = Type::ROOT_UNKNOWN;
+ static inline const Type ROOT_JNI_GLOBAL = Type::ROOT_JNI_GLOBAL;
+ static inline const Type ROOT_JNI_LOCAL = Type::ROOT_JNI_LOCAL;
+ static inline const Type ROOT_JAVA_FRAME = Type::ROOT_JAVA_FRAME;
+ static inline const Type ROOT_NATIVE_STACK = Type::ROOT_NATIVE_STACK;
+ static inline const Type ROOT_STICKY_CLASS = Type::ROOT_STICKY_CLASS;
+ static inline const Type ROOT_THREAD_BLOCK = Type::ROOT_THREAD_BLOCK;
+ static inline const Type ROOT_MONITOR_USED = Type::ROOT_MONITOR_USED;
+ static inline const Type ROOT_THREAD_OBJECT = Type::ROOT_THREAD_OBJECT;
+ static inline const Type ROOT_INTERNED_STRING = Type::ROOT_INTERNED_STRING;
+ static inline const Type ROOT_FINALIZING = Type::ROOT_FINALIZING;
+ static inline const Type ROOT_DEBUGGER = Type::ROOT_DEBUGGER;
+ static inline const Type ROOT_REFERENCE_CLEANUP = Type::ROOT_REFERENCE_CLEANUP;
+ static inline const Type ROOT_VM_INTERNAL = Type::ROOT_VM_INTERNAL;
+ static inline const Type ROOT_JNI_MONITOR = Type::ROOT_JNI_MONITOR;
+
+ using FieldMetadata_ObjectIds =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ HeapGraphRoot>;
+
+ static constexpr FieldMetadata_ObjectIds kObjectIds{};
+ void set_object_ids(const ::protozero::PackedVarInt& packed_buffer) {
+ AppendBytes(FieldMetadata_ObjectIds::kFieldId, packed_buffer.data(),
+ packed_buffer.size());
+ }
+
+ using FieldMetadata_RootType =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ HeapGraphRoot_Type,
+ HeapGraphRoot>;
+
+ static constexpr FieldMetadata_RootType kRootType{};
+ void set_root_type(HeapGraphRoot_Type value) {
+ static constexpr uint32_t field_id = FieldMetadata_RootType::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/profiling/profile_common.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_PROFILING_PROFILE_COMMON_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_PROFILING_PROFILE_COMMON_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class AddressSymbols;
+class Line;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class Callstack_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ Callstack_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Callstack_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Callstack_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_iid() const { return at<1>().valid(); }
+ uint64_t iid() const { return at<1>().as_uint64(); }
+ bool has_frame_ids() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<uint64_t> frame_ids() const { return GetRepeated<uint64_t>(2); }
+};
+
+class Callstack : public ::protozero::Message {
+ public:
+ using Decoder = Callstack_Decoder;
+ enum : int32_t {
+ kIidFieldNumber = 1,
+ kFrameIdsFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Callstack"; }
+
+
+ using FieldMetadata_Iid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Callstack>;
+
+ static constexpr FieldMetadata_Iid kIid{};
+ void set_iid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Iid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FrameIds =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Callstack>;
+
+ static constexpr FieldMetadata_FrameIds kFrameIds{};
+ void add_frame_ids(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FrameIds::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Frame_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Frame_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Frame_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Frame_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_iid() const { return at<1>().valid(); }
+ uint64_t iid() const { return at<1>().as_uint64(); }
+ bool has_function_name_id() const { return at<2>().valid(); }
+ uint64_t function_name_id() const { return at<2>().as_uint64(); }
+ bool has_mapping_id() const { return at<3>().valid(); }
+ uint64_t mapping_id() const { return at<3>().as_uint64(); }
+ bool has_rel_pc() const { return at<4>().valid(); }
+ uint64_t rel_pc() const { return at<4>().as_uint64(); }
+};
+
+class Frame : public ::protozero::Message {
+ public:
+ using Decoder = Frame_Decoder;
+ enum : int32_t {
+ kIidFieldNumber = 1,
+ kFunctionNameIdFieldNumber = 2,
+ kMappingIdFieldNumber = 3,
+ kRelPcFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Frame"; }
+
+
+ using FieldMetadata_Iid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Frame>;
+
+ static constexpr FieldMetadata_Iid kIid{};
+ void set_iid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Iid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FunctionNameId =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Frame>;
+
+ static constexpr FieldMetadata_FunctionNameId kFunctionNameId{};
+ void set_function_name_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FunctionNameId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MappingId =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Frame>;
+
+ static constexpr FieldMetadata_MappingId kMappingId{};
+ void set_mapping_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MappingId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_RelPc =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Frame>;
+
+ static constexpr FieldMetadata_RelPc kRelPc{};
+ void set_rel_pc(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_RelPc::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Mapping_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/8, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ Mapping_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Mapping_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Mapping_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_iid() const { return at<1>().valid(); }
+ uint64_t iid() const { return at<1>().as_uint64(); }
+ bool has_build_id() const { return at<2>().valid(); }
+ uint64_t build_id() const { return at<2>().as_uint64(); }
+ bool has_exact_offset() const { return at<8>().valid(); }
+ uint64_t exact_offset() const { return at<8>().as_uint64(); }
+ bool has_start_offset() const { return at<3>().valid(); }
+ uint64_t start_offset() const { return at<3>().as_uint64(); }
+ bool has_start() const { return at<4>().valid(); }
+ uint64_t start() const { return at<4>().as_uint64(); }
+ bool has_end() const { return at<5>().valid(); }
+ uint64_t end() const { return at<5>().as_uint64(); }
+ bool has_load_bias() const { return at<6>().valid(); }
+ uint64_t load_bias() const { return at<6>().as_uint64(); }
+ bool has_path_string_ids() const { return at<7>().valid(); }
+ ::protozero::RepeatedFieldIterator<uint64_t> path_string_ids() const { return GetRepeated<uint64_t>(7); }
+};
+
+class Mapping : public ::protozero::Message {
+ public:
+ using Decoder = Mapping_Decoder;
+ enum : int32_t {
+ kIidFieldNumber = 1,
+ kBuildIdFieldNumber = 2,
+ kExactOffsetFieldNumber = 8,
+ kStartOffsetFieldNumber = 3,
+ kStartFieldNumber = 4,
+ kEndFieldNumber = 5,
+ kLoadBiasFieldNumber = 6,
+ kPathStringIdsFieldNumber = 7,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Mapping"; }
+
+
+ using FieldMetadata_Iid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Mapping>;
+
+ static constexpr FieldMetadata_Iid kIid{};
+ void set_iid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Iid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BuildId =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Mapping>;
+
+ static constexpr FieldMetadata_BuildId kBuildId{};
+ void set_build_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BuildId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ExactOffset =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Mapping>;
+
+ static constexpr FieldMetadata_ExactOffset kExactOffset{};
+ void set_exact_offset(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ExactOffset::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_StartOffset =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Mapping>;
+
+ static constexpr FieldMetadata_StartOffset kStartOffset{};
+ void set_start_offset(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_StartOffset::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Start =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Mapping>;
+
+ static constexpr FieldMetadata_Start kStart{};
+ void set_start(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Start::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_End =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Mapping>;
+
+ static constexpr FieldMetadata_End kEnd{};
+ void set_end(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_End::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_LoadBias =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Mapping>;
+
+ static constexpr FieldMetadata_LoadBias kLoadBias{};
+ void set_load_bias(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_LoadBias::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PathStringIds =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ Mapping>;
+
+ static constexpr FieldMetadata_PathStringIds kPathStringIds{};
+ void add_path_string_ids(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PathStringIds::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class ModuleSymbols_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ ModuleSymbols_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ModuleSymbols_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ModuleSymbols_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_path() const { return at<1>().valid(); }
+ ::protozero::ConstChars path() const { return at<1>().as_string(); }
+ bool has_build_id() const { return at<2>().valid(); }
+ ::protozero::ConstChars build_id() const { return at<2>().as_string(); }
+ bool has_address_symbols() const { return at<3>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> address_symbols() const { return GetRepeated<::protozero::ConstBytes>(3); }
+};
+
+class ModuleSymbols : public ::protozero::Message {
+ public:
+ using Decoder = ModuleSymbols_Decoder;
+ enum : int32_t {
+ kPathFieldNumber = 1,
+ kBuildIdFieldNumber = 2,
+ kAddressSymbolsFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ModuleSymbols"; }
+
+
+ using FieldMetadata_Path =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ModuleSymbols>;
+
+ static constexpr FieldMetadata_Path kPath{};
+ void set_path(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Path::kFieldId, data, size);
+ }
+ void set_path(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Path::kFieldId, chars.data, chars.size);
+ }
+ void set_path(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Path::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BuildId =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ModuleSymbols>;
+
+ static constexpr FieldMetadata_BuildId kBuildId{};
+ void set_build_id(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_BuildId::kFieldId, data, size);
+ }
+ void set_build_id(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_BuildId::kFieldId, chars.data, chars.size);
+ }
+ void set_build_id(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_BuildId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_AddressSymbols =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ AddressSymbols,
+ ModuleSymbols>;
+
+ static constexpr FieldMetadata_AddressSymbols kAddressSymbols{};
+ template <typename T = AddressSymbols> T* add_address_symbols() {
+ return BeginNestedMessage<T>(3);
+ }
+
+};
+
+class AddressSymbols_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ AddressSymbols_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit AddressSymbols_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit AddressSymbols_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_address() const { return at<1>().valid(); }
+ uint64_t address() const { return at<1>().as_uint64(); }
+ bool has_lines() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> lines() const { return GetRepeated<::protozero::ConstBytes>(2); }
+};
+
+class AddressSymbols : public ::protozero::Message {
+ public:
+ using Decoder = AddressSymbols_Decoder;
+ enum : int32_t {
+ kAddressFieldNumber = 1,
+ kLinesFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.AddressSymbols"; }
+
+
+ using FieldMetadata_Address =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ AddressSymbols>;
+
+ static constexpr FieldMetadata_Address kAddress{};
+ void set_address(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Address::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Lines =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Line,
+ AddressSymbols>;
+
+ static constexpr FieldMetadata_Lines kLines{};
+ template <typename T = Line> T* add_lines() {
+ return BeginNestedMessage<T>(2);
+ }
+
+};
+
+class Line_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Line_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Line_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Line_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_function_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars function_name() const { return at<1>().as_string(); }
+ bool has_source_file_name() const { return at<2>().valid(); }
+ ::protozero::ConstChars source_file_name() const { return at<2>().as_string(); }
+ bool has_line_number() const { return at<3>().valid(); }
+ uint32_t line_number() const { return at<3>().as_uint32(); }
+};
+
+class Line : public ::protozero::Message {
+ public:
+ using Decoder = Line_Decoder;
+ enum : int32_t {
+ kFunctionNameFieldNumber = 1,
+ kSourceFileNameFieldNumber = 2,
+ kLineNumberFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Line"; }
+
+
+ using FieldMetadata_FunctionName =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ Line>;
+
+ static constexpr FieldMetadata_FunctionName kFunctionName{};
+ void set_function_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_FunctionName::kFieldId, data, size);
+ }
+ void set_function_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_FunctionName::kFieldId, chars.data, chars.size);
+ }
+ void set_function_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_FunctionName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SourceFileName =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ Line>;
+
+ static constexpr FieldMetadata_SourceFileName kSourceFileName{};
+ void set_source_file_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_SourceFileName::kFieldId, data, size);
+ }
+ void set_source_file_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_SourceFileName::kFieldId, chars.data, chars.size);
+ }
+ void set_source_file_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_SourceFileName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_LineNumber =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ Line>;
+
+ static constexpr FieldMetadata_LineNumber kLineNumber{};
+ void set_line_number(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_LineNumber::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class ProfiledFrameSymbols_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ ProfiledFrameSymbols_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ProfiledFrameSymbols_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ProfiledFrameSymbols_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_frame_iid() const { return at<1>().valid(); }
+ uint64_t frame_iid() const { return at<1>().as_uint64(); }
+ bool has_function_name_id() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<uint64_t> function_name_id() const { return GetRepeated<uint64_t>(2); }
+ bool has_file_name_id() const { return at<3>().valid(); }
+ ::protozero::RepeatedFieldIterator<uint64_t> file_name_id() const { return GetRepeated<uint64_t>(3); }
+ bool has_line_number() const { return at<4>().valid(); }
+ ::protozero::RepeatedFieldIterator<uint32_t> line_number() const { return GetRepeated<uint32_t>(4); }
+};
+
+class ProfiledFrameSymbols : public ::protozero::Message {
+ public:
+ using Decoder = ProfiledFrameSymbols_Decoder;
+ enum : int32_t {
+ kFrameIidFieldNumber = 1,
+ kFunctionNameIdFieldNumber = 2,
+ kFileNameIdFieldNumber = 3,
+ kLineNumberFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ProfiledFrameSymbols"; }
+
+
+ using FieldMetadata_FrameIid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ProfiledFrameSymbols>;
+
+ static constexpr FieldMetadata_FrameIid kFrameIid{};
+ void set_frame_iid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FrameIid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FunctionNameId =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ProfiledFrameSymbols>;
+
+ static constexpr FieldMetadata_FunctionNameId kFunctionNameId{};
+ void add_function_name_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FunctionNameId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FileNameId =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ProfiledFrameSymbols>;
+
+ static constexpr FieldMetadata_FileNameId kFileNameId{};
+ void add_file_name_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FileNameId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_LineNumber =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ ProfiledFrameSymbols>;
+
+ static constexpr FieldMetadata_LineNumber kLineNumber{};
+ void add_line_number(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_LineNumber::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class InternedString_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ InternedString_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit InternedString_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit InternedString_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_iid() const { return at<1>().valid(); }
+ uint64_t iid() const { return at<1>().as_uint64(); }
+ bool has_str() const { return at<2>().valid(); }
+ ::protozero::ConstBytes str() const { return at<2>().as_bytes(); }
+};
+
+class InternedString : public ::protozero::Message {
+ public:
+ using Decoder = InternedString_Decoder;
+ enum : int32_t {
+ kIidFieldNumber = 1,
+ kStrFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.InternedString"; }
+
+
+ using FieldMetadata_Iid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ InternedString>;
+
+ static constexpr FieldMetadata_Iid kIid{};
+ void set_iid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Iid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Str =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBytes,
+ std::string,
+ InternedString>;
+
+ static constexpr FieldMetadata_Str kStr{};
+ void set_str(const uint8_t* data, size_t size) {
+ AppendBytes(FieldMetadata_Str::kFieldId, data, size);
+ }
+ void set_str(::protozero::ConstBytes bytes) {
+ AppendBytes(FieldMetadata_Str::kFieldId, bytes.data, bytes.size);
+ }
+ void set_str(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Str::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBytes>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/profiling/profile_packet.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_PROFILING_PROFILE_PACKET_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_PROFILING_PROFILE_PACKET_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class Callstack;
+class Frame;
+class InternedString;
+class Mapping;
+class PerfEvents_Timebase;
+class PerfSample_ProducerEvent;
+class ProfilePacket_HeapSample;
+class ProfilePacket_Histogram;
+class ProfilePacket_Histogram_Bucket;
+class ProfilePacket_ProcessHeapSamples;
+class ProfilePacket_ProcessStats;
+namespace perfetto_pbzero_enum_PerfSample_ProducerEvent {
+enum DataSourceStopReason : int32_t;
+} // namespace perfetto_pbzero_enum_PerfSample_ProducerEvent
+using PerfSample_ProducerEvent_DataSourceStopReason = perfetto_pbzero_enum_PerfSample_ProducerEvent::DataSourceStopReason;
+namespace perfetto_pbzero_enum_PerfSample {
+enum SampleSkipReason : int32_t;
+} // namespace perfetto_pbzero_enum_PerfSample
+using PerfSample_SampleSkipReason = perfetto_pbzero_enum_PerfSample::SampleSkipReason;
+namespace perfetto_pbzero_enum_ProfilePacket_ProcessHeapSamples {
+enum ClientError : int32_t;
+} // namespace perfetto_pbzero_enum_ProfilePacket_ProcessHeapSamples
+using ProfilePacket_ProcessHeapSamples_ClientError = perfetto_pbzero_enum_ProfilePacket_ProcessHeapSamples::ClientError;
+namespace perfetto_pbzero_enum_Profiling {
+enum CpuMode : int32_t;
+} // namespace perfetto_pbzero_enum_Profiling
+using Profiling_CpuMode = perfetto_pbzero_enum_Profiling::CpuMode;
+namespace perfetto_pbzero_enum_Profiling {
+enum StackUnwindError : int32_t;
+} // namespace perfetto_pbzero_enum_Profiling
+using Profiling_StackUnwindError = perfetto_pbzero_enum_Profiling::StackUnwindError;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+namespace perfetto_pbzero_enum_PerfSample {
+enum SampleSkipReason : int32_t {
+ PROFILER_SKIP_UNKNOWN = 0,
+ PROFILER_SKIP_READ_STAGE = 1,
+ PROFILER_SKIP_UNWIND_STAGE = 2,
+ PROFILER_SKIP_UNWIND_ENQUEUE = 3,
+};
+} // namespace perfetto_pbzero_enum_PerfSample
+using PerfSample_SampleSkipReason = perfetto_pbzero_enum_PerfSample::SampleSkipReason;
+
+
+constexpr PerfSample_SampleSkipReason PerfSample_SampleSkipReason_MIN = PerfSample_SampleSkipReason::PROFILER_SKIP_UNKNOWN;
+constexpr PerfSample_SampleSkipReason PerfSample_SampleSkipReason_MAX = PerfSample_SampleSkipReason::PROFILER_SKIP_UNWIND_ENQUEUE;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* PerfSample_SampleSkipReason_Name(::perfetto::protos::pbzero::PerfSample_SampleSkipReason value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::PerfSample_SampleSkipReason::PROFILER_SKIP_UNKNOWN:
+ return "PROFILER_SKIP_UNKNOWN";
+
+ case ::perfetto::protos::pbzero::PerfSample_SampleSkipReason::PROFILER_SKIP_READ_STAGE:
+ return "PROFILER_SKIP_READ_STAGE";
+
+ case ::perfetto::protos::pbzero::PerfSample_SampleSkipReason::PROFILER_SKIP_UNWIND_STAGE:
+ return "PROFILER_SKIP_UNWIND_STAGE";
+
+ case ::perfetto::protos::pbzero::PerfSample_SampleSkipReason::PROFILER_SKIP_UNWIND_ENQUEUE:
+ return "PROFILER_SKIP_UNWIND_ENQUEUE";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_PerfSample_ProducerEvent {
+enum DataSourceStopReason : int32_t {
+ PROFILER_STOP_UNKNOWN = 0,
+ PROFILER_STOP_GUARDRAIL = 1,
+};
+} // namespace perfetto_pbzero_enum_PerfSample_ProducerEvent
+using PerfSample_ProducerEvent_DataSourceStopReason = perfetto_pbzero_enum_PerfSample_ProducerEvent::DataSourceStopReason;
+
+
+constexpr PerfSample_ProducerEvent_DataSourceStopReason PerfSample_ProducerEvent_DataSourceStopReason_MIN = PerfSample_ProducerEvent_DataSourceStopReason::PROFILER_STOP_UNKNOWN;
+constexpr PerfSample_ProducerEvent_DataSourceStopReason PerfSample_ProducerEvent_DataSourceStopReason_MAX = PerfSample_ProducerEvent_DataSourceStopReason::PROFILER_STOP_GUARDRAIL;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* PerfSample_ProducerEvent_DataSourceStopReason_Name(::perfetto::protos::pbzero::PerfSample_ProducerEvent_DataSourceStopReason value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::PerfSample_ProducerEvent_DataSourceStopReason::PROFILER_STOP_UNKNOWN:
+ return "PROFILER_STOP_UNKNOWN";
+
+ case ::perfetto::protos::pbzero::PerfSample_ProducerEvent_DataSourceStopReason::PROFILER_STOP_GUARDRAIL:
+ return "PROFILER_STOP_GUARDRAIL";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_Profiling {
+enum CpuMode : int32_t {
+ MODE_UNKNOWN = 0,
+ MODE_KERNEL = 1,
+ MODE_USER = 2,
+ MODE_HYPERVISOR = 3,
+ MODE_GUEST_KERNEL = 4,
+ MODE_GUEST_USER = 5,
+};
+} // namespace perfetto_pbzero_enum_Profiling
+using Profiling_CpuMode = perfetto_pbzero_enum_Profiling::CpuMode;
+
+
+constexpr Profiling_CpuMode Profiling_CpuMode_MIN = Profiling_CpuMode::MODE_UNKNOWN;
+constexpr Profiling_CpuMode Profiling_CpuMode_MAX = Profiling_CpuMode::MODE_GUEST_USER;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* Profiling_CpuMode_Name(::perfetto::protos::pbzero::Profiling_CpuMode value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::Profiling_CpuMode::MODE_UNKNOWN:
+ return "MODE_UNKNOWN";
+
+ case ::perfetto::protos::pbzero::Profiling_CpuMode::MODE_KERNEL:
+ return "MODE_KERNEL";
+
+ case ::perfetto::protos::pbzero::Profiling_CpuMode::MODE_USER:
+ return "MODE_USER";
+
+ case ::perfetto::protos::pbzero::Profiling_CpuMode::MODE_HYPERVISOR:
+ return "MODE_HYPERVISOR";
+
+ case ::perfetto::protos::pbzero::Profiling_CpuMode::MODE_GUEST_KERNEL:
+ return "MODE_GUEST_KERNEL";
+
+ case ::perfetto::protos::pbzero::Profiling_CpuMode::MODE_GUEST_USER:
+ return "MODE_GUEST_USER";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_Profiling {
+enum StackUnwindError : int32_t {
+ UNWIND_ERROR_UNKNOWN = 0,
+ UNWIND_ERROR_NONE = 1,
+ UNWIND_ERROR_MEMORY_INVALID = 2,
+ UNWIND_ERROR_UNWIND_INFO = 3,
+ UNWIND_ERROR_UNSUPPORTED = 4,
+ UNWIND_ERROR_INVALID_MAP = 5,
+ UNWIND_ERROR_MAX_FRAMES_EXCEEDED = 6,
+ UNWIND_ERROR_REPEATED_FRAME = 7,
+ UNWIND_ERROR_INVALID_ELF = 8,
+ UNWIND_ERROR_SYSTEM_CALL = 9,
+ UNWIND_ERROR_THREAD_TIMEOUT = 10,
+ UNWIND_ERROR_THREAD_DOES_NOT_EXIST = 11,
+ UNWIND_ERROR_BAD_ARCH = 12,
+ UNWIND_ERROR_MAPS_PARSE = 13,
+ UNWIND_ERROR_INVALID_PARAMETER = 14,
+ UNWIND_ERROR_PTRACE_CALL = 15,
+};
+} // namespace perfetto_pbzero_enum_Profiling
+using Profiling_StackUnwindError = perfetto_pbzero_enum_Profiling::StackUnwindError;
+
+
+constexpr Profiling_StackUnwindError Profiling_StackUnwindError_MIN = Profiling_StackUnwindError::UNWIND_ERROR_UNKNOWN;
+constexpr Profiling_StackUnwindError Profiling_StackUnwindError_MAX = Profiling_StackUnwindError::UNWIND_ERROR_PTRACE_CALL;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* Profiling_StackUnwindError_Name(::perfetto::protos::pbzero::Profiling_StackUnwindError value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::Profiling_StackUnwindError::UNWIND_ERROR_UNKNOWN:
+ return "UNWIND_ERROR_UNKNOWN";
+
+ case ::perfetto::protos::pbzero::Profiling_StackUnwindError::UNWIND_ERROR_NONE:
+ return "UNWIND_ERROR_NONE";
+
+ case ::perfetto::protos::pbzero::Profiling_StackUnwindError::UNWIND_ERROR_MEMORY_INVALID:
+ return "UNWIND_ERROR_MEMORY_INVALID";
+
+ case ::perfetto::protos::pbzero::Profiling_StackUnwindError::UNWIND_ERROR_UNWIND_INFO:
+ return "UNWIND_ERROR_UNWIND_INFO";
+
+ case ::perfetto::protos::pbzero::Profiling_StackUnwindError::UNWIND_ERROR_UNSUPPORTED:
+ return "UNWIND_ERROR_UNSUPPORTED";
+
+ case ::perfetto::protos::pbzero::Profiling_StackUnwindError::UNWIND_ERROR_INVALID_MAP:
+ return "UNWIND_ERROR_INVALID_MAP";
+
+ case ::perfetto::protos::pbzero::Profiling_StackUnwindError::UNWIND_ERROR_MAX_FRAMES_EXCEEDED:
+ return "UNWIND_ERROR_MAX_FRAMES_EXCEEDED";
+
+ case ::perfetto::protos::pbzero::Profiling_StackUnwindError::UNWIND_ERROR_REPEATED_FRAME:
+ return "UNWIND_ERROR_REPEATED_FRAME";
+
+ case ::perfetto::protos::pbzero::Profiling_StackUnwindError::UNWIND_ERROR_INVALID_ELF:
+ return "UNWIND_ERROR_INVALID_ELF";
+
+ case ::perfetto::protos::pbzero::Profiling_StackUnwindError::UNWIND_ERROR_SYSTEM_CALL:
+ return "UNWIND_ERROR_SYSTEM_CALL";
+
+ case ::perfetto::protos::pbzero::Profiling_StackUnwindError::UNWIND_ERROR_THREAD_TIMEOUT:
+ return "UNWIND_ERROR_THREAD_TIMEOUT";
+
+ case ::perfetto::protos::pbzero::Profiling_StackUnwindError::UNWIND_ERROR_THREAD_DOES_NOT_EXIST:
+ return "UNWIND_ERROR_THREAD_DOES_NOT_EXIST";
+
+ case ::perfetto::protos::pbzero::Profiling_StackUnwindError::UNWIND_ERROR_BAD_ARCH:
+ return "UNWIND_ERROR_BAD_ARCH";
+
+ case ::perfetto::protos::pbzero::Profiling_StackUnwindError::UNWIND_ERROR_MAPS_PARSE:
+ return "UNWIND_ERROR_MAPS_PARSE";
+
+ case ::perfetto::protos::pbzero::Profiling_StackUnwindError::UNWIND_ERROR_INVALID_PARAMETER:
+ return "UNWIND_ERROR_INVALID_PARAMETER";
+
+ case ::perfetto::protos::pbzero::Profiling_StackUnwindError::UNWIND_ERROR_PTRACE_CALL:
+ return "UNWIND_ERROR_PTRACE_CALL";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_ProfilePacket_ProcessHeapSamples {
+enum ClientError : int32_t {
+ CLIENT_ERROR_NONE = 0,
+ CLIENT_ERROR_HIT_TIMEOUT = 1,
+ CLIENT_ERROR_INVALID_STACK_BOUNDS = 2,
+};
+} // namespace perfetto_pbzero_enum_ProfilePacket_ProcessHeapSamples
+using ProfilePacket_ProcessHeapSamples_ClientError = perfetto_pbzero_enum_ProfilePacket_ProcessHeapSamples::ClientError;
+
+
+constexpr ProfilePacket_ProcessHeapSamples_ClientError ProfilePacket_ProcessHeapSamples_ClientError_MIN = ProfilePacket_ProcessHeapSamples_ClientError::CLIENT_ERROR_NONE;
+constexpr ProfilePacket_ProcessHeapSamples_ClientError ProfilePacket_ProcessHeapSamples_ClientError_MAX = ProfilePacket_ProcessHeapSamples_ClientError::CLIENT_ERROR_INVALID_STACK_BOUNDS;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* ProfilePacket_ProcessHeapSamples_ClientError_Name(::perfetto::protos::pbzero::ProfilePacket_ProcessHeapSamples_ClientError value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::ProfilePacket_ProcessHeapSamples_ClientError::CLIENT_ERROR_NONE:
+ return "CLIENT_ERROR_NONE";
+
+ case ::perfetto::protos::pbzero::ProfilePacket_ProcessHeapSamples_ClientError::CLIENT_ERROR_HIT_TIMEOUT:
+ return "CLIENT_ERROR_HIT_TIMEOUT";
+
+ case ::perfetto::protos::pbzero::ProfilePacket_ProcessHeapSamples_ClientError::CLIENT_ERROR_INVALID_STACK_BOUNDS:
+ return "CLIENT_ERROR_INVALID_STACK_BOUNDS";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+class PerfSampleDefaults_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ PerfSampleDefaults_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit PerfSampleDefaults_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit PerfSampleDefaults_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_timebase() const { return at<1>().valid(); }
+ ::protozero::ConstBytes timebase() const { return at<1>().as_bytes(); }
+ bool has_process_shard_count() const { return at<2>().valid(); }
+ uint32_t process_shard_count() const { return at<2>().as_uint32(); }
+ bool has_chosen_process_shard() const { return at<3>().valid(); }
+ uint32_t chosen_process_shard() const { return at<3>().as_uint32(); }
+};
+
+class PerfSampleDefaults : public ::protozero::Message {
+ public:
+ using Decoder = PerfSampleDefaults_Decoder;
+ enum : int32_t {
+ kTimebaseFieldNumber = 1,
+ kProcessShardCountFieldNumber = 2,
+ kChosenProcessShardFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.PerfSampleDefaults"; }
+
+
+ using FieldMetadata_Timebase =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ PerfEvents_Timebase,
+ PerfSampleDefaults>;
+
+ static constexpr FieldMetadata_Timebase kTimebase{};
+ template <typename T = PerfEvents_Timebase> T* set_timebase() {
+ return BeginNestedMessage<T>(1);
+ }
+
+
+ using FieldMetadata_ProcessShardCount =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ PerfSampleDefaults>;
+
+ static constexpr FieldMetadata_ProcessShardCount kProcessShardCount{};
+ void set_process_shard_count(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ProcessShardCount::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ChosenProcessShard =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ PerfSampleDefaults>;
+
+ static constexpr FieldMetadata_ChosenProcessShard kChosenProcessShard{};
+ void set_chosen_process_shard(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ChosenProcessShard::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class PerfSample_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/19, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ PerfSample_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit PerfSample_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit PerfSample_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_cpu() const { return at<1>().valid(); }
+ uint32_t cpu() const { return at<1>().as_uint32(); }
+ bool has_pid() const { return at<2>().valid(); }
+ uint32_t pid() const { return at<2>().as_uint32(); }
+ bool has_tid() const { return at<3>().valid(); }
+ uint32_t tid() const { return at<3>().as_uint32(); }
+ bool has_cpu_mode() const { return at<5>().valid(); }
+ int32_t cpu_mode() const { return at<5>().as_int32(); }
+ bool has_timebase_count() const { return at<6>().valid(); }
+ uint64_t timebase_count() const { return at<6>().as_uint64(); }
+ bool has_callstack_iid() const { return at<4>().valid(); }
+ uint64_t callstack_iid() const { return at<4>().as_uint64(); }
+ bool has_unwind_error() const { return at<16>().valid(); }
+ int32_t unwind_error() const { return at<16>().as_int32(); }
+ bool has_kernel_records_lost() const { return at<17>().valid(); }
+ uint64_t kernel_records_lost() const { return at<17>().as_uint64(); }
+ bool has_sample_skipped_reason() const { return at<18>().valid(); }
+ int32_t sample_skipped_reason() const { return at<18>().as_int32(); }
+ bool has_producer_event() const { return at<19>().valid(); }
+ ::protozero::ConstBytes producer_event() const { return at<19>().as_bytes(); }
+};
+
+class PerfSample : public ::protozero::Message {
+ public:
+ using Decoder = PerfSample_Decoder;
+ enum : int32_t {
+ kCpuFieldNumber = 1,
+ kPidFieldNumber = 2,
+ kTidFieldNumber = 3,
+ kCpuModeFieldNumber = 5,
+ kTimebaseCountFieldNumber = 6,
+ kCallstackIidFieldNumber = 4,
+ kUnwindErrorFieldNumber = 16,
+ kKernelRecordsLostFieldNumber = 17,
+ kSampleSkippedReasonFieldNumber = 18,
+ kProducerEventFieldNumber = 19,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.PerfSample"; }
+
+ using ProducerEvent = ::perfetto::protos::pbzero::PerfSample_ProducerEvent;
+
+ using SampleSkipReason = ::perfetto::protos::pbzero::PerfSample_SampleSkipReason;
+ static inline const char* SampleSkipReason_Name(SampleSkipReason value) {
+ return ::perfetto::protos::pbzero::PerfSample_SampleSkipReason_Name(value);
+ }
+ static inline const SampleSkipReason PROFILER_SKIP_UNKNOWN = SampleSkipReason::PROFILER_SKIP_UNKNOWN;
+ static inline const SampleSkipReason PROFILER_SKIP_READ_STAGE = SampleSkipReason::PROFILER_SKIP_READ_STAGE;
+ static inline const SampleSkipReason PROFILER_SKIP_UNWIND_STAGE = SampleSkipReason::PROFILER_SKIP_UNWIND_STAGE;
+ static inline const SampleSkipReason PROFILER_SKIP_UNWIND_ENQUEUE = SampleSkipReason::PROFILER_SKIP_UNWIND_ENQUEUE;
+
+ using FieldMetadata_Cpu =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ PerfSample>;
+
+ static constexpr FieldMetadata_Cpu kCpu{};
+ void set_cpu(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Cpu::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ PerfSample>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Tid =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ PerfSample>;
+
+ static constexpr FieldMetadata_Tid kTid{};
+ void set_tid(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Tid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CpuMode =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ Profiling_CpuMode,
+ PerfSample>;
+
+ static constexpr FieldMetadata_CpuMode kCpuMode{};
+ void set_cpu_mode(Profiling_CpuMode value) {
+ static constexpr uint32_t field_id = FieldMetadata_CpuMode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimebaseCount =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ PerfSample>;
+
+ static constexpr FieldMetadata_TimebaseCount kTimebaseCount{};
+ void set_timebase_count(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimebaseCount::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CallstackIid =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ PerfSample>;
+
+ static constexpr FieldMetadata_CallstackIid kCallstackIid{};
+ void set_callstack_iid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CallstackIid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_UnwindError =
+ ::protozero::proto_utils::FieldMetadata<
+ 16,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ Profiling_StackUnwindError,
+ PerfSample>;
+
+ static constexpr FieldMetadata_UnwindError kUnwindError{};
+ void set_unwind_error(Profiling_StackUnwindError value) {
+ static constexpr uint32_t field_id = FieldMetadata_UnwindError::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_KernelRecordsLost =
+ ::protozero::proto_utils::FieldMetadata<
+ 17,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ PerfSample>;
+
+ static constexpr FieldMetadata_KernelRecordsLost kKernelRecordsLost{};
+ void set_kernel_records_lost(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_KernelRecordsLost::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SampleSkippedReason =
+ ::protozero::proto_utils::FieldMetadata<
+ 18,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ PerfSample_SampleSkipReason,
+ PerfSample>;
+
+ static constexpr FieldMetadata_SampleSkippedReason kSampleSkippedReason{};
+ void set_sample_skipped_reason(PerfSample_SampleSkipReason value) {
+ static constexpr uint32_t field_id = FieldMetadata_SampleSkippedReason::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ProducerEvent =
+ ::protozero::proto_utils::FieldMetadata<
+ 19,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ PerfSample_ProducerEvent,
+ PerfSample>;
+
+ static constexpr FieldMetadata_ProducerEvent kProducerEvent{};
+ template <typename T = PerfSample_ProducerEvent> T* set_producer_event() {
+ return BeginNestedMessage<T>(19);
+ }
+
+};
+
+class PerfSample_ProducerEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ PerfSample_ProducerEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit PerfSample_ProducerEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit PerfSample_ProducerEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_source_stop_reason() const { return at<1>().valid(); }
+ int32_t source_stop_reason() const { return at<1>().as_int32(); }
+};
+
+class PerfSample_ProducerEvent : public ::protozero::Message {
+ public:
+ using Decoder = PerfSample_ProducerEvent_Decoder;
+ enum : int32_t {
+ kSourceStopReasonFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.PerfSample.ProducerEvent"; }
+
+
+ using DataSourceStopReason = ::perfetto::protos::pbzero::PerfSample_ProducerEvent_DataSourceStopReason;
+ static inline const char* DataSourceStopReason_Name(DataSourceStopReason value) {
+ return ::perfetto::protos::pbzero::PerfSample_ProducerEvent_DataSourceStopReason_Name(value);
+ }
+ static inline const DataSourceStopReason PROFILER_STOP_UNKNOWN = DataSourceStopReason::PROFILER_STOP_UNKNOWN;
+ static inline const DataSourceStopReason PROFILER_STOP_GUARDRAIL = DataSourceStopReason::PROFILER_STOP_GUARDRAIL;
+
+ using FieldMetadata_SourceStopReason =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ PerfSample_ProducerEvent_DataSourceStopReason,
+ PerfSample_ProducerEvent>;
+
+ static constexpr FieldMetadata_SourceStopReason kSourceStopReason{};
+ void set_source_stop_reason(PerfSample_ProducerEvent_DataSourceStopReason value) {
+ static constexpr uint32_t field_id = FieldMetadata_SourceStopReason::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Profiling_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/0, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Profiling_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Profiling_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Profiling_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+};
+
+class Profiling : public ::protozero::Message {
+ public:
+ using Decoder = Profiling_Decoder;
+ static constexpr const char* GetName() { return ".perfetto.protos.Profiling"; }
+
+
+ using CpuMode = ::perfetto::protos::pbzero::Profiling_CpuMode;
+ static inline const char* CpuMode_Name(CpuMode value) {
+ return ::perfetto::protos::pbzero::Profiling_CpuMode_Name(value);
+ }
+
+ using StackUnwindError = ::perfetto::protos::pbzero::Profiling_StackUnwindError;
+ static inline const char* StackUnwindError_Name(StackUnwindError value) {
+ return ::perfetto::protos::pbzero::Profiling_StackUnwindError_Name(value);
+ }
+ static inline const CpuMode MODE_UNKNOWN = CpuMode::MODE_UNKNOWN;
+ static inline const CpuMode MODE_KERNEL = CpuMode::MODE_KERNEL;
+ static inline const CpuMode MODE_USER = CpuMode::MODE_USER;
+ static inline const CpuMode MODE_HYPERVISOR = CpuMode::MODE_HYPERVISOR;
+ static inline const CpuMode MODE_GUEST_KERNEL = CpuMode::MODE_GUEST_KERNEL;
+ static inline const CpuMode MODE_GUEST_USER = CpuMode::MODE_GUEST_USER;
+ static inline const StackUnwindError UNWIND_ERROR_UNKNOWN = StackUnwindError::UNWIND_ERROR_UNKNOWN;
+ static inline const StackUnwindError UNWIND_ERROR_NONE = StackUnwindError::UNWIND_ERROR_NONE;
+ static inline const StackUnwindError UNWIND_ERROR_MEMORY_INVALID = StackUnwindError::UNWIND_ERROR_MEMORY_INVALID;
+ static inline const StackUnwindError UNWIND_ERROR_UNWIND_INFO = StackUnwindError::UNWIND_ERROR_UNWIND_INFO;
+ static inline const StackUnwindError UNWIND_ERROR_UNSUPPORTED = StackUnwindError::UNWIND_ERROR_UNSUPPORTED;
+ static inline const StackUnwindError UNWIND_ERROR_INVALID_MAP = StackUnwindError::UNWIND_ERROR_INVALID_MAP;
+ static inline const StackUnwindError UNWIND_ERROR_MAX_FRAMES_EXCEEDED = StackUnwindError::UNWIND_ERROR_MAX_FRAMES_EXCEEDED;
+ static inline const StackUnwindError UNWIND_ERROR_REPEATED_FRAME = StackUnwindError::UNWIND_ERROR_REPEATED_FRAME;
+ static inline const StackUnwindError UNWIND_ERROR_INVALID_ELF = StackUnwindError::UNWIND_ERROR_INVALID_ELF;
+ static inline const StackUnwindError UNWIND_ERROR_SYSTEM_CALL = StackUnwindError::UNWIND_ERROR_SYSTEM_CALL;
+ static inline const StackUnwindError UNWIND_ERROR_THREAD_TIMEOUT = StackUnwindError::UNWIND_ERROR_THREAD_TIMEOUT;
+ static inline const StackUnwindError UNWIND_ERROR_THREAD_DOES_NOT_EXIST = StackUnwindError::UNWIND_ERROR_THREAD_DOES_NOT_EXIST;
+ static inline const StackUnwindError UNWIND_ERROR_BAD_ARCH = StackUnwindError::UNWIND_ERROR_BAD_ARCH;
+ static inline const StackUnwindError UNWIND_ERROR_MAPS_PARSE = StackUnwindError::UNWIND_ERROR_MAPS_PARSE;
+ static inline const StackUnwindError UNWIND_ERROR_INVALID_PARAMETER = StackUnwindError::UNWIND_ERROR_INVALID_PARAMETER;
+ static inline const StackUnwindError UNWIND_ERROR_PTRACE_CALL = StackUnwindError::UNWIND_ERROR_PTRACE_CALL;
+};
+
+class StreamingProfilePacket_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ StreamingProfilePacket_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit StreamingProfilePacket_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit StreamingProfilePacket_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_callstack_iid() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<uint64_t> callstack_iid() const { return GetRepeated<uint64_t>(1); }
+ bool has_timestamp_delta_us() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<int64_t> timestamp_delta_us() const { return GetRepeated<int64_t>(2); }
+ bool has_process_priority() const { return at<3>().valid(); }
+ int32_t process_priority() const { return at<3>().as_int32(); }
+};
+
+class StreamingProfilePacket : public ::protozero::Message {
+ public:
+ using Decoder = StreamingProfilePacket_Decoder;
+ enum : int32_t {
+ kCallstackIidFieldNumber = 1,
+ kTimestampDeltaUsFieldNumber = 2,
+ kProcessPriorityFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.StreamingProfilePacket"; }
+
+
+ using FieldMetadata_CallstackIid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ StreamingProfilePacket>;
+
+ static constexpr FieldMetadata_CallstackIid kCallstackIid{};
+ void add_callstack_iid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CallstackIid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimestampDeltaUs =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ StreamingProfilePacket>;
+
+ static constexpr FieldMetadata_TimestampDeltaUs kTimestampDeltaUs{};
+ void add_timestamp_delta_us(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimestampDeltaUs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ProcessPriority =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ StreamingProfilePacket>;
+
+ static constexpr FieldMetadata_ProcessPriority kProcessPriority{};
+ void set_process_priority(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ProcessPriority::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class StreamingFree_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ StreamingFree_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit StreamingFree_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit StreamingFree_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_address() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<uint64_t> address() const { return GetRepeated<uint64_t>(1); }
+ bool has_heap_id() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<uint32_t> heap_id() const { return GetRepeated<uint32_t>(2); }
+ bool has_sequence_number() const { return at<3>().valid(); }
+ ::protozero::RepeatedFieldIterator<uint64_t> sequence_number() const { return GetRepeated<uint64_t>(3); }
+};
+
+class StreamingFree : public ::protozero::Message {
+ public:
+ using Decoder = StreamingFree_Decoder;
+ enum : int32_t {
+ kAddressFieldNumber = 1,
+ kHeapIdFieldNumber = 2,
+ kSequenceNumberFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.StreamingFree"; }
+
+
+ using FieldMetadata_Address =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ StreamingFree>;
+
+ static constexpr FieldMetadata_Address kAddress{};
+ void add_address(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Address::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_HeapId =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ StreamingFree>;
+
+ static constexpr FieldMetadata_HeapId kHeapId{};
+ void add_heap_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_HeapId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SequenceNumber =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ StreamingFree>;
+
+ static constexpr FieldMetadata_SequenceNumber kSequenceNumber{};
+ void add_sequence_number(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SequenceNumber::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class StreamingAllocation_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/6, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ StreamingAllocation_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit StreamingAllocation_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit StreamingAllocation_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_address() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<uint64_t> address() const { return GetRepeated<uint64_t>(1); }
+ bool has_size() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<uint64_t> size() const { return GetRepeated<uint64_t>(2); }
+ bool has_sample_size() const { return at<3>().valid(); }
+ ::protozero::RepeatedFieldIterator<uint64_t> sample_size() const { return GetRepeated<uint64_t>(3); }
+ bool has_clock_monotonic_coarse_timestamp() const { return at<4>().valid(); }
+ ::protozero::RepeatedFieldIterator<uint64_t> clock_monotonic_coarse_timestamp() const { return GetRepeated<uint64_t>(4); }
+ bool has_heap_id() const { return at<5>().valid(); }
+ ::protozero::RepeatedFieldIterator<uint32_t> heap_id() const { return GetRepeated<uint32_t>(5); }
+ bool has_sequence_number() const { return at<6>().valid(); }
+ ::protozero::RepeatedFieldIterator<uint64_t> sequence_number() const { return GetRepeated<uint64_t>(6); }
+};
+
+class StreamingAllocation : public ::protozero::Message {
+ public:
+ using Decoder = StreamingAllocation_Decoder;
+ enum : int32_t {
+ kAddressFieldNumber = 1,
+ kSizeFieldNumber = 2,
+ kSampleSizeFieldNumber = 3,
+ kClockMonotonicCoarseTimestampFieldNumber = 4,
+ kHeapIdFieldNumber = 5,
+ kSequenceNumberFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.StreamingAllocation"; }
+
+
+ using FieldMetadata_Address =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ StreamingAllocation>;
+
+ static constexpr FieldMetadata_Address kAddress{};
+ void add_address(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Address::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Size =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ StreamingAllocation>;
+
+ static constexpr FieldMetadata_Size kSize{};
+ void add_size(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Size::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SampleSize =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ StreamingAllocation>;
+
+ static constexpr FieldMetadata_SampleSize kSampleSize{};
+ void add_sample_size(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SampleSize::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ClockMonotonicCoarseTimestamp =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ StreamingAllocation>;
+
+ static constexpr FieldMetadata_ClockMonotonicCoarseTimestamp kClockMonotonicCoarseTimestamp{};
+ void add_clock_monotonic_coarse_timestamp(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ClockMonotonicCoarseTimestamp::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_HeapId =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ StreamingAllocation>;
+
+ static constexpr FieldMetadata_HeapId kHeapId{};
+ void add_heap_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_HeapId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SequenceNumber =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ StreamingAllocation>;
+
+ static constexpr FieldMetadata_SequenceNumber kSequenceNumber{};
+ void add_sequence_number(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SequenceNumber::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class ProfilePacket_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/7, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ ProfilePacket_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ProfilePacket_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ProfilePacket_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_strings() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> strings() const { return GetRepeated<::protozero::ConstBytes>(1); }
+ bool has_mappings() const { return at<4>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> mappings() const { return GetRepeated<::protozero::ConstBytes>(4); }
+ bool has_frames() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> frames() const { return GetRepeated<::protozero::ConstBytes>(2); }
+ bool has_callstacks() const { return at<3>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> callstacks() const { return GetRepeated<::protozero::ConstBytes>(3); }
+ bool has_process_dumps() const { return at<5>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> process_dumps() const { return GetRepeated<::protozero::ConstBytes>(5); }
+ bool has_continued() const { return at<6>().valid(); }
+ bool continued() const { return at<6>().as_bool(); }
+ bool has_index() const { return at<7>().valid(); }
+ uint64_t index() const { return at<7>().as_uint64(); }
+};
+
+class ProfilePacket : public ::protozero::Message {
+ public:
+ using Decoder = ProfilePacket_Decoder;
+ enum : int32_t {
+ kStringsFieldNumber = 1,
+ kMappingsFieldNumber = 4,
+ kFramesFieldNumber = 2,
+ kCallstacksFieldNumber = 3,
+ kProcessDumpsFieldNumber = 5,
+ kContinuedFieldNumber = 6,
+ kIndexFieldNumber = 7,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ProfilePacket"; }
+
+ using HeapSample = ::perfetto::protos::pbzero::ProfilePacket_HeapSample;
+ using Histogram = ::perfetto::protos::pbzero::ProfilePacket_Histogram;
+ using ProcessStats = ::perfetto::protos::pbzero::ProfilePacket_ProcessStats;
+ using ProcessHeapSamples = ::perfetto::protos::pbzero::ProfilePacket_ProcessHeapSamples;
+
+ using FieldMetadata_Strings =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ InternedString,
+ ProfilePacket>;
+
+ static constexpr FieldMetadata_Strings kStrings{};
+ template <typename T = InternedString> T* add_strings() {
+ return BeginNestedMessage<T>(1);
+ }
+
+
+ using FieldMetadata_Mappings =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Mapping,
+ ProfilePacket>;
+
+ static constexpr FieldMetadata_Mappings kMappings{};
+ template <typename T = Mapping> T* add_mappings() {
+ return BeginNestedMessage<T>(4);
+ }
+
+
+ using FieldMetadata_Frames =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Frame,
+ ProfilePacket>;
+
+ static constexpr FieldMetadata_Frames kFrames{};
+ template <typename T = Frame> T* add_frames() {
+ return BeginNestedMessage<T>(2);
+ }
+
+
+ using FieldMetadata_Callstacks =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Callstack,
+ ProfilePacket>;
+
+ static constexpr FieldMetadata_Callstacks kCallstacks{};
+ template <typename T = Callstack> T* add_callstacks() {
+ return BeginNestedMessage<T>(3);
+ }
+
+
+ using FieldMetadata_ProcessDumps =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ProfilePacket_ProcessHeapSamples,
+ ProfilePacket>;
+
+ static constexpr FieldMetadata_ProcessDumps kProcessDumps{};
+ template <typename T = ProfilePacket_ProcessHeapSamples> T* add_process_dumps() {
+ return BeginNestedMessage<T>(5);
+ }
+
+
+ using FieldMetadata_Continued =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ProfilePacket>;
+
+ static constexpr FieldMetadata_Continued kContinued{};
+ void set_continued(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_Continued::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Index =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ProfilePacket>;
+
+ static constexpr FieldMetadata_Index kIndex{};
+ void set_index(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Index::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class ProfilePacket_ProcessHeapSamples_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/14, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ ProfilePacket_ProcessHeapSamples_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ProfilePacket_ProcessHeapSamples_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ProfilePacket_ProcessHeapSamples_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_pid() const { return at<1>().valid(); }
+ uint64_t pid() const { return at<1>().as_uint64(); }
+ bool has_from_startup() const { return at<3>().valid(); }
+ bool from_startup() const { return at<3>().as_bool(); }
+ bool has_rejected_concurrent() const { return at<4>().valid(); }
+ bool rejected_concurrent() const { return at<4>().as_bool(); }
+ bool has_disconnected() const { return at<6>().valid(); }
+ bool disconnected() const { return at<6>().as_bool(); }
+ bool has_buffer_overran() const { return at<7>().valid(); }
+ bool buffer_overran() const { return at<7>().as_bool(); }
+ bool has_client_error() const { return at<14>().valid(); }
+ int32_t client_error() const { return at<14>().as_int32(); }
+ bool has_buffer_corrupted() const { return at<8>().valid(); }
+ bool buffer_corrupted() const { return at<8>().as_bool(); }
+ bool has_hit_guardrail() const { return at<10>().valid(); }
+ bool hit_guardrail() const { return at<10>().as_bool(); }
+ bool has_heap_name() const { return at<11>().valid(); }
+ ::protozero::ConstChars heap_name() const { return at<11>().as_string(); }
+ bool has_sampling_interval_bytes() const { return at<12>().valid(); }
+ uint64_t sampling_interval_bytes() const { return at<12>().as_uint64(); }
+ bool has_orig_sampling_interval_bytes() const { return at<13>().valid(); }
+ uint64_t orig_sampling_interval_bytes() const { return at<13>().as_uint64(); }
+ bool has_timestamp() const { return at<9>().valid(); }
+ uint64_t timestamp() const { return at<9>().as_uint64(); }
+ bool has_stats() const { return at<5>().valid(); }
+ ::protozero::ConstBytes stats() const { return at<5>().as_bytes(); }
+ bool has_samples() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> samples() const { return GetRepeated<::protozero::ConstBytes>(2); }
+};
+
+class ProfilePacket_ProcessHeapSamples : public ::protozero::Message {
+ public:
+ using Decoder = ProfilePacket_ProcessHeapSamples_Decoder;
+ enum : int32_t {
+ kPidFieldNumber = 1,
+ kFromStartupFieldNumber = 3,
+ kRejectedConcurrentFieldNumber = 4,
+ kDisconnectedFieldNumber = 6,
+ kBufferOverranFieldNumber = 7,
+ kClientErrorFieldNumber = 14,
+ kBufferCorruptedFieldNumber = 8,
+ kHitGuardrailFieldNumber = 10,
+ kHeapNameFieldNumber = 11,
+ kSamplingIntervalBytesFieldNumber = 12,
+ kOrigSamplingIntervalBytesFieldNumber = 13,
+ kTimestampFieldNumber = 9,
+ kStatsFieldNumber = 5,
+ kSamplesFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ProfilePacket.ProcessHeapSamples"; }
+
+
+ using ClientError = ::perfetto::protos::pbzero::ProfilePacket_ProcessHeapSamples_ClientError;
+ static inline const char* ClientError_Name(ClientError value) {
+ return ::perfetto::protos::pbzero::ProfilePacket_ProcessHeapSamples_ClientError_Name(value);
+ }
+ static inline const ClientError CLIENT_ERROR_NONE = ClientError::CLIENT_ERROR_NONE;
+ static inline const ClientError CLIENT_ERROR_HIT_TIMEOUT = ClientError::CLIENT_ERROR_HIT_TIMEOUT;
+ static inline const ClientError CLIENT_ERROR_INVALID_STACK_BOUNDS = ClientError::CLIENT_ERROR_INVALID_STACK_BOUNDS;
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ProfilePacket_ProcessHeapSamples>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FromStartup =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ProfilePacket_ProcessHeapSamples>;
+
+ static constexpr FieldMetadata_FromStartup kFromStartup{};
+ void set_from_startup(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_FromStartup::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_RejectedConcurrent =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ProfilePacket_ProcessHeapSamples>;
+
+ static constexpr FieldMetadata_RejectedConcurrent kRejectedConcurrent{};
+ void set_rejected_concurrent(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_RejectedConcurrent::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Disconnected =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ProfilePacket_ProcessHeapSamples>;
+
+ static constexpr FieldMetadata_Disconnected kDisconnected{};
+ void set_disconnected(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_Disconnected::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BufferOverran =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ProfilePacket_ProcessHeapSamples>;
+
+ static constexpr FieldMetadata_BufferOverran kBufferOverran{};
+ void set_buffer_overran(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_BufferOverran::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ClientError =
+ ::protozero::proto_utils::FieldMetadata<
+ 14,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ ProfilePacket_ProcessHeapSamples_ClientError,
+ ProfilePacket_ProcessHeapSamples>;
+
+ static constexpr FieldMetadata_ClientError kClientError{};
+ void set_client_error(ProfilePacket_ProcessHeapSamples_ClientError value) {
+ static constexpr uint32_t field_id = FieldMetadata_ClientError::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BufferCorrupted =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ProfilePacket_ProcessHeapSamples>;
+
+ static constexpr FieldMetadata_BufferCorrupted kBufferCorrupted{};
+ void set_buffer_corrupted(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_BufferCorrupted::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_HitGuardrail =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ProfilePacket_ProcessHeapSamples>;
+
+ static constexpr FieldMetadata_HitGuardrail kHitGuardrail{};
+ void set_hit_guardrail(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_HitGuardrail::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_HeapName =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ProfilePacket_ProcessHeapSamples>;
+
+ static constexpr FieldMetadata_HeapName kHeapName{};
+ void set_heap_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_HeapName::kFieldId, data, size);
+ }
+ void set_heap_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_HeapName::kFieldId, chars.data, chars.size);
+ }
+ void set_heap_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_HeapName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SamplingIntervalBytes =
+ ::protozero::proto_utils::FieldMetadata<
+ 12,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ProfilePacket_ProcessHeapSamples>;
+
+ static constexpr FieldMetadata_SamplingIntervalBytes kSamplingIntervalBytes{};
+ void set_sampling_interval_bytes(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SamplingIntervalBytes::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_OrigSamplingIntervalBytes =
+ ::protozero::proto_utils::FieldMetadata<
+ 13,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ProfilePacket_ProcessHeapSamples>;
+
+ static constexpr FieldMetadata_OrigSamplingIntervalBytes kOrigSamplingIntervalBytes{};
+ void set_orig_sampling_interval_bytes(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_OrigSamplingIntervalBytes::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Timestamp =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ProfilePacket_ProcessHeapSamples>;
+
+ static constexpr FieldMetadata_Timestamp kTimestamp{};
+ void set_timestamp(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Timestamp::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Stats =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ProfilePacket_ProcessStats,
+ ProfilePacket_ProcessHeapSamples>;
+
+ static constexpr FieldMetadata_Stats kStats{};
+ template <typename T = ProfilePacket_ProcessStats> T* set_stats() {
+ return BeginNestedMessage<T>(5);
+ }
+
+
+ using FieldMetadata_Samples =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ProfilePacket_HeapSample,
+ ProfilePacket_ProcessHeapSamples>;
+
+ static constexpr FieldMetadata_Samples kSamples{};
+ template <typename T = ProfilePacket_HeapSample> T* add_samples() {
+ return BeginNestedMessage<T>(2);
+ }
+
+};
+
+class ProfilePacket_ProcessStats_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/6, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ProfilePacket_ProcessStats_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ProfilePacket_ProcessStats_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ProfilePacket_ProcessStats_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_unwinding_errors() const { return at<1>().valid(); }
+ uint64_t unwinding_errors() const { return at<1>().as_uint64(); }
+ bool has_heap_samples() const { return at<2>().valid(); }
+ uint64_t heap_samples() const { return at<2>().as_uint64(); }
+ bool has_map_reparses() const { return at<3>().valid(); }
+ uint64_t map_reparses() const { return at<3>().as_uint64(); }
+ bool has_unwinding_time_us() const { return at<4>().valid(); }
+ ::protozero::ConstBytes unwinding_time_us() const { return at<4>().as_bytes(); }
+ bool has_total_unwinding_time_us() const { return at<5>().valid(); }
+ uint64_t total_unwinding_time_us() const { return at<5>().as_uint64(); }
+ bool has_client_spinlock_blocked_us() const { return at<6>().valid(); }
+ uint64_t client_spinlock_blocked_us() const { return at<6>().as_uint64(); }
+};
+
+class ProfilePacket_ProcessStats : public ::protozero::Message {
+ public:
+ using Decoder = ProfilePacket_ProcessStats_Decoder;
+ enum : int32_t {
+ kUnwindingErrorsFieldNumber = 1,
+ kHeapSamplesFieldNumber = 2,
+ kMapReparsesFieldNumber = 3,
+ kUnwindingTimeUsFieldNumber = 4,
+ kTotalUnwindingTimeUsFieldNumber = 5,
+ kClientSpinlockBlockedUsFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ProfilePacket.ProcessStats"; }
+
+
+ using FieldMetadata_UnwindingErrors =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ProfilePacket_ProcessStats>;
+
+ static constexpr FieldMetadata_UnwindingErrors kUnwindingErrors{};
+ void set_unwinding_errors(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_UnwindingErrors::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_HeapSamples =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ProfilePacket_ProcessStats>;
+
+ static constexpr FieldMetadata_HeapSamples kHeapSamples{};
+ void set_heap_samples(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_HeapSamples::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MapReparses =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ProfilePacket_ProcessStats>;
+
+ static constexpr FieldMetadata_MapReparses kMapReparses{};
+ void set_map_reparses(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MapReparses::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_UnwindingTimeUs =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ProfilePacket_Histogram,
+ ProfilePacket_ProcessStats>;
+
+ static constexpr FieldMetadata_UnwindingTimeUs kUnwindingTimeUs{};
+ template <typename T = ProfilePacket_Histogram> T* set_unwinding_time_us() {
+ return BeginNestedMessage<T>(4);
+ }
+
+
+ using FieldMetadata_TotalUnwindingTimeUs =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ProfilePacket_ProcessStats>;
+
+ static constexpr FieldMetadata_TotalUnwindingTimeUs kTotalUnwindingTimeUs{};
+ void set_total_unwinding_time_us(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TotalUnwindingTimeUs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ClientSpinlockBlockedUs =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ProfilePacket_ProcessStats>;
+
+ static constexpr FieldMetadata_ClientSpinlockBlockedUs kClientSpinlockBlockedUs{};
+ void set_client_spinlock_blocked_us(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ClientSpinlockBlockedUs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class ProfilePacket_Histogram_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ ProfilePacket_Histogram_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ProfilePacket_Histogram_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ProfilePacket_Histogram_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_buckets() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> buckets() const { return GetRepeated<::protozero::ConstBytes>(1); }
+};
+
+class ProfilePacket_Histogram : public ::protozero::Message {
+ public:
+ using Decoder = ProfilePacket_Histogram_Decoder;
+ enum : int32_t {
+ kBucketsFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ProfilePacket.Histogram"; }
+
+ using Bucket = ::perfetto::protos::pbzero::ProfilePacket_Histogram_Bucket;
+
+ using FieldMetadata_Buckets =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ProfilePacket_Histogram_Bucket,
+ ProfilePacket_Histogram>;
+
+ static constexpr FieldMetadata_Buckets kBuckets{};
+ template <typename T = ProfilePacket_Histogram_Bucket> T* add_buckets() {
+ return BeginNestedMessage<T>(1);
+ }
+
+};
+
+class ProfilePacket_Histogram_Bucket_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ProfilePacket_Histogram_Bucket_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ProfilePacket_Histogram_Bucket_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ProfilePacket_Histogram_Bucket_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_upper_limit() const { return at<1>().valid(); }
+ uint64_t upper_limit() const { return at<1>().as_uint64(); }
+ bool has_max_bucket() const { return at<2>().valid(); }
+ bool max_bucket() const { return at<2>().as_bool(); }
+ bool has_count() const { return at<3>().valid(); }
+ uint64_t count() const { return at<3>().as_uint64(); }
+};
+
+class ProfilePacket_Histogram_Bucket : public ::protozero::Message {
+ public:
+ using Decoder = ProfilePacket_Histogram_Bucket_Decoder;
+ enum : int32_t {
+ kUpperLimitFieldNumber = 1,
+ kMaxBucketFieldNumber = 2,
+ kCountFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ProfilePacket.Histogram.Bucket"; }
+
+
+ using FieldMetadata_UpperLimit =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ProfilePacket_Histogram_Bucket>;
+
+ static constexpr FieldMetadata_UpperLimit kUpperLimit{};
+ void set_upper_limit(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_UpperLimit::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MaxBucket =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ProfilePacket_Histogram_Bucket>;
+
+ static constexpr FieldMetadata_MaxBucket kMaxBucket{};
+ void set_max_bucket(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_MaxBucket::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Count =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ProfilePacket_Histogram_Bucket>;
+
+ static constexpr FieldMetadata_Count kCount{};
+ void set_count(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Count::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class ProfilePacket_HeapSample_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/9, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ProfilePacket_HeapSample_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ProfilePacket_HeapSample_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ProfilePacket_HeapSample_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_callstack_id() const { return at<1>().valid(); }
+ uint64_t callstack_id() const { return at<1>().as_uint64(); }
+ bool has_self_allocated() const { return at<2>().valid(); }
+ uint64_t self_allocated() const { return at<2>().as_uint64(); }
+ bool has_self_freed() const { return at<3>().valid(); }
+ uint64_t self_freed() const { return at<3>().as_uint64(); }
+ bool has_self_max() const { return at<8>().valid(); }
+ uint64_t self_max() const { return at<8>().as_uint64(); }
+ bool has_self_max_count() const { return at<9>().valid(); }
+ uint64_t self_max_count() const { return at<9>().as_uint64(); }
+ bool has_timestamp() const { return at<4>().valid(); }
+ uint64_t timestamp() const { return at<4>().as_uint64(); }
+ bool has_alloc_count() const { return at<5>().valid(); }
+ uint64_t alloc_count() const { return at<5>().as_uint64(); }
+ bool has_free_count() const { return at<6>().valid(); }
+ uint64_t free_count() const { return at<6>().as_uint64(); }
+};
+
+class ProfilePacket_HeapSample : public ::protozero::Message {
+ public:
+ using Decoder = ProfilePacket_HeapSample_Decoder;
+ enum : int32_t {
+ kCallstackIdFieldNumber = 1,
+ kSelfAllocatedFieldNumber = 2,
+ kSelfFreedFieldNumber = 3,
+ kSelfMaxFieldNumber = 8,
+ kSelfMaxCountFieldNumber = 9,
+ kTimestampFieldNumber = 4,
+ kAllocCountFieldNumber = 5,
+ kFreeCountFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ProfilePacket.HeapSample"; }
+
+
+ using FieldMetadata_CallstackId =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ProfilePacket_HeapSample>;
+
+ static constexpr FieldMetadata_CallstackId kCallstackId{};
+ void set_callstack_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CallstackId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SelfAllocated =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ProfilePacket_HeapSample>;
+
+ static constexpr FieldMetadata_SelfAllocated kSelfAllocated{};
+ void set_self_allocated(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SelfAllocated::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SelfFreed =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ProfilePacket_HeapSample>;
+
+ static constexpr FieldMetadata_SelfFreed kSelfFreed{};
+ void set_self_freed(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SelfFreed::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SelfMax =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ProfilePacket_HeapSample>;
+
+ static constexpr FieldMetadata_SelfMax kSelfMax{};
+ void set_self_max(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SelfMax::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SelfMaxCount =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ProfilePacket_HeapSample>;
+
+ static constexpr FieldMetadata_SelfMaxCount kSelfMaxCount{};
+ void set_self_max_count(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SelfMaxCount::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Timestamp =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ProfilePacket_HeapSample>;
+
+ static constexpr FieldMetadata_Timestamp kTimestamp{};
+ void set_timestamp(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Timestamp::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_AllocCount =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ProfilePacket_HeapSample>;
+
+ static constexpr FieldMetadata_AllocCount kAllocCount{};
+ void set_alloc_count(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_AllocCount::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FreeCount =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ProfilePacket_HeapSample>;
+
+ static constexpr FieldMetadata_FreeCount kFreeCount{};
+ void set_free_count(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FreeCount::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/profiling/smaps.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_PROFILING_SMAPS_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_PROFILING_SMAPS_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class SmapsEntry;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class SmapsPacket_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ SmapsPacket_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SmapsPacket_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SmapsPacket_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_pid() const { return at<1>().valid(); }
+ uint32_t pid() const { return at<1>().as_uint32(); }
+ bool has_entries() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> entries() const { return GetRepeated<::protozero::ConstBytes>(2); }
+};
+
+class SmapsPacket : public ::protozero::Message {
+ public:
+ using Decoder = SmapsPacket_Decoder;
+ enum : int32_t {
+ kPidFieldNumber = 1,
+ kEntriesFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SmapsPacket"; }
+
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SmapsPacket>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Entries =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SmapsEntry,
+ SmapsPacket>;
+
+ static constexpr FieldMetadata_Entries kEntries{};
+ template <typename T = SmapsEntry> T* add_entries() {
+ return BeginNestedMessage<T>(2);
+ }
+
+};
+
+class SmapsEntry_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/15, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ SmapsEntry_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SmapsEntry_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SmapsEntry_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_path() const { return at<1>().valid(); }
+ ::protozero::ConstChars path() const { return at<1>().as_string(); }
+ bool has_size_kb() const { return at<2>().valid(); }
+ uint64_t size_kb() const { return at<2>().as_uint64(); }
+ bool has_private_dirty_kb() const { return at<3>().valid(); }
+ uint64_t private_dirty_kb() const { return at<3>().as_uint64(); }
+ bool has_swap_kb() const { return at<4>().valid(); }
+ uint64_t swap_kb() const { return at<4>().as_uint64(); }
+ bool has_file_name() const { return at<5>().valid(); }
+ ::protozero::ConstChars file_name() const { return at<5>().as_string(); }
+ bool has_start_address() const { return at<6>().valid(); }
+ uint64_t start_address() const { return at<6>().as_uint64(); }
+ bool has_module_timestamp() const { return at<7>().valid(); }
+ uint64_t module_timestamp() const { return at<7>().as_uint64(); }
+ bool has_module_debugid() const { return at<8>().valid(); }
+ ::protozero::ConstChars module_debugid() const { return at<8>().as_string(); }
+ bool has_module_debug_path() const { return at<9>().valid(); }
+ ::protozero::ConstChars module_debug_path() const { return at<9>().as_string(); }
+ bool has_protection_flags() const { return at<10>().valid(); }
+ uint32_t protection_flags() const { return at<10>().as_uint32(); }
+ bool has_private_clean_resident_kb() const { return at<11>().valid(); }
+ uint64_t private_clean_resident_kb() const { return at<11>().as_uint64(); }
+ bool has_shared_dirty_resident_kb() const { return at<12>().valid(); }
+ uint64_t shared_dirty_resident_kb() const { return at<12>().as_uint64(); }
+ bool has_shared_clean_resident_kb() const { return at<13>().valid(); }
+ uint64_t shared_clean_resident_kb() const { return at<13>().as_uint64(); }
+ bool has_locked_kb() const { return at<14>().valid(); }
+ uint64_t locked_kb() const { return at<14>().as_uint64(); }
+ bool has_proportional_resident_kb() const { return at<15>().valid(); }
+ uint64_t proportional_resident_kb() const { return at<15>().as_uint64(); }
+};
+
+class SmapsEntry : public ::protozero::Message {
+ public:
+ using Decoder = SmapsEntry_Decoder;
+ enum : int32_t {
+ kPathFieldNumber = 1,
+ kSizeKbFieldNumber = 2,
+ kPrivateDirtyKbFieldNumber = 3,
+ kSwapKbFieldNumber = 4,
+ kFileNameFieldNumber = 5,
+ kStartAddressFieldNumber = 6,
+ kModuleTimestampFieldNumber = 7,
+ kModuleDebugidFieldNumber = 8,
+ kModuleDebugPathFieldNumber = 9,
+ kProtectionFlagsFieldNumber = 10,
+ kPrivateCleanResidentKbFieldNumber = 11,
+ kSharedDirtyResidentKbFieldNumber = 12,
+ kSharedCleanResidentKbFieldNumber = 13,
+ kLockedKbFieldNumber = 14,
+ kProportionalResidentKbFieldNumber = 15,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SmapsEntry"; }
+
+
+ using FieldMetadata_Path =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ SmapsEntry>;
+
+ static constexpr FieldMetadata_Path kPath{};
+ void set_path(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Path::kFieldId, data, size);
+ }
+ void set_path(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Path::kFieldId, chars.data, chars.size);
+ }
+ void set_path(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Path::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SizeKb =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SmapsEntry>;
+
+ static constexpr FieldMetadata_SizeKb kSizeKb{};
+ void set_size_kb(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SizeKb::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PrivateDirtyKb =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SmapsEntry>;
+
+ static constexpr FieldMetadata_PrivateDirtyKb kPrivateDirtyKb{};
+ void set_private_dirty_kb(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PrivateDirtyKb::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SwapKb =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SmapsEntry>;
+
+ static constexpr FieldMetadata_SwapKb kSwapKb{};
+ void set_swap_kb(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SwapKb::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FileName =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ SmapsEntry>;
+
+ static constexpr FieldMetadata_FileName kFileName{};
+ void set_file_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_FileName::kFieldId, data, size);
+ }
+ void set_file_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_FileName::kFieldId, chars.data, chars.size);
+ }
+ void set_file_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_FileName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_StartAddress =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SmapsEntry>;
+
+ static constexpr FieldMetadata_StartAddress kStartAddress{};
+ void set_start_address(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_StartAddress::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ModuleTimestamp =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SmapsEntry>;
+
+ static constexpr FieldMetadata_ModuleTimestamp kModuleTimestamp{};
+ void set_module_timestamp(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ModuleTimestamp::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ModuleDebugid =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ SmapsEntry>;
+
+ static constexpr FieldMetadata_ModuleDebugid kModuleDebugid{};
+ void set_module_debugid(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_ModuleDebugid::kFieldId, data, size);
+ }
+ void set_module_debugid(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_ModuleDebugid::kFieldId, chars.data, chars.size);
+ }
+ void set_module_debugid(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_ModuleDebugid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ModuleDebugPath =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ SmapsEntry>;
+
+ static constexpr FieldMetadata_ModuleDebugPath kModuleDebugPath{};
+ void set_module_debug_path(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_ModuleDebugPath::kFieldId, data, size);
+ }
+ void set_module_debug_path(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_ModuleDebugPath::kFieldId, chars.data, chars.size);
+ }
+ void set_module_debug_path(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_ModuleDebugPath::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ProtectionFlags =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SmapsEntry>;
+
+ static constexpr FieldMetadata_ProtectionFlags kProtectionFlags{};
+ void set_protection_flags(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ProtectionFlags::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PrivateCleanResidentKb =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SmapsEntry>;
+
+ static constexpr FieldMetadata_PrivateCleanResidentKb kPrivateCleanResidentKb{};
+ void set_private_clean_resident_kb(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PrivateCleanResidentKb::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SharedDirtyResidentKb =
+ ::protozero::proto_utils::FieldMetadata<
+ 12,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SmapsEntry>;
+
+ static constexpr FieldMetadata_SharedDirtyResidentKb kSharedDirtyResidentKb{};
+ void set_shared_dirty_resident_kb(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SharedDirtyResidentKb::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SharedCleanResidentKb =
+ ::protozero::proto_utils::FieldMetadata<
+ 13,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SmapsEntry>;
+
+ static constexpr FieldMetadata_SharedCleanResidentKb kSharedCleanResidentKb{};
+ void set_shared_clean_resident_kb(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SharedCleanResidentKb::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_LockedKb =
+ ::protozero::proto_utils::FieldMetadata<
+ 14,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SmapsEntry>;
+
+ static constexpr FieldMetadata_LockedKb kLockedKb{};
+ void set_locked_kb(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_LockedKb::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ProportionalResidentKb =
+ ::protozero::proto_utils::FieldMetadata<
+ 15,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SmapsEntry>;
+
+ static constexpr FieldMetadata_ProportionalResidentKb kProportionalResidentKb{};
+ void set_proportional_resident_kb(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ProportionalResidentKb::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/track_event/chrome_active_processes.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_ACTIVE_PROCESSES_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_ACTIVE_PROCESSES_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class ChromeActiveProcesses_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ ChromeActiveProcesses_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ChromeActiveProcesses_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ChromeActiveProcesses_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_pid() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<int32_t> pid() const { return GetRepeated<int32_t>(1); }
+};
+
+class ChromeActiveProcesses : public ::protozero::Message {
+ public:
+ using Decoder = ChromeActiveProcesses_Decoder;
+ enum : int32_t {
+ kPidFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ChromeActiveProcesses"; }
+
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ ChromeActiveProcesses>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void add_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/track_event/chrome_application_state_info.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_APPLICATION_STATE_INFO_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_APPLICATION_STATE_INFO_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+namespace perfetto_pbzero_enum_ChromeApplicationStateInfo {
+enum ChromeApplicationState : int32_t;
+} // namespace perfetto_pbzero_enum_ChromeApplicationStateInfo
+using ChromeApplicationStateInfo_ChromeApplicationState = perfetto_pbzero_enum_ChromeApplicationStateInfo::ChromeApplicationState;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+namespace perfetto_pbzero_enum_ChromeApplicationStateInfo {
+enum ChromeApplicationState : int32_t {
+ APPLICATION_STATE_UNKNOWN = 0,
+ APPLICATION_STATE_HAS_RUNNING_ACTIVITIES = 1,
+ APPLICATION_STATE_HAS_PAUSED_ACTIVITIES = 2,
+ APPLICATION_STATE_HAS_STOPPED_ACTIVITIES = 3,
+ APPLICATION_STATE_HAS_DESTROYED_ACTIVITIES = 4,
+};
+} // namespace perfetto_pbzero_enum_ChromeApplicationStateInfo
+using ChromeApplicationStateInfo_ChromeApplicationState = perfetto_pbzero_enum_ChromeApplicationStateInfo::ChromeApplicationState;
+
+
+constexpr ChromeApplicationStateInfo_ChromeApplicationState ChromeApplicationStateInfo_ChromeApplicationState_MIN = ChromeApplicationStateInfo_ChromeApplicationState::APPLICATION_STATE_UNKNOWN;
+constexpr ChromeApplicationStateInfo_ChromeApplicationState ChromeApplicationStateInfo_ChromeApplicationState_MAX = ChromeApplicationStateInfo_ChromeApplicationState::APPLICATION_STATE_HAS_DESTROYED_ACTIVITIES;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* ChromeApplicationStateInfo_ChromeApplicationState_Name(::perfetto::protos::pbzero::ChromeApplicationStateInfo_ChromeApplicationState value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::ChromeApplicationStateInfo_ChromeApplicationState::APPLICATION_STATE_UNKNOWN:
+ return "APPLICATION_STATE_UNKNOWN";
+
+ case ::perfetto::protos::pbzero::ChromeApplicationStateInfo_ChromeApplicationState::APPLICATION_STATE_HAS_RUNNING_ACTIVITIES:
+ return "APPLICATION_STATE_HAS_RUNNING_ACTIVITIES";
+
+ case ::perfetto::protos::pbzero::ChromeApplicationStateInfo_ChromeApplicationState::APPLICATION_STATE_HAS_PAUSED_ACTIVITIES:
+ return "APPLICATION_STATE_HAS_PAUSED_ACTIVITIES";
+
+ case ::perfetto::protos::pbzero::ChromeApplicationStateInfo_ChromeApplicationState::APPLICATION_STATE_HAS_STOPPED_ACTIVITIES:
+ return "APPLICATION_STATE_HAS_STOPPED_ACTIVITIES";
+
+ case ::perfetto::protos::pbzero::ChromeApplicationStateInfo_ChromeApplicationState::APPLICATION_STATE_HAS_DESTROYED_ACTIVITIES:
+ return "APPLICATION_STATE_HAS_DESTROYED_ACTIVITIES";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+class ChromeApplicationStateInfo_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ChromeApplicationStateInfo_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ChromeApplicationStateInfo_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ChromeApplicationStateInfo_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_application_state() const { return at<1>().valid(); }
+ int32_t application_state() const { return at<1>().as_int32(); }
+};
+
+class ChromeApplicationStateInfo : public ::protozero::Message {
+ public:
+ using Decoder = ChromeApplicationStateInfo_Decoder;
+ enum : int32_t {
+ kApplicationStateFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ChromeApplicationStateInfo"; }
+
+
+ using ChromeApplicationState = ::perfetto::protos::pbzero::ChromeApplicationStateInfo_ChromeApplicationState;
+ static inline const char* ChromeApplicationState_Name(ChromeApplicationState value) {
+ return ::perfetto::protos::pbzero::ChromeApplicationStateInfo_ChromeApplicationState_Name(value);
+ }
+ static inline const ChromeApplicationState APPLICATION_STATE_UNKNOWN = ChromeApplicationState::APPLICATION_STATE_UNKNOWN;
+ static inline const ChromeApplicationState APPLICATION_STATE_HAS_RUNNING_ACTIVITIES = ChromeApplicationState::APPLICATION_STATE_HAS_RUNNING_ACTIVITIES;
+ static inline const ChromeApplicationState APPLICATION_STATE_HAS_PAUSED_ACTIVITIES = ChromeApplicationState::APPLICATION_STATE_HAS_PAUSED_ACTIVITIES;
+ static inline const ChromeApplicationState APPLICATION_STATE_HAS_STOPPED_ACTIVITIES = ChromeApplicationState::APPLICATION_STATE_HAS_STOPPED_ACTIVITIES;
+ static inline const ChromeApplicationState APPLICATION_STATE_HAS_DESTROYED_ACTIVITIES = ChromeApplicationState::APPLICATION_STATE_HAS_DESTROYED_ACTIVITIES;
+
+ using FieldMetadata_ApplicationState =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ ChromeApplicationStateInfo_ChromeApplicationState,
+ ChromeApplicationStateInfo>;
+
+ static constexpr FieldMetadata_ApplicationState kApplicationState{};
+ void set_application_state(ChromeApplicationStateInfo_ChromeApplicationState value) {
+ static constexpr uint32_t field_id = FieldMetadata_ApplicationState::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/track_event/chrome_compositor_scheduler_state.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_COMPOSITOR_SCHEDULER_STATE_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_COMPOSITOR_SCHEDULER_STATE_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class BeginFrameArgs;
+class BeginFrameObserverState;
+class BeginFrameSourceState;
+class BeginImplFrameArgs;
+class BeginImplFrameArgs_TimestampsInUs;
+class ChromeCompositorStateMachine;
+class ChromeCompositorStateMachine_MajorState;
+class ChromeCompositorStateMachine_MinorState;
+class CompositorTimingHistory;
+class SourceLocation;
+namespace perfetto_pbzero_enum_BeginFrameArgs {
+enum BeginFrameArgsType : int32_t;
+} // namespace perfetto_pbzero_enum_BeginFrameArgs
+using BeginFrameArgs_BeginFrameArgsType = perfetto_pbzero_enum_BeginFrameArgs::BeginFrameArgsType;
+namespace perfetto_pbzero_enum_BeginImplFrameArgs {
+enum State : int32_t;
+} // namespace perfetto_pbzero_enum_BeginImplFrameArgs
+using BeginImplFrameArgs_State = perfetto_pbzero_enum_BeginImplFrameArgs::State;
+enum ChromeCompositorSchedulerAction : int32_t;
+namespace perfetto_pbzero_enum_ChromeCompositorSchedulerState {
+enum BeginImplFrameDeadlineMode : int32_t;
+} // namespace perfetto_pbzero_enum_ChromeCompositorSchedulerState
+using ChromeCompositorSchedulerState_BeginImplFrameDeadlineMode = perfetto_pbzero_enum_ChromeCompositorSchedulerState::BeginImplFrameDeadlineMode;
+namespace perfetto_pbzero_enum_ChromeCompositorStateMachine_MajorState {
+enum BeginImplFrameState : int32_t;
+} // namespace perfetto_pbzero_enum_ChromeCompositorStateMachine_MajorState
+using ChromeCompositorStateMachine_MajorState_BeginImplFrameState = perfetto_pbzero_enum_ChromeCompositorStateMachine_MajorState::BeginImplFrameState;
+namespace perfetto_pbzero_enum_ChromeCompositorStateMachine_MajorState {
+enum BeginMainFrameState : int32_t;
+} // namespace perfetto_pbzero_enum_ChromeCompositorStateMachine_MajorState
+using ChromeCompositorStateMachine_MajorState_BeginMainFrameState = perfetto_pbzero_enum_ChromeCompositorStateMachine_MajorState::BeginMainFrameState;
+namespace perfetto_pbzero_enum_ChromeCompositorStateMachine_MajorState {
+enum ForcedRedrawOnTimeoutState : int32_t;
+} // namespace perfetto_pbzero_enum_ChromeCompositorStateMachine_MajorState
+using ChromeCompositorStateMachine_MajorState_ForcedRedrawOnTimeoutState = perfetto_pbzero_enum_ChromeCompositorStateMachine_MajorState::ForcedRedrawOnTimeoutState;
+namespace perfetto_pbzero_enum_ChromeCompositorStateMachine_MajorState {
+enum LayerTreeFrameSinkState : int32_t;
+} // namespace perfetto_pbzero_enum_ChromeCompositorStateMachine_MajorState
+using ChromeCompositorStateMachine_MajorState_LayerTreeFrameSinkState = perfetto_pbzero_enum_ChromeCompositorStateMachine_MajorState::LayerTreeFrameSinkState;
+namespace perfetto_pbzero_enum_ChromeCompositorStateMachine_MinorState {
+enum ScrollHandlerState : int32_t;
+} // namespace perfetto_pbzero_enum_ChromeCompositorStateMachine_MinorState
+using ChromeCompositorStateMachine_MinorState_ScrollHandlerState = perfetto_pbzero_enum_ChromeCompositorStateMachine_MinorState::ScrollHandlerState;
+namespace perfetto_pbzero_enum_ChromeCompositorStateMachine_MinorState {
+enum TreePriority : int32_t;
+} // namespace perfetto_pbzero_enum_ChromeCompositorStateMachine_MinorState
+using ChromeCompositorStateMachine_MinorState_TreePriority = perfetto_pbzero_enum_ChromeCompositorStateMachine_MinorState::TreePriority;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+enum ChromeCompositorSchedulerAction : int32_t {
+ CC_SCHEDULER_ACTION_UNSPECIFIED = 0,
+ CC_SCHEDULER_ACTION_NONE = 1,
+ CC_SCHEDULER_ACTION_SEND_BEGIN_MAIN_FRAME = 2,
+ CC_SCHEDULER_ACTION_COMMIT = 3,
+ CC_SCHEDULER_ACTION_ACTIVATE_SYNC_TREE = 4,
+ CC_SCHEDULER_ACTION_DRAW_IF_POSSIBLE = 5,
+ CC_SCHEDULER_ACTION_DRAW_FORCED = 6,
+ CC_SCHEDULER_ACTION_DRAW_ABORT = 7,
+ CC_SCHEDULER_ACTION_BEGIN_LAYER_TREE_FRAME_SINK_CREATION = 8,
+ CC_SCHEDULER_ACTION_PREPARE_TILES = 9,
+ CC_SCHEDULER_ACTION_INVALIDATE_LAYER_TREE_FRAME_SINK = 10,
+ CC_SCHEDULER_ACTION_PERFORM_IMPL_SIDE_INVALIDATION = 11,
+ CC_SCHEDULER_ACTION_NOTIFY_BEGIN_MAIN_FRAME_NOT_EXPECTED_UNTIL = 12,
+ CC_SCHEDULER_ACTION_NOTIFY_BEGIN_MAIN_FRAME_NOT_EXPECTED_SOON = 13,
+};
+
+constexpr ChromeCompositorSchedulerAction ChromeCompositorSchedulerAction_MIN = ChromeCompositorSchedulerAction::CC_SCHEDULER_ACTION_UNSPECIFIED;
+constexpr ChromeCompositorSchedulerAction ChromeCompositorSchedulerAction_MAX = ChromeCompositorSchedulerAction::CC_SCHEDULER_ACTION_NOTIFY_BEGIN_MAIN_FRAME_NOT_EXPECTED_SOON;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* ChromeCompositorSchedulerAction_Name(::perfetto::protos::pbzero::ChromeCompositorSchedulerAction value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::ChromeCompositorSchedulerAction::CC_SCHEDULER_ACTION_UNSPECIFIED:
+ return "CC_SCHEDULER_ACTION_UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::ChromeCompositorSchedulerAction::CC_SCHEDULER_ACTION_NONE:
+ return "CC_SCHEDULER_ACTION_NONE";
+
+ case ::perfetto::protos::pbzero::ChromeCompositorSchedulerAction::CC_SCHEDULER_ACTION_SEND_BEGIN_MAIN_FRAME:
+ return "CC_SCHEDULER_ACTION_SEND_BEGIN_MAIN_FRAME";
+
+ case ::perfetto::protos::pbzero::ChromeCompositorSchedulerAction::CC_SCHEDULER_ACTION_COMMIT:
+ return "CC_SCHEDULER_ACTION_COMMIT";
+
+ case ::perfetto::protos::pbzero::ChromeCompositorSchedulerAction::CC_SCHEDULER_ACTION_ACTIVATE_SYNC_TREE:
+ return "CC_SCHEDULER_ACTION_ACTIVATE_SYNC_TREE";
+
+ case ::perfetto::protos::pbzero::ChromeCompositorSchedulerAction::CC_SCHEDULER_ACTION_DRAW_IF_POSSIBLE:
+ return "CC_SCHEDULER_ACTION_DRAW_IF_POSSIBLE";
+
+ case ::perfetto::protos::pbzero::ChromeCompositorSchedulerAction::CC_SCHEDULER_ACTION_DRAW_FORCED:
+ return "CC_SCHEDULER_ACTION_DRAW_FORCED";
+
+ case ::perfetto::protos::pbzero::ChromeCompositorSchedulerAction::CC_SCHEDULER_ACTION_DRAW_ABORT:
+ return "CC_SCHEDULER_ACTION_DRAW_ABORT";
+
+ case ::perfetto::protos::pbzero::ChromeCompositorSchedulerAction::CC_SCHEDULER_ACTION_BEGIN_LAYER_TREE_FRAME_SINK_CREATION:
+ return "CC_SCHEDULER_ACTION_BEGIN_LAYER_TREE_FRAME_SINK_CREATION";
+
+ case ::perfetto::protos::pbzero::ChromeCompositorSchedulerAction::CC_SCHEDULER_ACTION_PREPARE_TILES:
+ return "CC_SCHEDULER_ACTION_PREPARE_TILES";
+
+ case ::perfetto::protos::pbzero::ChromeCompositorSchedulerAction::CC_SCHEDULER_ACTION_INVALIDATE_LAYER_TREE_FRAME_SINK:
+ return "CC_SCHEDULER_ACTION_INVALIDATE_LAYER_TREE_FRAME_SINK";
+
+ case ::perfetto::protos::pbzero::ChromeCompositorSchedulerAction::CC_SCHEDULER_ACTION_PERFORM_IMPL_SIDE_INVALIDATION:
+ return "CC_SCHEDULER_ACTION_PERFORM_IMPL_SIDE_INVALIDATION";
+
+ case ::perfetto::protos::pbzero::ChromeCompositorSchedulerAction::CC_SCHEDULER_ACTION_NOTIFY_BEGIN_MAIN_FRAME_NOT_EXPECTED_UNTIL:
+ return "CC_SCHEDULER_ACTION_NOTIFY_BEGIN_MAIN_FRAME_NOT_EXPECTED_UNTIL";
+
+ case ::perfetto::protos::pbzero::ChromeCompositorSchedulerAction::CC_SCHEDULER_ACTION_NOTIFY_BEGIN_MAIN_FRAME_NOT_EXPECTED_SOON:
+ return "CC_SCHEDULER_ACTION_NOTIFY_BEGIN_MAIN_FRAME_NOT_EXPECTED_SOON";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_BeginImplFrameArgs {
+enum State : int32_t {
+ BEGIN_FRAME_FINISHED = 0,
+ BEGIN_FRAME_USING = 1,
+};
+} // namespace perfetto_pbzero_enum_BeginImplFrameArgs
+using BeginImplFrameArgs_State = perfetto_pbzero_enum_BeginImplFrameArgs::State;
+
+
+constexpr BeginImplFrameArgs_State BeginImplFrameArgs_State_MIN = BeginImplFrameArgs_State::BEGIN_FRAME_FINISHED;
+constexpr BeginImplFrameArgs_State BeginImplFrameArgs_State_MAX = BeginImplFrameArgs_State::BEGIN_FRAME_USING;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* BeginImplFrameArgs_State_Name(::perfetto::protos::pbzero::BeginImplFrameArgs_State value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::BeginImplFrameArgs_State::BEGIN_FRAME_FINISHED:
+ return "BEGIN_FRAME_FINISHED";
+
+ case ::perfetto::protos::pbzero::BeginImplFrameArgs_State::BEGIN_FRAME_USING:
+ return "BEGIN_FRAME_USING";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_BeginFrameArgs {
+enum BeginFrameArgsType : int32_t {
+ BEGIN_FRAME_ARGS_TYPE_UNSPECIFIED = 0,
+ BEGIN_FRAME_ARGS_TYPE_INVALID = 1,
+ BEGIN_FRAME_ARGS_TYPE_NORMAL = 2,
+ BEGIN_FRAME_ARGS_TYPE_MISSED = 3,
+};
+} // namespace perfetto_pbzero_enum_BeginFrameArgs
+using BeginFrameArgs_BeginFrameArgsType = perfetto_pbzero_enum_BeginFrameArgs::BeginFrameArgsType;
+
+
+constexpr BeginFrameArgs_BeginFrameArgsType BeginFrameArgs_BeginFrameArgsType_MIN = BeginFrameArgs_BeginFrameArgsType::BEGIN_FRAME_ARGS_TYPE_UNSPECIFIED;
+constexpr BeginFrameArgs_BeginFrameArgsType BeginFrameArgs_BeginFrameArgsType_MAX = BeginFrameArgs_BeginFrameArgsType::BEGIN_FRAME_ARGS_TYPE_MISSED;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* BeginFrameArgs_BeginFrameArgsType_Name(::perfetto::protos::pbzero::BeginFrameArgs_BeginFrameArgsType value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::BeginFrameArgs_BeginFrameArgsType::BEGIN_FRAME_ARGS_TYPE_UNSPECIFIED:
+ return "BEGIN_FRAME_ARGS_TYPE_UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::BeginFrameArgs_BeginFrameArgsType::BEGIN_FRAME_ARGS_TYPE_INVALID:
+ return "BEGIN_FRAME_ARGS_TYPE_INVALID";
+
+ case ::perfetto::protos::pbzero::BeginFrameArgs_BeginFrameArgsType::BEGIN_FRAME_ARGS_TYPE_NORMAL:
+ return "BEGIN_FRAME_ARGS_TYPE_NORMAL";
+
+ case ::perfetto::protos::pbzero::BeginFrameArgs_BeginFrameArgsType::BEGIN_FRAME_ARGS_TYPE_MISSED:
+ return "BEGIN_FRAME_ARGS_TYPE_MISSED";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_ChromeCompositorStateMachine_MinorState {
+enum TreePriority : int32_t {
+ TREE_PRIORITY_UNSPECIFIED = 0,
+ TREE_PRIORITY_SAME_PRIORITY_FOR_BOTH_TREES = 1,
+ TREE_PRIORITY_SMOOTHNESS_TAKES_PRIORITY = 2,
+ TREE_PRIORITY_NEW_CONTENT_TAKES_PRIORITY = 3,
+};
+} // namespace perfetto_pbzero_enum_ChromeCompositorStateMachine_MinorState
+using ChromeCompositorStateMachine_MinorState_TreePriority = perfetto_pbzero_enum_ChromeCompositorStateMachine_MinorState::TreePriority;
+
+
+constexpr ChromeCompositorStateMachine_MinorState_TreePriority ChromeCompositorStateMachine_MinorState_TreePriority_MIN = ChromeCompositorStateMachine_MinorState_TreePriority::TREE_PRIORITY_UNSPECIFIED;
+constexpr ChromeCompositorStateMachine_MinorState_TreePriority ChromeCompositorStateMachine_MinorState_TreePriority_MAX = ChromeCompositorStateMachine_MinorState_TreePriority::TREE_PRIORITY_NEW_CONTENT_TAKES_PRIORITY;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* ChromeCompositorStateMachine_MinorState_TreePriority_Name(::perfetto::protos::pbzero::ChromeCompositorStateMachine_MinorState_TreePriority value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::ChromeCompositorStateMachine_MinorState_TreePriority::TREE_PRIORITY_UNSPECIFIED:
+ return "TREE_PRIORITY_UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::ChromeCompositorStateMachine_MinorState_TreePriority::TREE_PRIORITY_SAME_PRIORITY_FOR_BOTH_TREES:
+ return "TREE_PRIORITY_SAME_PRIORITY_FOR_BOTH_TREES";
+
+ case ::perfetto::protos::pbzero::ChromeCompositorStateMachine_MinorState_TreePriority::TREE_PRIORITY_SMOOTHNESS_TAKES_PRIORITY:
+ return "TREE_PRIORITY_SMOOTHNESS_TAKES_PRIORITY";
+
+ case ::perfetto::protos::pbzero::ChromeCompositorStateMachine_MinorState_TreePriority::TREE_PRIORITY_NEW_CONTENT_TAKES_PRIORITY:
+ return "TREE_PRIORITY_NEW_CONTENT_TAKES_PRIORITY";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_ChromeCompositorStateMachine_MinorState {
+enum ScrollHandlerState : int32_t {
+ SCROLL_HANDLER_UNSPECIFIED = 0,
+ SCROLL_AFFECTS_SCROLL_HANDLER = 1,
+ SCROLL_DOES_NOT_AFFECT_SCROLL_HANDLER = 2,
+};
+} // namespace perfetto_pbzero_enum_ChromeCompositorStateMachine_MinorState
+using ChromeCompositorStateMachine_MinorState_ScrollHandlerState = perfetto_pbzero_enum_ChromeCompositorStateMachine_MinorState::ScrollHandlerState;
+
+
+constexpr ChromeCompositorStateMachine_MinorState_ScrollHandlerState ChromeCompositorStateMachine_MinorState_ScrollHandlerState_MIN = ChromeCompositorStateMachine_MinorState_ScrollHandlerState::SCROLL_HANDLER_UNSPECIFIED;
+constexpr ChromeCompositorStateMachine_MinorState_ScrollHandlerState ChromeCompositorStateMachine_MinorState_ScrollHandlerState_MAX = ChromeCompositorStateMachine_MinorState_ScrollHandlerState::SCROLL_DOES_NOT_AFFECT_SCROLL_HANDLER;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* ChromeCompositorStateMachine_MinorState_ScrollHandlerState_Name(::perfetto::protos::pbzero::ChromeCompositorStateMachine_MinorState_ScrollHandlerState value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::ChromeCompositorStateMachine_MinorState_ScrollHandlerState::SCROLL_HANDLER_UNSPECIFIED:
+ return "SCROLL_HANDLER_UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::ChromeCompositorStateMachine_MinorState_ScrollHandlerState::SCROLL_AFFECTS_SCROLL_HANDLER:
+ return "SCROLL_AFFECTS_SCROLL_HANDLER";
+
+ case ::perfetto::protos::pbzero::ChromeCompositorStateMachine_MinorState_ScrollHandlerState::SCROLL_DOES_NOT_AFFECT_SCROLL_HANDLER:
+ return "SCROLL_DOES_NOT_AFFECT_SCROLL_HANDLER";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_ChromeCompositorStateMachine_MajorState {
+enum BeginImplFrameState : int32_t {
+ BEGIN_IMPL_FRAME_UNSPECIFIED = 0,
+ BEGIN_IMPL_FRAME_IDLE = 1,
+ BEGIN_IMPL_FRAME_INSIDE_BEGIN_FRAME = 2,
+ BEGIN_IMPL_FRAME_INSIDE_DEADLINE = 3,
+};
+} // namespace perfetto_pbzero_enum_ChromeCompositorStateMachine_MajorState
+using ChromeCompositorStateMachine_MajorState_BeginImplFrameState = perfetto_pbzero_enum_ChromeCompositorStateMachine_MajorState::BeginImplFrameState;
+
+
+constexpr ChromeCompositorStateMachine_MajorState_BeginImplFrameState ChromeCompositorStateMachine_MajorState_BeginImplFrameState_MIN = ChromeCompositorStateMachine_MajorState_BeginImplFrameState::BEGIN_IMPL_FRAME_UNSPECIFIED;
+constexpr ChromeCompositorStateMachine_MajorState_BeginImplFrameState ChromeCompositorStateMachine_MajorState_BeginImplFrameState_MAX = ChromeCompositorStateMachine_MajorState_BeginImplFrameState::BEGIN_IMPL_FRAME_INSIDE_DEADLINE;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* ChromeCompositorStateMachine_MajorState_BeginImplFrameState_Name(::perfetto::protos::pbzero::ChromeCompositorStateMachine_MajorState_BeginImplFrameState value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::ChromeCompositorStateMachine_MajorState_BeginImplFrameState::BEGIN_IMPL_FRAME_UNSPECIFIED:
+ return "BEGIN_IMPL_FRAME_UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::ChromeCompositorStateMachine_MajorState_BeginImplFrameState::BEGIN_IMPL_FRAME_IDLE:
+ return "BEGIN_IMPL_FRAME_IDLE";
+
+ case ::perfetto::protos::pbzero::ChromeCompositorStateMachine_MajorState_BeginImplFrameState::BEGIN_IMPL_FRAME_INSIDE_BEGIN_FRAME:
+ return "BEGIN_IMPL_FRAME_INSIDE_BEGIN_FRAME";
+
+ case ::perfetto::protos::pbzero::ChromeCompositorStateMachine_MajorState_BeginImplFrameState::BEGIN_IMPL_FRAME_INSIDE_DEADLINE:
+ return "BEGIN_IMPL_FRAME_INSIDE_DEADLINE";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_ChromeCompositorStateMachine_MajorState {
+enum BeginMainFrameState : int32_t {
+ BEGIN_MAIN_FRAME_UNSPECIFIED = 0,
+ BEGIN_MAIN_FRAME_IDLE = 1,
+ BEGIN_MAIN_FRAME_SENT = 2,
+ BEGIN_MAIN_FRAME_READY_TO_COMMIT = 3,
+};
+} // namespace perfetto_pbzero_enum_ChromeCompositorStateMachine_MajorState
+using ChromeCompositorStateMachine_MajorState_BeginMainFrameState = perfetto_pbzero_enum_ChromeCompositorStateMachine_MajorState::BeginMainFrameState;
+
+
+constexpr ChromeCompositorStateMachine_MajorState_BeginMainFrameState ChromeCompositorStateMachine_MajorState_BeginMainFrameState_MIN = ChromeCompositorStateMachine_MajorState_BeginMainFrameState::BEGIN_MAIN_FRAME_UNSPECIFIED;
+constexpr ChromeCompositorStateMachine_MajorState_BeginMainFrameState ChromeCompositorStateMachine_MajorState_BeginMainFrameState_MAX = ChromeCompositorStateMachine_MajorState_BeginMainFrameState::BEGIN_MAIN_FRAME_READY_TO_COMMIT;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* ChromeCompositorStateMachine_MajorState_BeginMainFrameState_Name(::perfetto::protos::pbzero::ChromeCompositorStateMachine_MajorState_BeginMainFrameState value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::ChromeCompositorStateMachine_MajorState_BeginMainFrameState::BEGIN_MAIN_FRAME_UNSPECIFIED:
+ return "BEGIN_MAIN_FRAME_UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::ChromeCompositorStateMachine_MajorState_BeginMainFrameState::BEGIN_MAIN_FRAME_IDLE:
+ return "BEGIN_MAIN_FRAME_IDLE";
+
+ case ::perfetto::protos::pbzero::ChromeCompositorStateMachine_MajorState_BeginMainFrameState::BEGIN_MAIN_FRAME_SENT:
+ return "BEGIN_MAIN_FRAME_SENT";
+
+ case ::perfetto::protos::pbzero::ChromeCompositorStateMachine_MajorState_BeginMainFrameState::BEGIN_MAIN_FRAME_READY_TO_COMMIT:
+ return "BEGIN_MAIN_FRAME_READY_TO_COMMIT";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_ChromeCompositorStateMachine_MajorState {
+enum LayerTreeFrameSinkState : int32_t {
+ LAYER_TREE_FRAME_UNSPECIFIED = 0,
+ LAYER_TREE_FRAME_NONE = 1,
+ LAYER_TREE_FRAME_ACTIVE = 2,
+ LAYER_TREE_FRAME_CREATING = 3,
+ LAYER_TREE_FRAME_WAITING_FOR_FIRST_COMMIT = 4,
+ LAYER_TREE_FRAME_WAITING_FOR_FIRST_ACTIVATION = 5,
+};
+} // namespace perfetto_pbzero_enum_ChromeCompositorStateMachine_MajorState
+using ChromeCompositorStateMachine_MajorState_LayerTreeFrameSinkState = perfetto_pbzero_enum_ChromeCompositorStateMachine_MajorState::LayerTreeFrameSinkState;
+
+
+constexpr ChromeCompositorStateMachine_MajorState_LayerTreeFrameSinkState ChromeCompositorStateMachine_MajorState_LayerTreeFrameSinkState_MIN = ChromeCompositorStateMachine_MajorState_LayerTreeFrameSinkState::LAYER_TREE_FRAME_UNSPECIFIED;
+constexpr ChromeCompositorStateMachine_MajorState_LayerTreeFrameSinkState ChromeCompositorStateMachine_MajorState_LayerTreeFrameSinkState_MAX = ChromeCompositorStateMachine_MajorState_LayerTreeFrameSinkState::LAYER_TREE_FRAME_WAITING_FOR_FIRST_ACTIVATION;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* ChromeCompositorStateMachine_MajorState_LayerTreeFrameSinkState_Name(::perfetto::protos::pbzero::ChromeCompositorStateMachine_MajorState_LayerTreeFrameSinkState value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::ChromeCompositorStateMachine_MajorState_LayerTreeFrameSinkState::LAYER_TREE_FRAME_UNSPECIFIED:
+ return "LAYER_TREE_FRAME_UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::ChromeCompositorStateMachine_MajorState_LayerTreeFrameSinkState::LAYER_TREE_FRAME_NONE:
+ return "LAYER_TREE_FRAME_NONE";
+
+ case ::perfetto::protos::pbzero::ChromeCompositorStateMachine_MajorState_LayerTreeFrameSinkState::LAYER_TREE_FRAME_ACTIVE:
+ return "LAYER_TREE_FRAME_ACTIVE";
+
+ case ::perfetto::protos::pbzero::ChromeCompositorStateMachine_MajorState_LayerTreeFrameSinkState::LAYER_TREE_FRAME_CREATING:
+ return "LAYER_TREE_FRAME_CREATING";
+
+ case ::perfetto::protos::pbzero::ChromeCompositorStateMachine_MajorState_LayerTreeFrameSinkState::LAYER_TREE_FRAME_WAITING_FOR_FIRST_COMMIT:
+ return "LAYER_TREE_FRAME_WAITING_FOR_FIRST_COMMIT";
+
+ case ::perfetto::protos::pbzero::ChromeCompositorStateMachine_MajorState_LayerTreeFrameSinkState::LAYER_TREE_FRAME_WAITING_FOR_FIRST_ACTIVATION:
+ return "LAYER_TREE_FRAME_WAITING_FOR_FIRST_ACTIVATION";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_ChromeCompositorStateMachine_MajorState {
+enum ForcedRedrawOnTimeoutState : int32_t {
+ FORCED_REDRAW_UNSPECIFIED = 0,
+ FORCED_REDRAW_IDLE = 1,
+ FORCED_REDRAW_WAITING_FOR_COMMIT = 2,
+ FORCED_REDRAW_WAITING_FOR_ACTIVATION = 3,
+ FORCED_REDRAW_WAITING_FOR_DRAW = 4,
+};
+} // namespace perfetto_pbzero_enum_ChromeCompositorStateMachine_MajorState
+using ChromeCompositorStateMachine_MajorState_ForcedRedrawOnTimeoutState = perfetto_pbzero_enum_ChromeCompositorStateMachine_MajorState::ForcedRedrawOnTimeoutState;
+
+
+constexpr ChromeCompositorStateMachine_MajorState_ForcedRedrawOnTimeoutState ChromeCompositorStateMachine_MajorState_ForcedRedrawOnTimeoutState_MIN = ChromeCompositorStateMachine_MajorState_ForcedRedrawOnTimeoutState::FORCED_REDRAW_UNSPECIFIED;
+constexpr ChromeCompositorStateMachine_MajorState_ForcedRedrawOnTimeoutState ChromeCompositorStateMachine_MajorState_ForcedRedrawOnTimeoutState_MAX = ChromeCompositorStateMachine_MajorState_ForcedRedrawOnTimeoutState::FORCED_REDRAW_WAITING_FOR_DRAW;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* ChromeCompositorStateMachine_MajorState_ForcedRedrawOnTimeoutState_Name(::perfetto::protos::pbzero::ChromeCompositorStateMachine_MajorState_ForcedRedrawOnTimeoutState value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::ChromeCompositorStateMachine_MajorState_ForcedRedrawOnTimeoutState::FORCED_REDRAW_UNSPECIFIED:
+ return "FORCED_REDRAW_UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::ChromeCompositorStateMachine_MajorState_ForcedRedrawOnTimeoutState::FORCED_REDRAW_IDLE:
+ return "FORCED_REDRAW_IDLE";
+
+ case ::perfetto::protos::pbzero::ChromeCompositorStateMachine_MajorState_ForcedRedrawOnTimeoutState::FORCED_REDRAW_WAITING_FOR_COMMIT:
+ return "FORCED_REDRAW_WAITING_FOR_COMMIT";
+
+ case ::perfetto::protos::pbzero::ChromeCompositorStateMachine_MajorState_ForcedRedrawOnTimeoutState::FORCED_REDRAW_WAITING_FOR_ACTIVATION:
+ return "FORCED_REDRAW_WAITING_FOR_ACTIVATION";
+
+ case ::perfetto::protos::pbzero::ChromeCompositorStateMachine_MajorState_ForcedRedrawOnTimeoutState::FORCED_REDRAW_WAITING_FOR_DRAW:
+ return "FORCED_REDRAW_WAITING_FOR_DRAW";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_ChromeCompositorSchedulerState {
+enum BeginImplFrameDeadlineMode : int32_t {
+ DEADLINE_MODE_UNSPECIFIED = 0,
+ DEADLINE_MODE_NONE = 1,
+ DEADLINE_MODE_IMMEDIATE = 2,
+ DEADLINE_MODE_REGULAR = 3,
+ DEADLINE_MODE_LATE = 4,
+ DEADLINE_MODE_BLOCKED = 5,
+};
+} // namespace perfetto_pbzero_enum_ChromeCompositorSchedulerState
+using ChromeCompositorSchedulerState_BeginImplFrameDeadlineMode = perfetto_pbzero_enum_ChromeCompositorSchedulerState::BeginImplFrameDeadlineMode;
+
+
+constexpr ChromeCompositorSchedulerState_BeginImplFrameDeadlineMode ChromeCompositorSchedulerState_BeginImplFrameDeadlineMode_MIN = ChromeCompositorSchedulerState_BeginImplFrameDeadlineMode::DEADLINE_MODE_UNSPECIFIED;
+constexpr ChromeCompositorSchedulerState_BeginImplFrameDeadlineMode ChromeCompositorSchedulerState_BeginImplFrameDeadlineMode_MAX = ChromeCompositorSchedulerState_BeginImplFrameDeadlineMode::DEADLINE_MODE_BLOCKED;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* ChromeCompositorSchedulerState_BeginImplFrameDeadlineMode_Name(::perfetto::protos::pbzero::ChromeCompositorSchedulerState_BeginImplFrameDeadlineMode value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::ChromeCompositorSchedulerState_BeginImplFrameDeadlineMode::DEADLINE_MODE_UNSPECIFIED:
+ return "DEADLINE_MODE_UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::ChromeCompositorSchedulerState_BeginImplFrameDeadlineMode::DEADLINE_MODE_NONE:
+ return "DEADLINE_MODE_NONE";
+
+ case ::perfetto::protos::pbzero::ChromeCompositorSchedulerState_BeginImplFrameDeadlineMode::DEADLINE_MODE_IMMEDIATE:
+ return "DEADLINE_MODE_IMMEDIATE";
+
+ case ::perfetto::protos::pbzero::ChromeCompositorSchedulerState_BeginImplFrameDeadlineMode::DEADLINE_MODE_REGULAR:
+ return "DEADLINE_MODE_REGULAR";
+
+ case ::perfetto::protos::pbzero::ChromeCompositorSchedulerState_BeginImplFrameDeadlineMode::DEADLINE_MODE_LATE:
+ return "DEADLINE_MODE_LATE";
+
+ case ::perfetto::protos::pbzero::ChromeCompositorSchedulerState_BeginImplFrameDeadlineMode::DEADLINE_MODE_BLOCKED:
+ return "DEADLINE_MODE_BLOCKED";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+class CompositorTimingHistory_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/7, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ CompositorTimingHistory_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit CompositorTimingHistory_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit CompositorTimingHistory_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_begin_main_frame_queue_critical_estimate_delta_us() const { return at<1>().valid(); }
+ int64_t begin_main_frame_queue_critical_estimate_delta_us() const { return at<1>().as_int64(); }
+ bool has_begin_main_frame_queue_not_critical_estimate_delta_us() const { return at<2>().valid(); }
+ int64_t begin_main_frame_queue_not_critical_estimate_delta_us() const { return at<2>().as_int64(); }
+ bool has_begin_main_frame_start_to_ready_to_commit_estimate_delta_us() const { return at<3>().valid(); }
+ int64_t begin_main_frame_start_to_ready_to_commit_estimate_delta_us() const { return at<3>().as_int64(); }
+ bool has_commit_to_ready_to_activate_estimate_delta_us() const { return at<4>().valid(); }
+ int64_t commit_to_ready_to_activate_estimate_delta_us() const { return at<4>().as_int64(); }
+ bool has_prepare_tiles_estimate_delta_us() const { return at<5>().valid(); }
+ int64_t prepare_tiles_estimate_delta_us() const { return at<5>().as_int64(); }
+ bool has_activate_estimate_delta_us() const { return at<6>().valid(); }
+ int64_t activate_estimate_delta_us() const { return at<6>().as_int64(); }
+ bool has_draw_estimate_delta_us() const { return at<7>().valid(); }
+ int64_t draw_estimate_delta_us() const { return at<7>().as_int64(); }
+};
+
+class CompositorTimingHistory : public ::protozero::Message {
+ public:
+ using Decoder = CompositorTimingHistory_Decoder;
+ enum : int32_t {
+ kBeginMainFrameQueueCriticalEstimateDeltaUsFieldNumber = 1,
+ kBeginMainFrameQueueNotCriticalEstimateDeltaUsFieldNumber = 2,
+ kBeginMainFrameStartToReadyToCommitEstimateDeltaUsFieldNumber = 3,
+ kCommitToReadyToActivateEstimateDeltaUsFieldNumber = 4,
+ kPrepareTilesEstimateDeltaUsFieldNumber = 5,
+ kActivateEstimateDeltaUsFieldNumber = 6,
+ kDrawEstimateDeltaUsFieldNumber = 7,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.CompositorTimingHistory"; }
+
+
+ using FieldMetadata_BeginMainFrameQueueCriticalEstimateDeltaUs =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ CompositorTimingHistory>;
+
+ static constexpr FieldMetadata_BeginMainFrameQueueCriticalEstimateDeltaUs kBeginMainFrameQueueCriticalEstimateDeltaUs{};
+ void set_begin_main_frame_queue_critical_estimate_delta_us(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BeginMainFrameQueueCriticalEstimateDeltaUs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BeginMainFrameQueueNotCriticalEstimateDeltaUs =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ CompositorTimingHistory>;
+
+ static constexpr FieldMetadata_BeginMainFrameQueueNotCriticalEstimateDeltaUs kBeginMainFrameQueueNotCriticalEstimateDeltaUs{};
+ void set_begin_main_frame_queue_not_critical_estimate_delta_us(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BeginMainFrameQueueNotCriticalEstimateDeltaUs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BeginMainFrameStartToReadyToCommitEstimateDeltaUs =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ CompositorTimingHistory>;
+
+ static constexpr FieldMetadata_BeginMainFrameStartToReadyToCommitEstimateDeltaUs kBeginMainFrameStartToReadyToCommitEstimateDeltaUs{};
+ void set_begin_main_frame_start_to_ready_to_commit_estimate_delta_us(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BeginMainFrameStartToReadyToCommitEstimateDeltaUs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CommitToReadyToActivateEstimateDeltaUs =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ CompositorTimingHistory>;
+
+ static constexpr FieldMetadata_CommitToReadyToActivateEstimateDeltaUs kCommitToReadyToActivateEstimateDeltaUs{};
+ void set_commit_to_ready_to_activate_estimate_delta_us(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CommitToReadyToActivateEstimateDeltaUs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PrepareTilesEstimateDeltaUs =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ CompositorTimingHistory>;
+
+ static constexpr FieldMetadata_PrepareTilesEstimateDeltaUs kPrepareTilesEstimateDeltaUs{};
+ void set_prepare_tiles_estimate_delta_us(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PrepareTilesEstimateDeltaUs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ActivateEstimateDeltaUs =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ CompositorTimingHistory>;
+
+ static constexpr FieldMetadata_ActivateEstimateDeltaUs kActivateEstimateDeltaUs{};
+ void set_activate_estimate_delta_us(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ActivateEstimateDeltaUs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DrawEstimateDeltaUs =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ CompositorTimingHistory>;
+
+ static constexpr FieldMetadata_DrawEstimateDeltaUs kDrawEstimateDeltaUs{};
+ void set_draw_estimate_delta_us(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DrawEstimateDeltaUs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class BeginFrameSourceState_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ BeginFrameSourceState_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit BeginFrameSourceState_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit BeginFrameSourceState_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_source_id() const { return at<1>().valid(); }
+ uint32_t source_id() const { return at<1>().as_uint32(); }
+ bool has_paused() const { return at<2>().valid(); }
+ bool paused() const { return at<2>().as_bool(); }
+ bool has_num_observers() const { return at<3>().valid(); }
+ uint32_t num_observers() const { return at<3>().as_uint32(); }
+ bool has_last_begin_frame_args() const { return at<4>().valid(); }
+ ::protozero::ConstBytes last_begin_frame_args() const { return at<4>().as_bytes(); }
+};
+
+class BeginFrameSourceState : public ::protozero::Message {
+ public:
+ using Decoder = BeginFrameSourceState_Decoder;
+ enum : int32_t {
+ kSourceIdFieldNumber = 1,
+ kPausedFieldNumber = 2,
+ kNumObserversFieldNumber = 3,
+ kLastBeginFrameArgsFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.BeginFrameSourceState"; }
+
+
+ using FieldMetadata_SourceId =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ BeginFrameSourceState>;
+
+ static constexpr FieldMetadata_SourceId kSourceId{};
+ void set_source_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SourceId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Paused =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ BeginFrameSourceState>;
+
+ static constexpr FieldMetadata_Paused kPaused{};
+ void set_paused(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_Paused::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NumObservers =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ BeginFrameSourceState>;
+
+ static constexpr FieldMetadata_NumObservers kNumObservers{};
+ void set_num_observers(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NumObservers::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_LastBeginFrameArgs =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ BeginFrameArgs,
+ BeginFrameSourceState>;
+
+ static constexpr FieldMetadata_LastBeginFrameArgs kLastBeginFrameArgs{};
+ template <typename T = BeginFrameArgs> T* set_last_begin_frame_args() {
+ return BeginNestedMessage<T>(4);
+ }
+
+};
+
+class BeginFrameObserverState_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ BeginFrameObserverState_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit BeginFrameObserverState_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit BeginFrameObserverState_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dropped_begin_frame_args() const { return at<1>().valid(); }
+ int64_t dropped_begin_frame_args() const { return at<1>().as_int64(); }
+ bool has_last_begin_frame_args() const { return at<2>().valid(); }
+ ::protozero::ConstBytes last_begin_frame_args() const { return at<2>().as_bytes(); }
+};
+
+class BeginFrameObserverState : public ::protozero::Message {
+ public:
+ using Decoder = BeginFrameObserverState_Decoder;
+ enum : int32_t {
+ kDroppedBeginFrameArgsFieldNumber = 1,
+ kLastBeginFrameArgsFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.BeginFrameObserverState"; }
+
+
+ using FieldMetadata_DroppedBeginFrameArgs =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ BeginFrameObserverState>;
+
+ static constexpr FieldMetadata_DroppedBeginFrameArgs kDroppedBeginFrameArgs{};
+ void set_dropped_begin_frame_args(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DroppedBeginFrameArgs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_LastBeginFrameArgs =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ BeginFrameArgs,
+ BeginFrameObserverState>;
+
+ static constexpr FieldMetadata_LastBeginFrameArgs kLastBeginFrameArgs{};
+ template <typename T = BeginFrameArgs> T* set_last_begin_frame_args() {
+ return BeginNestedMessage<T>(2);
+ }
+
+};
+
+class BeginImplFrameArgs_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/6, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ BeginImplFrameArgs_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit BeginImplFrameArgs_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit BeginImplFrameArgs_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_updated_at_us() const { return at<1>().valid(); }
+ int64_t updated_at_us() const { return at<1>().as_int64(); }
+ bool has_finished_at_us() const { return at<2>().valid(); }
+ int64_t finished_at_us() const { return at<2>().as_int64(); }
+ bool has_state() const { return at<3>().valid(); }
+ int32_t state() const { return at<3>().as_int32(); }
+ bool has_current_args() const { return at<4>().valid(); }
+ ::protozero::ConstBytes current_args() const { return at<4>().as_bytes(); }
+ bool has_last_args() const { return at<5>().valid(); }
+ ::protozero::ConstBytes last_args() const { return at<5>().as_bytes(); }
+ bool has_timestamps_in_us() const { return at<6>().valid(); }
+ ::protozero::ConstBytes timestamps_in_us() const { return at<6>().as_bytes(); }
+};
+
+class BeginImplFrameArgs : public ::protozero::Message {
+ public:
+ using Decoder = BeginImplFrameArgs_Decoder;
+ enum : int32_t {
+ kUpdatedAtUsFieldNumber = 1,
+ kFinishedAtUsFieldNumber = 2,
+ kStateFieldNumber = 3,
+ kCurrentArgsFieldNumber = 4,
+ kLastArgsFieldNumber = 5,
+ kTimestampsInUsFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.BeginImplFrameArgs"; }
+
+ using TimestampsInUs = ::perfetto::protos::pbzero::BeginImplFrameArgs_TimestampsInUs;
+
+ using State = ::perfetto::protos::pbzero::BeginImplFrameArgs_State;
+ static inline const char* State_Name(State value) {
+ return ::perfetto::protos::pbzero::BeginImplFrameArgs_State_Name(value);
+ }
+ static inline const State BEGIN_FRAME_FINISHED = State::BEGIN_FRAME_FINISHED;
+ static inline const State BEGIN_FRAME_USING = State::BEGIN_FRAME_USING;
+
+ using FieldMetadata_UpdatedAtUs =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ BeginImplFrameArgs>;
+
+ static constexpr FieldMetadata_UpdatedAtUs kUpdatedAtUs{};
+ void set_updated_at_us(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_UpdatedAtUs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FinishedAtUs =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ BeginImplFrameArgs>;
+
+ static constexpr FieldMetadata_FinishedAtUs kFinishedAtUs{};
+ void set_finished_at_us(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FinishedAtUs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_State =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ BeginImplFrameArgs_State,
+ BeginImplFrameArgs>;
+
+ static constexpr FieldMetadata_State kState{};
+ void set_state(BeginImplFrameArgs_State value) {
+ static constexpr uint32_t field_id = FieldMetadata_State::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CurrentArgs =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ BeginFrameArgs,
+ BeginImplFrameArgs>;
+
+ static constexpr FieldMetadata_CurrentArgs kCurrentArgs{};
+ template <typename T = BeginFrameArgs> T* set_current_args() {
+ return BeginNestedMessage<T>(4);
+ }
+
+
+ using FieldMetadata_LastArgs =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ BeginFrameArgs,
+ BeginImplFrameArgs>;
+
+ static constexpr FieldMetadata_LastArgs kLastArgs{};
+ template <typename T = BeginFrameArgs> T* set_last_args() {
+ return BeginNestedMessage<T>(5);
+ }
+
+
+ using FieldMetadata_TimestampsInUs =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ BeginImplFrameArgs_TimestampsInUs,
+ BeginImplFrameArgs>;
+
+ static constexpr FieldMetadata_TimestampsInUs kTimestampsInUs{};
+ template <typename T = BeginImplFrameArgs_TimestampsInUs> T* set_timestamps_in_us() {
+ return BeginNestedMessage<T>(6);
+ }
+
+};
+
+class BeginImplFrameArgs_TimestampsInUs_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/7, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ BeginImplFrameArgs_TimestampsInUs_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit BeginImplFrameArgs_TimestampsInUs_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit BeginImplFrameArgs_TimestampsInUs_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_interval_delta() const { return at<1>().valid(); }
+ int64_t interval_delta() const { return at<1>().as_int64(); }
+ bool has_now_to_deadline_delta() const { return at<2>().valid(); }
+ int64_t now_to_deadline_delta() const { return at<2>().as_int64(); }
+ bool has_frame_time_to_now_delta() const { return at<3>().valid(); }
+ int64_t frame_time_to_now_delta() const { return at<3>().as_int64(); }
+ bool has_frame_time_to_deadline_delta() const { return at<4>().valid(); }
+ int64_t frame_time_to_deadline_delta() const { return at<4>().as_int64(); }
+ bool has_now() const { return at<5>().valid(); }
+ int64_t now() const { return at<5>().as_int64(); }
+ bool has_frame_time() const { return at<6>().valid(); }
+ int64_t frame_time() const { return at<6>().as_int64(); }
+ bool has_deadline() const { return at<7>().valid(); }
+ int64_t deadline() const { return at<7>().as_int64(); }
+};
+
+class BeginImplFrameArgs_TimestampsInUs : public ::protozero::Message {
+ public:
+ using Decoder = BeginImplFrameArgs_TimestampsInUs_Decoder;
+ enum : int32_t {
+ kIntervalDeltaFieldNumber = 1,
+ kNowToDeadlineDeltaFieldNumber = 2,
+ kFrameTimeToNowDeltaFieldNumber = 3,
+ kFrameTimeToDeadlineDeltaFieldNumber = 4,
+ kNowFieldNumber = 5,
+ kFrameTimeFieldNumber = 6,
+ kDeadlineFieldNumber = 7,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.BeginImplFrameArgs.TimestampsInUs"; }
+
+
+ using FieldMetadata_IntervalDelta =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ BeginImplFrameArgs_TimestampsInUs>;
+
+ static constexpr FieldMetadata_IntervalDelta kIntervalDelta{};
+ void set_interval_delta(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_IntervalDelta::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NowToDeadlineDelta =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ BeginImplFrameArgs_TimestampsInUs>;
+
+ static constexpr FieldMetadata_NowToDeadlineDelta kNowToDeadlineDelta{};
+ void set_now_to_deadline_delta(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NowToDeadlineDelta::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FrameTimeToNowDelta =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ BeginImplFrameArgs_TimestampsInUs>;
+
+ static constexpr FieldMetadata_FrameTimeToNowDelta kFrameTimeToNowDelta{};
+ void set_frame_time_to_now_delta(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FrameTimeToNowDelta::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FrameTimeToDeadlineDelta =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ BeginImplFrameArgs_TimestampsInUs>;
+
+ static constexpr FieldMetadata_FrameTimeToDeadlineDelta kFrameTimeToDeadlineDelta{};
+ void set_frame_time_to_deadline_delta(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FrameTimeToDeadlineDelta::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Now =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ BeginImplFrameArgs_TimestampsInUs>;
+
+ static constexpr FieldMetadata_Now kNow{};
+ void set_now(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Now::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FrameTime =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ BeginImplFrameArgs_TimestampsInUs>;
+
+ static constexpr FieldMetadata_FrameTime kFrameTime{};
+ void set_frame_time(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FrameTime::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Deadline =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ BeginImplFrameArgs_TimestampsInUs>;
+
+ static constexpr FieldMetadata_Deadline kDeadline{};
+ void set_deadline(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Deadline::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class BeginFrameArgs_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/12, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ BeginFrameArgs_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit BeginFrameArgs_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit BeginFrameArgs_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_type() const { return at<1>().valid(); }
+ int32_t type() const { return at<1>().as_int32(); }
+ bool has_source_id() const { return at<2>().valid(); }
+ uint64_t source_id() const { return at<2>().as_uint64(); }
+ bool has_sequence_number() const { return at<3>().valid(); }
+ uint64_t sequence_number() const { return at<3>().as_uint64(); }
+ bool has_frame_time_us() const { return at<4>().valid(); }
+ int64_t frame_time_us() const { return at<4>().as_int64(); }
+ bool has_deadline_us() const { return at<5>().valid(); }
+ int64_t deadline_us() const { return at<5>().as_int64(); }
+ bool has_interval_delta_us() const { return at<6>().valid(); }
+ int64_t interval_delta_us() const { return at<6>().as_int64(); }
+ bool has_on_critical_path() const { return at<7>().valid(); }
+ bool on_critical_path() const { return at<7>().as_bool(); }
+ bool has_animate_only() const { return at<8>().valid(); }
+ bool animate_only() const { return at<8>().as_bool(); }
+ bool has_source_location_iid() const { return at<9>().valid(); }
+ uint64_t source_location_iid() const { return at<9>().as_uint64(); }
+ bool has_source_location() const { return at<10>().valid(); }
+ ::protozero::ConstBytes source_location() const { return at<10>().as_bytes(); }
+ bool has_frames_throttled_since_last() const { return at<12>().valid(); }
+ int64_t frames_throttled_since_last() const { return at<12>().as_int64(); }
+};
+
+class BeginFrameArgs : public ::protozero::Message {
+ public:
+ using Decoder = BeginFrameArgs_Decoder;
+ enum : int32_t {
+ kTypeFieldNumber = 1,
+ kSourceIdFieldNumber = 2,
+ kSequenceNumberFieldNumber = 3,
+ kFrameTimeUsFieldNumber = 4,
+ kDeadlineUsFieldNumber = 5,
+ kIntervalDeltaUsFieldNumber = 6,
+ kOnCriticalPathFieldNumber = 7,
+ kAnimateOnlyFieldNumber = 8,
+ kSourceLocationIidFieldNumber = 9,
+ kSourceLocationFieldNumber = 10,
+ kFramesThrottledSinceLastFieldNumber = 12,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.BeginFrameArgs"; }
+
+
+ using BeginFrameArgsType = ::perfetto::protos::pbzero::BeginFrameArgs_BeginFrameArgsType;
+ static inline const char* BeginFrameArgsType_Name(BeginFrameArgsType value) {
+ return ::perfetto::protos::pbzero::BeginFrameArgs_BeginFrameArgsType_Name(value);
+ }
+ static inline const BeginFrameArgsType BEGIN_FRAME_ARGS_TYPE_UNSPECIFIED = BeginFrameArgsType::BEGIN_FRAME_ARGS_TYPE_UNSPECIFIED;
+ static inline const BeginFrameArgsType BEGIN_FRAME_ARGS_TYPE_INVALID = BeginFrameArgsType::BEGIN_FRAME_ARGS_TYPE_INVALID;
+ static inline const BeginFrameArgsType BEGIN_FRAME_ARGS_TYPE_NORMAL = BeginFrameArgsType::BEGIN_FRAME_ARGS_TYPE_NORMAL;
+ static inline const BeginFrameArgsType BEGIN_FRAME_ARGS_TYPE_MISSED = BeginFrameArgsType::BEGIN_FRAME_ARGS_TYPE_MISSED;
+
+ using FieldMetadata_Type =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ BeginFrameArgs_BeginFrameArgsType,
+ BeginFrameArgs>;
+
+ static constexpr FieldMetadata_Type kType{};
+ void set_type(BeginFrameArgs_BeginFrameArgsType value) {
+ static constexpr uint32_t field_id = FieldMetadata_Type::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SourceId =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ BeginFrameArgs>;
+
+ static constexpr FieldMetadata_SourceId kSourceId{};
+ void set_source_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SourceId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SequenceNumber =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ BeginFrameArgs>;
+
+ static constexpr FieldMetadata_SequenceNumber kSequenceNumber{};
+ void set_sequence_number(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SequenceNumber::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FrameTimeUs =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ BeginFrameArgs>;
+
+ static constexpr FieldMetadata_FrameTimeUs kFrameTimeUs{};
+ void set_frame_time_us(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FrameTimeUs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DeadlineUs =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ BeginFrameArgs>;
+
+ static constexpr FieldMetadata_DeadlineUs kDeadlineUs{};
+ void set_deadline_us(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DeadlineUs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IntervalDeltaUs =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ BeginFrameArgs>;
+
+ static constexpr FieldMetadata_IntervalDeltaUs kIntervalDeltaUs{};
+ void set_interval_delta_us(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_IntervalDeltaUs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_OnCriticalPath =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ BeginFrameArgs>;
+
+ static constexpr FieldMetadata_OnCriticalPath kOnCriticalPath{};
+ void set_on_critical_path(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_OnCriticalPath::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_AnimateOnly =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ BeginFrameArgs>;
+
+ static constexpr FieldMetadata_AnimateOnly kAnimateOnly{};
+ void set_animate_only(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_AnimateOnly::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SourceLocationIid =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ BeginFrameArgs>;
+
+ static constexpr FieldMetadata_SourceLocationIid kSourceLocationIid{};
+ void set_source_location_iid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SourceLocationIid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SourceLocation =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SourceLocation,
+ BeginFrameArgs>;
+
+ static constexpr FieldMetadata_SourceLocation kSourceLocation{};
+ template <typename T = SourceLocation> T* set_source_location() {
+ return BeginNestedMessage<T>(10);
+ }
+
+
+ using FieldMetadata_FramesThrottledSinceLast =
+ ::protozero::proto_utils::FieldMetadata<
+ 12,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ BeginFrameArgs>;
+
+ static constexpr FieldMetadata_FramesThrottledSinceLast kFramesThrottledSinceLast{};
+ void set_frames_throttled_since_last(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FramesThrottledSinceLast::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class ChromeCompositorStateMachine_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ChromeCompositorStateMachine_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ChromeCompositorStateMachine_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ChromeCompositorStateMachine_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_major_state() const { return at<1>().valid(); }
+ ::protozero::ConstBytes major_state() const { return at<1>().as_bytes(); }
+ bool has_minor_state() const { return at<2>().valid(); }
+ ::protozero::ConstBytes minor_state() const { return at<2>().as_bytes(); }
+};
+
+class ChromeCompositorStateMachine : public ::protozero::Message {
+ public:
+ using Decoder = ChromeCompositorStateMachine_Decoder;
+ enum : int32_t {
+ kMajorStateFieldNumber = 1,
+ kMinorStateFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ChromeCompositorStateMachine"; }
+
+ using MajorState = ::perfetto::protos::pbzero::ChromeCompositorStateMachine_MajorState;
+ using MinorState = ::perfetto::protos::pbzero::ChromeCompositorStateMachine_MinorState;
+
+ using FieldMetadata_MajorState =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ChromeCompositorStateMachine_MajorState,
+ ChromeCompositorStateMachine>;
+
+ static constexpr FieldMetadata_MajorState kMajorState{};
+ template <typename T = ChromeCompositorStateMachine_MajorState> T* set_major_state() {
+ return BeginNestedMessage<T>(1);
+ }
+
+
+ using FieldMetadata_MinorState =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ChromeCompositorStateMachine_MinorState,
+ ChromeCompositorStateMachine>;
+
+ static constexpr FieldMetadata_MinorState kMinorState{};
+ template <typename T = ChromeCompositorStateMachine_MinorState> T* set_minor_state() {
+ return BeginNestedMessage<T>(2);
+ }
+
+};
+
+class ChromeCompositorStateMachine_MinorState_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/46, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ChromeCompositorStateMachine_MinorState_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ChromeCompositorStateMachine_MinorState_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ChromeCompositorStateMachine_MinorState_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_commit_count() const { return at<1>().valid(); }
+ int32_t commit_count() const { return at<1>().as_int32(); }
+ bool has_current_frame_number() const { return at<2>().valid(); }
+ int32_t current_frame_number() const { return at<2>().as_int32(); }
+ bool has_last_frame_number_submit_performed() const { return at<3>().valid(); }
+ int32_t last_frame_number_submit_performed() const { return at<3>().as_int32(); }
+ bool has_last_frame_number_draw_performed() const { return at<4>().valid(); }
+ int32_t last_frame_number_draw_performed() const { return at<4>().as_int32(); }
+ bool has_last_frame_number_begin_main_frame_sent() const { return at<5>().valid(); }
+ int32_t last_frame_number_begin_main_frame_sent() const { return at<5>().as_int32(); }
+ bool has_did_draw() const { return at<6>().valid(); }
+ bool did_draw() const { return at<6>().as_bool(); }
+ bool has_did_send_begin_main_frame_for_current_frame() const { return at<7>().valid(); }
+ bool did_send_begin_main_frame_for_current_frame() const { return at<7>().as_bool(); }
+ bool has_did_notify_begin_main_frame_not_expected_until() const { return at<8>().valid(); }
+ bool did_notify_begin_main_frame_not_expected_until() const { return at<8>().as_bool(); }
+ bool has_did_notify_begin_main_frame_not_expected_soon() const { return at<9>().valid(); }
+ bool did_notify_begin_main_frame_not_expected_soon() const { return at<9>().as_bool(); }
+ bool has_wants_begin_main_frame_not_expected() const { return at<10>().valid(); }
+ bool wants_begin_main_frame_not_expected() const { return at<10>().as_bool(); }
+ bool has_did_commit_during_frame() const { return at<11>().valid(); }
+ bool did_commit_during_frame() const { return at<11>().as_bool(); }
+ bool has_did_invalidate_layer_tree_frame_sink() const { return at<12>().valid(); }
+ bool did_invalidate_layer_tree_frame_sink() const { return at<12>().as_bool(); }
+ bool has_did_perform_impl_side_invalidaion() const { return at<13>().valid(); }
+ bool did_perform_impl_side_invalidaion() const { return at<13>().as_bool(); }
+ bool has_did_prepare_tiles() const { return at<14>().valid(); }
+ bool did_prepare_tiles() const { return at<14>().as_bool(); }
+ bool has_consecutive_checkerboard_animations() const { return at<15>().valid(); }
+ int32_t consecutive_checkerboard_animations() const { return at<15>().as_int32(); }
+ bool has_pending_submit_frames() const { return at<16>().valid(); }
+ int32_t pending_submit_frames() const { return at<16>().as_int32(); }
+ bool has_submit_frames_with_current_layer_tree_frame_sink() const { return at<17>().valid(); }
+ int32_t submit_frames_with_current_layer_tree_frame_sink() const { return at<17>().as_int32(); }
+ bool has_needs_redraw() const { return at<18>().valid(); }
+ bool needs_redraw() const { return at<18>().as_bool(); }
+ bool has_needs_prepare_tiles() const { return at<19>().valid(); }
+ bool needs_prepare_tiles() const { return at<19>().as_bool(); }
+ bool has_needs_begin_main_frame() const { return at<20>().valid(); }
+ bool needs_begin_main_frame() const { return at<20>().as_bool(); }
+ bool has_needs_one_begin_impl_frame() const { return at<21>().valid(); }
+ bool needs_one_begin_impl_frame() const { return at<21>().as_bool(); }
+ bool has_visible() const { return at<22>().valid(); }
+ bool visible() const { return at<22>().as_bool(); }
+ bool has_begin_frame_source_paused() const { return at<23>().valid(); }
+ bool begin_frame_source_paused() const { return at<23>().as_bool(); }
+ bool has_can_draw() const { return at<24>().valid(); }
+ bool can_draw() const { return at<24>().as_bool(); }
+ bool has_resourceless_draw() const { return at<25>().valid(); }
+ bool resourceless_draw() const { return at<25>().as_bool(); }
+ bool has_has_pending_tree() const { return at<26>().valid(); }
+ bool has_pending_tree() const { return at<26>().as_bool(); }
+ bool has_pending_tree_is_ready_for_activation() const { return at<27>().valid(); }
+ bool pending_tree_is_ready_for_activation() const { return at<27>().as_bool(); }
+ bool has_active_tree_needs_first_draw() const { return at<28>().valid(); }
+ bool active_tree_needs_first_draw() const { return at<28>().as_bool(); }
+ bool has_active_tree_is_ready_to_draw() const { return at<29>().valid(); }
+ bool active_tree_is_ready_to_draw() const { return at<29>().as_bool(); }
+ bool has_did_create_and_initialize_first_layer_tree_frame_sink() const { return at<30>().valid(); }
+ bool did_create_and_initialize_first_layer_tree_frame_sink() const { return at<30>().as_bool(); }
+ bool has_tree_priority() const { return at<31>().valid(); }
+ int32_t tree_priority() const { return at<31>().as_int32(); }
+ bool has_scroll_handler_state() const { return at<32>().valid(); }
+ int32_t scroll_handler_state() const { return at<32>().as_int32(); }
+ bool has_critical_begin_main_frame_to_activate_is_fast() const { return at<33>().valid(); }
+ bool critical_begin_main_frame_to_activate_is_fast() const { return at<33>().as_bool(); }
+ bool has_main_thread_missed_last_deadline() const { return at<34>().valid(); }
+ bool main_thread_missed_last_deadline() const { return at<34>().as_bool(); }
+ bool has_video_needs_begin_frames() const { return at<36>().valid(); }
+ bool video_needs_begin_frames() const { return at<36>().as_bool(); }
+ bool has_defer_begin_main_frame() const { return at<37>().valid(); }
+ bool defer_begin_main_frame() const { return at<37>().as_bool(); }
+ bool has_last_commit_had_no_updates() const { return at<38>().valid(); }
+ bool last_commit_had_no_updates() const { return at<38>().as_bool(); }
+ bool has_did_draw_in_last_frame() const { return at<39>().valid(); }
+ bool did_draw_in_last_frame() const { return at<39>().as_bool(); }
+ bool has_did_submit_in_last_frame() const { return at<40>().valid(); }
+ bool did_submit_in_last_frame() const { return at<40>().as_bool(); }
+ bool has_needs_impl_side_invalidation() const { return at<41>().valid(); }
+ bool needs_impl_side_invalidation() const { return at<41>().as_bool(); }
+ bool has_current_pending_tree_is_impl_side() const { return at<42>().valid(); }
+ bool current_pending_tree_is_impl_side() const { return at<42>().as_bool(); }
+ bool has_previous_pending_tree_was_impl_side() const { return at<43>().valid(); }
+ bool previous_pending_tree_was_impl_side() const { return at<43>().as_bool(); }
+ bool has_processing_animation_worklets_for_active_tree() const { return at<44>().valid(); }
+ bool processing_animation_worklets_for_active_tree() const { return at<44>().as_bool(); }
+ bool has_processing_animation_worklets_for_pending_tree() const { return at<45>().valid(); }
+ bool processing_animation_worklets_for_pending_tree() const { return at<45>().as_bool(); }
+ bool has_processing_paint_worklets_for_pending_tree() const { return at<46>().valid(); }
+ bool processing_paint_worklets_for_pending_tree() const { return at<46>().as_bool(); }
+};
+
+class ChromeCompositorStateMachine_MinorState : public ::protozero::Message {
+ public:
+ using Decoder = ChromeCompositorStateMachine_MinorState_Decoder;
+ enum : int32_t {
+ kCommitCountFieldNumber = 1,
+ kCurrentFrameNumberFieldNumber = 2,
+ kLastFrameNumberSubmitPerformedFieldNumber = 3,
+ kLastFrameNumberDrawPerformedFieldNumber = 4,
+ kLastFrameNumberBeginMainFrameSentFieldNumber = 5,
+ kDidDrawFieldNumber = 6,
+ kDidSendBeginMainFrameForCurrentFrameFieldNumber = 7,
+ kDidNotifyBeginMainFrameNotExpectedUntilFieldNumber = 8,
+ kDidNotifyBeginMainFrameNotExpectedSoonFieldNumber = 9,
+ kWantsBeginMainFrameNotExpectedFieldNumber = 10,
+ kDidCommitDuringFrameFieldNumber = 11,
+ kDidInvalidateLayerTreeFrameSinkFieldNumber = 12,
+ kDidPerformImplSideInvalidaionFieldNumber = 13,
+ kDidPrepareTilesFieldNumber = 14,
+ kConsecutiveCheckerboardAnimationsFieldNumber = 15,
+ kPendingSubmitFramesFieldNumber = 16,
+ kSubmitFramesWithCurrentLayerTreeFrameSinkFieldNumber = 17,
+ kNeedsRedrawFieldNumber = 18,
+ kNeedsPrepareTilesFieldNumber = 19,
+ kNeedsBeginMainFrameFieldNumber = 20,
+ kNeedsOneBeginImplFrameFieldNumber = 21,
+ kVisibleFieldNumber = 22,
+ kBeginFrameSourcePausedFieldNumber = 23,
+ kCanDrawFieldNumber = 24,
+ kResourcelessDrawFieldNumber = 25,
+ kHasPendingTreeFieldNumber = 26,
+ kPendingTreeIsReadyForActivationFieldNumber = 27,
+ kActiveTreeNeedsFirstDrawFieldNumber = 28,
+ kActiveTreeIsReadyToDrawFieldNumber = 29,
+ kDidCreateAndInitializeFirstLayerTreeFrameSinkFieldNumber = 30,
+ kTreePriorityFieldNumber = 31,
+ kScrollHandlerStateFieldNumber = 32,
+ kCriticalBeginMainFrameToActivateIsFastFieldNumber = 33,
+ kMainThreadMissedLastDeadlineFieldNumber = 34,
+ kVideoNeedsBeginFramesFieldNumber = 36,
+ kDeferBeginMainFrameFieldNumber = 37,
+ kLastCommitHadNoUpdatesFieldNumber = 38,
+ kDidDrawInLastFrameFieldNumber = 39,
+ kDidSubmitInLastFrameFieldNumber = 40,
+ kNeedsImplSideInvalidationFieldNumber = 41,
+ kCurrentPendingTreeIsImplSideFieldNumber = 42,
+ kPreviousPendingTreeWasImplSideFieldNumber = 43,
+ kProcessingAnimationWorkletsForActiveTreeFieldNumber = 44,
+ kProcessingAnimationWorkletsForPendingTreeFieldNumber = 45,
+ kProcessingPaintWorkletsForPendingTreeFieldNumber = 46,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ChromeCompositorStateMachine.MinorState"; }
+
+
+ using TreePriority = ::perfetto::protos::pbzero::ChromeCompositorStateMachine_MinorState_TreePriority;
+ static inline const char* TreePriority_Name(TreePriority value) {
+ return ::perfetto::protos::pbzero::ChromeCompositorStateMachine_MinorState_TreePriority_Name(value);
+ }
+
+ using ScrollHandlerState = ::perfetto::protos::pbzero::ChromeCompositorStateMachine_MinorState_ScrollHandlerState;
+ static inline const char* ScrollHandlerState_Name(ScrollHandlerState value) {
+ return ::perfetto::protos::pbzero::ChromeCompositorStateMachine_MinorState_ScrollHandlerState_Name(value);
+ }
+ static inline const TreePriority TREE_PRIORITY_UNSPECIFIED = TreePriority::TREE_PRIORITY_UNSPECIFIED;
+ static inline const TreePriority TREE_PRIORITY_SAME_PRIORITY_FOR_BOTH_TREES = TreePriority::TREE_PRIORITY_SAME_PRIORITY_FOR_BOTH_TREES;
+ static inline const TreePriority TREE_PRIORITY_SMOOTHNESS_TAKES_PRIORITY = TreePriority::TREE_PRIORITY_SMOOTHNESS_TAKES_PRIORITY;
+ static inline const TreePriority TREE_PRIORITY_NEW_CONTENT_TAKES_PRIORITY = TreePriority::TREE_PRIORITY_NEW_CONTENT_TAKES_PRIORITY;
+ static inline const ScrollHandlerState SCROLL_HANDLER_UNSPECIFIED = ScrollHandlerState::SCROLL_HANDLER_UNSPECIFIED;
+ static inline const ScrollHandlerState SCROLL_AFFECTS_SCROLL_HANDLER = ScrollHandlerState::SCROLL_AFFECTS_SCROLL_HANDLER;
+ static inline const ScrollHandlerState SCROLL_DOES_NOT_AFFECT_SCROLL_HANDLER = ScrollHandlerState::SCROLL_DOES_NOT_AFFECT_SCROLL_HANDLER;
+
+ using FieldMetadata_CommitCount =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ ChromeCompositorStateMachine_MinorState>;
+
+ static constexpr FieldMetadata_CommitCount kCommitCount{};
+ void set_commit_count(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CommitCount::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CurrentFrameNumber =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ ChromeCompositorStateMachine_MinorState>;
+
+ static constexpr FieldMetadata_CurrentFrameNumber kCurrentFrameNumber{};
+ void set_current_frame_number(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CurrentFrameNumber::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_LastFrameNumberSubmitPerformed =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ ChromeCompositorStateMachine_MinorState>;
+
+ static constexpr FieldMetadata_LastFrameNumberSubmitPerformed kLastFrameNumberSubmitPerformed{};
+ void set_last_frame_number_submit_performed(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_LastFrameNumberSubmitPerformed::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_LastFrameNumberDrawPerformed =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ ChromeCompositorStateMachine_MinorState>;
+
+ static constexpr FieldMetadata_LastFrameNumberDrawPerformed kLastFrameNumberDrawPerformed{};
+ void set_last_frame_number_draw_performed(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_LastFrameNumberDrawPerformed::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_LastFrameNumberBeginMainFrameSent =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ ChromeCompositorStateMachine_MinorState>;
+
+ static constexpr FieldMetadata_LastFrameNumberBeginMainFrameSent kLastFrameNumberBeginMainFrameSent{};
+ void set_last_frame_number_begin_main_frame_sent(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_LastFrameNumberBeginMainFrameSent::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DidDraw =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ChromeCompositorStateMachine_MinorState>;
+
+ static constexpr FieldMetadata_DidDraw kDidDraw{};
+ void set_did_draw(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_DidDraw::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DidSendBeginMainFrameForCurrentFrame =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ChromeCompositorStateMachine_MinorState>;
+
+ static constexpr FieldMetadata_DidSendBeginMainFrameForCurrentFrame kDidSendBeginMainFrameForCurrentFrame{};
+ void set_did_send_begin_main_frame_for_current_frame(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_DidSendBeginMainFrameForCurrentFrame::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DidNotifyBeginMainFrameNotExpectedUntil =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ChromeCompositorStateMachine_MinorState>;
+
+ static constexpr FieldMetadata_DidNotifyBeginMainFrameNotExpectedUntil kDidNotifyBeginMainFrameNotExpectedUntil{};
+ void set_did_notify_begin_main_frame_not_expected_until(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_DidNotifyBeginMainFrameNotExpectedUntil::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DidNotifyBeginMainFrameNotExpectedSoon =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ChromeCompositorStateMachine_MinorState>;
+
+ static constexpr FieldMetadata_DidNotifyBeginMainFrameNotExpectedSoon kDidNotifyBeginMainFrameNotExpectedSoon{};
+ void set_did_notify_begin_main_frame_not_expected_soon(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_DidNotifyBeginMainFrameNotExpectedSoon::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_WantsBeginMainFrameNotExpected =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ChromeCompositorStateMachine_MinorState>;
+
+ static constexpr FieldMetadata_WantsBeginMainFrameNotExpected kWantsBeginMainFrameNotExpected{};
+ void set_wants_begin_main_frame_not_expected(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_WantsBeginMainFrameNotExpected::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DidCommitDuringFrame =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ChromeCompositorStateMachine_MinorState>;
+
+ static constexpr FieldMetadata_DidCommitDuringFrame kDidCommitDuringFrame{};
+ void set_did_commit_during_frame(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_DidCommitDuringFrame::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DidInvalidateLayerTreeFrameSink =
+ ::protozero::proto_utils::FieldMetadata<
+ 12,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ChromeCompositorStateMachine_MinorState>;
+
+ static constexpr FieldMetadata_DidInvalidateLayerTreeFrameSink kDidInvalidateLayerTreeFrameSink{};
+ void set_did_invalidate_layer_tree_frame_sink(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_DidInvalidateLayerTreeFrameSink::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DidPerformImplSideInvalidaion =
+ ::protozero::proto_utils::FieldMetadata<
+ 13,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ChromeCompositorStateMachine_MinorState>;
+
+ static constexpr FieldMetadata_DidPerformImplSideInvalidaion kDidPerformImplSideInvalidaion{};
+ void set_did_perform_impl_side_invalidaion(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_DidPerformImplSideInvalidaion::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DidPrepareTiles =
+ ::protozero::proto_utils::FieldMetadata<
+ 14,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ChromeCompositorStateMachine_MinorState>;
+
+ static constexpr FieldMetadata_DidPrepareTiles kDidPrepareTiles{};
+ void set_did_prepare_tiles(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_DidPrepareTiles::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ConsecutiveCheckerboardAnimations =
+ ::protozero::proto_utils::FieldMetadata<
+ 15,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ ChromeCompositorStateMachine_MinorState>;
+
+ static constexpr FieldMetadata_ConsecutiveCheckerboardAnimations kConsecutiveCheckerboardAnimations{};
+ void set_consecutive_checkerboard_animations(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ConsecutiveCheckerboardAnimations::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PendingSubmitFrames =
+ ::protozero::proto_utils::FieldMetadata<
+ 16,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ ChromeCompositorStateMachine_MinorState>;
+
+ static constexpr FieldMetadata_PendingSubmitFrames kPendingSubmitFrames{};
+ void set_pending_submit_frames(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PendingSubmitFrames::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SubmitFramesWithCurrentLayerTreeFrameSink =
+ ::protozero::proto_utils::FieldMetadata<
+ 17,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ ChromeCompositorStateMachine_MinorState>;
+
+ static constexpr FieldMetadata_SubmitFramesWithCurrentLayerTreeFrameSink kSubmitFramesWithCurrentLayerTreeFrameSink{};
+ void set_submit_frames_with_current_layer_tree_frame_sink(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SubmitFramesWithCurrentLayerTreeFrameSink::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NeedsRedraw =
+ ::protozero::proto_utils::FieldMetadata<
+ 18,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ChromeCompositorStateMachine_MinorState>;
+
+ static constexpr FieldMetadata_NeedsRedraw kNeedsRedraw{};
+ void set_needs_redraw(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_NeedsRedraw::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NeedsPrepareTiles =
+ ::protozero::proto_utils::FieldMetadata<
+ 19,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ChromeCompositorStateMachine_MinorState>;
+
+ static constexpr FieldMetadata_NeedsPrepareTiles kNeedsPrepareTiles{};
+ void set_needs_prepare_tiles(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_NeedsPrepareTiles::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NeedsBeginMainFrame =
+ ::protozero::proto_utils::FieldMetadata<
+ 20,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ChromeCompositorStateMachine_MinorState>;
+
+ static constexpr FieldMetadata_NeedsBeginMainFrame kNeedsBeginMainFrame{};
+ void set_needs_begin_main_frame(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_NeedsBeginMainFrame::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NeedsOneBeginImplFrame =
+ ::protozero::proto_utils::FieldMetadata<
+ 21,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ChromeCompositorStateMachine_MinorState>;
+
+ static constexpr FieldMetadata_NeedsOneBeginImplFrame kNeedsOneBeginImplFrame{};
+ void set_needs_one_begin_impl_frame(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_NeedsOneBeginImplFrame::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Visible =
+ ::protozero::proto_utils::FieldMetadata<
+ 22,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ChromeCompositorStateMachine_MinorState>;
+
+ static constexpr FieldMetadata_Visible kVisible{};
+ void set_visible(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_Visible::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BeginFrameSourcePaused =
+ ::protozero::proto_utils::FieldMetadata<
+ 23,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ChromeCompositorStateMachine_MinorState>;
+
+ static constexpr FieldMetadata_BeginFrameSourcePaused kBeginFrameSourcePaused{};
+ void set_begin_frame_source_paused(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_BeginFrameSourcePaused::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CanDraw =
+ ::protozero::proto_utils::FieldMetadata<
+ 24,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ChromeCompositorStateMachine_MinorState>;
+
+ static constexpr FieldMetadata_CanDraw kCanDraw{};
+ void set_can_draw(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_CanDraw::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ResourcelessDraw =
+ ::protozero::proto_utils::FieldMetadata<
+ 25,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ChromeCompositorStateMachine_MinorState>;
+
+ static constexpr FieldMetadata_ResourcelessDraw kResourcelessDraw{};
+ void set_resourceless_draw(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_ResourcelessDraw::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_HasPendingTree =
+ ::protozero::proto_utils::FieldMetadata<
+ 26,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ChromeCompositorStateMachine_MinorState>;
+
+ static constexpr FieldMetadata_HasPendingTree kHasPendingTree{};
+ void set_has_pending_tree(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_HasPendingTree::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PendingTreeIsReadyForActivation =
+ ::protozero::proto_utils::FieldMetadata<
+ 27,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ChromeCompositorStateMachine_MinorState>;
+
+ static constexpr FieldMetadata_PendingTreeIsReadyForActivation kPendingTreeIsReadyForActivation{};
+ void set_pending_tree_is_ready_for_activation(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_PendingTreeIsReadyForActivation::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ActiveTreeNeedsFirstDraw =
+ ::protozero::proto_utils::FieldMetadata<
+ 28,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ChromeCompositorStateMachine_MinorState>;
+
+ static constexpr FieldMetadata_ActiveTreeNeedsFirstDraw kActiveTreeNeedsFirstDraw{};
+ void set_active_tree_needs_first_draw(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_ActiveTreeNeedsFirstDraw::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ActiveTreeIsReadyToDraw =
+ ::protozero::proto_utils::FieldMetadata<
+ 29,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ChromeCompositorStateMachine_MinorState>;
+
+ static constexpr FieldMetadata_ActiveTreeIsReadyToDraw kActiveTreeIsReadyToDraw{};
+ void set_active_tree_is_ready_to_draw(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_ActiveTreeIsReadyToDraw::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DidCreateAndInitializeFirstLayerTreeFrameSink =
+ ::protozero::proto_utils::FieldMetadata<
+ 30,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ChromeCompositorStateMachine_MinorState>;
+
+ static constexpr FieldMetadata_DidCreateAndInitializeFirstLayerTreeFrameSink kDidCreateAndInitializeFirstLayerTreeFrameSink{};
+ void set_did_create_and_initialize_first_layer_tree_frame_sink(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_DidCreateAndInitializeFirstLayerTreeFrameSink::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TreePriority =
+ ::protozero::proto_utils::FieldMetadata<
+ 31,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ ChromeCompositorStateMachine_MinorState_TreePriority,
+ ChromeCompositorStateMachine_MinorState>;
+
+ static constexpr FieldMetadata_TreePriority kTreePriority{};
+ void set_tree_priority(ChromeCompositorStateMachine_MinorState_TreePriority value) {
+ static constexpr uint32_t field_id = FieldMetadata_TreePriority::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ScrollHandlerState =
+ ::protozero::proto_utils::FieldMetadata<
+ 32,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ ChromeCompositorStateMachine_MinorState_ScrollHandlerState,
+ ChromeCompositorStateMachine_MinorState>;
+
+ static constexpr FieldMetadata_ScrollHandlerState kScrollHandlerState{};
+ void set_scroll_handler_state(ChromeCompositorStateMachine_MinorState_ScrollHandlerState value) {
+ static constexpr uint32_t field_id = FieldMetadata_ScrollHandlerState::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CriticalBeginMainFrameToActivateIsFast =
+ ::protozero::proto_utils::FieldMetadata<
+ 33,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ChromeCompositorStateMachine_MinorState>;
+
+ static constexpr FieldMetadata_CriticalBeginMainFrameToActivateIsFast kCriticalBeginMainFrameToActivateIsFast{};
+ void set_critical_begin_main_frame_to_activate_is_fast(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_CriticalBeginMainFrameToActivateIsFast::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MainThreadMissedLastDeadline =
+ ::protozero::proto_utils::FieldMetadata<
+ 34,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ChromeCompositorStateMachine_MinorState>;
+
+ static constexpr FieldMetadata_MainThreadMissedLastDeadline kMainThreadMissedLastDeadline{};
+ void set_main_thread_missed_last_deadline(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_MainThreadMissedLastDeadline::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_VideoNeedsBeginFrames =
+ ::protozero::proto_utils::FieldMetadata<
+ 36,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ChromeCompositorStateMachine_MinorState>;
+
+ static constexpr FieldMetadata_VideoNeedsBeginFrames kVideoNeedsBeginFrames{};
+ void set_video_needs_begin_frames(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_VideoNeedsBeginFrames::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DeferBeginMainFrame =
+ ::protozero::proto_utils::FieldMetadata<
+ 37,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ChromeCompositorStateMachine_MinorState>;
+
+ static constexpr FieldMetadata_DeferBeginMainFrame kDeferBeginMainFrame{};
+ void set_defer_begin_main_frame(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_DeferBeginMainFrame::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_LastCommitHadNoUpdates =
+ ::protozero::proto_utils::FieldMetadata<
+ 38,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ChromeCompositorStateMachine_MinorState>;
+
+ static constexpr FieldMetadata_LastCommitHadNoUpdates kLastCommitHadNoUpdates{};
+ void set_last_commit_had_no_updates(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_LastCommitHadNoUpdates::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DidDrawInLastFrame =
+ ::protozero::proto_utils::FieldMetadata<
+ 39,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ChromeCompositorStateMachine_MinorState>;
+
+ static constexpr FieldMetadata_DidDrawInLastFrame kDidDrawInLastFrame{};
+ void set_did_draw_in_last_frame(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_DidDrawInLastFrame::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DidSubmitInLastFrame =
+ ::protozero::proto_utils::FieldMetadata<
+ 40,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ChromeCompositorStateMachine_MinorState>;
+
+ static constexpr FieldMetadata_DidSubmitInLastFrame kDidSubmitInLastFrame{};
+ void set_did_submit_in_last_frame(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_DidSubmitInLastFrame::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NeedsImplSideInvalidation =
+ ::protozero::proto_utils::FieldMetadata<
+ 41,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ChromeCompositorStateMachine_MinorState>;
+
+ static constexpr FieldMetadata_NeedsImplSideInvalidation kNeedsImplSideInvalidation{};
+ void set_needs_impl_side_invalidation(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_NeedsImplSideInvalidation::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CurrentPendingTreeIsImplSide =
+ ::protozero::proto_utils::FieldMetadata<
+ 42,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ChromeCompositorStateMachine_MinorState>;
+
+ static constexpr FieldMetadata_CurrentPendingTreeIsImplSide kCurrentPendingTreeIsImplSide{};
+ void set_current_pending_tree_is_impl_side(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_CurrentPendingTreeIsImplSide::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PreviousPendingTreeWasImplSide =
+ ::protozero::proto_utils::FieldMetadata<
+ 43,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ChromeCompositorStateMachine_MinorState>;
+
+ static constexpr FieldMetadata_PreviousPendingTreeWasImplSide kPreviousPendingTreeWasImplSide{};
+ void set_previous_pending_tree_was_impl_side(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_PreviousPendingTreeWasImplSide::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ProcessingAnimationWorkletsForActiveTree =
+ ::protozero::proto_utils::FieldMetadata<
+ 44,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ChromeCompositorStateMachine_MinorState>;
+
+ static constexpr FieldMetadata_ProcessingAnimationWorkletsForActiveTree kProcessingAnimationWorkletsForActiveTree{};
+ void set_processing_animation_worklets_for_active_tree(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_ProcessingAnimationWorkletsForActiveTree::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ProcessingAnimationWorkletsForPendingTree =
+ ::protozero::proto_utils::FieldMetadata<
+ 45,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ChromeCompositorStateMachine_MinorState>;
+
+ static constexpr FieldMetadata_ProcessingAnimationWorkletsForPendingTree kProcessingAnimationWorkletsForPendingTree{};
+ void set_processing_animation_worklets_for_pending_tree(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_ProcessingAnimationWorkletsForPendingTree::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ProcessingPaintWorkletsForPendingTree =
+ ::protozero::proto_utils::FieldMetadata<
+ 46,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ChromeCompositorStateMachine_MinorState>;
+
+ static constexpr FieldMetadata_ProcessingPaintWorkletsForPendingTree kProcessingPaintWorkletsForPendingTree{};
+ void set_processing_paint_worklets_for_pending_tree(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_ProcessingPaintWorkletsForPendingTree::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class ChromeCompositorStateMachine_MajorState_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ChromeCompositorStateMachine_MajorState_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ChromeCompositorStateMachine_MajorState_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ChromeCompositorStateMachine_MajorState_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_next_action() const { return at<1>().valid(); }
+ int32_t next_action() const { return at<1>().as_int32(); }
+ bool has_begin_impl_frame_state() const { return at<2>().valid(); }
+ int32_t begin_impl_frame_state() const { return at<2>().as_int32(); }
+ bool has_begin_main_frame_state() const { return at<3>().valid(); }
+ int32_t begin_main_frame_state() const { return at<3>().as_int32(); }
+ bool has_layer_tree_frame_sink_state() const { return at<4>().valid(); }
+ int32_t layer_tree_frame_sink_state() const { return at<4>().as_int32(); }
+ bool has_forced_redraw_state() const { return at<5>().valid(); }
+ int32_t forced_redraw_state() const { return at<5>().as_int32(); }
+};
+
+class ChromeCompositorStateMachine_MajorState : public ::protozero::Message {
+ public:
+ using Decoder = ChromeCompositorStateMachine_MajorState_Decoder;
+ enum : int32_t {
+ kNextActionFieldNumber = 1,
+ kBeginImplFrameStateFieldNumber = 2,
+ kBeginMainFrameStateFieldNumber = 3,
+ kLayerTreeFrameSinkStateFieldNumber = 4,
+ kForcedRedrawStateFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ChromeCompositorStateMachine.MajorState"; }
+
+
+ using BeginImplFrameState = ::perfetto::protos::pbzero::ChromeCompositorStateMachine_MajorState_BeginImplFrameState;
+ static inline const char* BeginImplFrameState_Name(BeginImplFrameState value) {
+ return ::perfetto::protos::pbzero::ChromeCompositorStateMachine_MajorState_BeginImplFrameState_Name(value);
+ }
+
+ using BeginMainFrameState = ::perfetto::protos::pbzero::ChromeCompositorStateMachine_MajorState_BeginMainFrameState;
+ static inline const char* BeginMainFrameState_Name(BeginMainFrameState value) {
+ return ::perfetto::protos::pbzero::ChromeCompositorStateMachine_MajorState_BeginMainFrameState_Name(value);
+ }
+
+ using LayerTreeFrameSinkState = ::perfetto::protos::pbzero::ChromeCompositorStateMachine_MajorState_LayerTreeFrameSinkState;
+ static inline const char* LayerTreeFrameSinkState_Name(LayerTreeFrameSinkState value) {
+ return ::perfetto::protos::pbzero::ChromeCompositorStateMachine_MajorState_LayerTreeFrameSinkState_Name(value);
+ }
+
+ using ForcedRedrawOnTimeoutState = ::perfetto::protos::pbzero::ChromeCompositorStateMachine_MajorState_ForcedRedrawOnTimeoutState;
+ static inline const char* ForcedRedrawOnTimeoutState_Name(ForcedRedrawOnTimeoutState value) {
+ return ::perfetto::protos::pbzero::ChromeCompositorStateMachine_MajorState_ForcedRedrawOnTimeoutState_Name(value);
+ }
+ static inline const BeginImplFrameState BEGIN_IMPL_FRAME_UNSPECIFIED = BeginImplFrameState::BEGIN_IMPL_FRAME_UNSPECIFIED;
+ static inline const BeginImplFrameState BEGIN_IMPL_FRAME_IDLE = BeginImplFrameState::BEGIN_IMPL_FRAME_IDLE;
+ static inline const BeginImplFrameState BEGIN_IMPL_FRAME_INSIDE_BEGIN_FRAME = BeginImplFrameState::BEGIN_IMPL_FRAME_INSIDE_BEGIN_FRAME;
+ static inline const BeginImplFrameState BEGIN_IMPL_FRAME_INSIDE_DEADLINE = BeginImplFrameState::BEGIN_IMPL_FRAME_INSIDE_DEADLINE;
+ static inline const BeginMainFrameState BEGIN_MAIN_FRAME_UNSPECIFIED = BeginMainFrameState::BEGIN_MAIN_FRAME_UNSPECIFIED;
+ static inline const BeginMainFrameState BEGIN_MAIN_FRAME_IDLE = BeginMainFrameState::BEGIN_MAIN_FRAME_IDLE;
+ static inline const BeginMainFrameState BEGIN_MAIN_FRAME_SENT = BeginMainFrameState::BEGIN_MAIN_FRAME_SENT;
+ static inline const BeginMainFrameState BEGIN_MAIN_FRAME_READY_TO_COMMIT = BeginMainFrameState::BEGIN_MAIN_FRAME_READY_TO_COMMIT;
+ static inline const LayerTreeFrameSinkState LAYER_TREE_FRAME_UNSPECIFIED = LayerTreeFrameSinkState::LAYER_TREE_FRAME_UNSPECIFIED;
+ static inline const LayerTreeFrameSinkState LAYER_TREE_FRAME_NONE = LayerTreeFrameSinkState::LAYER_TREE_FRAME_NONE;
+ static inline const LayerTreeFrameSinkState LAYER_TREE_FRAME_ACTIVE = LayerTreeFrameSinkState::LAYER_TREE_FRAME_ACTIVE;
+ static inline const LayerTreeFrameSinkState LAYER_TREE_FRAME_CREATING = LayerTreeFrameSinkState::LAYER_TREE_FRAME_CREATING;
+ static inline const LayerTreeFrameSinkState LAYER_TREE_FRAME_WAITING_FOR_FIRST_COMMIT = LayerTreeFrameSinkState::LAYER_TREE_FRAME_WAITING_FOR_FIRST_COMMIT;
+ static inline const LayerTreeFrameSinkState LAYER_TREE_FRAME_WAITING_FOR_FIRST_ACTIVATION = LayerTreeFrameSinkState::LAYER_TREE_FRAME_WAITING_FOR_FIRST_ACTIVATION;
+ static inline const ForcedRedrawOnTimeoutState FORCED_REDRAW_UNSPECIFIED = ForcedRedrawOnTimeoutState::FORCED_REDRAW_UNSPECIFIED;
+ static inline const ForcedRedrawOnTimeoutState FORCED_REDRAW_IDLE = ForcedRedrawOnTimeoutState::FORCED_REDRAW_IDLE;
+ static inline const ForcedRedrawOnTimeoutState FORCED_REDRAW_WAITING_FOR_COMMIT = ForcedRedrawOnTimeoutState::FORCED_REDRAW_WAITING_FOR_COMMIT;
+ static inline const ForcedRedrawOnTimeoutState FORCED_REDRAW_WAITING_FOR_ACTIVATION = ForcedRedrawOnTimeoutState::FORCED_REDRAW_WAITING_FOR_ACTIVATION;
+ static inline const ForcedRedrawOnTimeoutState FORCED_REDRAW_WAITING_FOR_DRAW = ForcedRedrawOnTimeoutState::FORCED_REDRAW_WAITING_FOR_DRAW;
+
+ using FieldMetadata_NextAction =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ ChromeCompositorSchedulerAction,
+ ChromeCompositorStateMachine_MajorState>;
+
+ static constexpr FieldMetadata_NextAction kNextAction{};
+ void set_next_action(ChromeCompositorSchedulerAction value) {
+ static constexpr uint32_t field_id = FieldMetadata_NextAction::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BeginImplFrameState =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ ChromeCompositorStateMachine_MajorState_BeginImplFrameState,
+ ChromeCompositorStateMachine_MajorState>;
+
+ static constexpr FieldMetadata_BeginImplFrameState kBeginImplFrameState{};
+ void set_begin_impl_frame_state(ChromeCompositorStateMachine_MajorState_BeginImplFrameState value) {
+ static constexpr uint32_t field_id = FieldMetadata_BeginImplFrameState::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BeginMainFrameState =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ ChromeCompositorStateMachine_MajorState_BeginMainFrameState,
+ ChromeCompositorStateMachine_MajorState>;
+
+ static constexpr FieldMetadata_BeginMainFrameState kBeginMainFrameState{};
+ void set_begin_main_frame_state(ChromeCompositorStateMachine_MajorState_BeginMainFrameState value) {
+ static constexpr uint32_t field_id = FieldMetadata_BeginMainFrameState::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_LayerTreeFrameSinkState =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ ChromeCompositorStateMachine_MajorState_LayerTreeFrameSinkState,
+ ChromeCompositorStateMachine_MajorState>;
+
+ static constexpr FieldMetadata_LayerTreeFrameSinkState kLayerTreeFrameSinkState{};
+ void set_layer_tree_frame_sink_state(ChromeCompositorStateMachine_MajorState_LayerTreeFrameSinkState value) {
+ static constexpr uint32_t field_id = FieldMetadata_LayerTreeFrameSinkState::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ForcedRedrawState =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ ChromeCompositorStateMachine_MajorState_ForcedRedrawOnTimeoutState,
+ ChromeCompositorStateMachine_MajorState>;
+
+ static constexpr FieldMetadata_ForcedRedrawState kForcedRedrawState{};
+ void set_forced_redraw_state(ChromeCompositorStateMachine_MajorState_ForcedRedrawOnTimeoutState value) {
+ static constexpr uint32_t field_id = FieldMetadata_ForcedRedrawState::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class ChromeCompositorSchedulerState_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/17, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ChromeCompositorSchedulerState_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ChromeCompositorSchedulerState_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ChromeCompositorSchedulerState_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_state_machine() const { return at<1>().valid(); }
+ ::protozero::ConstBytes state_machine() const { return at<1>().as_bytes(); }
+ bool has_observing_begin_frame_source() const { return at<2>().valid(); }
+ bool observing_begin_frame_source() const { return at<2>().as_bool(); }
+ bool has_begin_impl_frame_deadline_task() const { return at<3>().valid(); }
+ bool begin_impl_frame_deadline_task() const { return at<3>().as_bool(); }
+ bool has_pending_begin_frame_task() const { return at<4>().valid(); }
+ bool pending_begin_frame_task() const { return at<4>().as_bool(); }
+ bool has_skipped_last_frame_missed_exceeded_deadline() const { return at<5>().valid(); }
+ bool skipped_last_frame_missed_exceeded_deadline() const { return at<5>().as_bool(); }
+ bool has_inside_action() const { return at<7>().valid(); }
+ int32_t inside_action() const { return at<7>().as_int32(); }
+ bool has_deadline_mode() const { return at<8>().valid(); }
+ int32_t deadline_mode() const { return at<8>().as_int32(); }
+ bool has_deadline_us() const { return at<9>().valid(); }
+ int64_t deadline_us() const { return at<9>().as_int64(); }
+ bool has_deadline_scheduled_at_us() const { return at<10>().valid(); }
+ int64_t deadline_scheduled_at_us() const { return at<10>().as_int64(); }
+ bool has_now_us() const { return at<11>().valid(); }
+ int64_t now_us() const { return at<11>().as_int64(); }
+ bool has_now_to_deadline_delta_us() const { return at<12>().valid(); }
+ int64_t now_to_deadline_delta_us() const { return at<12>().as_int64(); }
+ bool has_now_to_deadline_scheduled_at_delta_us() const { return at<13>().valid(); }
+ int64_t now_to_deadline_scheduled_at_delta_us() const { return at<13>().as_int64(); }
+ bool has_begin_impl_frame_args() const { return at<14>().valid(); }
+ ::protozero::ConstBytes begin_impl_frame_args() const { return at<14>().as_bytes(); }
+ bool has_begin_frame_observer_state() const { return at<15>().valid(); }
+ ::protozero::ConstBytes begin_frame_observer_state() const { return at<15>().as_bytes(); }
+ bool has_begin_frame_source_state() const { return at<16>().valid(); }
+ ::protozero::ConstBytes begin_frame_source_state() const { return at<16>().as_bytes(); }
+ bool has_compositor_timing_history() const { return at<17>().valid(); }
+ ::protozero::ConstBytes compositor_timing_history() const { return at<17>().as_bytes(); }
+};
+
+class ChromeCompositorSchedulerState : public ::protozero::Message {
+ public:
+ using Decoder = ChromeCompositorSchedulerState_Decoder;
+ enum : int32_t {
+ kStateMachineFieldNumber = 1,
+ kObservingBeginFrameSourceFieldNumber = 2,
+ kBeginImplFrameDeadlineTaskFieldNumber = 3,
+ kPendingBeginFrameTaskFieldNumber = 4,
+ kSkippedLastFrameMissedExceededDeadlineFieldNumber = 5,
+ kInsideActionFieldNumber = 7,
+ kDeadlineModeFieldNumber = 8,
+ kDeadlineUsFieldNumber = 9,
+ kDeadlineScheduledAtUsFieldNumber = 10,
+ kNowUsFieldNumber = 11,
+ kNowToDeadlineDeltaUsFieldNumber = 12,
+ kNowToDeadlineScheduledAtDeltaUsFieldNumber = 13,
+ kBeginImplFrameArgsFieldNumber = 14,
+ kBeginFrameObserverStateFieldNumber = 15,
+ kBeginFrameSourceStateFieldNumber = 16,
+ kCompositorTimingHistoryFieldNumber = 17,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ChromeCompositorSchedulerState"; }
+
+
+ using BeginImplFrameDeadlineMode = ::perfetto::protos::pbzero::ChromeCompositorSchedulerState_BeginImplFrameDeadlineMode;
+ static inline const char* BeginImplFrameDeadlineMode_Name(BeginImplFrameDeadlineMode value) {
+ return ::perfetto::protos::pbzero::ChromeCompositorSchedulerState_BeginImplFrameDeadlineMode_Name(value);
+ }
+ static inline const BeginImplFrameDeadlineMode DEADLINE_MODE_UNSPECIFIED = BeginImplFrameDeadlineMode::DEADLINE_MODE_UNSPECIFIED;
+ static inline const BeginImplFrameDeadlineMode DEADLINE_MODE_NONE = BeginImplFrameDeadlineMode::DEADLINE_MODE_NONE;
+ static inline const BeginImplFrameDeadlineMode DEADLINE_MODE_IMMEDIATE = BeginImplFrameDeadlineMode::DEADLINE_MODE_IMMEDIATE;
+ static inline const BeginImplFrameDeadlineMode DEADLINE_MODE_REGULAR = BeginImplFrameDeadlineMode::DEADLINE_MODE_REGULAR;
+ static inline const BeginImplFrameDeadlineMode DEADLINE_MODE_LATE = BeginImplFrameDeadlineMode::DEADLINE_MODE_LATE;
+ static inline const BeginImplFrameDeadlineMode DEADLINE_MODE_BLOCKED = BeginImplFrameDeadlineMode::DEADLINE_MODE_BLOCKED;
+
+ using FieldMetadata_StateMachine =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ChromeCompositorStateMachine,
+ ChromeCompositorSchedulerState>;
+
+ static constexpr FieldMetadata_StateMachine kStateMachine{};
+ template <typename T = ChromeCompositorStateMachine> T* set_state_machine() {
+ return BeginNestedMessage<T>(1);
+ }
+
+
+ using FieldMetadata_ObservingBeginFrameSource =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ChromeCompositorSchedulerState>;
+
+ static constexpr FieldMetadata_ObservingBeginFrameSource kObservingBeginFrameSource{};
+ void set_observing_begin_frame_source(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_ObservingBeginFrameSource::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BeginImplFrameDeadlineTask =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ChromeCompositorSchedulerState>;
+
+ static constexpr FieldMetadata_BeginImplFrameDeadlineTask kBeginImplFrameDeadlineTask{};
+ void set_begin_impl_frame_deadline_task(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_BeginImplFrameDeadlineTask::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PendingBeginFrameTask =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ChromeCompositorSchedulerState>;
+
+ static constexpr FieldMetadata_PendingBeginFrameTask kPendingBeginFrameTask{};
+ void set_pending_begin_frame_task(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_PendingBeginFrameTask::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SkippedLastFrameMissedExceededDeadline =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ChromeCompositorSchedulerState>;
+
+ static constexpr FieldMetadata_SkippedLastFrameMissedExceededDeadline kSkippedLastFrameMissedExceededDeadline{};
+ void set_skipped_last_frame_missed_exceeded_deadline(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_SkippedLastFrameMissedExceededDeadline::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_InsideAction =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ ChromeCompositorSchedulerAction,
+ ChromeCompositorSchedulerState>;
+
+ static constexpr FieldMetadata_InsideAction kInsideAction{};
+ void set_inside_action(ChromeCompositorSchedulerAction value) {
+ static constexpr uint32_t field_id = FieldMetadata_InsideAction::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DeadlineMode =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ ChromeCompositorSchedulerState_BeginImplFrameDeadlineMode,
+ ChromeCompositorSchedulerState>;
+
+ static constexpr FieldMetadata_DeadlineMode kDeadlineMode{};
+ void set_deadline_mode(ChromeCompositorSchedulerState_BeginImplFrameDeadlineMode value) {
+ static constexpr uint32_t field_id = FieldMetadata_DeadlineMode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DeadlineUs =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ ChromeCompositorSchedulerState>;
+
+ static constexpr FieldMetadata_DeadlineUs kDeadlineUs{};
+ void set_deadline_us(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DeadlineUs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DeadlineScheduledAtUs =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ ChromeCompositorSchedulerState>;
+
+ static constexpr FieldMetadata_DeadlineScheduledAtUs kDeadlineScheduledAtUs{};
+ void set_deadline_scheduled_at_us(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DeadlineScheduledAtUs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NowUs =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ ChromeCompositorSchedulerState>;
+
+ static constexpr FieldMetadata_NowUs kNowUs{};
+ void set_now_us(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NowUs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NowToDeadlineDeltaUs =
+ ::protozero::proto_utils::FieldMetadata<
+ 12,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ ChromeCompositorSchedulerState>;
+
+ static constexpr FieldMetadata_NowToDeadlineDeltaUs kNowToDeadlineDeltaUs{};
+ void set_now_to_deadline_delta_us(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NowToDeadlineDeltaUs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NowToDeadlineScheduledAtDeltaUs =
+ ::protozero::proto_utils::FieldMetadata<
+ 13,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ ChromeCompositorSchedulerState>;
+
+ static constexpr FieldMetadata_NowToDeadlineScheduledAtDeltaUs kNowToDeadlineScheduledAtDeltaUs{};
+ void set_now_to_deadline_scheduled_at_delta_us(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NowToDeadlineScheduledAtDeltaUs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BeginImplFrameArgs =
+ ::protozero::proto_utils::FieldMetadata<
+ 14,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ BeginImplFrameArgs,
+ ChromeCompositorSchedulerState>;
+
+ static constexpr FieldMetadata_BeginImplFrameArgs kBeginImplFrameArgs{};
+ template <typename T = BeginImplFrameArgs> T* set_begin_impl_frame_args() {
+ return BeginNestedMessage<T>(14);
+ }
+
+
+ using FieldMetadata_BeginFrameObserverState =
+ ::protozero::proto_utils::FieldMetadata<
+ 15,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ BeginFrameObserverState,
+ ChromeCompositorSchedulerState>;
+
+ static constexpr FieldMetadata_BeginFrameObserverState kBeginFrameObserverState{};
+ template <typename T = BeginFrameObserverState> T* set_begin_frame_observer_state() {
+ return BeginNestedMessage<T>(15);
+ }
+
+
+ using FieldMetadata_BeginFrameSourceState =
+ ::protozero::proto_utils::FieldMetadata<
+ 16,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ BeginFrameSourceState,
+ ChromeCompositorSchedulerState>;
+
+ static constexpr FieldMetadata_BeginFrameSourceState kBeginFrameSourceState{};
+ template <typename T = BeginFrameSourceState> T* set_begin_frame_source_state() {
+ return BeginNestedMessage<T>(16);
+ }
+
+
+ using FieldMetadata_CompositorTimingHistory =
+ ::protozero::proto_utils::FieldMetadata<
+ 17,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ CompositorTimingHistory,
+ ChromeCompositorSchedulerState>;
+
+ static constexpr FieldMetadata_CompositorTimingHistory kCompositorTimingHistory{};
+ template <typename T = CompositorTimingHistory> T* set_compositor_timing_history() {
+ return BeginNestedMessage<T>(17);
+ }
+
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/track_event/chrome_content_settings_event_info.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_CONTENT_SETTINGS_EVENT_INFO_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_CONTENT_SETTINGS_EVENT_INFO_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class ChromeContentSettingsEventInfo_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ChromeContentSettingsEventInfo_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ChromeContentSettingsEventInfo_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ChromeContentSettingsEventInfo_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_number_of_exceptions() const { return at<1>().valid(); }
+ uint32_t number_of_exceptions() const { return at<1>().as_uint32(); }
+};
+
+class ChromeContentSettingsEventInfo : public ::protozero::Message {
+ public:
+ using Decoder = ChromeContentSettingsEventInfo_Decoder;
+ enum : int32_t {
+ kNumberOfExceptionsFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ChromeContentSettingsEventInfo"; }
+
+
+ using FieldMetadata_NumberOfExceptions =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ ChromeContentSettingsEventInfo>;
+
+ static constexpr FieldMetadata_NumberOfExceptions kNumberOfExceptions{};
+ void set_number_of_exceptions(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NumberOfExceptions::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/track_event/chrome_frame_reporter.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_FRAME_REPORTER_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_FRAME_REPORTER_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+namespace perfetto_pbzero_enum_ChromeFrameReporter {
+enum FrameDropReason : int32_t;
+} // namespace perfetto_pbzero_enum_ChromeFrameReporter
+using ChromeFrameReporter_FrameDropReason = perfetto_pbzero_enum_ChromeFrameReporter::FrameDropReason;
+namespace perfetto_pbzero_enum_ChromeFrameReporter {
+enum FrameType : int32_t;
+} // namespace perfetto_pbzero_enum_ChromeFrameReporter
+using ChromeFrameReporter_FrameType = perfetto_pbzero_enum_ChromeFrameReporter::FrameType;
+namespace perfetto_pbzero_enum_ChromeFrameReporter {
+enum ScrollState : int32_t;
+} // namespace perfetto_pbzero_enum_ChromeFrameReporter
+using ChromeFrameReporter_ScrollState = perfetto_pbzero_enum_ChromeFrameReporter::ScrollState;
+namespace perfetto_pbzero_enum_ChromeFrameReporter {
+enum State : int32_t;
+} // namespace perfetto_pbzero_enum_ChromeFrameReporter
+using ChromeFrameReporter_State = perfetto_pbzero_enum_ChromeFrameReporter::State;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+namespace perfetto_pbzero_enum_ChromeFrameReporter {
+enum State : int32_t {
+ STATE_NO_UPDATE_DESIRED = 0,
+ STATE_PRESENTED_ALL = 1,
+ STATE_PRESENTED_PARTIAL = 2,
+ STATE_DROPPED = 3,
+};
+} // namespace perfetto_pbzero_enum_ChromeFrameReporter
+using ChromeFrameReporter_State = perfetto_pbzero_enum_ChromeFrameReporter::State;
+
+
+constexpr ChromeFrameReporter_State ChromeFrameReporter_State_MIN = ChromeFrameReporter_State::STATE_NO_UPDATE_DESIRED;
+constexpr ChromeFrameReporter_State ChromeFrameReporter_State_MAX = ChromeFrameReporter_State::STATE_DROPPED;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* ChromeFrameReporter_State_Name(::perfetto::protos::pbzero::ChromeFrameReporter_State value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::ChromeFrameReporter_State::STATE_NO_UPDATE_DESIRED:
+ return "STATE_NO_UPDATE_DESIRED";
+
+ case ::perfetto::protos::pbzero::ChromeFrameReporter_State::STATE_PRESENTED_ALL:
+ return "STATE_PRESENTED_ALL";
+
+ case ::perfetto::protos::pbzero::ChromeFrameReporter_State::STATE_PRESENTED_PARTIAL:
+ return "STATE_PRESENTED_PARTIAL";
+
+ case ::perfetto::protos::pbzero::ChromeFrameReporter_State::STATE_DROPPED:
+ return "STATE_DROPPED";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_ChromeFrameReporter {
+enum FrameDropReason : int32_t {
+ REASON_UNSPECIFIED = 0,
+ REASON_DISPLAY_COMPOSITOR = 1,
+ REASON_MAIN_THREAD = 2,
+ REASON_CLIENT_COMPOSITOR = 3,
+};
+} // namespace perfetto_pbzero_enum_ChromeFrameReporter
+using ChromeFrameReporter_FrameDropReason = perfetto_pbzero_enum_ChromeFrameReporter::FrameDropReason;
+
+
+constexpr ChromeFrameReporter_FrameDropReason ChromeFrameReporter_FrameDropReason_MIN = ChromeFrameReporter_FrameDropReason::REASON_UNSPECIFIED;
+constexpr ChromeFrameReporter_FrameDropReason ChromeFrameReporter_FrameDropReason_MAX = ChromeFrameReporter_FrameDropReason::REASON_CLIENT_COMPOSITOR;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* ChromeFrameReporter_FrameDropReason_Name(::perfetto::protos::pbzero::ChromeFrameReporter_FrameDropReason value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::ChromeFrameReporter_FrameDropReason::REASON_UNSPECIFIED:
+ return "REASON_UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::ChromeFrameReporter_FrameDropReason::REASON_DISPLAY_COMPOSITOR:
+ return "REASON_DISPLAY_COMPOSITOR";
+
+ case ::perfetto::protos::pbzero::ChromeFrameReporter_FrameDropReason::REASON_MAIN_THREAD:
+ return "REASON_MAIN_THREAD";
+
+ case ::perfetto::protos::pbzero::ChromeFrameReporter_FrameDropReason::REASON_CLIENT_COMPOSITOR:
+ return "REASON_CLIENT_COMPOSITOR";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_ChromeFrameReporter {
+enum ScrollState : int32_t {
+ SCROLL_NONE = 0,
+ SCROLL_MAIN_THREAD = 1,
+ SCROLL_COMPOSITOR_THREAD = 2,
+ SCROLL_UNKNOWN = 3,
+};
+} // namespace perfetto_pbzero_enum_ChromeFrameReporter
+using ChromeFrameReporter_ScrollState = perfetto_pbzero_enum_ChromeFrameReporter::ScrollState;
+
+
+constexpr ChromeFrameReporter_ScrollState ChromeFrameReporter_ScrollState_MIN = ChromeFrameReporter_ScrollState::SCROLL_NONE;
+constexpr ChromeFrameReporter_ScrollState ChromeFrameReporter_ScrollState_MAX = ChromeFrameReporter_ScrollState::SCROLL_UNKNOWN;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* ChromeFrameReporter_ScrollState_Name(::perfetto::protos::pbzero::ChromeFrameReporter_ScrollState value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::ChromeFrameReporter_ScrollState::SCROLL_NONE:
+ return "SCROLL_NONE";
+
+ case ::perfetto::protos::pbzero::ChromeFrameReporter_ScrollState::SCROLL_MAIN_THREAD:
+ return "SCROLL_MAIN_THREAD";
+
+ case ::perfetto::protos::pbzero::ChromeFrameReporter_ScrollState::SCROLL_COMPOSITOR_THREAD:
+ return "SCROLL_COMPOSITOR_THREAD";
+
+ case ::perfetto::protos::pbzero::ChromeFrameReporter_ScrollState::SCROLL_UNKNOWN:
+ return "SCROLL_UNKNOWN";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_ChromeFrameReporter {
+enum FrameType : int32_t {
+ FORKED = 0,
+ BACKFILL = 1,
+};
+} // namespace perfetto_pbzero_enum_ChromeFrameReporter
+using ChromeFrameReporter_FrameType = perfetto_pbzero_enum_ChromeFrameReporter::FrameType;
+
+
+constexpr ChromeFrameReporter_FrameType ChromeFrameReporter_FrameType_MIN = ChromeFrameReporter_FrameType::FORKED;
+constexpr ChromeFrameReporter_FrameType ChromeFrameReporter_FrameType_MAX = ChromeFrameReporter_FrameType::BACKFILL;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* ChromeFrameReporter_FrameType_Name(::perfetto::protos::pbzero::ChromeFrameReporter_FrameType value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::ChromeFrameReporter_FrameType::FORKED:
+ return "FORKED";
+
+ case ::perfetto::protos::pbzero::ChromeFrameReporter_FrameType::BACKFILL:
+ return "BACKFILL";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+class ChromeFrameReporter_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/14, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ ChromeFrameReporter_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ChromeFrameReporter_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ChromeFrameReporter_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_state() const { return at<1>().valid(); }
+ int32_t state() const { return at<1>().as_int32(); }
+ bool has_reason() const { return at<2>().valid(); }
+ int32_t reason() const { return at<2>().as_int32(); }
+ bool has_frame_source() const { return at<3>().valid(); }
+ uint64_t frame_source() const { return at<3>().as_uint64(); }
+ bool has_frame_sequence() const { return at<4>().valid(); }
+ uint64_t frame_sequence() const { return at<4>().as_uint64(); }
+ bool has_affects_smoothness() const { return at<5>().valid(); }
+ bool affects_smoothness() const { return at<5>().as_bool(); }
+ bool has_scroll_state() const { return at<6>().valid(); }
+ int32_t scroll_state() const { return at<6>().as_int32(); }
+ bool has_has_main_animation() const { return at<7>().valid(); }
+ bool has_main_animation() const { return at<7>().as_bool(); }
+ bool has_has_compositor_animation() const { return at<8>().valid(); }
+ bool has_compositor_animation() const { return at<8>().as_bool(); }
+ bool has_has_smooth_input_main() const { return at<9>().valid(); }
+ bool has_smooth_input_main() const { return at<9>().as_bool(); }
+ bool has_has_missing_content() const { return at<10>().valid(); }
+ bool has_missing_content() const { return at<10>().as_bool(); }
+ bool has_layer_tree_host_id() const { return at<11>().valid(); }
+ uint64_t layer_tree_host_id() const { return at<11>().as_uint64(); }
+ bool has_has_high_latency() const { return at<12>().valid(); }
+ bool has_high_latency() const { return at<12>().as_bool(); }
+ bool has_frame_type() const { return at<13>().valid(); }
+ int32_t frame_type() const { return at<13>().as_int32(); }
+ bool has_high_latency_contribution_stage() const { return at<14>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstChars> high_latency_contribution_stage() const { return GetRepeated<::protozero::ConstChars>(14); }
+};
+
+class ChromeFrameReporter : public ::protozero::Message {
+ public:
+ using Decoder = ChromeFrameReporter_Decoder;
+ enum : int32_t {
+ kStateFieldNumber = 1,
+ kReasonFieldNumber = 2,
+ kFrameSourceFieldNumber = 3,
+ kFrameSequenceFieldNumber = 4,
+ kAffectsSmoothnessFieldNumber = 5,
+ kScrollStateFieldNumber = 6,
+ kHasMainAnimationFieldNumber = 7,
+ kHasCompositorAnimationFieldNumber = 8,
+ kHasSmoothInputMainFieldNumber = 9,
+ kHasMissingContentFieldNumber = 10,
+ kLayerTreeHostIdFieldNumber = 11,
+ kHasHighLatencyFieldNumber = 12,
+ kFrameTypeFieldNumber = 13,
+ kHighLatencyContributionStageFieldNumber = 14,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ChromeFrameReporter"; }
+
+
+ using State = ::perfetto::protos::pbzero::ChromeFrameReporter_State;
+ static inline const char* State_Name(State value) {
+ return ::perfetto::protos::pbzero::ChromeFrameReporter_State_Name(value);
+ }
+
+ using FrameDropReason = ::perfetto::protos::pbzero::ChromeFrameReporter_FrameDropReason;
+ static inline const char* FrameDropReason_Name(FrameDropReason value) {
+ return ::perfetto::protos::pbzero::ChromeFrameReporter_FrameDropReason_Name(value);
+ }
+
+ using ScrollState = ::perfetto::protos::pbzero::ChromeFrameReporter_ScrollState;
+ static inline const char* ScrollState_Name(ScrollState value) {
+ return ::perfetto::protos::pbzero::ChromeFrameReporter_ScrollState_Name(value);
+ }
+
+ using FrameType = ::perfetto::protos::pbzero::ChromeFrameReporter_FrameType;
+ static inline const char* FrameType_Name(FrameType value) {
+ return ::perfetto::protos::pbzero::ChromeFrameReporter_FrameType_Name(value);
+ }
+ static inline const State STATE_NO_UPDATE_DESIRED = State::STATE_NO_UPDATE_DESIRED;
+ static inline const State STATE_PRESENTED_ALL = State::STATE_PRESENTED_ALL;
+ static inline const State STATE_PRESENTED_PARTIAL = State::STATE_PRESENTED_PARTIAL;
+ static inline const State STATE_DROPPED = State::STATE_DROPPED;
+ static inline const FrameDropReason REASON_UNSPECIFIED = FrameDropReason::REASON_UNSPECIFIED;
+ static inline const FrameDropReason REASON_DISPLAY_COMPOSITOR = FrameDropReason::REASON_DISPLAY_COMPOSITOR;
+ static inline const FrameDropReason REASON_MAIN_THREAD = FrameDropReason::REASON_MAIN_THREAD;
+ static inline const FrameDropReason REASON_CLIENT_COMPOSITOR = FrameDropReason::REASON_CLIENT_COMPOSITOR;
+ static inline const ScrollState SCROLL_NONE = ScrollState::SCROLL_NONE;
+ static inline const ScrollState SCROLL_MAIN_THREAD = ScrollState::SCROLL_MAIN_THREAD;
+ static inline const ScrollState SCROLL_COMPOSITOR_THREAD = ScrollState::SCROLL_COMPOSITOR_THREAD;
+ static inline const ScrollState SCROLL_UNKNOWN = ScrollState::SCROLL_UNKNOWN;
+ static inline const FrameType FORKED = FrameType::FORKED;
+ static inline const FrameType BACKFILL = FrameType::BACKFILL;
+
+ using FieldMetadata_State =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ ChromeFrameReporter_State,
+ ChromeFrameReporter>;
+
+ static constexpr FieldMetadata_State kState{};
+ void set_state(ChromeFrameReporter_State value) {
+ static constexpr uint32_t field_id = FieldMetadata_State::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Reason =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ ChromeFrameReporter_FrameDropReason,
+ ChromeFrameReporter>;
+
+ static constexpr FieldMetadata_Reason kReason{};
+ void set_reason(ChromeFrameReporter_FrameDropReason value) {
+ static constexpr uint32_t field_id = FieldMetadata_Reason::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FrameSource =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ChromeFrameReporter>;
+
+ static constexpr FieldMetadata_FrameSource kFrameSource{};
+ void set_frame_source(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FrameSource::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FrameSequence =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ChromeFrameReporter>;
+
+ static constexpr FieldMetadata_FrameSequence kFrameSequence{};
+ void set_frame_sequence(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FrameSequence::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_AffectsSmoothness =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ChromeFrameReporter>;
+
+ static constexpr FieldMetadata_AffectsSmoothness kAffectsSmoothness{};
+ void set_affects_smoothness(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_AffectsSmoothness::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ScrollState =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ ChromeFrameReporter_ScrollState,
+ ChromeFrameReporter>;
+
+ static constexpr FieldMetadata_ScrollState kScrollState{};
+ void set_scroll_state(ChromeFrameReporter_ScrollState value) {
+ static constexpr uint32_t field_id = FieldMetadata_ScrollState::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_HasMainAnimation =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ChromeFrameReporter>;
+
+ static constexpr FieldMetadata_HasMainAnimation kHasMainAnimation{};
+ void set_has_main_animation(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_HasMainAnimation::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_HasCompositorAnimation =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ChromeFrameReporter>;
+
+ static constexpr FieldMetadata_HasCompositorAnimation kHasCompositorAnimation{};
+ void set_has_compositor_animation(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_HasCompositorAnimation::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_HasSmoothInputMain =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ChromeFrameReporter>;
+
+ static constexpr FieldMetadata_HasSmoothInputMain kHasSmoothInputMain{};
+ void set_has_smooth_input_main(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_HasSmoothInputMain::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_HasMissingContent =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ChromeFrameReporter>;
+
+ static constexpr FieldMetadata_HasMissingContent kHasMissingContent{};
+ void set_has_missing_content(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_HasMissingContent::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_LayerTreeHostId =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ChromeFrameReporter>;
+
+ static constexpr FieldMetadata_LayerTreeHostId kLayerTreeHostId{};
+ void set_layer_tree_host_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_LayerTreeHostId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_HasHighLatency =
+ ::protozero::proto_utils::FieldMetadata<
+ 12,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ChromeFrameReporter>;
+
+ static constexpr FieldMetadata_HasHighLatency kHasHighLatency{};
+ void set_has_high_latency(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_HasHighLatency::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FrameType =
+ ::protozero::proto_utils::FieldMetadata<
+ 13,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ ChromeFrameReporter_FrameType,
+ ChromeFrameReporter>;
+
+ static constexpr FieldMetadata_FrameType kFrameType{};
+ void set_frame_type(ChromeFrameReporter_FrameType value) {
+ static constexpr uint32_t field_id = FieldMetadata_FrameType::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_HighLatencyContributionStage =
+ ::protozero::proto_utils::FieldMetadata<
+ 14,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ChromeFrameReporter>;
+
+ static constexpr FieldMetadata_HighLatencyContributionStage kHighLatencyContributionStage{};
+ void add_high_latency_contribution_stage(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_HighLatencyContributionStage::kFieldId, data, size);
+ }
+ void add_high_latency_contribution_stage(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_HighLatencyContributionStage::kFieldId, chars.data, chars.size);
+ }
+ void add_high_latency_contribution_stage(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_HighLatencyContributionStage::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/track_event/chrome_histogram_sample.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_HISTOGRAM_SAMPLE_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_HISTOGRAM_SAMPLE_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class ChromeHistogramSample_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ChromeHistogramSample_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ChromeHistogramSample_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ChromeHistogramSample_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_name_hash() const { return at<1>().valid(); }
+ uint64_t name_hash() const { return at<1>().as_uint64(); }
+ bool has_name() const { return at<2>().valid(); }
+ ::protozero::ConstChars name() const { return at<2>().as_string(); }
+ bool has_sample() const { return at<3>().valid(); }
+ int64_t sample() const { return at<3>().as_int64(); }
+ bool has_name_iid() const { return at<4>().valid(); }
+ uint64_t name_iid() const { return at<4>().as_uint64(); }
+};
+
+class ChromeHistogramSample : public ::protozero::Message {
+ public:
+ using Decoder = ChromeHistogramSample_Decoder;
+ enum : int32_t {
+ kNameHashFieldNumber = 1,
+ kNameFieldNumber = 2,
+ kSampleFieldNumber = 3,
+ kNameIidFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ChromeHistogramSample"; }
+
+
+ using FieldMetadata_NameHash =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ChromeHistogramSample>;
+
+ static constexpr FieldMetadata_NameHash kNameHash{};
+ void set_name_hash(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NameHash::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ChromeHistogramSample>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Sample =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ ChromeHistogramSample>;
+
+ static constexpr FieldMetadata_Sample kSample{};
+ void set_sample(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Sample::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NameIid =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ChromeHistogramSample>;
+
+ static constexpr FieldMetadata_NameIid kNameIid{};
+ void set_name_iid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NameIid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class HistogramName_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ HistogramName_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit HistogramName_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit HistogramName_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_iid() const { return at<1>().valid(); }
+ uint64_t iid() const { return at<1>().as_uint64(); }
+ bool has_name() const { return at<2>().valid(); }
+ ::protozero::ConstChars name() const { return at<2>().as_string(); }
+};
+
+class HistogramName : public ::protozero::Message {
+ public:
+ using Decoder = HistogramName_Decoder;
+ enum : int32_t {
+ kIidFieldNumber = 1,
+ kNameFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.HistogramName"; }
+
+
+ using FieldMetadata_Iid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ HistogramName>;
+
+ static constexpr FieldMetadata_Iid kIid{};
+ void set_iid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Iid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ HistogramName>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/track_event/chrome_keyed_service.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_KEYED_SERVICE_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_KEYED_SERVICE_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class ChromeKeyedService_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ChromeKeyedService_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ChromeKeyedService_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ChromeKeyedService_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars name() const { return at<1>().as_string(); }
+};
+
+class ChromeKeyedService : public ::protozero::Message {
+ public:
+ using Decoder = ChromeKeyedService_Decoder;
+ enum : int32_t {
+ kNameFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ChromeKeyedService"; }
+
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ChromeKeyedService>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/track_event/chrome_latency_info.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_LATENCY_INFO_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_LATENCY_INFO_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class ChromeLatencyInfo_ComponentInfo;
+namespace perfetto_pbzero_enum_ChromeLatencyInfo {
+enum LatencyComponentType : int32_t;
+} // namespace perfetto_pbzero_enum_ChromeLatencyInfo
+using ChromeLatencyInfo_LatencyComponentType = perfetto_pbzero_enum_ChromeLatencyInfo::LatencyComponentType;
+namespace perfetto_pbzero_enum_ChromeLatencyInfo {
+enum Step : int32_t;
+} // namespace perfetto_pbzero_enum_ChromeLatencyInfo
+using ChromeLatencyInfo_Step = perfetto_pbzero_enum_ChromeLatencyInfo::Step;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+namespace perfetto_pbzero_enum_ChromeLatencyInfo {
+enum Step : int32_t {
+ STEP_UNSPECIFIED = 0,
+ STEP_SEND_INPUT_EVENT_UI = 3,
+ STEP_HANDLE_INPUT_EVENT_IMPL = 5,
+ STEP_DID_HANDLE_INPUT_AND_OVERSCROLL = 8,
+ STEP_HANDLE_INPUT_EVENT_MAIN = 4,
+ STEP_MAIN_THREAD_SCROLL_UPDATE = 2,
+ STEP_HANDLE_INPUT_EVENT_MAIN_COMMIT = 1,
+ STEP_HANDLED_INPUT_EVENT_MAIN_OR_IMPL = 9,
+ STEP_HANDLED_INPUT_EVENT_IMPL = 10,
+ STEP_SWAP_BUFFERS = 6,
+ STEP_DRAW_AND_SWAP = 7,
+ STEP_FINISHED_SWAP_BUFFERS = 11,
+};
+} // namespace perfetto_pbzero_enum_ChromeLatencyInfo
+using ChromeLatencyInfo_Step = perfetto_pbzero_enum_ChromeLatencyInfo::Step;
+
+
+constexpr ChromeLatencyInfo_Step ChromeLatencyInfo_Step_MIN = ChromeLatencyInfo_Step::STEP_UNSPECIFIED;
+constexpr ChromeLatencyInfo_Step ChromeLatencyInfo_Step_MAX = ChromeLatencyInfo_Step::STEP_FINISHED_SWAP_BUFFERS;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* ChromeLatencyInfo_Step_Name(::perfetto::protos::pbzero::ChromeLatencyInfo_Step value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::ChromeLatencyInfo_Step::STEP_UNSPECIFIED:
+ return "STEP_UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::ChromeLatencyInfo_Step::STEP_SEND_INPUT_EVENT_UI:
+ return "STEP_SEND_INPUT_EVENT_UI";
+
+ case ::perfetto::protos::pbzero::ChromeLatencyInfo_Step::STEP_HANDLE_INPUT_EVENT_IMPL:
+ return "STEP_HANDLE_INPUT_EVENT_IMPL";
+
+ case ::perfetto::protos::pbzero::ChromeLatencyInfo_Step::STEP_DID_HANDLE_INPUT_AND_OVERSCROLL:
+ return "STEP_DID_HANDLE_INPUT_AND_OVERSCROLL";
+
+ case ::perfetto::protos::pbzero::ChromeLatencyInfo_Step::STEP_HANDLE_INPUT_EVENT_MAIN:
+ return "STEP_HANDLE_INPUT_EVENT_MAIN";
+
+ case ::perfetto::protos::pbzero::ChromeLatencyInfo_Step::STEP_MAIN_THREAD_SCROLL_UPDATE:
+ return "STEP_MAIN_THREAD_SCROLL_UPDATE";
+
+ case ::perfetto::protos::pbzero::ChromeLatencyInfo_Step::STEP_HANDLE_INPUT_EVENT_MAIN_COMMIT:
+ return "STEP_HANDLE_INPUT_EVENT_MAIN_COMMIT";
+
+ case ::perfetto::protos::pbzero::ChromeLatencyInfo_Step::STEP_HANDLED_INPUT_EVENT_MAIN_OR_IMPL:
+ return "STEP_HANDLED_INPUT_EVENT_MAIN_OR_IMPL";
+
+ case ::perfetto::protos::pbzero::ChromeLatencyInfo_Step::STEP_HANDLED_INPUT_EVENT_IMPL:
+ return "STEP_HANDLED_INPUT_EVENT_IMPL";
+
+ case ::perfetto::protos::pbzero::ChromeLatencyInfo_Step::STEP_SWAP_BUFFERS:
+ return "STEP_SWAP_BUFFERS";
+
+ case ::perfetto::protos::pbzero::ChromeLatencyInfo_Step::STEP_DRAW_AND_SWAP:
+ return "STEP_DRAW_AND_SWAP";
+
+ case ::perfetto::protos::pbzero::ChromeLatencyInfo_Step::STEP_FINISHED_SWAP_BUFFERS:
+ return "STEP_FINISHED_SWAP_BUFFERS";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_ChromeLatencyInfo {
+enum LatencyComponentType : int32_t {
+ COMPONENT_UNSPECIFIED = 0,
+ COMPONENT_INPUT_EVENT_LATENCY_BEGIN_RWH = 1,
+ COMPONENT_INPUT_EVENT_LATENCY_SCROLL_UPDATE_ORIGINAL = 2,
+ COMPONENT_INPUT_EVENT_LATENCY_FIRST_SCROLL_UPDATE_ORIGINAL = 3,
+ COMPONENT_INPUT_EVENT_LATENCY_ORIGINAL = 4,
+ COMPONENT_INPUT_EVENT_LATENCY_UI = 5,
+ COMPONENT_INPUT_EVENT_LATENCY_RENDERER_MAIN = 6,
+ COMPONENT_INPUT_EVENT_LATENCY_RENDERING_SCHEDULED_MAIN = 7,
+ COMPONENT_INPUT_EVENT_LATENCY_RENDERING_SCHEDULED_IMPL = 8,
+ COMPONENT_INPUT_EVENT_LATENCY_SCROLL_UPDATE_LAST_EVENT = 9,
+ COMPONENT_INPUT_EVENT_LATENCY_ACK_RWH = 10,
+ COMPONENT_INPUT_EVENT_LATENCY_RENDERER_SWAP = 11,
+ COMPONENT_DISPLAY_COMPOSITOR_RECEIVED_FRAME = 12,
+ COMPONENT_INPUT_EVENT_GPU_SWAP_BUFFER = 13,
+ COMPONENT_INPUT_EVENT_LATENCY_FRAME_SWAP = 14,
+};
+} // namespace perfetto_pbzero_enum_ChromeLatencyInfo
+using ChromeLatencyInfo_LatencyComponentType = perfetto_pbzero_enum_ChromeLatencyInfo::LatencyComponentType;
+
+
+constexpr ChromeLatencyInfo_LatencyComponentType ChromeLatencyInfo_LatencyComponentType_MIN = ChromeLatencyInfo_LatencyComponentType::COMPONENT_UNSPECIFIED;
+constexpr ChromeLatencyInfo_LatencyComponentType ChromeLatencyInfo_LatencyComponentType_MAX = ChromeLatencyInfo_LatencyComponentType::COMPONENT_INPUT_EVENT_LATENCY_FRAME_SWAP;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* ChromeLatencyInfo_LatencyComponentType_Name(::perfetto::protos::pbzero::ChromeLatencyInfo_LatencyComponentType value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::ChromeLatencyInfo_LatencyComponentType::COMPONENT_UNSPECIFIED:
+ return "COMPONENT_UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::ChromeLatencyInfo_LatencyComponentType::COMPONENT_INPUT_EVENT_LATENCY_BEGIN_RWH:
+ return "COMPONENT_INPUT_EVENT_LATENCY_BEGIN_RWH";
+
+ case ::perfetto::protos::pbzero::ChromeLatencyInfo_LatencyComponentType::COMPONENT_INPUT_EVENT_LATENCY_SCROLL_UPDATE_ORIGINAL:
+ return "COMPONENT_INPUT_EVENT_LATENCY_SCROLL_UPDATE_ORIGINAL";
+
+ case ::perfetto::protos::pbzero::ChromeLatencyInfo_LatencyComponentType::COMPONENT_INPUT_EVENT_LATENCY_FIRST_SCROLL_UPDATE_ORIGINAL:
+ return "COMPONENT_INPUT_EVENT_LATENCY_FIRST_SCROLL_UPDATE_ORIGINAL";
+
+ case ::perfetto::protos::pbzero::ChromeLatencyInfo_LatencyComponentType::COMPONENT_INPUT_EVENT_LATENCY_ORIGINAL:
+ return "COMPONENT_INPUT_EVENT_LATENCY_ORIGINAL";
+
+ case ::perfetto::protos::pbzero::ChromeLatencyInfo_LatencyComponentType::COMPONENT_INPUT_EVENT_LATENCY_UI:
+ return "COMPONENT_INPUT_EVENT_LATENCY_UI";
+
+ case ::perfetto::protos::pbzero::ChromeLatencyInfo_LatencyComponentType::COMPONENT_INPUT_EVENT_LATENCY_RENDERER_MAIN:
+ return "COMPONENT_INPUT_EVENT_LATENCY_RENDERER_MAIN";
+
+ case ::perfetto::protos::pbzero::ChromeLatencyInfo_LatencyComponentType::COMPONENT_INPUT_EVENT_LATENCY_RENDERING_SCHEDULED_MAIN:
+ return "COMPONENT_INPUT_EVENT_LATENCY_RENDERING_SCHEDULED_MAIN";
+
+ case ::perfetto::protos::pbzero::ChromeLatencyInfo_LatencyComponentType::COMPONENT_INPUT_EVENT_LATENCY_RENDERING_SCHEDULED_IMPL:
+ return "COMPONENT_INPUT_EVENT_LATENCY_RENDERING_SCHEDULED_IMPL";
+
+ case ::perfetto::protos::pbzero::ChromeLatencyInfo_LatencyComponentType::COMPONENT_INPUT_EVENT_LATENCY_SCROLL_UPDATE_LAST_EVENT:
+ return "COMPONENT_INPUT_EVENT_LATENCY_SCROLL_UPDATE_LAST_EVENT";
+
+ case ::perfetto::protos::pbzero::ChromeLatencyInfo_LatencyComponentType::COMPONENT_INPUT_EVENT_LATENCY_ACK_RWH:
+ return "COMPONENT_INPUT_EVENT_LATENCY_ACK_RWH";
+
+ case ::perfetto::protos::pbzero::ChromeLatencyInfo_LatencyComponentType::COMPONENT_INPUT_EVENT_LATENCY_RENDERER_SWAP:
+ return "COMPONENT_INPUT_EVENT_LATENCY_RENDERER_SWAP";
+
+ case ::perfetto::protos::pbzero::ChromeLatencyInfo_LatencyComponentType::COMPONENT_DISPLAY_COMPOSITOR_RECEIVED_FRAME:
+ return "COMPONENT_DISPLAY_COMPOSITOR_RECEIVED_FRAME";
+
+ case ::perfetto::protos::pbzero::ChromeLatencyInfo_LatencyComponentType::COMPONENT_INPUT_EVENT_GPU_SWAP_BUFFER:
+ return "COMPONENT_INPUT_EVENT_GPU_SWAP_BUFFER";
+
+ case ::perfetto::protos::pbzero::ChromeLatencyInfo_LatencyComponentType::COMPONENT_INPUT_EVENT_LATENCY_FRAME_SWAP:
+ return "COMPONENT_INPUT_EVENT_LATENCY_FRAME_SWAP";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+class ChromeLatencyInfo_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/7, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ ChromeLatencyInfo_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ChromeLatencyInfo_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ChromeLatencyInfo_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_trace_id() const { return at<1>().valid(); }
+ int64_t trace_id() const { return at<1>().as_int64(); }
+ bool has_step() const { return at<2>().valid(); }
+ int32_t step() const { return at<2>().as_int32(); }
+ bool has_frame_tree_node_id() const { return at<3>().valid(); }
+ int32_t frame_tree_node_id() const { return at<3>().as_int32(); }
+ bool has_component_info() const { return at<4>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> component_info() const { return GetRepeated<::protozero::ConstBytes>(4); }
+ bool has_is_coalesced() const { return at<5>().valid(); }
+ bool is_coalesced() const { return at<5>().as_bool(); }
+ bool has_gesture_scroll_id() const { return at<6>().valid(); }
+ int64_t gesture_scroll_id() const { return at<6>().as_int64(); }
+ bool has_touch_id() const { return at<7>().valid(); }
+ int64_t touch_id() const { return at<7>().as_int64(); }
+};
+
+class ChromeLatencyInfo : public ::protozero::Message {
+ public:
+ using Decoder = ChromeLatencyInfo_Decoder;
+ enum : int32_t {
+ kTraceIdFieldNumber = 1,
+ kStepFieldNumber = 2,
+ kFrameTreeNodeIdFieldNumber = 3,
+ kComponentInfoFieldNumber = 4,
+ kIsCoalescedFieldNumber = 5,
+ kGestureScrollIdFieldNumber = 6,
+ kTouchIdFieldNumber = 7,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ChromeLatencyInfo"; }
+
+ using ComponentInfo = ::perfetto::protos::pbzero::ChromeLatencyInfo_ComponentInfo;
+
+ using Step = ::perfetto::protos::pbzero::ChromeLatencyInfo_Step;
+ static inline const char* Step_Name(Step value) {
+ return ::perfetto::protos::pbzero::ChromeLatencyInfo_Step_Name(value);
+ }
+
+ using LatencyComponentType = ::perfetto::protos::pbzero::ChromeLatencyInfo_LatencyComponentType;
+ static inline const char* LatencyComponentType_Name(LatencyComponentType value) {
+ return ::perfetto::protos::pbzero::ChromeLatencyInfo_LatencyComponentType_Name(value);
+ }
+ static inline const Step STEP_UNSPECIFIED = Step::STEP_UNSPECIFIED;
+ static inline const Step STEP_SEND_INPUT_EVENT_UI = Step::STEP_SEND_INPUT_EVENT_UI;
+ static inline const Step STEP_HANDLE_INPUT_EVENT_IMPL = Step::STEP_HANDLE_INPUT_EVENT_IMPL;
+ static inline const Step STEP_DID_HANDLE_INPUT_AND_OVERSCROLL = Step::STEP_DID_HANDLE_INPUT_AND_OVERSCROLL;
+ static inline const Step STEP_HANDLE_INPUT_EVENT_MAIN = Step::STEP_HANDLE_INPUT_EVENT_MAIN;
+ static inline const Step STEP_MAIN_THREAD_SCROLL_UPDATE = Step::STEP_MAIN_THREAD_SCROLL_UPDATE;
+ static inline const Step STEP_HANDLE_INPUT_EVENT_MAIN_COMMIT = Step::STEP_HANDLE_INPUT_EVENT_MAIN_COMMIT;
+ static inline const Step STEP_HANDLED_INPUT_EVENT_MAIN_OR_IMPL = Step::STEP_HANDLED_INPUT_EVENT_MAIN_OR_IMPL;
+ static inline const Step STEP_HANDLED_INPUT_EVENT_IMPL = Step::STEP_HANDLED_INPUT_EVENT_IMPL;
+ static inline const Step STEP_SWAP_BUFFERS = Step::STEP_SWAP_BUFFERS;
+ static inline const Step STEP_DRAW_AND_SWAP = Step::STEP_DRAW_AND_SWAP;
+ static inline const Step STEP_FINISHED_SWAP_BUFFERS = Step::STEP_FINISHED_SWAP_BUFFERS;
+ static inline const LatencyComponentType COMPONENT_UNSPECIFIED = LatencyComponentType::COMPONENT_UNSPECIFIED;
+ static inline const LatencyComponentType COMPONENT_INPUT_EVENT_LATENCY_BEGIN_RWH = LatencyComponentType::COMPONENT_INPUT_EVENT_LATENCY_BEGIN_RWH;
+ static inline const LatencyComponentType COMPONENT_INPUT_EVENT_LATENCY_SCROLL_UPDATE_ORIGINAL = LatencyComponentType::COMPONENT_INPUT_EVENT_LATENCY_SCROLL_UPDATE_ORIGINAL;
+ static inline const LatencyComponentType COMPONENT_INPUT_EVENT_LATENCY_FIRST_SCROLL_UPDATE_ORIGINAL = LatencyComponentType::COMPONENT_INPUT_EVENT_LATENCY_FIRST_SCROLL_UPDATE_ORIGINAL;
+ static inline const LatencyComponentType COMPONENT_INPUT_EVENT_LATENCY_ORIGINAL = LatencyComponentType::COMPONENT_INPUT_EVENT_LATENCY_ORIGINAL;
+ static inline const LatencyComponentType COMPONENT_INPUT_EVENT_LATENCY_UI = LatencyComponentType::COMPONENT_INPUT_EVENT_LATENCY_UI;
+ static inline const LatencyComponentType COMPONENT_INPUT_EVENT_LATENCY_RENDERER_MAIN = LatencyComponentType::COMPONENT_INPUT_EVENT_LATENCY_RENDERER_MAIN;
+ static inline const LatencyComponentType COMPONENT_INPUT_EVENT_LATENCY_RENDERING_SCHEDULED_MAIN = LatencyComponentType::COMPONENT_INPUT_EVENT_LATENCY_RENDERING_SCHEDULED_MAIN;
+ static inline const LatencyComponentType COMPONENT_INPUT_EVENT_LATENCY_RENDERING_SCHEDULED_IMPL = LatencyComponentType::COMPONENT_INPUT_EVENT_LATENCY_RENDERING_SCHEDULED_IMPL;
+ static inline const LatencyComponentType COMPONENT_INPUT_EVENT_LATENCY_SCROLL_UPDATE_LAST_EVENT = LatencyComponentType::COMPONENT_INPUT_EVENT_LATENCY_SCROLL_UPDATE_LAST_EVENT;
+ static inline const LatencyComponentType COMPONENT_INPUT_EVENT_LATENCY_ACK_RWH = LatencyComponentType::COMPONENT_INPUT_EVENT_LATENCY_ACK_RWH;
+ static inline const LatencyComponentType COMPONENT_INPUT_EVENT_LATENCY_RENDERER_SWAP = LatencyComponentType::COMPONENT_INPUT_EVENT_LATENCY_RENDERER_SWAP;
+ static inline const LatencyComponentType COMPONENT_DISPLAY_COMPOSITOR_RECEIVED_FRAME = LatencyComponentType::COMPONENT_DISPLAY_COMPOSITOR_RECEIVED_FRAME;
+ static inline const LatencyComponentType COMPONENT_INPUT_EVENT_GPU_SWAP_BUFFER = LatencyComponentType::COMPONENT_INPUT_EVENT_GPU_SWAP_BUFFER;
+ static inline const LatencyComponentType COMPONENT_INPUT_EVENT_LATENCY_FRAME_SWAP = LatencyComponentType::COMPONENT_INPUT_EVENT_LATENCY_FRAME_SWAP;
+
+ using FieldMetadata_TraceId =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ ChromeLatencyInfo>;
+
+ static constexpr FieldMetadata_TraceId kTraceId{};
+ void set_trace_id(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TraceId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Step =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ ChromeLatencyInfo_Step,
+ ChromeLatencyInfo>;
+
+ static constexpr FieldMetadata_Step kStep{};
+ void set_step(ChromeLatencyInfo_Step value) {
+ static constexpr uint32_t field_id = FieldMetadata_Step::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FrameTreeNodeId =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ ChromeLatencyInfo>;
+
+ static constexpr FieldMetadata_FrameTreeNodeId kFrameTreeNodeId{};
+ void set_frame_tree_node_id(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FrameTreeNodeId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ComponentInfo =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ChromeLatencyInfo_ComponentInfo,
+ ChromeLatencyInfo>;
+
+ static constexpr FieldMetadata_ComponentInfo kComponentInfo{};
+ template <typename T = ChromeLatencyInfo_ComponentInfo> T* add_component_info() {
+ return BeginNestedMessage<T>(4);
+ }
+
+
+ using FieldMetadata_IsCoalesced =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ChromeLatencyInfo>;
+
+ static constexpr FieldMetadata_IsCoalesced kIsCoalesced{};
+ void set_is_coalesced(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_IsCoalesced::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_GestureScrollId =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ ChromeLatencyInfo>;
+
+ static constexpr FieldMetadata_GestureScrollId kGestureScrollId{};
+ void set_gesture_scroll_id(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_GestureScrollId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TouchId =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ ChromeLatencyInfo>;
+
+ static constexpr FieldMetadata_TouchId kTouchId{};
+ void set_touch_id(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TouchId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class ChromeLatencyInfo_ComponentInfo_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ChromeLatencyInfo_ComponentInfo_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ChromeLatencyInfo_ComponentInfo_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ChromeLatencyInfo_ComponentInfo_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_component_type() const { return at<1>().valid(); }
+ int32_t component_type() const { return at<1>().as_int32(); }
+ bool has_time_us() const { return at<2>().valid(); }
+ uint64_t time_us() const { return at<2>().as_uint64(); }
+};
+
+class ChromeLatencyInfo_ComponentInfo : public ::protozero::Message {
+ public:
+ using Decoder = ChromeLatencyInfo_ComponentInfo_Decoder;
+ enum : int32_t {
+ kComponentTypeFieldNumber = 1,
+ kTimeUsFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ChromeLatencyInfo.ComponentInfo"; }
+
+
+ using FieldMetadata_ComponentType =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ ChromeLatencyInfo_LatencyComponentType,
+ ChromeLatencyInfo_ComponentInfo>;
+
+ static constexpr FieldMetadata_ComponentType kComponentType{};
+ void set_component_type(ChromeLatencyInfo_LatencyComponentType value) {
+ static constexpr uint32_t field_id = FieldMetadata_ComponentType::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimeUs =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ChromeLatencyInfo_ComponentInfo>;
+
+ static constexpr FieldMetadata_TimeUs kTimeUs{};
+ void set_time_us(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimeUs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/track_event/chrome_legacy_ipc.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_LEGACY_IPC_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_LEGACY_IPC_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+namespace perfetto_pbzero_enum_ChromeLegacyIpc {
+enum MessageClass : int32_t;
+} // namespace perfetto_pbzero_enum_ChromeLegacyIpc
+using ChromeLegacyIpc_MessageClass = perfetto_pbzero_enum_ChromeLegacyIpc::MessageClass;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+namespace perfetto_pbzero_enum_ChromeLegacyIpc {
+enum MessageClass : int32_t {
+ CLASS_UNSPECIFIED = 0,
+ CLASS_AUTOMATION = 1,
+ CLASS_FRAME = 2,
+ CLASS_PAGE = 3,
+ CLASS_VIEW = 4,
+ CLASS_WIDGET = 5,
+ CLASS_INPUT = 6,
+ CLASS_TEST = 7,
+ CLASS_WORKER = 8,
+ CLASS_NACL = 9,
+ CLASS_GPU_CHANNEL = 10,
+ CLASS_MEDIA = 11,
+ CLASS_PPAPI = 12,
+ CLASS_CHROME = 13,
+ CLASS_DRAG = 14,
+ CLASS_PRINT = 15,
+ CLASS_EXTENSION = 16,
+ CLASS_TEXT_INPUT_CLIENT = 17,
+ CLASS_BLINK_TEST = 18,
+ CLASS_ACCESSIBILITY = 19,
+ CLASS_PRERENDER = 20,
+ CLASS_CHROMOTING = 21,
+ CLASS_BROWSER_PLUGIN = 22,
+ CLASS_ANDROID_WEB_VIEW = 23,
+ CLASS_NACL_HOST = 24,
+ CLASS_ENCRYPTED_MEDIA = 25,
+ CLASS_CAST = 26,
+ CLASS_GIN_JAVA_BRIDGE = 27,
+ CLASS_CHROME_UTILITY_PRINTING = 28,
+ CLASS_OZONE_GPU = 29,
+ CLASS_WEB_TEST = 30,
+ CLASS_NETWORK_HINTS = 31,
+ CLASS_EXTENSIONS_GUEST_VIEW = 32,
+ CLASS_GUEST_VIEW = 33,
+ CLASS_MEDIA_PLAYER_DELEGATE = 34,
+ CLASS_EXTENSION_WORKER = 35,
+ CLASS_SUBRESOURCE_FILTER = 36,
+ CLASS_UNFREEZABLE_FRAME = 37,
+};
+} // namespace perfetto_pbzero_enum_ChromeLegacyIpc
+using ChromeLegacyIpc_MessageClass = perfetto_pbzero_enum_ChromeLegacyIpc::MessageClass;
+
+
+constexpr ChromeLegacyIpc_MessageClass ChromeLegacyIpc_MessageClass_MIN = ChromeLegacyIpc_MessageClass::CLASS_UNSPECIFIED;
+constexpr ChromeLegacyIpc_MessageClass ChromeLegacyIpc_MessageClass_MAX = ChromeLegacyIpc_MessageClass::CLASS_UNFREEZABLE_FRAME;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* ChromeLegacyIpc_MessageClass_Name(::perfetto::protos::pbzero::ChromeLegacyIpc_MessageClass value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::ChromeLegacyIpc_MessageClass::CLASS_UNSPECIFIED:
+ return "CLASS_UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::ChromeLegacyIpc_MessageClass::CLASS_AUTOMATION:
+ return "CLASS_AUTOMATION";
+
+ case ::perfetto::protos::pbzero::ChromeLegacyIpc_MessageClass::CLASS_FRAME:
+ return "CLASS_FRAME";
+
+ case ::perfetto::protos::pbzero::ChromeLegacyIpc_MessageClass::CLASS_PAGE:
+ return "CLASS_PAGE";
+
+ case ::perfetto::protos::pbzero::ChromeLegacyIpc_MessageClass::CLASS_VIEW:
+ return "CLASS_VIEW";
+
+ case ::perfetto::protos::pbzero::ChromeLegacyIpc_MessageClass::CLASS_WIDGET:
+ return "CLASS_WIDGET";
+
+ case ::perfetto::protos::pbzero::ChromeLegacyIpc_MessageClass::CLASS_INPUT:
+ return "CLASS_INPUT";
+
+ case ::perfetto::protos::pbzero::ChromeLegacyIpc_MessageClass::CLASS_TEST:
+ return "CLASS_TEST";
+
+ case ::perfetto::protos::pbzero::ChromeLegacyIpc_MessageClass::CLASS_WORKER:
+ return "CLASS_WORKER";
+
+ case ::perfetto::protos::pbzero::ChromeLegacyIpc_MessageClass::CLASS_NACL:
+ return "CLASS_NACL";
+
+ case ::perfetto::protos::pbzero::ChromeLegacyIpc_MessageClass::CLASS_GPU_CHANNEL:
+ return "CLASS_GPU_CHANNEL";
+
+ case ::perfetto::protos::pbzero::ChromeLegacyIpc_MessageClass::CLASS_MEDIA:
+ return "CLASS_MEDIA";
+
+ case ::perfetto::protos::pbzero::ChromeLegacyIpc_MessageClass::CLASS_PPAPI:
+ return "CLASS_PPAPI";
+
+ case ::perfetto::protos::pbzero::ChromeLegacyIpc_MessageClass::CLASS_CHROME:
+ return "CLASS_CHROME";
+
+ case ::perfetto::protos::pbzero::ChromeLegacyIpc_MessageClass::CLASS_DRAG:
+ return "CLASS_DRAG";
+
+ case ::perfetto::protos::pbzero::ChromeLegacyIpc_MessageClass::CLASS_PRINT:
+ return "CLASS_PRINT";
+
+ case ::perfetto::protos::pbzero::ChromeLegacyIpc_MessageClass::CLASS_EXTENSION:
+ return "CLASS_EXTENSION";
+
+ case ::perfetto::protos::pbzero::ChromeLegacyIpc_MessageClass::CLASS_TEXT_INPUT_CLIENT:
+ return "CLASS_TEXT_INPUT_CLIENT";
+
+ case ::perfetto::protos::pbzero::ChromeLegacyIpc_MessageClass::CLASS_BLINK_TEST:
+ return "CLASS_BLINK_TEST";
+
+ case ::perfetto::protos::pbzero::ChromeLegacyIpc_MessageClass::CLASS_ACCESSIBILITY:
+ return "CLASS_ACCESSIBILITY";
+
+ case ::perfetto::protos::pbzero::ChromeLegacyIpc_MessageClass::CLASS_PRERENDER:
+ return "CLASS_PRERENDER";
+
+ case ::perfetto::protos::pbzero::ChromeLegacyIpc_MessageClass::CLASS_CHROMOTING:
+ return "CLASS_CHROMOTING";
+
+ case ::perfetto::protos::pbzero::ChromeLegacyIpc_MessageClass::CLASS_BROWSER_PLUGIN:
+ return "CLASS_BROWSER_PLUGIN";
+
+ case ::perfetto::protos::pbzero::ChromeLegacyIpc_MessageClass::CLASS_ANDROID_WEB_VIEW:
+ return "CLASS_ANDROID_WEB_VIEW";
+
+ case ::perfetto::protos::pbzero::ChromeLegacyIpc_MessageClass::CLASS_NACL_HOST:
+ return "CLASS_NACL_HOST";
+
+ case ::perfetto::protos::pbzero::ChromeLegacyIpc_MessageClass::CLASS_ENCRYPTED_MEDIA:
+ return "CLASS_ENCRYPTED_MEDIA";
+
+ case ::perfetto::protos::pbzero::ChromeLegacyIpc_MessageClass::CLASS_CAST:
+ return "CLASS_CAST";
+
+ case ::perfetto::protos::pbzero::ChromeLegacyIpc_MessageClass::CLASS_GIN_JAVA_BRIDGE:
+ return "CLASS_GIN_JAVA_BRIDGE";
+
+ case ::perfetto::protos::pbzero::ChromeLegacyIpc_MessageClass::CLASS_CHROME_UTILITY_PRINTING:
+ return "CLASS_CHROME_UTILITY_PRINTING";
+
+ case ::perfetto::protos::pbzero::ChromeLegacyIpc_MessageClass::CLASS_OZONE_GPU:
+ return "CLASS_OZONE_GPU";
+
+ case ::perfetto::protos::pbzero::ChromeLegacyIpc_MessageClass::CLASS_WEB_TEST:
+ return "CLASS_WEB_TEST";
+
+ case ::perfetto::protos::pbzero::ChromeLegacyIpc_MessageClass::CLASS_NETWORK_HINTS:
+ return "CLASS_NETWORK_HINTS";
+
+ case ::perfetto::protos::pbzero::ChromeLegacyIpc_MessageClass::CLASS_EXTENSIONS_GUEST_VIEW:
+ return "CLASS_EXTENSIONS_GUEST_VIEW";
+
+ case ::perfetto::protos::pbzero::ChromeLegacyIpc_MessageClass::CLASS_GUEST_VIEW:
+ return "CLASS_GUEST_VIEW";
+
+ case ::perfetto::protos::pbzero::ChromeLegacyIpc_MessageClass::CLASS_MEDIA_PLAYER_DELEGATE:
+ return "CLASS_MEDIA_PLAYER_DELEGATE";
+
+ case ::perfetto::protos::pbzero::ChromeLegacyIpc_MessageClass::CLASS_EXTENSION_WORKER:
+ return "CLASS_EXTENSION_WORKER";
+
+ case ::perfetto::protos::pbzero::ChromeLegacyIpc_MessageClass::CLASS_SUBRESOURCE_FILTER:
+ return "CLASS_SUBRESOURCE_FILTER";
+
+ case ::perfetto::protos::pbzero::ChromeLegacyIpc_MessageClass::CLASS_UNFREEZABLE_FRAME:
+ return "CLASS_UNFREEZABLE_FRAME";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+class ChromeLegacyIpc_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ChromeLegacyIpc_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ChromeLegacyIpc_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ChromeLegacyIpc_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_message_class() const { return at<1>().valid(); }
+ int32_t message_class() const { return at<1>().as_int32(); }
+ bool has_message_line() const { return at<2>().valid(); }
+ uint32_t message_line() const { return at<2>().as_uint32(); }
+};
+
+class ChromeLegacyIpc : public ::protozero::Message {
+ public:
+ using Decoder = ChromeLegacyIpc_Decoder;
+ enum : int32_t {
+ kMessageClassFieldNumber = 1,
+ kMessageLineFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ChromeLegacyIpc"; }
+
+
+ using MessageClass = ::perfetto::protos::pbzero::ChromeLegacyIpc_MessageClass;
+ static inline const char* MessageClass_Name(MessageClass value) {
+ return ::perfetto::protos::pbzero::ChromeLegacyIpc_MessageClass_Name(value);
+ }
+ static inline const MessageClass CLASS_UNSPECIFIED = MessageClass::CLASS_UNSPECIFIED;
+ static inline const MessageClass CLASS_AUTOMATION = MessageClass::CLASS_AUTOMATION;
+ static inline const MessageClass CLASS_FRAME = MessageClass::CLASS_FRAME;
+ static inline const MessageClass CLASS_PAGE = MessageClass::CLASS_PAGE;
+ static inline const MessageClass CLASS_VIEW = MessageClass::CLASS_VIEW;
+ static inline const MessageClass CLASS_WIDGET = MessageClass::CLASS_WIDGET;
+ static inline const MessageClass CLASS_INPUT = MessageClass::CLASS_INPUT;
+ static inline const MessageClass CLASS_TEST = MessageClass::CLASS_TEST;
+ static inline const MessageClass CLASS_WORKER = MessageClass::CLASS_WORKER;
+ static inline const MessageClass CLASS_NACL = MessageClass::CLASS_NACL;
+ static inline const MessageClass CLASS_GPU_CHANNEL = MessageClass::CLASS_GPU_CHANNEL;
+ static inline const MessageClass CLASS_MEDIA = MessageClass::CLASS_MEDIA;
+ static inline const MessageClass CLASS_PPAPI = MessageClass::CLASS_PPAPI;
+ static inline const MessageClass CLASS_CHROME = MessageClass::CLASS_CHROME;
+ static inline const MessageClass CLASS_DRAG = MessageClass::CLASS_DRAG;
+ static inline const MessageClass CLASS_PRINT = MessageClass::CLASS_PRINT;
+ static inline const MessageClass CLASS_EXTENSION = MessageClass::CLASS_EXTENSION;
+ static inline const MessageClass CLASS_TEXT_INPUT_CLIENT = MessageClass::CLASS_TEXT_INPUT_CLIENT;
+ static inline const MessageClass CLASS_BLINK_TEST = MessageClass::CLASS_BLINK_TEST;
+ static inline const MessageClass CLASS_ACCESSIBILITY = MessageClass::CLASS_ACCESSIBILITY;
+ static inline const MessageClass CLASS_PRERENDER = MessageClass::CLASS_PRERENDER;
+ static inline const MessageClass CLASS_CHROMOTING = MessageClass::CLASS_CHROMOTING;
+ static inline const MessageClass CLASS_BROWSER_PLUGIN = MessageClass::CLASS_BROWSER_PLUGIN;
+ static inline const MessageClass CLASS_ANDROID_WEB_VIEW = MessageClass::CLASS_ANDROID_WEB_VIEW;
+ static inline const MessageClass CLASS_NACL_HOST = MessageClass::CLASS_NACL_HOST;
+ static inline const MessageClass CLASS_ENCRYPTED_MEDIA = MessageClass::CLASS_ENCRYPTED_MEDIA;
+ static inline const MessageClass CLASS_CAST = MessageClass::CLASS_CAST;
+ static inline const MessageClass CLASS_GIN_JAVA_BRIDGE = MessageClass::CLASS_GIN_JAVA_BRIDGE;
+ static inline const MessageClass CLASS_CHROME_UTILITY_PRINTING = MessageClass::CLASS_CHROME_UTILITY_PRINTING;
+ static inline const MessageClass CLASS_OZONE_GPU = MessageClass::CLASS_OZONE_GPU;
+ static inline const MessageClass CLASS_WEB_TEST = MessageClass::CLASS_WEB_TEST;
+ static inline const MessageClass CLASS_NETWORK_HINTS = MessageClass::CLASS_NETWORK_HINTS;
+ static inline const MessageClass CLASS_EXTENSIONS_GUEST_VIEW = MessageClass::CLASS_EXTENSIONS_GUEST_VIEW;
+ static inline const MessageClass CLASS_GUEST_VIEW = MessageClass::CLASS_GUEST_VIEW;
+ static inline const MessageClass CLASS_MEDIA_PLAYER_DELEGATE = MessageClass::CLASS_MEDIA_PLAYER_DELEGATE;
+ static inline const MessageClass CLASS_EXTENSION_WORKER = MessageClass::CLASS_EXTENSION_WORKER;
+ static inline const MessageClass CLASS_SUBRESOURCE_FILTER = MessageClass::CLASS_SUBRESOURCE_FILTER;
+ static inline const MessageClass CLASS_UNFREEZABLE_FRAME = MessageClass::CLASS_UNFREEZABLE_FRAME;
+
+ using FieldMetadata_MessageClass =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ ChromeLegacyIpc_MessageClass,
+ ChromeLegacyIpc>;
+
+ static constexpr FieldMetadata_MessageClass kMessageClass{};
+ void set_message_class(ChromeLegacyIpc_MessageClass value) {
+ static constexpr uint32_t field_id = FieldMetadata_MessageClass::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MessageLine =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ ChromeLegacyIpc>;
+
+ static constexpr FieldMetadata_MessageLine kMessageLine{};
+ void set_message_line(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MessageLine::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/track_event/chrome_message_pump.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_MESSAGE_PUMP_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_MESSAGE_PUMP_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class ChromeMessagePump_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ChromeMessagePump_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ChromeMessagePump_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ChromeMessagePump_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_sent_messages_in_queue() const { return at<1>().valid(); }
+ bool sent_messages_in_queue() const { return at<1>().as_bool(); }
+ bool has_io_handler_location_iid() const { return at<2>().valid(); }
+ uint64_t io_handler_location_iid() const { return at<2>().as_uint64(); }
+};
+
+class ChromeMessagePump : public ::protozero::Message {
+ public:
+ using Decoder = ChromeMessagePump_Decoder;
+ enum : int32_t {
+ kSentMessagesInQueueFieldNumber = 1,
+ kIoHandlerLocationIidFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ChromeMessagePump"; }
+
+
+ using FieldMetadata_SentMessagesInQueue =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ChromeMessagePump>;
+
+ static constexpr FieldMetadata_SentMessagesInQueue kSentMessagesInQueue{};
+ void set_sent_messages_in_queue(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_SentMessagesInQueue::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IoHandlerLocationIid =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ChromeMessagePump>;
+
+ static constexpr FieldMetadata_IoHandlerLocationIid kIoHandlerLocationIid{};
+ void set_io_handler_location_iid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_IoHandlerLocationIid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/track_event/chrome_mojo_event_info.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_MOJO_EVENT_INFO_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_MOJO_EVENT_INFO_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class ChromeMojoEventInfo_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/7, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ChromeMojoEventInfo_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ChromeMojoEventInfo_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ChromeMojoEventInfo_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_watcher_notify_interface_tag() const { return at<1>().valid(); }
+ ::protozero::ConstChars watcher_notify_interface_tag() const { return at<1>().as_string(); }
+ bool has_ipc_hash() const { return at<2>().valid(); }
+ uint32_t ipc_hash() const { return at<2>().as_uint32(); }
+ bool has_mojo_interface_tag() const { return at<3>().valid(); }
+ ::protozero::ConstChars mojo_interface_tag() const { return at<3>().as_string(); }
+ bool has_mojo_interface_method_iid() const { return at<4>().valid(); }
+ uint64_t mojo_interface_method_iid() const { return at<4>().as_uint64(); }
+ bool has_is_reply() const { return at<5>().valid(); }
+ bool is_reply() const { return at<5>().as_bool(); }
+ bool has_payload_size() const { return at<6>().valid(); }
+ uint64_t payload_size() const { return at<6>().as_uint64(); }
+ bool has_data_num_bytes() const { return at<7>().valid(); }
+ uint64_t data_num_bytes() const { return at<7>().as_uint64(); }
+};
+
+class ChromeMojoEventInfo : public ::protozero::Message {
+ public:
+ using Decoder = ChromeMojoEventInfo_Decoder;
+ enum : int32_t {
+ kWatcherNotifyInterfaceTagFieldNumber = 1,
+ kIpcHashFieldNumber = 2,
+ kMojoInterfaceTagFieldNumber = 3,
+ kMojoInterfaceMethodIidFieldNumber = 4,
+ kIsReplyFieldNumber = 5,
+ kPayloadSizeFieldNumber = 6,
+ kDataNumBytesFieldNumber = 7,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ChromeMojoEventInfo"; }
+
+
+ using FieldMetadata_WatcherNotifyInterfaceTag =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ChromeMojoEventInfo>;
+
+ static constexpr FieldMetadata_WatcherNotifyInterfaceTag kWatcherNotifyInterfaceTag{};
+ void set_watcher_notify_interface_tag(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_WatcherNotifyInterfaceTag::kFieldId, data, size);
+ }
+ void set_watcher_notify_interface_tag(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_WatcherNotifyInterfaceTag::kFieldId, chars.data, chars.size);
+ }
+ void set_watcher_notify_interface_tag(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_WatcherNotifyInterfaceTag::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IpcHash =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ ChromeMojoEventInfo>;
+
+ static constexpr FieldMetadata_IpcHash kIpcHash{};
+ void set_ipc_hash(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_IpcHash::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MojoInterfaceTag =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ChromeMojoEventInfo>;
+
+ static constexpr FieldMetadata_MojoInterfaceTag kMojoInterfaceTag{};
+ void set_mojo_interface_tag(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_MojoInterfaceTag::kFieldId, data, size);
+ }
+ void set_mojo_interface_tag(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_MojoInterfaceTag::kFieldId, chars.data, chars.size);
+ }
+ void set_mojo_interface_tag(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_MojoInterfaceTag::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MojoInterfaceMethodIid =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ChromeMojoEventInfo>;
+
+ static constexpr FieldMetadata_MojoInterfaceMethodIid kMojoInterfaceMethodIid{};
+ void set_mojo_interface_method_iid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MojoInterfaceMethodIid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IsReply =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ChromeMojoEventInfo>;
+
+ static constexpr FieldMetadata_IsReply kIsReply{};
+ void set_is_reply(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_IsReply::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PayloadSize =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ChromeMojoEventInfo>;
+
+ static constexpr FieldMetadata_PayloadSize kPayloadSize{};
+ void set_payload_size(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PayloadSize::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DataNumBytes =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ChromeMojoEventInfo>;
+
+ static constexpr FieldMetadata_DataNumBytes kDataNumBytes{};
+ void set_data_num_bytes(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DataNumBytes::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/track_event/chrome_process_descriptor.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_PROCESS_DESCRIPTOR_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_PROCESS_DESCRIPTOR_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+namespace perfetto_pbzero_enum_ChromeProcessDescriptor {
+enum ProcessType : int32_t;
+} // namespace perfetto_pbzero_enum_ChromeProcessDescriptor
+using ChromeProcessDescriptor_ProcessType = perfetto_pbzero_enum_ChromeProcessDescriptor::ProcessType;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+namespace perfetto_pbzero_enum_ChromeProcessDescriptor {
+enum ProcessType : int32_t {
+ PROCESS_UNSPECIFIED = 0,
+ PROCESS_BROWSER = 1,
+ PROCESS_RENDERER = 2,
+ PROCESS_UTILITY = 3,
+ PROCESS_ZYGOTE = 4,
+ PROCESS_SANDBOX_HELPER = 5,
+ PROCESS_GPU = 6,
+ PROCESS_PPAPI_PLUGIN = 7,
+ PROCESS_PPAPI_BROKER = 8,
+ PROCESS_SERVICE_NETWORK = 9,
+ PROCESS_SERVICE_TRACING = 10,
+ PROCESS_SERVICE_STORAGE = 11,
+ PROCESS_SERVICE_AUDIO = 12,
+ PROCESS_SERVICE_DATA_DECODER = 13,
+ PROCESS_SERVICE_UTIL_WIN = 14,
+ PROCESS_SERVICE_PROXY_RESOLVER = 15,
+ PROCESS_SERVICE_CDM = 16,
+ PROCESS_SERVICE_VIDEO_CAPTURE = 17,
+ PROCESS_SERVICE_UNZIPPER = 18,
+ PROCESS_SERVICE_MIRRORING = 19,
+ PROCESS_SERVICE_FILEPATCHER = 20,
+ PROCESS_SERVICE_TTS = 21,
+ PROCESS_SERVICE_PRINTING = 22,
+ PROCESS_SERVICE_QUARANTINE = 23,
+ PROCESS_SERVICE_CROS_LOCALSEARCH = 24,
+ PROCESS_SERVICE_CROS_ASSISTANT_AUDIO_DECODER = 25,
+ PROCESS_SERVICE_FILEUTIL = 26,
+ PROCESS_SERVICE_PRINTCOMPOSITOR = 27,
+ PROCESS_SERVICE_PAINTPREVIEW = 28,
+ PROCESS_SERVICE_SPEECHRECOGNITION = 29,
+ PROCESS_SERVICE_XRDEVICE = 30,
+ PROCESS_SERVICE_READICON = 31,
+ PROCESS_SERVICE_LANGUAGEDETECTION = 32,
+ PROCESS_SERVICE_SHARING = 33,
+ PROCESS_SERVICE_MEDIAPARSER = 34,
+ PROCESS_SERVICE_QRCODEGENERATOR = 35,
+ PROCESS_SERVICE_PROFILEIMPORT = 36,
+ PROCESS_SERVICE_IME = 37,
+ PROCESS_SERVICE_RECORDING = 38,
+ PROCESS_SERVICE_SHAPEDETECTION = 39,
+ PROCESS_RENDERER_EXTENSION = 40,
+ PROCESS_SERVICE_MEDIA_FOUNDATION = 41,
+};
+} // namespace perfetto_pbzero_enum_ChromeProcessDescriptor
+using ChromeProcessDescriptor_ProcessType = perfetto_pbzero_enum_ChromeProcessDescriptor::ProcessType;
+
+
+constexpr ChromeProcessDescriptor_ProcessType ChromeProcessDescriptor_ProcessType_MIN = ChromeProcessDescriptor_ProcessType::PROCESS_UNSPECIFIED;
+constexpr ChromeProcessDescriptor_ProcessType ChromeProcessDescriptor_ProcessType_MAX = ChromeProcessDescriptor_ProcessType::PROCESS_SERVICE_MEDIA_FOUNDATION;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* ChromeProcessDescriptor_ProcessType_Name(::perfetto::protos::pbzero::ChromeProcessDescriptor_ProcessType value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::ChromeProcessDescriptor_ProcessType::PROCESS_UNSPECIFIED:
+ return "PROCESS_UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::ChromeProcessDescriptor_ProcessType::PROCESS_BROWSER:
+ return "PROCESS_BROWSER";
+
+ case ::perfetto::protos::pbzero::ChromeProcessDescriptor_ProcessType::PROCESS_RENDERER:
+ return "PROCESS_RENDERER";
+
+ case ::perfetto::protos::pbzero::ChromeProcessDescriptor_ProcessType::PROCESS_UTILITY:
+ return "PROCESS_UTILITY";
+
+ case ::perfetto::protos::pbzero::ChromeProcessDescriptor_ProcessType::PROCESS_ZYGOTE:
+ return "PROCESS_ZYGOTE";
+
+ case ::perfetto::protos::pbzero::ChromeProcessDescriptor_ProcessType::PROCESS_SANDBOX_HELPER:
+ return "PROCESS_SANDBOX_HELPER";
+
+ case ::perfetto::protos::pbzero::ChromeProcessDescriptor_ProcessType::PROCESS_GPU:
+ return "PROCESS_GPU";
+
+ case ::perfetto::protos::pbzero::ChromeProcessDescriptor_ProcessType::PROCESS_PPAPI_PLUGIN:
+ return "PROCESS_PPAPI_PLUGIN";
+
+ case ::perfetto::protos::pbzero::ChromeProcessDescriptor_ProcessType::PROCESS_PPAPI_BROKER:
+ return "PROCESS_PPAPI_BROKER";
+
+ case ::perfetto::protos::pbzero::ChromeProcessDescriptor_ProcessType::PROCESS_SERVICE_NETWORK:
+ return "PROCESS_SERVICE_NETWORK";
+
+ case ::perfetto::protos::pbzero::ChromeProcessDescriptor_ProcessType::PROCESS_SERVICE_TRACING:
+ return "PROCESS_SERVICE_TRACING";
+
+ case ::perfetto::protos::pbzero::ChromeProcessDescriptor_ProcessType::PROCESS_SERVICE_STORAGE:
+ return "PROCESS_SERVICE_STORAGE";
+
+ case ::perfetto::protos::pbzero::ChromeProcessDescriptor_ProcessType::PROCESS_SERVICE_AUDIO:
+ return "PROCESS_SERVICE_AUDIO";
+
+ case ::perfetto::protos::pbzero::ChromeProcessDescriptor_ProcessType::PROCESS_SERVICE_DATA_DECODER:
+ return "PROCESS_SERVICE_DATA_DECODER";
+
+ case ::perfetto::protos::pbzero::ChromeProcessDescriptor_ProcessType::PROCESS_SERVICE_UTIL_WIN:
+ return "PROCESS_SERVICE_UTIL_WIN";
+
+ case ::perfetto::protos::pbzero::ChromeProcessDescriptor_ProcessType::PROCESS_SERVICE_PROXY_RESOLVER:
+ return "PROCESS_SERVICE_PROXY_RESOLVER";
+
+ case ::perfetto::protos::pbzero::ChromeProcessDescriptor_ProcessType::PROCESS_SERVICE_CDM:
+ return "PROCESS_SERVICE_CDM";
+
+ case ::perfetto::protos::pbzero::ChromeProcessDescriptor_ProcessType::PROCESS_SERVICE_VIDEO_CAPTURE:
+ return "PROCESS_SERVICE_VIDEO_CAPTURE";
+
+ case ::perfetto::protos::pbzero::ChromeProcessDescriptor_ProcessType::PROCESS_SERVICE_UNZIPPER:
+ return "PROCESS_SERVICE_UNZIPPER";
+
+ case ::perfetto::protos::pbzero::ChromeProcessDescriptor_ProcessType::PROCESS_SERVICE_MIRRORING:
+ return "PROCESS_SERVICE_MIRRORING";
+
+ case ::perfetto::protos::pbzero::ChromeProcessDescriptor_ProcessType::PROCESS_SERVICE_FILEPATCHER:
+ return "PROCESS_SERVICE_FILEPATCHER";
+
+ case ::perfetto::protos::pbzero::ChromeProcessDescriptor_ProcessType::PROCESS_SERVICE_TTS:
+ return "PROCESS_SERVICE_TTS";
+
+ case ::perfetto::protos::pbzero::ChromeProcessDescriptor_ProcessType::PROCESS_SERVICE_PRINTING:
+ return "PROCESS_SERVICE_PRINTING";
+
+ case ::perfetto::protos::pbzero::ChromeProcessDescriptor_ProcessType::PROCESS_SERVICE_QUARANTINE:
+ return "PROCESS_SERVICE_QUARANTINE";
+
+ case ::perfetto::protos::pbzero::ChromeProcessDescriptor_ProcessType::PROCESS_SERVICE_CROS_LOCALSEARCH:
+ return "PROCESS_SERVICE_CROS_LOCALSEARCH";
+
+ case ::perfetto::protos::pbzero::ChromeProcessDescriptor_ProcessType::PROCESS_SERVICE_CROS_ASSISTANT_AUDIO_DECODER:
+ return "PROCESS_SERVICE_CROS_ASSISTANT_AUDIO_DECODER";
+
+ case ::perfetto::protos::pbzero::ChromeProcessDescriptor_ProcessType::PROCESS_SERVICE_FILEUTIL:
+ return "PROCESS_SERVICE_FILEUTIL";
+
+ case ::perfetto::protos::pbzero::ChromeProcessDescriptor_ProcessType::PROCESS_SERVICE_PRINTCOMPOSITOR:
+ return "PROCESS_SERVICE_PRINTCOMPOSITOR";
+
+ case ::perfetto::protos::pbzero::ChromeProcessDescriptor_ProcessType::PROCESS_SERVICE_PAINTPREVIEW:
+ return "PROCESS_SERVICE_PAINTPREVIEW";
+
+ case ::perfetto::protos::pbzero::ChromeProcessDescriptor_ProcessType::PROCESS_SERVICE_SPEECHRECOGNITION:
+ return "PROCESS_SERVICE_SPEECHRECOGNITION";
+
+ case ::perfetto::protos::pbzero::ChromeProcessDescriptor_ProcessType::PROCESS_SERVICE_XRDEVICE:
+ return "PROCESS_SERVICE_XRDEVICE";
+
+ case ::perfetto::protos::pbzero::ChromeProcessDescriptor_ProcessType::PROCESS_SERVICE_READICON:
+ return "PROCESS_SERVICE_READICON";
+
+ case ::perfetto::protos::pbzero::ChromeProcessDescriptor_ProcessType::PROCESS_SERVICE_LANGUAGEDETECTION:
+ return "PROCESS_SERVICE_LANGUAGEDETECTION";
+
+ case ::perfetto::protos::pbzero::ChromeProcessDescriptor_ProcessType::PROCESS_SERVICE_SHARING:
+ return "PROCESS_SERVICE_SHARING";
+
+ case ::perfetto::protos::pbzero::ChromeProcessDescriptor_ProcessType::PROCESS_SERVICE_MEDIAPARSER:
+ return "PROCESS_SERVICE_MEDIAPARSER";
+
+ case ::perfetto::protos::pbzero::ChromeProcessDescriptor_ProcessType::PROCESS_SERVICE_QRCODEGENERATOR:
+ return "PROCESS_SERVICE_QRCODEGENERATOR";
+
+ case ::perfetto::protos::pbzero::ChromeProcessDescriptor_ProcessType::PROCESS_SERVICE_PROFILEIMPORT:
+ return "PROCESS_SERVICE_PROFILEIMPORT";
+
+ case ::perfetto::protos::pbzero::ChromeProcessDescriptor_ProcessType::PROCESS_SERVICE_IME:
+ return "PROCESS_SERVICE_IME";
+
+ case ::perfetto::protos::pbzero::ChromeProcessDescriptor_ProcessType::PROCESS_SERVICE_RECORDING:
+ return "PROCESS_SERVICE_RECORDING";
+
+ case ::perfetto::protos::pbzero::ChromeProcessDescriptor_ProcessType::PROCESS_SERVICE_SHAPEDETECTION:
+ return "PROCESS_SERVICE_SHAPEDETECTION";
+
+ case ::perfetto::protos::pbzero::ChromeProcessDescriptor_ProcessType::PROCESS_RENDERER_EXTENSION:
+ return "PROCESS_RENDERER_EXTENSION";
+
+ case ::perfetto::protos::pbzero::ChromeProcessDescriptor_ProcessType::PROCESS_SERVICE_MEDIA_FOUNDATION:
+ return "PROCESS_SERVICE_MEDIA_FOUNDATION";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+class ChromeProcessDescriptor_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ChromeProcessDescriptor_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ChromeProcessDescriptor_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ChromeProcessDescriptor_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_process_type() const { return at<1>().valid(); }
+ int32_t process_type() const { return at<1>().as_int32(); }
+ bool has_process_priority() const { return at<2>().valid(); }
+ int32_t process_priority() const { return at<2>().as_int32(); }
+ bool has_legacy_sort_index() const { return at<3>().valid(); }
+ int32_t legacy_sort_index() const { return at<3>().as_int32(); }
+ bool has_host_app_package_name() const { return at<4>().valid(); }
+ ::protozero::ConstChars host_app_package_name() const { return at<4>().as_string(); }
+ bool has_crash_trace_id() const { return at<5>().valid(); }
+ uint64_t crash_trace_id() const { return at<5>().as_uint64(); }
+};
+
+class ChromeProcessDescriptor : public ::protozero::Message {
+ public:
+ using Decoder = ChromeProcessDescriptor_Decoder;
+ enum : int32_t {
+ kProcessTypeFieldNumber = 1,
+ kProcessPriorityFieldNumber = 2,
+ kLegacySortIndexFieldNumber = 3,
+ kHostAppPackageNameFieldNumber = 4,
+ kCrashTraceIdFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ChromeProcessDescriptor"; }
+
+
+ using ProcessType = ::perfetto::protos::pbzero::ChromeProcessDescriptor_ProcessType;
+ static inline const char* ProcessType_Name(ProcessType value) {
+ return ::perfetto::protos::pbzero::ChromeProcessDescriptor_ProcessType_Name(value);
+ }
+ static inline const ProcessType PROCESS_UNSPECIFIED = ProcessType::PROCESS_UNSPECIFIED;
+ static inline const ProcessType PROCESS_BROWSER = ProcessType::PROCESS_BROWSER;
+ static inline const ProcessType PROCESS_RENDERER = ProcessType::PROCESS_RENDERER;
+ static inline const ProcessType PROCESS_UTILITY = ProcessType::PROCESS_UTILITY;
+ static inline const ProcessType PROCESS_ZYGOTE = ProcessType::PROCESS_ZYGOTE;
+ static inline const ProcessType PROCESS_SANDBOX_HELPER = ProcessType::PROCESS_SANDBOX_HELPER;
+ static inline const ProcessType PROCESS_GPU = ProcessType::PROCESS_GPU;
+ static inline const ProcessType PROCESS_PPAPI_PLUGIN = ProcessType::PROCESS_PPAPI_PLUGIN;
+ static inline const ProcessType PROCESS_PPAPI_BROKER = ProcessType::PROCESS_PPAPI_BROKER;
+ static inline const ProcessType PROCESS_SERVICE_NETWORK = ProcessType::PROCESS_SERVICE_NETWORK;
+ static inline const ProcessType PROCESS_SERVICE_TRACING = ProcessType::PROCESS_SERVICE_TRACING;
+ static inline const ProcessType PROCESS_SERVICE_STORAGE = ProcessType::PROCESS_SERVICE_STORAGE;
+ static inline const ProcessType PROCESS_SERVICE_AUDIO = ProcessType::PROCESS_SERVICE_AUDIO;
+ static inline const ProcessType PROCESS_SERVICE_DATA_DECODER = ProcessType::PROCESS_SERVICE_DATA_DECODER;
+ static inline const ProcessType PROCESS_SERVICE_UTIL_WIN = ProcessType::PROCESS_SERVICE_UTIL_WIN;
+ static inline const ProcessType PROCESS_SERVICE_PROXY_RESOLVER = ProcessType::PROCESS_SERVICE_PROXY_RESOLVER;
+ static inline const ProcessType PROCESS_SERVICE_CDM = ProcessType::PROCESS_SERVICE_CDM;
+ static inline const ProcessType PROCESS_SERVICE_VIDEO_CAPTURE = ProcessType::PROCESS_SERVICE_VIDEO_CAPTURE;
+ static inline const ProcessType PROCESS_SERVICE_UNZIPPER = ProcessType::PROCESS_SERVICE_UNZIPPER;
+ static inline const ProcessType PROCESS_SERVICE_MIRRORING = ProcessType::PROCESS_SERVICE_MIRRORING;
+ static inline const ProcessType PROCESS_SERVICE_FILEPATCHER = ProcessType::PROCESS_SERVICE_FILEPATCHER;
+ static inline const ProcessType PROCESS_SERVICE_TTS = ProcessType::PROCESS_SERVICE_TTS;
+ static inline const ProcessType PROCESS_SERVICE_PRINTING = ProcessType::PROCESS_SERVICE_PRINTING;
+ static inline const ProcessType PROCESS_SERVICE_QUARANTINE = ProcessType::PROCESS_SERVICE_QUARANTINE;
+ static inline const ProcessType PROCESS_SERVICE_CROS_LOCALSEARCH = ProcessType::PROCESS_SERVICE_CROS_LOCALSEARCH;
+ static inline const ProcessType PROCESS_SERVICE_CROS_ASSISTANT_AUDIO_DECODER = ProcessType::PROCESS_SERVICE_CROS_ASSISTANT_AUDIO_DECODER;
+ static inline const ProcessType PROCESS_SERVICE_FILEUTIL = ProcessType::PROCESS_SERVICE_FILEUTIL;
+ static inline const ProcessType PROCESS_SERVICE_PRINTCOMPOSITOR = ProcessType::PROCESS_SERVICE_PRINTCOMPOSITOR;
+ static inline const ProcessType PROCESS_SERVICE_PAINTPREVIEW = ProcessType::PROCESS_SERVICE_PAINTPREVIEW;
+ static inline const ProcessType PROCESS_SERVICE_SPEECHRECOGNITION = ProcessType::PROCESS_SERVICE_SPEECHRECOGNITION;
+ static inline const ProcessType PROCESS_SERVICE_XRDEVICE = ProcessType::PROCESS_SERVICE_XRDEVICE;
+ static inline const ProcessType PROCESS_SERVICE_READICON = ProcessType::PROCESS_SERVICE_READICON;
+ static inline const ProcessType PROCESS_SERVICE_LANGUAGEDETECTION = ProcessType::PROCESS_SERVICE_LANGUAGEDETECTION;
+ static inline const ProcessType PROCESS_SERVICE_SHARING = ProcessType::PROCESS_SERVICE_SHARING;
+ static inline const ProcessType PROCESS_SERVICE_MEDIAPARSER = ProcessType::PROCESS_SERVICE_MEDIAPARSER;
+ static inline const ProcessType PROCESS_SERVICE_QRCODEGENERATOR = ProcessType::PROCESS_SERVICE_QRCODEGENERATOR;
+ static inline const ProcessType PROCESS_SERVICE_PROFILEIMPORT = ProcessType::PROCESS_SERVICE_PROFILEIMPORT;
+ static inline const ProcessType PROCESS_SERVICE_IME = ProcessType::PROCESS_SERVICE_IME;
+ static inline const ProcessType PROCESS_SERVICE_RECORDING = ProcessType::PROCESS_SERVICE_RECORDING;
+ static inline const ProcessType PROCESS_SERVICE_SHAPEDETECTION = ProcessType::PROCESS_SERVICE_SHAPEDETECTION;
+ static inline const ProcessType PROCESS_RENDERER_EXTENSION = ProcessType::PROCESS_RENDERER_EXTENSION;
+ static inline const ProcessType PROCESS_SERVICE_MEDIA_FOUNDATION = ProcessType::PROCESS_SERVICE_MEDIA_FOUNDATION;
+
+ using FieldMetadata_ProcessType =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ ChromeProcessDescriptor_ProcessType,
+ ChromeProcessDescriptor>;
+
+ static constexpr FieldMetadata_ProcessType kProcessType{};
+ void set_process_type(ChromeProcessDescriptor_ProcessType value) {
+ static constexpr uint32_t field_id = FieldMetadata_ProcessType::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ProcessPriority =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ ChromeProcessDescriptor>;
+
+ static constexpr FieldMetadata_ProcessPriority kProcessPriority{};
+ void set_process_priority(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ProcessPriority::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_LegacySortIndex =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ ChromeProcessDescriptor>;
+
+ static constexpr FieldMetadata_LegacySortIndex kLegacySortIndex{};
+ void set_legacy_sort_index(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_LegacySortIndex::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_HostAppPackageName =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ChromeProcessDescriptor>;
+
+ static constexpr FieldMetadata_HostAppPackageName kHostAppPackageName{};
+ void set_host_app_package_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_HostAppPackageName::kFieldId, data, size);
+ }
+ void set_host_app_package_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_HostAppPackageName::kFieldId, chars.data, chars.size);
+ }
+ void set_host_app_package_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_HostAppPackageName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CrashTraceId =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ChromeProcessDescriptor>;
+
+ static constexpr FieldMetadata_CrashTraceId kCrashTraceId{};
+ void set_crash_trace_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CrashTraceId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/track_event/chrome_renderer_scheduler_state.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_RENDERER_SCHEDULER_STATE_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_RENDERER_SCHEDULER_STATE_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+enum ChromeRAILMode : int32_t;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+enum ChromeRAILMode : int32_t {
+ RAIL_MODE_NONE = 0,
+ RAIL_MODE_RESPONSE = 1,
+ RAIL_MODE_ANIMATION = 2,
+ RAIL_MODE_IDLE = 3,
+ RAIL_MODE_LOAD = 4,
+};
+
+constexpr ChromeRAILMode ChromeRAILMode_MIN = ChromeRAILMode::RAIL_MODE_NONE;
+constexpr ChromeRAILMode ChromeRAILMode_MAX = ChromeRAILMode::RAIL_MODE_LOAD;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* ChromeRAILMode_Name(::perfetto::protos::pbzero::ChromeRAILMode value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::ChromeRAILMode::RAIL_MODE_NONE:
+ return "RAIL_MODE_NONE";
+
+ case ::perfetto::protos::pbzero::ChromeRAILMode::RAIL_MODE_RESPONSE:
+ return "RAIL_MODE_RESPONSE";
+
+ case ::perfetto::protos::pbzero::ChromeRAILMode::RAIL_MODE_ANIMATION:
+ return "RAIL_MODE_ANIMATION";
+
+ case ::perfetto::protos::pbzero::ChromeRAILMode::RAIL_MODE_IDLE:
+ return "RAIL_MODE_IDLE";
+
+ case ::perfetto::protos::pbzero::ChromeRAILMode::RAIL_MODE_LOAD:
+ return "RAIL_MODE_LOAD";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+class ChromeRendererSchedulerState_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ChromeRendererSchedulerState_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ChromeRendererSchedulerState_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ChromeRendererSchedulerState_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_rail_mode() const { return at<1>().valid(); }
+ int32_t rail_mode() const { return at<1>().as_int32(); }
+ bool has_is_backgrounded() const { return at<2>().valid(); }
+ bool is_backgrounded() const { return at<2>().as_bool(); }
+ bool has_is_hidden() const { return at<3>().valid(); }
+ bool is_hidden() const { return at<3>().as_bool(); }
+};
+
+class ChromeRendererSchedulerState : public ::protozero::Message {
+ public:
+ using Decoder = ChromeRendererSchedulerState_Decoder;
+ enum : int32_t {
+ kRailModeFieldNumber = 1,
+ kIsBackgroundedFieldNumber = 2,
+ kIsHiddenFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ChromeRendererSchedulerState"; }
+
+
+ using FieldMetadata_RailMode =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ ChromeRAILMode,
+ ChromeRendererSchedulerState>;
+
+ static constexpr FieldMetadata_RailMode kRailMode{};
+ void set_rail_mode(ChromeRAILMode value) {
+ static constexpr uint32_t field_id = FieldMetadata_RailMode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IsBackgrounded =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ChromeRendererSchedulerState>;
+
+ static constexpr FieldMetadata_IsBackgrounded kIsBackgrounded{};
+ void set_is_backgrounded(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_IsBackgrounded::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IsHidden =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ChromeRendererSchedulerState>;
+
+ static constexpr FieldMetadata_IsHidden kIsHidden{};
+ void set_is_hidden(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_IsHidden::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/track_event/chrome_thread_descriptor.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_THREAD_DESCRIPTOR_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_THREAD_DESCRIPTOR_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+namespace perfetto_pbzero_enum_ChromeThreadDescriptor {
+enum ThreadType : int32_t;
+} // namespace perfetto_pbzero_enum_ChromeThreadDescriptor
+using ChromeThreadDescriptor_ThreadType = perfetto_pbzero_enum_ChromeThreadDescriptor::ThreadType;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+namespace perfetto_pbzero_enum_ChromeThreadDescriptor {
+enum ThreadType : int32_t {
+ THREAD_UNSPECIFIED = 0,
+ THREAD_MAIN = 1,
+ THREAD_IO = 2,
+ THREAD_POOL_BG_WORKER = 3,
+ THREAD_POOL_FG_WORKER = 4,
+ THREAD_POOL_FG_BLOCKING = 5,
+ THREAD_POOL_BG_BLOCKING = 6,
+ THREAD_POOL_SERVICE = 7,
+ THREAD_COMPOSITOR = 8,
+ THREAD_VIZ_COMPOSITOR = 9,
+ THREAD_COMPOSITOR_WORKER = 10,
+ THREAD_SERVICE_WORKER = 11,
+ THREAD_NETWORK_SERVICE = 12,
+ THREAD_CHILD_IO = 13,
+ THREAD_BROWSER_IO = 14,
+ THREAD_BROWSER_MAIN = 15,
+ THREAD_RENDERER_MAIN = 16,
+ THREAD_UTILITY_MAIN = 17,
+ THREAD_GPU_MAIN = 18,
+ THREAD_CACHE_BLOCKFILE = 19,
+ THREAD_MEDIA = 20,
+ THREAD_AUDIO_OUTPUTDEVICE = 21,
+ THREAD_AUDIO_INPUTDEVICE = 22,
+ THREAD_GPU_MEMORY = 23,
+ THREAD_GPU_VSYNC = 24,
+ THREAD_DXA_VIDEODECODER = 25,
+ THREAD_BROWSER_WATCHDOG = 26,
+ THREAD_WEBRTC_NETWORK = 27,
+ THREAD_WINDOW_OWNER = 28,
+ THREAD_WEBRTC_SIGNALING = 29,
+ THREAD_WEBRTC_WORKER = 30,
+ THREAD_PPAPI_MAIN = 31,
+ THREAD_GPU_WATCHDOG = 32,
+ THREAD_SWAPPER = 33,
+ THREAD_GAMEPAD_POLLING = 34,
+ THREAD_WEBCRYPTO = 35,
+ THREAD_DATABASE = 36,
+ THREAD_PROXYRESOLVER = 37,
+ THREAD_DEVTOOLSADB = 38,
+ THREAD_NETWORKCONFIGWATCHER = 39,
+ THREAD_WASAPI_RENDER = 40,
+ THREAD_LOADER_LOCK_SAMPLER = 41,
+ THREAD_MEMORY_INFRA = 50,
+ THREAD_SAMPLING_PROFILER = 51,
+};
+} // namespace perfetto_pbzero_enum_ChromeThreadDescriptor
+using ChromeThreadDescriptor_ThreadType = perfetto_pbzero_enum_ChromeThreadDescriptor::ThreadType;
+
+
+constexpr ChromeThreadDescriptor_ThreadType ChromeThreadDescriptor_ThreadType_MIN = ChromeThreadDescriptor_ThreadType::THREAD_UNSPECIFIED;
+constexpr ChromeThreadDescriptor_ThreadType ChromeThreadDescriptor_ThreadType_MAX = ChromeThreadDescriptor_ThreadType::THREAD_SAMPLING_PROFILER;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* ChromeThreadDescriptor_ThreadType_Name(::perfetto::protos::pbzero::ChromeThreadDescriptor_ThreadType value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::ChromeThreadDescriptor_ThreadType::THREAD_UNSPECIFIED:
+ return "THREAD_UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::ChromeThreadDescriptor_ThreadType::THREAD_MAIN:
+ return "THREAD_MAIN";
+
+ case ::perfetto::protos::pbzero::ChromeThreadDescriptor_ThreadType::THREAD_IO:
+ return "THREAD_IO";
+
+ case ::perfetto::protos::pbzero::ChromeThreadDescriptor_ThreadType::THREAD_POOL_BG_WORKER:
+ return "THREAD_POOL_BG_WORKER";
+
+ case ::perfetto::protos::pbzero::ChromeThreadDescriptor_ThreadType::THREAD_POOL_FG_WORKER:
+ return "THREAD_POOL_FG_WORKER";
+
+ case ::perfetto::protos::pbzero::ChromeThreadDescriptor_ThreadType::THREAD_POOL_FG_BLOCKING:
+ return "THREAD_POOL_FG_BLOCKING";
+
+ case ::perfetto::protos::pbzero::ChromeThreadDescriptor_ThreadType::THREAD_POOL_BG_BLOCKING:
+ return "THREAD_POOL_BG_BLOCKING";
+
+ case ::perfetto::protos::pbzero::ChromeThreadDescriptor_ThreadType::THREAD_POOL_SERVICE:
+ return "THREAD_POOL_SERVICE";
+
+ case ::perfetto::protos::pbzero::ChromeThreadDescriptor_ThreadType::THREAD_COMPOSITOR:
+ return "THREAD_COMPOSITOR";
+
+ case ::perfetto::protos::pbzero::ChromeThreadDescriptor_ThreadType::THREAD_VIZ_COMPOSITOR:
+ return "THREAD_VIZ_COMPOSITOR";
+
+ case ::perfetto::protos::pbzero::ChromeThreadDescriptor_ThreadType::THREAD_COMPOSITOR_WORKER:
+ return "THREAD_COMPOSITOR_WORKER";
+
+ case ::perfetto::protos::pbzero::ChromeThreadDescriptor_ThreadType::THREAD_SERVICE_WORKER:
+ return "THREAD_SERVICE_WORKER";
+
+ case ::perfetto::protos::pbzero::ChromeThreadDescriptor_ThreadType::THREAD_NETWORK_SERVICE:
+ return "THREAD_NETWORK_SERVICE";
+
+ case ::perfetto::protos::pbzero::ChromeThreadDescriptor_ThreadType::THREAD_CHILD_IO:
+ return "THREAD_CHILD_IO";
+
+ case ::perfetto::protos::pbzero::ChromeThreadDescriptor_ThreadType::THREAD_BROWSER_IO:
+ return "THREAD_BROWSER_IO";
+
+ case ::perfetto::protos::pbzero::ChromeThreadDescriptor_ThreadType::THREAD_BROWSER_MAIN:
+ return "THREAD_BROWSER_MAIN";
+
+ case ::perfetto::protos::pbzero::ChromeThreadDescriptor_ThreadType::THREAD_RENDERER_MAIN:
+ return "THREAD_RENDERER_MAIN";
+
+ case ::perfetto::protos::pbzero::ChromeThreadDescriptor_ThreadType::THREAD_UTILITY_MAIN:
+ return "THREAD_UTILITY_MAIN";
+
+ case ::perfetto::protos::pbzero::ChromeThreadDescriptor_ThreadType::THREAD_GPU_MAIN:
+ return "THREAD_GPU_MAIN";
+
+ case ::perfetto::protos::pbzero::ChromeThreadDescriptor_ThreadType::THREAD_CACHE_BLOCKFILE:
+ return "THREAD_CACHE_BLOCKFILE";
+
+ case ::perfetto::protos::pbzero::ChromeThreadDescriptor_ThreadType::THREAD_MEDIA:
+ return "THREAD_MEDIA";
+
+ case ::perfetto::protos::pbzero::ChromeThreadDescriptor_ThreadType::THREAD_AUDIO_OUTPUTDEVICE:
+ return "THREAD_AUDIO_OUTPUTDEVICE";
+
+ case ::perfetto::protos::pbzero::ChromeThreadDescriptor_ThreadType::THREAD_AUDIO_INPUTDEVICE:
+ return "THREAD_AUDIO_INPUTDEVICE";
+
+ case ::perfetto::protos::pbzero::ChromeThreadDescriptor_ThreadType::THREAD_GPU_MEMORY:
+ return "THREAD_GPU_MEMORY";
+
+ case ::perfetto::protos::pbzero::ChromeThreadDescriptor_ThreadType::THREAD_GPU_VSYNC:
+ return "THREAD_GPU_VSYNC";
+
+ case ::perfetto::protos::pbzero::ChromeThreadDescriptor_ThreadType::THREAD_DXA_VIDEODECODER:
+ return "THREAD_DXA_VIDEODECODER";
+
+ case ::perfetto::protos::pbzero::ChromeThreadDescriptor_ThreadType::THREAD_BROWSER_WATCHDOG:
+ return "THREAD_BROWSER_WATCHDOG";
+
+ case ::perfetto::protos::pbzero::ChromeThreadDescriptor_ThreadType::THREAD_WEBRTC_NETWORK:
+ return "THREAD_WEBRTC_NETWORK";
+
+ case ::perfetto::protos::pbzero::ChromeThreadDescriptor_ThreadType::THREAD_WINDOW_OWNER:
+ return "THREAD_WINDOW_OWNER";
+
+ case ::perfetto::protos::pbzero::ChromeThreadDescriptor_ThreadType::THREAD_WEBRTC_SIGNALING:
+ return "THREAD_WEBRTC_SIGNALING";
+
+ case ::perfetto::protos::pbzero::ChromeThreadDescriptor_ThreadType::THREAD_WEBRTC_WORKER:
+ return "THREAD_WEBRTC_WORKER";
+
+ case ::perfetto::protos::pbzero::ChromeThreadDescriptor_ThreadType::THREAD_PPAPI_MAIN:
+ return "THREAD_PPAPI_MAIN";
+
+ case ::perfetto::protos::pbzero::ChromeThreadDescriptor_ThreadType::THREAD_GPU_WATCHDOG:
+ return "THREAD_GPU_WATCHDOG";
+
+ case ::perfetto::protos::pbzero::ChromeThreadDescriptor_ThreadType::THREAD_SWAPPER:
+ return "THREAD_SWAPPER";
+
+ case ::perfetto::protos::pbzero::ChromeThreadDescriptor_ThreadType::THREAD_GAMEPAD_POLLING:
+ return "THREAD_GAMEPAD_POLLING";
+
+ case ::perfetto::protos::pbzero::ChromeThreadDescriptor_ThreadType::THREAD_WEBCRYPTO:
+ return "THREAD_WEBCRYPTO";
+
+ case ::perfetto::protos::pbzero::ChromeThreadDescriptor_ThreadType::THREAD_DATABASE:
+ return "THREAD_DATABASE";
+
+ case ::perfetto::protos::pbzero::ChromeThreadDescriptor_ThreadType::THREAD_PROXYRESOLVER:
+ return "THREAD_PROXYRESOLVER";
+
+ case ::perfetto::protos::pbzero::ChromeThreadDescriptor_ThreadType::THREAD_DEVTOOLSADB:
+ return "THREAD_DEVTOOLSADB";
+
+ case ::perfetto::protos::pbzero::ChromeThreadDescriptor_ThreadType::THREAD_NETWORKCONFIGWATCHER:
+ return "THREAD_NETWORKCONFIGWATCHER";
+
+ case ::perfetto::protos::pbzero::ChromeThreadDescriptor_ThreadType::THREAD_WASAPI_RENDER:
+ return "THREAD_WASAPI_RENDER";
+
+ case ::perfetto::protos::pbzero::ChromeThreadDescriptor_ThreadType::THREAD_LOADER_LOCK_SAMPLER:
+ return "THREAD_LOADER_LOCK_SAMPLER";
+
+ case ::perfetto::protos::pbzero::ChromeThreadDescriptor_ThreadType::THREAD_MEMORY_INFRA:
+ return "THREAD_MEMORY_INFRA";
+
+ case ::perfetto::protos::pbzero::ChromeThreadDescriptor_ThreadType::THREAD_SAMPLING_PROFILER:
+ return "THREAD_SAMPLING_PROFILER";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+class ChromeThreadDescriptor_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ChromeThreadDescriptor_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ChromeThreadDescriptor_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ChromeThreadDescriptor_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_thread_type() const { return at<1>().valid(); }
+ int32_t thread_type() const { return at<1>().as_int32(); }
+ bool has_legacy_sort_index() const { return at<2>().valid(); }
+ int32_t legacy_sort_index() const { return at<2>().as_int32(); }
+};
+
+class ChromeThreadDescriptor : public ::protozero::Message {
+ public:
+ using Decoder = ChromeThreadDescriptor_Decoder;
+ enum : int32_t {
+ kThreadTypeFieldNumber = 1,
+ kLegacySortIndexFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ChromeThreadDescriptor"; }
+
+
+ using ThreadType = ::perfetto::protos::pbzero::ChromeThreadDescriptor_ThreadType;
+ static inline const char* ThreadType_Name(ThreadType value) {
+ return ::perfetto::protos::pbzero::ChromeThreadDescriptor_ThreadType_Name(value);
+ }
+ static inline const ThreadType THREAD_UNSPECIFIED = ThreadType::THREAD_UNSPECIFIED;
+ static inline const ThreadType THREAD_MAIN = ThreadType::THREAD_MAIN;
+ static inline const ThreadType THREAD_IO = ThreadType::THREAD_IO;
+ static inline const ThreadType THREAD_POOL_BG_WORKER = ThreadType::THREAD_POOL_BG_WORKER;
+ static inline const ThreadType THREAD_POOL_FG_WORKER = ThreadType::THREAD_POOL_FG_WORKER;
+ static inline const ThreadType THREAD_POOL_FG_BLOCKING = ThreadType::THREAD_POOL_FG_BLOCKING;
+ static inline const ThreadType THREAD_POOL_BG_BLOCKING = ThreadType::THREAD_POOL_BG_BLOCKING;
+ static inline const ThreadType THREAD_POOL_SERVICE = ThreadType::THREAD_POOL_SERVICE;
+ static inline const ThreadType THREAD_COMPOSITOR = ThreadType::THREAD_COMPOSITOR;
+ static inline const ThreadType THREAD_VIZ_COMPOSITOR = ThreadType::THREAD_VIZ_COMPOSITOR;
+ static inline const ThreadType THREAD_COMPOSITOR_WORKER = ThreadType::THREAD_COMPOSITOR_WORKER;
+ static inline const ThreadType THREAD_SERVICE_WORKER = ThreadType::THREAD_SERVICE_WORKER;
+ static inline const ThreadType THREAD_NETWORK_SERVICE = ThreadType::THREAD_NETWORK_SERVICE;
+ static inline const ThreadType THREAD_CHILD_IO = ThreadType::THREAD_CHILD_IO;
+ static inline const ThreadType THREAD_BROWSER_IO = ThreadType::THREAD_BROWSER_IO;
+ static inline const ThreadType THREAD_BROWSER_MAIN = ThreadType::THREAD_BROWSER_MAIN;
+ static inline const ThreadType THREAD_RENDERER_MAIN = ThreadType::THREAD_RENDERER_MAIN;
+ static inline const ThreadType THREAD_UTILITY_MAIN = ThreadType::THREAD_UTILITY_MAIN;
+ static inline const ThreadType THREAD_GPU_MAIN = ThreadType::THREAD_GPU_MAIN;
+ static inline const ThreadType THREAD_CACHE_BLOCKFILE = ThreadType::THREAD_CACHE_BLOCKFILE;
+ static inline const ThreadType THREAD_MEDIA = ThreadType::THREAD_MEDIA;
+ static inline const ThreadType THREAD_AUDIO_OUTPUTDEVICE = ThreadType::THREAD_AUDIO_OUTPUTDEVICE;
+ static inline const ThreadType THREAD_AUDIO_INPUTDEVICE = ThreadType::THREAD_AUDIO_INPUTDEVICE;
+ static inline const ThreadType THREAD_GPU_MEMORY = ThreadType::THREAD_GPU_MEMORY;
+ static inline const ThreadType THREAD_GPU_VSYNC = ThreadType::THREAD_GPU_VSYNC;
+ static inline const ThreadType THREAD_DXA_VIDEODECODER = ThreadType::THREAD_DXA_VIDEODECODER;
+ static inline const ThreadType THREAD_BROWSER_WATCHDOG = ThreadType::THREAD_BROWSER_WATCHDOG;
+ static inline const ThreadType THREAD_WEBRTC_NETWORK = ThreadType::THREAD_WEBRTC_NETWORK;
+ static inline const ThreadType THREAD_WINDOW_OWNER = ThreadType::THREAD_WINDOW_OWNER;
+ static inline const ThreadType THREAD_WEBRTC_SIGNALING = ThreadType::THREAD_WEBRTC_SIGNALING;
+ static inline const ThreadType THREAD_WEBRTC_WORKER = ThreadType::THREAD_WEBRTC_WORKER;
+ static inline const ThreadType THREAD_PPAPI_MAIN = ThreadType::THREAD_PPAPI_MAIN;
+ static inline const ThreadType THREAD_GPU_WATCHDOG = ThreadType::THREAD_GPU_WATCHDOG;
+ static inline const ThreadType THREAD_SWAPPER = ThreadType::THREAD_SWAPPER;
+ static inline const ThreadType THREAD_GAMEPAD_POLLING = ThreadType::THREAD_GAMEPAD_POLLING;
+ static inline const ThreadType THREAD_WEBCRYPTO = ThreadType::THREAD_WEBCRYPTO;
+ static inline const ThreadType THREAD_DATABASE = ThreadType::THREAD_DATABASE;
+ static inline const ThreadType THREAD_PROXYRESOLVER = ThreadType::THREAD_PROXYRESOLVER;
+ static inline const ThreadType THREAD_DEVTOOLSADB = ThreadType::THREAD_DEVTOOLSADB;
+ static inline const ThreadType THREAD_NETWORKCONFIGWATCHER = ThreadType::THREAD_NETWORKCONFIGWATCHER;
+ static inline const ThreadType THREAD_WASAPI_RENDER = ThreadType::THREAD_WASAPI_RENDER;
+ static inline const ThreadType THREAD_LOADER_LOCK_SAMPLER = ThreadType::THREAD_LOADER_LOCK_SAMPLER;
+ static inline const ThreadType THREAD_MEMORY_INFRA = ThreadType::THREAD_MEMORY_INFRA;
+ static inline const ThreadType THREAD_SAMPLING_PROFILER = ThreadType::THREAD_SAMPLING_PROFILER;
+
+ using FieldMetadata_ThreadType =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ ChromeThreadDescriptor_ThreadType,
+ ChromeThreadDescriptor>;
+
+ static constexpr FieldMetadata_ThreadType kThreadType{};
+ void set_thread_type(ChromeThreadDescriptor_ThreadType value) {
+ static constexpr uint32_t field_id = FieldMetadata_ThreadType::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_LegacySortIndex =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ ChromeThreadDescriptor>;
+
+ static constexpr FieldMetadata_LegacySortIndex kLegacySortIndex{};
+ void set_legacy_sort_index(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_LegacySortIndex::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/track_event/chrome_user_event.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_USER_EVENT_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_USER_EVENT_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class ChromeUserEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ChromeUserEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ChromeUserEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ChromeUserEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_action() const { return at<1>().valid(); }
+ ::protozero::ConstChars action() const { return at<1>().as_string(); }
+ bool has_action_hash() const { return at<2>().valid(); }
+ uint64_t action_hash() const { return at<2>().as_uint64(); }
+};
+
+class ChromeUserEvent : public ::protozero::Message {
+ public:
+ using Decoder = ChromeUserEvent_Decoder;
+ enum : int32_t {
+ kActionFieldNumber = 1,
+ kActionHashFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ChromeUserEvent"; }
+
+
+ using FieldMetadata_Action =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ChromeUserEvent>;
+
+ static constexpr FieldMetadata_Action kAction{};
+ void set_action(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Action::kFieldId, data, size);
+ }
+ void set_action(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Action::kFieldId, chars.data, chars.size);
+ }
+ void set_action(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Action::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ActionHash =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ChromeUserEvent>;
+
+ static constexpr FieldMetadata_ActionHash kActionHash{};
+ void set_action_hash(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ActionHash::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/track_event/chrome_window_handle_event_info.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_WINDOW_HANDLE_EVENT_INFO_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_WINDOW_HANDLE_EVENT_INFO_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class ChromeWindowHandleEventInfo_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ChromeWindowHandleEventInfo_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ChromeWindowHandleEventInfo_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ChromeWindowHandleEventInfo_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_dpi() const { return at<1>().valid(); }
+ uint32_t dpi() const { return at<1>().as_uint32(); }
+ bool has_message_id() const { return at<2>().valid(); }
+ uint32_t message_id() const { return at<2>().as_uint32(); }
+ bool has_hwnd_ptr() const { return at<3>().valid(); }
+ uint64_t hwnd_ptr() const { return at<3>().as_uint64(); }
+};
+
+class ChromeWindowHandleEventInfo : public ::protozero::Message {
+ public:
+ using Decoder = ChromeWindowHandleEventInfo_Decoder;
+ enum : int32_t {
+ kDpiFieldNumber = 1,
+ kMessageIdFieldNumber = 2,
+ kHwndPtrFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ChromeWindowHandleEventInfo"; }
+
+
+ using FieldMetadata_Dpi =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ ChromeWindowHandleEventInfo>;
+
+ static constexpr FieldMetadata_Dpi kDpi{};
+ void set_dpi(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Dpi::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MessageId =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ ChromeWindowHandleEventInfo>;
+
+ static constexpr FieldMetadata_MessageId kMessageId{};
+ void set_message_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MessageId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_HwndPtr =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFixed64,
+ uint64_t,
+ ChromeWindowHandleEventInfo>;
+
+ static constexpr FieldMetadata_HwndPtr kHwndPtr{};
+ void set_hwnd_ptr(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_HwndPtr::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFixed64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/track_event/log_message.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_LOG_MESSAGE_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_LOG_MESSAGE_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+namespace perfetto_pbzero_enum_LogMessage {
+enum Priority : int32_t;
+} // namespace perfetto_pbzero_enum_LogMessage
+using LogMessage_Priority = perfetto_pbzero_enum_LogMessage::Priority;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+namespace perfetto_pbzero_enum_LogMessage {
+enum Priority : int32_t {
+ PRIO_UNSPECIFIED = 0,
+ PRIO_UNUSED = 1,
+ PRIO_VERBOSE = 2,
+ PRIO_DEBUG = 3,
+ PRIO_INFO = 4,
+ PRIO_WARN = 5,
+ PRIO_ERROR = 6,
+ PRIO_FATAL = 7,
+};
+} // namespace perfetto_pbzero_enum_LogMessage
+using LogMessage_Priority = perfetto_pbzero_enum_LogMessage::Priority;
+
+
+constexpr LogMessage_Priority LogMessage_Priority_MIN = LogMessage_Priority::PRIO_UNSPECIFIED;
+constexpr LogMessage_Priority LogMessage_Priority_MAX = LogMessage_Priority::PRIO_FATAL;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* LogMessage_Priority_Name(::perfetto::protos::pbzero::LogMessage_Priority value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::LogMessage_Priority::PRIO_UNSPECIFIED:
+ return "PRIO_UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::LogMessage_Priority::PRIO_UNUSED:
+ return "PRIO_UNUSED";
+
+ case ::perfetto::protos::pbzero::LogMessage_Priority::PRIO_VERBOSE:
+ return "PRIO_VERBOSE";
+
+ case ::perfetto::protos::pbzero::LogMessage_Priority::PRIO_DEBUG:
+ return "PRIO_DEBUG";
+
+ case ::perfetto::protos::pbzero::LogMessage_Priority::PRIO_INFO:
+ return "PRIO_INFO";
+
+ case ::perfetto::protos::pbzero::LogMessage_Priority::PRIO_WARN:
+ return "PRIO_WARN";
+
+ case ::perfetto::protos::pbzero::LogMessage_Priority::PRIO_ERROR:
+ return "PRIO_ERROR";
+
+ case ::perfetto::protos::pbzero::LogMessage_Priority::PRIO_FATAL:
+ return "PRIO_FATAL";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+class LogMessageBody_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ LogMessageBody_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit LogMessageBody_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit LogMessageBody_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_iid() const { return at<1>().valid(); }
+ uint64_t iid() const { return at<1>().as_uint64(); }
+ bool has_body() const { return at<2>().valid(); }
+ ::protozero::ConstChars body() const { return at<2>().as_string(); }
+};
+
+class LogMessageBody : public ::protozero::Message {
+ public:
+ using Decoder = LogMessageBody_Decoder;
+ enum : int32_t {
+ kIidFieldNumber = 1,
+ kBodyFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.LogMessageBody"; }
+
+
+ using FieldMetadata_Iid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ LogMessageBody>;
+
+ static constexpr FieldMetadata_Iid kIid{};
+ void set_iid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Iid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Body =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ LogMessageBody>;
+
+ static constexpr FieldMetadata_Body kBody{};
+ void set_body(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Body::kFieldId, data, size);
+ }
+ void set_body(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Body::kFieldId, chars.data, chars.size);
+ }
+ void set_body(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Body::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class LogMessage_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ LogMessage_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit LogMessage_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit LogMessage_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_source_location_iid() const { return at<1>().valid(); }
+ uint64_t source_location_iid() const { return at<1>().as_uint64(); }
+ bool has_body_iid() const { return at<2>().valid(); }
+ uint64_t body_iid() const { return at<2>().as_uint64(); }
+ bool has_prio() const { return at<3>().valid(); }
+ int32_t prio() const { return at<3>().as_int32(); }
+};
+
+class LogMessage : public ::protozero::Message {
+ public:
+ using Decoder = LogMessage_Decoder;
+ enum : int32_t {
+ kSourceLocationIidFieldNumber = 1,
+ kBodyIidFieldNumber = 2,
+ kPrioFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.LogMessage"; }
+
+
+ using Priority = ::perfetto::protos::pbzero::LogMessage_Priority;
+ static inline const char* Priority_Name(Priority value) {
+ return ::perfetto::protos::pbzero::LogMessage_Priority_Name(value);
+ }
+ static inline const Priority PRIO_UNSPECIFIED = Priority::PRIO_UNSPECIFIED;
+ static inline const Priority PRIO_UNUSED = Priority::PRIO_UNUSED;
+ static inline const Priority PRIO_VERBOSE = Priority::PRIO_VERBOSE;
+ static inline const Priority PRIO_DEBUG = Priority::PRIO_DEBUG;
+ static inline const Priority PRIO_INFO = Priority::PRIO_INFO;
+ static inline const Priority PRIO_WARN = Priority::PRIO_WARN;
+ static inline const Priority PRIO_ERROR = Priority::PRIO_ERROR;
+ static inline const Priority PRIO_FATAL = Priority::PRIO_FATAL;
+
+ using FieldMetadata_SourceLocationIid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ LogMessage>;
+
+ static constexpr FieldMetadata_SourceLocationIid kSourceLocationIid{};
+ void set_source_location_iid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SourceLocationIid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BodyIid =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ LogMessage>;
+
+ static constexpr FieldMetadata_BodyIid kBodyIid{};
+ void set_body_iid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_BodyIid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Prio =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ LogMessage_Priority,
+ LogMessage>;
+
+ static constexpr FieldMetadata_Prio kPrio{};
+ void set_prio(LogMessage_Priority value) {
+ static constexpr uint32_t field_id = FieldMetadata_Prio::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/track_event/pixel_modem.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_PIXEL_MODEM_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_PIXEL_MODEM_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class PixelModemEventInsight_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ PixelModemEventInsight_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit PixelModemEventInsight_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit PixelModemEventInsight_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_detokenized_message() const { return at<1>().valid(); }
+ ::protozero::ConstChars detokenized_message() const { return at<1>().as_string(); }
+};
+
+class PixelModemEventInsight : public ::protozero::Message {
+ public:
+ using Decoder = PixelModemEventInsight_Decoder;
+ enum : int32_t {
+ kDetokenizedMessageFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.PixelModemEventInsight"; }
+
+
+ using FieldMetadata_DetokenizedMessage =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ PixelModemEventInsight>;
+
+ static constexpr FieldMetadata_DetokenizedMessage kDetokenizedMessage{};
+ void set_detokenized_message(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_DetokenizedMessage::kFieldId, data, size);
+ }
+ void set_detokenized_message(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_DetokenizedMessage::kFieldId, chars.data, chars.size);
+ }
+ void set_detokenized_message(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_DetokenizedMessage::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/track_event/process_descriptor.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_PROCESS_DESCRIPTOR_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_PROCESS_DESCRIPTOR_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+namespace perfetto_pbzero_enum_ProcessDescriptor {
+enum ChromeProcessType : int32_t;
+} // namespace perfetto_pbzero_enum_ProcessDescriptor
+using ProcessDescriptor_ChromeProcessType = perfetto_pbzero_enum_ProcessDescriptor::ChromeProcessType;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+namespace perfetto_pbzero_enum_ProcessDescriptor {
+enum ChromeProcessType : int32_t {
+ PROCESS_UNSPECIFIED = 0,
+ PROCESS_BROWSER = 1,
+ PROCESS_RENDERER = 2,
+ PROCESS_UTILITY = 3,
+ PROCESS_ZYGOTE = 4,
+ PROCESS_SANDBOX_HELPER = 5,
+ PROCESS_GPU = 6,
+ PROCESS_PPAPI_PLUGIN = 7,
+ PROCESS_PPAPI_BROKER = 8,
+};
+} // namespace perfetto_pbzero_enum_ProcessDescriptor
+using ProcessDescriptor_ChromeProcessType = perfetto_pbzero_enum_ProcessDescriptor::ChromeProcessType;
+
+
+constexpr ProcessDescriptor_ChromeProcessType ProcessDescriptor_ChromeProcessType_MIN = ProcessDescriptor_ChromeProcessType::PROCESS_UNSPECIFIED;
+constexpr ProcessDescriptor_ChromeProcessType ProcessDescriptor_ChromeProcessType_MAX = ProcessDescriptor_ChromeProcessType::PROCESS_PPAPI_BROKER;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* ProcessDescriptor_ChromeProcessType_Name(::perfetto::protos::pbzero::ProcessDescriptor_ChromeProcessType value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::ProcessDescriptor_ChromeProcessType::PROCESS_UNSPECIFIED:
+ return "PROCESS_UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::ProcessDescriptor_ChromeProcessType::PROCESS_BROWSER:
+ return "PROCESS_BROWSER";
+
+ case ::perfetto::protos::pbzero::ProcessDescriptor_ChromeProcessType::PROCESS_RENDERER:
+ return "PROCESS_RENDERER";
+
+ case ::perfetto::protos::pbzero::ProcessDescriptor_ChromeProcessType::PROCESS_UTILITY:
+ return "PROCESS_UTILITY";
+
+ case ::perfetto::protos::pbzero::ProcessDescriptor_ChromeProcessType::PROCESS_ZYGOTE:
+ return "PROCESS_ZYGOTE";
+
+ case ::perfetto::protos::pbzero::ProcessDescriptor_ChromeProcessType::PROCESS_SANDBOX_HELPER:
+ return "PROCESS_SANDBOX_HELPER";
+
+ case ::perfetto::protos::pbzero::ProcessDescriptor_ChromeProcessType::PROCESS_GPU:
+ return "PROCESS_GPU";
+
+ case ::perfetto::protos::pbzero::ProcessDescriptor_ChromeProcessType::PROCESS_PPAPI_PLUGIN:
+ return "PROCESS_PPAPI_PLUGIN";
+
+ case ::perfetto::protos::pbzero::ProcessDescriptor_ChromeProcessType::PROCESS_PPAPI_BROKER:
+ return "PROCESS_PPAPI_BROKER";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+class ProcessDescriptor_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/8, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ ProcessDescriptor_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ProcessDescriptor_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ProcessDescriptor_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_pid() const { return at<1>().valid(); }
+ int32_t pid() const { return at<1>().as_int32(); }
+ bool has_cmdline() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstChars> cmdline() const { return GetRepeated<::protozero::ConstChars>(2); }
+ bool has_process_name() const { return at<6>().valid(); }
+ ::protozero::ConstChars process_name() const { return at<6>().as_string(); }
+ bool has_process_priority() const { return at<5>().valid(); }
+ int32_t process_priority() const { return at<5>().as_int32(); }
+ bool has_start_timestamp_ns() const { return at<7>().valid(); }
+ int64_t start_timestamp_ns() const { return at<7>().as_int64(); }
+ bool has_chrome_process_type() const { return at<4>().valid(); }
+ int32_t chrome_process_type() const { return at<4>().as_int32(); }
+ bool has_legacy_sort_index() const { return at<3>().valid(); }
+ int32_t legacy_sort_index() const { return at<3>().as_int32(); }
+ bool has_process_labels() const { return at<8>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstChars> process_labels() const { return GetRepeated<::protozero::ConstChars>(8); }
+};
+
+class ProcessDescriptor : public ::protozero::Message {
+ public:
+ using Decoder = ProcessDescriptor_Decoder;
+ enum : int32_t {
+ kPidFieldNumber = 1,
+ kCmdlineFieldNumber = 2,
+ kProcessNameFieldNumber = 6,
+ kProcessPriorityFieldNumber = 5,
+ kStartTimestampNsFieldNumber = 7,
+ kChromeProcessTypeFieldNumber = 4,
+ kLegacySortIndexFieldNumber = 3,
+ kProcessLabelsFieldNumber = 8,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ProcessDescriptor"; }
+
+
+ using ChromeProcessType = ::perfetto::protos::pbzero::ProcessDescriptor_ChromeProcessType;
+ static inline const char* ChromeProcessType_Name(ChromeProcessType value) {
+ return ::perfetto::protos::pbzero::ProcessDescriptor_ChromeProcessType_Name(value);
+ }
+ static inline const ChromeProcessType PROCESS_UNSPECIFIED = ChromeProcessType::PROCESS_UNSPECIFIED;
+ static inline const ChromeProcessType PROCESS_BROWSER = ChromeProcessType::PROCESS_BROWSER;
+ static inline const ChromeProcessType PROCESS_RENDERER = ChromeProcessType::PROCESS_RENDERER;
+ static inline const ChromeProcessType PROCESS_UTILITY = ChromeProcessType::PROCESS_UTILITY;
+ static inline const ChromeProcessType PROCESS_ZYGOTE = ChromeProcessType::PROCESS_ZYGOTE;
+ static inline const ChromeProcessType PROCESS_SANDBOX_HELPER = ChromeProcessType::PROCESS_SANDBOX_HELPER;
+ static inline const ChromeProcessType PROCESS_GPU = ChromeProcessType::PROCESS_GPU;
+ static inline const ChromeProcessType PROCESS_PPAPI_PLUGIN = ChromeProcessType::PROCESS_PPAPI_PLUGIN;
+ static inline const ChromeProcessType PROCESS_PPAPI_BROKER = ChromeProcessType::PROCESS_PPAPI_BROKER;
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ ProcessDescriptor>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Cmdline =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ProcessDescriptor>;
+
+ static constexpr FieldMetadata_Cmdline kCmdline{};
+ void add_cmdline(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Cmdline::kFieldId, data, size);
+ }
+ void add_cmdline(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Cmdline::kFieldId, chars.data, chars.size);
+ }
+ void add_cmdline(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Cmdline::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ProcessName =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ProcessDescriptor>;
+
+ static constexpr FieldMetadata_ProcessName kProcessName{};
+ void set_process_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_ProcessName::kFieldId, data, size);
+ }
+ void set_process_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_ProcessName::kFieldId, chars.data, chars.size);
+ }
+ void set_process_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_ProcessName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ProcessPriority =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ ProcessDescriptor>;
+
+ static constexpr FieldMetadata_ProcessPriority kProcessPriority{};
+ void set_process_priority(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ProcessPriority::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_StartTimestampNs =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ ProcessDescriptor>;
+
+ static constexpr FieldMetadata_StartTimestampNs kStartTimestampNs{};
+ void set_start_timestamp_ns(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_StartTimestampNs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ChromeProcessType =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ ProcessDescriptor_ChromeProcessType,
+ ProcessDescriptor>;
+
+ static constexpr FieldMetadata_ChromeProcessType kChromeProcessType{};
+ void set_chrome_process_type(ProcessDescriptor_ChromeProcessType value) {
+ static constexpr uint32_t field_id = FieldMetadata_ChromeProcessType::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_LegacySortIndex =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ ProcessDescriptor>;
+
+ static constexpr FieldMetadata_LegacySortIndex kLegacySortIndex{};
+ void set_legacy_sort_index(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_LegacySortIndex::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ProcessLabels =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ProcessDescriptor>;
+
+ static constexpr FieldMetadata_ProcessLabels kProcessLabels{};
+ void add_process_labels(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_ProcessLabels::kFieldId, data, size);
+ }
+ void add_process_labels(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_ProcessLabels::kFieldId, chars.data, chars.size);
+ }
+ void add_process_labels(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_ProcessLabels::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/track_event/range_of_interest.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_RANGE_OF_INTEREST_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_RANGE_OF_INTEREST_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class TrackEventRangeOfInterest_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ TrackEventRangeOfInterest_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TrackEventRangeOfInterest_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TrackEventRangeOfInterest_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_start_us() const { return at<1>().valid(); }
+ int64_t start_us() const { return at<1>().as_int64(); }
+};
+
+class TrackEventRangeOfInterest : public ::protozero::Message {
+ public:
+ using Decoder = TrackEventRangeOfInterest_Decoder;
+ enum : int32_t {
+ kStartUsFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TrackEventRangeOfInterest"; }
+
+
+ using FieldMetadata_StartUs =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ TrackEventRangeOfInterest>;
+
+ static constexpr FieldMetadata_StartUs kStartUs{};
+ void set_start_us(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_StartUs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/track_event/screenshot.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_SCREENSHOT_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_SCREENSHOT_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class Screenshot_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Screenshot_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Screenshot_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Screenshot_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_jpg_image() const { return at<1>().valid(); }
+ ::protozero::ConstBytes jpg_image() const { return at<1>().as_bytes(); }
+};
+
+class Screenshot : public ::protozero::Message {
+ public:
+ using Decoder = Screenshot_Decoder;
+ enum : int32_t {
+ kJpgImageFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Screenshot"; }
+
+
+ using FieldMetadata_JpgImage =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBytes,
+ std::string,
+ Screenshot>;
+
+ static constexpr FieldMetadata_JpgImage kJpgImage{};
+ void set_jpg_image(const uint8_t* data, size_t size) {
+ AppendBytes(FieldMetadata_JpgImage::kFieldId, data, size);
+ }
+ void set_jpg_image(::protozero::ConstBytes bytes) {
+ AppendBytes(FieldMetadata_JpgImage::kFieldId, bytes.data, bytes.size);
+ }
+ void set_jpg_image(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_JpgImage::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBytes>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/track_event/source_location.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_SOURCE_LOCATION_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_SOURCE_LOCATION_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class SourceLocation_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ SourceLocation_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SourceLocation_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SourceLocation_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_iid() const { return at<1>().valid(); }
+ uint64_t iid() const { return at<1>().as_uint64(); }
+ bool has_file_name() const { return at<2>().valid(); }
+ ::protozero::ConstChars file_name() const { return at<2>().as_string(); }
+ bool has_function_name() const { return at<3>().valid(); }
+ ::protozero::ConstChars function_name() const { return at<3>().as_string(); }
+ bool has_line_number() const { return at<4>().valid(); }
+ uint32_t line_number() const { return at<4>().as_uint32(); }
+};
+
+class SourceLocation : public ::protozero::Message {
+ public:
+ using Decoder = SourceLocation_Decoder;
+ enum : int32_t {
+ kIidFieldNumber = 1,
+ kFileNameFieldNumber = 2,
+ kFunctionNameFieldNumber = 3,
+ kLineNumberFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SourceLocation"; }
+
+
+ using FieldMetadata_Iid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SourceLocation>;
+
+ static constexpr FieldMetadata_Iid kIid{};
+ void set_iid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Iid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FileName =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ SourceLocation>;
+
+ static constexpr FieldMetadata_FileName kFileName{};
+ void set_file_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_FileName::kFieldId, data, size);
+ }
+ void set_file_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_FileName::kFieldId, chars.data, chars.size);
+ }
+ void set_file_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_FileName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FunctionName =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ SourceLocation>;
+
+ static constexpr FieldMetadata_FunctionName kFunctionName{};
+ void set_function_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_FunctionName::kFieldId, data, size);
+ }
+ void set_function_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_FunctionName::kFieldId, chars.data, chars.size);
+ }
+ void set_function_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_FunctionName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_LineNumber =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SourceLocation>;
+
+ static constexpr FieldMetadata_LineNumber kLineNumber{};
+ void set_line_number(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_LineNumber::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class UnsymbolizedSourceLocation_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ UnsymbolizedSourceLocation_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit UnsymbolizedSourceLocation_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit UnsymbolizedSourceLocation_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_iid() const { return at<1>().valid(); }
+ uint64_t iid() const { return at<1>().as_uint64(); }
+ bool has_mapping_id() const { return at<2>().valid(); }
+ uint64_t mapping_id() const { return at<2>().as_uint64(); }
+ bool has_rel_pc() const { return at<3>().valid(); }
+ uint64_t rel_pc() const { return at<3>().as_uint64(); }
+};
+
+class UnsymbolizedSourceLocation : public ::protozero::Message {
+ public:
+ using Decoder = UnsymbolizedSourceLocation_Decoder;
+ enum : int32_t {
+ kIidFieldNumber = 1,
+ kMappingIdFieldNumber = 2,
+ kRelPcFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.UnsymbolizedSourceLocation"; }
+
+
+ using FieldMetadata_Iid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ UnsymbolizedSourceLocation>;
+
+ static constexpr FieldMetadata_Iid kIid{};
+ void set_iid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Iid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_MappingId =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ UnsymbolizedSourceLocation>;
+
+ static constexpr FieldMetadata_MappingId kMappingId{};
+ void set_mapping_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_MappingId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_RelPc =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ UnsymbolizedSourceLocation>;
+
+ static constexpr FieldMetadata_RelPc kRelPc{};
+ void set_rel_pc(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_RelPc::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/track_event/task_execution.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_TASK_EXECUTION_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_TASK_EXECUTION_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class TaskExecution_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ TaskExecution_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TaskExecution_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TaskExecution_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_posted_from_iid() const { return at<1>().valid(); }
+ uint64_t posted_from_iid() const { return at<1>().as_uint64(); }
+};
+
+class TaskExecution : public ::protozero::Message {
+ public:
+ using Decoder = TaskExecution_Decoder;
+ enum : int32_t {
+ kPostedFromIidFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TaskExecution"; }
+
+
+ using FieldMetadata_PostedFromIid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TaskExecution>;
+
+ static constexpr FieldMetadata_PostedFromIid kPostedFromIid{};
+ void set_posted_from_iid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_PostedFromIid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/track_event/thread_descriptor.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_THREAD_DESCRIPTOR_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_THREAD_DESCRIPTOR_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+namespace perfetto_pbzero_enum_ThreadDescriptor {
+enum ChromeThreadType : int32_t;
+} // namespace perfetto_pbzero_enum_ThreadDescriptor
+using ThreadDescriptor_ChromeThreadType = perfetto_pbzero_enum_ThreadDescriptor::ChromeThreadType;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+namespace perfetto_pbzero_enum_ThreadDescriptor {
+enum ChromeThreadType : int32_t {
+ CHROME_THREAD_UNSPECIFIED = 0,
+ CHROME_THREAD_MAIN = 1,
+ CHROME_THREAD_IO = 2,
+ CHROME_THREAD_POOL_BG_WORKER = 3,
+ CHROME_THREAD_POOL_FG_WORKER = 4,
+ CHROME_THREAD_POOL_FB_BLOCKING = 5,
+ CHROME_THREAD_POOL_BG_BLOCKING = 6,
+ CHROME_THREAD_POOL_SERVICE = 7,
+ CHROME_THREAD_COMPOSITOR = 8,
+ CHROME_THREAD_VIZ_COMPOSITOR = 9,
+ CHROME_THREAD_COMPOSITOR_WORKER = 10,
+ CHROME_THREAD_SERVICE_WORKER = 11,
+ CHROME_THREAD_MEMORY_INFRA = 50,
+ CHROME_THREAD_SAMPLING_PROFILER = 51,
+};
+} // namespace perfetto_pbzero_enum_ThreadDescriptor
+using ThreadDescriptor_ChromeThreadType = perfetto_pbzero_enum_ThreadDescriptor::ChromeThreadType;
+
+
+constexpr ThreadDescriptor_ChromeThreadType ThreadDescriptor_ChromeThreadType_MIN = ThreadDescriptor_ChromeThreadType::CHROME_THREAD_UNSPECIFIED;
+constexpr ThreadDescriptor_ChromeThreadType ThreadDescriptor_ChromeThreadType_MAX = ThreadDescriptor_ChromeThreadType::CHROME_THREAD_SAMPLING_PROFILER;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* ThreadDescriptor_ChromeThreadType_Name(::perfetto::protos::pbzero::ThreadDescriptor_ChromeThreadType value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::ThreadDescriptor_ChromeThreadType::CHROME_THREAD_UNSPECIFIED:
+ return "CHROME_THREAD_UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::ThreadDescriptor_ChromeThreadType::CHROME_THREAD_MAIN:
+ return "CHROME_THREAD_MAIN";
+
+ case ::perfetto::protos::pbzero::ThreadDescriptor_ChromeThreadType::CHROME_THREAD_IO:
+ return "CHROME_THREAD_IO";
+
+ case ::perfetto::protos::pbzero::ThreadDescriptor_ChromeThreadType::CHROME_THREAD_POOL_BG_WORKER:
+ return "CHROME_THREAD_POOL_BG_WORKER";
+
+ case ::perfetto::protos::pbzero::ThreadDescriptor_ChromeThreadType::CHROME_THREAD_POOL_FG_WORKER:
+ return "CHROME_THREAD_POOL_FG_WORKER";
+
+ case ::perfetto::protos::pbzero::ThreadDescriptor_ChromeThreadType::CHROME_THREAD_POOL_FB_BLOCKING:
+ return "CHROME_THREAD_POOL_FB_BLOCKING";
+
+ case ::perfetto::protos::pbzero::ThreadDescriptor_ChromeThreadType::CHROME_THREAD_POOL_BG_BLOCKING:
+ return "CHROME_THREAD_POOL_BG_BLOCKING";
+
+ case ::perfetto::protos::pbzero::ThreadDescriptor_ChromeThreadType::CHROME_THREAD_POOL_SERVICE:
+ return "CHROME_THREAD_POOL_SERVICE";
+
+ case ::perfetto::protos::pbzero::ThreadDescriptor_ChromeThreadType::CHROME_THREAD_COMPOSITOR:
+ return "CHROME_THREAD_COMPOSITOR";
+
+ case ::perfetto::protos::pbzero::ThreadDescriptor_ChromeThreadType::CHROME_THREAD_VIZ_COMPOSITOR:
+ return "CHROME_THREAD_VIZ_COMPOSITOR";
+
+ case ::perfetto::protos::pbzero::ThreadDescriptor_ChromeThreadType::CHROME_THREAD_COMPOSITOR_WORKER:
+ return "CHROME_THREAD_COMPOSITOR_WORKER";
+
+ case ::perfetto::protos::pbzero::ThreadDescriptor_ChromeThreadType::CHROME_THREAD_SERVICE_WORKER:
+ return "CHROME_THREAD_SERVICE_WORKER";
+
+ case ::perfetto::protos::pbzero::ThreadDescriptor_ChromeThreadType::CHROME_THREAD_MEMORY_INFRA:
+ return "CHROME_THREAD_MEMORY_INFRA";
+
+ case ::perfetto::protos::pbzero::ThreadDescriptor_ChromeThreadType::CHROME_THREAD_SAMPLING_PROFILER:
+ return "CHROME_THREAD_SAMPLING_PROFILER";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+class ThreadDescriptor_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/8, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ThreadDescriptor_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ThreadDescriptor_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ThreadDescriptor_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_pid() const { return at<1>().valid(); }
+ int32_t pid() const { return at<1>().as_int32(); }
+ bool has_tid() const { return at<2>().valid(); }
+ int32_t tid() const { return at<2>().as_int32(); }
+ bool has_thread_name() const { return at<5>().valid(); }
+ ::protozero::ConstChars thread_name() const { return at<5>().as_string(); }
+ bool has_chrome_thread_type() const { return at<4>().valid(); }
+ int32_t chrome_thread_type() const { return at<4>().as_int32(); }
+ bool has_reference_timestamp_us() const { return at<6>().valid(); }
+ int64_t reference_timestamp_us() const { return at<6>().as_int64(); }
+ bool has_reference_thread_time_us() const { return at<7>().valid(); }
+ int64_t reference_thread_time_us() const { return at<7>().as_int64(); }
+ bool has_reference_thread_instruction_count() const { return at<8>().valid(); }
+ int64_t reference_thread_instruction_count() const { return at<8>().as_int64(); }
+ bool has_legacy_sort_index() const { return at<3>().valid(); }
+ int32_t legacy_sort_index() const { return at<3>().as_int32(); }
+};
+
+class ThreadDescriptor : public ::protozero::Message {
+ public:
+ using Decoder = ThreadDescriptor_Decoder;
+ enum : int32_t {
+ kPidFieldNumber = 1,
+ kTidFieldNumber = 2,
+ kThreadNameFieldNumber = 5,
+ kChromeThreadTypeFieldNumber = 4,
+ kReferenceTimestampUsFieldNumber = 6,
+ kReferenceThreadTimeUsFieldNumber = 7,
+ kReferenceThreadInstructionCountFieldNumber = 8,
+ kLegacySortIndexFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ThreadDescriptor"; }
+
+
+ using ChromeThreadType = ::perfetto::protos::pbzero::ThreadDescriptor_ChromeThreadType;
+ static inline const char* ChromeThreadType_Name(ChromeThreadType value) {
+ return ::perfetto::protos::pbzero::ThreadDescriptor_ChromeThreadType_Name(value);
+ }
+ static inline const ChromeThreadType CHROME_THREAD_UNSPECIFIED = ChromeThreadType::CHROME_THREAD_UNSPECIFIED;
+ static inline const ChromeThreadType CHROME_THREAD_MAIN = ChromeThreadType::CHROME_THREAD_MAIN;
+ static inline const ChromeThreadType CHROME_THREAD_IO = ChromeThreadType::CHROME_THREAD_IO;
+ static inline const ChromeThreadType CHROME_THREAD_POOL_BG_WORKER = ChromeThreadType::CHROME_THREAD_POOL_BG_WORKER;
+ static inline const ChromeThreadType CHROME_THREAD_POOL_FG_WORKER = ChromeThreadType::CHROME_THREAD_POOL_FG_WORKER;
+ static inline const ChromeThreadType CHROME_THREAD_POOL_FB_BLOCKING = ChromeThreadType::CHROME_THREAD_POOL_FB_BLOCKING;
+ static inline const ChromeThreadType CHROME_THREAD_POOL_BG_BLOCKING = ChromeThreadType::CHROME_THREAD_POOL_BG_BLOCKING;
+ static inline const ChromeThreadType CHROME_THREAD_POOL_SERVICE = ChromeThreadType::CHROME_THREAD_POOL_SERVICE;
+ static inline const ChromeThreadType CHROME_THREAD_COMPOSITOR = ChromeThreadType::CHROME_THREAD_COMPOSITOR;
+ static inline const ChromeThreadType CHROME_THREAD_VIZ_COMPOSITOR = ChromeThreadType::CHROME_THREAD_VIZ_COMPOSITOR;
+ static inline const ChromeThreadType CHROME_THREAD_COMPOSITOR_WORKER = ChromeThreadType::CHROME_THREAD_COMPOSITOR_WORKER;
+ static inline const ChromeThreadType CHROME_THREAD_SERVICE_WORKER = ChromeThreadType::CHROME_THREAD_SERVICE_WORKER;
+ static inline const ChromeThreadType CHROME_THREAD_MEMORY_INFRA = ChromeThreadType::CHROME_THREAD_MEMORY_INFRA;
+ static inline const ChromeThreadType CHROME_THREAD_SAMPLING_PROFILER = ChromeThreadType::CHROME_THREAD_SAMPLING_PROFILER;
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ ThreadDescriptor>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Tid =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ ThreadDescriptor>;
+
+ static constexpr FieldMetadata_Tid kTid{};
+ void set_tid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Tid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ThreadName =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ThreadDescriptor>;
+
+ static constexpr FieldMetadata_ThreadName kThreadName{};
+ void set_thread_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_ThreadName::kFieldId, data, size);
+ }
+ void set_thread_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_ThreadName::kFieldId, chars.data, chars.size);
+ }
+ void set_thread_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_ThreadName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ChromeThreadType =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ ThreadDescriptor_ChromeThreadType,
+ ThreadDescriptor>;
+
+ static constexpr FieldMetadata_ChromeThreadType kChromeThreadType{};
+ void set_chrome_thread_type(ThreadDescriptor_ChromeThreadType value) {
+ static constexpr uint32_t field_id = FieldMetadata_ChromeThreadType::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ReferenceTimestampUs =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ ThreadDescriptor>;
+
+ static constexpr FieldMetadata_ReferenceTimestampUs kReferenceTimestampUs{};
+ void set_reference_timestamp_us(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ReferenceTimestampUs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ReferenceThreadTimeUs =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ ThreadDescriptor>;
+
+ static constexpr FieldMetadata_ReferenceThreadTimeUs kReferenceThreadTimeUs{};
+ void set_reference_thread_time_us(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ReferenceThreadTimeUs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ReferenceThreadInstructionCount =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ ThreadDescriptor>;
+
+ static constexpr FieldMetadata_ReferenceThreadInstructionCount kReferenceThreadInstructionCount{};
+ void set_reference_thread_instruction_count(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ReferenceThreadInstructionCount::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_LegacySortIndex =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ ThreadDescriptor>;
+
+ static constexpr FieldMetadata_LegacySortIndex kLegacySortIndex{};
+ void set_legacy_sort_index(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_LegacySortIndex::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/perfetto/perfetto_metatrace.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_PERFETTO_PERFETTO_METATRACE_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_PERFETTO_PERFETTO_METATRACE_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class PerfettoMetatrace_Arg;
+class PerfettoMetatrace_InternedString;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class PerfettoMetatrace_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/11, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ PerfettoMetatrace_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit PerfettoMetatrace_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit PerfettoMetatrace_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_event_id() const { return at<1>().valid(); }
+ uint32_t event_id() const { return at<1>().as_uint32(); }
+ bool has_counter_id() const { return at<2>().valid(); }
+ uint32_t counter_id() const { return at<2>().as_uint32(); }
+ bool has_event_name() const { return at<8>().valid(); }
+ ::protozero::ConstChars event_name() const { return at<8>().as_string(); }
+ bool has_event_name_iid() const { return at<11>().valid(); }
+ uint64_t event_name_iid() const { return at<11>().as_uint64(); }
+ bool has_counter_name() const { return at<9>().valid(); }
+ ::protozero::ConstChars counter_name() const { return at<9>().as_string(); }
+ bool has_event_duration_ns() const { return at<3>().valid(); }
+ uint64_t event_duration_ns() const { return at<3>().as_uint64(); }
+ bool has_counter_value() const { return at<4>().valid(); }
+ int32_t counter_value() const { return at<4>().as_int32(); }
+ bool has_thread_id() const { return at<5>().valid(); }
+ uint32_t thread_id() const { return at<5>().as_uint32(); }
+ bool has_has_overruns() const { return at<6>().valid(); }
+ bool has_overruns() const { return at<6>().as_bool(); }
+ bool has_args() const { return at<7>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> args() const { return GetRepeated<::protozero::ConstBytes>(7); }
+ bool has_interned_strings() const { return at<10>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> interned_strings() const { return GetRepeated<::protozero::ConstBytes>(10); }
+};
+
+class PerfettoMetatrace : public ::protozero::Message {
+ public:
+ using Decoder = PerfettoMetatrace_Decoder;
+ enum : int32_t {
+ kEventIdFieldNumber = 1,
+ kCounterIdFieldNumber = 2,
+ kEventNameFieldNumber = 8,
+ kEventNameIidFieldNumber = 11,
+ kCounterNameFieldNumber = 9,
+ kEventDurationNsFieldNumber = 3,
+ kCounterValueFieldNumber = 4,
+ kThreadIdFieldNumber = 5,
+ kHasOverrunsFieldNumber = 6,
+ kArgsFieldNumber = 7,
+ kInternedStringsFieldNumber = 10,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.PerfettoMetatrace"; }
+
+ using Arg = ::perfetto::protos::pbzero::PerfettoMetatrace_Arg;
+ using InternedString = ::perfetto::protos::pbzero::PerfettoMetatrace_InternedString;
+
+ using FieldMetadata_EventId =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ PerfettoMetatrace>;
+
+ static constexpr FieldMetadata_EventId kEventId{};
+ void set_event_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_EventId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CounterId =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ PerfettoMetatrace>;
+
+ static constexpr FieldMetadata_CounterId kCounterId{};
+ void set_counter_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CounterId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_EventName =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ PerfettoMetatrace>;
+
+ static constexpr FieldMetadata_EventName kEventName{};
+ void set_event_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_EventName::kFieldId, data, size);
+ }
+ void set_event_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_EventName::kFieldId, chars.data, chars.size);
+ }
+ void set_event_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_EventName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_EventNameIid =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ PerfettoMetatrace>;
+
+ static constexpr FieldMetadata_EventNameIid kEventNameIid{};
+ void set_event_name_iid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_EventNameIid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CounterName =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ PerfettoMetatrace>;
+
+ static constexpr FieldMetadata_CounterName kCounterName{};
+ void set_counter_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_CounterName::kFieldId, data, size);
+ }
+ void set_counter_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_CounterName::kFieldId, chars.data, chars.size);
+ }
+ void set_counter_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_CounterName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_EventDurationNs =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ PerfettoMetatrace>;
+
+ static constexpr FieldMetadata_EventDurationNs kEventDurationNs{};
+ void set_event_duration_ns(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_EventDurationNs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CounterValue =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ PerfettoMetatrace>;
+
+ static constexpr FieldMetadata_CounterValue kCounterValue{};
+ void set_counter_value(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CounterValue::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ThreadId =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ PerfettoMetatrace>;
+
+ static constexpr FieldMetadata_ThreadId kThreadId{};
+ void set_thread_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ThreadId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_HasOverruns =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ PerfettoMetatrace>;
+
+ static constexpr FieldMetadata_HasOverruns kHasOverruns{};
+ void set_has_overruns(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_HasOverruns::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Args =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ PerfettoMetatrace_Arg,
+ PerfettoMetatrace>;
+
+ static constexpr FieldMetadata_Args kArgs{};
+ template <typename T = PerfettoMetatrace_Arg> T* add_args() {
+ return BeginNestedMessage<T>(7);
+ }
+
+
+ using FieldMetadata_InternedStrings =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ PerfettoMetatrace_InternedString,
+ PerfettoMetatrace>;
+
+ static constexpr FieldMetadata_InternedStrings kInternedStrings{};
+ template <typename T = PerfettoMetatrace_InternedString> T* add_interned_strings() {
+ return BeginNestedMessage<T>(10);
+ }
+
+};
+
+class PerfettoMetatrace_InternedString_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ PerfettoMetatrace_InternedString_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit PerfettoMetatrace_InternedString_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit PerfettoMetatrace_InternedString_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_iid() const { return at<1>().valid(); }
+ uint64_t iid() const { return at<1>().as_uint64(); }
+ bool has_value() const { return at<2>().valid(); }
+ ::protozero::ConstChars value() const { return at<2>().as_string(); }
+};
+
+class PerfettoMetatrace_InternedString : public ::protozero::Message {
+ public:
+ using Decoder = PerfettoMetatrace_InternedString_Decoder;
+ enum : int32_t {
+ kIidFieldNumber = 1,
+ kValueFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.PerfettoMetatrace.InternedString"; }
+
+
+ using FieldMetadata_Iid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ PerfettoMetatrace_InternedString>;
+
+ static constexpr FieldMetadata_Iid kIid{};
+ void set_iid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Iid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Value =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ PerfettoMetatrace_InternedString>;
+
+ static constexpr FieldMetadata_Value kValue{};
+ void set_value(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Value::kFieldId, data, size);
+ }
+ void set_value(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Value::kFieldId, chars.data, chars.size);
+ }
+ void set_value(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Value::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class PerfettoMetatrace_Arg_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ PerfettoMetatrace_Arg_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit PerfettoMetatrace_Arg_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit PerfettoMetatrace_Arg_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_key() const { return at<1>().valid(); }
+ ::protozero::ConstChars key() const { return at<1>().as_string(); }
+ bool has_key_iid() const { return at<3>().valid(); }
+ uint64_t key_iid() const { return at<3>().as_uint64(); }
+ bool has_value() const { return at<2>().valid(); }
+ ::protozero::ConstChars value() const { return at<2>().as_string(); }
+ bool has_value_iid() const { return at<4>().valid(); }
+ uint64_t value_iid() const { return at<4>().as_uint64(); }
+};
+
+class PerfettoMetatrace_Arg : public ::protozero::Message {
+ public:
+ using Decoder = PerfettoMetatrace_Arg_Decoder;
+ enum : int32_t {
+ kKeyFieldNumber = 1,
+ kKeyIidFieldNumber = 3,
+ kValueFieldNumber = 2,
+ kValueIidFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.PerfettoMetatrace.Arg"; }
+
+
+ using FieldMetadata_Key =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ PerfettoMetatrace_Arg>;
+
+ static constexpr FieldMetadata_Key kKey{};
+ void set_key(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Key::kFieldId, data, size);
+ }
+ void set_key(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Key::kFieldId, chars.data, chars.size);
+ }
+ void set_key(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Key::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_KeyIid =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ PerfettoMetatrace_Arg>;
+
+ static constexpr FieldMetadata_KeyIid kKeyIid{};
+ void set_key_iid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_KeyIid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Value =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ PerfettoMetatrace_Arg>;
+
+ static constexpr FieldMetadata_Value kValue{};
+ void set_value(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Value::kFieldId, data, size);
+ }
+ void set_value(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Value::kFieldId, chars.data, chars.size);
+ }
+ void set_value(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Value::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ValueIid =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ PerfettoMetatrace_Arg>;
+
+ static constexpr FieldMetadata_ValueIid kValueIid{};
+ void set_value_iid(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ValueIid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/perfetto/tracing_service_event.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_PERFETTO_TRACING_SERVICE_EVENT_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_PERFETTO_TRACING_SERVICE_EVENT_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class TracingServiceEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/6, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ TracingServiceEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TracingServiceEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TracingServiceEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_tracing_started() const { return at<2>().valid(); }
+ bool tracing_started() const { return at<2>().as_bool(); }
+ bool has_all_data_sources_started() const { return at<1>().valid(); }
+ bool all_data_sources_started() const { return at<1>().as_bool(); }
+ bool has_all_data_sources_flushed() const { return at<3>().valid(); }
+ bool all_data_sources_flushed() const { return at<3>().as_bool(); }
+ bool has_read_tracing_buffers_completed() const { return at<4>().valid(); }
+ bool read_tracing_buffers_completed() const { return at<4>().as_bool(); }
+ bool has_tracing_disabled() const { return at<5>().valid(); }
+ bool tracing_disabled() const { return at<5>().as_bool(); }
+ bool has_seized_for_bugreport() const { return at<6>().valid(); }
+ bool seized_for_bugreport() const { return at<6>().as_bool(); }
+};
+
+class TracingServiceEvent : public ::protozero::Message {
+ public:
+ using Decoder = TracingServiceEvent_Decoder;
+ enum : int32_t {
+ kTracingStartedFieldNumber = 2,
+ kAllDataSourcesStartedFieldNumber = 1,
+ kAllDataSourcesFlushedFieldNumber = 3,
+ kReadTracingBuffersCompletedFieldNumber = 4,
+ kTracingDisabledFieldNumber = 5,
+ kSeizedForBugreportFieldNumber = 6,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TracingServiceEvent"; }
+
+
+ using FieldMetadata_TracingStarted =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ TracingServiceEvent>;
+
+ static constexpr FieldMetadata_TracingStarted kTracingStarted{};
+ void set_tracing_started(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_TracingStarted::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_AllDataSourcesStarted =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ TracingServiceEvent>;
+
+ static constexpr FieldMetadata_AllDataSourcesStarted kAllDataSourcesStarted{};
+ void set_all_data_sources_started(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_AllDataSourcesStarted::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_AllDataSourcesFlushed =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ TracingServiceEvent>;
+
+ static constexpr FieldMetadata_AllDataSourcesFlushed kAllDataSourcesFlushed{};
+ void set_all_data_sources_flushed(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_AllDataSourcesFlushed::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ReadTracingBuffersCompleted =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ TracingServiceEvent>;
+
+ static constexpr FieldMetadata_ReadTracingBuffersCompleted kReadTracingBuffersCompleted{};
+ void set_read_tracing_buffers_completed(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_ReadTracingBuffersCompleted::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TracingDisabled =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ TracingServiceEvent>;
+
+ static constexpr FieldMetadata_TracingDisabled kTracingDisabled{};
+ void set_tracing_disabled(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_TracingDisabled::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SeizedForBugreport =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ TracingServiceEvent>;
+
+ static constexpr FieldMetadata_SeizedForBugreport kSeizedForBugreport{};
+ void set_seized_for_bugreport(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_SeizedForBugreport::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/power/android_energy_estimation_breakdown.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_POWER_ANDROID_ENERGY_ESTIMATION_BREAKDOWN_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_POWER_ANDROID_ENERGY_ESTIMATION_BREAKDOWN_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class AndroidEnergyConsumerDescriptor;
+class AndroidEnergyEstimationBreakdown_EnergyUidBreakdown;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class AndroidEnergyEstimationBreakdown_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ AndroidEnergyEstimationBreakdown_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit AndroidEnergyEstimationBreakdown_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit AndroidEnergyEstimationBreakdown_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_energy_consumer_descriptor() const { return at<1>().valid(); }
+ ::protozero::ConstBytes energy_consumer_descriptor() const { return at<1>().as_bytes(); }
+ bool has_energy_consumer_id() const { return at<2>().valid(); }
+ int32_t energy_consumer_id() const { return at<2>().as_int32(); }
+ bool has_energy_uws() const { return at<3>().valid(); }
+ int64_t energy_uws() const { return at<3>().as_int64(); }
+ bool has_per_uid_breakdown() const { return at<4>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> per_uid_breakdown() const { return GetRepeated<::protozero::ConstBytes>(4); }
+};
+
+class AndroidEnergyEstimationBreakdown : public ::protozero::Message {
+ public:
+ using Decoder = AndroidEnergyEstimationBreakdown_Decoder;
+ enum : int32_t {
+ kEnergyConsumerDescriptorFieldNumber = 1,
+ kEnergyConsumerIdFieldNumber = 2,
+ kEnergyUwsFieldNumber = 3,
+ kPerUidBreakdownFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.AndroidEnergyEstimationBreakdown"; }
+
+ using EnergyUidBreakdown = ::perfetto::protos::pbzero::AndroidEnergyEstimationBreakdown_EnergyUidBreakdown;
+
+ using FieldMetadata_EnergyConsumerDescriptor =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ AndroidEnergyConsumerDescriptor,
+ AndroidEnergyEstimationBreakdown>;
+
+ static constexpr FieldMetadata_EnergyConsumerDescriptor kEnergyConsumerDescriptor{};
+ template <typename T = AndroidEnergyConsumerDescriptor> T* set_energy_consumer_descriptor() {
+ return BeginNestedMessage<T>(1);
+ }
+
+
+ using FieldMetadata_EnergyConsumerId =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ AndroidEnergyEstimationBreakdown>;
+
+ static constexpr FieldMetadata_EnergyConsumerId kEnergyConsumerId{};
+ void set_energy_consumer_id(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_EnergyConsumerId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_EnergyUws =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ AndroidEnergyEstimationBreakdown>;
+
+ static constexpr FieldMetadata_EnergyUws kEnergyUws{};
+ void set_energy_uws(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_EnergyUws::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_PerUidBreakdown =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ AndroidEnergyEstimationBreakdown_EnergyUidBreakdown,
+ AndroidEnergyEstimationBreakdown>;
+
+ static constexpr FieldMetadata_PerUidBreakdown kPerUidBreakdown{};
+ template <typename T = AndroidEnergyEstimationBreakdown_EnergyUidBreakdown> T* add_per_uid_breakdown() {
+ return BeginNestedMessage<T>(4);
+ }
+
+};
+
+class AndroidEnergyEstimationBreakdown_EnergyUidBreakdown_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ AndroidEnergyEstimationBreakdown_EnergyUidBreakdown_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit AndroidEnergyEstimationBreakdown_EnergyUidBreakdown_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit AndroidEnergyEstimationBreakdown_EnergyUidBreakdown_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_uid() const { return at<1>().valid(); }
+ int32_t uid() const { return at<1>().as_int32(); }
+ bool has_energy_uws() const { return at<2>().valid(); }
+ int64_t energy_uws() const { return at<2>().as_int64(); }
+};
+
+class AndroidEnergyEstimationBreakdown_EnergyUidBreakdown : public ::protozero::Message {
+ public:
+ using Decoder = AndroidEnergyEstimationBreakdown_EnergyUidBreakdown_Decoder;
+ enum : int32_t {
+ kUidFieldNumber = 1,
+ kEnergyUwsFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.AndroidEnergyEstimationBreakdown.EnergyUidBreakdown"; }
+
+
+ using FieldMetadata_Uid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ AndroidEnergyEstimationBreakdown_EnergyUidBreakdown>;
+
+ static constexpr FieldMetadata_Uid kUid{};
+ void set_uid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Uid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_EnergyUws =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ AndroidEnergyEstimationBreakdown_EnergyUidBreakdown>;
+
+ static constexpr FieldMetadata_EnergyUws kEnergyUws{};
+ void set_energy_uws(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_EnergyUws::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/power/android_entity_state_residency.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_POWER_ANDROID_ENTITY_STATE_RESIDENCY_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_POWER_ANDROID_ENTITY_STATE_RESIDENCY_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class EntityStateResidency_PowerEntityState;
+class EntityStateResidency_StateResidency;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class EntityStateResidency_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ EntityStateResidency_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit EntityStateResidency_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit EntityStateResidency_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_power_entity_state() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> power_entity_state() const { return GetRepeated<::protozero::ConstBytes>(1); }
+ bool has_residency() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> residency() const { return GetRepeated<::protozero::ConstBytes>(2); }
+};
+
+class EntityStateResidency : public ::protozero::Message {
+ public:
+ using Decoder = EntityStateResidency_Decoder;
+ enum : int32_t {
+ kPowerEntityStateFieldNumber = 1,
+ kResidencyFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.EntityStateResidency"; }
+
+ using PowerEntityState = ::perfetto::protos::pbzero::EntityStateResidency_PowerEntityState;
+ using StateResidency = ::perfetto::protos::pbzero::EntityStateResidency_StateResidency;
+
+ using FieldMetadata_PowerEntityState =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ EntityStateResidency_PowerEntityState,
+ EntityStateResidency>;
+
+ static constexpr FieldMetadata_PowerEntityState kPowerEntityState{};
+ template <typename T = EntityStateResidency_PowerEntityState> T* add_power_entity_state() {
+ return BeginNestedMessage<T>(1);
+ }
+
+
+ using FieldMetadata_Residency =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ EntityStateResidency_StateResidency,
+ EntityStateResidency>;
+
+ static constexpr FieldMetadata_Residency kResidency{};
+ template <typename T = EntityStateResidency_StateResidency> T* add_residency() {
+ return BeginNestedMessage<T>(2);
+ }
+
+};
+
+class EntityStateResidency_StateResidency_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ EntityStateResidency_StateResidency_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit EntityStateResidency_StateResidency_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit EntityStateResidency_StateResidency_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_entity_index() const { return at<1>().valid(); }
+ int32_t entity_index() const { return at<1>().as_int32(); }
+ bool has_state_index() const { return at<2>().valid(); }
+ int32_t state_index() const { return at<2>().as_int32(); }
+ bool has_total_time_in_state_ms() const { return at<3>().valid(); }
+ uint64_t total_time_in_state_ms() const { return at<3>().as_uint64(); }
+ bool has_total_state_entry_count() const { return at<4>().valid(); }
+ uint64_t total_state_entry_count() const { return at<4>().as_uint64(); }
+ bool has_last_entry_timestamp_ms() const { return at<5>().valid(); }
+ uint64_t last_entry_timestamp_ms() const { return at<5>().as_uint64(); }
+};
+
+class EntityStateResidency_StateResidency : public ::protozero::Message {
+ public:
+ using Decoder = EntityStateResidency_StateResidency_Decoder;
+ enum : int32_t {
+ kEntityIndexFieldNumber = 1,
+ kStateIndexFieldNumber = 2,
+ kTotalTimeInStateMsFieldNumber = 3,
+ kTotalStateEntryCountFieldNumber = 4,
+ kLastEntryTimestampMsFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.EntityStateResidency.StateResidency"; }
+
+
+ using FieldMetadata_EntityIndex =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ EntityStateResidency_StateResidency>;
+
+ static constexpr FieldMetadata_EntityIndex kEntityIndex{};
+ void set_entity_index(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_EntityIndex::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_StateIndex =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ EntityStateResidency_StateResidency>;
+
+ static constexpr FieldMetadata_StateIndex kStateIndex{};
+ void set_state_index(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_StateIndex::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TotalTimeInStateMs =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ EntityStateResidency_StateResidency>;
+
+ static constexpr FieldMetadata_TotalTimeInStateMs kTotalTimeInStateMs{};
+ void set_total_time_in_state_ms(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TotalTimeInStateMs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TotalStateEntryCount =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ EntityStateResidency_StateResidency>;
+
+ static constexpr FieldMetadata_TotalStateEntryCount kTotalStateEntryCount{};
+ void set_total_state_entry_count(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TotalStateEntryCount::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_LastEntryTimestampMs =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ EntityStateResidency_StateResidency>;
+
+ static constexpr FieldMetadata_LastEntryTimestampMs kLastEntryTimestampMs{};
+ void set_last_entry_timestamp_ms(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_LastEntryTimestampMs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class EntityStateResidency_PowerEntityState_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ EntityStateResidency_PowerEntityState_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit EntityStateResidency_PowerEntityState_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit EntityStateResidency_PowerEntityState_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_entity_index() const { return at<1>().valid(); }
+ int32_t entity_index() const { return at<1>().as_int32(); }
+ bool has_state_index() const { return at<2>().valid(); }
+ int32_t state_index() const { return at<2>().as_int32(); }
+ bool has_entity_name() const { return at<3>().valid(); }
+ ::protozero::ConstChars entity_name() const { return at<3>().as_string(); }
+ bool has_state_name() const { return at<4>().valid(); }
+ ::protozero::ConstChars state_name() const { return at<4>().as_string(); }
+};
+
+class EntityStateResidency_PowerEntityState : public ::protozero::Message {
+ public:
+ using Decoder = EntityStateResidency_PowerEntityState_Decoder;
+ enum : int32_t {
+ kEntityIndexFieldNumber = 1,
+ kStateIndexFieldNumber = 2,
+ kEntityNameFieldNumber = 3,
+ kStateNameFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.EntityStateResidency.PowerEntityState"; }
+
+
+ using FieldMetadata_EntityIndex =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ EntityStateResidency_PowerEntityState>;
+
+ static constexpr FieldMetadata_EntityIndex kEntityIndex{};
+ void set_entity_index(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_EntityIndex::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_StateIndex =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ EntityStateResidency_PowerEntityState>;
+
+ static constexpr FieldMetadata_StateIndex kStateIndex{};
+ void set_state_index(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_StateIndex::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_EntityName =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ EntityStateResidency_PowerEntityState>;
+
+ static constexpr FieldMetadata_EntityName kEntityName{};
+ void set_entity_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_EntityName::kFieldId, data, size);
+ }
+ void set_entity_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_EntityName::kFieldId, chars.data, chars.size);
+ }
+ void set_entity_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_EntityName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_StateName =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ EntityStateResidency_PowerEntityState>;
+
+ static constexpr FieldMetadata_StateName kStateName{};
+ void set_state_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_StateName::kFieldId, data, size);
+ }
+ void set_state_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_StateName::kFieldId, chars.data, chars.size);
+ }
+ void set_state_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_StateName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/power/battery_counters.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_POWER_BATTERY_COUNTERS_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_POWER_BATTERY_COUNTERS_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class BatteryCounters_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/7, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ BatteryCounters_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit BatteryCounters_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit BatteryCounters_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_charge_counter_uah() const { return at<1>().valid(); }
+ int64_t charge_counter_uah() const { return at<1>().as_int64(); }
+ bool has_capacity_percent() const { return at<2>().valid(); }
+ float capacity_percent() const { return at<2>().as_float(); }
+ bool has_current_ua() const { return at<3>().valid(); }
+ int64_t current_ua() const { return at<3>().as_int64(); }
+ bool has_current_avg_ua() const { return at<4>().valid(); }
+ int64_t current_avg_ua() const { return at<4>().as_int64(); }
+ bool has_name() const { return at<5>().valid(); }
+ ::protozero::ConstChars name() const { return at<5>().as_string(); }
+ bool has_energy_counter_uwh() const { return at<6>().valid(); }
+ int64_t energy_counter_uwh() const { return at<6>().as_int64(); }
+ bool has_voltage_uv() const { return at<7>().valid(); }
+ int64_t voltage_uv() const { return at<7>().as_int64(); }
+};
+
+class BatteryCounters : public ::protozero::Message {
+ public:
+ using Decoder = BatteryCounters_Decoder;
+ enum : int32_t {
+ kChargeCounterUahFieldNumber = 1,
+ kCapacityPercentFieldNumber = 2,
+ kCurrentUaFieldNumber = 3,
+ kCurrentAvgUaFieldNumber = 4,
+ kNameFieldNumber = 5,
+ kEnergyCounterUwhFieldNumber = 6,
+ kVoltageUvFieldNumber = 7,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.BatteryCounters"; }
+
+
+ using FieldMetadata_ChargeCounterUah =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ BatteryCounters>;
+
+ static constexpr FieldMetadata_ChargeCounterUah kChargeCounterUah{};
+ void set_charge_counter_uah(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ChargeCounterUah::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CapacityPercent =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kFloat,
+ float,
+ BatteryCounters>;
+
+ static constexpr FieldMetadata_CapacityPercent kCapacityPercent{};
+ void set_capacity_percent(float value) {
+ static constexpr uint32_t field_id = FieldMetadata_CapacityPercent::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kFloat>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CurrentUa =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ BatteryCounters>;
+
+ static constexpr FieldMetadata_CurrentUa kCurrentUa{};
+ void set_current_ua(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CurrentUa::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_CurrentAvgUa =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ BatteryCounters>;
+
+ static constexpr FieldMetadata_CurrentAvgUa kCurrentAvgUa{};
+ void set_current_avg_ua(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CurrentAvgUa::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ BatteryCounters>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_EnergyCounterUwh =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ BatteryCounters>;
+
+ static constexpr FieldMetadata_EnergyCounterUwh kEnergyCounterUwh{};
+ void set_energy_counter_uwh(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_EnergyCounterUwh::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_VoltageUv =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ BatteryCounters>;
+
+ static constexpr FieldMetadata_VoltageUv kVoltageUv{};
+ void set_voltage_uv(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_VoltageUv::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/power/power_rails.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_POWER_POWER_RAILS_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_POWER_POWER_RAILS_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class PowerRails_EnergyData;
+class PowerRails_RailDescriptor;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class PowerRails_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ PowerRails_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit PowerRails_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit PowerRails_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_rail_descriptor() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> rail_descriptor() const { return GetRepeated<::protozero::ConstBytes>(1); }
+ bool has_energy_data() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> energy_data() const { return GetRepeated<::protozero::ConstBytes>(2); }
+};
+
+class PowerRails : public ::protozero::Message {
+ public:
+ using Decoder = PowerRails_Decoder;
+ enum : int32_t {
+ kRailDescriptorFieldNumber = 1,
+ kEnergyDataFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.PowerRails"; }
+
+ using RailDescriptor = ::perfetto::protos::pbzero::PowerRails_RailDescriptor;
+ using EnergyData = ::perfetto::protos::pbzero::PowerRails_EnergyData;
+
+ using FieldMetadata_RailDescriptor =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ PowerRails_RailDescriptor,
+ PowerRails>;
+
+ static constexpr FieldMetadata_RailDescriptor kRailDescriptor{};
+ template <typename T = PowerRails_RailDescriptor> T* add_rail_descriptor() {
+ return BeginNestedMessage<T>(1);
+ }
+
+
+ using FieldMetadata_EnergyData =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ PowerRails_EnergyData,
+ PowerRails>;
+
+ static constexpr FieldMetadata_EnergyData kEnergyData{};
+ template <typename T = PowerRails_EnergyData> T* add_energy_data() {
+ return BeginNestedMessage<T>(2);
+ }
+
+};
+
+class PowerRails_EnergyData_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ PowerRails_EnergyData_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit PowerRails_EnergyData_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit PowerRails_EnergyData_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_index() const { return at<1>().valid(); }
+ uint32_t index() const { return at<1>().as_uint32(); }
+ bool has_timestamp_ms() const { return at<2>().valid(); }
+ uint64_t timestamp_ms() const { return at<2>().as_uint64(); }
+ bool has_energy() const { return at<3>().valid(); }
+ uint64_t energy() const { return at<3>().as_uint64(); }
+};
+
+class PowerRails_EnergyData : public ::protozero::Message {
+ public:
+ using Decoder = PowerRails_EnergyData_Decoder;
+ enum : int32_t {
+ kIndexFieldNumber = 1,
+ kTimestampMsFieldNumber = 2,
+ kEnergyFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.PowerRails.EnergyData"; }
+
+
+ using FieldMetadata_Index =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ PowerRails_EnergyData>;
+
+ static constexpr FieldMetadata_Index kIndex{};
+ void set_index(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Index::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimestampMs =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ PowerRails_EnergyData>;
+
+ static constexpr FieldMetadata_TimestampMs kTimestampMs{};
+ void set_timestamp_ms(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimestampMs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Energy =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ PowerRails_EnergyData>;
+
+ static constexpr FieldMetadata_Energy kEnergy{};
+ void set_energy(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Energy::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class PowerRails_RailDescriptor_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ PowerRails_RailDescriptor_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit PowerRails_RailDescriptor_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit PowerRails_RailDescriptor_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_index() const { return at<1>().valid(); }
+ uint32_t index() const { return at<1>().as_uint32(); }
+ bool has_rail_name() const { return at<2>().valid(); }
+ ::protozero::ConstChars rail_name() const { return at<2>().as_string(); }
+ bool has_subsys_name() const { return at<3>().valid(); }
+ ::protozero::ConstChars subsys_name() const { return at<3>().as_string(); }
+ bool has_sampling_rate() const { return at<4>().valid(); }
+ uint32_t sampling_rate() const { return at<4>().as_uint32(); }
+};
+
+class PowerRails_RailDescriptor : public ::protozero::Message {
+ public:
+ using Decoder = PowerRails_RailDescriptor_Decoder;
+ enum : int32_t {
+ kIndexFieldNumber = 1,
+ kRailNameFieldNumber = 2,
+ kSubsysNameFieldNumber = 3,
+ kSamplingRateFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.PowerRails.RailDescriptor"; }
+
+
+ using FieldMetadata_Index =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ PowerRails_RailDescriptor>;
+
+ static constexpr FieldMetadata_Index kIndex{};
+ void set_index(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Index::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_RailName =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ PowerRails_RailDescriptor>;
+
+ static constexpr FieldMetadata_RailName kRailName{};
+ void set_rail_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_RailName::kFieldId, data, size);
+ }
+ void set_rail_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_RailName::kFieldId, chars.data, chars.size);
+ }
+ void set_rail_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_RailName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SubsysName =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ PowerRails_RailDescriptor>;
+
+ static constexpr FieldMetadata_SubsysName kSubsysName{};
+ void set_subsys_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_SubsysName::kFieldId, data, size);
+ }
+ void set_subsys_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_SubsysName::kFieldId, chars.data, chars.size);
+ }
+ void set_subsys_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_SubsysName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SamplingRate =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ PowerRails_RailDescriptor>;
+
+ static constexpr FieldMetadata_SamplingRate kSamplingRate{};
+ void set_sampling_rate(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SamplingRate::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ps/process_stats.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_PS_PROCESS_STATS_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_PS_PROCESS_STATS_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class ProcessStats_FDInfo;
+class ProcessStats_Process;
+class ProcessStats_Thread;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class ProcessStats_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ ProcessStats_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ProcessStats_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ProcessStats_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_processes() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> processes() const { return GetRepeated<::protozero::ConstBytes>(1); }
+ bool has_collection_end_timestamp() const { return at<2>().valid(); }
+ uint64_t collection_end_timestamp() const { return at<2>().as_uint64(); }
+};
+
+class ProcessStats : public ::protozero::Message {
+ public:
+ using Decoder = ProcessStats_Decoder;
+ enum : int32_t {
+ kProcessesFieldNumber = 1,
+ kCollectionEndTimestampFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ProcessStats"; }
+
+ using Thread = ::perfetto::protos::pbzero::ProcessStats_Thread;
+ using FDInfo = ::perfetto::protos::pbzero::ProcessStats_FDInfo;
+ using Process = ::perfetto::protos::pbzero::ProcessStats_Process;
+
+ using FieldMetadata_Processes =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ProcessStats_Process,
+ ProcessStats>;
+
+ static constexpr FieldMetadata_Processes kProcesses{};
+ template <typename T = ProcessStats_Process> T* add_processes() {
+ return BeginNestedMessage<T>(1);
+ }
+
+
+ using FieldMetadata_CollectionEndTimestamp =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ProcessStats>;
+
+ static constexpr FieldMetadata_CollectionEndTimestamp kCollectionEndTimestamp{};
+ void set_collection_end_timestamp(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CollectionEndTimestamp::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class ProcessStats_Process_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/22, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ ProcessStats_Process_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ProcessStats_Process_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ProcessStats_Process_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_pid() const { return at<1>().valid(); }
+ int32_t pid() const { return at<1>().as_int32(); }
+ bool has_threads() const { return at<11>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> threads() const { return GetRepeated<::protozero::ConstBytes>(11); }
+ bool has_vm_size_kb() const { return at<2>().valid(); }
+ uint64_t vm_size_kb() const { return at<2>().as_uint64(); }
+ bool has_vm_rss_kb() const { return at<3>().valid(); }
+ uint64_t vm_rss_kb() const { return at<3>().as_uint64(); }
+ bool has_rss_anon_kb() const { return at<4>().valid(); }
+ uint64_t rss_anon_kb() const { return at<4>().as_uint64(); }
+ bool has_rss_file_kb() const { return at<5>().valid(); }
+ uint64_t rss_file_kb() const { return at<5>().as_uint64(); }
+ bool has_rss_shmem_kb() const { return at<6>().valid(); }
+ uint64_t rss_shmem_kb() const { return at<6>().as_uint64(); }
+ bool has_vm_swap_kb() const { return at<7>().valid(); }
+ uint64_t vm_swap_kb() const { return at<7>().as_uint64(); }
+ bool has_vm_locked_kb() const { return at<8>().valid(); }
+ uint64_t vm_locked_kb() const { return at<8>().as_uint64(); }
+ bool has_vm_hwm_kb() const { return at<9>().valid(); }
+ uint64_t vm_hwm_kb() const { return at<9>().as_uint64(); }
+ bool has_oom_score_adj() const { return at<10>().valid(); }
+ int64_t oom_score_adj() const { return at<10>().as_int64(); }
+ bool has_is_peak_rss_resettable() const { return at<12>().valid(); }
+ bool is_peak_rss_resettable() const { return at<12>().as_bool(); }
+ bool has_chrome_private_footprint_kb() const { return at<13>().valid(); }
+ uint32_t chrome_private_footprint_kb() const { return at<13>().as_uint32(); }
+ bool has_chrome_peak_resident_set_kb() const { return at<14>().valid(); }
+ uint32_t chrome_peak_resident_set_kb() const { return at<14>().as_uint32(); }
+ bool has_fds() const { return at<15>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> fds() const { return GetRepeated<::protozero::ConstBytes>(15); }
+ bool has_smr_rss_kb() const { return at<16>().valid(); }
+ uint64_t smr_rss_kb() const { return at<16>().as_uint64(); }
+ bool has_smr_pss_kb() const { return at<17>().valid(); }
+ uint64_t smr_pss_kb() const { return at<17>().as_uint64(); }
+ bool has_smr_pss_anon_kb() const { return at<18>().valid(); }
+ uint64_t smr_pss_anon_kb() const { return at<18>().as_uint64(); }
+ bool has_smr_pss_file_kb() const { return at<19>().valid(); }
+ uint64_t smr_pss_file_kb() const { return at<19>().as_uint64(); }
+ bool has_smr_pss_shmem_kb() const { return at<20>().valid(); }
+ uint64_t smr_pss_shmem_kb() const { return at<20>().as_uint64(); }
+ bool has_runtime_user_mode() const { return at<21>().valid(); }
+ uint64_t runtime_user_mode() const { return at<21>().as_uint64(); }
+ bool has_runtime_kernel_mode() const { return at<22>().valid(); }
+ uint64_t runtime_kernel_mode() const { return at<22>().as_uint64(); }
+};
+
+class ProcessStats_Process : public ::protozero::Message {
+ public:
+ using Decoder = ProcessStats_Process_Decoder;
+ enum : int32_t {
+ kPidFieldNumber = 1,
+ kThreadsFieldNumber = 11,
+ kVmSizeKbFieldNumber = 2,
+ kVmRssKbFieldNumber = 3,
+ kRssAnonKbFieldNumber = 4,
+ kRssFileKbFieldNumber = 5,
+ kRssShmemKbFieldNumber = 6,
+ kVmSwapKbFieldNumber = 7,
+ kVmLockedKbFieldNumber = 8,
+ kVmHwmKbFieldNumber = 9,
+ kOomScoreAdjFieldNumber = 10,
+ kIsPeakRssResettableFieldNumber = 12,
+ kChromePrivateFootprintKbFieldNumber = 13,
+ kChromePeakResidentSetKbFieldNumber = 14,
+ kFdsFieldNumber = 15,
+ kSmrRssKbFieldNumber = 16,
+ kSmrPssKbFieldNumber = 17,
+ kSmrPssAnonKbFieldNumber = 18,
+ kSmrPssFileKbFieldNumber = 19,
+ kSmrPssShmemKbFieldNumber = 20,
+ kRuntimeUserModeFieldNumber = 21,
+ kRuntimeKernelModeFieldNumber = 22,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ProcessStats.Process"; }
+
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ ProcessStats_Process>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Threads =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ProcessStats_Thread,
+ ProcessStats_Process>;
+
+ static constexpr FieldMetadata_Threads kThreads{};
+ template <typename T = ProcessStats_Thread> T* add_threads() {
+ return BeginNestedMessage<T>(11);
+ }
+
+
+ using FieldMetadata_VmSizeKb =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ProcessStats_Process>;
+
+ static constexpr FieldMetadata_VmSizeKb kVmSizeKb{};
+ void set_vm_size_kb(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_VmSizeKb::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_VmRssKb =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ProcessStats_Process>;
+
+ static constexpr FieldMetadata_VmRssKb kVmRssKb{};
+ void set_vm_rss_kb(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_VmRssKb::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_RssAnonKb =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ProcessStats_Process>;
+
+ static constexpr FieldMetadata_RssAnonKb kRssAnonKb{};
+ void set_rss_anon_kb(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_RssAnonKb::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_RssFileKb =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ProcessStats_Process>;
+
+ static constexpr FieldMetadata_RssFileKb kRssFileKb{};
+ void set_rss_file_kb(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_RssFileKb::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_RssShmemKb =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ProcessStats_Process>;
+
+ static constexpr FieldMetadata_RssShmemKb kRssShmemKb{};
+ void set_rss_shmem_kb(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_RssShmemKb::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_VmSwapKb =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ProcessStats_Process>;
+
+ static constexpr FieldMetadata_VmSwapKb kVmSwapKb{};
+ void set_vm_swap_kb(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_VmSwapKb::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_VmLockedKb =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ProcessStats_Process>;
+
+ static constexpr FieldMetadata_VmLockedKb kVmLockedKb{};
+ void set_vm_locked_kb(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_VmLockedKb::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_VmHwmKb =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ProcessStats_Process>;
+
+ static constexpr FieldMetadata_VmHwmKb kVmHwmKb{};
+ void set_vm_hwm_kb(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_VmHwmKb::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_OomScoreAdj =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ ProcessStats_Process>;
+
+ static constexpr FieldMetadata_OomScoreAdj kOomScoreAdj{};
+ void set_oom_score_adj(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_OomScoreAdj::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IsPeakRssResettable =
+ ::protozero::proto_utils::FieldMetadata<
+ 12,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ ProcessStats_Process>;
+
+ static constexpr FieldMetadata_IsPeakRssResettable kIsPeakRssResettable{};
+ void set_is_peak_rss_resettable(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_IsPeakRssResettable::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ChromePrivateFootprintKb =
+ ::protozero::proto_utils::FieldMetadata<
+ 13,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ ProcessStats_Process>;
+
+ static constexpr FieldMetadata_ChromePrivateFootprintKb kChromePrivateFootprintKb{};
+ void set_chrome_private_footprint_kb(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ChromePrivateFootprintKb::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ChromePeakResidentSetKb =
+ ::protozero::proto_utils::FieldMetadata<
+ 14,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ ProcessStats_Process>;
+
+ static constexpr FieldMetadata_ChromePeakResidentSetKb kChromePeakResidentSetKb{};
+ void set_chrome_peak_resident_set_kb(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ChromePeakResidentSetKb::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Fds =
+ ::protozero::proto_utils::FieldMetadata<
+ 15,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ProcessStats_FDInfo,
+ ProcessStats_Process>;
+
+ static constexpr FieldMetadata_Fds kFds{};
+ template <typename T = ProcessStats_FDInfo> T* add_fds() {
+ return BeginNestedMessage<T>(15);
+ }
+
+
+ using FieldMetadata_SmrRssKb =
+ ::protozero::proto_utils::FieldMetadata<
+ 16,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ProcessStats_Process>;
+
+ static constexpr FieldMetadata_SmrRssKb kSmrRssKb{};
+ void set_smr_rss_kb(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SmrRssKb::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SmrPssKb =
+ ::protozero::proto_utils::FieldMetadata<
+ 17,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ProcessStats_Process>;
+
+ static constexpr FieldMetadata_SmrPssKb kSmrPssKb{};
+ void set_smr_pss_kb(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SmrPssKb::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SmrPssAnonKb =
+ ::protozero::proto_utils::FieldMetadata<
+ 18,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ProcessStats_Process>;
+
+ static constexpr FieldMetadata_SmrPssAnonKb kSmrPssAnonKb{};
+ void set_smr_pss_anon_kb(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SmrPssAnonKb::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SmrPssFileKb =
+ ::protozero::proto_utils::FieldMetadata<
+ 19,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ProcessStats_Process>;
+
+ static constexpr FieldMetadata_SmrPssFileKb kSmrPssFileKb{};
+ void set_smr_pss_file_kb(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SmrPssFileKb::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SmrPssShmemKb =
+ ::protozero::proto_utils::FieldMetadata<
+ 20,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ProcessStats_Process>;
+
+ static constexpr FieldMetadata_SmrPssShmemKb kSmrPssShmemKb{};
+ void set_smr_pss_shmem_kb(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SmrPssShmemKb::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_RuntimeUserMode =
+ ::protozero::proto_utils::FieldMetadata<
+ 21,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ProcessStats_Process>;
+
+ static constexpr FieldMetadata_RuntimeUserMode kRuntimeUserMode{};
+ void set_runtime_user_mode(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_RuntimeUserMode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_RuntimeKernelMode =
+ ::protozero::proto_utils::FieldMetadata<
+ 22,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ProcessStats_Process>;
+
+ static constexpr FieldMetadata_RuntimeKernelMode kRuntimeKernelMode{};
+ void set_runtime_kernel_mode(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_RuntimeKernelMode::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class ProcessStats_FDInfo_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ProcessStats_FDInfo_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ProcessStats_FDInfo_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ProcessStats_FDInfo_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_fd() const { return at<1>().valid(); }
+ uint64_t fd() const { return at<1>().as_uint64(); }
+ bool has_path() const { return at<2>().valid(); }
+ ::protozero::ConstChars path() const { return at<2>().as_string(); }
+};
+
+class ProcessStats_FDInfo : public ::protozero::Message {
+ public:
+ using Decoder = ProcessStats_FDInfo_Decoder;
+ enum : int32_t {
+ kFdFieldNumber = 1,
+ kPathFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ProcessStats.FDInfo"; }
+
+
+ using FieldMetadata_Fd =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ProcessStats_FDInfo>;
+
+ static constexpr FieldMetadata_Fd kFd{};
+ void set_fd(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Fd::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Path =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ProcessStats_FDInfo>;
+
+ static constexpr FieldMetadata_Path kPath{};
+ void set_path(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Path::kFieldId, data, size);
+ }
+ void set_path(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Path::kFieldId, chars.data, chars.size);
+ }
+ void set_path(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Path::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class ProcessStats_Thread_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ProcessStats_Thread_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ProcessStats_Thread_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ProcessStats_Thread_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_tid() const { return at<1>().valid(); }
+ int32_t tid() const { return at<1>().as_int32(); }
+};
+
+class ProcessStats_Thread : public ::protozero::Message {
+ public:
+ using Decoder = ProcessStats_Thread_Decoder;
+ enum : int32_t {
+ kTidFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ProcessStats.Thread"; }
+
+
+ using FieldMetadata_Tid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ ProcessStats_Thread>;
+
+ static constexpr FieldMetadata_Tid kTid{};
+ void set_tid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Tid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ps/process_tree.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_PS_PROCESS_TREE_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_PS_PROCESS_TREE_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class ProcessTree_Process;
+class ProcessTree_Thread;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class ProcessTree_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ ProcessTree_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ProcessTree_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ProcessTree_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_processes() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> processes() const { return GetRepeated<::protozero::ConstBytes>(1); }
+ bool has_threads() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> threads() const { return GetRepeated<::protozero::ConstBytes>(2); }
+ bool has_collection_end_timestamp() const { return at<3>().valid(); }
+ uint64_t collection_end_timestamp() const { return at<3>().as_uint64(); }
+};
+
+class ProcessTree : public ::protozero::Message {
+ public:
+ using Decoder = ProcessTree_Decoder;
+ enum : int32_t {
+ kProcessesFieldNumber = 1,
+ kThreadsFieldNumber = 2,
+ kCollectionEndTimestampFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ProcessTree"; }
+
+ using Thread = ::perfetto::protos::pbzero::ProcessTree_Thread;
+ using Process = ::perfetto::protos::pbzero::ProcessTree_Process;
+
+ using FieldMetadata_Processes =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ProcessTree_Process,
+ ProcessTree>;
+
+ static constexpr FieldMetadata_Processes kProcesses{};
+ template <typename T = ProcessTree_Process> T* add_processes() {
+ return BeginNestedMessage<T>(1);
+ }
+
+
+ using FieldMetadata_Threads =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ProcessTree_Thread,
+ ProcessTree>;
+
+ static constexpr FieldMetadata_Threads kThreads{};
+ template <typename T = ProcessTree_Thread> T* add_threads() {
+ return BeginNestedMessage<T>(2);
+ }
+
+
+ using FieldMetadata_CollectionEndTimestamp =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ProcessTree>;
+
+ static constexpr FieldMetadata_CollectionEndTimestamp kCollectionEndTimestamp{};
+ void set_collection_end_timestamp(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CollectionEndTimestamp::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class ProcessTree_Process_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/7, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ ProcessTree_Process_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ProcessTree_Process_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ProcessTree_Process_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_pid() const { return at<1>().valid(); }
+ int32_t pid() const { return at<1>().as_int32(); }
+ bool has_ppid() const { return at<2>().valid(); }
+ int32_t ppid() const { return at<2>().as_int32(); }
+ bool has_cmdline() const { return at<3>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstChars> cmdline() const { return GetRepeated<::protozero::ConstChars>(3); }
+ bool has_uid() const { return at<5>().valid(); }
+ int32_t uid() const { return at<5>().as_int32(); }
+ bool has_nspid() const { return at<6>().valid(); }
+ ::protozero::RepeatedFieldIterator<int32_t> nspid() const { return GetRepeated<int32_t>(6); }
+ bool has_process_start_from_boot() const { return at<7>().valid(); }
+ uint64_t process_start_from_boot() const { return at<7>().as_uint64(); }
+};
+
+class ProcessTree_Process : public ::protozero::Message {
+ public:
+ using Decoder = ProcessTree_Process_Decoder;
+ enum : int32_t {
+ kPidFieldNumber = 1,
+ kPpidFieldNumber = 2,
+ kCmdlineFieldNumber = 3,
+ kUidFieldNumber = 5,
+ kNspidFieldNumber = 6,
+ kProcessStartFromBootFieldNumber = 7,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ProcessTree.Process"; }
+
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ ProcessTree_Process>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Ppid =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ ProcessTree_Process>;
+
+ static constexpr FieldMetadata_Ppid kPpid{};
+ void set_ppid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Ppid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Cmdline =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ProcessTree_Process>;
+
+ static constexpr FieldMetadata_Cmdline kCmdline{};
+ void add_cmdline(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Cmdline::kFieldId, data, size);
+ }
+ void add_cmdline(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Cmdline::kFieldId, chars.data, chars.size);
+ }
+ void add_cmdline(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Cmdline::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Uid =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ ProcessTree_Process>;
+
+ static constexpr FieldMetadata_Uid kUid{};
+ void set_uid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Uid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Nspid =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ ProcessTree_Process>;
+
+ static constexpr FieldMetadata_Nspid kNspid{};
+ void add_nspid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Nspid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ProcessStartFromBoot =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ProcessTree_Process>;
+
+ static constexpr FieldMetadata_ProcessStartFromBoot kProcessStartFromBoot{};
+ void set_process_start_from_boot(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ProcessStartFromBoot::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class ProcessTree_Thread_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ ProcessTree_Thread_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ProcessTree_Thread_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ProcessTree_Thread_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_tid() const { return at<1>().valid(); }
+ int32_t tid() const { return at<1>().as_int32(); }
+ bool has_tgid() const { return at<3>().valid(); }
+ int32_t tgid() const { return at<3>().as_int32(); }
+ bool has_name() const { return at<2>().valid(); }
+ ::protozero::ConstChars name() const { return at<2>().as_string(); }
+ bool has_nstid() const { return at<4>().valid(); }
+ ::protozero::RepeatedFieldIterator<int32_t> nstid() const { return GetRepeated<int32_t>(4); }
+};
+
+class ProcessTree_Thread : public ::protozero::Message {
+ public:
+ using Decoder = ProcessTree_Thread_Decoder;
+ enum : int32_t {
+ kTidFieldNumber = 1,
+ kTgidFieldNumber = 3,
+ kNameFieldNumber = 2,
+ kNstidFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ProcessTree.Thread"; }
+
+
+ using FieldMetadata_Tid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ ProcessTree_Thread>;
+
+ static constexpr FieldMetadata_Tid kTid{};
+ void set_tid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Tid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Tgid =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ ProcessTree_Thread>;
+
+ static constexpr FieldMetadata_Tgid kTgid{};
+ void set_tgid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Tgid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ProcessTree_Thread>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Nstid =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ ProcessTree_Thread>;
+
+ static constexpr FieldMetadata_Nstid kNstid{};
+ void add_nstid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Nstid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/statsd/statsd_atom.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_STATSD_STATSD_ATOM_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_STATSD_STATSD_ATOM_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class Atom;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class StatsdAtom_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ StatsdAtom_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit StatsdAtom_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit StatsdAtom_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_atom() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> atom() const { return GetRepeated<::protozero::ConstBytes>(1); }
+ bool has_timestamp_nanos() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<int64_t> timestamp_nanos() const { return GetRepeated<int64_t>(2); }
+};
+
+class StatsdAtom : public ::protozero::Message {
+ public:
+ using Decoder = StatsdAtom_Decoder;
+ enum : int32_t {
+ kAtomFieldNumber = 1,
+ kTimestampNanosFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.StatsdAtom"; }
+
+
+ using FieldMetadata_Atom =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ Atom,
+ StatsdAtom>;
+
+ static constexpr FieldMetadata_Atom kAtom{};
+ template <typename T = Atom> T* add_atom() {
+ return BeginNestedMessage<T>(1);
+ }
+
+
+ using FieldMetadata_TimestampNanos =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ StatsdAtom>;
+
+ static constexpr FieldMetadata_TimestampNanos kTimestampNanos{};
+ void add_timestamp_nanos(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimestampNanos::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class Atom_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/0, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ Atom_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Atom_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Atom_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+};
+
+class Atom : public ::protozero::Message {
+ public:
+ using Decoder = Atom_Decoder;
+ static constexpr const char* GetName() { return ".perfetto.protos.Atom"; }
+
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/sys_stats/sys_stats.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_SYS_STATS_SYS_STATS_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_SYS_STATS_SYS_STATS_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class SysStats_BuddyInfo;
+class SysStats_CpuTimes;
+class SysStats_DevfreqValue;
+class SysStats_DiskStat;
+class SysStats_InterruptCount;
+class SysStats_MeminfoValue;
+class SysStats_PsiSample;
+class SysStats_VmstatValue;
+enum MeminfoCounters : int32_t;
+namespace perfetto_pbzero_enum_SysStats_PsiSample {
+enum PsiResource : int32_t;
+} // namespace perfetto_pbzero_enum_SysStats_PsiSample
+using SysStats_PsiSample_PsiResource = perfetto_pbzero_enum_SysStats_PsiSample::PsiResource;
+enum VmstatCounters : int32_t;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+namespace perfetto_pbzero_enum_SysStats_PsiSample {
+enum PsiResource : int32_t {
+ PSI_RESOURCE_UNSPECIFIED = 0,
+ PSI_RESOURCE_CPU_SOME = 1,
+ PSI_RESOURCE_CPU_FULL = 2,
+ PSI_RESOURCE_IO_SOME = 3,
+ PSI_RESOURCE_IO_FULL = 4,
+ PSI_RESOURCE_MEMORY_SOME = 5,
+ PSI_RESOURCE_MEMORY_FULL = 6,
+};
+} // namespace perfetto_pbzero_enum_SysStats_PsiSample
+using SysStats_PsiSample_PsiResource = perfetto_pbzero_enum_SysStats_PsiSample::PsiResource;
+
+
+constexpr SysStats_PsiSample_PsiResource SysStats_PsiSample_PsiResource_MIN = SysStats_PsiSample_PsiResource::PSI_RESOURCE_UNSPECIFIED;
+constexpr SysStats_PsiSample_PsiResource SysStats_PsiSample_PsiResource_MAX = SysStats_PsiSample_PsiResource::PSI_RESOURCE_MEMORY_FULL;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* SysStats_PsiSample_PsiResource_Name(::perfetto::protos::pbzero::SysStats_PsiSample_PsiResource value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::SysStats_PsiSample_PsiResource::PSI_RESOURCE_UNSPECIFIED:
+ return "PSI_RESOURCE_UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::SysStats_PsiSample_PsiResource::PSI_RESOURCE_CPU_SOME:
+ return "PSI_RESOURCE_CPU_SOME";
+
+ case ::perfetto::protos::pbzero::SysStats_PsiSample_PsiResource::PSI_RESOURCE_CPU_FULL:
+ return "PSI_RESOURCE_CPU_FULL";
+
+ case ::perfetto::protos::pbzero::SysStats_PsiSample_PsiResource::PSI_RESOURCE_IO_SOME:
+ return "PSI_RESOURCE_IO_SOME";
+
+ case ::perfetto::protos::pbzero::SysStats_PsiSample_PsiResource::PSI_RESOURCE_IO_FULL:
+ return "PSI_RESOURCE_IO_FULL";
+
+ case ::perfetto::protos::pbzero::SysStats_PsiSample_PsiResource::PSI_RESOURCE_MEMORY_SOME:
+ return "PSI_RESOURCE_MEMORY_SOME";
+
+ case ::perfetto::protos::pbzero::SysStats_PsiSample_PsiResource::PSI_RESOURCE_MEMORY_FULL:
+ return "PSI_RESOURCE_MEMORY_FULL";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+class SysStats_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/14, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ SysStats_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SysStats_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SysStats_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_meminfo() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> meminfo() const { return GetRepeated<::protozero::ConstBytes>(1); }
+ bool has_vmstat() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> vmstat() const { return GetRepeated<::protozero::ConstBytes>(2); }
+ bool has_cpu_stat() const { return at<3>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> cpu_stat() const { return GetRepeated<::protozero::ConstBytes>(3); }
+ bool has_num_forks() const { return at<4>().valid(); }
+ uint64_t num_forks() const { return at<4>().as_uint64(); }
+ bool has_num_irq_total() const { return at<5>().valid(); }
+ uint64_t num_irq_total() const { return at<5>().as_uint64(); }
+ bool has_num_irq() const { return at<6>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> num_irq() const { return GetRepeated<::protozero::ConstBytes>(6); }
+ bool has_num_softirq_total() const { return at<7>().valid(); }
+ uint64_t num_softirq_total() const { return at<7>().as_uint64(); }
+ bool has_num_softirq() const { return at<8>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> num_softirq() const { return GetRepeated<::protozero::ConstBytes>(8); }
+ bool has_collection_end_timestamp() const { return at<9>().valid(); }
+ uint64_t collection_end_timestamp() const { return at<9>().as_uint64(); }
+ bool has_devfreq() const { return at<10>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> devfreq() const { return GetRepeated<::protozero::ConstBytes>(10); }
+ bool has_cpufreq_khz() const { return at<11>().valid(); }
+ ::protozero::RepeatedFieldIterator<uint32_t> cpufreq_khz() const { return GetRepeated<uint32_t>(11); }
+ bool has_buddy_info() const { return at<12>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> buddy_info() const { return GetRepeated<::protozero::ConstBytes>(12); }
+ bool has_disk_stat() const { return at<13>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> disk_stat() const { return GetRepeated<::protozero::ConstBytes>(13); }
+ bool has_psi() const { return at<14>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> psi() const { return GetRepeated<::protozero::ConstBytes>(14); }
+};
+
+class SysStats : public ::protozero::Message {
+ public:
+ using Decoder = SysStats_Decoder;
+ enum : int32_t {
+ kMeminfoFieldNumber = 1,
+ kVmstatFieldNumber = 2,
+ kCpuStatFieldNumber = 3,
+ kNumForksFieldNumber = 4,
+ kNumIrqTotalFieldNumber = 5,
+ kNumIrqFieldNumber = 6,
+ kNumSoftirqTotalFieldNumber = 7,
+ kNumSoftirqFieldNumber = 8,
+ kCollectionEndTimestampFieldNumber = 9,
+ kDevfreqFieldNumber = 10,
+ kCpufreqKhzFieldNumber = 11,
+ kBuddyInfoFieldNumber = 12,
+ kDiskStatFieldNumber = 13,
+ kPsiFieldNumber = 14,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SysStats"; }
+
+ using MeminfoValue = ::perfetto::protos::pbzero::SysStats_MeminfoValue;
+ using VmstatValue = ::perfetto::protos::pbzero::SysStats_VmstatValue;
+ using CpuTimes = ::perfetto::protos::pbzero::SysStats_CpuTimes;
+ using InterruptCount = ::perfetto::protos::pbzero::SysStats_InterruptCount;
+ using DevfreqValue = ::perfetto::protos::pbzero::SysStats_DevfreqValue;
+ using BuddyInfo = ::perfetto::protos::pbzero::SysStats_BuddyInfo;
+ using DiskStat = ::perfetto::protos::pbzero::SysStats_DiskStat;
+ using PsiSample = ::perfetto::protos::pbzero::SysStats_PsiSample;
+
+ using FieldMetadata_Meminfo =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SysStats_MeminfoValue,
+ SysStats>;
+
+ static constexpr FieldMetadata_Meminfo kMeminfo{};
+ template <typename T = SysStats_MeminfoValue> T* add_meminfo() {
+ return BeginNestedMessage<T>(1);
+ }
+
+
+ using FieldMetadata_Vmstat =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SysStats_VmstatValue,
+ SysStats>;
+
+ static constexpr FieldMetadata_Vmstat kVmstat{};
+ template <typename T = SysStats_VmstatValue> T* add_vmstat() {
+ return BeginNestedMessage<T>(2);
+ }
+
+
+ using FieldMetadata_CpuStat =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SysStats_CpuTimes,
+ SysStats>;
+
+ static constexpr FieldMetadata_CpuStat kCpuStat{};
+ template <typename T = SysStats_CpuTimes> T* add_cpu_stat() {
+ return BeginNestedMessage<T>(3);
+ }
+
+
+ using FieldMetadata_NumForks =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SysStats>;
+
+ static constexpr FieldMetadata_NumForks kNumForks{};
+ void set_num_forks(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NumForks::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NumIrqTotal =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SysStats>;
+
+ static constexpr FieldMetadata_NumIrqTotal kNumIrqTotal{};
+ void set_num_irq_total(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NumIrqTotal::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NumIrq =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SysStats_InterruptCount,
+ SysStats>;
+
+ static constexpr FieldMetadata_NumIrq kNumIrq{};
+ template <typename T = SysStats_InterruptCount> T* add_num_irq() {
+ return BeginNestedMessage<T>(6);
+ }
+
+
+ using FieldMetadata_NumSoftirqTotal =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SysStats>;
+
+ static constexpr FieldMetadata_NumSoftirqTotal kNumSoftirqTotal{};
+ void set_num_softirq_total(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_NumSoftirqTotal::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NumSoftirq =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SysStats_InterruptCount,
+ SysStats>;
+
+ static constexpr FieldMetadata_NumSoftirq kNumSoftirq{};
+ template <typename T = SysStats_InterruptCount> T* add_num_softirq() {
+ return BeginNestedMessage<T>(8);
+ }
+
+
+ using FieldMetadata_CollectionEndTimestamp =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SysStats>;
+
+ static constexpr FieldMetadata_CollectionEndTimestamp kCollectionEndTimestamp{};
+ void set_collection_end_timestamp(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CollectionEndTimestamp::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Devfreq =
+ ::protozero::proto_utils::FieldMetadata<
+ 10,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SysStats_DevfreqValue,
+ SysStats>;
+
+ static constexpr FieldMetadata_Devfreq kDevfreq{};
+ template <typename T = SysStats_DevfreqValue> T* add_devfreq() {
+ return BeginNestedMessage<T>(10);
+ }
+
+
+ using FieldMetadata_CpufreqKhz =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SysStats>;
+
+ static constexpr FieldMetadata_CpufreqKhz kCpufreqKhz{};
+ void add_cpufreq_khz(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CpufreqKhz::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_BuddyInfo =
+ ::protozero::proto_utils::FieldMetadata<
+ 12,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SysStats_BuddyInfo,
+ SysStats>;
+
+ static constexpr FieldMetadata_BuddyInfo kBuddyInfo{};
+ template <typename T = SysStats_BuddyInfo> T* add_buddy_info() {
+ return BeginNestedMessage<T>(12);
+ }
+
+
+ using FieldMetadata_DiskStat =
+ ::protozero::proto_utils::FieldMetadata<
+ 13,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SysStats_DiskStat,
+ SysStats>;
+
+ static constexpr FieldMetadata_DiskStat kDiskStat{};
+ template <typename T = SysStats_DiskStat> T* add_disk_stat() {
+ return BeginNestedMessage<T>(13);
+ }
+
+
+ using FieldMetadata_Psi =
+ ::protozero::proto_utils::FieldMetadata<
+ 14,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SysStats_PsiSample,
+ SysStats>;
+
+ static constexpr FieldMetadata_Psi kPsi{};
+ template <typename T = SysStats_PsiSample> T* add_psi() {
+ return BeginNestedMessage<T>(14);
+ }
+
+};
+
+class SysStats_PsiSample_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ SysStats_PsiSample_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SysStats_PsiSample_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SysStats_PsiSample_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_resource() const { return at<1>().valid(); }
+ int32_t resource() const { return at<1>().as_int32(); }
+ bool has_total_ns() const { return at<2>().valid(); }
+ uint64_t total_ns() const { return at<2>().as_uint64(); }
+};
+
+class SysStats_PsiSample : public ::protozero::Message {
+ public:
+ using Decoder = SysStats_PsiSample_Decoder;
+ enum : int32_t {
+ kResourceFieldNumber = 1,
+ kTotalNsFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SysStats.PsiSample"; }
+
+
+ using PsiResource = ::perfetto::protos::pbzero::SysStats_PsiSample_PsiResource;
+ static inline const char* PsiResource_Name(PsiResource value) {
+ return ::perfetto::protos::pbzero::SysStats_PsiSample_PsiResource_Name(value);
+ }
+ static inline const PsiResource PSI_RESOURCE_UNSPECIFIED = PsiResource::PSI_RESOURCE_UNSPECIFIED;
+ static inline const PsiResource PSI_RESOURCE_CPU_SOME = PsiResource::PSI_RESOURCE_CPU_SOME;
+ static inline const PsiResource PSI_RESOURCE_CPU_FULL = PsiResource::PSI_RESOURCE_CPU_FULL;
+ static inline const PsiResource PSI_RESOURCE_IO_SOME = PsiResource::PSI_RESOURCE_IO_SOME;
+ static inline const PsiResource PSI_RESOURCE_IO_FULL = PsiResource::PSI_RESOURCE_IO_FULL;
+ static inline const PsiResource PSI_RESOURCE_MEMORY_SOME = PsiResource::PSI_RESOURCE_MEMORY_SOME;
+ static inline const PsiResource PSI_RESOURCE_MEMORY_FULL = PsiResource::PSI_RESOURCE_MEMORY_FULL;
+
+ using FieldMetadata_Resource =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ SysStats_PsiSample_PsiResource,
+ SysStats_PsiSample>;
+
+ static constexpr FieldMetadata_Resource kResource{};
+ void set_resource(SysStats_PsiSample_PsiResource value) {
+ static constexpr uint32_t field_id = FieldMetadata_Resource::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TotalNs =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SysStats_PsiSample>;
+
+ static constexpr FieldMetadata_TotalNs kTotalNs{};
+ void set_total_ns(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TotalNs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class SysStats_DiskStat_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/9, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ SysStats_DiskStat_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SysStats_DiskStat_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SysStats_DiskStat_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_device_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars device_name() const { return at<1>().as_string(); }
+ bool has_read_sectors() const { return at<2>().valid(); }
+ uint64_t read_sectors() const { return at<2>().as_uint64(); }
+ bool has_read_time_ms() const { return at<3>().valid(); }
+ uint64_t read_time_ms() const { return at<3>().as_uint64(); }
+ bool has_write_sectors() const { return at<4>().valid(); }
+ uint64_t write_sectors() const { return at<4>().as_uint64(); }
+ bool has_write_time_ms() const { return at<5>().valid(); }
+ uint64_t write_time_ms() const { return at<5>().as_uint64(); }
+ bool has_discard_sectors() const { return at<6>().valid(); }
+ uint64_t discard_sectors() const { return at<6>().as_uint64(); }
+ bool has_discard_time_ms() const { return at<7>().valid(); }
+ uint64_t discard_time_ms() const { return at<7>().as_uint64(); }
+ bool has_flush_count() const { return at<8>().valid(); }
+ uint64_t flush_count() const { return at<8>().as_uint64(); }
+ bool has_flush_time_ms() const { return at<9>().valid(); }
+ uint64_t flush_time_ms() const { return at<9>().as_uint64(); }
+};
+
+class SysStats_DiskStat : public ::protozero::Message {
+ public:
+ using Decoder = SysStats_DiskStat_Decoder;
+ enum : int32_t {
+ kDeviceNameFieldNumber = 1,
+ kReadSectorsFieldNumber = 2,
+ kReadTimeMsFieldNumber = 3,
+ kWriteSectorsFieldNumber = 4,
+ kWriteTimeMsFieldNumber = 5,
+ kDiscardSectorsFieldNumber = 6,
+ kDiscardTimeMsFieldNumber = 7,
+ kFlushCountFieldNumber = 8,
+ kFlushTimeMsFieldNumber = 9,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SysStats.DiskStat"; }
+
+
+ using FieldMetadata_DeviceName =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ SysStats_DiskStat>;
+
+ static constexpr FieldMetadata_DeviceName kDeviceName{};
+ void set_device_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_DeviceName::kFieldId, data, size);
+ }
+ void set_device_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_DeviceName::kFieldId, chars.data, chars.size);
+ }
+ void set_device_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_DeviceName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ReadSectors =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SysStats_DiskStat>;
+
+ static constexpr FieldMetadata_ReadSectors kReadSectors{};
+ void set_read_sectors(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ReadSectors::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ReadTimeMs =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SysStats_DiskStat>;
+
+ static constexpr FieldMetadata_ReadTimeMs kReadTimeMs{};
+ void set_read_time_ms(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ReadTimeMs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_WriteSectors =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SysStats_DiskStat>;
+
+ static constexpr FieldMetadata_WriteSectors kWriteSectors{};
+ void set_write_sectors(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_WriteSectors::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_WriteTimeMs =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SysStats_DiskStat>;
+
+ static constexpr FieldMetadata_WriteTimeMs kWriteTimeMs{};
+ void set_write_time_ms(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_WriteTimeMs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DiscardSectors =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SysStats_DiskStat>;
+
+ static constexpr FieldMetadata_DiscardSectors kDiscardSectors{};
+ void set_discard_sectors(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DiscardSectors::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DiscardTimeMs =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SysStats_DiskStat>;
+
+ static constexpr FieldMetadata_DiscardTimeMs kDiscardTimeMs{};
+ void set_discard_time_ms(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_DiscardTimeMs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FlushCount =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SysStats_DiskStat>;
+
+ static constexpr FieldMetadata_FlushCount kFlushCount{};
+ void set_flush_count(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FlushCount::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_FlushTimeMs =
+ ::protozero::proto_utils::FieldMetadata<
+ 9,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SysStats_DiskStat>;
+
+ static constexpr FieldMetadata_FlushTimeMs kFlushTimeMs{};
+ void set_flush_time_ms(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_FlushTimeMs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class SysStats_BuddyInfo_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ SysStats_BuddyInfo_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SysStats_BuddyInfo_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SysStats_BuddyInfo_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_node() const { return at<1>().valid(); }
+ ::protozero::ConstChars node() const { return at<1>().as_string(); }
+ bool has_zone() const { return at<2>().valid(); }
+ ::protozero::ConstChars zone() const { return at<2>().as_string(); }
+ bool has_order_pages() const { return at<3>().valid(); }
+ ::protozero::RepeatedFieldIterator<uint32_t> order_pages() const { return GetRepeated<uint32_t>(3); }
+};
+
+class SysStats_BuddyInfo : public ::protozero::Message {
+ public:
+ using Decoder = SysStats_BuddyInfo_Decoder;
+ enum : int32_t {
+ kNodeFieldNumber = 1,
+ kZoneFieldNumber = 2,
+ kOrderPagesFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SysStats.BuddyInfo"; }
+
+
+ using FieldMetadata_Node =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ SysStats_BuddyInfo>;
+
+ static constexpr FieldMetadata_Node kNode{};
+ void set_node(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Node::kFieldId, data, size);
+ }
+ void set_node(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Node::kFieldId, chars.data, chars.size);
+ }
+ void set_node(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Node::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Zone =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ SysStats_BuddyInfo>;
+
+ static constexpr FieldMetadata_Zone kZone{};
+ void set_zone(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Zone::kFieldId, data, size);
+ }
+ void set_zone(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Zone::kFieldId, chars.data, chars.size);
+ }
+ void set_zone(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Zone::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_OrderPages =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SysStats_BuddyInfo>;
+
+ static constexpr FieldMetadata_OrderPages kOrderPages{};
+ void add_order_pages(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_OrderPages::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class SysStats_DevfreqValue_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ SysStats_DevfreqValue_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SysStats_DevfreqValue_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SysStats_DevfreqValue_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_key() const { return at<1>().valid(); }
+ ::protozero::ConstChars key() const { return at<1>().as_string(); }
+ bool has_value() const { return at<2>().valid(); }
+ uint64_t value() const { return at<2>().as_uint64(); }
+};
+
+class SysStats_DevfreqValue : public ::protozero::Message {
+ public:
+ using Decoder = SysStats_DevfreqValue_Decoder;
+ enum : int32_t {
+ kKeyFieldNumber = 1,
+ kValueFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SysStats.DevfreqValue"; }
+
+
+ using FieldMetadata_Key =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ SysStats_DevfreqValue>;
+
+ static constexpr FieldMetadata_Key kKey{};
+ void set_key(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Key::kFieldId, data, size);
+ }
+ void set_key(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Key::kFieldId, chars.data, chars.size);
+ }
+ void set_key(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Key::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Value =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SysStats_DevfreqValue>;
+
+ static constexpr FieldMetadata_Value kValue{};
+ void set_value(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Value::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class SysStats_InterruptCount_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ SysStats_InterruptCount_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SysStats_InterruptCount_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SysStats_InterruptCount_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_irq() const { return at<1>().valid(); }
+ int32_t irq() const { return at<1>().as_int32(); }
+ bool has_count() const { return at<2>().valid(); }
+ uint64_t count() const { return at<2>().as_uint64(); }
+};
+
+class SysStats_InterruptCount : public ::protozero::Message {
+ public:
+ using Decoder = SysStats_InterruptCount_Decoder;
+ enum : int32_t {
+ kIrqFieldNumber = 1,
+ kCountFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SysStats.InterruptCount"; }
+
+
+ using FieldMetadata_Irq =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ SysStats_InterruptCount>;
+
+ static constexpr FieldMetadata_Irq kIrq{};
+ void set_irq(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Irq::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Count =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SysStats_InterruptCount>;
+
+ static constexpr FieldMetadata_Count kCount{};
+ void set_count(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Count::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class SysStats_CpuTimes_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/8, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ SysStats_CpuTimes_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SysStats_CpuTimes_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SysStats_CpuTimes_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_cpu_id() const { return at<1>().valid(); }
+ uint32_t cpu_id() const { return at<1>().as_uint32(); }
+ bool has_user_ns() const { return at<2>().valid(); }
+ uint64_t user_ns() const { return at<2>().as_uint64(); }
+ bool has_user_nice_ns() const { return at<3>().valid(); }
+ uint64_t user_nice_ns() const { return at<3>().as_uint64(); }
+ bool has_system_mode_ns() const { return at<4>().valid(); }
+ uint64_t system_mode_ns() const { return at<4>().as_uint64(); }
+ bool has_idle_ns() const { return at<5>().valid(); }
+ uint64_t idle_ns() const { return at<5>().as_uint64(); }
+ bool has_io_wait_ns() const { return at<6>().valid(); }
+ uint64_t io_wait_ns() const { return at<6>().as_uint64(); }
+ bool has_irq_ns() const { return at<7>().valid(); }
+ uint64_t irq_ns() const { return at<7>().as_uint64(); }
+ bool has_softirq_ns() const { return at<8>().valid(); }
+ uint64_t softirq_ns() const { return at<8>().as_uint64(); }
+};
+
+class SysStats_CpuTimes : public ::protozero::Message {
+ public:
+ using Decoder = SysStats_CpuTimes_Decoder;
+ enum : int32_t {
+ kCpuIdFieldNumber = 1,
+ kUserNsFieldNumber = 2,
+ kUserNiceNsFieldNumber = 3,
+ kSystemModeNsFieldNumber = 4,
+ kIdleNsFieldNumber = 5,
+ kIoWaitNsFieldNumber = 6,
+ kIrqNsFieldNumber = 7,
+ kSoftirqNsFieldNumber = 8,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SysStats.CpuTimes"; }
+
+
+ using FieldMetadata_CpuId =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ SysStats_CpuTimes>;
+
+ static constexpr FieldMetadata_CpuId kCpuId{};
+ void set_cpu_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_CpuId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_UserNs =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SysStats_CpuTimes>;
+
+ static constexpr FieldMetadata_UserNs kUserNs{};
+ void set_user_ns(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_UserNs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_UserNiceNs =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SysStats_CpuTimes>;
+
+ static constexpr FieldMetadata_UserNiceNs kUserNiceNs{};
+ void set_user_nice_ns(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_UserNiceNs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SystemModeNs =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SysStats_CpuTimes>;
+
+ static constexpr FieldMetadata_SystemModeNs kSystemModeNs{};
+ void set_system_mode_ns(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SystemModeNs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IdleNs =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SysStats_CpuTimes>;
+
+ static constexpr FieldMetadata_IdleNs kIdleNs{};
+ void set_idle_ns(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_IdleNs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IoWaitNs =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SysStats_CpuTimes>;
+
+ static constexpr FieldMetadata_IoWaitNs kIoWaitNs{};
+ void set_io_wait_ns(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_IoWaitNs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IrqNs =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SysStats_CpuTimes>;
+
+ static constexpr FieldMetadata_IrqNs kIrqNs{};
+ void set_irq_ns(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_IrqNs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SoftirqNs =
+ ::protozero::proto_utils::FieldMetadata<
+ 8,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SysStats_CpuTimes>;
+
+ static constexpr FieldMetadata_SoftirqNs kSoftirqNs{};
+ void set_softirq_ns(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SoftirqNs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class SysStats_VmstatValue_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ SysStats_VmstatValue_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SysStats_VmstatValue_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SysStats_VmstatValue_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_key() const { return at<1>().valid(); }
+ int32_t key() const { return at<1>().as_int32(); }
+ bool has_value() const { return at<2>().valid(); }
+ uint64_t value() const { return at<2>().as_uint64(); }
+};
+
+class SysStats_VmstatValue : public ::protozero::Message {
+ public:
+ using Decoder = SysStats_VmstatValue_Decoder;
+ enum : int32_t {
+ kKeyFieldNumber = 1,
+ kValueFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SysStats.VmstatValue"; }
+
+
+ using FieldMetadata_Key =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ VmstatCounters,
+ SysStats_VmstatValue>;
+
+ static constexpr FieldMetadata_Key kKey{};
+ void set_key(VmstatCounters value) {
+ static constexpr uint32_t field_id = FieldMetadata_Key::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Value =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SysStats_VmstatValue>;
+
+ static constexpr FieldMetadata_Value kValue{};
+ void set_value(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Value::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class SysStats_MeminfoValue_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ SysStats_MeminfoValue_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SysStats_MeminfoValue_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SysStats_MeminfoValue_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_key() const { return at<1>().valid(); }
+ int32_t key() const { return at<1>().as_int32(); }
+ bool has_value() const { return at<2>().valid(); }
+ uint64_t value() const { return at<2>().as_uint64(); }
+};
+
+class SysStats_MeminfoValue : public ::protozero::Message {
+ public:
+ using Decoder = SysStats_MeminfoValue_Decoder;
+ enum : int32_t {
+ kKeyFieldNumber = 1,
+ kValueFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SysStats.MeminfoValue"; }
+
+
+ using FieldMetadata_Key =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ MeminfoCounters,
+ SysStats_MeminfoValue>;
+
+ static constexpr FieldMetadata_Key kKey{};
+ void set_key(MeminfoCounters value) {
+ static constexpr uint32_t field_id = FieldMetadata_Key::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Value =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ SysStats_MeminfoValue>;
+
+ static constexpr FieldMetadata_Value kValue{};
+ void set_value(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Value::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/system_info/cpu_info.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_SYSTEM_INFO_CPU_INFO_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_SYSTEM_INFO_CPU_INFO_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class CpuInfo_Cpu;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class CpuInfo_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ CpuInfo_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit CpuInfo_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit CpuInfo_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_cpus() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> cpus() const { return GetRepeated<::protozero::ConstBytes>(1); }
+};
+
+class CpuInfo : public ::protozero::Message {
+ public:
+ using Decoder = CpuInfo_Decoder;
+ enum : int32_t {
+ kCpusFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.CpuInfo"; }
+
+ using Cpu = ::perfetto::protos::pbzero::CpuInfo_Cpu;
+
+ using FieldMetadata_Cpus =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ CpuInfo_Cpu,
+ CpuInfo>;
+
+ static constexpr FieldMetadata_Cpus kCpus{};
+ template <typename T = CpuInfo_Cpu> T* add_cpus() {
+ return BeginNestedMessage<T>(1);
+ }
+
+};
+
+class CpuInfo_Cpu_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ CpuInfo_Cpu_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit CpuInfo_Cpu_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit CpuInfo_Cpu_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_processor() const { return at<1>().valid(); }
+ ::protozero::ConstChars processor() const { return at<1>().as_string(); }
+ bool has_frequencies() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<uint32_t> frequencies() const { return GetRepeated<uint32_t>(2); }
+};
+
+class CpuInfo_Cpu : public ::protozero::Message {
+ public:
+ using Decoder = CpuInfo_Cpu_Decoder;
+ enum : int32_t {
+ kProcessorFieldNumber = 1,
+ kFrequenciesFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.CpuInfo.Cpu"; }
+
+
+ using FieldMetadata_Processor =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ CpuInfo_Cpu>;
+
+ static constexpr FieldMetadata_Processor kProcessor{};
+ void set_processor(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Processor::kFieldId, data, size);
+ }
+ void set_processor(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Processor::kFieldId, chars.data, chars.size);
+ }
+ void set_processor(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Processor::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Frequencies =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ CpuInfo_Cpu>;
+
+ static constexpr FieldMetadata_Frequencies kFrequencies{};
+ void add_frequencies(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Frequencies::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/translation/translation_table.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRANSLATION_TRANSLATION_TABLE_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRANSLATION_TRANSLATION_TABLE_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class ChromeHistorgramTranslationTable;
+class ChromeHistorgramTranslationTable_HashToNameEntry;
+class ChromePerformanceMarkTranslationTable;
+class ChromePerformanceMarkTranslationTable_MarkHashToNameEntry;
+class ChromePerformanceMarkTranslationTable_SiteHashToNameEntry;
+class ChromeUserEventTranslationTable;
+class ChromeUserEventTranslationTable_ActionHashToNameEntry;
+class SliceNameTranslationTable;
+class SliceNameTranslationTable_RawToDeobfuscatedNameEntry;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class SliceNameTranslationTable_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ SliceNameTranslationTable_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SliceNameTranslationTable_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SliceNameTranslationTable_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_raw_to_deobfuscated_name() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> raw_to_deobfuscated_name() const { return GetRepeated<::protozero::ConstBytes>(1); }
+};
+
+class SliceNameTranslationTable : public ::protozero::Message {
+ public:
+ using Decoder = SliceNameTranslationTable_Decoder;
+ enum : int32_t {
+ kRawToDeobfuscatedNameFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SliceNameTranslationTable"; }
+
+ using RawToDeobfuscatedNameEntry = ::perfetto::protos::pbzero::SliceNameTranslationTable_RawToDeobfuscatedNameEntry;
+
+ using FieldMetadata_RawToDeobfuscatedName =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SliceNameTranslationTable_RawToDeobfuscatedNameEntry,
+ SliceNameTranslationTable>;
+
+ static constexpr FieldMetadata_RawToDeobfuscatedName kRawToDeobfuscatedName{};
+ template <typename T = SliceNameTranslationTable_RawToDeobfuscatedNameEntry> T* add_raw_to_deobfuscated_name() {
+ return BeginNestedMessage<T>(1);
+ }
+
+};
+
+class SliceNameTranslationTable_RawToDeobfuscatedNameEntry_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ SliceNameTranslationTable_RawToDeobfuscatedNameEntry_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit SliceNameTranslationTable_RawToDeobfuscatedNameEntry_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit SliceNameTranslationTable_RawToDeobfuscatedNameEntry_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_key() const { return at<1>().valid(); }
+ ::protozero::ConstChars key() const { return at<1>().as_string(); }
+ bool has_value() const { return at<2>().valid(); }
+ ::protozero::ConstChars value() const { return at<2>().as_string(); }
+};
+
+class SliceNameTranslationTable_RawToDeobfuscatedNameEntry : public ::protozero::Message {
+ public:
+ using Decoder = SliceNameTranslationTable_RawToDeobfuscatedNameEntry_Decoder;
+ enum : int32_t {
+ kKeyFieldNumber = 1,
+ kValueFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.SliceNameTranslationTable.RawToDeobfuscatedNameEntry"; }
+
+
+ using FieldMetadata_Key =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ SliceNameTranslationTable_RawToDeobfuscatedNameEntry>;
+
+ static constexpr FieldMetadata_Key kKey{};
+ void set_key(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Key::kFieldId, data, size);
+ }
+ void set_key(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Key::kFieldId, chars.data, chars.size);
+ }
+ void set_key(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Key::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Value =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ SliceNameTranslationTable_RawToDeobfuscatedNameEntry>;
+
+ static constexpr FieldMetadata_Value kValue{};
+ void set_value(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Value::kFieldId, data, size);
+ }
+ void set_value(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Value::kFieldId, chars.data, chars.size);
+ }
+ void set_value(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Value::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class ChromePerformanceMarkTranslationTable_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ ChromePerformanceMarkTranslationTable_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ChromePerformanceMarkTranslationTable_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ChromePerformanceMarkTranslationTable_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_site_hash_to_name() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> site_hash_to_name() const { return GetRepeated<::protozero::ConstBytes>(1); }
+ bool has_mark_hash_to_name() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> mark_hash_to_name() const { return GetRepeated<::protozero::ConstBytes>(2); }
+};
+
+class ChromePerformanceMarkTranslationTable : public ::protozero::Message {
+ public:
+ using Decoder = ChromePerformanceMarkTranslationTable_Decoder;
+ enum : int32_t {
+ kSiteHashToNameFieldNumber = 1,
+ kMarkHashToNameFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ChromePerformanceMarkTranslationTable"; }
+
+ using SiteHashToNameEntry = ::perfetto::protos::pbzero::ChromePerformanceMarkTranslationTable_SiteHashToNameEntry;
+ using MarkHashToNameEntry = ::perfetto::protos::pbzero::ChromePerformanceMarkTranslationTable_MarkHashToNameEntry;
+
+ using FieldMetadata_SiteHashToName =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ChromePerformanceMarkTranslationTable_SiteHashToNameEntry,
+ ChromePerformanceMarkTranslationTable>;
+
+ static constexpr FieldMetadata_SiteHashToName kSiteHashToName{};
+ template <typename T = ChromePerformanceMarkTranslationTable_SiteHashToNameEntry> T* add_site_hash_to_name() {
+ return BeginNestedMessage<T>(1);
+ }
+
+
+ using FieldMetadata_MarkHashToName =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ChromePerformanceMarkTranslationTable_MarkHashToNameEntry,
+ ChromePerformanceMarkTranslationTable>;
+
+ static constexpr FieldMetadata_MarkHashToName kMarkHashToName{};
+ template <typename T = ChromePerformanceMarkTranslationTable_MarkHashToNameEntry> T* add_mark_hash_to_name() {
+ return BeginNestedMessage<T>(2);
+ }
+
+};
+
+class ChromePerformanceMarkTranslationTable_MarkHashToNameEntry_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ChromePerformanceMarkTranslationTable_MarkHashToNameEntry_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ChromePerformanceMarkTranslationTable_MarkHashToNameEntry_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ChromePerformanceMarkTranslationTable_MarkHashToNameEntry_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_key() const { return at<1>().valid(); }
+ uint32_t key() const { return at<1>().as_uint32(); }
+ bool has_value() const { return at<2>().valid(); }
+ ::protozero::ConstChars value() const { return at<2>().as_string(); }
+};
+
+class ChromePerformanceMarkTranslationTable_MarkHashToNameEntry : public ::protozero::Message {
+ public:
+ using Decoder = ChromePerformanceMarkTranslationTable_MarkHashToNameEntry_Decoder;
+ enum : int32_t {
+ kKeyFieldNumber = 1,
+ kValueFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ChromePerformanceMarkTranslationTable.MarkHashToNameEntry"; }
+
+
+ using FieldMetadata_Key =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ ChromePerformanceMarkTranslationTable_MarkHashToNameEntry>;
+
+ static constexpr FieldMetadata_Key kKey{};
+ void set_key(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Key::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Value =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ChromePerformanceMarkTranslationTable_MarkHashToNameEntry>;
+
+ static constexpr FieldMetadata_Value kValue{};
+ void set_value(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Value::kFieldId, data, size);
+ }
+ void set_value(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Value::kFieldId, chars.data, chars.size);
+ }
+ void set_value(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Value::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class ChromePerformanceMarkTranslationTable_SiteHashToNameEntry_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ChromePerformanceMarkTranslationTable_SiteHashToNameEntry_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ChromePerformanceMarkTranslationTable_SiteHashToNameEntry_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ChromePerformanceMarkTranslationTable_SiteHashToNameEntry_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_key() const { return at<1>().valid(); }
+ uint32_t key() const { return at<1>().as_uint32(); }
+ bool has_value() const { return at<2>().valid(); }
+ ::protozero::ConstChars value() const { return at<2>().as_string(); }
+};
+
+class ChromePerformanceMarkTranslationTable_SiteHashToNameEntry : public ::protozero::Message {
+ public:
+ using Decoder = ChromePerformanceMarkTranslationTable_SiteHashToNameEntry_Decoder;
+ enum : int32_t {
+ kKeyFieldNumber = 1,
+ kValueFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ChromePerformanceMarkTranslationTable.SiteHashToNameEntry"; }
+
+
+ using FieldMetadata_Key =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ ChromePerformanceMarkTranslationTable_SiteHashToNameEntry>;
+
+ static constexpr FieldMetadata_Key kKey{};
+ void set_key(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Key::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Value =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ChromePerformanceMarkTranslationTable_SiteHashToNameEntry>;
+
+ static constexpr FieldMetadata_Value kValue{};
+ void set_value(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Value::kFieldId, data, size);
+ }
+ void set_value(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Value::kFieldId, chars.data, chars.size);
+ }
+ void set_value(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Value::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class ChromeUserEventTranslationTable_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ ChromeUserEventTranslationTable_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ChromeUserEventTranslationTable_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ChromeUserEventTranslationTable_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_action_hash_to_name() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> action_hash_to_name() const { return GetRepeated<::protozero::ConstBytes>(1); }
+};
+
+class ChromeUserEventTranslationTable : public ::protozero::Message {
+ public:
+ using Decoder = ChromeUserEventTranslationTable_Decoder;
+ enum : int32_t {
+ kActionHashToNameFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ChromeUserEventTranslationTable"; }
+
+ using ActionHashToNameEntry = ::perfetto::protos::pbzero::ChromeUserEventTranslationTable_ActionHashToNameEntry;
+
+ using FieldMetadata_ActionHashToName =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ChromeUserEventTranslationTable_ActionHashToNameEntry,
+ ChromeUserEventTranslationTable>;
+
+ static constexpr FieldMetadata_ActionHashToName kActionHashToName{};
+ template <typename T = ChromeUserEventTranslationTable_ActionHashToNameEntry> T* add_action_hash_to_name() {
+ return BeginNestedMessage<T>(1);
+ }
+
+};
+
+class ChromeUserEventTranslationTable_ActionHashToNameEntry_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ChromeUserEventTranslationTable_ActionHashToNameEntry_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ChromeUserEventTranslationTable_ActionHashToNameEntry_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ChromeUserEventTranslationTable_ActionHashToNameEntry_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_key() const { return at<1>().valid(); }
+ uint64_t key() const { return at<1>().as_uint64(); }
+ bool has_value() const { return at<2>().valid(); }
+ ::protozero::ConstChars value() const { return at<2>().as_string(); }
+};
+
+class ChromeUserEventTranslationTable_ActionHashToNameEntry : public ::protozero::Message {
+ public:
+ using Decoder = ChromeUserEventTranslationTable_ActionHashToNameEntry_Decoder;
+ enum : int32_t {
+ kKeyFieldNumber = 1,
+ kValueFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ChromeUserEventTranslationTable.ActionHashToNameEntry"; }
+
+
+ using FieldMetadata_Key =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ChromeUserEventTranslationTable_ActionHashToNameEntry>;
+
+ static constexpr FieldMetadata_Key kKey{};
+ void set_key(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Key::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Value =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ChromeUserEventTranslationTable_ActionHashToNameEntry>;
+
+ static constexpr FieldMetadata_Value kValue{};
+ void set_value(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Value::kFieldId, data, size);
+ }
+ void set_value(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Value::kFieldId, chars.data, chars.size);
+ }
+ void set_value(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Value::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class ChromeHistorgramTranslationTable_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ ChromeHistorgramTranslationTable_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ChromeHistorgramTranslationTable_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ChromeHistorgramTranslationTable_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_hash_to_name() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> hash_to_name() const { return GetRepeated<::protozero::ConstBytes>(1); }
+};
+
+class ChromeHistorgramTranslationTable : public ::protozero::Message {
+ public:
+ using Decoder = ChromeHistorgramTranslationTable_Decoder;
+ enum : int32_t {
+ kHashToNameFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ChromeHistorgramTranslationTable"; }
+
+ using HashToNameEntry = ::perfetto::protos::pbzero::ChromeHistorgramTranslationTable_HashToNameEntry;
+
+ using FieldMetadata_HashToName =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ChromeHistorgramTranslationTable_HashToNameEntry,
+ ChromeHistorgramTranslationTable>;
+
+ static constexpr FieldMetadata_HashToName kHashToName{};
+ template <typename T = ChromeHistorgramTranslationTable_HashToNameEntry> T* add_hash_to_name() {
+ return BeginNestedMessage<T>(1);
+ }
+
+};
+
+class ChromeHistorgramTranslationTable_HashToNameEntry_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ChromeHistorgramTranslationTable_HashToNameEntry_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ChromeHistorgramTranslationTable_HashToNameEntry_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ChromeHistorgramTranslationTable_HashToNameEntry_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_key() const { return at<1>().valid(); }
+ uint64_t key() const { return at<1>().as_uint64(); }
+ bool has_value() const { return at<2>().valid(); }
+ ::protozero::ConstChars value() const { return at<2>().as_string(); }
+};
+
+class ChromeHistorgramTranslationTable_HashToNameEntry : public ::protozero::Message {
+ public:
+ using Decoder = ChromeHistorgramTranslationTable_HashToNameEntry_Decoder;
+ enum : int32_t {
+ kKeyFieldNumber = 1,
+ kValueFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ChromeHistorgramTranslationTable.HashToNameEntry"; }
+
+
+ using FieldMetadata_Key =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ ChromeHistorgramTranslationTable_HashToNameEntry>;
+
+ static constexpr FieldMetadata_Key kKey{};
+ void set_key(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Key::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Value =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ ChromeHistorgramTranslationTable_HashToNameEntry>;
+
+ static constexpr FieldMetadata_Value kValue{};
+ void set_value(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Value::kFieldId, data, size);
+ }
+ void set_value(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Value::kFieldId, chars.data, chars.size);
+ }
+ void set_value(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Value::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class TranslationTable_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ TranslationTable_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TranslationTable_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TranslationTable_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_chrome_histogram() const { return at<1>().valid(); }
+ ::protozero::ConstBytes chrome_histogram() const { return at<1>().as_bytes(); }
+ bool has_chrome_user_event() const { return at<2>().valid(); }
+ ::protozero::ConstBytes chrome_user_event() const { return at<2>().as_bytes(); }
+ bool has_chrome_performance_mark() const { return at<3>().valid(); }
+ ::protozero::ConstBytes chrome_performance_mark() const { return at<3>().as_bytes(); }
+ bool has_slice_name() const { return at<4>().valid(); }
+ ::protozero::ConstBytes slice_name() const { return at<4>().as_bytes(); }
+};
+
+class TranslationTable : public ::protozero::Message {
+ public:
+ using Decoder = TranslationTable_Decoder;
+ enum : int32_t {
+ kChromeHistogramFieldNumber = 1,
+ kChromeUserEventFieldNumber = 2,
+ kChromePerformanceMarkFieldNumber = 3,
+ kSliceNameFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TranslationTable"; }
+
+
+ using FieldMetadata_ChromeHistogram =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ChromeHistorgramTranslationTable,
+ TranslationTable>;
+
+ static constexpr FieldMetadata_ChromeHistogram kChromeHistogram{};
+ template <typename T = ChromeHistorgramTranslationTable> T* set_chrome_histogram() {
+ return BeginNestedMessage<T>(1);
+ }
+
+
+ using FieldMetadata_ChromeUserEvent =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ChromeUserEventTranslationTable,
+ TranslationTable>;
+
+ static constexpr FieldMetadata_ChromeUserEvent kChromeUserEvent{};
+ template <typename T = ChromeUserEventTranslationTable> T* set_chrome_user_event() {
+ return BeginNestedMessage<T>(2);
+ }
+
+
+ using FieldMetadata_ChromePerformanceMark =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ChromePerformanceMarkTranslationTable,
+ TranslationTable>;
+
+ static constexpr FieldMetadata_ChromePerformanceMark kChromePerformanceMark{};
+ template <typename T = ChromePerformanceMarkTranslationTable> T* set_chrome_performance_mark() {
+ return BeginNestedMessage<T>(3);
+ }
+
+
+ using FieldMetadata_SliceName =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ SliceNameTranslationTable,
+ TranslationTable>;
+
+ static constexpr FieldMetadata_SliceName kSliceName{};
+ template <typename T = SliceNameTranslationTable> T* set_slice_name() {
+ return BeginNestedMessage<T>(4);
+ }
+
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/remote_clock_sync.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_REMOTE_CLOCK_SYNC_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_REMOTE_CLOCK_SYNC_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class ClockSnapshot;
+class RemoteClockSync_SyncedClocks;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class RemoteClockSync_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ RemoteClockSync_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit RemoteClockSync_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit RemoteClockSync_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_synced_clocks() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> synced_clocks() const { return GetRepeated<::protozero::ConstBytes>(1); }
+};
+
+class RemoteClockSync : public ::protozero::Message {
+ public:
+ using Decoder = RemoteClockSync_Decoder;
+ enum : int32_t {
+ kSyncedClocksFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.RemoteClockSync"; }
+
+ using SyncedClocks = ::perfetto::protos::pbzero::RemoteClockSync_SyncedClocks;
+
+ using FieldMetadata_SyncedClocks =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ RemoteClockSync_SyncedClocks,
+ RemoteClockSync>;
+
+ static constexpr FieldMetadata_SyncedClocks kSyncedClocks{};
+ template <typename T = RemoteClockSync_SyncedClocks> T* add_synced_clocks() {
+ return BeginNestedMessage<T>(1);
+ }
+
+};
+
+class RemoteClockSync_SyncedClocks_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ RemoteClockSync_SyncedClocks_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit RemoteClockSync_SyncedClocks_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit RemoteClockSync_SyncedClocks_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_client_clocks() const { return at<2>().valid(); }
+ ::protozero::ConstBytes client_clocks() const { return at<2>().as_bytes(); }
+ bool has_host_clocks() const { return at<3>().valid(); }
+ ::protozero::ConstBytes host_clocks() const { return at<3>().as_bytes(); }
+};
+
+class RemoteClockSync_SyncedClocks : public ::protozero::Message {
+ public:
+ using Decoder = RemoteClockSync_SyncedClocks_Decoder;
+ enum : int32_t {
+ kClientClocksFieldNumber = 2,
+ kHostClocksFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.RemoteClockSync.SyncedClocks"; }
+
+
+ using FieldMetadata_ClientClocks =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ClockSnapshot,
+ RemoteClockSync_SyncedClocks>;
+
+ static constexpr FieldMetadata_ClientClocks kClientClocks{};
+ template <typename T = ClockSnapshot> T* set_client_clocks() {
+ return BeginNestedMessage<T>(2);
+ }
+
+
+ using FieldMetadata_HostClocks =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ ClockSnapshot,
+ RemoteClockSync_SyncedClocks>;
+
+ static constexpr FieldMetadata_HostClocks kHostClocks{};
+ template <typename T = ClockSnapshot> T* set_host_clocks() {
+ return BeginNestedMessage<T>(3);
+ }
+
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/trace_packet_defaults.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACE_PACKET_DEFAULTS_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACE_PACKET_DEFAULTS_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class PerfSampleDefaults;
+class TrackEventDefaults;
+class V8CodeDefaults;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class TracePacketDefaults_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/99, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ TracePacketDefaults_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TracePacketDefaults_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TracePacketDefaults_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_timestamp_clock_id() const { return at<58>().valid(); }
+ uint32_t timestamp_clock_id() const { return at<58>().as_uint32(); }
+ bool has_track_event_defaults() const { return at<11>().valid(); }
+ ::protozero::ConstBytes track_event_defaults() const { return at<11>().as_bytes(); }
+ bool has_perf_sample_defaults() const { return at<12>().valid(); }
+ ::protozero::ConstBytes perf_sample_defaults() const { return at<12>().as_bytes(); }
+ bool has_v8_code_defaults() const { return at<99>().valid(); }
+ ::protozero::ConstBytes v8_code_defaults() const { return at<99>().as_bytes(); }
+};
+
+class TracePacketDefaults : public ::protozero::Message {
+ public:
+ using Decoder = TracePacketDefaults_Decoder;
+ enum : int32_t {
+ kTimestampClockIdFieldNumber = 58,
+ kTrackEventDefaultsFieldNumber = 11,
+ kPerfSampleDefaultsFieldNumber = 12,
+ kV8CodeDefaultsFieldNumber = 99,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TracePacketDefaults"; }
+
+
+ using FieldMetadata_TimestampClockId =
+ ::protozero::proto_utils::FieldMetadata<
+ 58,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TracePacketDefaults>;
+
+ static constexpr FieldMetadata_TimestampClockId kTimestampClockId{};
+ void set_timestamp_clock_id(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimestampClockId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TrackEventDefaults =
+ ::protozero::proto_utils::FieldMetadata<
+ 11,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TrackEventDefaults,
+ TracePacketDefaults>;
+
+ static constexpr FieldMetadata_TrackEventDefaults kTrackEventDefaults{};
+ template <typename T = TrackEventDefaults> T* set_track_event_defaults() {
+ return BeginNestedMessage<T>(11);
+ }
+
+
+ using FieldMetadata_PerfSampleDefaults =
+ ::protozero::proto_utils::FieldMetadata<
+ 12,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ PerfSampleDefaults,
+ TracePacketDefaults>;
+
+ static constexpr FieldMetadata_PerfSampleDefaults kPerfSampleDefaults{};
+ template <typename T = PerfSampleDefaults> T* set_perf_sample_defaults() {
+ return BeginNestedMessage<T>(12);
+ }
+
+
+ using FieldMetadata_V8CodeDefaults =
+ ::protozero::proto_utils::FieldMetadata<
+ 99,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ V8CodeDefaults,
+ TracePacketDefaults>;
+
+ static constexpr FieldMetadata_V8CodeDefaults kV8CodeDefaults{};
+ template <typename T = V8CodeDefaults> T* set_v8_code_defaults() {
+ return BeginNestedMessage<T>(99);
+ }
+
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/test_event.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TEST_EVENT_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TEST_EVENT_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class DebugAnnotation;
+class TestEvent_TestPayload;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class TestEvent_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ TestEvent_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TestEvent_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TestEvent_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_str() const { return at<1>().valid(); }
+ ::protozero::ConstChars str() const { return at<1>().as_string(); }
+ bool has_seq_value() const { return at<2>().valid(); }
+ uint32_t seq_value() const { return at<2>().as_uint32(); }
+ bool has_counter() const { return at<3>().valid(); }
+ uint64_t counter() const { return at<3>().as_uint64(); }
+ bool has_is_last() const { return at<4>().valid(); }
+ bool is_last() const { return at<4>().as_bool(); }
+ bool has_payload() const { return at<5>().valid(); }
+ ::protozero::ConstBytes payload() const { return at<5>().as_bytes(); }
+};
+
+class TestEvent : public ::protozero::Message {
+ public:
+ using Decoder = TestEvent_Decoder;
+ enum : int32_t {
+ kStrFieldNumber = 1,
+ kSeqValueFieldNumber = 2,
+ kCounterFieldNumber = 3,
+ kIsLastFieldNumber = 4,
+ kPayloadFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TestEvent"; }
+
+ using TestPayload = ::perfetto::protos::pbzero::TestEvent_TestPayload;
+
+ using FieldMetadata_Str =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ TestEvent>;
+
+ static constexpr FieldMetadata_Str kStr{};
+ void set_str(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Str::kFieldId, data, size);
+ }
+ void set_str(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Str::kFieldId, chars.data, chars.size);
+ }
+ void set_str(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Str::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SeqValue =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TestEvent>;
+
+ static constexpr FieldMetadata_SeqValue kSeqValue{};
+ void set_seq_value(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SeqValue::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Counter =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ TestEvent>;
+
+ static constexpr FieldMetadata_Counter kCounter{};
+ void set_counter(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Counter::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IsLast =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ TestEvent>;
+
+ static constexpr FieldMetadata_IsLast kIsLast{};
+ void set_is_last(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_IsLast::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Payload =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TestEvent_TestPayload,
+ TestEvent>;
+
+ static constexpr FieldMetadata_Payload kPayload{};
+ template <typename T = TestEvent_TestPayload> T* set_payload() {
+ return BeginNestedMessage<T>(5);
+ }
+
+};
+
+class TestEvent_TestPayload_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/7, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ TestEvent_TestPayload_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TestEvent_TestPayload_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TestEvent_TestPayload_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_str() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstChars> str() const { return GetRepeated<::protozero::ConstChars>(1); }
+ bool has_nested() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> nested() const { return GetRepeated<::protozero::ConstBytes>(2); }
+ bool has_single_string() const { return at<4>().valid(); }
+ ::protozero::ConstChars single_string() const { return at<4>().as_string(); }
+ bool has_single_int() const { return at<5>().valid(); }
+ int32_t single_int() const { return at<5>().as_int32(); }
+ bool has_repeated_ints() const { return at<6>().valid(); }
+ ::protozero::RepeatedFieldIterator<int32_t> repeated_ints() const { return GetRepeated<int32_t>(6); }
+ bool has_remaining_nesting_depth() const { return at<3>().valid(); }
+ uint32_t remaining_nesting_depth() const { return at<3>().as_uint32(); }
+ bool has_debug_annotations() const { return at<7>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> debug_annotations() const { return GetRepeated<::protozero::ConstBytes>(7); }
+};
+
+class TestEvent_TestPayload : public ::protozero::Message {
+ public:
+ using Decoder = TestEvent_TestPayload_Decoder;
+ enum : int32_t {
+ kStrFieldNumber = 1,
+ kNestedFieldNumber = 2,
+ kSingleStringFieldNumber = 4,
+ kSingleIntFieldNumber = 5,
+ kRepeatedIntsFieldNumber = 6,
+ kRemainingNestingDepthFieldNumber = 3,
+ kDebugAnnotationsFieldNumber = 7,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TestEvent.TestPayload"; }
+
+
+ using FieldMetadata_Str =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ TestEvent_TestPayload>;
+
+ static constexpr FieldMetadata_Str kStr{};
+ void add_str(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Str::kFieldId, data, size);
+ }
+ void add_str(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Str::kFieldId, chars.data, chars.size);
+ }
+ void add_str(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Str::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Nested =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TestEvent_TestPayload,
+ TestEvent_TestPayload>;
+
+ static constexpr FieldMetadata_Nested kNested{};
+ template <typename T = TestEvent_TestPayload> T* add_nested() {
+ return BeginNestedMessage<T>(2);
+ }
+
+
+ using FieldMetadata_SingleString =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ TestEvent_TestPayload>;
+
+ static constexpr FieldMetadata_SingleString kSingleString{};
+ void set_single_string(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_SingleString::kFieldId, data, size);
+ }
+ void set_single_string(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_SingleString::kFieldId, chars.data, chars.size);
+ }
+ void set_single_string(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_SingleString::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SingleInt =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ TestEvent_TestPayload>;
+
+ static constexpr FieldMetadata_SingleInt kSingleInt{};
+ void set_single_int(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SingleInt::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_RepeatedInts =
+ ::protozero::proto_utils::FieldMetadata<
+ 6,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ TestEvent_TestPayload>;
+
+ static constexpr FieldMetadata_RepeatedInts kRepeatedInts{};
+ void add_repeated_ints(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_RepeatedInts::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_RemainingNestingDepth =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TestEvent_TestPayload>;
+
+ static constexpr FieldMetadata_RemainingNestingDepth kRemainingNestingDepth{};
+ void set_remaining_nesting_depth(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_RemainingNestingDepth::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DebugAnnotations =
+ ::protozero::proto_utils::FieldMetadata<
+ 7,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ DebugAnnotation,
+ TestEvent_TestPayload>;
+
+ static constexpr FieldMetadata_DebugAnnotations kDebugAnnotations{};
+ template <typename T = DebugAnnotation> T* add_debug_annotations() {
+ return BeginNestedMessage<T>(7);
+ }
+
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/test_extensions.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TEST_EXTENSIONS_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TEST_EXTENSIONS_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+// gen_amalgamated expanded: #include "protos/perfetto/trace/track_event/track_event.pbzero.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class DebugAnnotation;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class TestExtensionChild_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/99, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ TestExtensionChild_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit TestExtensionChild_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit TestExtensionChild_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_child_field_for_testing() const { return at<1>().valid(); }
+ ::protozero::ConstChars child_field_for_testing() const { return at<1>().as_string(); }
+ bool has_debug_annotations() const { return at<99>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> debug_annotations() const { return GetRepeated<::protozero::ConstBytes>(99); }
+};
+
+class TestExtensionChild : public ::protozero::Message {
+ public:
+ using Decoder = TestExtensionChild_Decoder;
+ enum : int32_t {
+ kChildFieldForTestingFieldNumber = 1,
+ kDebugAnnotationsFieldNumber = 99,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.TestExtensionChild"; }
+
+
+ using FieldMetadata_ChildFieldForTesting =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ TestExtensionChild>;
+
+ static constexpr FieldMetadata_ChildFieldForTesting kChildFieldForTesting{};
+ void set_child_field_for_testing(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_ChildFieldForTesting::kFieldId, data, size);
+ }
+ void set_child_field_for_testing(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_ChildFieldForTesting::kFieldId, chars.data, chars.size);
+ }
+ void set_child_field_for_testing(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_ChildFieldForTesting::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_DebugAnnotations =
+ ::protozero::proto_utils::FieldMetadata<
+ 99,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ DebugAnnotation,
+ TestExtensionChild>;
+
+ static constexpr FieldMetadata_DebugAnnotations kDebugAnnotations{};
+ template <typename T = DebugAnnotation> T* add_debug_annotations() {
+ return BeginNestedMessage<T>(99);
+ }
+
+};
+
+class TestExtension : public ::perfetto::protos::pbzero::TrackEvent {
+ public:
+
+ using FieldMetadata_StringExtensionForTesting =
+ ::protozero::proto_utils::FieldMetadata<
+ 9900,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ TestExtension>;
+
+ static constexpr FieldMetadata_StringExtensionForTesting kStringExtensionForTesting{};
+ void set_string_extension_for_testing(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_StringExtensionForTesting::kFieldId, data, size);
+ }
+ void set_string_extension_for_testing(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_StringExtensionForTesting::kFieldId, chars.data, chars.size);
+ }
+ void set_string_extension_for_testing(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_StringExtensionForTesting::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_StringExtensionForTesting2 =
+ ::protozero::proto_utils::FieldMetadata<
+ 9905,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ TestExtension>;
+
+ static constexpr FieldMetadata_StringExtensionForTesting2 kStringExtensionForTesting2{};
+ void set_string_extension_for_testing2(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_StringExtensionForTesting2::kFieldId, data, size);
+ }
+ void set_string_extension_for_testing2(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_StringExtensionForTesting2::kFieldId, chars.data, chars.size);
+ }
+ void set_string_extension_for_testing2(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_StringExtensionForTesting2::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_IntExtensionForTesting =
+ ::protozero::proto_utils::FieldMetadata<
+ 9901,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ TestExtension>;
+
+ static constexpr FieldMetadata_IntExtensionForTesting kIntExtensionForTesting{};
+ void add_int_extension_for_testing(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_IntExtensionForTesting::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_OmittedExtensionForTesting =
+ ::protozero::proto_utils::FieldMetadata<
+ 9902,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ TestExtension>;
+
+ static constexpr FieldMetadata_OmittedExtensionForTesting kOmittedExtensionForTesting{};
+ void set_omitted_extension_for_testing(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_OmittedExtensionForTesting::kFieldId, data, size);
+ }
+ void set_omitted_extension_for_testing(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_OmittedExtensionForTesting::kFieldId, chars.data, chars.size);
+ }
+ void set_omitted_extension_for_testing(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_OmittedExtensionForTesting::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_NestedMessageExtensionForTesting =
+ ::protozero::proto_utils::FieldMetadata<
+ 9903,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TestExtensionChild,
+ TestExtension>;
+
+ static constexpr FieldMetadata_NestedMessageExtensionForTesting kNestedMessageExtensionForTesting{};
+ template <typename T = TestExtensionChild> T* set_nested_message_extension_for_testing() {
+ return BeginNestedMessage<T>(9903);
+ }
+
+
+ using FieldMetadata_UintExtensionForTesting =
+ ::protozero::proto_utils::FieldMetadata<
+ 9904,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ TestExtension>;
+
+ static constexpr FieldMetadata_UintExtensionForTesting kUintExtensionForTesting{};
+ void set_uint_extension_for_testing(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_UintExtensionForTesting::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+};
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/trace.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACE_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACE_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class TracePacket;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class Trace_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ Trace_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit Trace_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit Trace_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_packet() const { return at<1>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> packet() const { return GetRepeated<::protozero::ConstBytes>(1); }
+};
+
+class Trace : public ::protozero::Message {
+ public:
+ using Decoder = Trace_Decoder;
+ enum : int32_t {
+ kPacketFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.Trace"; }
+
+
+ using FieldMetadata_Packet =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ TracePacket,
+ Trace>;
+
+ static constexpr FieldMetadata_Packet kPacket{};
+ template <typename T = TracePacket> T* add_packet() {
+ return BeginNestedMessage<T>(1);
+ }
+
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/extension_descriptor.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_EXTENSION_DESCRIPTOR_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_EXTENSION_DESCRIPTOR_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class FileDescriptorSet;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class ExtensionDescriptor_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/1, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ ExtensionDescriptor_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit ExtensionDescriptor_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit ExtensionDescriptor_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_extension_set() const { return at<1>().valid(); }
+ ::protozero::ConstBytes extension_set() const { return at<1>().as_bytes(); }
+};
+
+class ExtensionDescriptor : public ::protozero::Message {
+ public:
+ using Decoder = ExtensionDescriptor_Decoder;
+ enum : int32_t {
+ kExtensionSetFieldNumber = 1,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.ExtensionDescriptor"; }
+
+
+ using FieldMetadata_ExtensionSet =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ FileDescriptorSet,
+ ExtensionDescriptor>;
+
+ static constexpr FieldMetadata_ExtensionSet kExtensionSet{};
+ template <typename T = FileDescriptorSet> T* set_extension_set() {
+ return BeginNestedMessage<T>(1);
+ }
+
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/memory_graph.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_MEMORY_GRAPH_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_MEMORY_GRAPH_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class MemoryTrackerSnapshot_ProcessSnapshot;
+class MemoryTrackerSnapshot_ProcessSnapshot_MemoryEdge;
+class MemoryTrackerSnapshot_ProcessSnapshot_MemoryNode;
+class MemoryTrackerSnapshot_ProcessSnapshot_MemoryNode_MemoryNodeEntry;
+namespace perfetto_pbzero_enum_MemoryTrackerSnapshot {
+enum LevelOfDetail : int32_t;
+} // namespace perfetto_pbzero_enum_MemoryTrackerSnapshot
+using MemoryTrackerSnapshot_LevelOfDetail = perfetto_pbzero_enum_MemoryTrackerSnapshot::LevelOfDetail;
+namespace perfetto_pbzero_enum_MemoryTrackerSnapshot_ProcessSnapshot_MemoryNode_MemoryNodeEntry {
+enum Units : int32_t;
+} // namespace perfetto_pbzero_enum_MemoryTrackerSnapshot_ProcessSnapshot_MemoryNode_MemoryNodeEntry
+using MemoryTrackerSnapshot_ProcessSnapshot_MemoryNode_MemoryNodeEntry_Units = perfetto_pbzero_enum_MemoryTrackerSnapshot_ProcessSnapshot_MemoryNode_MemoryNodeEntry::Units;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+namespace perfetto_pbzero_enum_MemoryTrackerSnapshot {
+enum LevelOfDetail : int32_t {
+ DETAIL_FULL = 0,
+ DETAIL_LIGHT = 1,
+ DETAIL_BACKGROUND = 2,
+};
+} // namespace perfetto_pbzero_enum_MemoryTrackerSnapshot
+using MemoryTrackerSnapshot_LevelOfDetail = perfetto_pbzero_enum_MemoryTrackerSnapshot::LevelOfDetail;
+
+
+constexpr MemoryTrackerSnapshot_LevelOfDetail MemoryTrackerSnapshot_LevelOfDetail_MIN = MemoryTrackerSnapshot_LevelOfDetail::DETAIL_FULL;
+constexpr MemoryTrackerSnapshot_LevelOfDetail MemoryTrackerSnapshot_LevelOfDetail_MAX = MemoryTrackerSnapshot_LevelOfDetail::DETAIL_BACKGROUND;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* MemoryTrackerSnapshot_LevelOfDetail_Name(::perfetto::protos::pbzero::MemoryTrackerSnapshot_LevelOfDetail value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::MemoryTrackerSnapshot_LevelOfDetail::DETAIL_FULL:
+ return "DETAIL_FULL";
+
+ case ::perfetto::protos::pbzero::MemoryTrackerSnapshot_LevelOfDetail::DETAIL_LIGHT:
+ return "DETAIL_LIGHT";
+
+ case ::perfetto::protos::pbzero::MemoryTrackerSnapshot_LevelOfDetail::DETAIL_BACKGROUND:
+ return "DETAIL_BACKGROUND";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+namespace perfetto_pbzero_enum_MemoryTrackerSnapshot_ProcessSnapshot_MemoryNode_MemoryNodeEntry {
+enum Units : int32_t {
+ UNSPECIFIED = 0,
+ BYTES = 1,
+ COUNT = 2,
+};
+} // namespace perfetto_pbzero_enum_MemoryTrackerSnapshot_ProcessSnapshot_MemoryNode_MemoryNodeEntry
+using MemoryTrackerSnapshot_ProcessSnapshot_MemoryNode_MemoryNodeEntry_Units = perfetto_pbzero_enum_MemoryTrackerSnapshot_ProcessSnapshot_MemoryNode_MemoryNodeEntry::Units;
+
+
+constexpr MemoryTrackerSnapshot_ProcessSnapshot_MemoryNode_MemoryNodeEntry_Units MemoryTrackerSnapshot_ProcessSnapshot_MemoryNode_MemoryNodeEntry_Units_MIN = MemoryTrackerSnapshot_ProcessSnapshot_MemoryNode_MemoryNodeEntry_Units::UNSPECIFIED;
+constexpr MemoryTrackerSnapshot_ProcessSnapshot_MemoryNode_MemoryNodeEntry_Units MemoryTrackerSnapshot_ProcessSnapshot_MemoryNode_MemoryNodeEntry_Units_MAX = MemoryTrackerSnapshot_ProcessSnapshot_MemoryNode_MemoryNodeEntry_Units::COUNT;
+
+
+PERFETTO_PROTOZERO_CONSTEXPR14_OR_INLINE
+const char* MemoryTrackerSnapshot_ProcessSnapshot_MemoryNode_MemoryNodeEntry_Units_Name(::perfetto::protos::pbzero::MemoryTrackerSnapshot_ProcessSnapshot_MemoryNode_MemoryNodeEntry_Units value) {
+ switch (value) {
+ case ::perfetto::protos::pbzero::MemoryTrackerSnapshot_ProcessSnapshot_MemoryNode_MemoryNodeEntry_Units::UNSPECIFIED:
+ return "UNSPECIFIED";
+
+ case ::perfetto::protos::pbzero::MemoryTrackerSnapshot_ProcessSnapshot_MemoryNode_MemoryNodeEntry_Units::BYTES:
+ return "BYTES";
+
+ case ::perfetto::protos::pbzero::MemoryTrackerSnapshot_ProcessSnapshot_MemoryNode_MemoryNodeEntry_Units::COUNT:
+ return "COUNT";
+ }
+ return "PBZERO_UNKNOWN_ENUM_VALUE";
+}
+
+class MemoryTrackerSnapshot_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ MemoryTrackerSnapshot_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MemoryTrackerSnapshot_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MemoryTrackerSnapshot_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_global_dump_id() const { return at<1>().valid(); }
+ uint64_t global_dump_id() const { return at<1>().as_uint64(); }
+ bool has_level_of_detail() const { return at<2>().valid(); }
+ int32_t level_of_detail() const { return at<2>().as_int32(); }
+ bool has_process_memory_dumps() const { return at<3>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> process_memory_dumps() const { return GetRepeated<::protozero::ConstBytes>(3); }
+};
+
+class MemoryTrackerSnapshot : public ::protozero::Message {
+ public:
+ using Decoder = MemoryTrackerSnapshot_Decoder;
+ enum : int32_t {
+ kGlobalDumpIdFieldNumber = 1,
+ kLevelOfDetailFieldNumber = 2,
+ kProcessMemoryDumpsFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MemoryTrackerSnapshot"; }
+
+ using ProcessSnapshot = ::perfetto::protos::pbzero::MemoryTrackerSnapshot_ProcessSnapshot;
+
+ using LevelOfDetail = ::perfetto::protos::pbzero::MemoryTrackerSnapshot_LevelOfDetail;
+ static inline const char* LevelOfDetail_Name(LevelOfDetail value) {
+ return ::perfetto::protos::pbzero::MemoryTrackerSnapshot_LevelOfDetail_Name(value);
+ }
+ static inline const LevelOfDetail DETAIL_FULL = LevelOfDetail::DETAIL_FULL;
+ static inline const LevelOfDetail DETAIL_LIGHT = LevelOfDetail::DETAIL_LIGHT;
+ static inline const LevelOfDetail DETAIL_BACKGROUND = LevelOfDetail::DETAIL_BACKGROUND;
+
+ using FieldMetadata_GlobalDumpId =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MemoryTrackerSnapshot>;
+
+ static constexpr FieldMetadata_GlobalDumpId kGlobalDumpId{};
+ void set_global_dump_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_GlobalDumpId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_LevelOfDetail =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ MemoryTrackerSnapshot_LevelOfDetail,
+ MemoryTrackerSnapshot>;
+
+ static constexpr FieldMetadata_LevelOfDetail kLevelOfDetail{};
+ void set_level_of_detail(MemoryTrackerSnapshot_LevelOfDetail value) {
+ static constexpr uint32_t field_id = FieldMetadata_LevelOfDetail::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ProcessMemoryDumps =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MemoryTrackerSnapshot_ProcessSnapshot,
+ MemoryTrackerSnapshot>;
+
+ static constexpr FieldMetadata_ProcessMemoryDumps kProcessMemoryDumps{};
+ template <typename T = MemoryTrackerSnapshot_ProcessSnapshot> T* add_process_memory_dumps() {
+ return BeginNestedMessage<T>(3);
+ }
+
+};
+
+class MemoryTrackerSnapshot_ProcessSnapshot_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ MemoryTrackerSnapshot_ProcessSnapshot_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MemoryTrackerSnapshot_ProcessSnapshot_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MemoryTrackerSnapshot_ProcessSnapshot_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_pid() const { return at<1>().valid(); }
+ int32_t pid() const { return at<1>().as_int32(); }
+ bool has_allocator_dumps() const { return at<2>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> allocator_dumps() const { return GetRepeated<::protozero::ConstBytes>(2); }
+ bool has_memory_edges() const { return at<3>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> memory_edges() const { return GetRepeated<::protozero::ConstBytes>(3); }
+};
+
+class MemoryTrackerSnapshot_ProcessSnapshot : public ::protozero::Message {
+ public:
+ using Decoder = MemoryTrackerSnapshot_ProcessSnapshot_Decoder;
+ enum : int32_t {
+ kPidFieldNumber = 1,
+ kAllocatorDumpsFieldNumber = 2,
+ kMemoryEdgesFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MemoryTrackerSnapshot.ProcessSnapshot"; }
+
+ using MemoryNode = ::perfetto::protos::pbzero::MemoryTrackerSnapshot_ProcessSnapshot_MemoryNode;
+ using MemoryEdge = ::perfetto::protos::pbzero::MemoryTrackerSnapshot_ProcessSnapshot_MemoryEdge;
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt32,
+ int32_t,
+ MemoryTrackerSnapshot_ProcessSnapshot>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(int32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_AllocatorDumps =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MemoryTrackerSnapshot_ProcessSnapshot_MemoryNode,
+ MemoryTrackerSnapshot_ProcessSnapshot>;
+
+ static constexpr FieldMetadata_AllocatorDumps kAllocatorDumps{};
+ template <typename T = MemoryTrackerSnapshot_ProcessSnapshot_MemoryNode> T* add_allocator_dumps() {
+ return BeginNestedMessage<T>(2);
+ }
+
+
+ using FieldMetadata_MemoryEdges =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MemoryTrackerSnapshot_ProcessSnapshot_MemoryEdge,
+ MemoryTrackerSnapshot_ProcessSnapshot>;
+
+ static constexpr FieldMetadata_MemoryEdges kMemoryEdges{};
+ template <typename T = MemoryTrackerSnapshot_ProcessSnapshot_MemoryEdge> T* add_memory_edges() {
+ return BeginNestedMessage<T>(3);
+ }
+
+};
+
+class MemoryTrackerSnapshot_ProcessSnapshot_MemoryEdge_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MemoryTrackerSnapshot_ProcessSnapshot_MemoryEdge_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MemoryTrackerSnapshot_ProcessSnapshot_MemoryEdge_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MemoryTrackerSnapshot_ProcessSnapshot_MemoryEdge_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_source_id() const { return at<1>().valid(); }
+ uint64_t source_id() const { return at<1>().as_uint64(); }
+ bool has_target_id() const { return at<2>().valid(); }
+ uint64_t target_id() const { return at<2>().as_uint64(); }
+ bool has_importance() const { return at<3>().valid(); }
+ uint32_t importance() const { return at<3>().as_uint32(); }
+ bool has_overridable() const { return at<4>().valid(); }
+ bool overridable() const { return at<4>().as_bool(); }
+};
+
+class MemoryTrackerSnapshot_ProcessSnapshot_MemoryEdge : public ::protozero::Message {
+ public:
+ using Decoder = MemoryTrackerSnapshot_ProcessSnapshot_MemoryEdge_Decoder;
+ enum : int32_t {
+ kSourceIdFieldNumber = 1,
+ kTargetIdFieldNumber = 2,
+ kImportanceFieldNumber = 3,
+ kOverridableFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MemoryTrackerSnapshot.ProcessSnapshot.MemoryEdge"; }
+
+
+ using FieldMetadata_SourceId =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MemoryTrackerSnapshot_ProcessSnapshot_MemoryEdge>;
+
+ static constexpr FieldMetadata_SourceId kSourceId{};
+ void set_source_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SourceId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TargetId =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MemoryTrackerSnapshot_ProcessSnapshot_MemoryEdge>;
+
+ static constexpr FieldMetadata_TargetId kTargetId{};
+ void set_target_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TargetId::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Importance =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ MemoryTrackerSnapshot_ProcessSnapshot_MemoryEdge>;
+
+ static constexpr FieldMetadata_Importance kImportance{};
+ void set_importance(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Importance::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Overridable =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ MemoryTrackerSnapshot_ProcessSnapshot_MemoryEdge>;
+
+ static constexpr FieldMetadata_Overridable kOverridable{};
+ void set_overridable(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_Overridable::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+};
+
+class MemoryTrackerSnapshot_ProcessSnapshot_MemoryNode_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/5, /*HAS_NONPACKED_REPEATED_FIELDS=*/true> {
+ public:
+ MemoryTrackerSnapshot_ProcessSnapshot_MemoryNode_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MemoryTrackerSnapshot_ProcessSnapshot_MemoryNode_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MemoryTrackerSnapshot_ProcessSnapshot_MemoryNode_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_id() const { return at<1>().valid(); }
+ uint64_t id() const { return at<1>().as_uint64(); }
+ bool has_absolute_name() const { return at<2>().valid(); }
+ ::protozero::ConstChars absolute_name() const { return at<2>().as_string(); }
+ bool has_weak() const { return at<3>().valid(); }
+ bool weak() const { return at<3>().as_bool(); }
+ bool has_size_bytes() const { return at<4>().valid(); }
+ uint64_t size_bytes() const { return at<4>().as_uint64(); }
+ bool has_entries() const { return at<5>().valid(); }
+ ::protozero::RepeatedFieldIterator<::protozero::ConstBytes> entries() const { return GetRepeated<::protozero::ConstBytes>(5); }
+};
+
+class MemoryTrackerSnapshot_ProcessSnapshot_MemoryNode : public ::protozero::Message {
+ public:
+ using Decoder = MemoryTrackerSnapshot_ProcessSnapshot_MemoryNode_Decoder;
+ enum : int32_t {
+ kIdFieldNumber = 1,
+ kAbsoluteNameFieldNumber = 2,
+ kWeakFieldNumber = 3,
+ kSizeBytesFieldNumber = 4,
+ kEntriesFieldNumber = 5,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MemoryTrackerSnapshot.ProcessSnapshot.MemoryNode"; }
+
+ using MemoryNodeEntry = ::perfetto::protos::pbzero::MemoryTrackerSnapshot_ProcessSnapshot_MemoryNode_MemoryNodeEntry;
+
+ using FieldMetadata_Id =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MemoryTrackerSnapshot_ProcessSnapshot_MemoryNode>;
+
+ static constexpr FieldMetadata_Id kId{};
+ void set_id(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Id::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_AbsoluteName =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ MemoryTrackerSnapshot_ProcessSnapshot_MemoryNode>;
+
+ static constexpr FieldMetadata_AbsoluteName kAbsoluteName{};
+ void set_absolute_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_AbsoluteName::kFieldId, data, size);
+ }
+ void set_absolute_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_AbsoluteName::kFieldId, chars.data, chars.size);
+ }
+ void set_absolute_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_AbsoluteName::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Weak =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kBool,
+ bool,
+ MemoryTrackerSnapshot_ProcessSnapshot_MemoryNode>;
+
+ static constexpr FieldMetadata_Weak kWeak{};
+ void set_weak(bool value) {
+ static constexpr uint32_t field_id = FieldMetadata_Weak::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kBool>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_SizeBytes =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MemoryTrackerSnapshot_ProcessSnapshot_MemoryNode>;
+
+ static constexpr FieldMetadata_SizeBytes kSizeBytes{};
+ void set_size_bytes(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_SizeBytes::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Entries =
+ ::protozero::proto_utils::FieldMetadata<
+ 5,
+ ::protozero::proto_utils::RepetitionType::kRepeatedNotPacked,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ MemoryTrackerSnapshot_ProcessSnapshot_MemoryNode_MemoryNodeEntry,
+ MemoryTrackerSnapshot_ProcessSnapshot_MemoryNode>;
+
+ static constexpr FieldMetadata_Entries kEntries{};
+ template <typename T = MemoryTrackerSnapshot_ProcessSnapshot_MemoryNode_MemoryNodeEntry> T* add_entries() {
+ return BeginNestedMessage<T>(5);
+ }
+
+};
+
+class MemoryTrackerSnapshot_ProcessSnapshot_MemoryNode_MemoryNodeEntry_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/4, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ MemoryTrackerSnapshot_ProcessSnapshot_MemoryNode_MemoryNodeEntry_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit MemoryTrackerSnapshot_ProcessSnapshot_MemoryNode_MemoryNodeEntry_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit MemoryTrackerSnapshot_ProcessSnapshot_MemoryNode_MemoryNodeEntry_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_name() const { return at<1>().valid(); }
+ ::protozero::ConstChars name() const { return at<1>().as_string(); }
+ bool has_units() const { return at<2>().valid(); }
+ int32_t units() const { return at<2>().as_int32(); }
+ bool has_value_uint64() const { return at<3>().valid(); }
+ uint64_t value_uint64() const { return at<3>().as_uint64(); }
+ bool has_value_string() const { return at<4>().valid(); }
+ ::protozero::ConstChars value_string() const { return at<4>().as_string(); }
+};
+
+class MemoryTrackerSnapshot_ProcessSnapshot_MemoryNode_MemoryNodeEntry : public ::protozero::Message {
+ public:
+ using Decoder = MemoryTrackerSnapshot_ProcessSnapshot_MemoryNode_MemoryNodeEntry_Decoder;
+ enum : int32_t {
+ kNameFieldNumber = 1,
+ kUnitsFieldNumber = 2,
+ kValueUint64FieldNumber = 3,
+ kValueStringFieldNumber = 4,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.MemoryTrackerSnapshot.ProcessSnapshot.MemoryNode.MemoryNodeEntry"; }
+
+
+ using Units = ::perfetto::protos::pbzero::MemoryTrackerSnapshot_ProcessSnapshot_MemoryNode_MemoryNodeEntry_Units;
+ static inline const char* Units_Name(Units value) {
+ return ::perfetto::protos::pbzero::MemoryTrackerSnapshot_ProcessSnapshot_MemoryNode_MemoryNodeEntry_Units_Name(value);
+ }
+ static inline const Units UNSPECIFIED = Units::UNSPECIFIED;
+ static inline const Units BYTES = Units::BYTES;
+ static inline const Units COUNT = Units::COUNT;
+
+ using FieldMetadata_Name =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ MemoryTrackerSnapshot_ProcessSnapshot_MemoryNode_MemoryNodeEntry>;
+
+ static constexpr FieldMetadata_Name kName{};
+ void set_name(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Name::kFieldId, data, size);
+ }
+ void set_name(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Name::kFieldId, chars.data, chars.size);
+ }
+ void set_name(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Name::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Units =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kEnum,
+ MemoryTrackerSnapshot_ProcessSnapshot_MemoryNode_MemoryNodeEntry_Units,
+ MemoryTrackerSnapshot_ProcessSnapshot_MemoryNode_MemoryNodeEntry>;
+
+ static constexpr FieldMetadata_Units kUnits{};
+ void set_units(MemoryTrackerSnapshot_ProcessSnapshot_MemoryNode_MemoryNodeEntry_Units value) {
+ static constexpr uint32_t field_id = FieldMetadata_Units::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kEnum>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ValueUint64 =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint64,
+ uint64_t,
+ MemoryTrackerSnapshot_ProcessSnapshot_MemoryNode_MemoryNodeEntry>;
+
+ static constexpr FieldMetadata_ValueUint64 kValueUint64{};
+ void set_value_uint64(uint64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_ValueUint64::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_ValueString =
+ ::protozero::proto_utils::FieldMetadata<
+ 4,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ MemoryTrackerSnapshot_ProcessSnapshot_MemoryNode_MemoryNodeEntry>;
+
+ static constexpr FieldMetadata_ValueString kValueString{};
+ void set_value_string(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_ValueString::kFieldId, data, size);
+ }
+ void set_value_string(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_ValueString::kFieldId, chars.data, chars.size);
+ }
+ void set_value_string(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_ValueString::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/ui_state.pbzero.h
+// Autogenerated by the ProtoZero compiler plugin. DO NOT EDIT.
+
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_UI_STATE_PROTO_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_UI_STATE_PROTO_H_
+
+#include <stddef.h>
+#include <stdint.h>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/field_writer.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/packed_repeated_fields.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+class UiState_HighlightProcess;
+} // Namespace pbzero.
+} // Namespace protos.
+} // Namespace perfetto.
+
+namespace perfetto {
+namespace protos {
+namespace pbzero {
+
+class UiState_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/3, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ UiState_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit UiState_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit UiState_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_timeline_start_ts() const { return at<1>().valid(); }
+ int64_t timeline_start_ts() const { return at<1>().as_int64(); }
+ bool has_timeline_end_ts() const { return at<2>().valid(); }
+ int64_t timeline_end_ts() const { return at<2>().as_int64(); }
+ bool has_highlight_process() const { return at<3>().valid(); }
+ ::protozero::ConstBytes highlight_process() const { return at<3>().as_bytes(); }
+};
+
+class UiState : public ::protozero::Message {
+ public:
+ using Decoder = UiState_Decoder;
+ enum : int32_t {
+ kTimelineStartTsFieldNumber = 1,
+ kTimelineEndTsFieldNumber = 2,
+ kHighlightProcessFieldNumber = 3,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.UiState"; }
+
+ using HighlightProcess = ::perfetto::protos::pbzero::UiState_HighlightProcess;
+
+ using FieldMetadata_TimelineStartTs =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ UiState>;
+
+ static constexpr FieldMetadata_TimelineStartTs kTimelineStartTs{};
+ void set_timeline_start_ts(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimelineStartTs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_TimelineEndTs =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kInt64,
+ int64_t,
+ UiState>;
+
+ static constexpr FieldMetadata_TimelineEndTs kTimelineEndTs{};
+ void set_timeline_end_ts(int64_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_TimelineEndTs::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kInt64>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_HighlightProcess =
+ ::protozero::proto_utils::FieldMetadata<
+ 3,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kMessage,
+ UiState_HighlightProcess,
+ UiState>;
+
+ static constexpr FieldMetadata_HighlightProcess kHighlightProcess{};
+ template <typename T = UiState_HighlightProcess> T* set_highlight_process() {
+ return BeginNestedMessage<T>(3);
+ }
+
+};
+
+class UiState_HighlightProcess_Decoder : public ::protozero::TypedProtoDecoder</*MAX_FIELD_ID=*/2, /*HAS_NONPACKED_REPEATED_FIELDS=*/false> {
+ public:
+ UiState_HighlightProcess_Decoder(const uint8_t* data, size_t len) : TypedProtoDecoder(data, len) {}
+ explicit UiState_HighlightProcess_Decoder(const std::string& raw) : TypedProtoDecoder(reinterpret_cast<const uint8_t*>(raw.data()), raw.size()) {}
+ explicit UiState_HighlightProcess_Decoder(const ::protozero::ConstBytes& raw) : TypedProtoDecoder(raw.data, raw.size) {}
+ bool has_pid() const { return at<1>().valid(); }
+ uint32_t pid() const { return at<1>().as_uint32(); }
+ bool has_cmdline() const { return at<2>().valid(); }
+ ::protozero::ConstChars cmdline() const { return at<2>().as_string(); }
+};
+
+class UiState_HighlightProcess : public ::protozero::Message {
+ public:
+ using Decoder = UiState_HighlightProcess_Decoder;
+ enum : int32_t {
+ kPidFieldNumber = 1,
+ kCmdlineFieldNumber = 2,
+ };
+ static constexpr const char* GetName() { return ".perfetto.protos.UiState.HighlightProcess"; }
+
+
+ using FieldMetadata_Pid =
+ ::protozero::proto_utils::FieldMetadata<
+ 1,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kUint32,
+ uint32_t,
+ UiState_HighlightProcess>;
+
+ static constexpr FieldMetadata_Pid kPid{};
+ void set_pid(uint32_t value) {
+ static constexpr uint32_t field_id = FieldMetadata_Pid::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kUint32>
+ ::Append(*this, field_id, value);
+ }
+
+ using FieldMetadata_Cmdline =
+ ::protozero::proto_utils::FieldMetadata<
+ 2,
+ ::protozero::proto_utils::RepetitionType::kNotRepeated,
+ ::protozero::proto_utils::ProtoSchemaType::kString,
+ std::string,
+ UiState_HighlightProcess>;
+
+ static constexpr FieldMetadata_Cmdline kCmdline{};
+ void set_cmdline(const char* data, size_t size) {
+ AppendBytes(FieldMetadata_Cmdline::kFieldId, data, size);
+ }
+ void set_cmdline(::protozero::ConstChars chars) {
+ AppendBytes(FieldMetadata_Cmdline::kFieldId, chars.data, chars.size);
+ }
+ void set_cmdline(std::string value) {
+ static constexpr uint32_t field_id = FieldMetadata_Cmdline::kFieldId;
+ // Call the appropriate protozero::Message::Append(field_id, ...)
+ // method based on the type of the field.
+ ::protozero::internal::FieldWriter<
+ ::protozero::proto_utils::ProtoSchemaType::kString>
+ ::Append(*this, field_id, value);
+ }
+};
+
+} // Namespace.
+} // Namespace.
+} // Namespace.
+#endif // Include guard.
+// gen_amalgamated begin header: gen/protos/perfetto/trace/track_event/chrome_active_processes.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_ACTIVE_PROCESSES_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_ACTIVE_PROCESSES_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class ChromeActiveProcesses;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+class PERFETTO_EXPORT_COMPONENT ChromeActiveProcesses : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kPidFieldNumber = 1,
+ };
+
+ ChromeActiveProcesses();
+ ~ChromeActiveProcesses() override;
+ ChromeActiveProcesses(ChromeActiveProcesses&&) noexcept;
+ ChromeActiveProcesses& operator=(ChromeActiveProcesses&&);
+ ChromeActiveProcesses(const ChromeActiveProcesses&);
+ ChromeActiveProcesses& operator=(const ChromeActiveProcesses&);
+ bool operator==(const ChromeActiveProcesses&) const;
+ bool operator!=(const ChromeActiveProcesses& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ const std::vector<int32_t>& pid() const { return pid_; }
+ std::vector<int32_t>* mutable_pid() { return &pid_; }
+ int pid_size() const { return static_cast<int>(pid_.size()); }
+ void clear_pid() { pid_.clear(); }
+ void add_pid(int32_t value) { pid_.emplace_back(value); }
+ int32_t* add_pid() { pid_.emplace_back(); return &pid_.back(); }
+
+ private:
+ std::vector<int32_t> pid_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_ACTIVE_PROCESSES_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/trace/track_event/chrome_application_state_info.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_APPLICATION_STATE_INFO_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_APPLICATION_STATE_INFO_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class ChromeApplicationStateInfo;
+enum ChromeApplicationStateInfo_ChromeApplicationState : int;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+enum ChromeApplicationStateInfo_ChromeApplicationState : int {
+ ChromeApplicationStateInfo_ChromeApplicationState_APPLICATION_STATE_UNKNOWN = 0,
+ ChromeApplicationStateInfo_ChromeApplicationState_APPLICATION_STATE_HAS_RUNNING_ACTIVITIES = 1,
+ ChromeApplicationStateInfo_ChromeApplicationState_APPLICATION_STATE_HAS_PAUSED_ACTIVITIES = 2,
+ ChromeApplicationStateInfo_ChromeApplicationState_APPLICATION_STATE_HAS_STOPPED_ACTIVITIES = 3,
+ ChromeApplicationStateInfo_ChromeApplicationState_APPLICATION_STATE_HAS_DESTROYED_ACTIVITIES = 4,
+};
+
+class PERFETTO_EXPORT_COMPONENT ChromeApplicationStateInfo : public ::protozero::CppMessageObj {
+ public:
+ using ChromeApplicationState = ChromeApplicationStateInfo_ChromeApplicationState;
+ static constexpr auto APPLICATION_STATE_UNKNOWN = ChromeApplicationStateInfo_ChromeApplicationState_APPLICATION_STATE_UNKNOWN;
+ static constexpr auto APPLICATION_STATE_HAS_RUNNING_ACTIVITIES = ChromeApplicationStateInfo_ChromeApplicationState_APPLICATION_STATE_HAS_RUNNING_ACTIVITIES;
+ static constexpr auto APPLICATION_STATE_HAS_PAUSED_ACTIVITIES = ChromeApplicationStateInfo_ChromeApplicationState_APPLICATION_STATE_HAS_PAUSED_ACTIVITIES;
+ static constexpr auto APPLICATION_STATE_HAS_STOPPED_ACTIVITIES = ChromeApplicationStateInfo_ChromeApplicationState_APPLICATION_STATE_HAS_STOPPED_ACTIVITIES;
+ static constexpr auto APPLICATION_STATE_HAS_DESTROYED_ACTIVITIES = ChromeApplicationStateInfo_ChromeApplicationState_APPLICATION_STATE_HAS_DESTROYED_ACTIVITIES;
+ static constexpr auto ChromeApplicationState_MIN = ChromeApplicationStateInfo_ChromeApplicationState_APPLICATION_STATE_UNKNOWN;
+ static constexpr auto ChromeApplicationState_MAX = ChromeApplicationStateInfo_ChromeApplicationState_APPLICATION_STATE_HAS_DESTROYED_ACTIVITIES;
+ enum FieldNumbers {
+ kApplicationStateFieldNumber = 1,
+ };
+
+ ChromeApplicationStateInfo();
+ ~ChromeApplicationStateInfo() override;
+ ChromeApplicationStateInfo(ChromeApplicationStateInfo&&) noexcept;
+ ChromeApplicationStateInfo& operator=(ChromeApplicationStateInfo&&);
+ ChromeApplicationStateInfo(const ChromeApplicationStateInfo&);
+ ChromeApplicationStateInfo& operator=(const ChromeApplicationStateInfo&);
+ bool operator==(const ChromeApplicationStateInfo&) const;
+ bool operator!=(const ChromeApplicationStateInfo& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_application_state() const { return _has_field_[1]; }
+ ChromeApplicationStateInfo_ChromeApplicationState application_state() const { return application_state_; }
+ void set_application_state(ChromeApplicationStateInfo_ChromeApplicationState value) { application_state_ = value; _has_field_.set(1); }
+
+ private:
+ ChromeApplicationStateInfo_ChromeApplicationState application_state_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_APPLICATION_STATE_INFO_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/trace/track_event/chrome_compositor_scheduler_state.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_COMPOSITOR_SCHEDULER_STATE_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_COMPOSITOR_SCHEDULER_STATE_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class CompositorTimingHistory;
+class BeginFrameSourceState;
+class BeginFrameArgs;
+class SourceLocation;
+class BeginFrameObserverState;
+class BeginImplFrameArgs;
+class BeginImplFrameArgs_TimestampsInUs;
+class ChromeCompositorStateMachine;
+class ChromeCompositorStateMachine_MinorState;
+class ChromeCompositorStateMachine_MajorState;
+class ChromeCompositorSchedulerState;
+enum ChromeCompositorSchedulerAction : int;
+enum BeginFrameArgs_BeginFrameArgsType : int;
+enum BeginImplFrameArgs_State : int;
+enum ChromeCompositorStateMachine_MinorState_TreePriority : int;
+enum ChromeCompositorStateMachine_MinorState_ScrollHandlerState : int;
+enum ChromeCompositorStateMachine_MajorState_BeginImplFrameState : int;
+enum ChromeCompositorStateMachine_MajorState_BeginMainFrameState : int;
+enum ChromeCompositorStateMachine_MajorState_LayerTreeFrameSinkState : int;
+enum ChromeCompositorStateMachine_MajorState_ForcedRedrawOnTimeoutState : int;
+enum ChromeCompositorSchedulerState_BeginImplFrameDeadlineMode : int;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+enum ChromeCompositorSchedulerAction : int {
+ CC_SCHEDULER_ACTION_UNSPECIFIED = 0,
+ CC_SCHEDULER_ACTION_NONE = 1,
+ CC_SCHEDULER_ACTION_SEND_BEGIN_MAIN_FRAME = 2,
+ CC_SCHEDULER_ACTION_COMMIT = 3,
+ CC_SCHEDULER_ACTION_ACTIVATE_SYNC_TREE = 4,
+ CC_SCHEDULER_ACTION_DRAW_IF_POSSIBLE = 5,
+ CC_SCHEDULER_ACTION_DRAW_FORCED = 6,
+ CC_SCHEDULER_ACTION_DRAW_ABORT = 7,
+ CC_SCHEDULER_ACTION_BEGIN_LAYER_TREE_FRAME_SINK_CREATION = 8,
+ CC_SCHEDULER_ACTION_PREPARE_TILES = 9,
+ CC_SCHEDULER_ACTION_INVALIDATE_LAYER_TREE_FRAME_SINK = 10,
+ CC_SCHEDULER_ACTION_PERFORM_IMPL_SIDE_INVALIDATION = 11,
+ CC_SCHEDULER_ACTION_NOTIFY_BEGIN_MAIN_FRAME_NOT_EXPECTED_UNTIL = 12,
+ CC_SCHEDULER_ACTION_NOTIFY_BEGIN_MAIN_FRAME_NOT_EXPECTED_SOON = 13,
+};
+enum BeginFrameArgs_BeginFrameArgsType : int {
+ BeginFrameArgs_BeginFrameArgsType_BEGIN_FRAME_ARGS_TYPE_UNSPECIFIED = 0,
+ BeginFrameArgs_BeginFrameArgsType_BEGIN_FRAME_ARGS_TYPE_INVALID = 1,
+ BeginFrameArgs_BeginFrameArgsType_BEGIN_FRAME_ARGS_TYPE_NORMAL = 2,
+ BeginFrameArgs_BeginFrameArgsType_BEGIN_FRAME_ARGS_TYPE_MISSED = 3,
+};
+enum BeginImplFrameArgs_State : int {
+ BeginImplFrameArgs_State_BEGIN_FRAME_FINISHED = 0,
+ BeginImplFrameArgs_State_BEGIN_FRAME_USING = 1,
+};
+enum ChromeCompositorStateMachine_MinorState_TreePriority : int {
+ ChromeCompositorStateMachine_MinorState_TreePriority_TREE_PRIORITY_UNSPECIFIED = 0,
+ ChromeCompositorStateMachine_MinorState_TreePriority_TREE_PRIORITY_SAME_PRIORITY_FOR_BOTH_TREES = 1,
+ ChromeCompositorStateMachine_MinorState_TreePriority_TREE_PRIORITY_SMOOTHNESS_TAKES_PRIORITY = 2,
+ ChromeCompositorStateMachine_MinorState_TreePriority_TREE_PRIORITY_NEW_CONTENT_TAKES_PRIORITY = 3,
+};
+enum ChromeCompositorStateMachine_MinorState_ScrollHandlerState : int {
+ ChromeCompositorStateMachine_MinorState_ScrollHandlerState_SCROLL_HANDLER_UNSPECIFIED = 0,
+ ChromeCompositorStateMachine_MinorState_ScrollHandlerState_SCROLL_AFFECTS_SCROLL_HANDLER = 1,
+ ChromeCompositorStateMachine_MinorState_ScrollHandlerState_SCROLL_DOES_NOT_AFFECT_SCROLL_HANDLER = 2,
+};
+enum ChromeCompositorStateMachine_MajorState_BeginImplFrameState : int {
+ ChromeCompositorStateMachine_MajorState_BeginImplFrameState_BEGIN_IMPL_FRAME_UNSPECIFIED = 0,
+ ChromeCompositorStateMachine_MajorState_BeginImplFrameState_BEGIN_IMPL_FRAME_IDLE = 1,
+ ChromeCompositorStateMachine_MajorState_BeginImplFrameState_BEGIN_IMPL_FRAME_INSIDE_BEGIN_FRAME = 2,
+ ChromeCompositorStateMachine_MajorState_BeginImplFrameState_BEGIN_IMPL_FRAME_INSIDE_DEADLINE = 3,
+};
+enum ChromeCompositorStateMachine_MajorState_BeginMainFrameState : int {
+ ChromeCompositorStateMachine_MajorState_BeginMainFrameState_BEGIN_MAIN_FRAME_UNSPECIFIED = 0,
+ ChromeCompositorStateMachine_MajorState_BeginMainFrameState_BEGIN_MAIN_FRAME_IDLE = 1,
+ ChromeCompositorStateMachine_MajorState_BeginMainFrameState_BEGIN_MAIN_FRAME_SENT = 2,
+ ChromeCompositorStateMachine_MajorState_BeginMainFrameState_BEGIN_MAIN_FRAME_READY_TO_COMMIT = 3,
+};
+enum ChromeCompositorStateMachine_MajorState_LayerTreeFrameSinkState : int {
+ ChromeCompositorStateMachine_MajorState_LayerTreeFrameSinkState_LAYER_TREE_FRAME_UNSPECIFIED = 0,
+ ChromeCompositorStateMachine_MajorState_LayerTreeFrameSinkState_LAYER_TREE_FRAME_NONE = 1,
+ ChromeCompositorStateMachine_MajorState_LayerTreeFrameSinkState_LAYER_TREE_FRAME_ACTIVE = 2,
+ ChromeCompositorStateMachine_MajorState_LayerTreeFrameSinkState_LAYER_TREE_FRAME_CREATING = 3,
+ ChromeCompositorStateMachine_MajorState_LayerTreeFrameSinkState_LAYER_TREE_FRAME_WAITING_FOR_FIRST_COMMIT = 4,
+ ChromeCompositorStateMachine_MajorState_LayerTreeFrameSinkState_LAYER_TREE_FRAME_WAITING_FOR_FIRST_ACTIVATION = 5,
+};
+enum ChromeCompositorStateMachine_MajorState_ForcedRedrawOnTimeoutState : int {
+ ChromeCompositorStateMachine_MajorState_ForcedRedrawOnTimeoutState_FORCED_REDRAW_UNSPECIFIED = 0,
+ ChromeCompositorStateMachine_MajorState_ForcedRedrawOnTimeoutState_FORCED_REDRAW_IDLE = 1,
+ ChromeCompositorStateMachine_MajorState_ForcedRedrawOnTimeoutState_FORCED_REDRAW_WAITING_FOR_COMMIT = 2,
+ ChromeCompositorStateMachine_MajorState_ForcedRedrawOnTimeoutState_FORCED_REDRAW_WAITING_FOR_ACTIVATION = 3,
+ ChromeCompositorStateMachine_MajorState_ForcedRedrawOnTimeoutState_FORCED_REDRAW_WAITING_FOR_DRAW = 4,
+};
+enum ChromeCompositorSchedulerState_BeginImplFrameDeadlineMode : int {
+ ChromeCompositorSchedulerState_BeginImplFrameDeadlineMode_DEADLINE_MODE_UNSPECIFIED = 0,
+ ChromeCompositorSchedulerState_BeginImplFrameDeadlineMode_DEADLINE_MODE_NONE = 1,
+ ChromeCompositorSchedulerState_BeginImplFrameDeadlineMode_DEADLINE_MODE_IMMEDIATE = 2,
+ ChromeCompositorSchedulerState_BeginImplFrameDeadlineMode_DEADLINE_MODE_REGULAR = 3,
+ ChromeCompositorSchedulerState_BeginImplFrameDeadlineMode_DEADLINE_MODE_LATE = 4,
+ ChromeCompositorSchedulerState_BeginImplFrameDeadlineMode_DEADLINE_MODE_BLOCKED = 5,
+};
+
+class PERFETTO_EXPORT_COMPONENT CompositorTimingHistory : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kBeginMainFrameQueueCriticalEstimateDeltaUsFieldNumber = 1,
+ kBeginMainFrameQueueNotCriticalEstimateDeltaUsFieldNumber = 2,
+ kBeginMainFrameStartToReadyToCommitEstimateDeltaUsFieldNumber = 3,
+ kCommitToReadyToActivateEstimateDeltaUsFieldNumber = 4,
+ kPrepareTilesEstimateDeltaUsFieldNumber = 5,
+ kActivateEstimateDeltaUsFieldNumber = 6,
+ kDrawEstimateDeltaUsFieldNumber = 7,
+ };
+
+ CompositorTimingHistory();
+ ~CompositorTimingHistory() override;
+ CompositorTimingHistory(CompositorTimingHistory&&) noexcept;
+ CompositorTimingHistory& operator=(CompositorTimingHistory&&);
+ CompositorTimingHistory(const CompositorTimingHistory&);
+ CompositorTimingHistory& operator=(const CompositorTimingHistory&);
+ bool operator==(const CompositorTimingHistory&) const;
+ bool operator!=(const CompositorTimingHistory& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_begin_main_frame_queue_critical_estimate_delta_us() const { return _has_field_[1]; }
+ int64_t begin_main_frame_queue_critical_estimate_delta_us() const { return begin_main_frame_queue_critical_estimate_delta_us_; }
+ void set_begin_main_frame_queue_critical_estimate_delta_us(int64_t value) { begin_main_frame_queue_critical_estimate_delta_us_ = value; _has_field_.set(1); }
+
+ bool has_begin_main_frame_queue_not_critical_estimate_delta_us() const { return _has_field_[2]; }
+ int64_t begin_main_frame_queue_not_critical_estimate_delta_us() const { return begin_main_frame_queue_not_critical_estimate_delta_us_; }
+ void set_begin_main_frame_queue_not_critical_estimate_delta_us(int64_t value) { begin_main_frame_queue_not_critical_estimate_delta_us_ = value; _has_field_.set(2); }
+
+ bool has_begin_main_frame_start_to_ready_to_commit_estimate_delta_us() const { return _has_field_[3]; }
+ int64_t begin_main_frame_start_to_ready_to_commit_estimate_delta_us() const { return begin_main_frame_start_to_ready_to_commit_estimate_delta_us_; }
+ void set_begin_main_frame_start_to_ready_to_commit_estimate_delta_us(int64_t value) { begin_main_frame_start_to_ready_to_commit_estimate_delta_us_ = value; _has_field_.set(3); }
+
+ bool has_commit_to_ready_to_activate_estimate_delta_us() const { return _has_field_[4]; }
+ int64_t commit_to_ready_to_activate_estimate_delta_us() const { return commit_to_ready_to_activate_estimate_delta_us_; }
+ void set_commit_to_ready_to_activate_estimate_delta_us(int64_t value) { commit_to_ready_to_activate_estimate_delta_us_ = value; _has_field_.set(4); }
+
+ bool has_prepare_tiles_estimate_delta_us() const { return _has_field_[5]; }
+ int64_t prepare_tiles_estimate_delta_us() const { return prepare_tiles_estimate_delta_us_; }
+ void set_prepare_tiles_estimate_delta_us(int64_t value) { prepare_tiles_estimate_delta_us_ = value; _has_field_.set(5); }
+
+ bool has_activate_estimate_delta_us() const { return _has_field_[6]; }
+ int64_t activate_estimate_delta_us() const { return activate_estimate_delta_us_; }
+ void set_activate_estimate_delta_us(int64_t value) { activate_estimate_delta_us_ = value; _has_field_.set(6); }
+
+ bool has_draw_estimate_delta_us() const { return _has_field_[7]; }
+ int64_t draw_estimate_delta_us() const { return draw_estimate_delta_us_; }
+ void set_draw_estimate_delta_us(int64_t value) { draw_estimate_delta_us_ = value; _has_field_.set(7); }
+
+ private:
+ int64_t begin_main_frame_queue_critical_estimate_delta_us_{};
+ int64_t begin_main_frame_queue_not_critical_estimate_delta_us_{};
+ int64_t begin_main_frame_start_to_ready_to_commit_estimate_delta_us_{};
+ int64_t commit_to_ready_to_activate_estimate_delta_us_{};
+ int64_t prepare_tiles_estimate_delta_us_{};
+ int64_t activate_estimate_delta_us_{};
+ int64_t draw_estimate_delta_us_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<8> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT BeginFrameSourceState : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kSourceIdFieldNumber = 1,
+ kPausedFieldNumber = 2,
+ kNumObserversFieldNumber = 3,
+ kLastBeginFrameArgsFieldNumber = 4,
+ };
+
+ BeginFrameSourceState();
+ ~BeginFrameSourceState() override;
+ BeginFrameSourceState(BeginFrameSourceState&&) noexcept;
+ BeginFrameSourceState& operator=(BeginFrameSourceState&&);
+ BeginFrameSourceState(const BeginFrameSourceState&);
+ BeginFrameSourceState& operator=(const BeginFrameSourceState&);
+ bool operator==(const BeginFrameSourceState&) const;
+ bool operator!=(const BeginFrameSourceState& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_source_id() const { return _has_field_[1]; }
+ uint32_t source_id() const { return source_id_; }
+ void set_source_id(uint32_t value) { source_id_ = value; _has_field_.set(1); }
+
+ bool has_paused() const { return _has_field_[2]; }
+ bool paused() const { return paused_; }
+ void set_paused(bool value) { paused_ = value; _has_field_.set(2); }
+
+ bool has_num_observers() const { return _has_field_[3]; }
+ uint32_t num_observers() const { return num_observers_; }
+ void set_num_observers(uint32_t value) { num_observers_ = value; _has_field_.set(3); }
+
+ bool has_last_begin_frame_args() const { return _has_field_[4]; }
+ const BeginFrameArgs& last_begin_frame_args() const { return *last_begin_frame_args_; }
+ BeginFrameArgs* mutable_last_begin_frame_args() { _has_field_.set(4); return last_begin_frame_args_.get(); }
+
+ private:
+ uint32_t source_id_{};
+ bool paused_{};
+ uint32_t num_observers_{};
+ ::protozero::CopyablePtr<BeginFrameArgs> last_begin_frame_args_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<5> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT BeginFrameArgs : public ::protozero::CppMessageObj {
+ public:
+ using BeginFrameArgsType = BeginFrameArgs_BeginFrameArgsType;
+ static constexpr auto BEGIN_FRAME_ARGS_TYPE_UNSPECIFIED = BeginFrameArgs_BeginFrameArgsType_BEGIN_FRAME_ARGS_TYPE_UNSPECIFIED;
+ static constexpr auto BEGIN_FRAME_ARGS_TYPE_INVALID = BeginFrameArgs_BeginFrameArgsType_BEGIN_FRAME_ARGS_TYPE_INVALID;
+ static constexpr auto BEGIN_FRAME_ARGS_TYPE_NORMAL = BeginFrameArgs_BeginFrameArgsType_BEGIN_FRAME_ARGS_TYPE_NORMAL;
+ static constexpr auto BEGIN_FRAME_ARGS_TYPE_MISSED = BeginFrameArgs_BeginFrameArgsType_BEGIN_FRAME_ARGS_TYPE_MISSED;
+ static constexpr auto BeginFrameArgsType_MIN = BeginFrameArgs_BeginFrameArgsType_BEGIN_FRAME_ARGS_TYPE_UNSPECIFIED;
+ static constexpr auto BeginFrameArgsType_MAX = BeginFrameArgs_BeginFrameArgsType_BEGIN_FRAME_ARGS_TYPE_MISSED;
+ enum FieldNumbers {
+ kTypeFieldNumber = 1,
+ kSourceIdFieldNumber = 2,
+ kSequenceNumberFieldNumber = 3,
+ kFrameTimeUsFieldNumber = 4,
+ kDeadlineUsFieldNumber = 5,
+ kIntervalDeltaUsFieldNumber = 6,
+ kOnCriticalPathFieldNumber = 7,
+ kAnimateOnlyFieldNumber = 8,
+ kSourceLocationIidFieldNumber = 9,
+ kSourceLocationFieldNumber = 10,
+ kFramesThrottledSinceLastFieldNumber = 12,
+ };
+
+ BeginFrameArgs();
+ ~BeginFrameArgs() override;
+ BeginFrameArgs(BeginFrameArgs&&) noexcept;
+ BeginFrameArgs& operator=(BeginFrameArgs&&);
+ BeginFrameArgs(const BeginFrameArgs&);
+ BeginFrameArgs& operator=(const BeginFrameArgs&);
+ bool operator==(const BeginFrameArgs&) const;
+ bool operator!=(const BeginFrameArgs& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_type() const { return _has_field_[1]; }
+ BeginFrameArgs_BeginFrameArgsType type() const { return type_; }
+ void set_type(BeginFrameArgs_BeginFrameArgsType value) { type_ = value; _has_field_.set(1); }
+
+ bool has_source_id() const { return _has_field_[2]; }
+ uint64_t source_id() const { return source_id_; }
+ void set_source_id(uint64_t value) { source_id_ = value; _has_field_.set(2); }
+
+ bool has_sequence_number() const { return _has_field_[3]; }
+ uint64_t sequence_number() const { return sequence_number_; }
+ void set_sequence_number(uint64_t value) { sequence_number_ = value; _has_field_.set(3); }
+
+ bool has_frame_time_us() const { return _has_field_[4]; }
+ int64_t frame_time_us() const { return frame_time_us_; }
+ void set_frame_time_us(int64_t value) { frame_time_us_ = value; _has_field_.set(4); }
+
+ bool has_deadline_us() const { return _has_field_[5]; }
+ int64_t deadline_us() const { return deadline_us_; }
+ void set_deadline_us(int64_t value) { deadline_us_ = value; _has_field_.set(5); }
+
+ bool has_interval_delta_us() const { return _has_field_[6]; }
+ int64_t interval_delta_us() const { return interval_delta_us_; }
+ void set_interval_delta_us(int64_t value) { interval_delta_us_ = value; _has_field_.set(6); }
+
+ bool has_on_critical_path() const { return _has_field_[7]; }
+ bool on_critical_path() const { return on_critical_path_; }
+ void set_on_critical_path(bool value) { on_critical_path_ = value; _has_field_.set(7); }
+
+ bool has_animate_only() const { return _has_field_[8]; }
+ bool animate_only() const { return animate_only_; }
+ void set_animate_only(bool value) { animate_only_ = value; _has_field_.set(8); }
+
+ bool has_source_location_iid() const { return _has_field_[9]; }
+ uint64_t source_location_iid() const { return source_location_iid_; }
+ void set_source_location_iid(uint64_t value) { source_location_iid_ = value; _has_field_.set(9); }
+
+ bool has_source_location() const { return _has_field_[10]; }
+ const SourceLocation& source_location() const { return *source_location_; }
+ SourceLocation* mutable_source_location() { _has_field_.set(10); return source_location_.get(); }
+
+ bool has_frames_throttled_since_last() const { return _has_field_[12]; }
+ int64_t frames_throttled_since_last() const { return frames_throttled_since_last_; }
+ void set_frames_throttled_since_last(int64_t value) { frames_throttled_since_last_ = value; _has_field_.set(12); }
+
+ private:
+ BeginFrameArgs_BeginFrameArgsType type_{};
+ uint64_t source_id_{};
+ uint64_t sequence_number_{};
+ int64_t frame_time_us_{};
+ int64_t deadline_us_{};
+ int64_t interval_delta_us_{};
+ bool on_critical_path_{};
+ bool animate_only_{};
+ uint64_t source_location_iid_{};
+ ::protozero::CopyablePtr<SourceLocation> source_location_;
+ int64_t frames_throttled_since_last_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<13> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT BeginFrameObserverState : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kDroppedBeginFrameArgsFieldNumber = 1,
+ kLastBeginFrameArgsFieldNumber = 2,
+ };
+
+ BeginFrameObserverState();
+ ~BeginFrameObserverState() override;
+ BeginFrameObserverState(BeginFrameObserverState&&) noexcept;
+ BeginFrameObserverState& operator=(BeginFrameObserverState&&);
+ BeginFrameObserverState(const BeginFrameObserverState&);
+ BeginFrameObserverState& operator=(const BeginFrameObserverState&);
+ bool operator==(const BeginFrameObserverState&) const;
+ bool operator!=(const BeginFrameObserverState& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_dropped_begin_frame_args() const { return _has_field_[1]; }
+ int64_t dropped_begin_frame_args() const { return dropped_begin_frame_args_; }
+ void set_dropped_begin_frame_args(int64_t value) { dropped_begin_frame_args_ = value; _has_field_.set(1); }
+
+ bool has_last_begin_frame_args() const { return _has_field_[2]; }
+ const BeginFrameArgs& last_begin_frame_args() const { return *last_begin_frame_args_; }
+ BeginFrameArgs* mutable_last_begin_frame_args() { _has_field_.set(2); return last_begin_frame_args_.get(); }
+
+ private:
+ int64_t dropped_begin_frame_args_{};
+ ::protozero::CopyablePtr<BeginFrameArgs> last_begin_frame_args_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<3> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT BeginImplFrameArgs : public ::protozero::CppMessageObj {
+ public:
+ using TimestampsInUs = BeginImplFrameArgs_TimestampsInUs;
+ using State = BeginImplFrameArgs_State;
+ static constexpr auto BEGIN_FRAME_FINISHED = BeginImplFrameArgs_State_BEGIN_FRAME_FINISHED;
+ static constexpr auto BEGIN_FRAME_USING = BeginImplFrameArgs_State_BEGIN_FRAME_USING;
+ static constexpr auto State_MIN = BeginImplFrameArgs_State_BEGIN_FRAME_FINISHED;
+ static constexpr auto State_MAX = BeginImplFrameArgs_State_BEGIN_FRAME_USING;
+ enum FieldNumbers {
+ kUpdatedAtUsFieldNumber = 1,
+ kFinishedAtUsFieldNumber = 2,
+ kStateFieldNumber = 3,
+ kCurrentArgsFieldNumber = 4,
+ kLastArgsFieldNumber = 5,
+ kTimestampsInUsFieldNumber = 6,
+ };
+
+ BeginImplFrameArgs();
+ ~BeginImplFrameArgs() override;
+ BeginImplFrameArgs(BeginImplFrameArgs&&) noexcept;
+ BeginImplFrameArgs& operator=(BeginImplFrameArgs&&);
+ BeginImplFrameArgs(const BeginImplFrameArgs&);
+ BeginImplFrameArgs& operator=(const BeginImplFrameArgs&);
+ bool operator==(const BeginImplFrameArgs&) const;
+ bool operator!=(const BeginImplFrameArgs& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_updated_at_us() const { return _has_field_[1]; }
+ int64_t updated_at_us() const { return updated_at_us_; }
+ void set_updated_at_us(int64_t value) { updated_at_us_ = value; _has_field_.set(1); }
+
+ bool has_finished_at_us() const { return _has_field_[2]; }
+ int64_t finished_at_us() const { return finished_at_us_; }
+ void set_finished_at_us(int64_t value) { finished_at_us_ = value; _has_field_.set(2); }
+
+ bool has_state() const { return _has_field_[3]; }
+ BeginImplFrameArgs_State state() const { return state_; }
+ void set_state(BeginImplFrameArgs_State value) { state_ = value; _has_field_.set(3); }
+
+ bool has_current_args() const { return _has_field_[4]; }
+ const BeginFrameArgs& current_args() const { return *current_args_; }
+ BeginFrameArgs* mutable_current_args() { _has_field_.set(4); return current_args_.get(); }
+
+ bool has_last_args() const { return _has_field_[5]; }
+ const BeginFrameArgs& last_args() const { return *last_args_; }
+ BeginFrameArgs* mutable_last_args() { _has_field_.set(5); return last_args_.get(); }
+
+ bool has_timestamps_in_us() const { return _has_field_[6]; }
+ const BeginImplFrameArgs_TimestampsInUs& timestamps_in_us() const { return *timestamps_in_us_; }
+ BeginImplFrameArgs_TimestampsInUs* mutable_timestamps_in_us() { _has_field_.set(6); return timestamps_in_us_.get(); }
+
+ private:
+ int64_t updated_at_us_{};
+ int64_t finished_at_us_{};
+ BeginImplFrameArgs_State state_{};
+ ::protozero::CopyablePtr<BeginFrameArgs> current_args_;
+ ::protozero::CopyablePtr<BeginFrameArgs> last_args_;
+ ::protozero::CopyablePtr<BeginImplFrameArgs_TimestampsInUs> timestamps_in_us_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<7> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT BeginImplFrameArgs_TimestampsInUs : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kIntervalDeltaFieldNumber = 1,
+ kNowToDeadlineDeltaFieldNumber = 2,
+ kFrameTimeToNowDeltaFieldNumber = 3,
+ kFrameTimeToDeadlineDeltaFieldNumber = 4,
+ kNowFieldNumber = 5,
+ kFrameTimeFieldNumber = 6,
+ kDeadlineFieldNumber = 7,
+ };
+
+ BeginImplFrameArgs_TimestampsInUs();
+ ~BeginImplFrameArgs_TimestampsInUs() override;
+ BeginImplFrameArgs_TimestampsInUs(BeginImplFrameArgs_TimestampsInUs&&) noexcept;
+ BeginImplFrameArgs_TimestampsInUs& operator=(BeginImplFrameArgs_TimestampsInUs&&);
+ BeginImplFrameArgs_TimestampsInUs(const BeginImplFrameArgs_TimestampsInUs&);
+ BeginImplFrameArgs_TimestampsInUs& operator=(const BeginImplFrameArgs_TimestampsInUs&);
+ bool operator==(const BeginImplFrameArgs_TimestampsInUs&) const;
+ bool operator!=(const BeginImplFrameArgs_TimestampsInUs& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_interval_delta() const { return _has_field_[1]; }
+ int64_t interval_delta() const { return interval_delta_; }
+ void set_interval_delta(int64_t value) { interval_delta_ = value; _has_field_.set(1); }
+
+ bool has_now_to_deadline_delta() const { return _has_field_[2]; }
+ int64_t now_to_deadline_delta() const { return now_to_deadline_delta_; }
+ void set_now_to_deadline_delta(int64_t value) { now_to_deadline_delta_ = value; _has_field_.set(2); }
+
+ bool has_frame_time_to_now_delta() const { return _has_field_[3]; }
+ int64_t frame_time_to_now_delta() const { return frame_time_to_now_delta_; }
+ void set_frame_time_to_now_delta(int64_t value) { frame_time_to_now_delta_ = value; _has_field_.set(3); }
+
+ bool has_frame_time_to_deadline_delta() const { return _has_field_[4]; }
+ int64_t frame_time_to_deadline_delta() const { return frame_time_to_deadline_delta_; }
+ void set_frame_time_to_deadline_delta(int64_t value) { frame_time_to_deadline_delta_ = value; _has_field_.set(4); }
+
+ bool has_now() const { return _has_field_[5]; }
+ int64_t now() const { return now_; }
+ void set_now(int64_t value) { now_ = value; _has_field_.set(5); }
+
+ bool has_frame_time() const { return _has_field_[6]; }
+ int64_t frame_time() const { return frame_time_; }
+ void set_frame_time(int64_t value) { frame_time_ = value; _has_field_.set(6); }
+
+ bool has_deadline() const { return _has_field_[7]; }
+ int64_t deadline() const { return deadline_; }
+ void set_deadline(int64_t value) { deadline_ = value; _has_field_.set(7); }
+
+ private:
+ int64_t interval_delta_{};
+ int64_t now_to_deadline_delta_{};
+ int64_t frame_time_to_now_delta_{};
+ int64_t frame_time_to_deadline_delta_{};
+ int64_t now_{};
+ int64_t frame_time_{};
+ int64_t deadline_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<8> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT ChromeCompositorStateMachine : public ::protozero::CppMessageObj {
+ public:
+ using MajorState = ChromeCompositorStateMachine_MajorState;
+ using MinorState = ChromeCompositorStateMachine_MinorState;
+ enum FieldNumbers {
+ kMajorStateFieldNumber = 1,
+ kMinorStateFieldNumber = 2,
+ };
+
+ ChromeCompositorStateMachine();
+ ~ChromeCompositorStateMachine() override;
+ ChromeCompositorStateMachine(ChromeCompositorStateMachine&&) noexcept;
+ ChromeCompositorStateMachine& operator=(ChromeCompositorStateMachine&&);
+ ChromeCompositorStateMachine(const ChromeCompositorStateMachine&);
+ ChromeCompositorStateMachine& operator=(const ChromeCompositorStateMachine&);
+ bool operator==(const ChromeCompositorStateMachine&) const;
+ bool operator!=(const ChromeCompositorStateMachine& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_major_state() const { return _has_field_[1]; }
+ const ChromeCompositorStateMachine_MajorState& major_state() const { return *major_state_; }
+ ChromeCompositorStateMachine_MajorState* mutable_major_state() { _has_field_.set(1); return major_state_.get(); }
+
+ bool has_minor_state() const { return _has_field_[2]; }
+ const ChromeCompositorStateMachine_MinorState& minor_state() const { return *minor_state_; }
+ ChromeCompositorStateMachine_MinorState* mutable_minor_state() { _has_field_.set(2); return minor_state_.get(); }
+
+ private:
+ ::protozero::CopyablePtr<ChromeCompositorStateMachine_MajorState> major_state_;
+ ::protozero::CopyablePtr<ChromeCompositorStateMachine_MinorState> minor_state_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<3> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT ChromeCompositorStateMachine_MinorState : public ::protozero::CppMessageObj {
+ public:
+ using TreePriority = ChromeCompositorStateMachine_MinorState_TreePriority;
+ static constexpr auto TREE_PRIORITY_UNSPECIFIED = ChromeCompositorStateMachine_MinorState_TreePriority_TREE_PRIORITY_UNSPECIFIED;
+ static constexpr auto TREE_PRIORITY_SAME_PRIORITY_FOR_BOTH_TREES = ChromeCompositorStateMachine_MinorState_TreePriority_TREE_PRIORITY_SAME_PRIORITY_FOR_BOTH_TREES;
+ static constexpr auto TREE_PRIORITY_SMOOTHNESS_TAKES_PRIORITY = ChromeCompositorStateMachine_MinorState_TreePriority_TREE_PRIORITY_SMOOTHNESS_TAKES_PRIORITY;
+ static constexpr auto TREE_PRIORITY_NEW_CONTENT_TAKES_PRIORITY = ChromeCompositorStateMachine_MinorState_TreePriority_TREE_PRIORITY_NEW_CONTENT_TAKES_PRIORITY;
+ static constexpr auto TreePriority_MIN = ChromeCompositorStateMachine_MinorState_TreePriority_TREE_PRIORITY_UNSPECIFIED;
+ static constexpr auto TreePriority_MAX = ChromeCompositorStateMachine_MinorState_TreePriority_TREE_PRIORITY_NEW_CONTENT_TAKES_PRIORITY;
+ using ScrollHandlerState = ChromeCompositorStateMachine_MinorState_ScrollHandlerState;
+ static constexpr auto SCROLL_HANDLER_UNSPECIFIED = ChromeCompositorStateMachine_MinorState_ScrollHandlerState_SCROLL_HANDLER_UNSPECIFIED;
+ static constexpr auto SCROLL_AFFECTS_SCROLL_HANDLER = ChromeCompositorStateMachine_MinorState_ScrollHandlerState_SCROLL_AFFECTS_SCROLL_HANDLER;
+ static constexpr auto SCROLL_DOES_NOT_AFFECT_SCROLL_HANDLER = ChromeCompositorStateMachine_MinorState_ScrollHandlerState_SCROLL_DOES_NOT_AFFECT_SCROLL_HANDLER;
+ static constexpr auto ScrollHandlerState_MIN = ChromeCompositorStateMachine_MinorState_ScrollHandlerState_SCROLL_HANDLER_UNSPECIFIED;
+ static constexpr auto ScrollHandlerState_MAX = ChromeCompositorStateMachine_MinorState_ScrollHandlerState_SCROLL_DOES_NOT_AFFECT_SCROLL_HANDLER;
+ enum FieldNumbers {
+ kCommitCountFieldNumber = 1,
+ kCurrentFrameNumberFieldNumber = 2,
+ kLastFrameNumberSubmitPerformedFieldNumber = 3,
+ kLastFrameNumberDrawPerformedFieldNumber = 4,
+ kLastFrameNumberBeginMainFrameSentFieldNumber = 5,
+ kDidDrawFieldNumber = 6,
+ kDidSendBeginMainFrameForCurrentFrameFieldNumber = 7,
+ kDidNotifyBeginMainFrameNotExpectedUntilFieldNumber = 8,
+ kDidNotifyBeginMainFrameNotExpectedSoonFieldNumber = 9,
+ kWantsBeginMainFrameNotExpectedFieldNumber = 10,
+ kDidCommitDuringFrameFieldNumber = 11,
+ kDidInvalidateLayerTreeFrameSinkFieldNumber = 12,
+ kDidPerformImplSideInvalidaionFieldNumber = 13,
+ kDidPrepareTilesFieldNumber = 14,
+ kConsecutiveCheckerboardAnimationsFieldNumber = 15,
+ kPendingSubmitFramesFieldNumber = 16,
+ kSubmitFramesWithCurrentLayerTreeFrameSinkFieldNumber = 17,
+ kNeedsRedrawFieldNumber = 18,
+ kNeedsPrepareTilesFieldNumber = 19,
+ kNeedsBeginMainFrameFieldNumber = 20,
+ kNeedsOneBeginImplFrameFieldNumber = 21,
+ kVisibleFieldNumber = 22,
+ kBeginFrameSourcePausedFieldNumber = 23,
+ kCanDrawFieldNumber = 24,
+ kResourcelessDrawFieldNumber = 25,
+ kHasPendingTreeFieldNumber = 26,
+ kPendingTreeIsReadyForActivationFieldNumber = 27,
+ kActiveTreeNeedsFirstDrawFieldNumber = 28,
+ kActiveTreeIsReadyToDrawFieldNumber = 29,
+ kDidCreateAndInitializeFirstLayerTreeFrameSinkFieldNumber = 30,
+ kTreePriorityFieldNumber = 31,
+ kScrollHandlerStateFieldNumber = 32,
+ kCriticalBeginMainFrameToActivateIsFastFieldNumber = 33,
+ kMainThreadMissedLastDeadlineFieldNumber = 34,
+ kVideoNeedsBeginFramesFieldNumber = 36,
+ kDeferBeginMainFrameFieldNumber = 37,
+ kLastCommitHadNoUpdatesFieldNumber = 38,
+ kDidDrawInLastFrameFieldNumber = 39,
+ kDidSubmitInLastFrameFieldNumber = 40,
+ kNeedsImplSideInvalidationFieldNumber = 41,
+ kCurrentPendingTreeIsImplSideFieldNumber = 42,
+ kPreviousPendingTreeWasImplSideFieldNumber = 43,
+ kProcessingAnimationWorkletsForActiveTreeFieldNumber = 44,
+ kProcessingAnimationWorkletsForPendingTreeFieldNumber = 45,
+ kProcessingPaintWorkletsForPendingTreeFieldNumber = 46,
+ };
+
+ ChromeCompositorStateMachine_MinorState();
+ ~ChromeCompositorStateMachine_MinorState() override;
+ ChromeCompositorStateMachine_MinorState(ChromeCompositorStateMachine_MinorState&&) noexcept;
+ ChromeCompositorStateMachine_MinorState& operator=(ChromeCompositorStateMachine_MinorState&&);
+ ChromeCompositorStateMachine_MinorState(const ChromeCompositorStateMachine_MinorState&);
+ ChromeCompositorStateMachine_MinorState& operator=(const ChromeCompositorStateMachine_MinorState&);
+ bool operator==(const ChromeCompositorStateMachine_MinorState&) const;
+ bool operator!=(const ChromeCompositorStateMachine_MinorState& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_commit_count() const { return _has_field_[1]; }
+ int32_t commit_count() const { return commit_count_; }
+ void set_commit_count(int32_t value) { commit_count_ = value; _has_field_.set(1); }
+
+ bool has_current_frame_number() const { return _has_field_[2]; }
+ int32_t current_frame_number() const { return current_frame_number_; }
+ void set_current_frame_number(int32_t value) { current_frame_number_ = value; _has_field_.set(2); }
+
+ bool has_last_frame_number_submit_performed() const { return _has_field_[3]; }
+ int32_t last_frame_number_submit_performed() const { return last_frame_number_submit_performed_; }
+ void set_last_frame_number_submit_performed(int32_t value) { last_frame_number_submit_performed_ = value; _has_field_.set(3); }
+
+ bool has_last_frame_number_draw_performed() const { return _has_field_[4]; }
+ int32_t last_frame_number_draw_performed() const { return last_frame_number_draw_performed_; }
+ void set_last_frame_number_draw_performed(int32_t value) { last_frame_number_draw_performed_ = value; _has_field_.set(4); }
+
+ bool has_last_frame_number_begin_main_frame_sent() const { return _has_field_[5]; }
+ int32_t last_frame_number_begin_main_frame_sent() const { return last_frame_number_begin_main_frame_sent_; }
+ void set_last_frame_number_begin_main_frame_sent(int32_t value) { last_frame_number_begin_main_frame_sent_ = value; _has_field_.set(5); }
+
+ bool has_did_draw() const { return _has_field_[6]; }
+ bool did_draw() const { return did_draw_; }
+ void set_did_draw(bool value) { did_draw_ = value; _has_field_.set(6); }
+
+ bool has_did_send_begin_main_frame_for_current_frame() const { return _has_field_[7]; }
+ bool did_send_begin_main_frame_for_current_frame() const { return did_send_begin_main_frame_for_current_frame_; }
+ void set_did_send_begin_main_frame_for_current_frame(bool value) { did_send_begin_main_frame_for_current_frame_ = value; _has_field_.set(7); }
+
+ bool has_did_notify_begin_main_frame_not_expected_until() const { return _has_field_[8]; }
+ bool did_notify_begin_main_frame_not_expected_until() const { return did_notify_begin_main_frame_not_expected_until_; }
+ void set_did_notify_begin_main_frame_not_expected_until(bool value) { did_notify_begin_main_frame_not_expected_until_ = value; _has_field_.set(8); }
+
+ bool has_did_notify_begin_main_frame_not_expected_soon() const { return _has_field_[9]; }
+ bool did_notify_begin_main_frame_not_expected_soon() const { return did_notify_begin_main_frame_not_expected_soon_; }
+ void set_did_notify_begin_main_frame_not_expected_soon(bool value) { did_notify_begin_main_frame_not_expected_soon_ = value; _has_field_.set(9); }
+
+ bool has_wants_begin_main_frame_not_expected() const { return _has_field_[10]; }
+ bool wants_begin_main_frame_not_expected() const { return wants_begin_main_frame_not_expected_; }
+ void set_wants_begin_main_frame_not_expected(bool value) { wants_begin_main_frame_not_expected_ = value; _has_field_.set(10); }
+
+ bool has_did_commit_during_frame() const { return _has_field_[11]; }
+ bool did_commit_during_frame() const { return did_commit_during_frame_; }
+ void set_did_commit_during_frame(bool value) { did_commit_during_frame_ = value; _has_field_.set(11); }
+
+ bool has_did_invalidate_layer_tree_frame_sink() const { return _has_field_[12]; }
+ bool did_invalidate_layer_tree_frame_sink() const { return did_invalidate_layer_tree_frame_sink_; }
+ void set_did_invalidate_layer_tree_frame_sink(bool value) { did_invalidate_layer_tree_frame_sink_ = value; _has_field_.set(12); }
+
+ bool has_did_perform_impl_side_invalidaion() const { return _has_field_[13]; }
+ bool did_perform_impl_side_invalidaion() const { return did_perform_impl_side_invalidaion_; }
+ void set_did_perform_impl_side_invalidaion(bool value) { did_perform_impl_side_invalidaion_ = value; _has_field_.set(13); }
+
+ bool has_did_prepare_tiles() const { return _has_field_[14]; }
+ bool did_prepare_tiles() const { return did_prepare_tiles_; }
+ void set_did_prepare_tiles(bool value) { did_prepare_tiles_ = value; _has_field_.set(14); }
+
+ bool has_consecutive_checkerboard_animations() const { return _has_field_[15]; }
+ int32_t consecutive_checkerboard_animations() const { return consecutive_checkerboard_animations_; }
+ void set_consecutive_checkerboard_animations(int32_t value) { consecutive_checkerboard_animations_ = value; _has_field_.set(15); }
+
+ bool has_pending_submit_frames() const { return _has_field_[16]; }
+ int32_t pending_submit_frames() const { return pending_submit_frames_; }
+ void set_pending_submit_frames(int32_t value) { pending_submit_frames_ = value; _has_field_.set(16); }
+
+ bool has_submit_frames_with_current_layer_tree_frame_sink() const { return _has_field_[17]; }
+ int32_t submit_frames_with_current_layer_tree_frame_sink() const { return submit_frames_with_current_layer_tree_frame_sink_; }
+ void set_submit_frames_with_current_layer_tree_frame_sink(int32_t value) { submit_frames_with_current_layer_tree_frame_sink_ = value; _has_field_.set(17); }
+
+ bool has_needs_redraw() const { return _has_field_[18]; }
+ bool needs_redraw() const { return needs_redraw_; }
+ void set_needs_redraw(bool value) { needs_redraw_ = value; _has_field_.set(18); }
+
+ bool has_needs_prepare_tiles() const { return _has_field_[19]; }
+ bool needs_prepare_tiles() const { return needs_prepare_tiles_; }
+ void set_needs_prepare_tiles(bool value) { needs_prepare_tiles_ = value; _has_field_.set(19); }
+
+ bool has_needs_begin_main_frame() const { return _has_field_[20]; }
+ bool needs_begin_main_frame() const { return needs_begin_main_frame_; }
+ void set_needs_begin_main_frame(bool value) { needs_begin_main_frame_ = value; _has_field_.set(20); }
+
+ bool has_needs_one_begin_impl_frame() const { return _has_field_[21]; }
+ bool needs_one_begin_impl_frame() const { return needs_one_begin_impl_frame_; }
+ void set_needs_one_begin_impl_frame(bool value) { needs_one_begin_impl_frame_ = value; _has_field_.set(21); }
+
+ bool has_visible() const { return _has_field_[22]; }
+ bool visible() const { return visible_; }
+ void set_visible(bool value) { visible_ = value; _has_field_.set(22); }
+
+ bool has_begin_frame_source_paused() const { return _has_field_[23]; }
+ bool begin_frame_source_paused() const { return begin_frame_source_paused_; }
+ void set_begin_frame_source_paused(bool value) { begin_frame_source_paused_ = value; _has_field_.set(23); }
+
+ bool has_can_draw() const { return _has_field_[24]; }
+ bool can_draw() const { return can_draw_; }
+ void set_can_draw(bool value) { can_draw_ = value; _has_field_.set(24); }
+
+ bool has_resourceless_draw() const { return _has_field_[25]; }
+ bool resourceless_draw() const { return resourceless_draw_; }
+ void set_resourceless_draw(bool value) { resourceless_draw_ = value; _has_field_.set(25); }
+
+ bool has_has_pending_tree() const { return _has_field_[26]; }
+ bool has_pending_tree() const { return has_pending_tree_; }
+ void set_has_pending_tree(bool value) { has_pending_tree_ = value; _has_field_.set(26); }
+
+ bool has_pending_tree_is_ready_for_activation() const { return _has_field_[27]; }
+ bool pending_tree_is_ready_for_activation() const { return pending_tree_is_ready_for_activation_; }
+ void set_pending_tree_is_ready_for_activation(bool value) { pending_tree_is_ready_for_activation_ = value; _has_field_.set(27); }
+
+ bool has_active_tree_needs_first_draw() const { return _has_field_[28]; }
+ bool active_tree_needs_first_draw() const { return active_tree_needs_first_draw_; }
+ void set_active_tree_needs_first_draw(bool value) { active_tree_needs_first_draw_ = value; _has_field_.set(28); }
+
+ bool has_active_tree_is_ready_to_draw() const { return _has_field_[29]; }
+ bool active_tree_is_ready_to_draw() const { return active_tree_is_ready_to_draw_; }
+ void set_active_tree_is_ready_to_draw(bool value) { active_tree_is_ready_to_draw_ = value; _has_field_.set(29); }
+
+ bool has_did_create_and_initialize_first_layer_tree_frame_sink() const { return _has_field_[30]; }
+ bool did_create_and_initialize_first_layer_tree_frame_sink() const { return did_create_and_initialize_first_layer_tree_frame_sink_; }
+ void set_did_create_and_initialize_first_layer_tree_frame_sink(bool value) { did_create_and_initialize_first_layer_tree_frame_sink_ = value; _has_field_.set(30); }
+
+ bool has_tree_priority() const { return _has_field_[31]; }
+ ChromeCompositorStateMachine_MinorState_TreePriority tree_priority() const { return tree_priority_; }
+ void set_tree_priority(ChromeCompositorStateMachine_MinorState_TreePriority value) { tree_priority_ = value; _has_field_.set(31); }
+
+ bool has_scroll_handler_state() const { return _has_field_[32]; }
+ ChromeCompositorStateMachine_MinorState_ScrollHandlerState scroll_handler_state() const { return scroll_handler_state_; }
+ void set_scroll_handler_state(ChromeCompositorStateMachine_MinorState_ScrollHandlerState value) { scroll_handler_state_ = value; _has_field_.set(32); }
+
+ bool has_critical_begin_main_frame_to_activate_is_fast() const { return _has_field_[33]; }
+ bool critical_begin_main_frame_to_activate_is_fast() const { return critical_begin_main_frame_to_activate_is_fast_; }
+ void set_critical_begin_main_frame_to_activate_is_fast(bool value) { critical_begin_main_frame_to_activate_is_fast_ = value; _has_field_.set(33); }
+
+ bool has_main_thread_missed_last_deadline() const { return _has_field_[34]; }
+ bool main_thread_missed_last_deadline() const { return main_thread_missed_last_deadline_; }
+ void set_main_thread_missed_last_deadline(bool value) { main_thread_missed_last_deadline_ = value; _has_field_.set(34); }
+
+ bool has_video_needs_begin_frames() const { return _has_field_[36]; }
+ bool video_needs_begin_frames() const { return video_needs_begin_frames_; }
+ void set_video_needs_begin_frames(bool value) { video_needs_begin_frames_ = value; _has_field_.set(36); }
+
+ bool has_defer_begin_main_frame() const { return _has_field_[37]; }
+ bool defer_begin_main_frame() const { return defer_begin_main_frame_; }
+ void set_defer_begin_main_frame(bool value) { defer_begin_main_frame_ = value; _has_field_.set(37); }
+
+ bool has_last_commit_had_no_updates() const { return _has_field_[38]; }
+ bool last_commit_had_no_updates() const { return last_commit_had_no_updates_; }
+ void set_last_commit_had_no_updates(bool value) { last_commit_had_no_updates_ = value; _has_field_.set(38); }
+
+ bool has_did_draw_in_last_frame() const { return _has_field_[39]; }
+ bool did_draw_in_last_frame() const { return did_draw_in_last_frame_; }
+ void set_did_draw_in_last_frame(bool value) { did_draw_in_last_frame_ = value; _has_field_.set(39); }
+
+ bool has_did_submit_in_last_frame() const { return _has_field_[40]; }
+ bool did_submit_in_last_frame() const { return did_submit_in_last_frame_; }
+ void set_did_submit_in_last_frame(bool value) { did_submit_in_last_frame_ = value; _has_field_.set(40); }
+
+ bool has_needs_impl_side_invalidation() const { return _has_field_[41]; }
+ bool needs_impl_side_invalidation() const { return needs_impl_side_invalidation_; }
+ void set_needs_impl_side_invalidation(bool value) { needs_impl_side_invalidation_ = value; _has_field_.set(41); }
+
+ bool has_current_pending_tree_is_impl_side() const { return _has_field_[42]; }
+ bool current_pending_tree_is_impl_side() const { return current_pending_tree_is_impl_side_; }
+ void set_current_pending_tree_is_impl_side(bool value) { current_pending_tree_is_impl_side_ = value; _has_field_.set(42); }
+
+ bool has_previous_pending_tree_was_impl_side() const { return _has_field_[43]; }
+ bool previous_pending_tree_was_impl_side() const { return previous_pending_tree_was_impl_side_; }
+ void set_previous_pending_tree_was_impl_side(bool value) { previous_pending_tree_was_impl_side_ = value; _has_field_.set(43); }
+
+ bool has_processing_animation_worklets_for_active_tree() const { return _has_field_[44]; }
+ bool processing_animation_worklets_for_active_tree() const { return processing_animation_worklets_for_active_tree_; }
+ void set_processing_animation_worklets_for_active_tree(bool value) { processing_animation_worklets_for_active_tree_ = value; _has_field_.set(44); }
+
+ bool has_processing_animation_worklets_for_pending_tree() const { return _has_field_[45]; }
+ bool processing_animation_worklets_for_pending_tree() const { return processing_animation_worklets_for_pending_tree_; }
+ void set_processing_animation_worklets_for_pending_tree(bool value) { processing_animation_worklets_for_pending_tree_ = value; _has_field_.set(45); }
+
+ bool has_processing_paint_worklets_for_pending_tree() const { return _has_field_[46]; }
+ bool processing_paint_worklets_for_pending_tree() const { return processing_paint_worklets_for_pending_tree_; }
+ void set_processing_paint_worklets_for_pending_tree(bool value) { processing_paint_worklets_for_pending_tree_ = value; _has_field_.set(46); }
+
+ private:
+ int32_t commit_count_{};
+ int32_t current_frame_number_{};
+ int32_t last_frame_number_submit_performed_{};
+ int32_t last_frame_number_draw_performed_{};
+ int32_t last_frame_number_begin_main_frame_sent_{};
+ bool did_draw_{};
+ bool did_send_begin_main_frame_for_current_frame_{};
+ bool did_notify_begin_main_frame_not_expected_until_{};
+ bool did_notify_begin_main_frame_not_expected_soon_{};
+ bool wants_begin_main_frame_not_expected_{};
+ bool did_commit_during_frame_{};
+ bool did_invalidate_layer_tree_frame_sink_{};
+ bool did_perform_impl_side_invalidaion_{};
+ bool did_prepare_tiles_{};
+ int32_t consecutive_checkerboard_animations_{};
+ int32_t pending_submit_frames_{};
+ int32_t submit_frames_with_current_layer_tree_frame_sink_{};
+ bool needs_redraw_{};
+ bool needs_prepare_tiles_{};
+ bool needs_begin_main_frame_{};
+ bool needs_one_begin_impl_frame_{};
+ bool visible_{};
+ bool begin_frame_source_paused_{};
+ bool can_draw_{};
+ bool resourceless_draw_{};
+ bool has_pending_tree_{};
+ bool pending_tree_is_ready_for_activation_{};
+ bool active_tree_needs_first_draw_{};
+ bool active_tree_is_ready_to_draw_{};
+ bool did_create_and_initialize_first_layer_tree_frame_sink_{};
+ ChromeCompositorStateMachine_MinorState_TreePriority tree_priority_{};
+ ChromeCompositorStateMachine_MinorState_ScrollHandlerState scroll_handler_state_{};
+ bool critical_begin_main_frame_to_activate_is_fast_{};
+ bool main_thread_missed_last_deadline_{};
+ bool video_needs_begin_frames_{};
+ bool defer_begin_main_frame_{};
+ bool last_commit_had_no_updates_{};
+ bool did_draw_in_last_frame_{};
+ bool did_submit_in_last_frame_{};
+ bool needs_impl_side_invalidation_{};
+ bool current_pending_tree_is_impl_side_{};
+ bool previous_pending_tree_was_impl_side_{};
+ bool processing_animation_worklets_for_active_tree_{};
+ bool processing_animation_worklets_for_pending_tree_{};
+ bool processing_paint_worklets_for_pending_tree_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<47> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT ChromeCompositorStateMachine_MajorState : public ::protozero::CppMessageObj {
+ public:
+ using BeginImplFrameState = ChromeCompositorStateMachine_MajorState_BeginImplFrameState;
+ static constexpr auto BEGIN_IMPL_FRAME_UNSPECIFIED = ChromeCompositorStateMachine_MajorState_BeginImplFrameState_BEGIN_IMPL_FRAME_UNSPECIFIED;
+ static constexpr auto BEGIN_IMPL_FRAME_IDLE = ChromeCompositorStateMachine_MajorState_BeginImplFrameState_BEGIN_IMPL_FRAME_IDLE;
+ static constexpr auto BEGIN_IMPL_FRAME_INSIDE_BEGIN_FRAME = ChromeCompositorStateMachine_MajorState_BeginImplFrameState_BEGIN_IMPL_FRAME_INSIDE_BEGIN_FRAME;
+ static constexpr auto BEGIN_IMPL_FRAME_INSIDE_DEADLINE = ChromeCompositorStateMachine_MajorState_BeginImplFrameState_BEGIN_IMPL_FRAME_INSIDE_DEADLINE;
+ static constexpr auto BeginImplFrameState_MIN = ChromeCompositorStateMachine_MajorState_BeginImplFrameState_BEGIN_IMPL_FRAME_UNSPECIFIED;
+ static constexpr auto BeginImplFrameState_MAX = ChromeCompositorStateMachine_MajorState_BeginImplFrameState_BEGIN_IMPL_FRAME_INSIDE_DEADLINE;
+ using BeginMainFrameState = ChromeCompositorStateMachine_MajorState_BeginMainFrameState;
+ static constexpr auto BEGIN_MAIN_FRAME_UNSPECIFIED = ChromeCompositorStateMachine_MajorState_BeginMainFrameState_BEGIN_MAIN_FRAME_UNSPECIFIED;
+ static constexpr auto BEGIN_MAIN_FRAME_IDLE = ChromeCompositorStateMachine_MajorState_BeginMainFrameState_BEGIN_MAIN_FRAME_IDLE;
+ static constexpr auto BEGIN_MAIN_FRAME_SENT = ChromeCompositorStateMachine_MajorState_BeginMainFrameState_BEGIN_MAIN_FRAME_SENT;
+ static constexpr auto BEGIN_MAIN_FRAME_READY_TO_COMMIT = ChromeCompositorStateMachine_MajorState_BeginMainFrameState_BEGIN_MAIN_FRAME_READY_TO_COMMIT;
+ static constexpr auto BeginMainFrameState_MIN = ChromeCompositorStateMachine_MajorState_BeginMainFrameState_BEGIN_MAIN_FRAME_UNSPECIFIED;
+ static constexpr auto BeginMainFrameState_MAX = ChromeCompositorStateMachine_MajorState_BeginMainFrameState_BEGIN_MAIN_FRAME_READY_TO_COMMIT;
+ using LayerTreeFrameSinkState = ChromeCompositorStateMachine_MajorState_LayerTreeFrameSinkState;
+ static constexpr auto LAYER_TREE_FRAME_UNSPECIFIED = ChromeCompositorStateMachine_MajorState_LayerTreeFrameSinkState_LAYER_TREE_FRAME_UNSPECIFIED;
+ static constexpr auto LAYER_TREE_FRAME_NONE = ChromeCompositorStateMachine_MajorState_LayerTreeFrameSinkState_LAYER_TREE_FRAME_NONE;
+ static constexpr auto LAYER_TREE_FRAME_ACTIVE = ChromeCompositorStateMachine_MajorState_LayerTreeFrameSinkState_LAYER_TREE_FRAME_ACTIVE;
+ static constexpr auto LAYER_TREE_FRAME_CREATING = ChromeCompositorStateMachine_MajorState_LayerTreeFrameSinkState_LAYER_TREE_FRAME_CREATING;
+ static constexpr auto LAYER_TREE_FRAME_WAITING_FOR_FIRST_COMMIT = ChromeCompositorStateMachine_MajorState_LayerTreeFrameSinkState_LAYER_TREE_FRAME_WAITING_FOR_FIRST_COMMIT;
+ static constexpr auto LAYER_TREE_FRAME_WAITING_FOR_FIRST_ACTIVATION = ChromeCompositorStateMachine_MajorState_LayerTreeFrameSinkState_LAYER_TREE_FRAME_WAITING_FOR_FIRST_ACTIVATION;
+ static constexpr auto LayerTreeFrameSinkState_MIN = ChromeCompositorStateMachine_MajorState_LayerTreeFrameSinkState_LAYER_TREE_FRAME_UNSPECIFIED;
+ static constexpr auto LayerTreeFrameSinkState_MAX = ChromeCompositorStateMachine_MajorState_LayerTreeFrameSinkState_LAYER_TREE_FRAME_WAITING_FOR_FIRST_ACTIVATION;
+ using ForcedRedrawOnTimeoutState = ChromeCompositorStateMachine_MajorState_ForcedRedrawOnTimeoutState;
+ static constexpr auto FORCED_REDRAW_UNSPECIFIED = ChromeCompositorStateMachine_MajorState_ForcedRedrawOnTimeoutState_FORCED_REDRAW_UNSPECIFIED;
+ static constexpr auto FORCED_REDRAW_IDLE = ChromeCompositorStateMachine_MajorState_ForcedRedrawOnTimeoutState_FORCED_REDRAW_IDLE;
+ static constexpr auto FORCED_REDRAW_WAITING_FOR_COMMIT = ChromeCompositorStateMachine_MajorState_ForcedRedrawOnTimeoutState_FORCED_REDRAW_WAITING_FOR_COMMIT;
+ static constexpr auto FORCED_REDRAW_WAITING_FOR_ACTIVATION = ChromeCompositorStateMachine_MajorState_ForcedRedrawOnTimeoutState_FORCED_REDRAW_WAITING_FOR_ACTIVATION;
+ static constexpr auto FORCED_REDRAW_WAITING_FOR_DRAW = ChromeCompositorStateMachine_MajorState_ForcedRedrawOnTimeoutState_FORCED_REDRAW_WAITING_FOR_DRAW;
+ static constexpr auto ForcedRedrawOnTimeoutState_MIN = ChromeCompositorStateMachine_MajorState_ForcedRedrawOnTimeoutState_FORCED_REDRAW_UNSPECIFIED;
+ static constexpr auto ForcedRedrawOnTimeoutState_MAX = ChromeCompositorStateMachine_MajorState_ForcedRedrawOnTimeoutState_FORCED_REDRAW_WAITING_FOR_DRAW;
+ enum FieldNumbers {
+ kNextActionFieldNumber = 1,
+ kBeginImplFrameStateFieldNumber = 2,
+ kBeginMainFrameStateFieldNumber = 3,
+ kLayerTreeFrameSinkStateFieldNumber = 4,
+ kForcedRedrawStateFieldNumber = 5,
+ };
+
+ ChromeCompositorStateMachine_MajorState();
+ ~ChromeCompositorStateMachine_MajorState() override;
+ ChromeCompositorStateMachine_MajorState(ChromeCompositorStateMachine_MajorState&&) noexcept;
+ ChromeCompositorStateMachine_MajorState& operator=(ChromeCompositorStateMachine_MajorState&&);
+ ChromeCompositorStateMachine_MajorState(const ChromeCompositorStateMachine_MajorState&);
+ ChromeCompositorStateMachine_MajorState& operator=(const ChromeCompositorStateMachine_MajorState&);
+ bool operator==(const ChromeCompositorStateMachine_MajorState&) const;
+ bool operator!=(const ChromeCompositorStateMachine_MajorState& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_next_action() const { return _has_field_[1]; }
+ ChromeCompositorSchedulerAction next_action() const { return next_action_; }
+ void set_next_action(ChromeCompositorSchedulerAction value) { next_action_ = value; _has_field_.set(1); }
+
+ bool has_begin_impl_frame_state() const { return _has_field_[2]; }
+ ChromeCompositorStateMachine_MajorState_BeginImplFrameState begin_impl_frame_state() const { return begin_impl_frame_state_; }
+ void set_begin_impl_frame_state(ChromeCompositorStateMachine_MajorState_BeginImplFrameState value) { begin_impl_frame_state_ = value; _has_field_.set(2); }
+
+ bool has_begin_main_frame_state() const { return _has_field_[3]; }
+ ChromeCompositorStateMachine_MajorState_BeginMainFrameState begin_main_frame_state() const { return begin_main_frame_state_; }
+ void set_begin_main_frame_state(ChromeCompositorStateMachine_MajorState_BeginMainFrameState value) { begin_main_frame_state_ = value; _has_field_.set(3); }
+
+ bool has_layer_tree_frame_sink_state() const { return _has_field_[4]; }
+ ChromeCompositorStateMachine_MajorState_LayerTreeFrameSinkState layer_tree_frame_sink_state() const { return layer_tree_frame_sink_state_; }
+ void set_layer_tree_frame_sink_state(ChromeCompositorStateMachine_MajorState_LayerTreeFrameSinkState value) { layer_tree_frame_sink_state_ = value; _has_field_.set(4); }
+
+ bool has_forced_redraw_state() const { return _has_field_[5]; }
+ ChromeCompositorStateMachine_MajorState_ForcedRedrawOnTimeoutState forced_redraw_state() const { return forced_redraw_state_; }
+ void set_forced_redraw_state(ChromeCompositorStateMachine_MajorState_ForcedRedrawOnTimeoutState value) { forced_redraw_state_ = value; _has_field_.set(5); }
+
+ private:
+ ChromeCompositorSchedulerAction next_action_{};
+ ChromeCompositorStateMachine_MajorState_BeginImplFrameState begin_impl_frame_state_{};
+ ChromeCompositorStateMachine_MajorState_BeginMainFrameState begin_main_frame_state_{};
+ ChromeCompositorStateMachine_MajorState_LayerTreeFrameSinkState layer_tree_frame_sink_state_{};
+ ChromeCompositorStateMachine_MajorState_ForcedRedrawOnTimeoutState forced_redraw_state_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<6> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT ChromeCompositorSchedulerState : public ::protozero::CppMessageObj {
+ public:
+ using BeginImplFrameDeadlineMode = ChromeCompositorSchedulerState_BeginImplFrameDeadlineMode;
+ static constexpr auto DEADLINE_MODE_UNSPECIFIED = ChromeCompositorSchedulerState_BeginImplFrameDeadlineMode_DEADLINE_MODE_UNSPECIFIED;
+ static constexpr auto DEADLINE_MODE_NONE = ChromeCompositorSchedulerState_BeginImplFrameDeadlineMode_DEADLINE_MODE_NONE;
+ static constexpr auto DEADLINE_MODE_IMMEDIATE = ChromeCompositorSchedulerState_BeginImplFrameDeadlineMode_DEADLINE_MODE_IMMEDIATE;
+ static constexpr auto DEADLINE_MODE_REGULAR = ChromeCompositorSchedulerState_BeginImplFrameDeadlineMode_DEADLINE_MODE_REGULAR;
+ static constexpr auto DEADLINE_MODE_LATE = ChromeCompositorSchedulerState_BeginImplFrameDeadlineMode_DEADLINE_MODE_LATE;
+ static constexpr auto DEADLINE_MODE_BLOCKED = ChromeCompositorSchedulerState_BeginImplFrameDeadlineMode_DEADLINE_MODE_BLOCKED;
+ static constexpr auto BeginImplFrameDeadlineMode_MIN = ChromeCompositorSchedulerState_BeginImplFrameDeadlineMode_DEADLINE_MODE_UNSPECIFIED;
+ static constexpr auto BeginImplFrameDeadlineMode_MAX = ChromeCompositorSchedulerState_BeginImplFrameDeadlineMode_DEADLINE_MODE_BLOCKED;
+ enum FieldNumbers {
+ kStateMachineFieldNumber = 1,
+ kObservingBeginFrameSourceFieldNumber = 2,
+ kBeginImplFrameDeadlineTaskFieldNumber = 3,
+ kPendingBeginFrameTaskFieldNumber = 4,
+ kSkippedLastFrameMissedExceededDeadlineFieldNumber = 5,
+ kInsideActionFieldNumber = 7,
+ kDeadlineModeFieldNumber = 8,
+ kDeadlineUsFieldNumber = 9,
+ kDeadlineScheduledAtUsFieldNumber = 10,
+ kNowUsFieldNumber = 11,
+ kNowToDeadlineDeltaUsFieldNumber = 12,
+ kNowToDeadlineScheduledAtDeltaUsFieldNumber = 13,
+ kBeginImplFrameArgsFieldNumber = 14,
+ kBeginFrameObserverStateFieldNumber = 15,
+ kBeginFrameSourceStateFieldNumber = 16,
+ kCompositorTimingHistoryFieldNumber = 17,
+ };
+
+ ChromeCompositorSchedulerState();
+ ~ChromeCompositorSchedulerState() override;
+ ChromeCompositorSchedulerState(ChromeCompositorSchedulerState&&) noexcept;
+ ChromeCompositorSchedulerState& operator=(ChromeCompositorSchedulerState&&);
+ ChromeCompositorSchedulerState(const ChromeCompositorSchedulerState&);
+ ChromeCompositorSchedulerState& operator=(const ChromeCompositorSchedulerState&);
+ bool operator==(const ChromeCompositorSchedulerState&) const;
+ bool operator!=(const ChromeCompositorSchedulerState& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_state_machine() const { return _has_field_[1]; }
+ const ChromeCompositorStateMachine& state_machine() const { return *state_machine_; }
+ ChromeCompositorStateMachine* mutable_state_machine() { _has_field_.set(1); return state_machine_.get(); }
+
+ bool has_observing_begin_frame_source() const { return _has_field_[2]; }
+ bool observing_begin_frame_source() const { return observing_begin_frame_source_; }
+ void set_observing_begin_frame_source(bool value) { observing_begin_frame_source_ = value; _has_field_.set(2); }
+
+ bool has_begin_impl_frame_deadline_task() const { return _has_field_[3]; }
+ bool begin_impl_frame_deadline_task() const { return begin_impl_frame_deadline_task_; }
+ void set_begin_impl_frame_deadline_task(bool value) { begin_impl_frame_deadline_task_ = value; _has_field_.set(3); }
+
+ bool has_pending_begin_frame_task() const { return _has_field_[4]; }
+ bool pending_begin_frame_task() const { return pending_begin_frame_task_; }
+ void set_pending_begin_frame_task(bool value) { pending_begin_frame_task_ = value; _has_field_.set(4); }
+
+ bool has_skipped_last_frame_missed_exceeded_deadline() const { return _has_field_[5]; }
+ bool skipped_last_frame_missed_exceeded_deadline() const { return skipped_last_frame_missed_exceeded_deadline_; }
+ void set_skipped_last_frame_missed_exceeded_deadline(bool value) { skipped_last_frame_missed_exceeded_deadline_ = value; _has_field_.set(5); }
+
+ bool has_inside_action() const { return _has_field_[7]; }
+ ChromeCompositorSchedulerAction inside_action() const { return inside_action_; }
+ void set_inside_action(ChromeCompositorSchedulerAction value) { inside_action_ = value; _has_field_.set(7); }
+
+ bool has_deadline_mode() const { return _has_field_[8]; }
+ ChromeCompositorSchedulerState_BeginImplFrameDeadlineMode deadline_mode() const { return deadline_mode_; }
+ void set_deadline_mode(ChromeCompositorSchedulerState_BeginImplFrameDeadlineMode value) { deadline_mode_ = value; _has_field_.set(8); }
+
+ bool has_deadline_us() const { return _has_field_[9]; }
+ int64_t deadline_us() const { return deadline_us_; }
+ void set_deadline_us(int64_t value) { deadline_us_ = value; _has_field_.set(9); }
+
+ bool has_deadline_scheduled_at_us() const { return _has_field_[10]; }
+ int64_t deadline_scheduled_at_us() const { return deadline_scheduled_at_us_; }
+ void set_deadline_scheduled_at_us(int64_t value) { deadline_scheduled_at_us_ = value; _has_field_.set(10); }
+
+ bool has_now_us() const { return _has_field_[11]; }
+ int64_t now_us() const { return now_us_; }
+ void set_now_us(int64_t value) { now_us_ = value; _has_field_.set(11); }
+
+ bool has_now_to_deadline_delta_us() const { return _has_field_[12]; }
+ int64_t now_to_deadline_delta_us() const { return now_to_deadline_delta_us_; }
+ void set_now_to_deadline_delta_us(int64_t value) { now_to_deadline_delta_us_ = value; _has_field_.set(12); }
+
+ bool has_now_to_deadline_scheduled_at_delta_us() const { return _has_field_[13]; }
+ int64_t now_to_deadline_scheduled_at_delta_us() const { return now_to_deadline_scheduled_at_delta_us_; }
+ void set_now_to_deadline_scheduled_at_delta_us(int64_t value) { now_to_deadline_scheduled_at_delta_us_ = value; _has_field_.set(13); }
+
+ bool has_begin_impl_frame_args() const { return _has_field_[14]; }
+ const BeginImplFrameArgs& begin_impl_frame_args() const { return *begin_impl_frame_args_; }
+ BeginImplFrameArgs* mutable_begin_impl_frame_args() { _has_field_.set(14); return begin_impl_frame_args_.get(); }
+
+ bool has_begin_frame_observer_state() const { return _has_field_[15]; }
+ const BeginFrameObserverState& begin_frame_observer_state() const { return *begin_frame_observer_state_; }
+ BeginFrameObserverState* mutable_begin_frame_observer_state() { _has_field_.set(15); return begin_frame_observer_state_.get(); }
+
+ bool has_begin_frame_source_state() const { return _has_field_[16]; }
+ const BeginFrameSourceState& begin_frame_source_state() const { return *begin_frame_source_state_; }
+ BeginFrameSourceState* mutable_begin_frame_source_state() { _has_field_.set(16); return begin_frame_source_state_.get(); }
+
+ bool has_compositor_timing_history() const { return _has_field_[17]; }
+ const CompositorTimingHistory& compositor_timing_history() const { return *compositor_timing_history_; }
+ CompositorTimingHistory* mutable_compositor_timing_history() { _has_field_.set(17); return compositor_timing_history_.get(); }
+
+ private:
+ ::protozero::CopyablePtr<ChromeCompositorStateMachine> state_machine_;
+ bool observing_begin_frame_source_{};
+ bool begin_impl_frame_deadline_task_{};
+ bool pending_begin_frame_task_{};
+ bool skipped_last_frame_missed_exceeded_deadline_{};
+ ChromeCompositorSchedulerAction inside_action_{};
+ ChromeCompositorSchedulerState_BeginImplFrameDeadlineMode deadline_mode_{};
+ int64_t deadline_us_{};
+ int64_t deadline_scheduled_at_us_{};
+ int64_t now_us_{};
+ int64_t now_to_deadline_delta_us_{};
+ int64_t now_to_deadline_scheduled_at_delta_us_{};
+ ::protozero::CopyablePtr<BeginImplFrameArgs> begin_impl_frame_args_;
+ ::protozero::CopyablePtr<BeginFrameObserverState> begin_frame_observer_state_;
+ ::protozero::CopyablePtr<BeginFrameSourceState> begin_frame_source_state_;
+ ::protozero::CopyablePtr<CompositorTimingHistory> compositor_timing_history_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<18> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_COMPOSITOR_SCHEDULER_STATE_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/trace/track_event/chrome_content_settings_event_info.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_CONTENT_SETTINGS_EVENT_INFO_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_CONTENT_SETTINGS_EVENT_INFO_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class ChromeContentSettingsEventInfo;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+class PERFETTO_EXPORT_COMPONENT ChromeContentSettingsEventInfo : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kNumberOfExceptionsFieldNumber = 1,
+ };
+
+ ChromeContentSettingsEventInfo();
+ ~ChromeContentSettingsEventInfo() override;
+ ChromeContentSettingsEventInfo(ChromeContentSettingsEventInfo&&) noexcept;
+ ChromeContentSettingsEventInfo& operator=(ChromeContentSettingsEventInfo&&);
+ ChromeContentSettingsEventInfo(const ChromeContentSettingsEventInfo&);
+ ChromeContentSettingsEventInfo& operator=(const ChromeContentSettingsEventInfo&);
+ bool operator==(const ChromeContentSettingsEventInfo&) const;
+ bool operator!=(const ChromeContentSettingsEventInfo& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_number_of_exceptions() const { return _has_field_[1]; }
+ uint32_t number_of_exceptions() const { return number_of_exceptions_; }
+ void set_number_of_exceptions(uint32_t value) { number_of_exceptions_ = value; _has_field_.set(1); }
+
+ private:
+ uint32_t number_of_exceptions_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_CONTENT_SETTINGS_EVENT_INFO_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/trace/track_event/chrome_frame_reporter.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_FRAME_REPORTER_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_FRAME_REPORTER_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class ChromeFrameReporter;
+enum ChromeFrameReporter_State : int;
+enum ChromeFrameReporter_FrameDropReason : int;
+enum ChromeFrameReporter_ScrollState : int;
+enum ChromeFrameReporter_FrameType : int;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+enum ChromeFrameReporter_State : int {
+ ChromeFrameReporter_State_STATE_NO_UPDATE_DESIRED = 0,
+ ChromeFrameReporter_State_STATE_PRESENTED_ALL = 1,
+ ChromeFrameReporter_State_STATE_PRESENTED_PARTIAL = 2,
+ ChromeFrameReporter_State_STATE_DROPPED = 3,
+};
+enum ChromeFrameReporter_FrameDropReason : int {
+ ChromeFrameReporter_FrameDropReason_REASON_UNSPECIFIED = 0,
+ ChromeFrameReporter_FrameDropReason_REASON_DISPLAY_COMPOSITOR = 1,
+ ChromeFrameReporter_FrameDropReason_REASON_MAIN_THREAD = 2,
+ ChromeFrameReporter_FrameDropReason_REASON_CLIENT_COMPOSITOR = 3,
+};
+enum ChromeFrameReporter_ScrollState : int {
+ ChromeFrameReporter_ScrollState_SCROLL_NONE = 0,
+ ChromeFrameReporter_ScrollState_SCROLL_MAIN_THREAD = 1,
+ ChromeFrameReporter_ScrollState_SCROLL_COMPOSITOR_THREAD = 2,
+ ChromeFrameReporter_ScrollState_SCROLL_UNKNOWN = 3,
+};
+enum ChromeFrameReporter_FrameType : int {
+ ChromeFrameReporter_FrameType_FORKED = 0,
+ ChromeFrameReporter_FrameType_BACKFILL = 1,
+};
+
+class PERFETTO_EXPORT_COMPONENT ChromeFrameReporter : public ::protozero::CppMessageObj {
+ public:
+ using State = ChromeFrameReporter_State;
+ static constexpr auto STATE_NO_UPDATE_DESIRED = ChromeFrameReporter_State_STATE_NO_UPDATE_DESIRED;
+ static constexpr auto STATE_PRESENTED_ALL = ChromeFrameReporter_State_STATE_PRESENTED_ALL;
+ static constexpr auto STATE_PRESENTED_PARTIAL = ChromeFrameReporter_State_STATE_PRESENTED_PARTIAL;
+ static constexpr auto STATE_DROPPED = ChromeFrameReporter_State_STATE_DROPPED;
+ static constexpr auto State_MIN = ChromeFrameReporter_State_STATE_NO_UPDATE_DESIRED;
+ static constexpr auto State_MAX = ChromeFrameReporter_State_STATE_DROPPED;
+ using FrameDropReason = ChromeFrameReporter_FrameDropReason;
+ static constexpr auto REASON_UNSPECIFIED = ChromeFrameReporter_FrameDropReason_REASON_UNSPECIFIED;
+ static constexpr auto REASON_DISPLAY_COMPOSITOR = ChromeFrameReporter_FrameDropReason_REASON_DISPLAY_COMPOSITOR;
+ static constexpr auto REASON_MAIN_THREAD = ChromeFrameReporter_FrameDropReason_REASON_MAIN_THREAD;
+ static constexpr auto REASON_CLIENT_COMPOSITOR = ChromeFrameReporter_FrameDropReason_REASON_CLIENT_COMPOSITOR;
+ static constexpr auto FrameDropReason_MIN = ChromeFrameReporter_FrameDropReason_REASON_UNSPECIFIED;
+ static constexpr auto FrameDropReason_MAX = ChromeFrameReporter_FrameDropReason_REASON_CLIENT_COMPOSITOR;
+ using ScrollState = ChromeFrameReporter_ScrollState;
+ static constexpr auto SCROLL_NONE = ChromeFrameReporter_ScrollState_SCROLL_NONE;
+ static constexpr auto SCROLL_MAIN_THREAD = ChromeFrameReporter_ScrollState_SCROLL_MAIN_THREAD;
+ static constexpr auto SCROLL_COMPOSITOR_THREAD = ChromeFrameReporter_ScrollState_SCROLL_COMPOSITOR_THREAD;
+ static constexpr auto SCROLL_UNKNOWN = ChromeFrameReporter_ScrollState_SCROLL_UNKNOWN;
+ static constexpr auto ScrollState_MIN = ChromeFrameReporter_ScrollState_SCROLL_NONE;
+ static constexpr auto ScrollState_MAX = ChromeFrameReporter_ScrollState_SCROLL_UNKNOWN;
+ using FrameType = ChromeFrameReporter_FrameType;
+ static constexpr auto FORKED = ChromeFrameReporter_FrameType_FORKED;
+ static constexpr auto BACKFILL = ChromeFrameReporter_FrameType_BACKFILL;
+ static constexpr auto FrameType_MIN = ChromeFrameReporter_FrameType_FORKED;
+ static constexpr auto FrameType_MAX = ChromeFrameReporter_FrameType_BACKFILL;
+ enum FieldNumbers {
+ kStateFieldNumber = 1,
+ kReasonFieldNumber = 2,
+ kFrameSourceFieldNumber = 3,
+ kFrameSequenceFieldNumber = 4,
+ kAffectsSmoothnessFieldNumber = 5,
+ kScrollStateFieldNumber = 6,
+ kHasMainAnimationFieldNumber = 7,
+ kHasCompositorAnimationFieldNumber = 8,
+ kHasSmoothInputMainFieldNumber = 9,
+ kHasMissingContentFieldNumber = 10,
+ kLayerTreeHostIdFieldNumber = 11,
+ kHasHighLatencyFieldNumber = 12,
+ kFrameTypeFieldNumber = 13,
+ kHighLatencyContributionStageFieldNumber = 14,
+ };
+
+ ChromeFrameReporter();
+ ~ChromeFrameReporter() override;
+ ChromeFrameReporter(ChromeFrameReporter&&) noexcept;
+ ChromeFrameReporter& operator=(ChromeFrameReporter&&);
+ ChromeFrameReporter(const ChromeFrameReporter&);
+ ChromeFrameReporter& operator=(const ChromeFrameReporter&);
+ bool operator==(const ChromeFrameReporter&) const;
+ bool operator!=(const ChromeFrameReporter& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_state() const { return _has_field_[1]; }
+ ChromeFrameReporter_State state() const { return state_; }
+ void set_state(ChromeFrameReporter_State value) { state_ = value; _has_field_.set(1); }
+
+ bool has_reason() const { return _has_field_[2]; }
+ ChromeFrameReporter_FrameDropReason reason() const { return reason_; }
+ void set_reason(ChromeFrameReporter_FrameDropReason value) { reason_ = value; _has_field_.set(2); }
+
+ bool has_frame_source() const { return _has_field_[3]; }
+ uint64_t frame_source() const { return frame_source_; }
+ void set_frame_source(uint64_t value) { frame_source_ = value; _has_field_.set(3); }
+
+ bool has_frame_sequence() const { return _has_field_[4]; }
+ uint64_t frame_sequence() const { return frame_sequence_; }
+ void set_frame_sequence(uint64_t value) { frame_sequence_ = value; _has_field_.set(4); }
+
+ bool has_affects_smoothness() const { return _has_field_[5]; }
+ bool affects_smoothness() const { return affects_smoothness_; }
+ void set_affects_smoothness(bool value) { affects_smoothness_ = value; _has_field_.set(5); }
+
+ bool has_scroll_state() const { return _has_field_[6]; }
+ ChromeFrameReporter_ScrollState scroll_state() const { return scroll_state_; }
+ void set_scroll_state(ChromeFrameReporter_ScrollState value) { scroll_state_ = value; _has_field_.set(6); }
+
+ bool has_has_main_animation() const { return _has_field_[7]; }
+ bool has_main_animation() const { return has_main_animation_; }
+ void set_has_main_animation(bool value) { has_main_animation_ = value; _has_field_.set(7); }
+
+ bool has_has_compositor_animation() const { return _has_field_[8]; }
+ bool has_compositor_animation() const { return has_compositor_animation_; }
+ void set_has_compositor_animation(bool value) { has_compositor_animation_ = value; _has_field_.set(8); }
+
+ bool has_has_smooth_input_main() const { return _has_field_[9]; }
+ bool has_smooth_input_main() const { return has_smooth_input_main_; }
+ void set_has_smooth_input_main(bool value) { has_smooth_input_main_ = value; _has_field_.set(9); }
+
+ bool has_has_missing_content() const { return _has_field_[10]; }
+ bool has_missing_content() const { return has_missing_content_; }
+ void set_has_missing_content(bool value) { has_missing_content_ = value; _has_field_.set(10); }
+
+ bool has_layer_tree_host_id() const { return _has_field_[11]; }
+ uint64_t layer_tree_host_id() const { return layer_tree_host_id_; }
+ void set_layer_tree_host_id(uint64_t value) { layer_tree_host_id_ = value; _has_field_.set(11); }
+
+ bool has_has_high_latency() const { return _has_field_[12]; }
+ bool has_high_latency() const { return has_high_latency_; }
+ void set_has_high_latency(bool value) { has_high_latency_ = value; _has_field_.set(12); }
+
+ bool has_frame_type() const { return _has_field_[13]; }
+ ChromeFrameReporter_FrameType frame_type() const { return frame_type_; }
+ void set_frame_type(ChromeFrameReporter_FrameType value) { frame_type_ = value; _has_field_.set(13); }
+
+ const std::vector<std::string>& high_latency_contribution_stage() const { return high_latency_contribution_stage_; }
+ std::vector<std::string>* mutable_high_latency_contribution_stage() { return &high_latency_contribution_stage_; }
+ int high_latency_contribution_stage_size() const { return static_cast<int>(high_latency_contribution_stage_.size()); }
+ void clear_high_latency_contribution_stage() { high_latency_contribution_stage_.clear(); }
+ void add_high_latency_contribution_stage(std::string value) { high_latency_contribution_stage_.emplace_back(value); }
+ std::string* add_high_latency_contribution_stage() { high_latency_contribution_stage_.emplace_back(); return &high_latency_contribution_stage_.back(); }
+
+ private:
+ ChromeFrameReporter_State state_{};
+ ChromeFrameReporter_FrameDropReason reason_{};
+ uint64_t frame_source_{};
+ uint64_t frame_sequence_{};
+ bool affects_smoothness_{};
+ ChromeFrameReporter_ScrollState scroll_state_{};
+ bool has_main_animation_{};
+ bool has_compositor_animation_{};
+ bool has_smooth_input_main_{};
+ bool has_missing_content_{};
+ uint64_t layer_tree_host_id_{};
+ bool has_high_latency_{};
+ ChromeFrameReporter_FrameType frame_type_{};
+ std::vector<std::string> high_latency_contribution_stage_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<15> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_FRAME_REPORTER_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/trace/track_event/chrome_histogram_sample.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_HISTOGRAM_SAMPLE_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_HISTOGRAM_SAMPLE_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class ChromeHistogramSample;
+class HistogramName;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+class PERFETTO_EXPORT_COMPONENT ChromeHistogramSample : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kNameHashFieldNumber = 1,
+ kNameFieldNumber = 2,
+ kSampleFieldNumber = 3,
+ kNameIidFieldNumber = 4,
+ };
+
+ ChromeHistogramSample();
+ ~ChromeHistogramSample() override;
+ ChromeHistogramSample(ChromeHistogramSample&&) noexcept;
+ ChromeHistogramSample& operator=(ChromeHistogramSample&&);
+ ChromeHistogramSample(const ChromeHistogramSample&);
+ ChromeHistogramSample& operator=(const ChromeHistogramSample&);
+ bool operator==(const ChromeHistogramSample&) const;
+ bool operator!=(const ChromeHistogramSample& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_name_hash() const { return _has_field_[1]; }
+ uint64_t name_hash() const { return name_hash_; }
+ void set_name_hash(uint64_t value) { name_hash_ = value; _has_field_.set(1); }
+
+ bool has_name() const { return _has_field_[2]; }
+ const std::string& name() const { return name_; }
+ void set_name(const std::string& value) { name_ = value; _has_field_.set(2); }
+
+ bool has_sample() const { return _has_field_[3]; }
+ int64_t sample() const { return sample_; }
+ void set_sample(int64_t value) { sample_ = value; _has_field_.set(3); }
+
+ bool has_name_iid() const { return _has_field_[4]; }
+ uint64_t name_iid() const { return name_iid_; }
+ void set_name_iid(uint64_t value) { name_iid_ = value; _has_field_.set(4); }
+
+ private:
+ uint64_t name_hash_{};
+ std::string name_{};
+ int64_t sample_{};
+ uint64_t name_iid_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<5> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT HistogramName : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kIidFieldNumber = 1,
+ kNameFieldNumber = 2,
+ };
+
+ HistogramName();
+ ~HistogramName() override;
+ HistogramName(HistogramName&&) noexcept;
+ HistogramName& operator=(HistogramName&&);
+ HistogramName(const HistogramName&);
+ HistogramName& operator=(const HistogramName&);
+ bool operator==(const HistogramName&) const;
+ bool operator!=(const HistogramName& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_iid() const { return _has_field_[1]; }
+ uint64_t iid() const { return iid_; }
+ void set_iid(uint64_t value) { iid_ = value; _has_field_.set(1); }
+
+ bool has_name() const { return _has_field_[2]; }
+ const std::string& name() const { return name_; }
+ void set_name(const std::string& value) { name_ = value; _has_field_.set(2); }
+
+ private:
+ uint64_t iid_{};
+ std::string name_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<3> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_HISTOGRAM_SAMPLE_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/trace/track_event/chrome_keyed_service.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_KEYED_SERVICE_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_KEYED_SERVICE_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class ChromeKeyedService;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+class PERFETTO_EXPORT_COMPONENT ChromeKeyedService : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kNameFieldNumber = 1,
+ };
+
+ ChromeKeyedService();
+ ~ChromeKeyedService() override;
+ ChromeKeyedService(ChromeKeyedService&&) noexcept;
+ ChromeKeyedService& operator=(ChromeKeyedService&&);
+ ChromeKeyedService(const ChromeKeyedService&);
+ ChromeKeyedService& operator=(const ChromeKeyedService&);
+ bool operator==(const ChromeKeyedService&) const;
+ bool operator!=(const ChromeKeyedService& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_name() const { return _has_field_[1]; }
+ const std::string& name() const { return name_; }
+ void set_name(const std::string& value) { name_ = value; _has_field_.set(1); }
+
+ private:
+ std::string name_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_KEYED_SERVICE_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/trace/track_event/chrome_latency_info.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_LATENCY_INFO_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_LATENCY_INFO_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class ChromeLatencyInfo;
+class ChromeLatencyInfo_ComponentInfo;
+enum ChromeLatencyInfo_Step : int;
+enum ChromeLatencyInfo_LatencyComponentType : int;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+enum ChromeLatencyInfo_Step : int {
+ ChromeLatencyInfo_Step_STEP_UNSPECIFIED = 0,
+ ChromeLatencyInfo_Step_STEP_SEND_INPUT_EVENT_UI = 3,
+ ChromeLatencyInfo_Step_STEP_HANDLE_INPUT_EVENT_IMPL = 5,
+ ChromeLatencyInfo_Step_STEP_DID_HANDLE_INPUT_AND_OVERSCROLL = 8,
+ ChromeLatencyInfo_Step_STEP_HANDLE_INPUT_EVENT_MAIN = 4,
+ ChromeLatencyInfo_Step_STEP_MAIN_THREAD_SCROLL_UPDATE = 2,
+ ChromeLatencyInfo_Step_STEP_HANDLE_INPUT_EVENT_MAIN_COMMIT = 1,
+ ChromeLatencyInfo_Step_STEP_HANDLED_INPUT_EVENT_MAIN_OR_IMPL = 9,
+ ChromeLatencyInfo_Step_STEP_HANDLED_INPUT_EVENT_IMPL = 10,
+ ChromeLatencyInfo_Step_STEP_SWAP_BUFFERS = 6,
+ ChromeLatencyInfo_Step_STEP_DRAW_AND_SWAP = 7,
+ ChromeLatencyInfo_Step_STEP_FINISHED_SWAP_BUFFERS = 11,
+};
+enum ChromeLatencyInfo_LatencyComponentType : int {
+ ChromeLatencyInfo_LatencyComponentType_COMPONENT_UNSPECIFIED = 0,
+ ChromeLatencyInfo_LatencyComponentType_COMPONENT_INPUT_EVENT_LATENCY_BEGIN_RWH = 1,
+ ChromeLatencyInfo_LatencyComponentType_COMPONENT_INPUT_EVENT_LATENCY_SCROLL_UPDATE_ORIGINAL = 2,
+ ChromeLatencyInfo_LatencyComponentType_COMPONENT_INPUT_EVENT_LATENCY_FIRST_SCROLL_UPDATE_ORIGINAL = 3,
+ ChromeLatencyInfo_LatencyComponentType_COMPONENT_INPUT_EVENT_LATENCY_ORIGINAL = 4,
+ ChromeLatencyInfo_LatencyComponentType_COMPONENT_INPUT_EVENT_LATENCY_UI = 5,
+ ChromeLatencyInfo_LatencyComponentType_COMPONENT_INPUT_EVENT_LATENCY_RENDERER_MAIN = 6,
+ ChromeLatencyInfo_LatencyComponentType_COMPONENT_INPUT_EVENT_LATENCY_RENDERING_SCHEDULED_MAIN = 7,
+ ChromeLatencyInfo_LatencyComponentType_COMPONENT_INPUT_EVENT_LATENCY_RENDERING_SCHEDULED_IMPL = 8,
+ ChromeLatencyInfo_LatencyComponentType_COMPONENT_INPUT_EVENT_LATENCY_SCROLL_UPDATE_LAST_EVENT = 9,
+ ChromeLatencyInfo_LatencyComponentType_COMPONENT_INPUT_EVENT_LATENCY_ACK_RWH = 10,
+ ChromeLatencyInfo_LatencyComponentType_COMPONENT_INPUT_EVENT_LATENCY_RENDERER_SWAP = 11,
+ ChromeLatencyInfo_LatencyComponentType_COMPONENT_DISPLAY_COMPOSITOR_RECEIVED_FRAME = 12,
+ ChromeLatencyInfo_LatencyComponentType_COMPONENT_INPUT_EVENT_GPU_SWAP_BUFFER = 13,
+ ChromeLatencyInfo_LatencyComponentType_COMPONENT_INPUT_EVENT_LATENCY_FRAME_SWAP = 14,
+};
+
+class PERFETTO_EXPORT_COMPONENT ChromeLatencyInfo : public ::protozero::CppMessageObj {
+ public:
+ using ComponentInfo = ChromeLatencyInfo_ComponentInfo;
+ using Step = ChromeLatencyInfo_Step;
+ static constexpr auto STEP_UNSPECIFIED = ChromeLatencyInfo_Step_STEP_UNSPECIFIED;
+ static constexpr auto STEP_SEND_INPUT_EVENT_UI = ChromeLatencyInfo_Step_STEP_SEND_INPUT_EVENT_UI;
+ static constexpr auto STEP_HANDLE_INPUT_EVENT_IMPL = ChromeLatencyInfo_Step_STEP_HANDLE_INPUT_EVENT_IMPL;
+ static constexpr auto STEP_DID_HANDLE_INPUT_AND_OVERSCROLL = ChromeLatencyInfo_Step_STEP_DID_HANDLE_INPUT_AND_OVERSCROLL;
+ static constexpr auto STEP_HANDLE_INPUT_EVENT_MAIN = ChromeLatencyInfo_Step_STEP_HANDLE_INPUT_EVENT_MAIN;
+ static constexpr auto STEP_MAIN_THREAD_SCROLL_UPDATE = ChromeLatencyInfo_Step_STEP_MAIN_THREAD_SCROLL_UPDATE;
+ static constexpr auto STEP_HANDLE_INPUT_EVENT_MAIN_COMMIT = ChromeLatencyInfo_Step_STEP_HANDLE_INPUT_EVENT_MAIN_COMMIT;
+ static constexpr auto STEP_HANDLED_INPUT_EVENT_MAIN_OR_IMPL = ChromeLatencyInfo_Step_STEP_HANDLED_INPUT_EVENT_MAIN_OR_IMPL;
+ static constexpr auto STEP_HANDLED_INPUT_EVENT_IMPL = ChromeLatencyInfo_Step_STEP_HANDLED_INPUT_EVENT_IMPL;
+ static constexpr auto STEP_SWAP_BUFFERS = ChromeLatencyInfo_Step_STEP_SWAP_BUFFERS;
+ static constexpr auto STEP_DRAW_AND_SWAP = ChromeLatencyInfo_Step_STEP_DRAW_AND_SWAP;
+ static constexpr auto STEP_FINISHED_SWAP_BUFFERS = ChromeLatencyInfo_Step_STEP_FINISHED_SWAP_BUFFERS;
+ static constexpr auto Step_MIN = ChromeLatencyInfo_Step_STEP_UNSPECIFIED;
+ static constexpr auto Step_MAX = ChromeLatencyInfo_Step_STEP_FINISHED_SWAP_BUFFERS;
+ using LatencyComponentType = ChromeLatencyInfo_LatencyComponentType;
+ static constexpr auto COMPONENT_UNSPECIFIED = ChromeLatencyInfo_LatencyComponentType_COMPONENT_UNSPECIFIED;
+ static constexpr auto COMPONENT_INPUT_EVENT_LATENCY_BEGIN_RWH = ChromeLatencyInfo_LatencyComponentType_COMPONENT_INPUT_EVENT_LATENCY_BEGIN_RWH;
+ static constexpr auto COMPONENT_INPUT_EVENT_LATENCY_SCROLL_UPDATE_ORIGINAL = ChromeLatencyInfo_LatencyComponentType_COMPONENT_INPUT_EVENT_LATENCY_SCROLL_UPDATE_ORIGINAL;
+ static constexpr auto COMPONENT_INPUT_EVENT_LATENCY_FIRST_SCROLL_UPDATE_ORIGINAL = ChromeLatencyInfo_LatencyComponentType_COMPONENT_INPUT_EVENT_LATENCY_FIRST_SCROLL_UPDATE_ORIGINAL;
+ static constexpr auto COMPONENT_INPUT_EVENT_LATENCY_ORIGINAL = ChromeLatencyInfo_LatencyComponentType_COMPONENT_INPUT_EVENT_LATENCY_ORIGINAL;
+ static constexpr auto COMPONENT_INPUT_EVENT_LATENCY_UI = ChromeLatencyInfo_LatencyComponentType_COMPONENT_INPUT_EVENT_LATENCY_UI;
+ static constexpr auto COMPONENT_INPUT_EVENT_LATENCY_RENDERER_MAIN = ChromeLatencyInfo_LatencyComponentType_COMPONENT_INPUT_EVENT_LATENCY_RENDERER_MAIN;
+ static constexpr auto COMPONENT_INPUT_EVENT_LATENCY_RENDERING_SCHEDULED_MAIN = ChromeLatencyInfo_LatencyComponentType_COMPONENT_INPUT_EVENT_LATENCY_RENDERING_SCHEDULED_MAIN;
+ static constexpr auto COMPONENT_INPUT_EVENT_LATENCY_RENDERING_SCHEDULED_IMPL = ChromeLatencyInfo_LatencyComponentType_COMPONENT_INPUT_EVENT_LATENCY_RENDERING_SCHEDULED_IMPL;
+ static constexpr auto COMPONENT_INPUT_EVENT_LATENCY_SCROLL_UPDATE_LAST_EVENT = ChromeLatencyInfo_LatencyComponentType_COMPONENT_INPUT_EVENT_LATENCY_SCROLL_UPDATE_LAST_EVENT;
+ static constexpr auto COMPONENT_INPUT_EVENT_LATENCY_ACK_RWH = ChromeLatencyInfo_LatencyComponentType_COMPONENT_INPUT_EVENT_LATENCY_ACK_RWH;
+ static constexpr auto COMPONENT_INPUT_EVENT_LATENCY_RENDERER_SWAP = ChromeLatencyInfo_LatencyComponentType_COMPONENT_INPUT_EVENT_LATENCY_RENDERER_SWAP;
+ static constexpr auto COMPONENT_DISPLAY_COMPOSITOR_RECEIVED_FRAME = ChromeLatencyInfo_LatencyComponentType_COMPONENT_DISPLAY_COMPOSITOR_RECEIVED_FRAME;
+ static constexpr auto COMPONENT_INPUT_EVENT_GPU_SWAP_BUFFER = ChromeLatencyInfo_LatencyComponentType_COMPONENT_INPUT_EVENT_GPU_SWAP_BUFFER;
+ static constexpr auto COMPONENT_INPUT_EVENT_LATENCY_FRAME_SWAP = ChromeLatencyInfo_LatencyComponentType_COMPONENT_INPUT_EVENT_LATENCY_FRAME_SWAP;
+ static constexpr auto LatencyComponentType_MIN = ChromeLatencyInfo_LatencyComponentType_COMPONENT_UNSPECIFIED;
+ static constexpr auto LatencyComponentType_MAX = ChromeLatencyInfo_LatencyComponentType_COMPONENT_INPUT_EVENT_LATENCY_FRAME_SWAP;
+ enum FieldNumbers {
+ kTraceIdFieldNumber = 1,
+ kStepFieldNumber = 2,
+ kFrameTreeNodeIdFieldNumber = 3,
+ kComponentInfoFieldNumber = 4,
+ kIsCoalescedFieldNumber = 5,
+ kGestureScrollIdFieldNumber = 6,
+ kTouchIdFieldNumber = 7,
+ };
+
+ ChromeLatencyInfo();
+ ~ChromeLatencyInfo() override;
+ ChromeLatencyInfo(ChromeLatencyInfo&&) noexcept;
+ ChromeLatencyInfo& operator=(ChromeLatencyInfo&&);
+ ChromeLatencyInfo(const ChromeLatencyInfo&);
+ ChromeLatencyInfo& operator=(const ChromeLatencyInfo&);
+ bool operator==(const ChromeLatencyInfo&) const;
+ bool operator!=(const ChromeLatencyInfo& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_trace_id() const { return _has_field_[1]; }
+ int64_t trace_id() const { return trace_id_; }
+ void set_trace_id(int64_t value) { trace_id_ = value; _has_field_.set(1); }
+
+ bool has_step() const { return _has_field_[2]; }
+ ChromeLatencyInfo_Step step() const { return step_; }
+ void set_step(ChromeLatencyInfo_Step value) { step_ = value; _has_field_.set(2); }
+
+ bool has_frame_tree_node_id() const { return _has_field_[3]; }
+ int32_t frame_tree_node_id() const { return frame_tree_node_id_; }
+ void set_frame_tree_node_id(int32_t value) { frame_tree_node_id_ = value; _has_field_.set(3); }
+
+ const std::vector<ChromeLatencyInfo_ComponentInfo>& component_info() const { return component_info_; }
+ std::vector<ChromeLatencyInfo_ComponentInfo>* mutable_component_info() { return &component_info_; }
+ int component_info_size() const;
+ void clear_component_info();
+ ChromeLatencyInfo_ComponentInfo* add_component_info();
+
+ bool has_is_coalesced() const { return _has_field_[5]; }
+ bool is_coalesced() const { return is_coalesced_; }
+ void set_is_coalesced(bool value) { is_coalesced_ = value; _has_field_.set(5); }
+
+ bool has_gesture_scroll_id() const { return _has_field_[6]; }
+ int64_t gesture_scroll_id() const { return gesture_scroll_id_; }
+ void set_gesture_scroll_id(int64_t value) { gesture_scroll_id_ = value; _has_field_.set(6); }
+
+ bool has_touch_id() const { return _has_field_[7]; }
+ int64_t touch_id() const { return touch_id_; }
+ void set_touch_id(int64_t value) { touch_id_ = value; _has_field_.set(7); }
+
+ private:
+ int64_t trace_id_{};
+ ChromeLatencyInfo_Step step_{};
+ int32_t frame_tree_node_id_{};
+ std::vector<ChromeLatencyInfo_ComponentInfo> component_info_;
+ bool is_coalesced_{};
+ int64_t gesture_scroll_id_{};
+ int64_t touch_id_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<8> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT ChromeLatencyInfo_ComponentInfo : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kComponentTypeFieldNumber = 1,
+ kTimeUsFieldNumber = 2,
+ };
+
+ ChromeLatencyInfo_ComponentInfo();
+ ~ChromeLatencyInfo_ComponentInfo() override;
+ ChromeLatencyInfo_ComponentInfo(ChromeLatencyInfo_ComponentInfo&&) noexcept;
+ ChromeLatencyInfo_ComponentInfo& operator=(ChromeLatencyInfo_ComponentInfo&&);
+ ChromeLatencyInfo_ComponentInfo(const ChromeLatencyInfo_ComponentInfo&);
+ ChromeLatencyInfo_ComponentInfo& operator=(const ChromeLatencyInfo_ComponentInfo&);
+ bool operator==(const ChromeLatencyInfo_ComponentInfo&) const;
+ bool operator!=(const ChromeLatencyInfo_ComponentInfo& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_component_type() const { return _has_field_[1]; }
+ ChromeLatencyInfo_LatencyComponentType component_type() const { return component_type_; }
+ void set_component_type(ChromeLatencyInfo_LatencyComponentType value) { component_type_ = value; _has_field_.set(1); }
+
+ bool has_time_us() const { return _has_field_[2]; }
+ uint64_t time_us() const { return time_us_; }
+ void set_time_us(uint64_t value) { time_us_ = value; _has_field_.set(2); }
+
+ private:
+ ChromeLatencyInfo_LatencyComponentType component_type_{};
+ uint64_t time_us_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<3> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_LATENCY_INFO_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/trace/track_event/chrome_legacy_ipc.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_LEGACY_IPC_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_LEGACY_IPC_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class ChromeLegacyIpc;
+enum ChromeLegacyIpc_MessageClass : int;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+enum ChromeLegacyIpc_MessageClass : int {
+ ChromeLegacyIpc_MessageClass_CLASS_UNSPECIFIED = 0,
+ ChromeLegacyIpc_MessageClass_CLASS_AUTOMATION = 1,
+ ChromeLegacyIpc_MessageClass_CLASS_FRAME = 2,
+ ChromeLegacyIpc_MessageClass_CLASS_PAGE = 3,
+ ChromeLegacyIpc_MessageClass_CLASS_VIEW = 4,
+ ChromeLegacyIpc_MessageClass_CLASS_WIDGET = 5,
+ ChromeLegacyIpc_MessageClass_CLASS_INPUT = 6,
+ ChromeLegacyIpc_MessageClass_CLASS_TEST = 7,
+ ChromeLegacyIpc_MessageClass_CLASS_WORKER = 8,
+ ChromeLegacyIpc_MessageClass_CLASS_NACL = 9,
+ ChromeLegacyIpc_MessageClass_CLASS_GPU_CHANNEL = 10,
+ ChromeLegacyIpc_MessageClass_CLASS_MEDIA = 11,
+ ChromeLegacyIpc_MessageClass_CLASS_PPAPI = 12,
+ ChromeLegacyIpc_MessageClass_CLASS_CHROME = 13,
+ ChromeLegacyIpc_MessageClass_CLASS_DRAG = 14,
+ ChromeLegacyIpc_MessageClass_CLASS_PRINT = 15,
+ ChromeLegacyIpc_MessageClass_CLASS_EXTENSION = 16,
+ ChromeLegacyIpc_MessageClass_CLASS_TEXT_INPUT_CLIENT = 17,
+ ChromeLegacyIpc_MessageClass_CLASS_BLINK_TEST = 18,
+ ChromeLegacyIpc_MessageClass_CLASS_ACCESSIBILITY = 19,
+ ChromeLegacyIpc_MessageClass_CLASS_PRERENDER = 20,
+ ChromeLegacyIpc_MessageClass_CLASS_CHROMOTING = 21,
+ ChromeLegacyIpc_MessageClass_CLASS_BROWSER_PLUGIN = 22,
+ ChromeLegacyIpc_MessageClass_CLASS_ANDROID_WEB_VIEW = 23,
+ ChromeLegacyIpc_MessageClass_CLASS_NACL_HOST = 24,
+ ChromeLegacyIpc_MessageClass_CLASS_ENCRYPTED_MEDIA = 25,
+ ChromeLegacyIpc_MessageClass_CLASS_CAST = 26,
+ ChromeLegacyIpc_MessageClass_CLASS_GIN_JAVA_BRIDGE = 27,
+ ChromeLegacyIpc_MessageClass_CLASS_CHROME_UTILITY_PRINTING = 28,
+ ChromeLegacyIpc_MessageClass_CLASS_OZONE_GPU = 29,
+ ChromeLegacyIpc_MessageClass_CLASS_WEB_TEST = 30,
+ ChromeLegacyIpc_MessageClass_CLASS_NETWORK_HINTS = 31,
+ ChromeLegacyIpc_MessageClass_CLASS_EXTENSIONS_GUEST_VIEW = 32,
+ ChromeLegacyIpc_MessageClass_CLASS_GUEST_VIEW = 33,
+ ChromeLegacyIpc_MessageClass_CLASS_MEDIA_PLAYER_DELEGATE = 34,
+ ChromeLegacyIpc_MessageClass_CLASS_EXTENSION_WORKER = 35,
+ ChromeLegacyIpc_MessageClass_CLASS_SUBRESOURCE_FILTER = 36,
+ ChromeLegacyIpc_MessageClass_CLASS_UNFREEZABLE_FRAME = 37,
+};
+
+class PERFETTO_EXPORT_COMPONENT ChromeLegacyIpc : public ::protozero::CppMessageObj {
+ public:
+ using MessageClass = ChromeLegacyIpc_MessageClass;
+ static constexpr auto CLASS_UNSPECIFIED = ChromeLegacyIpc_MessageClass_CLASS_UNSPECIFIED;
+ static constexpr auto CLASS_AUTOMATION = ChromeLegacyIpc_MessageClass_CLASS_AUTOMATION;
+ static constexpr auto CLASS_FRAME = ChromeLegacyIpc_MessageClass_CLASS_FRAME;
+ static constexpr auto CLASS_PAGE = ChromeLegacyIpc_MessageClass_CLASS_PAGE;
+ static constexpr auto CLASS_VIEW = ChromeLegacyIpc_MessageClass_CLASS_VIEW;
+ static constexpr auto CLASS_WIDGET = ChromeLegacyIpc_MessageClass_CLASS_WIDGET;
+ static constexpr auto CLASS_INPUT = ChromeLegacyIpc_MessageClass_CLASS_INPUT;
+ static constexpr auto CLASS_TEST = ChromeLegacyIpc_MessageClass_CLASS_TEST;
+ static constexpr auto CLASS_WORKER = ChromeLegacyIpc_MessageClass_CLASS_WORKER;
+ static constexpr auto CLASS_NACL = ChromeLegacyIpc_MessageClass_CLASS_NACL;
+ static constexpr auto CLASS_GPU_CHANNEL = ChromeLegacyIpc_MessageClass_CLASS_GPU_CHANNEL;
+ static constexpr auto CLASS_MEDIA = ChromeLegacyIpc_MessageClass_CLASS_MEDIA;
+ static constexpr auto CLASS_PPAPI = ChromeLegacyIpc_MessageClass_CLASS_PPAPI;
+ static constexpr auto CLASS_CHROME = ChromeLegacyIpc_MessageClass_CLASS_CHROME;
+ static constexpr auto CLASS_DRAG = ChromeLegacyIpc_MessageClass_CLASS_DRAG;
+ static constexpr auto CLASS_PRINT = ChromeLegacyIpc_MessageClass_CLASS_PRINT;
+ static constexpr auto CLASS_EXTENSION = ChromeLegacyIpc_MessageClass_CLASS_EXTENSION;
+ static constexpr auto CLASS_TEXT_INPUT_CLIENT = ChromeLegacyIpc_MessageClass_CLASS_TEXT_INPUT_CLIENT;
+ static constexpr auto CLASS_BLINK_TEST = ChromeLegacyIpc_MessageClass_CLASS_BLINK_TEST;
+ static constexpr auto CLASS_ACCESSIBILITY = ChromeLegacyIpc_MessageClass_CLASS_ACCESSIBILITY;
+ static constexpr auto CLASS_PRERENDER = ChromeLegacyIpc_MessageClass_CLASS_PRERENDER;
+ static constexpr auto CLASS_CHROMOTING = ChromeLegacyIpc_MessageClass_CLASS_CHROMOTING;
+ static constexpr auto CLASS_BROWSER_PLUGIN = ChromeLegacyIpc_MessageClass_CLASS_BROWSER_PLUGIN;
+ static constexpr auto CLASS_ANDROID_WEB_VIEW = ChromeLegacyIpc_MessageClass_CLASS_ANDROID_WEB_VIEW;
+ static constexpr auto CLASS_NACL_HOST = ChromeLegacyIpc_MessageClass_CLASS_NACL_HOST;
+ static constexpr auto CLASS_ENCRYPTED_MEDIA = ChromeLegacyIpc_MessageClass_CLASS_ENCRYPTED_MEDIA;
+ static constexpr auto CLASS_CAST = ChromeLegacyIpc_MessageClass_CLASS_CAST;
+ static constexpr auto CLASS_GIN_JAVA_BRIDGE = ChromeLegacyIpc_MessageClass_CLASS_GIN_JAVA_BRIDGE;
+ static constexpr auto CLASS_CHROME_UTILITY_PRINTING = ChromeLegacyIpc_MessageClass_CLASS_CHROME_UTILITY_PRINTING;
+ static constexpr auto CLASS_OZONE_GPU = ChromeLegacyIpc_MessageClass_CLASS_OZONE_GPU;
+ static constexpr auto CLASS_WEB_TEST = ChromeLegacyIpc_MessageClass_CLASS_WEB_TEST;
+ static constexpr auto CLASS_NETWORK_HINTS = ChromeLegacyIpc_MessageClass_CLASS_NETWORK_HINTS;
+ static constexpr auto CLASS_EXTENSIONS_GUEST_VIEW = ChromeLegacyIpc_MessageClass_CLASS_EXTENSIONS_GUEST_VIEW;
+ static constexpr auto CLASS_GUEST_VIEW = ChromeLegacyIpc_MessageClass_CLASS_GUEST_VIEW;
+ static constexpr auto CLASS_MEDIA_PLAYER_DELEGATE = ChromeLegacyIpc_MessageClass_CLASS_MEDIA_PLAYER_DELEGATE;
+ static constexpr auto CLASS_EXTENSION_WORKER = ChromeLegacyIpc_MessageClass_CLASS_EXTENSION_WORKER;
+ static constexpr auto CLASS_SUBRESOURCE_FILTER = ChromeLegacyIpc_MessageClass_CLASS_SUBRESOURCE_FILTER;
+ static constexpr auto CLASS_UNFREEZABLE_FRAME = ChromeLegacyIpc_MessageClass_CLASS_UNFREEZABLE_FRAME;
+ static constexpr auto MessageClass_MIN = ChromeLegacyIpc_MessageClass_CLASS_UNSPECIFIED;
+ static constexpr auto MessageClass_MAX = ChromeLegacyIpc_MessageClass_CLASS_UNFREEZABLE_FRAME;
+ enum FieldNumbers {
+ kMessageClassFieldNumber = 1,
+ kMessageLineFieldNumber = 2,
+ };
+
+ ChromeLegacyIpc();
+ ~ChromeLegacyIpc() override;
+ ChromeLegacyIpc(ChromeLegacyIpc&&) noexcept;
+ ChromeLegacyIpc& operator=(ChromeLegacyIpc&&);
+ ChromeLegacyIpc(const ChromeLegacyIpc&);
+ ChromeLegacyIpc& operator=(const ChromeLegacyIpc&);
+ bool operator==(const ChromeLegacyIpc&) const;
+ bool operator!=(const ChromeLegacyIpc& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_message_class() const { return _has_field_[1]; }
+ ChromeLegacyIpc_MessageClass message_class() const { return message_class_; }
+ void set_message_class(ChromeLegacyIpc_MessageClass value) { message_class_ = value; _has_field_.set(1); }
+
+ bool has_message_line() const { return _has_field_[2]; }
+ uint32_t message_line() const { return message_line_; }
+ void set_message_line(uint32_t value) { message_line_ = value; _has_field_.set(2); }
+
+ private:
+ ChromeLegacyIpc_MessageClass message_class_{};
+ uint32_t message_line_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<3> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_LEGACY_IPC_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/trace/track_event/chrome_message_pump.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_MESSAGE_PUMP_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_MESSAGE_PUMP_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class ChromeMessagePump;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+class PERFETTO_EXPORT_COMPONENT ChromeMessagePump : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kSentMessagesInQueueFieldNumber = 1,
+ kIoHandlerLocationIidFieldNumber = 2,
+ };
+
+ ChromeMessagePump();
+ ~ChromeMessagePump() override;
+ ChromeMessagePump(ChromeMessagePump&&) noexcept;
+ ChromeMessagePump& operator=(ChromeMessagePump&&);
+ ChromeMessagePump(const ChromeMessagePump&);
+ ChromeMessagePump& operator=(const ChromeMessagePump&);
+ bool operator==(const ChromeMessagePump&) const;
+ bool operator!=(const ChromeMessagePump& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_sent_messages_in_queue() const { return _has_field_[1]; }
+ bool sent_messages_in_queue() const { return sent_messages_in_queue_; }
+ void set_sent_messages_in_queue(bool value) { sent_messages_in_queue_ = value; _has_field_.set(1); }
+
+ bool has_io_handler_location_iid() const { return _has_field_[2]; }
+ uint64_t io_handler_location_iid() const { return io_handler_location_iid_; }
+ void set_io_handler_location_iid(uint64_t value) { io_handler_location_iid_ = value; _has_field_.set(2); }
+
+ private:
+ bool sent_messages_in_queue_{};
+ uint64_t io_handler_location_iid_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<3> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_MESSAGE_PUMP_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/trace/track_event/chrome_mojo_event_info.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_MOJO_EVENT_INFO_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_MOJO_EVENT_INFO_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class ChromeMojoEventInfo;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+class PERFETTO_EXPORT_COMPONENT ChromeMojoEventInfo : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kWatcherNotifyInterfaceTagFieldNumber = 1,
+ kIpcHashFieldNumber = 2,
+ kMojoInterfaceTagFieldNumber = 3,
+ kMojoInterfaceMethodIidFieldNumber = 4,
+ kIsReplyFieldNumber = 5,
+ kPayloadSizeFieldNumber = 6,
+ kDataNumBytesFieldNumber = 7,
+ };
+
+ ChromeMojoEventInfo();
+ ~ChromeMojoEventInfo() override;
+ ChromeMojoEventInfo(ChromeMojoEventInfo&&) noexcept;
+ ChromeMojoEventInfo& operator=(ChromeMojoEventInfo&&);
+ ChromeMojoEventInfo(const ChromeMojoEventInfo&);
+ ChromeMojoEventInfo& operator=(const ChromeMojoEventInfo&);
+ bool operator==(const ChromeMojoEventInfo&) const;
+ bool operator!=(const ChromeMojoEventInfo& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_watcher_notify_interface_tag() const { return _has_field_[1]; }
+ const std::string& watcher_notify_interface_tag() const { return watcher_notify_interface_tag_; }
+ void set_watcher_notify_interface_tag(const std::string& value) { watcher_notify_interface_tag_ = value; _has_field_.set(1); }
+
+ bool has_ipc_hash() const { return _has_field_[2]; }
+ uint32_t ipc_hash() const { return ipc_hash_; }
+ void set_ipc_hash(uint32_t value) { ipc_hash_ = value; _has_field_.set(2); }
+
+ bool has_mojo_interface_tag() const { return _has_field_[3]; }
+ const std::string& mojo_interface_tag() const { return mojo_interface_tag_; }
+ void set_mojo_interface_tag(const std::string& value) { mojo_interface_tag_ = value; _has_field_.set(3); }
+
+ bool has_mojo_interface_method_iid() const { return _has_field_[4]; }
+ uint64_t mojo_interface_method_iid() const { return mojo_interface_method_iid_; }
+ void set_mojo_interface_method_iid(uint64_t value) { mojo_interface_method_iid_ = value; _has_field_.set(4); }
+
+ bool has_is_reply() const { return _has_field_[5]; }
+ bool is_reply() const { return is_reply_; }
+ void set_is_reply(bool value) { is_reply_ = value; _has_field_.set(5); }
+
+ bool has_payload_size() const { return _has_field_[6]; }
+ uint64_t payload_size() const { return payload_size_; }
+ void set_payload_size(uint64_t value) { payload_size_ = value; _has_field_.set(6); }
+
+ bool has_data_num_bytes() const { return _has_field_[7]; }
+ uint64_t data_num_bytes() const { return data_num_bytes_; }
+ void set_data_num_bytes(uint64_t value) { data_num_bytes_ = value; _has_field_.set(7); }
+
+ private:
+ std::string watcher_notify_interface_tag_{};
+ uint32_t ipc_hash_{};
+ std::string mojo_interface_tag_{};
+ uint64_t mojo_interface_method_iid_{};
+ bool is_reply_{};
+ uint64_t payload_size_{};
+ uint64_t data_num_bytes_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<8> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_MOJO_EVENT_INFO_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/trace/track_event/chrome_process_descriptor.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_PROCESS_DESCRIPTOR_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_PROCESS_DESCRIPTOR_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class ChromeProcessDescriptor;
+enum ChromeProcessDescriptor_ProcessType : int;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+enum ChromeProcessDescriptor_ProcessType : int {
+ ChromeProcessDescriptor_ProcessType_PROCESS_UNSPECIFIED = 0,
+ ChromeProcessDescriptor_ProcessType_PROCESS_BROWSER = 1,
+ ChromeProcessDescriptor_ProcessType_PROCESS_RENDERER = 2,
+ ChromeProcessDescriptor_ProcessType_PROCESS_UTILITY = 3,
+ ChromeProcessDescriptor_ProcessType_PROCESS_ZYGOTE = 4,
+ ChromeProcessDescriptor_ProcessType_PROCESS_SANDBOX_HELPER = 5,
+ ChromeProcessDescriptor_ProcessType_PROCESS_GPU = 6,
+ ChromeProcessDescriptor_ProcessType_PROCESS_PPAPI_PLUGIN = 7,
+ ChromeProcessDescriptor_ProcessType_PROCESS_PPAPI_BROKER = 8,
+ ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_NETWORK = 9,
+ ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_TRACING = 10,
+ ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_STORAGE = 11,
+ ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_AUDIO = 12,
+ ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_DATA_DECODER = 13,
+ ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_UTIL_WIN = 14,
+ ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_PROXY_RESOLVER = 15,
+ ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_CDM = 16,
+ ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_VIDEO_CAPTURE = 17,
+ ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_UNZIPPER = 18,
+ ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_MIRRORING = 19,
+ ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_FILEPATCHER = 20,
+ ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_TTS = 21,
+ ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_PRINTING = 22,
+ ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_QUARANTINE = 23,
+ ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_CROS_LOCALSEARCH = 24,
+ ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_CROS_ASSISTANT_AUDIO_DECODER = 25,
+ ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_FILEUTIL = 26,
+ ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_PRINTCOMPOSITOR = 27,
+ ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_PAINTPREVIEW = 28,
+ ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_SPEECHRECOGNITION = 29,
+ ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_XRDEVICE = 30,
+ ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_READICON = 31,
+ ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_LANGUAGEDETECTION = 32,
+ ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_SHARING = 33,
+ ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_MEDIAPARSER = 34,
+ ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_QRCODEGENERATOR = 35,
+ ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_PROFILEIMPORT = 36,
+ ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_IME = 37,
+ ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_RECORDING = 38,
+ ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_SHAPEDETECTION = 39,
+ ChromeProcessDescriptor_ProcessType_PROCESS_RENDERER_EXTENSION = 40,
+ ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_MEDIA_FOUNDATION = 41,
+};
+
+class PERFETTO_EXPORT_COMPONENT ChromeProcessDescriptor : public ::protozero::CppMessageObj {
+ public:
+ using ProcessType = ChromeProcessDescriptor_ProcessType;
+ static constexpr auto PROCESS_UNSPECIFIED = ChromeProcessDescriptor_ProcessType_PROCESS_UNSPECIFIED;
+ static constexpr auto PROCESS_BROWSER = ChromeProcessDescriptor_ProcessType_PROCESS_BROWSER;
+ static constexpr auto PROCESS_RENDERER = ChromeProcessDescriptor_ProcessType_PROCESS_RENDERER;
+ static constexpr auto PROCESS_UTILITY = ChromeProcessDescriptor_ProcessType_PROCESS_UTILITY;
+ static constexpr auto PROCESS_ZYGOTE = ChromeProcessDescriptor_ProcessType_PROCESS_ZYGOTE;
+ static constexpr auto PROCESS_SANDBOX_HELPER = ChromeProcessDescriptor_ProcessType_PROCESS_SANDBOX_HELPER;
+ static constexpr auto PROCESS_GPU = ChromeProcessDescriptor_ProcessType_PROCESS_GPU;
+ static constexpr auto PROCESS_PPAPI_PLUGIN = ChromeProcessDescriptor_ProcessType_PROCESS_PPAPI_PLUGIN;
+ static constexpr auto PROCESS_PPAPI_BROKER = ChromeProcessDescriptor_ProcessType_PROCESS_PPAPI_BROKER;
+ static constexpr auto PROCESS_SERVICE_NETWORK = ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_NETWORK;
+ static constexpr auto PROCESS_SERVICE_TRACING = ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_TRACING;
+ static constexpr auto PROCESS_SERVICE_STORAGE = ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_STORAGE;
+ static constexpr auto PROCESS_SERVICE_AUDIO = ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_AUDIO;
+ static constexpr auto PROCESS_SERVICE_DATA_DECODER = ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_DATA_DECODER;
+ static constexpr auto PROCESS_SERVICE_UTIL_WIN = ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_UTIL_WIN;
+ static constexpr auto PROCESS_SERVICE_PROXY_RESOLVER = ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_PROXY_RESOLVER;
+ static constexpr auto PROCESS_SERVICE_CDM = ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_CDM;
+ static constexpr auto PROCESS_SERVICE_VIDEO_CAPTURE = ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_VIDEO_CAPTURE;
+ static constexpr auto PROCESS_SERVICE_UNZIPPER = ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_UNZIPPER;
+ static constexpr auto PROCESS_SERVICE_MIRRORING = ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_MIRRORING;
+ static constexpr auto PROCESS_SERVICE_FILEPATCHER = ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_FILEPATCHER;
+ static constexpr auto PROCESS_SERVICE_TTS = ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_TTS;
+ static constexpr auto PROCESS_SERVICE_PRINTING = ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_PRINTING;
+ static constexpr auto PROCESS_SERVICE_QUARANTINE = ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_QUARANTINE;
+ static constexpr auto PROCESS_SERVICE_CROS_LOCALSEARCH = ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_CROS_LOCALSEARCH;
+ static constexpr auto PROCESS_SERVICE_CROS_ASSISTANT_AUDIO_DECODER = ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_CROS_ASSISTANT_AUDIO_DECODER;
+ static constexpr auto PROCESS_SERVICE_FILEUTIL = ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_FILEUTIL;
+ static constexpr auto PROCESS_SERVICE_PRINTCOMPOSITOR = ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_PRINTCOMPOSITOR;
+ static constexpr auto PROCESS_SERVICE_PAINTPREVIEW = ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_PAINTPREVIEW;
+ static constexpr auto PROCESS_SERVICE_SPEECHRECOGNITION = ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_SPEECHRECOGNITION;
+ static constexpr auto PROCESS_SERVICE_XRDEVICE = ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_XRDEVICE;
+ static constexpr auto PROCESS_SERVICE_READICON = ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_READICON;
+ static constexpr auto PROCESS_SERVICE_LANGUAGEDETECTION = ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_LANGUAGEDETECTION;
+ static constexpr auto PROCESS_SERVICE_SHARING = ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_SHARING;
+ static constexpr auto PROCESS_SERVICE_MEDIAPARSER = ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_MEDIAPARSER;
+ static constexpr auto PROCESS_SERVICE_QRCODEGENERATOR = ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_QRCODEGENERATOR;
+ static constexpr auto PROCESS_SERVICE_PROFILEIMPORT = ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_PROFILEIMPORT;
+ static constexpr auto PROCESS_SERVICE_IME = ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_IME;
+ static constexpr auto PROCESS_SERVICE_RECORDING = ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_RECORDING;
+ static constexpr auto PROCESS_SERVICE_SHAPEDETECTION = ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_SHAPEDETECTION;
+ static constexpr auto PROCESS_RENDERER_EXTENSION = ChromeProcessDescriptor_ProcessType_PROCESS_RENDERER_EXTENSION;
+ static constexpr auto PROCESS_SERVICE_MEDIA_FOUNDATION = ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_MEDIA_FOUNDATION;
+ static constexpr auto ProcessType_MIN = ChromeProcessDescriptor_ProcessType_PROCESS_UNSPECIFIED;
+ static constexpr auto ProcessType_MAX = ChromeProcessDescriptor_ProcessType_PROCESS_SERVICE_MEDIA_FOUNDATION;
+ enum FieldNumbers {
+ kProcessTypeFieldNumber = 1,
+ kProcessPriorityFieldNumber = 2,
+ kLegacySortIndexFieldNumber = 3,
+ kHostAppPackageNameFieldNumber = 4,
+ kCrashTraceIdFieldNumber = 5,
+ };
+
+ ChromeProcessDescriptor();
+ ~ChromeProcessDescriptor() override;
+ ChromeProcessDescriptor(ChromeProcessDescriptor&&) noexcept;
+ ChromeProcessDescriptor& operator=(ChromeProcessDescriptor&&);
+ ChromeProcessDescriptor(const ChromeProcessDescriptor&);
+ ChromeProcessDescriptor& operator=(const ChromeProcessDescriptor&);
+ bool operator==(const ChromeProcessDescriptor&) const;
+ bool operator!=(const ChromeProcessDescriptor& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_process_type() const { return _has_field_[1]; }
+ ChromeProcessDescriptor_ProcessType process_type() const { return process_type_; }
+ void set_process_type(ChromeProcessDescriptor_ProcessType value) { process_type_ = value; _has_field_.set(1); }
+
+ bool has_process_priority() const { return _has_field_[2]; }
+ int32_t process_priority() const { return process_priority_; }
+ void set_process_priority(int32_t value) { process_priority_ = value; _has_field_.set(2); }
+
+ bool has_legacy_sort_index() const { return _has_field_[3]; }
+ int32_t legacy_sort_index() const { return legacy_sort_index_; }
+ void set_legacy_sort_index(int32_t value) { legacy_sort_index_ = value; _has_field_.set(3); }
+
+ bool has_host_app_package_name() const { return _has_field_[4]; }
+ const std::string& host_app_package_name() const { return host_app_package_name_; }
+ void set_host_app_package_name(const std::string& value) { host_app_package_name_ = value; _has_field_.set(4); }
+
+ bool has_crash_trace_id() const { return _has_field_[5]; }
+ uint64_t crash_trace_id() const { return crash_trace_id_; }
+ void set_crash_trace_id(uint64_t value) { crash_trace_id_ = value; _has_field_.set(5); }
+
+ private:
+ ChromeProcessDescriptor_ProcessType process_type_{};
+ int32_t process_priority_{};
+ int32_t legacy_sort_index_{};
+ std::string host_app_package_name_{};
+ uint64_t crash_trace_id_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<6> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_PROCESS_DESCRIPTOR_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/trace/track_event/chrome_renderer_scheduler_state.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_RENDERER_SCHEDULER_STATE_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_RENDERER_SCHEDULER_STATE_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class ChromeRendererSchedulerState;
+enum ChromeRAILMode : int;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+enum ChromeRAILMode : int {
+ RAIL_MODE_NONE = 0,
+ RAIL_MODE_RESPONSE = 1,
+ RAIL_MODE_ANIMATION = 2,
+ RAIL_MODE_IDLE = 3,
+ RAIL_MODE_LOAD = 4,
+};
+
+class PERFETTO_EXPORT_COMPONENT ChromeRendererSchedulerState : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kRailModeFieldNumber = 1,
+ kIsBackgroundedFieldNumber = 2,
+ kIsHiddenFieldNumber = 3,
+ };
+
+ ChromeRendererSchedulerState();
+ ~ChromeRendererSchedulerState() override;
+ ChromeRendererSchedulerState(ChromeRendererSchedulerState&&) noexcept;
+ ChromeRendererSchedulerState& operator=(ChromeRendererSchedulerState&&);
+ ChromeRendererSchedulerState(const ChromeRendererSchedulerState&);
+ ChromeRendererSchedulerState& operator=(const ChromeRendererSchedulerState&);
+ bool operator==(const ChromeRendererSchedulerState&) const;
+ bool operator!=(const ChromeRendererSchedulerState& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_rail_mode() const { return _has_field_[1]; }
+ ChromeRAILMode rail_mode() const { return rail_mode_; }
+ void set_rail_mode(ChromeRAILMode value) { rail_mode_ = value; _has_field_.set(1); }
+
+ bool has_is_backgrounded() const { return _has_field_[2]; }
+ bool is_backgrounded() const { return is_backgrounded_; }
+ void set_is_backgrounded(bool value) { is_backgrounded_ = value; _has_field_.set(2); }
+
+ bool has_is_hidden() const { return _has_field_[3]; }
+ bool is_hidden() const { return is_hidden_; }
+ void set_is_hidden(bool value) { is_hidden_ = value; _has_field_.set(3); }
+
+ private:
+ ChromeRAILMode rail_mode_{};
+ bool is_backgrounded_{};
+ bool is_hidden_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<4> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_RENDERER_SCHEDULER_STATE_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/trace/track_event/chrome_thread_descriptor.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_THREAD_DESCRIPTOR_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_THREAD_DESCRIPTOR_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class ChromeThreadDescriptor;
+enum ChromeThreadDescriptor_ThreadType : int;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+enum ChromeThreadDescriptor_ThreadType : int {
+ ChromeThreadDescriptor_ThreadType_THREAD_UNSPECIFIED = 0,
+ ChromeThreadDescriptor_ThreadType_THREAD_MAIN = 1,
+ ChromeThreadDescriptor_ThreadType_THREAD_IO = 2,
+ ChromeThreadDescriptor_ThreadType_THREAD_POOL_BG_WORKER = 3,
+ ChromeThreadDescriptor_ThreadType_THREAD_POOL_FG_WORKER = 4,
+ ChromeThreadDescriptor_ThreadType_THREAD_POOL_FG_BLOCKING = 5,
+ ChromeThreadDescriptor_ThreadType_THREAD_POOL_BG_BLOCKING = 6,
+ ChromeThreadDescriptor_ThreadType_THREAD_POOL_SERVICE = 7,
+ ChromeThreadDescriptor_ThreadType_THREAD_COMPOSITOR = 8,
+ ChromeThreadDescriptor_ThreadType_THREAD_VIZ_COMPOSITOR = 9,
+ ChromeThreadDescriptor_ThreadType_THREAD_COMPOSITOR_WORKER = 10,
+ ChromeThreadDescriptor_ThreadType_THREAD_SERVICE_WORKER = 11,
+ ChromeThreadDescriptor_ThreadType_THREAD_NETWORK_SERVICE = 12,
+ ChromeThreadDescriptor_ThreadType_THREAD_CHILD_IO = 13,
+ ChromeThreadDescriptor_ThreadType_THREAD_BROWSER_IO = 14,
+ ChromeThreadDescriptor_ThreadType_THREAD_BROWSER_MAIN = 15,
+ ChromeThreadDescriptor_ThreadType_THREAD_RENDERER_MAIN = 16,
+ ChromeThreadDescriptor_ThreadType_THREAD_UTILITY_MAIN = 17,
+ ChromeThreadDescriptor_ThreadType_THREAD_GPU_MAIN = 18,
+ ChromeThreadDescriptor_ThreadType_THREAD_CACHE_BLOCKFILE = 19,
+ ChromeThreadDescriptor_ThreadType_THREAD_MEDIA = 20,
+ ChromeThreadDescriptor_ThreadType_THREAD_AUDIO_OUTPUTDEVICE = 21,
+ ChromeThreadDescriptor_ThreadType_THREAD_AUDIO_INPUTDEVICE = 22,
+ ChromeThreadDescriptor_ThreadType_THREAD_GPU_MEMORY = 23,
+ ChromeThreadDescriptor_ThreadType_THREAD_GPU_VSYNC = 24,
+ ChromeThreadDescriptor_ThreadType_THREAD_DXA_VIDEODECODER = 25,
+ ChromeThreadDescriptor_ThreadType_THREAD_BROWSER_WATCHDOG = 26,
+ ChromeThreadDescriptor_ThreadType_THREAD_WEBRTC_NETWORK = 27,
+ ChromeThreadDescriptor_ThreadType_THREAD_WINDOW_OWNER = 28,
+ ChromeThreadDescriptor_ThreadType_THREAD_WEBRTC_SIGNALING = 29,
+ ChromeThreadDescriptor_ThreadType_THREAD_WEBRTC_WORKER = 30,
+ ChromeThreadDescriptor_ThreadType_THREAD_PPAPI_MAIN = 31,
+ ChromeThreadDescriptor_ThreadType_THREAD_GPU_WATCHDOG = 32,
+ ChromeThreadDescriptor_ThreadType_THREAD_SWAPPER = 33,
+ ChromeThreadDescriptor_ThreadType_THREAD_GAMEPAD_POLLING = 34,
+ ChromeThreadDescriptor_ThreadType_THREAD_WEBCRYPTO = 35,
+ ChromeThreadDescriptor_ThreadType_THREAD_DATABASE = 36,
+ ChromeThreadDescriptor_ThreadType_THREAD_PROXYRESOLVER = 37,
+ ChromeThreadDescriptor_ThreadType_THREAD_DEVTOOLSADB = 38,
+ ChromeThreadDescriptor_ThreadType_THREAD_NETWORKCONFIGWATCHER = 39,
+ ChromeThreadDescriptor_ThreadType_THREAD_WASAPI_RENDER = 40,
+ ChromeThreadDescriptor_ThreadType_THREAD_LOADER_LOCK_SAMPLER = 41,
+ ChromeThreadDescriptor_ThreadType_THREAD_MEMORY_INFRA = 50,
+ ChromeThreadDescriptor_ThreadType_THREAD_SAMPLING_PROFILER = 51,
+};
+
+class PERFETTO_EXPORT_COMPONENT ChromeThreadDescriptor : public ::protozero::CppMessageObj {
+ public:
+ using ThreadType = ChromeThreadDescriptor_ThreadType;
+ static constexpr auto THREAD_UNSPECIFIED = ChromeThreadDescriptor_ThreadType_THREAD_UNSPECIFIED;
+ static constexpr auto THREAD_MAIN = ChromeThreadDescriptor_ThreadType_THREAD_MAIN;
+ static constexpr auto THREAD_IO = ChromeThreadDescriptor_ThreadType_THREAD_IO;
+ static constexpr auto THREAD_POOL_BG_WORKER = ChromeThreadDescriptor_ThreadType_THREAD_POOL_BG_WORKER;
+ static constexpr auto THREAD_POOL_FG_WORKER = ChromeThreadDescriptor_ThreadType_THREAD_POOL_FG_WORKER;
+ static constexpr auto THREAD_POOL_FG_BLOCKING = ChromeThreadDescriptor_ThreadType_THREAD_POOL_FG_BLOCKING;
+ static constexpr auto THREAD_POOL_BG_BLOCKING = ChromeThreadDescriptor_ThreadType_THREAD_POOL_BG_BLOCKING;
+ static constexpr auto THREAD_POOL_SERVICE = ChromeThreadDescriptor_ThreadType_THREAD_POOL_SERVICE;
+ static constexpr auto THREAD_COMPOSITOR = ChromeThreadDescriptor_ThreadType_THREAD_COMPOSITOR;
+ static constexpr auto THREAD_VIZ_COMPOSITOR = ChromeThreadDescriptor_ThreadType_THREAD_VIZ_COMPOSITOR;
+ static constexpr auto THREAD_COMPOSITOR_WORKER = ChromeThreadDescriptor_ThreadType_THREAD_COMPOSITOR_WORKER;
+ static constexpr auto THREAD_SERVICE_WORKER = ChromeThreadDescriptor_ThreadType_THREAD_SERVICE_WORKER;
+ static constexpr auto THREAD_NETWORK_SERVICE = ChromeThreadDescriptor_ThreadType_THREAD_NETWORK_SERVICE;
+ static constexpr auto THREAD_CHILD_IO = ChromeThreadDescriptor_ThreadType_THREAD_CHILD_IO;
+ static constexpr auto THREAD_BROWSER_IO = ChromeThreadDescriptor_ThreadType_THREAD_BROWSER_IO;
+ static constexpr auto THREAD_BROWSER_MAIN = ChromeThreadDescriptor_ThreadType_THREAD_BROWSER_MAIN;
+ static constexpr auto THREAD_RENDERER_MAIN = ChromeThreadDescriptor_ThreadType_THREAD_RENDERER_MAIN;
+ static constexpr auto THREAD_UTILITY_MAIN = ChromeThreadDescriptor_ThreadType_THREAD_UTILITY_MAIN;
+ static constexpr auto THREAD_GPU_MAIN = ChromeThreadDescriptor_ThreadType_THREAD_GPU_MAIN;
+ static constexpr auto THREAD_CACHE_BLOCKFILE = ChromeThreadDescriptor_ThreadType_THREAD_CACHE_BLOCKFILE;
+ static constexpr auto THREAD_MEDIA = ChromeThreadDescriptor_ThreadType_THREAD_MEDIA;
+ static constexpr auto THREAD_AUDIO_OUTPUTDEVICE = ChromeThreadDescriptor_ThreadType_THREAD_AUDIO_OUTPUTDEVICE;
+ static constexpr auto THREAD_AUDIO_INPUTDEVICE = ChromeThreadDescriptor_ThreadType_THREAD_AUDIO_INPUTDEVICE;
+ static constexpr auto THREAD_GPU_MEMORY = ChromeThreadDescriptor_ThreadType_THREAD_GPU_MEMORY;
+ static constexpr auto THREAD_GPU_VSYNC = ChromeThreadDescriptor_ThreadType_THREAD_GPU_VSYNC;
+ static constexpr auto THREAD_DXA_VIDEODECODER = ChromeThreadDescriptor_ThreadType_THREAD_DXA_VIDEODECODER;
+ static constexpr auto THREAD_BROWSER_WATCHDOG = ChromeThreadDescriptor_ThreadType_THREAD_BROWSER_WATCHDOG;
+ static constexpr auto THREAD_WEBRTC_NETWORK = ChromeThreadDescriptor_ThreadType_THREAD_WEBRTC_NETWORK;
+ static constexpr auto THREAD_WINDOW_OWNER = ChromeThreadDescriptor_ThreadType_THREAD_WINDOW_OWNER;
+ static constexpr auto THREAD_WEBRTC_SIGNALING = ChromeThreadDescriptor_ThreadType_THREAD_WEBRTC_SIGNALING;
+ static constexpr auto THREAD_WEBRTC_WORKER = ChromeThreadDescriptor_ThreadType_THREAD_WEBRTC_WORKER;
+ static constexpr auto THREAD_PPAPI_MAIN = ChromeThreadDescriptor_ThreadType_THREAD_PPAPI_MAIN;
+ static constexpr auto THREAD_GPU_WATCHDOG = ChromeThreadDescriptor_ThreadType_THREAD_GPU_WATCHDOG;
+ static constexpr auto THREAD_SWAPPER = ChromeThreadDescriptor_ThreadType_THREAD_SWAPPER;
+ static constexpr auto THREAD_GAMEPAD_POLLING = ChromeThreadDescriptor_ThreadType_THREAD_GAMEPAD_POLLING;
+ static constexpr auto THREAD_WEBCRYPTO = ChromeThreadDescriptor_ThreadType_THREAD_WEBCRYPTO;
+ static constexpr auto THREAD_DATABASE = ChromeThreadDescriptor_ThreadType_THREAD_DATABASE;
+ static constexpr auto THREAD_PROXYRESOLVER = ChromeThreadDescriptor_ThreadType_THREAD_PROXYRESOLVER;
+ static constexpr auto THREAD_DEVTOOLSADB = ChromeThreadDescriptor_ThreadType_THREAD_DEVTOOLSADB;
+ static constexpr auto THREAD_NETWORKCONFIGWATCHER = ChromeThreadDescriptor_ThreadType_THREAD_NETWORKCONFIGWATCHER;
+ static constexpr auto THREAD_WASAPI_RENDER = ChromeThreadDescriptor_ThreadType_THREAD_WASAPI_RENDER;
+ static constexpr auto THREAD_LOADER_LOCK_SAMPLER = ChromeThreadDescriptor_ThreadType_THREAD_LOADER_LOCK_SAMPLER;
+ static constexpr auto THREAD_MEMORY_INFRA = ChromeThreadDescriptor_ThreadType_THREAD_MEMORY_INFRA;
+ static constexpr auto THREAD_SAMPLING_PROFILER = ChromeThreadDescriptor_ThreadType_THREAD_SAMPLING_PROFILER;
+ static constexpr auto ThreadType_MIN = ChromeThreadDescriptor_ThreadType_THREAD_UNSPECIFIED;
+ static constexpr auto ThreadType_MAX = ChromeThreadDescriptor_ThreadType_THREAD_SAMPLING_PROFILER;
+ enum FieldNumbers {
+ kThreadTypeFieldNumber = 1,
+ kLegacySortIndexFieldNumber = 2,
+ };
+
+ ChromeThreadDescriptor();
+ ~ChromeThreadDescriptor() override;
+ ChromeThreadDescriptor(ChromeThreadDescriptor&&) noexcept;
+ ChromeThreadDescriptor& operator=(ChromeThreadDescriptor&&);
+ ChromeThreadDescriptor(const ChromeThreadDescriptor&);
+ ChromeThreadDescriptor& operator=(const ChromeThreadDescriptor&);
+ bool operator==(const ChromeThreadDescriptor&) const;
+ bool operator!=(const ChromeThreadDescriptor& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_thread_type() const { return _has_field_[1]; }
+ ChromeThreadDescriptor_ThreadType thread_type() const { return thread_type_; }
+ void set_thread_type(ChromeThreadDescriptor_ThreadType value) { thread_type_ = value; _has_field_.set(1); }
+
+ bool has_legacy_sort_index() const { return _has_field_[2]; }
+ int32_t legacy_sort_index() const { return legacy_sort_index_; }
+ void set_legacy_sort_index(int32_t value) { legacy_sort_index_ = value; _has_field_.set(2); }
+
+ private:
+ ChromeThreadDescriptor_ThreadType thread_type_{};
+ int32_t legacy_sort_index_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<3> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_THREAD_DESCRIPTOR_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/trace/track_event/chrome_user_event.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_USER_EVENT_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_USER_EVENT_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class ChromeUserEvent;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+class PERFETTO_EXPORT_COMPONENT ChromeUserEvent : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kActionFieldNumber = 1,
+ kActionHashFieldNumber = 2,
+ };
+
+ ChromeUserEvent();
+ ~ChromeUserEvent() override;
+ ChromeUserEvent(ChromeUserEvent&&) noexcept;
+ ChromeUserEvent& operator=(ChromeUserEvent&&);
+ ChromeUserEvent(const ChromeUserEvent&);
+ ChromeUserEvent& operator=(const ChromeUserEvent&);
+ bool operator==(const ChromeUserEvent&) const;
+ bool operator!=(const ChromeUserEvent& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_action() const { return _has_field_[1]; }
+ const std::string& action() const { return action_; }
+ void set_action(const std::string& value) { action_ = value; _has_field_.set(1); }
+
+ bool has_action_hash() const { return _has_field_[2]; }
+ uint64_t action_hash() const { return action_hash_; }
+ void set_action_hash(uint64_t value) { action_hash_ = value; _has_field_.set(2); }
+
+ private:
+ std::string action_{};
+ uint64_t action_hash_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<3> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_USER_EVENT_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/trace/track_event/chrome_window_handle_event_info.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_WINDOW_HANDLE_EVENT_INFO_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_WINDOW_HANDLE_EVENT_INFO_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class ChromeWindowHandleEventInfo;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+class PERFETTO_EXPORT_COMPONENT ChromeWindowHandleEventInfo : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kDpiFieldNumber = 1,
+ kMessageIdFieldNumber = 2,
+ kHwndPtrFieldNumber = 3,
+ };
+
+ ChromeWindowHandleEventInfo();
+ ~ChromeWindowHandleEventInfo() override;
+ ChromeWindowHandleEventInfo(ChromeWindowHandleEventInfo&&) noexcept;
+ ChromeWindowHandleEventInfo& operator=(ChromeWindowHandleEventInfo&&);
+ ChromeWindowHandleEventInfo(const ChromeWindowHandleEventInfo&);
+ ChromeWindowHandleEventInfo& operator=(const ChromeWindowHandleEventInfo&);
+ bool operator==(const ChromeWindowHandleEventInfo&) const;
+ bool operator!=(const ChromeWindowHandleEventInfo& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_dpi() const { return _has_field_[1]; }
+ uint32_t dpi() const { return dpi_; }
+ void set_dpi(uint32_t value) { dpi_ = value; _has_field_.set(1); }
+
+ bool has_message_id() const { return _has_field_[2]; }
+ uint32_t message_id() const { return message_id_; }
+ void set_message_id(uint32_t value) { message_id_ = value; _has_field_.set(2); }
+
+ bool has_hwnd_ptr() const { return _has_field_[3]; }
+ uint64_t hwnd_ptr() const { return hwnd_ptr_; }
+ void set_hwnd_ptr(uint64_t value) { hwnd_ptr_ = value; _has_field_.set(3); }
+
+ private:
+ uint32_t dpi_{};
+ uint32_t message_id_{};
+ uint64_t hwnd_ptr_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<4> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_CHROME_WINDOW_HANDLE_EVENT_INFO_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/trace/track_event/debug_annotation.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_DEBUG_ANNOTATION_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_DEBUG_ANNOTATION_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class DebugAnnotationValueTypeName;
+class DebugAnnotationName;
+class DebugAnnotation;
+class DebugAnnotation_NestedValue;
+enum DebugAnnotation_NestedValue_NestedType : int;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+enum DebugAnnotation_NestedValue_NestedType : int {
+ DebugAnnotation_NestedValue_NestedType_UNSPECIFIED = 0,
+ DebugAnnotation_NestedValue_NestedType_DICT = 1,
+ DebugAnnotation_NestedValue_NestedType_ARRAY = 2,
+};
+
+class PERFETTO_EXPORT_COMPONENT DebugAnnotationValueTypeName : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kIidFieldNumber = 1,
+ kNameFieldNumber = 2,
+ };
+
+ DebugAnnotationValueTypeName();
+ ~DebugAnnotationValueTypeName() override;
+ DebugAnnotationValueTypeName(DebugAnnotationValueTypeName&&) noexcept;
+ DebugAnnotationValueTypeName& operator=(DebugAnnotationValueTypeName&&);
+ DebugAnnotationValueTypeName(const DebugAnnotationValueTypeName&);
+ DebugAnnotationValueTypeName& operator=(const DebugAnnotationValueTypeName&);
+ bool operator==(const DebugAnnotationValueTypeName&) const;
+ bool operator!=(const DebugAnnotationValueTypeName& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_iid() const { return _has_field_[1]; }
+ uint64_t iid() const { return iid_; }
+ void set_iid(uint64_t value) { iid_ = value; _has_field_.set(1); }
+
+ bool has_name() const { return _has_field_[2]; }
+ const std::string& name() const { return name_; }
+ void set_name(const std::string& value) { name_ = value; _has_field_.set(2); }
+
+ private:
+ uint64_t iid_{};
+ std::string name_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<3> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT DebugAnnotationName : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kIidFieldNumber = 1,
+ kNameFieldNumber = 2,
+ };
+
+ DebugAnnotationName();
+ ~DebugAnnotationName() override;
+ DebugAnnotationName(DebugAnnotationName&&) noexcept;
+ DebugAnnotationName& operator=(DebugAnnotationName&&);
+ DebugAnnotationName(const DebugAnnotationName&);
+ DebugAnnotationName& operator=(const DebugAnnotationName&);
+ bool operator==(const DebugAnnotationName&) const;
+ bool operator!=(const DebugAnnotationName& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_iid() const { return _has_field_[1]; }
+ uint64_t iid() const { return iid_; }
+ void set_iid(uint64_t value) { iid_ = value; _has_field_.set(1); }
+
+ bool has_name() const { return _has_field_[2]; }
+ const std::string& name() const { return name_; }
+ void set_name(const std::string& value) { name_ = value; _has_field_.set(2); }
+
+ private:
+ uint64_t iid_{};
+ std::string name_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<3> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT DebugAnnotation : public ::protozero::CppMessageObj {
+ public:
+ using NestedValue = DebugAnnotation_NestedValue;
+ enum FieldNumbers {
+ kNameIidFieldNumber = 1,
+ kNameFieldNumber = 10,
+ kBoolValueFieldNumber = 2,
+ kUintValueFieldNumber = 3,
+ kIntValueFieldNumber = 4,
+ kDoubleValueFieldNumber = 5,
+ kPointerValueFieldNumber = 7,
+ kNestedValueFieldNumber = 8,
+ kLegacyJsonValueFieldNumber = 9,
+ kStringValueFieldNumber = 6,
+ kStringValueIidFieldNumber = 17,
+ kProtoTypeNameFieldNumber = 16,
+ kProtoTypeNameIidFieldNumber = 13,
+ kProtoValueFieldNumber = 14,
+ kDictEntriesFieldNumber = 11,
+ kArrayValuesFieldNumber = 12,
+ };
+
+ DebugAnnotation();
+ ~DebugAnnotation() override;
+ DebugAnnotation(DebugAnnotation&&) noexcept;
+ DebugAnnotation& operator=(DebugAnnotation&&);
+ DebugAnnotation(const DebugAnnotation&);
+ DebugAnnotation& operator=(const DebugAnnotation&);
+ bool operator==(const DebugAnnotation&) const;
+ bool operator!=(const DebugAnnotation& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_name_iid() const { return _has_field_[1]; }
+ uint64_t name_iid() const { return name_iid_; }
+ void set_name_iid(uint64_t value) { name_iid_ = value; _has_field_.set(1); }
+
+ bool has_name() const { return _has_field_[10]; }
+ const std::string& name() const { return name_; }
+ void set_name(const std::string& value) { name_ = value; _has_field_.set(10); }
+
+ bool has_bool_value() const { return _has_field_[2]; }
+ bool bool_value() const { return bool_value_; }
+ void set_bool_value(bool value) { bool_value_ = value; _has_field_.set(2); }
+
+ bool has_uint_value() const { return _has_field_[3]; }
+ uint64_t uint_value() const { return uint_value_; }
+ void set_uint_value(uint64_t value) { uint_value_ = value; _has_field_.set(3); }
+
+ bool has_int_value() const { return _has_field_[4]; }
+ int64_t int_value() const { return int_value_; }
+ void set_int_value(int64_t value) { int_value_ = value; _has_field_.set(4); }
+
+ bool has_double_value() const { return _has_field_[5]; }
+ double double_value() const { return double_value_; }
+ void set_double_value(double value) { double_value_ = value; _has_field_.set(5); }
+
+ bool has_pointer_value() const { return _has_field_[7]; }
+ uint64_t pointer_value() const { return pointer_value_; }
+ void set_pointer_value(uint64_t value) { pointer_value_ = value; _has_field_.set(7); }
+
+ bool has_nested_value() const { return _has_field_[8]; }
+ const DebugAnnotation_NestedValue& nested_value() const { return *nested_value_; }
+ DebugAnnotation_NestedValue* mutable_nested_value() { _has_field_.set(8); return nested_value_.get(); }
+
+ bool has_legacy_json_value() const { return _has_field_[9]; }
+ const std::string& legacy_json_value() const { return legacy_json_value_; }
+ void set_legacy_json_value(const std::string& value) { legacy_json_value_ = value; _has_field_.set(9); }
+
+ bool has_string_value() const { return _has_field_[6]; }
+ const std::string& string_value() const { return string_value_; }
+ void set_string_value(const std::string& value) { string_value_ = value; _has_field_.set(6); }
+
+ bool has_string_value_iid() const { return _has_field_[17]; }
+ uint64_t string_value_iid() const { return string_value_iid_; }
+ void set_string_value_iid(uint64_t value) { string_value_iid_ = value; _has_field_.set(17); }
+
+ bool has_proto_type_name() const { return _has_field_[16]; }
+ const std::string& proto_type_name() const { return proto_type_name_; }
+ void set_proto_type_name(const std::string& value) { proto_type_name_ = value; _has_field_.set(16); }
+
+ bool has_proto_type_name_iid() const { return _has_field_[13]; }
+ uint64_t proto_type_name_iid() const { return proto_type_name_iid_; }
+ void set_proto_type_name_iid(uint64_t value) { proto_type_name_iid_ = value; _has_field_.set(13); }
+
+ bool has_proto_value() const { return _has_field_[14]; }
+ const std::string& proto_value() const { return proto_value_; }
+ void set_proto_value(const std::string& value) { proto_value_ = value; _has_field_.set(14); }
+ void set_proto_value(const void* p, size_t s) { proto_value_.assign(reinterpret_cast<const char*>(p), s); _has_field_.set(14); }
+
+ const std::vector<DebugAnnotation>& dict_entries() const { return dict_entries_; }
+ std::vector<DebugAnnotation>* mutable_dict_entries() { return &dict_entries_; }
+ int dict_entries_size() const;
+ void clear_dict_entries();
+ DebugAnnotation* add_dict_entries();
+
+ const std::vector<DebugAnnotation>& array_values() const { return array_values_; }
+ std::vector<DebugAnnotation>* mutable_array_values() { return &array_values_; }
+ int array_values_size() const;
+ void clear_array_values();
+ DebugAnnotation* add_array_values();
+
+ private:
+ uint64_t name_iid_{};
+ std::string name_{};
+ bool bool_value_{};
+ uint64_t uint_value_{};
+ int64_t int_value_{};
+ double double_value_{};
+ uint64_t pointer_value_{};
+ ::protozero::CopyablePtr<DebugAnnotation_NestedValue> nested_value_;
+ std::string legacy_json_value_{};
+ std::string string_value_{};
+ uint64_t string_value_iid_{};
+ std::string proto_type_name_{};
+ uint64_t proto_type_name_iid_{};
+ std::string proto_value_{};
+ std::vector<DebugAnnotation> dict_entries_;
+ std::vector<DebugAnnotation> array_values_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<18> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT DebugAnnotation_NestedValue : public ::protozero::CppMessageObj {
+ public:
+ using NestedType = DebugAnnotation_NestedValue_NestedType;
+ static constexpr auto UNSPECIFIED = DebugAnnotation_NestedValue_NestedType_UNSPECIFIED;
+ static constexpr auto DICT = DebugAnnotation_NestedValue_NestedType_DICT;
+ static constexpr auto ARRAY = DebugAnnotation_NestedValue_NestedType_ARRAY;
+ static constexpr auto NestedType_MIN = DebugAnnotation_NestedValue_NestedType_UNSPECIFIED;
+ static constexpr auto NestedType_MAX = DebugAnnotation_NestedValue_NestedType_ARRAY;
+ enum FieldNumbers {
+ kNestedTypeFieldNumber = 1,
+ kDictKeysFieldNumber = 2,
+ kDictValuesFieldNumber = 3,
+ kArrayValuesFieldNumber = 4,
+ kIntValueFieldNumber = 5,
+ kDoubleValueFieldNumber = 6,
+ kBoolValueFieldNumber = 7,
+ kStringValueFieldNumber = 8,
+ };
+
+ DebugAnnotation_NestedValue();
+ ~DebugAnnotation_NestedValue() override;
+ DebugAnnotation_NestedValue(DebugAnnotation_NestedValue&&) noexcept;
+ DebugAnnotation_NestedValue& operator=(DebugAnnotation_NestedValue&&);
+ DebugAnnotation_NestedValue(const DebugAnnotation_NestedValue&);
+ DebugAnnotation_NestedValue& operator=(const DebugAnnotation_NestedValue&);
+ bool operator==(const DebugAnnotation_NestedValue&) const;
+ bool operator!=(const DebugAnnotation_NestedValue& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_nested_type() const { return _has_field_[1]; }
+ DebugAnnotation_NestedValue_NestedType nested_type() const { return nested_type_; }
+ void set_nested_type(DebugAnnotation_NestedValue_NestedType value) { nested_type_ = value; _has_field_.set(1); }
+
+ const std::vector<std::string>& dict_keys() const { return dict_keys_; }
+ std::vector<std::string>* mutable_dict_keys() { return &dict_keys_; }
+ int dict_keys_size() const { return static_cast<int>(dict_keys_.size()); }
+ void clear_dict_keys() { dict_keys_.clear(); }
+ void add_dict_keys(std::string value) { dict_keys_.emplace_back(value); }
+ std::string* add_dict_keys() { dict_keys_.emplace_back(); return &dict_keys_.back(); }
+
+ const std::vector<DebugAnnotation_NestedValue>& dict_values() const { return dict_values_; }
+ std::vector<DebugAnnotation_NestedValue>* mutable_dict_values() { return &dict_values_; }
+ int dict_values_size() const;
+ void clear_dict_values();
+ DebugAnnotation_NestedValue* add_dict_values();
+
+ const std::vector<DebugAnnotation_NestedValue>& array_values() const { return array_values_; }
+ std::vector<DebugAnnotation_NestedValue>* mutable_array_values() { return &array_values_; }
+ int array_values_size() const;
+ void clear_array_values();
+ DebugAnnotation_NestedValue* add_array_values();
+
+ bool has_int_value() const { return _has_field_[5]; }
+ int64_t int_value() const { return int_value_; }
+ void set_int_value(int64_t value) { int_value_ = value; _has_field_.set(5); }
+
+ bool has_double_value() const { return _has_field_[6]; }
+ double double_value() const { return double_value_; }
+ void set_double_value(double value) { double_value_ = value; _has_field_.set(6); }
+
+ bool has_bool_value() const { return _has_field_[7]; }
+ bool bool_value() const { return bool_value_; }
+ void set_bool_value(bool value) { bool_value_ = value; _has_field_.set(7); }
+
+ bool has_string_value() const { return _has_field_[8]; }
+ const std::string& string_value() const { return string_value_; }
+ void set_string_value(const std::string& value) { string_value_ = value; _has_field_.set(8); }
+
+ private:
+ DebugAnnotation_NestedValue_NestedType nested_type_{};
+ std::vector<std::string> dict_keys_;
+ std::vector<DebugAnnotation_NestedValue> dict_values_;
+ std::vector<DebugAnnotation_NestedValue> array_values_;
+ int64_t int_value_{};
+ double double_value_{};
+ bool bool_value_{};
+ std::string string_value_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<9> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_DEBUG_ANNOTATION_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/trace/track_event/log_message.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_LOG_MESSAGE_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_LOG_MESSAGE_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class LogMessageBody;
+class LogMessage;
+enum LogMessage_Priority : int;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+enum LogMessage_Priority : int {
+ LogMessage_Priority_PRIO_UNSPECIFIED = 0,
+ LogMessage_Priority_PRIO_UNUSED = 1,
+ LogMessage_Priority_PRIO_VERBOSE = 2,
+ LogMessage_Priority_PRIO_DEBUG = 3,
+ LogMessage_Priority_PRIO_INFO = 4,
+ LogMessage_Priority_PRIO_WARN = 5,
+ LogMessage_Priority_PRIO_ERROR = 6,
+ LogMessage_Priority_PRIO_FATAL = 7,
+};
+
+class PERFETTO_EXPORT_COMPONENT LogMessageBody : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kIidFieldNumber = 1,
+ kBodyFieldNumber = 2,
+ };
+
+ LogMessageBody();
+ ~LogMessageBody() override;
+ LogMessageBody(LogMessageBody&&) noexcept;
+ LogMessageBody& operator=(LogMessageBody&&);
+ LogMessageBody(const LogMessageBody&);
+ LogMessageBody& operator=(const LogMessageBody&);
+ bool operator==(const LogMessageBody&) const;
+ bool operator!=(const LogMessageBody& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_iid() const { return _has_field_[1]; }
+ uint64_t iid() const { return iid_; }
+ void set_iid(uint64_t value) { iid_ = value; _has_field_.set(1); }
+
+ bool has_body() const { return _has_field_[2]; }
+ const std::string& body() const { return body_; }
+ void set_body(const std::string& value) { body_ = value; _has_field_.set(2); }
+
+ private:
+ uint64_t iid_{};
+ std::string body_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<3> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT LogMessage : public ::protozero::CppMessageObj {
+ public:
+ using Priority = LogMessage_Priority;
+ static constexpr auto PRIO_UNSPECIFIED = LogMessage_Priority_PRIO_UNSPECIFIED;
+ static constexpr auto PRIO_UNUSED = LogMessage_Priority_PRIO_UNUSED;
+ static constexpr auto PRIO_VERBOSE = LogMessage_Priority_PRIO_VERBOSE;
+ static constexpr auto PRIO_DEBUG = LogMessage_Priority_PRIO_DEBUG;
+ static constexpr auto PRIO_INFO = LogMessage_Priority_PRIO_INFO;
+ static constexpr auto PRIO_WARN = LogMessage_Priority_PRIO_WARN;
+ static constexpr auto PRIO_ERROR = LogMessage_Priority_PRIO_ERROR;
+ static constexpr auto PRIO_FATAL = LogMessage_Priority_PRIO_FATAL;
+ static constexpr auto Priority_MIN = LogMessage_Priority_PRIO_UNSPECIFIED;
+ static constexpr auto Priority_MAX = LogMessage_Priority_PRIO_FATAL;
+ enum FieldNumbers {
+ kSourceLocationIidFieldNumber = 1,
+ kBodyIidFieldNumber = 2,
+ kPrioFieldNumber = 3,
+ };
+
+ LogMessage();
+ ~LogMessage() override;
+ LogMessage(LogMessage&&) noexcept;
+ LogMessage& operator=(LogMessage&&);
+ LogMessage(const LogMessage&);
+ LogMessage& operator=(const LogMessage&);
+ bool operator==(const LogMessage&) const;
+ bool operator!=(const LogMessage& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_source_location_iid() const { return _has_field_[1]; }
+ uint64_t source_location_iid() const { return source_location_iid_; }
+ void set_source_location_iid(uint64_t value) { source_location_iid_ = value; _has_field_.set(1); }
+
+ bool has_body_iid() const { return _has_field_[2]; }
+ uint64_t body_iid() const { return body_iid_; }
+ void set_body_iid(uint64_t value) { body_iid_ = value; _has_field_.set(2); }
+
+ bool has_prio() const { return _has_field_[3]; }
+ LogMessage_Priority prio() const { return prio_; }
+ void set_prio(LogMessage_Priority value) { prio_ = value; _has_field_.set(3); }
+
+ private:
+ uint64_t source_location_iid_{};
+ uint64_t body_iid_{};
+ LogMessage_Priority prio_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<4> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_LOG_MESSAGE_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/trace/track_event/pixel_modem.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_PIXEL_MODEM_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_PIXEL_MODEM_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class PixelModemEventInsight;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+class PERFETTO_EXPORT_COMPONENT PixelModemEventInsight : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kDetokenizedMessageFieldNumber = 1,
+ };
+
+ PixelModemEventInsight();
+ ~PixelModemEventInsight() override;
+ PixelModemEventInsight(PixelModemEventInsight&&) noexcept;
+ PixelModemEventInsight& operator=(PixelModemEventInsight&&);
+ PixelModemEventInsight(const PixelModemEventInsight&);
+ PixelModemEventInsight& operator=(const PixelModemEventInsight&);
+ bool operator==(const PixelModemEventInsight&) const;
+ bool operator!=(const PixelModemEventInsight& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_detokenized_message() const { return _has_field_[1]; }
+ const std::string& detokenized_message() const { return detokenized_message_; }
+ void set_detokenized_message(const std::string& value) { detokenized_message_ = value; _has_field_.set(1); }
+
+ private:
+ std::string detokenized_message_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_PIXEL_MODEM_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/trace/track_event/process_descriptor.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_PROCESS_DESCRIPTOR_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_PROCESS_DESCRIPTOR_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class ProcessDescriptor;
+enum ProcessDescriptor_ChromeProcessType : int;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+enum ProcessDescriptor_ChromeProcessType : int {
+ ProcessDescriptor_ChromeProcessType_PROCESS_UNSPECIFIED = 0,
+ ProcessDescriptor_ChromeProcessType_PROCESS_BROWSER = 1,
+ ProcessDescriptor_ChromeProcessType_PROCESS_RENDERER = 2,
+ ProcessDescriptor_ChromeProcessType_PROCESS_UTILITY = 3,
+ ProcessDescriptor_ChromeProcessType_PROCESS_ZYGOTE = 4,
+ ProcessDescriptor_ChromeProcessType_PROCESS_SANDBOX_HELPER = 5,
+ ProcessDescriptor_ChromeProcessType_PROCESS_GPU = 6,
+ ProcessDescriptor_ChromeProcessType_PROCESS_PPAPI_PLUGIN = 7,
+ ProcessDescriptor_ChromeProcessType_PROCESS_PPAPI_BROKER = 8,
+};
+
+class PERFETTO_EXPORT_COMPONENT ProcessDescriptor : public ::protozero::CppMessageObj {
+ public:
+ using ChromeProcessType = ProcessDescriptor_ChromeProcessType;
+ static constexpr auto PROCESS_UNSPECIFIED = ProcessDescriptor_ChromeProcessType_PROCESS_UNSPECIFIED;
+ static constexpr auto PROCESS_BROWSER = ProcessDescriptor_ChromeProcessType_PROCESS_BROWSER;
+ static constexpr auto PROCESS_RENDERER = ProcessDescriptor_ChromeProcessType_PROCESS_RENDERER;
+ static constexpr auto PROCESS_UTILITY = ProcessDescriptor_ChromeProcessType_PROCESS_UTILITY;
+ static constexpr auto PROCESS_ZYGOTE = ProcessDescriptor_ChromeProcessType_PROCESS_ZYGOTE;
+ static constexpr auto PROCESS_SANDBOX_HELPER = ProcessDescriptor_ChromeProcessType_PROCESS_SANDBOX_HELPER;
+ static constexpr auto PROCESS_GPU = ProcessDescriptor_ChromeProcessType_PROCESS_GPU;
+ static constexpr auto PROCESS_PPAPI_PLUGIN = ProcessDescriptor_ChromeProcessType_PROCESS_PPAPI_PLUGIN;
+ static constexpr auto PROCESS_PPAPI_BROKER = ProcessDescriptor_ChromeProcessType_PROCESS_PPAPI_BROKER;
+ static constexpr auto ChromeProcessType_MIN = ProcessDescriptor_ChromeProcessType_PROCESS_UNSPECIFIED;
+ static constexpr auto ChromeProcessType_MAX = ProcessDescriptor_ChromeProcessType_PROCESS_PPAPI_BROKER;
+ enum FieldNumbers {
+ kPidFieldNumber = 1,
+ kCmdlineFieldNumber = 2,
+ kProcessNameFieldNumber = 6,
+ kProcessPriorityFieldNumber = 5,
+ kStartTimestampNsFieldNumber = 7,
+ kChromeProcessTypeFieldNumber = 4,
+ kLegacySortIndexFieldNumber = 3,
+ kProcessLabelsFieldNumber = 8,
+ };
+
+ ProcessDescriptor();
+ ~ProcessDescriptor() override;
+ ProcessDescriptor(ProcessDescriptor&&) noexcept;
+ ProcessDescriptor& operator=(ProcessDescriptor&&);
+ ProcessDescriptor(const ProcessDescriptor&);
+ ProcessDescriptor& operator=(const ProcessDescriptor&);
+ bool operator==(const ProcessDescriptor&) const;
+ bool operator!=(const ProcessDescriptor& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_pid() const { return _has_field_[1]; }
+ int32_t pid() const { return pid_; }
+ void set_pid(int32_t value) { pid_ = value; _has_field_.set(1); }
+
+ const std::vector<std::string>& cmdline() const { return cmdline_; }
+ std::vector<std::string>* mutable_cmdline() { return &cmdline_; }
+ int cmdline_size() const { return static_cast<int>(cmdline_.size()); }
+ void clear_cmdline() { cmdline_.clear(); }
+ void add_cmdline(std::string value) { cmdline_.emplace_back(value); }
+ std::string* add_cmdline() { cmdline_.emplace_back(); return &cmdline_.back(); }
+
+ bool has_process_name() const { return _has_field_[6]; }
+ const std::string& process_name() const { return process_name_; }
+ void set_process_name(const std::string& value) { process_name_ = value; _has_field_.set(6); }
+
+ bool has_process_priority() const { return _has_field_[5]; }
+ int32_t process_priority() const { return process_priority_; }
+ void set_process_priority(int32_t value) { process_priority_ = value; _has_field_.set(5); }
+
+ bool has_start_timestamp_ns() const { return _has_field_[7]; }
+ int64_t start_timestamp_ns() const { return start_timestamp_ns_; }
+ void set_start_timestamp_ns(int64_t value) { start_timestamp_ns_ = value; _has_field_.set(7); }
+
+ bool has_chrome_process_type() const { return _has_field_[4]; }
+ ProcessDescriptor_ChromeProcessType chrome_process_type() const { return chrome_process_type_; }
+ void set_chrome_process_type(ProcessDescriptor_ChromeProcessType value) { chrome_process_type_ = value; _has_field_.set(4); }
+
+ bool has_legacy_sort_index() const { return _has_field_[3]; }
+ int32_t legacy_sort_index() const { return legacy_sort_index_; }
+ void set_legacy_sort_index(int32_t value) { legacy_sort_index_ = value; _has_field_.set(3); }
+
+ const std::vector<std::string>& process_labels() const { return process_labels_; }
+ std::vector<std::string>* mutable_process_labels() { return &process_labels_; }
+ int process_labels_size() const { return static_cast<int>(process_labels_.size()); }
+ void clear_process_labels() { process_labels_.clear(); }
+ void add_process_labels(std::string value) { process_labels_.emplace_back(value); }
+ std::string* add_process_labels() { process_labels_.emplace_back(); return &process_labels_.back(); }
+
+ private:
+ int32_t pid_{};
+ std::vector<std::string> cmdline_;
+ std::string process_name_{};
+ int32_t process_priority_{};
+ int64_t start_timestamp_ns_{};
+ ProcessDescriptor_ChromeProcessType chrome_process_type_{};
+ int32_t legacy_sort_index_{};
+ std::vector<std::string> process_labels_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<9> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_PROCESS_DESCRIPTOR_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/trace/track_event/range_of_interest.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_RANGE_OF_INTEREST_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_RANGE_OF_INTEREST_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class TrackEventRangeOfInterest;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+class PERFETTO_EXPORT_COMPONENT TrackEventRangeOfInterest : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kStartUsFieldNumber = 1,
+ };
+
+ TrackEventRangeOfInterest();
+ ~TrackEventRangeOfInterest() override;
+ TrackEventRangeOfInterest(TrackEventRangeOfInterest&&) noexcept;
+ TrackEventRangeOfInterest& operator=(TrackEventRangeOfInterest&&);
+ TrackEventRangeOfInterest(const TrackEventRangeOfInterest&);
+ TrackEventRangeOfInterest& operator=(const TrackEventRangeOfInterest&);
+ bool operator==(const TrackEventRangeOfInterest&) const;
+ bool operator!=(const TrackEventRangeOfInterest& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_start_us() const { return _has_field_[1]; }
+ int64_t start_us() const { return start_us_; }
+ void set_start_us(int64_t value) { start_us_ = value; _has_field_.set(1); }
+
+ private:
+ int64_t start_us_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_RANGE_OF_INTEREST_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/trace/track_event/screenshot.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_SCREENSHOT_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_SCREENSHOT_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class Screenshot;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+class PERFETTO_EXPORT_COMPONENT Screenshot : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kJpgImageFieldNumber = 1,
+ };
+
+ Screenshot();
+ ~Screenshot() override;
+ Screenshot(Screenshot&&) noexcept;
+ Screenshot& operator=(Screenshot&&);
+ Screenshot(const Screenshot&);
+ Screenshot& operator=(const Screenshot&);
+ bool operator==(const Screenshot&) const;
+ bool operator!=(const Screenshot& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_jpg_image() const { return _has_field_[1]; }
+ const std::string& jpg_image() const { return jpg_image_; }
+ void set_jpg_image(const std::string& value) { jpg_image_ = value; _has_field_.set(1); }
+ void set_jpg_image(const void* p, size_t s) { jpg_image_.assign(reinterpret_cast<const char*>(p), s); _has_field_.set(1); }
+
+ private:
+ std::string jpg_image_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_SCREENSHOT_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/trace/track_event/source_location.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_SOURCE_LOCATION_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_SOURCE_LOCATION_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class SourceLocation;
+class UnsymbolizedSourceLocation;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+class PERFETTO_EXPORT_COMPONENT SourceLocation : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kIidFieldNumber = 1,
+ kFileNameFieldNumber = 2,
+ kFunctionNameFieldNumber = 3,
+ kLineNumberFieldNumber = 4,
+ };
+
+ SourceLocation();
+ ~SourceLocation() override;
+ SourceLocation(SourceLocation&&) noexcept;
+ SourceLocation& operator=(SourceLocation&&);
+ SourceLocation(const SourceLocation&);
+ SourceLocation& operator=(const SourceLocation&);
+ bool operator==(const SourceLocation&) const;
+ bool operator!=(const SourceLocation& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_iid() const { return _has_field_[1]; }
+ uint64_t iid() const { return iid_; }
+ void set_iid(uint64_t value) { iid_ = value; _has_field_.set(1); }
+
+ bool has_file_name() const { return _has_field_[2]; }
+ const std::string& file_name() const { return file_name_; }
+ void set_file_name(const std::string& value) { file_name_ = value; _has_field_.set(2); }
+
+ bool has_function_name() const { return _has_field_[3]; }
+ const std::string& function_name() const { return function_name_; }
+ void set_function_name(const std::string& value) { function_name_ = value; _has_field_.set(3); }
+
+ bool has_line_number() const { return _has_field_[4]; }
+ uint32_t line_number() const { return line_number_; }
+ void set_line_number(uint32_t value) { line_number_ = value; _has_field_.set(4); }
+
+ private:
+ uint64_t iid_{};
+ std::string file_name_{};
+ std::string function_name_{};
+ uint32_t line_number_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<5> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT UnsymbolizedSourceLocation : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kIidFieldNumber = 1,
+ kMappingIdFieldNumber = 2,
+ kRelPcFieldNumber = 3,
+ };
+
+ UnsymbolizedSourceLocation();
+ ~UnsymbolizedSourceLocation() override;
+ UnsymbolizedSourceLocation(UnsymbolizedSourceLocation&&) noexcept;
+ UnsymbolizedSourceLocation& operator=(UnsymbolizedSourceLocation&&);
+ UnsymbolizedSourceLocation(const UnsymbolizedSourceLocation&);
+ UnsymbolizedSourceLocation& operator=(const UnsymbolizedSourceLocation&);
+ bool operator==(const UnsymbolizedSourceLocation&) const;
+ bool operator!=(const UnsymbolizedSourceLocation& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_iid() const { return _has_field_[1]; }
+ uint64_t iid() const { return iid_; }
+ void set_iid(uint64_t value) { iid_ = value; _has_field_.set(1); }
+
+ bool has_mapping_id() const { return _has_field_[2]; }
+ uint64_t mapping_id() const { return mapping_id_; }
+ void set_mapping_id(uint64_t value) { mapping_id_ = value; _has_field_.set(2); }
+
+ bool has_rel_pc() const { return _has_field_[3]; }
+ uint64_t rel_pc() const { return rel_pc_; }
+ void set_rel_pc(uint64_t value) { rel_pc_ = value; _has_field_.set(3); }
+
+ private:
+ uint64_t iid_{};
+ uint64_t mapping_id_{};
+ uint64_t rel_pc_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<4> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_SOURCE_LOCATION_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/trace/track_event/task_execution.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_TASK_EXECUTION_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_TASK_EXECUTION_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class TaskExecution;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+class PERFETTO_EXPORT_COMPONENT TaskExecution : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kPostedFromIidFieldNumber = 1,
+ };
+
+ TaskExecution();
+ ~TaskExecution() override;
+ TaskExecution(TaskExecution&&) noexcept;
+ TaskExecution& operator=(TaskExecution&&);
+ TaskExecution(const TaskExecution&);
+ TaskExecution& operator=(const TaskExecution&);
+ bool operator==(const TaskExecution&) const;
+ bool operator!=(const TaskExecution& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_posted_from_iid() const { return _has_field_[1]; }
+ uint64_t posted_from_iid() const { return posted_from_iid_; }
+ void set_posted_from_iid(uint64_t value) { posted_from_iid_ = value; _has_field_.set(1); }
+
+ private:
+ uint64_t posted_from_iid_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_TASK_EXECUTION_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/trace/track_event/thread_descriptor.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_THREAD_DESCRIPTOR_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_THREAD_DESCRIPTOR_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class ThreadDescriptor;
+enum ThreadDescriptor_ChromeThreadType : int;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+enum ThreadDescriptor_ChromeThreadType : int {
+ ThreadDescriptor_ChromeThreadType_CHROME_THREAD_UNSPECIFIED = 0,
+ ThreadDescriptor_ChromeThreadType_CHROME_THREAD_MAIN = 1,
+ ThreadDescriptor_ChromeThreadType_CHROME_THREAD_IO = 2,
+ ThreadDescriptor_ChromeThreadType_CHROME_THREAD_POOL_BG_WORKER = 3,
+ ThreadDescriptor_ChromeThreadType_CHROME_THREAD_POOL_FG_WORKER = 4,
+ ThreadDescriptor_ChromeThreadType_CHROME_THREAD_POOL_FB_BLOCKING = 5,
+ ThreadDescriptor_ChromeThreadType_CHROME_THREAD_POOL_BG_BLOCKING = 6,
+ ThreadDescriptor_ChromeThreadType_CHROME_THREAD_POOL_SERVICE = 7,
+ ThreadDescriptor_ChromeThreadType_CHROME_THREAD_COMPOSITOR = 8,
+ ThreadDescriptor_ChromeThreadType_CHROME_THREAD_VIZ_COMPOSITOR = 9,
+ ThreadDescriptor_ChromeThreadType_CHROME_THREAD_COMPOSITOR_WORKER = 10,
+ ThreadDescriptor_ChromeThreadType_CHROME_THREAD_SERVICE_WORKER = 11,
+ ThreadDescriptor_ChromeThreadType_CHROME_THREAD_MEMORY_INFRA = 50,
+ ThreadDescriptor_ChromeThreadType_CHROME_THREAD_SAMPLING_PROFILER = 51,
+};
+
+class PERFETTO_EXPORT_COMPONENT ThreadDescriptor : public ::protozero::CppMessageObj {
+ public:
+ using ChromeThreadType = ThreadDescriptor_ChromeThreadType;
+ static constexpr auto CHROME_THREAD_UNSPECIFIED = ThreadDescriptor_ChromeThreadType_CHROME_THREAD_UNSPECIFIED;
+ static constexpr auto CHROME_THREAD_MAIN = ThreadDescriptor_ChromeThreadType_CHROME_THREAD_MAIN;
+ static constexpr auto CHROME_THREAD_IO = ThreadDescriptor_ChromeThreadType_CHROME_THREAD_IO;
+ static constexpr auto CHROME_THREAD_POOL_BG_WORKER = ThreadDescriptor_ChromeThreadType_CHROME_THREAD_POOL_BG_WORKER;
+ static constexpr auto CHROME_THREAD_POOL_FG_WORKER = ThreadDescriptor_ChromeThreadType_CHROME_THREAD_POOL_FG_WORKER;
+ static constexpr auto CHROME_THREAD_POOL_FB_BLOCKING = ThreadDescriptor_ChromeThreadType_CHROME_THREAD_POOL_FB_BLOCKING;
+ static constexpr auto CHROME_THREAD_POOL_BG_BLOCKING = ThreadDescriptor_ChromeThreadType_CHROME_THREAD_POOL_BG_BLOCKING;
+ static constexpr auto CHROME_THREAD_POOL_SERVICE = ThreadDescriptor_ChromeThreadType_CHROME_THREAD_POOL_SERVICE;
+ static constexpr auto CHROME_THREAD_COMPOSITOR = ThreadDescriptor_ChromeThreadType_CHROME_THREAD_COMPOSITOR;
+ static constexpr auto CHROME_THREAD_VIZ_COMPOSITOR = ThreadDescriptor_ChromeThreadType_CHROME_THREAD_VIZ_COMPOSITOR;
+ static constexpr auto CHROME_THREAD_COMPOSITOR_WORKER = ThreadDescriptor_ChromeThreadType_CHROME_THREAD_COMPOSITOR_WORKER;
+ static constexpr auto CHROME_THREAD_SERVICE_WORKER = ThreadDescriptor_ChromeThreadType_CHROME_THREAD_SERVICE_WORKER;
+ static constexpr auto CHROME_THREAD_MEMORY_INFRA = ThreadDescriptor_ChromeThreadType_CHROME_THREAD_MEMORY_INFRA;
+ static constexpr auto CHROME_THREAD_SAMPLING_PROFILER = ThreadDescriptor_ChromeThreadType_CHROME_THREAD_SAMPLING_PROFILER;
+ static constexpr auto ChromeThreadType_MIN = ThreadDescriptor_ChromeThreadType_CHROME_THREAD_UNSPECIFIED;
+ static constexpr auto ChromeThreadType_MAX = ThreadDescriptor_ChromeThreadType_CHROME_THREAD_SAMPLING_PROFILER;
+ enum FieldNumbers {
+ kPidFieldNumber = 1,
+ kTidFieldNumber = 2,
+ kThreadNameFieldNumber = 5,
+ kChromeThreadTypeFieldNumber = 4,
+ kReferenceTimestampUsFieldNumber = 6,
+ kReferenceThreadTimeUsFieldNumber = 7,
+ kReferenceThreadInstructionCountFieldNumber = 8,
+ kLegacySortIndexFieldNumber = 3,
+ };
+
+ ThreadDescriptor();
+ ~ThreadDescriptor() override;
+ ThreadDescriptor(ThreadDescriptor&&) noexcept;
+ ThreadDescriptor& operator=(ThreadDescriptor&&);
+ ThreadDescriptor(const ThreadDescriptor&);
+ ThreadDescriptor& operator=(const ThreadDescriptor&);
+ bool operator==(const ThreadDescriptor&) const;
+ bool operator!=(const ThreadDescriptor& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_pid() const { return _has_field_[1]; }
+ int32_t pid() const { return pid_; }
+ void set_pid(int32_t value) { pid_ = value; _has_field_.set(1); }
+
+ bool has_tid() const { return _has_field_[2]; }
+ int32_t tid() const { return tid_; }
+ void set_tid(int32_t value) { tid_ = value; _has_field_.set(2); }
+
+ bool has_thread_name() const { return _has_field_[5]; }
+ const std::string& thread_name() const { return thread_name_; }
+ void set_thread_name(const std::string& value) { thread_name_ = value; _has_field_.set(5); }
+
+ bool has_chrome_thread_type() const { return _has_field_[4]; }
+ ThreadDescriptor_ChromeThreadType chrome_thread_type() const { return chrome_thread_type_; }
+ void set_chrome_thread_type(ThreadDescriptor_ChromeThreadType value) { chrome_thread_type_ = value; _has_field_.set(4); }
+
+ bool has_reference_timestamp_us() const { return _has_field_[6]; }
+ int64_t reference_timestamp_us() const { return reference_timestamp_us_; }
+ void set_reference_timestamp_us(int64_t value) { reference_timestamp_us_ = value; _has_field_.set(6); }
+
+ bool has_reference_thread_time_us() const { return _has_field_[7]; }
+ int64_t reference_thread_time_us() const { return reference_thread_time_us_; }
+ void set_reference_thread_time_us(int64_t value) { reference_thread_time_us_ = value; _has_field_.set(7); }
+
+ bool has_reference_thread_instruction_count() const { return _has_field_[8]; }
+ int64_t reference_thread_instruction_count() const { return reference_thread_instruction_count_; }
+ void set_reference_thread_instruction_count(int64_t value) { reference_thread_instruction_count_ = value; _has_field_.set(8); }
+
+ bool has_legacy_sort_index() const { return _has_field_[3]; }
+ int32_t legacy_sort_index() const { return legacy_sort_index_; }
+ void set_legacy_sort_index(int32_t value) { legacy_sort_index_ = value; _has_field_.set(3); }
+
+ private:
+ int32_t pid_{};
+ int32_t tid_{};
+ std::string thread_name_{};
+ ThreadDescriptor_ChromeThreadType chrome_thread_type_{};
+ int64_t reference_timestamp_us_{};
+ int64_t reference_thread_time_us_{};
+ int64_t reference_thread_instruction_count_{};
+ int32_t legacy_sort_index_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<9> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_THREAD_DESCRIPTOR_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/trace/track_event/track_event.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_TRACK_EVENT_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_TRACK_EVENT_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class EventName;
+class EventCategory;
+class TrackEventDefaults;
+class TrackEvent;
+class TrackEvent_LegacyEvent;
+class ChromeMojoEventInfo;
+class ChromeMessagePump;
+class SourceLocation;
+class PixelModemEventInsight;
+class Screenshot;
+class ChromeActiveProcesses;
+class ChromeContentSettingsEventInfo;
+class ChromeWindowHandleEventInfo;
+class ChromeRendererSchedulerState;
+class ChromeApplicationStateInfo;
+class ChromeFrameReporter;
+class ChromeLatencyInfo;
+class ChromeLatencyInfo_ComponentInfo;
+class ChromeHistogramSample;
+class ChromeLegacyIpc;
+class ChromeKeyedService;
+class ChromeUserEvent;
+class ChromeCompositorSchedulerState;
+class CompositorTimingHistory;
+class BeginFrameSourceState;
+class BeginFrameArgs;
+class BeginFrameObserverState;
+class BeginImplFrameArgs;
+class BeginImplFrameArgs_TimestampsInUs;
+class ChromeCompositorStateMachine;
+class ChromeCompositorStateMachine_MinorState;
+class ChromeCompositorStateMachine_MajorState;
+class LogMessage;
+class TaskExecution;
+class DebugAnnotation;
+class DebugAnnotation_NestedValue;
+enum TrackEvent_Type : int;
+enum TrackEvent_LegacyEvent_FlowDirection : int;
+enum TrackEvent_LegacyEvent_InstantEventScope : int;
+enum ChromeRAILMode : int;
+enum ChromeApplicationStateInfo_ChromeApplicationState : int;
+enum ChromeFrameReporter_State : int;
+enum ChromeFrameReporter_FrameDropReason : int;
+enum ChromeFrameReporter_ScrollState : int;
+enum ChromeFrameReporter_FrameType : int;
+enum ChromeLatencyInfo_Step : int;
+enum ChromeLatencyInfo_LatencyComponentType : int;
+enum ChromeLegacyIpc_MessageClass : int;
+enum ChromeCompositorSchedulerState_BeginImplFrameDeadlineMode : int;
+enum ChromeCompositorSchedulerAction : int;
+enum BeginFrameArgs_BeginFrameArgsType : int;
+enum BeginImplFrameArgs_State : int;
+enum ChromeCompositorStateMachine_MinorState_TreePriority : int;
+enum ChromeCompositorStateMachine_MinorState_ScrollHandlerState : int;
+enum ChromeCompositorStateMachine_MajorState_BeginImplFrameState : int;
+enum ChromeCompositorStateMachine_MajorState_BeginMainFrameState : int;
+enum ChromeCompositorStateMachine_MajorState_LayerTreeFrameSinkState : int;
+enum ChromeCompositorStateMachine_MajorState_ForcedRedrawOnTimeoutState : int;
+enum LogMessage_Priority : int;
+enum DebugAnnotation_NestedValue_NestedType : int;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+enum TrackEvent_Type : int {
+ TrackEvent_Type_TYPE_UNSPECIFIED = 0,
+ TrackEvent_Type_TYPE_SLICE_BEGIN = 1,
+ TrackEvent_Type_TYPE_SLICE_END = 2,
+ TrackEvent_Type_TYPE_INSTANT = 3,
+ TrackEvent_Type_TYPE_COUNTER = 4,
+};
+enum TrackEvent_LegacyEvent_FlowDirection : int {
+ TrackEvent_LegacyEvent_FlowDirection_FLOW_UNSPECIFIED = 0,
+ TrackEvent_LegacyEvent_FlowDirection_FLOW_IN = 1,
+ TrackEvent_LegacyEvent_FlowDirection_FLOW_OUT = 2,
+ TrackEvent_LegacyEvent_FlowDirection_FLOW_INOUT = 3,
+};
+enum TrackEvent_LegacyEvent_InstantEventScope : int {
+ TrackEvent_LegacyEvent_InstantEventScope_SCOPE_UNSPECIFIED = 0,
+ TrackEvent_LegacyEvent_InstantEventScope_SCOPE_GLOBAL = 1,
+ TrackEvent_LegacyEvent_InstantEventScope_SCOPE_PROCESS = 2,
+ TrackEvent_LegacyEvent_InstantEventScope_SCOPE_THREAD = 3,
+};
+
+class PERFETTO_EXPORT_COMPONENT EventName : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kIidFieldNumber = 1,
+ kNameFieldNumber = 2,
+ };
+
+ EventName();
+ ~EventName() override;
+ EventName(EventName&&) noexcept;
+ EventName& operator=(EventName&&);
+ EventName(const EventName&);
+ EventName& operator=(const EventName&);
+ bool operator==(const EventName&) const;
+ bool operator!=(const EventName& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_iid() const { return _has_field_[1]; }
+ uint64_t iid() const { return iid_; }
+ void set_iid(uint64_t value) { iid_ = value; _has_field_.set(1); }
+
+ bool has_name() const { return _has_field_[2]; }
+ const std::string& name() const { return name_; }
+ void set_name(const std::string& value) { name_ = value; _has_field_.set(2); }
+
+ private:
+ uint64_t iid_{};
+ std::string name_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<3> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT EventCategory : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kIidFieldNumber = 1,
+ kNameFieldNumber = 2,
+ };
+
+ EventCategory();
+ ~EventCategory() override;
+ EventCategory(EventCategory&&) noexcept;
+ EventCategory& operator=(EventCategory&&);
+ EventCategory(const EventCategory&);
+ EventCategory& operator=(const EventCategory&);
+ bool operator==(const EventCategory&) const;
+ bool operator!=(const EventCategory& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_iid() const { return _has_field_[1]; }
+ uint64_t iid() const { return iid_; }
+ void set_iid(uint64_t value) { iid_ = value; _has_field_.set(1); }
+
+ bool has_name() const { return _has_field_[2]; }
+ const std::string& name() const { return name_; }
+ void set_name(const std::string& value) { name_ = value; _has_field_.set(2); }
+
+ private:
+ uint64_t iid_{};
+ std::string name_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<3> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT TrackEventDefaults : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kTrackUuidFieldNumber = 11,
+ kExtraCounterTrackUuidsFieldNumber = 31,
+ kExtraDoubleCounterTrackUuidsFieldNumber = 45,
+ };
+
+ TrackEventDefaults();
+ ~TrackEventDefaults() override;
+ TrackEventDefaults(TrackEventDefaults&&) noexcept;
+ TrackEventDefaults& operator=(TrackEventDefaults&&);
+ TrackEventDefaults(const TrackEventDefaults&);
+ TrackEventDefaults& operator=(const TrackEventDefaults&);
+ bool operator==(const TrackEventDefaults&) const;
+ bool operator!=(const TrackEventDefaults& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_track_uuid() const { return _has_field_[11]; }
+ uint64_t track_uuid() const { return track_uuid_; }
+ void set_track_uuid(uint64_t value) { track_uuid_ = value; _has_field_.set(11); }
+
+ const std::vector<uint64_t>& extra_counter_track_uuids() const { return extra_counter_track_uuids_; }
+ std::vector<uint64_t>* mutable_extra_counter_track_uuids() { return &extra_counter_track_uuids_; }
+ int extra_counter_track_uuids_size() const { return static_cast<int>(extra_counter_track_uuids_.size()); }
+ void clear_extra_counter_track_uuids() { extra_counter_track_uuids_.clear(); }
+ void add_extra_counter_track_uuids(uint64_t value) { extra_counter_track_uuids_.emplace_back(value); }
+ uint64_t* add_extra_counter_track_uuids() { extra_counter_track_uuids_.emplace_back(); return &extra_counter_track_uuids_.back(); }
+
+ const std::vector<uint64_t>& extra_double_counter_track_uuids() const { return extra_double_counter_track_uuids_; }
+ std::vector<uint64_t>* mutable_extra_double_counter_track_uuids() { return &extra_double_counter_track_uuids_; }
+ int extra_double_counter_track_uuids_size() const { return static_cast<int>(extra_double_counter_track_uuids_.size()); }
+ void clear_extra_double_counter_track_uuids() { extra_double_counter_track_uuids_.clear(); }
+ void add_extra_double_counter_track_uuids(uint64_t value) { extra_double_counter_track_uuids_.emplace_back(value); }
+ uint64_t* add_extra_double_counter_track_uuids() { extra_double_counter_track_uuids_.emplace_back(); return &extra_double_counter_track_uuids_.back(); }
+
+ private:
+ uint64_t track_uuid_{};
+ std::vector<uint64_t> extra_counter_track_uuids_;
+ std::vector<uint64_t> extra_double_counter_track_uuids_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<46> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT TrackEvent : public ::protozero::CppMessageObj {
+ public:
+ using LegacyEvent = TrackEvent_LegacyEvent;
+ using Type = TrackEvent_Type;
+ static constexpr auto TYPE_UNSPECIFIED = TrackEvent_Type_TYPE_UNSPECIFIED;
+ static constexpr auto TYPE_SLICE_BEGIN = TrackEvent_Type_TYPE_SLICE_BEGIN;
+ static constexpr auto TYPE_SLICE_END = TrackEvent_Type_TYPE_SLICE_END;
+ static constexpr auto TYPE_INSTANT = TrackEvent_Type_TYPE_INSTANT;
+ static constexpr auto TYPE_COUNTER = TrackEvent_Type_TYPE_COUNTER;
+ static constexpr auto Type_MIN = TrackEvent_Type_TYPE_UNSPECIFIED;
+ static constexpr auto Type_MAX = TrackEvent_Type_TYPE_COUNTER;
+ enum FieldNumbers {
+ kCategoryIidsFieldNumber = 3,
+ kCategoriesFieldNumber = 22,
+ kNameIidFieldNumber = 10,
+ kNameFieldNumber = 23,
+ kTypeFieldNumber = 9,
+ kTrackUuidFieldNumber = 11,
+ kCounterValueFieldNumber = 30,
+ kDoubleCounterValueFieldNumber = 44,
+ kExtraCounterTrackUuidsFieldNumber = 31,
+ kExtraCounterValuesFieldNumber = 12,
+ kExtraDoubleCounterTrackUuidsFieldNumber = 45,
+ kExtraDoubleCounterValuesFieldNumber = 46,
+ kFlowIdsOldFieldNumber = 36,
+ kFlowIdsFieldNumber = 47,
+ kTerminatingFlowIdsOldFieldNumber = 42,
+ kTerminatingFlowIdsFieldNumber = 48,
+ kDebugAnnotationsFieldNumber = 4,
+ kTaskExecutionFieldNumber = 5,
+ kLogMessageFieldNumber = 21,
+ kCcSchedulerStateFieldNumber = 24,
+ kChromeUserEventFieldNumber = 25,
+ kChromeKeyedServiceFieldNumber = 26,
+ kChromeLegacyIpcFieldNumber = 27,
+ kChromeHistogramSampleFieldNumber = 28,
+ kChromeLatencyInfoFieldNumber = 29,
+ kChromeFrameReporterFieldNumber = 32,
+ kChromeApplicationStateInfoFieldNumber = 39,
+ kChromeRendererSchedulerStateFieldNumber = 40,
+ kChromeWindowHandleEventInfoFieldNumber = 41,
+ kChromeContentSettingsEventInfoFieldNumber = 43,
+ kChromeActiveProcessesFieldNumber = 49,
+ kScreenshotFieldNumber = 50,
+ kPixelModemEventInsightFieldNumber = 51,
+ kSourceLocationFieldNumber = 33,
+ kSourceLocationIidFieldNumber = 34,
+ kChromeMessagePumpFieldNumber = 35,
+ kChromeMojoEventInfoFieldNumber = 38,
+ kTimestampDeltaUsFieldNumber = 1,
+ kTimestampAbsoluteUsFieldNumber = 16,
+ kThreadTimeDeltaUsFieldNumber = 2,
+ kThreadTimeAbsoluteUsFieldNumber = 17,
+ kThreadInstructionCountDeltaFieldNumber = 8,
+ kThreadInstructionCountAbsoluteFieldNumber = 20,
+ kLegacyEventFieldNumber = 6,
+ };
+
+ TrackEvent();
+ ~TrackEvent() override;
+ TrackEvent(TrackEvent&&) noexcept;
+ TrackEvent& operator=(TrackEvent&&);
+ TrackEvent(const TrackEvent&);
+ TrackEvent& operator=(const TrackEvent&);
+ bool operator==(const TrackEvent&) const;
+ bool operator!=(const TrackEvent& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ const std::vector<uint64_t>& category_iids() const { return category_iids_; }
+ std::vector<uint64_t>* mutable_category_iids() { return &category_iids_; }
+ int category_iids_size() const { return static_cast<int>(category_iids_.size()); }
+ void clear_category_iids() { category_iids_.clear(); }
+ void add_category_iids(uint64_t value) { category_iids_.emplace_back(value); }
+ uint64_t* add_category_iids() { category_iids_.emplace_back(); return &category_iids_.back(); }
+
+ const std::vector<std::string>& categories() const { return categories_; }
+ std::vector<std::string>* mutable_categories() { return &categories_; }
+ int categories_size() const { return static_cast<int>(categories_.size()); }
+ void clear_categories() { categories_.clear(); }
+ void add_categories(std::string value) { categories_.emplace_back(value); }
+ std::string* add_categories() { categories_.emplace_back(); return &categories_.back(); }
+
+ bool has_name_iid() const { return _has_field_[10]; }
+ uint64_t name_iid() const { return name_iid_; }
+ void set_name_iid(uint64_t value) { name_iid_ = value; _has_field_.set(10); }
+
+ bool has_name() const { return _has_field_[23]; }
+ const std::string& name() const { return name_; }
+ void set_name(const std::string& value) { name_ = value; _has_field_.set(23); }
+
+ bool has_type() const { return _has_field_[9]; }
+ TrackEvent_Type type() const { return type_; }
+ void set_type(TrackEvent_Type value) { type_ = value; _has_field_.set(9); }
+
+ bool has_track_uuid() const { return _has_field_[11]; }
+ uint64_t track_uuid() const { return track_uuid_; }
+ void set_track_uuid(uint64_t value) { track_uuid_ = value; _has_field_.set(11); }
+
+ bool has_counter_value() const { return _has_field_[30]; }
+ int64_t counter_value() const { return counter_value_; }
+ void set_counter_value(int64_t value) { counter_value_ = value; _has_field_.set(30); }
+
+ bool has_double_counter_value() const { return _has_field_[44]; }
+ double double_counter_value() const { return double_counter_value_; }
+ void set_double_counter_value(double value) { double_counter_value_ = value; _has_field_.set(44); }
+
+ const std::vector<uint64_t>& extra_counter_track_uuids() const { return extra_counter_track_uuids_; }
+ std::vector<uint64_t>* mutable_extra_counter_track_uuids() { return &extra_counter_track_uuids_; }
+ int extra_counter_track_uuids_size() const { return static_cast<int>(extra_counter_track_uuids_.size()); }
+ void clear_extra_counter_track_uuids() { extra_counter_track_uuids_.clear(); }
+ void add_extra_counter_track_uuids(uint64_t value) { extra_counter_track_uuids_.emplace_back(value); }
+ uint64_t* add_extra_counter_track_uuids() { extra_counter_track_uuids_.emplace_back(); return &extra_counter_track_uuids_.back(); }
+
+ const std::vector<int64_t>& extra_counter_values() const { return extra_counter_values_; }
+ std::vector<int64_t>* mutable_extra_counter_values() { return &extra_counter_values_; }
+ int extra_counter_values_size() const { return static_cast<int>(extra_counter_values_.size()); }
+ void clear_extra_counter_values() { extra_counter_values_.clear(); }
+ void add_extra_counter_values(int64_t value) { extra_counter_values_.emplace_back(value); }
+ int64_t* add_extra_counter_values() { extra_counter_values_.emplace_back(); return &extra_counter_values_.back(); }
+
+ const std::vector<uint64_t>& extra_double_counter_track_uuids() const { return extra_double_counter_track_uuids_; }
+ std::vector<uint64_t>* mutable_extra_double_counter_track_uuids() { return &extra_double_counter_track_uuids_; }
+ int extra_double_counter_track_uuids_size() const { return static_cast<int>(extra_double_counter_track_uuids_.size()); }
+ void clear_extra_double_counter_track_uuids() { extra_double_counter_track_uuids_.clear(); }
+ void add_extra_double_counter_track_uuids(uint64_t value) { extra_double_counter_track_uuids_.emplace_back(value); }
+ uint64_t* add_extra_double_counter_track_uuids() { extra_double_counter_track_uuids_.emplace_back(); return &extra_double_counter_track_uuids_.back(); }
+
+ const std::vector<double>& extra_double_counter_values() const { return extra_double_counter_values_; }
+ std::vector<double>* mutable_extra_double_counter_values() { return &extra_double_counter_values_; }
+ int extra_double_counter_values_size() const { return static_cast<int>(extra_double_counter_values_.size()); }
+ void clear_extra_double_counter_values() { extra_double_counter_values_.clear(); }
+ void add_extra_double_counter_values(double value) { extra_double_counter_values_.emplace_back(value); }
+ double* add_extra_double_counter_values() { extra_double_counter_values_.emplace_back(); return &extra_double_counter_values_.back(); }
+
+ const std::vector<uint64_t>& flow_ids_old() const { return flow_ids_old_; }
+ std::vector<uint64_t>* mutable_flow_ids_old() { return &flow_ids_old_; }
+ int flow_ids_old_size() const { return static_cast<int>(flow_ids_old_.size()); }
+ void clear_flow_ids_old() { flow_ids_old_.clear(); }
+ void add_flow_ids_old(uint64_t value) { flow_ids_old_.emplace_back(value); }
+ uint64_t* add_flow_ids_old() { flow_ids_old_.emplace_back(); return &flow_ids_old_.back(); }
+
+ const std::vector<uint64_t>& flow_ids() const { return flow_ids_; }
+ std::vector<uint64_t>* mutable_flow_ids() { return &flow_ids_; }
+ int flow_ids_size() const { return static_cast<int>(flow_ids_.size()); }
+ void clear_flow_ids() { flow_ids_.clear(); }
+ void add_flow_ids(uint64_t value) { flow_ids_.emplace_back(value); }
+ uint64_t* add_flow_ids() { flow_ids_.emplace_back(); return &flow_ids_.back(); }
+
+ const std::vector<uint64_t>& terminating_flow_ids_old() const { return terminating_flow_ids_old_; }
+ std::vector<uint64_t>* mutable_terminating_flow_ids_old() { return &terminating_flow_ids_old_; }
+ int terminating_flow_ids_old_size() const { return static_cast<int>(terminating_flow_ids_old_.size()); }
+ void clear_terminating_flow_ids_old() { terminating_flow_ids_old_.clear(); }
+ void add_terminating_flow_ids_old(uint64_t value) { terminating_flow_ids_old_.emplace_back(value); }
+ uint64_t* add_terminating_flow_ids_old() { terminating_flow_ids_old_.emplace_back(); return &terminating_flow_ids_old_.back(); }
+
+ const std::vector<uint64_t>& terminating_flow_ids() const { return terminating_flow_ids_; }
+ std::vector<uint64_t>* mutable_terminating_flow_ids() { return &terminating_flow_ids_; }
+ int terminating_flow_ids_size() const { return static_cast<int>(terminating_flow_ids_.size()); }
+ void clear_terminating_flow_ids() { terminating_flow_ids_.clear(); }
+ void add_terminating_flow_ids(uint64_t value) { terminating_flow_ids_.emplace_back(value); }
+ uint64_t* add_terminating_flow_ids() { terminating_flow_ids_.emplace_back(); return &terminating_flow_ids_.back(); }
+
+ const std::vector<DebugAnnotation>& debug_annotations() const { return debug_annotations_; }
+ std::vector<DebugAnnotation>* mutable_debug_annotations() { return &debug_annotations_; }
+ int debug_annotations_size() const;
+ void clear_debug_annotations();
+ DebugAnnotation* add_debug_annotations();
+
+ bool has_task_execution() const { return _has_field_[5]; }
+ const TaskExecution& task_execution() const { return *task_execution_; }
+ TaskExecution* mutable_task_execution() { _has_field_.set(5); return task_execution_.get(); }
+
+ bool has_log_message() const { return _has_field_[21]; }
+ const LogMessage& log_message() const { return *log_message_; }
+ LogMessage* mutable_log_message() { _has_field_.set(21); return log_message_.get(); }
+
+ bool has_cc_scheduler_state() const { return _has_field_[24]; }
+ const ChromeCompositorSchedulerState& cc_scheduler_state() const { return *cc_scheduler_state_; }
+ ChromeCompositorSchedulerState* mutable_cc_scheduler_state() { _has_field_.set(24); return cc_scheduler_state_.get(); }
+
+ bool has_chrome_user_event() const { return _has_field_[25]; }
+ const ChromeUserEvent& chrome_user_event() const { return *chrome_user_event_; }
+ ChromeUserEvent* mutable_chrome_user_event() { _has_field_.set(25); return chrome_user_event_.get(); }
+
+ bool has_chrome_keyed_service() const { return _has_field_[26]; }
+ const ChromeKeyedService& chrome_keyed_service() const { return *chrome_keyed_service_; }
+ ChromeKeyedService* mutable_chrome_keyed_service() { _has_field_.set(26); return chrome_keyed_service_.get(); }
+
+ bool has_chrome_legacy_ipc() const { return _has_field_[27]; }
+ const ChromeLegacyIpc& chrome_legacy_ipc() const { return *chrome_legacy_ipc_; }
+ ChromeLegacyIpc* mutable_chrome_legacy_ipc() { _has_field_.set(27); return chrome_legacy_ipc_.get(); }
+
+ bool has_chrome_histogram_sample() const { return _has_field_[28]; }
+ const ChromeHistogramSample& chrome_histogram_sample() const { return *chrome_histogram_sample_; }
+ ChromeHistogramSample* mutable_chrome_histogram_sample() { _has_field_.set(28); return chrome_histogram_sample_.get(); }
+
+ bool has_chrome_latency_info() const { return _has_field_[29]; }
+ const ChromeLatencyInfo& chrome_latency_info() const { return *chrome_latency_info_; }
+ ChromeLatencyInfo* mutable_chrome_latency_info() { _has_field_.set(29); return chrome_latency_info_.get(); }
+
+ bool has_chrome_frame_reporter() const { return _has_field_[32]; }
+ const ChromeFrameReporter& chrome_frame_reporter() const { return *chrome_frame_reporter_; }
+ ChromeFrameReporter* mutable_chrome_frame_reporter() { _has_field_.set(32); return chrome_frame_reporter_.get(); }
+
+ bool has_chrome_application_state_info() const { return _has_field_[39]; }
+ const ChromeApplicationStateInfo& chrome_application_state_info() const { return *chrome_application_state_info_; }
+ ChromeApplicationStateInfo* mutable_chrome_application_state_info() { _has_field_.set(39); return chrome_application_state_info_.get(); }
+
+ bool has_chrome_renderer_scheduler_state() const { return _has_field_[40]; }
+ const ChromeRendererSchedulerState& chrome_renderer_scheduler_state() const { return *chrome_renderer_scheduler_state_; }
+ ChromeRendererSchedulerState* mutable_chrome_renderer_scheduler_state() { _has_field_.set(40); return chrome_renderer_scheduler_state_.get(); }
+
+ bool has_chrome_window_handle_event_info() const { return _has_field_[41]; }
+ const ChromeWindowHandleEventInfo& chrome_window_handle_event_info() const { return *chrome_window_handle_event_info_; }
+ ChromeWindowHandleEventInfo* mutable_chrome_window_handle_event_info() { _has_field_.set(41); return chrome_window_handle_event_info_.get(); }
+
+ bool has_chrome_content_settings_event_info() const { return _has_field_[43]; }
+ const ChromeContentSettingsEventInfo& chrome_content_settings_event_info() const { return *chrome_content_settings_event_info_; }
+ ChromeContentSettingsEventInfo* mutable_chrome_content_settings_event_info() { _has_field_.set(43); return chrome_content_settings_event_info_.get(); }
+
+ bool has_chrome_active_processes() const { return _has_field_[49]; }
+ const ChromeActiveProcesses& chrome_active_processes() const { return *chrome_active_processes_; }
+ ChromeActiveProcesses* mutable_chrome_active_processes() { _has_field_.set(49); return chrome_active_processes_.get(); }
+
+ bool has_screenshot() const { return _has_field_[50]; }
+ const Screenshot& screenshot() const { return *screenshot_; }
+ Screenshot* mutable_screenshot() { _has_field_.set(50); return screenshot_.get(); }
+
+ bool has_pixel_modem_event_insight() const { return _has_field_[51]; }
+ const PixelModemEventInsight& pixel_modem_event_insight() const { return *pixel_modem_event_insight_; }
+ PixelModemEventInsight* mutable_pixel_modem_event_insight() { _has_field_.set(51); return pixel_modem_event_insight_.get(); }
+
+ bool has_source_location() const { return _has_field_[33]; }
+ const SourceLocation& source_location() const { return *source_location_; }
+ SourceLocation* mutable_source_location() { _has_field_.set(33); return source_location_.get(); }
+
+ bool has_source_location_iid() const { return _has_field_[34]; }
+ uint64_t source_location_iid() const { return source_location_iid_; }
+ void set_source_location_iid(uint64_t value) { source_location_iid_ = value; _has_field_.set(34); }
+
+ bool has_chrome_message_pump() const { return _has_field_[35]; }
+ const ChromeMessagePump& chrome_message_pump() const { return *chrome_message_pump_; }
+ ChromeMessagePump* mutable_chrome_message_pump() { _has_field_.set(35); return chrome_message_pump_.get(); }
+
+ bool has_chrome_mojo_event_info() const { return _has_field_[38]; }
+ const ChromeMojoEventInfo& chrome_mojo_event_info() const { return *chrome_mojo_event_info_; }
+ ChromeMojoEventInfo* mutable_chrome_mojo_event_info() { _has_field_.set(38); return chrome_mojo_event_info_.get(); }
+
+ bool has_timestamp_delta_us() const { return _has_field_[1]; }
+ int64_t timestamp_delta_us() const { return timestamp_delta_us_; }
+ void set_timestamp_delta_us(int64_t value) { timestamp_delta_us_ = value; _has_field_.set(1); }
+
+ bool has_timestamp_absolute_us() const { return _has_field_[16]; }
+ int64_t timestamp_absolute_us() const { return timestamp_absolute_us_; }
+ void set_timestamp_absolute_us(int64_t value) { timestamp_absolute_us_ = value; _has_field_.set(16); }
+
+ bool has_thread_time_delta_us() const { return _has_field_[2]; }
+ int64_t thread_time_delta_us() const { return thread_time_delta_us_; }
+ void set_thread_time_delta_us(int64_t value) { thread_time_delta_us_ = value; _has_field_.set(2); }
+
+ bool has_thread_time_absolute_us() const { return _has_field_[17]; }
+ int64_t thread_time_absolute_us() const { return thread_time_absolute_us_; }
+ void set_thread_time_absolute_us(int64_t value) { thread_time_absolute_us_ = value; _has_field_.set(17); }
+
+ bool has_thread_instruction_count_delta() const { return _has_field_[8]; }
+ int64_t thread_instruction_count_delta() const { return thread_instruction_count_delta_; }
+ void set_thread_instruction_count_delta(int64_t value) { thread_instruction_count_delta_ = value; _has_field_.set(8); }
+
+ bool has_thread_instruction_count_absolute() const { return _has_field_[20]; }
+ int64_t thread_instruction_count_absolute() const { return thread_instruction_count_absolute_; }
+ void set_thread_instruction_count_absolute(int64_t value) { thread_instruction_count_absolute_ = value; _has_field_.set(20); }
+
+ bool has_legacy_event() const { return _has_field_[6]; }
+ const TrackEvent_LegacyEvent& legacy_event() const { return *legacy_event_; }
+ TrackEvent_LegacyEvent* mutable_legacy_event() { _has_field_.set(6); return legacy_event_.get(); }
+
+ private:
+ std::vector<uint64_t> category_iids_;
+ std::vector<std::string> categories_;
+ uint64_t name_iid_{};
+ std::string name_{};
+ TrackEvent_Type type_{};
+ uint64_t track_uuid_{};
+ int64_t counter_value_{};
+ double double_counter_value_{};
+ std::vector<uint64_t> extra_counter_track_uuids_;
+ std::vector<int64_t> extra_counter_values_;
+ std::vector<uint64_t> extra_double_counter_track_uuids_;
+ std::vector<double> extra_double_counter_values_;
+ std::vector<uint64_t> flow_ids_old_;
+ std::vector<uint64_t> flow_ids_;
+ std::vector<uint64_t> terminating_flow_ids_old_;
+ std::vector<uint64_t> terminating_flow_ids_;
+ std::vector<DebugAnnotation> debug_annotations_;
+ ::protozero::CopyablePtr<TaskExecution> task_execution_;
+ ::protozero::CopyablePtr<LogMessage> log_message_;
+ ::protozero::CopyablePtr<ChromeCompositorSchedulerState> cc_scheduler_state_;
+ ::protozero::CopyablePtr<ChromeUserEvent> chrome_user_event_;
+ ::protozero::CopyablePtr<ChromeKeyedService> chrome_keyed_service_;
+ ::protozero::CopyablePtr<ChromeLegacyIpc> chrome_legacy_ipc_;
+ ::protozero::CopyablePtr<ChromeHistogramSample> chrome_histogram_sample_;
+ ::protozero::CopyablePtr<ChromeLatencyInfo> chrome_latency_info_;
+ ::protozero::CopyablePtr<ChromeFrameReporter> chrome_frame_reporter_;
+ ::protozero::CopyablePtr<ChromeApplicationStateInfo> chrome_application_state_info_;
+ ::protozero::CopyablePtr<ChromeRendererSchedulerState> chrome_renderer_scheduler_state_;
+ ::protozero::CopyablePtr<ChromeWindowHandleEventInfo> chrome_window_handle_event_info_;
+ ::protozero::CopyablePtr<ChromeContentSettingsEventInfo> chrome_content_settings_event_info_;
+ ::protozero::CopyablePtr<ChromeActiveProcesses> chrome_active_processes_;
+ ::protozero::CopyablePtr<Screenshot> screenshot_;
+ ::protozero::CopyablePtr<PixelModemEventInsight> pixel_modem_event_insight_;
+ ::protozero::CopyablePtr<SourceLocation> source_location_;
+ uint64_t source_location_iid_{};
+ ::protozero::CopyablePtr<ChromeMessagePump> chrome_message_pump_;
+ ::protozero::CopyablePtr<ChromeMojoEventInfo> chrome_mojo_event_info_;
+ int64_t timestamp_delta_us_{};
+ int64_t timestamp_absolute_us_{};
+ int64_t thread_time_delta_us_{};
+ int64_t thread_time_absolute_us_{};
+ int64_t thread_instruction_count_delta_{};
+ int64_t thread_instruction_count_absolute_{};
+ ::protozero::CopyablePtr<TrackEvent_LegacyEvent> legacy_event_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<52> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT TrackEvent_LegacyEvent : public ::protozero::CppMessageObj {
+ public:
+ using FlowDirection = TrackEvent_LegacyEvent_FlowDirection;
+ static constexpr auto FLOW_UNSPECIFIED = TrackEvent_LegacyEvent_FlowDirection_FLOW_UNSPECIFIED;
+ static constexpr auto FLOW_IN = TrackEvent_LegacyEvent_FlowDirection_FLOW_IN;
+ static constexpr auto FLOW_OUT = TrackEvent_LegacyEvent_FlowDirection_FLOW_OUT;
+ static constexpr auto FLOW_INOUT = TrackEvent_LegacyEvent_FlowDirection_FLOW_INOUT;
+ static constexpr auto FlowDirection_MIN = TrackEvent_LegacyEvent_FlowDirection_FLOW_UNSPECIFIED;
+ static constexpr auto FlowDirection_MAX = TrackEvent_LegacyEvent_FlowDirection_FLOW_INOUT;
+ using InstantEventScope = TrackEvent_LegacyEvent_InstantEventScope;
+ static constexpr auto SCOPE_UNSPECIFIED = TrackEvent_LegacyEvent_InstantEventScope_SCOPE_UNSPECIFIED;
+ static constexpr auto SCOPE_GLOBAL = TrackEvent_LegacyEvent_InstantEventScope_SCOPE_GLOBAL;
+ static constexpr auto SCOPE_PROCESS = TrackEvent_LegacyEvent_InstantEventScope_SCOPE_PROCESS;
+ static constexpr auto SCOPE_THREAD = TrackEvent_LegacyEvent_InstantEventScope_SCOPE_THREAD;
+ static constexpr auto InstantEventScope_MIN = TrackEvent_LegacyEvent_InstantEventScope_SCOPE_UNSPECIFIED;
+ static constexpr auto InstantEventScope_MAX = TrackEvent_LegacyEvent_InstantEventScope_SCOPE_THREAD;
+ enum FieldNumbers {
+ kNameIidFieldNumber = 1,
+ kPhaseFieldNumber = 2,
+ kDurationUsFieldNumber = 3,
+ kThreadDurationUsFieldNumber = 4,
+ kThreadInstructionDeltaFieldNumber = 15,
+ kUnscopedIdFieldNumber = 6,
+ kLocalIdFieldNumber = 10,
+ kGlobalIdFieldNumber = 11,
+ kIdScopeFieldNumber = 7,
+ kUseAsyncTtsFieldNumber = 9,
+ kBindIdFieldNumber = 8,
+ kBindToEnclosingFieldNumber = 12,
+ kFlowDirectionFieldNumber = 13,
+ kInstantEventScopeFieldNumber = 14,
+ kPidOverrideFieldNumber = 18,
+ kTidOverrideFieldNumber = 19,
+ };
+
+ TrackEvent_LegacyEvent();
+ ~TrackEvent_LegacyEvent() override;
+ TrackEvent_LegacyEvent(TrackEvent_LegacyEvent&&) noexcept;
+ TrackEvent_LegacyEvent& operator=(TrackEvent_LegacyEvent&&);
+ TrackEvent_LegacyEvent(const TrackEvent_LegacyEvent&);
+ TrackEvent_LegacyEvent& operator=(const TrackEvent_LegacyEvent&);
+ bool operator==(const TrackEvent_LegacyEvent&) const;
+ bool operator!=(const TrackEvent_LegacyEvent& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_name_iid() const { return _has_field_[1]; }
+ uint64_t name_iid() const { return name_iid_; }
+ void set_name_iid(uint64_t value) { name_iid_ = value; _has_field_.set(1); }
+
+ bool has_phase() const { return _has_field_[2]; }
+ int32_t phase() const { return phase_; }
+ void set_phase(int32_t value) { phase_ = value; _has_field_.set(2); }
+
+ bool has_duration_us() const { return _has_field_[3]; }
+ int64_t duration_us() const { return duration_us_; }
+ void set_duration_us(int64_t value) { duration_us_ = value; _has_field_.set(3); }
+
+ bool has_thread_duration_us() const { return _has_field_[4]; }
+ int64_t thread_duration_us() const { return thread_duration_us_; }
+ void set_thread_duration_us(int64_t value) { thread_duration_us_ = value; _has_field_.set(4); }
+
+ bool has_thread_instruction_delta() const { return _has_field_[15]; }
+ int64_t thread_instruction_delta() const { return thread_instruction_delta_; }
+ void set_thread_instruction_delta(int64_t value) { thread_instruction_delta_ = value; _has_field_.set(15); }
+
+ bool has_unscoped_id() const { return _has_field_[6]; }
+ uint64_t unscoped_id() const { return unscoped_id_; }
+ void set_unscoped_id(uint64_t value) { unscoped_id_ = value; _has_field_.set(6); }
+
+ bool has_local_id() const { return _has_field_[10]; }
+ uint64_t local_id() const { return local_id_; }
+ void set_local_id(uint64_t value) { local_id_ = value; _has_field_.set(10); }
+
+ bool has_global_id() const { return _has_field_[11]; }
+ uint64_t global_id() const { return global_id_; }
+ void set_global_id(uint64_t value) { global_id_ = value; _has_field_.set(11); }
+
+ bool has_id_scope() const { return _has_field_[7]; }
+ const std::string& id_scope() const { return id_scope_; }
+ void set_id_scope(const std::string& value) { id_scope_ = value; _has_field_.set(7); }
+
+ bool has_use_async_tts() const { return _has_field_[9]; }
+ bool use_async_tts() const { return use_async_tts_; }
+ void set_use_async_tts(bool value) { use_async_tts_ = value; _has_field_.set(9); }
+
+ bool has_bind_id() const { return _has_field_[8]; }
+ uint64_t bind_id() const { return bind_id_; }
+ void set_bind_id(uint64_t value) { bind_id_ = value; _has_field_.set(8); }
+
+ bool has_bind_to_enclosing() const { return _has_field_[12]; }
+ bool bind_to_enclosing() const { return bind_to_enclosing_; }
+ void set_bind_to_enclosing(bool value) { bind_to_enclosing_ = value; _has_field_.set(12); }
+
+ bool has_flow_direction() const { return _has_field_[13]; }
+ TrackEvent_LegacyEvent_FlowDirection flow_direction() const { return flow_direction_; }
+ void set_flow_direction(TrackEvent_LegacyEvent_FlowDirection value) { flow_direction_ = value; _has_field_.set(13); }
+
+ bool has_instant_event_scope() const { return _has_field_[14]; }
+ TrackEvent_LegacyEvent_InstantEventScope instant_event_scope() const { return instant_event_scope_; }
+ void set_instant_event_scope(TrackEvent_LegacyEvent_InstantEventScope value) { instant_event_scope_ = value; _has_field_.set(14); }
+
+ bool has_pid_override() const { return _has_field_[18]; }
+ int32_t pid_override() const { return pid_override_; }
+ void set_pid_override(int32_t value) { pid_override_ = value; _has_field_.set(18); }
+
+ bool has_tid_override() const { return _has_field_[19]; }
+ int32_t tid_override() const { return tid_override_; }
+ void set_tid_override(int32_t value) { tid_override_ = value; _has_field_.set(19); }
+
+ private:
+ uint64_t name_iid_{};
+ int32_t phase_{};
+ int64_t duration_us_{};
+ int64_t thread_duration_us_{};
+ int64_t thread_instruction_delta_{};
+ uint64_t unscoped_id_{};
+ uint64_t local_id_{};
+ uint64_t global_id_{};
+ std::string id_scope_{};
+ bool use_async_tts_{};
+ uint64_t bind_id_{};
+ bool bind_to_enclosing_{};
+ TrackEvent_LegacyEvent_FlowDirection flow_direction_{};
+ TrackEvent_LegacyEvent_InstantEventScope instant_event_scope_{};
+ int32_t pid_override_{};
+ int32_t tid_override_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<20> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_TRACE_TRACK_EVENT_TRACK_EVENT_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/ipc/consumer_port.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_IPC_CONSUMER_PORT_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_IPC_CONSUMER_PORT_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class CloneSessionResponse;
+class CloneSessionRequest;
+class SaveTraceForBugreportResponse;
+class SaveTraceForBugreportRequest;
+class QueryCapabilitiesResponse;
+class TracingServiceCapabilities;
+class QueryCapabilitiesRequest;
+class QueryServiceStateResponse;
+class TracingServiceState;
+class TracingServiceState_TracingSession;
+class TracingServiceState_DataSource;
+class DataSourceDescriptor;
+class TracingServiceState_Producer;
+class QueryServiceStateRequest;
+class ObserveEventsResponse;
+class ObservableEvents;
+class ObservableEvents_CloneTriggerHit;
+class ObservableEvents_DataSourceInstanceStateChange;
+class ObserveEventsRequest;
+class GetTraceStatsResponse;
+class TraceStats;
+class TraceStats_FilterStats;
+class TraceStats_WriterStats;
+class TraceStats_BufferStats;
+class GetTraceStatsRequest;
+class AttachResponse;
+class TraceConfig;
+class TraceConfig_CmdTraceStartDelay;
+class TraceConfig_AndroidReportConfig;
+class TraceConfig_TraceFilter;
+class TraceConfig_TraceFilter_StringFilterChain;
+class TraceConfig_TraceFilter_StringFilterRule;
+class TraceConfig_IncidentReportConfig;
+class TraceConfig_IncrementalStateConfig;
+class TraceConfig_TriggerConfig;
+class TraceConfig_TriggerConfig_Trigger;
+class TraceConfig_GuardrailOverrides;
+class TraceConfig_StatsdMetadata;
+class TraceConfig_ProducerConfig;
+class TraceConfig_BuiltinDataSource;
+class TraceConfig_DataSource;
+class DataSourceConfig;
+class TestConfig;
+class TestConfig_DummyFields;
+class InterceptorConfig;
+class ConsoleConfig;
+class ChromeConfig;
+class SystemInfoConfig;
+class TraceConfig_BufferConfig;
+class AttachRequest;
+class DetachResponse;
+class DetachRequest;
+class FlushResponse;
+class FlushRequest;
+class FreeBuffersResponse;
+class FreeBuffersRequest;
+class ReadBuffersResponse;
+class ReadBuffersResponse_Slice;
+class ReadBuffersRequest;
+class DisableTracingResponse;
+class DisableTracingRequest;
+class ChangeTraceConfigResponse;
+class ChangeTraceConfigRequest;
+class StartTracingResponse;
+class StartTracingRequest;
+class EnableTracingResponse;
+class EnableTracingRequest;
+enum ObservableEvents_Type : int;
+enum ObservableEvents_DataSourceInstanceState : int;
+enum TraceStats_FinalFlushOutcome : int;
+enum TraceConfig_LockdownModeOperation : int;
+enum TraceConfig_CompressionType : int;
+enum TraceConfig_StatsdLogging : int;
+enum TraceConfig_TraceFilter_StringFilterPolicy : int;
+enum TraceConfig_TriggerConfig_TriggerMode : int;
+enum BuiltinClock : int;
+enum DataSourceConfig_SessionInitiator : int;
+enum ConsoleConfig_Output : int;
+enum ChromeConfig_ClientPriority : int;
+enum TraceConfig_BufferConfig_FillPolicy : int;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+class PERFETTO_EXPORT_COMPONENT CloneSessionResponse : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kSuccessFieldNumber = 1,
+ kErrorFieldNumber = 2,
+ kUuidMsbFieldNumber = 3,
+ kUuidLsbFieldNumber = 4,
+ };
+
+ CloneSessionResponse();
+ ~CloneSessionResponse() override;
+ CloneSessionResponse(CloneSessionResponse&&) noexcept;
+ CloneSessionResponse& operator=(CloneSessionResponse&&);
+ CloneSessionResponse(const CloneSessionResponse&);
+ CloneSessionResponse& operator=(const CloneSessionResponse&);
+ bool operator==(const CloneSessionResponse&) const;
+ bool operator!=(const CloneSessionResponse& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_success() const { return _has_field_[1]; }
+ bool success() const { return success_; }
+ void set_success(bool value) { success_ = value; _has_field_.set(1); }
+
+ bool has_error() const { return _has_field_[2]; }
+ const std::string& error() const { return error_; }
+ void set_error(const std::string& value) { error_ = value; _has_field_.set(2); }
+
+ bool has_uuid_msb() const { return _has_field_[3]; }
+ int64_t uuid_msb() const { return uuid_msb_; }
+ void set_uuid_msb(int64_t value) { uuid_msb_ = value; _has_field_.set(3); }
+
+ bool has_uuid_lsb() const { return _has_field_[4]; }
+ int64_t uuid_lsb() const { return uuid_lsb_; }
+ void set_uuid_lsb(int64_t value) { uuid_lsb_ = value; _has_field_.set(4); }
+
+ private:
+ bool success_{};
+ std::string error_{};
+ int64_t uuid_msb_{};
+ int64_t uuid_lsb_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<5> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT CloneSessionRequest : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kSessionIdFieldNumber = 1,
+ kSkipTraceFilterFieldNumber = 2,
+ kForBugreportFieldNumber = 3,
+ };
+
+ CloneSessionRequest();
+ ~CloneSessionRequest() override;
+ CloneSessionRequest(CloneSessionRequest&&) noexcept;
+ CloneSessionRequest& operator=(CloneSessionRequest&&);
+ CloneSessionRequest(const CloneSessionRequest&);
+ CloneSessionRequest& operator=(const CloneSessionRequest&);
+ bool operator==(const CloneSessionRequest&) const;
+ bool operator!=(const CloneSessionRequest& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_session_id() const { return _has_field_[1]; }
+ uint64_t session_id() const { return session_id_; }
+ void set_session_id(uint64_t value) { session_id_ = value; _has_field_.set(1); }
+
+ bool has_skip_trace_filter() const { return _has_field_[2]; }
+ bool skip_trace_filter() const { return skip_trace_filter_; }
+ void set_skip_trace_filter(bool value) { skip_trace_filter_ = value; _has_field_.set(2); }
+
+ bool has_for_bugreport() const { return _has_field_[3]; }
+ bool for_bugreport() const { return for_bugreport_; }
+ void set_for_bugreport(bool value) { for_bugreport_ = value; _has_field_.set(3); }
+
+ private:
+ uint64_t session_id_{};
+ bool skip_trace_filter_{};
+ bool for_bugreport_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<4> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT SaveTraceForBugreportResponse : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kSuccessFieldNumber = 1,
+ kMsgFieldNumber = 2,
+ };
+
+ SaveTraceForBugreportResponse();
+ ~SaveTraceForBugreportResponse() override;
+ SaveTraceForBugreportResponse(SaveTraceForBugreportResponse&&) noexcept;
+ SaveTraceForBugreportResponse& operator=(SaveTraceForBugreportResponse&&);
+ SaveTraceForBugreportResponse(const SaveTraceForBugreportResponse&);
+ SaveTraceForBugreportResponse& operator=(const SaveTraceForBugreportResponse&);
+ bool operator==(const SaveTraceForBugreportResponse&) const;
+ bool operator!=(const SaveTraceForBugreportResponse& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_success() const { return _has_field_[1]; }
+ bool success() const { return success_; }
+ void set_success(bool value) { success_ = value; _has_field_.set(1); }
+
+ bool has_msg() const { return _has_field_[2]; }
+ const std::string& msg() const { return msg_; }
+ void set_msg(const std::string& value) { msg_ = value; _has_field_.set(2); }
+
+ private:
+ bool success_{};
+ std::string msg_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<3> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT SaveTraceForBugreportRequest : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ };
+
+ SaveTraceForBugreportRequest();
+ ~SaveTraceForBugreportRequest() override;
+ SaveTraceForBugreportRequest(SaveTraceForBugreportRequest&&) noexcept;
+ SaveTraceForBugreportRequest& operator=(SaveTraceForBugreportRequest&&);
+ SaveTraceForBugreportRequest(const SaveTraceForBugreportRequest&);
+ SaveTraceForBugreportRequest& operator=(const SaveTraceForBugreportRequest&);
+ bool operator==(const SaveTraceForBugreportRequest&) const;
+ bool operator!=(const SaveTraceForBugreportRequest& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ private:
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT QueryCapabilitiesResponse : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kCapabilitiesFieldNumber = 1,
+ };
+
+ QueryCapabilitiesResponse();
+ ~QueryCapabilitiesResponse() override;
+ QueryCapabilitiesResponse(QueryCapabilitiesResponse&&) noexcept;
+ QueryCapabilitiesResponse& operator=(QueryCapabilitiesResponse&&);
+ QueryCapabilitiesResponse(const QueryCapabilitiesResponse&);
+ QueryCapabilitiesResponse& operator=(const QueryCapabilitiesResponse&);
+ bool operator==(const QueryCapabilitiesResponse&) const;
+ bool operator!=(const QueryCapabilitiesResponse& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_capabilities() const { return _has_field_[1]; }
+ const TracingServiceCapabilities& capabilities() const { return *capabilities_; }
+ TracingServiceCapabilities* mutable_capabilities() { _has_field_.set(1); return capabilities_.get(); }
+
+ private:
+ ::protozero::CopyablePtr<TracingServiceCapabilities> capabilities_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT QueryCapabilitiesRequest : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ };
+
+ QueryCapabilitiesRequest();
+ ~QueryCapabilitiesRequest() override;
+ QueryCapabilitiesRequest(QueryCapabilitiesRequest&&) noexcept;
+ QueryCapabilitiesRequest& operator=(QueryCapabilitiesRequest&&);
+ QueryCapabilitiesRequest(const QueryCapabilitiesRequest&);
+ QueryCapabilitiesRequest& operator=(const QueryCapabilitiesRequest&);
+ bool operator==(const QueryCapabilitiesRequest&) const;
+ bool operator!=(const QueryCapabilitiesRequest& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ private:
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT QueryServiceStateResponse : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kServiceStateFieldNumber = 1,
+ };
+
+ QueryServiceStateResponse();
+ ~QueryServiceStateResponse() override;
+ QueryServiceStateResponse(QueryServiceStateResponse&&) noexcept;
+ QueryServiceStateResponse& operator=(QueryServiceStateResponse&&);
+ QueryServiceStateResponse(const QueryServiceStateResponse&);
+ QueryServiceStateResponse& operator=(const QueryServiceStateResponse&);
+ bool operator==(const QueryServiceStateResponse&) const;
+ bool operator!=(const QueryServiceStateResponse& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_service_state() const { return _has_field_[1]; }
+ const TracingServiceState& service_state() const { return *service_state_; }
+ TracingServiceState* mutable_service_state() { _has_field_.set(1); return service_state_.get(); }
+
+ private:
+ ::protozero::CopyablePtr<TracingServiceState> service_state_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT QueryServiceStateRequest : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kSessionsOnlyFieldNumber = 1,
+ };
+
+ QueryServiceStateRequest();
+ ~QueryServiceStateRequest() override;
+ QueryServiceStateRequest(QueryServiceStateRequest&&) noexcept;
+ QueryServiceStateRequest& operator=(QueryServiceStateRequest&&);
+ QueryServiceStateRequest(const QueryServiceStateRequest&);
+ QueryServiceStateRequest& operator=(const QueryServiceStateRequest&);
+ bool operator==(const QueryServiceStateRequest&) const;
+ bool operator!=(const QueryServiceStateRequest& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_sessions_only() const { return _has_field_[1]; }
+ bool sessions_only() const { return sessions_only_; }
+ void set_sessions_only(bool value) { sessions_only_ = value; _has_field_.set(1); }
+
+ private:
+ bool sessions_only_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT ObserveEventsResponse : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kEventsFieldNumber = 1,
+ };
+
+ ObserveEventsResponse();
+ ~ObserveEventsResponse() override;
+ ObserveEventsResponse(ObserveEventsResponse&&) noexcept;
+ ObserveEventsResponse& operator=(ObserveEventsResponse&&);
+ ObserveEventsResponse(const ObserveEventsResponse&);
+ ObserveEventsResponse& operator=(const ObserveEventsResponse&);
+ bool operator==(const ObserveEventsResponse&) const;
+ bool operator!=(const ObserveEventsResponse& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_events() const { return _has_field_[1]; }
+ const ObservableEvents& events() const { return *events_; }
+ ObservableEvents* mutable_events() { _has_field_.set(1); return events_.get(); }
+
+ private:
+ ::protozero::CopyablePtr<ObservableEvents> events_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT ObserveEventsRequest : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kEventsToObserveFieldNumber = 1,
+ };
+
+ ObserveEventsRequest();
+ ~ObserveEventsRequest() override;
+ ObserveEventsRequest(ObserveEventsRequest&&) noexcept;
+ ObserveEventsRequest& operator=(ObserveEventsRequest&&);
+ ObserveEventsRequest(const ObserveEventsRequest&);
+ ObserveEventsRequest& operator=(const ObserveEventsRequest&);
+ bool operator==(const ObserveEventsRequest&) const;
+ bool operator!=(const ObserveEventsRequest& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ const std::vector<ObservableEvents_Type>& events_to_observe() const { return events_to_observe_; }
+ std::vector<ObservableEvents_Type>* mutable_events_to_observe() { return &events_to_observe_; }
+ int events_to_observe_size() const { return static_cast<int>(events_to_observe_.size()); }
+ void clear_events_to_observe() { events_to_observe_.clear(); }
+ void add_events_to_observe(ObservableEvents_Type value) { events_to_observe_.emplace_back(value); }
+ ObservableEvents_Type* add_events_to_observe() { events_to_observe_.emplace_back(); return &events_to_observe_.back(); }
+
+ private:
+ std::vector<ObservableEvents_Type> events_to_observe_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT GetTraceStatsResponse : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kTraceStatsFieldNumber = 1,
+ };
+
+ GetTraceStatsResponse();
+ ~GetTraceStatsResponse() override;
+ GetTraceStatsResponse(GetTraceStatsResponse&&) noexcept;
+ GetTraceStatsResponse& operator=(GetTraceStatsResponse&&);
+ GetTraceStatsResponse(const GetTraceStatsResponse&);
+ GetTraceStatsResponse& operator=(const GetTraceStatsResponse&);
+ bool operator==(const GetTraceStatsResponse&) const;
+ bool operator!=(const GetTraceStatsResponse& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_trace_stats() const { return _has_field_[1]; }
+ const TraceStats& trace_stats() const { return *trace_stats_; }
+ TraceStats* mutable_trace_stats() { _has_field_.set(1); return trace_stats_.get(); }
+
+ private:
+ ::protozero::CopyablePtr<TraceStats> trace_stats_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT GetTraceStatsRequest : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ };
+
+ GetTraceStatsRequest();
+ ~GetTraceStatsRequest() override;
+ GetTraceStatsRequest(GetTraceStatsRequest&&) noexcept;
+ GetTraceStatsRequest& operator=(GetTraceStatsRequest&&);
+ GetTraceStatsRequest(const GetTraceStatsRequest&);
+ GetTraceStatsRequest& operator=(const GetTraceStatsRequest&);
+ bool operator==(const GetTraceStatsRequest&) const;
+ bool operator!=(const GetTraceStatsRequest& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ private:
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT AttachResponse : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kTraceConfigFieldNumber = 1,
+ };
+
+ AttachResponse();
+ ~AttachResponse() override;
+ AttachResponse(AttachResponse&&) noexcept;
+ AttachResponse& operator=(AttachResponse&&);
+ AttachResponse(const AttachResponse&);
+ AttachResponse& operator=(const AttachResponse&);
+ bool operator==(const AttachResponse&) const;
+ bool operator!=(const AttachResponse& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_trace_config() const { return _has_field_[1]; }
+ const TraceConfig& trace_config() const { return *trace_config_; }
+ TraceConfig* mutable_trace_config() { _has_field_.set(1); return trace_config_.get(); }
+
+ private:
+ ::protozero::CopyablePtr<TraceConfig> trace_config_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT AttachRequest : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kKeyFieldNumber = 1,
+ };
+
+ AttachRequest();
+ ~AttachRequest() override;
+ AttachRequest(AttachRequest&&) noexcept;
+ AttachRequest& operator=(AttachRequest&&);
+ AttachRequest(const AttachRequest&);
+ AttachRequest& operator=(const AttachRequest&);
+ bool operator==(const AttachRequest&) const;
+ bool operator!=(const AttachRequest& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_key() const { return _has_field_[1]; }
+ const std::string& key() const { return key_; }
+ void set_key(const std::string& value) { key_ = value; _has_field_.set(1); }
+
+ private:
+ std::string key_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT DetachResponse : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ };
+
+ DetachResponse();
+ ~DetachResponse() override;
+ DetachResponse(DetachResponse&&) noexcept;
+ DetachResponse& operator=(DetachResponse&&);
+ DetachResponse(const DetachResponse&);
+ DetachResponse& operator=(const DetachResponse&);
+ bool operator==(const DetachResponse&) const;
+ bool operator!=(const DetachResponse& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ private:
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT DetachRequest : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kKeyFieldNumber = 1,
+ };
+
+ DetachRequest();
+ ~DetachRequest() override;
+ DetachRequest(DetachRequest&&) noexcept;
+ DetachRequest& operator=(DetachRequest&&);
+ DetachRequest(const DetachRequest&);
+ DetachRequest& operator=(const DetachRequest&);
+ bool operator==(const DetachRequest&) const;
+ bool operator!=(const DetachRequest& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_key() const { return _has_field_[1]; }
+ const std::string& key() const { return key_; }
+ void set_key(const std::string& value) { key_ = value; _has_field_.set(1); }
+
+ private:
+ std::string key_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT FlushResponse : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ };
+
+ FlushResponse();
+ ~FlushResponse() override;
+ FlushResponse(FlushResponse&&) noexcept;
+ FlushResponse& operator=(FlushResponse&&);
+ FlushResponse(const FlushResponse&);
+ FlushResponse& operator=(const FlushResponse&);
+ bool operator==(const FlushResponse&) const;
+ bool operator!=(const FlushResponse& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ private:
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT FlushRequest : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kTimeoutMsFieldNumber = 1,
+ kFlagsFieldNumber = 2,
+ };
+
+ FlushRequest();
+ ~FlushRequest() override;
+ FlushRequest(FlushRequest&&) noexcept;
+ FlushRequest& operator=(FlushRequest&&);
+ FlushRequest(const FlushRequest&);
+ FlushRequest& operator=(const FlushRequest&);
+ bool operator==(const FlushRequest&) const;
+ bool operator!=(const FlushRequest& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_timeout_ms() const { return _has_field_[1]; }
+ uint32_t timeout_ms() const { return timeout_ms_; }
+ void set_timeout_ms(uint32_t value) { timeout_ms_ = value; _has_field_.set(1); }
+
+ bool has_flags() const { return _has_field_[2]; }
+ uint64_t flags() const { return flags_; }
+ void set_flags(uint64_t value) { flags_ = value; _has_field_.set(2); }
+
+ private:
+ uint32_t timeout_ms_{};
+ uint64_t flags_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<3> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT FreeBuffersResponse : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ };
+
+ FreeBuffersResponse();
+ ~FreeBuffersResponse() override;
+ FreeBuffersResponse(FreeBuffersResponse&&) noexcept;
+ FreeBuffersResponse& operator=(FreeBuffersResponse&&);
+ FreeBuffersResponse(const FreeBuffersResponse&);
+ FreeBuffersResponse& operator=(const FreeBuffersResponse&);
+ bool operator==(const FreeBuffersResponse&) const;
+ bool operator!=(const FreeBuffersResponse& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ private:
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT FreeBuffersRequest : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kBufferIdsFieldNumber = 1,
+ };
+
+ FreeBuffersRequest();
+ ~FreeBuffersRequest() override;
+ FreeBuffersRequest(FreeBuffersRequest&&) noexcept;
+ FreeBuffersRequest& operator=(FreeBuffersRequest&&);
+ FreeBuffersRequest(const FreeBuffersRequest&);
+ FreeBuffersRequest& operator=(const FreeBuffersRequest&);
+ bool operator==(const FreeBuffersRequest&) const;
+ bool operator!=(const FreeBuffersRequest& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ const std::vector<uint32_t>& buffer_ids() const { return buffer_ids_; }
+ std::vector<uint32_t>* mutable_buffer_ids() { return &buffer_ids_; }
+ int buffer_ids_size() const { return static_cast<int>(buffer_ids_.size()); }
+ void clear_buffer_ids() { buffer_ids_.clear(); }
+ void add_buffer_ids(uint32_t value) { buffer_ids_.emplace_back(value); }
+ uint32_t* add_buffer_ids() { buffer_ids_.emplace_back(); return &buffer_ids_.back(); }
+
+ private:
+ std::vector<uint32_t> buffer_ids_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT ReadBuffersResponse : public ::protozero::CppMessageObj {
+ public:
+ using Slice = ReadBuffersResponse_Slice;
+ enum FieldNumbers {
+ kSlicesFieldNumber = 2,
+ };
+
+ ReadBuffersResponse();
+ ~ReadBuffersResponse() override;
+ ReadBuffersResponse(ReadBuffersResponse&&) noexcept;
+ ReadBuffersResponse& operator=(ReadBuffersResponse&&);
+ ReadBuffersResponse(const ReadBuffersResponse&);
+ ReadBuffersResponse& operator=(const ReadBuffersResponse&);
+ bool operator==(const ReadBuffersResponse&) const;
+ bool operator!=(const ReadBuffersResponse& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ const std::vector<ReadBuffersResponse_Slice>& slices() const { return slices_; }
+ std::vector<ReadBuffersResponse_Slice>* mutable_slices() { return &slices_; }
+ int slices_size() const;
+ void clear_slices();
+ ReadBuffersResponse_Slice* add_slices();
+
+ private:
+ std::vector<ReadBuffersResponse_Slice> slices_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<3> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT ReadBuffersResponse_Slice : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kDataFieldNumber = 1,
+ kLastSliceForPacketFieldNumber = 2,
+ };
+
+ ReadBuffersResponse_Slice();
+ ~ReadBuffersResponse_Slice() override;
+ ReadBuffersResponse_Slice(ReadBuffersResponse_Slice&&) noexcept;
+ ReadBuffersResponse_Slice& operator=(ReadBuffersResponse_Slice&&);
+ ReadBuffersResponse_Slice(const ReadBuffersResponse_Slice&);
+ ReadBuffersResponse_Slice& operator=(const ReadBuffersResponse_Slice&);
+ bool operator==(const ReadBuffersResponse_Slice&) const;
+ bool operator!=(const ReadBuffersResponse_Slice& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_data() const { return _has_field_[1]; }
+ const std::string& data() const { return data_; }
+ void set_data(const std::string& value) { data_ = value; _has_field_.set(1); }
+ void set_data(const void* p, size_t s) { data_.assign(reinterpret_cast<const char*>(p), s); _has_field_.set(1); }
+
+ bool has_last_slice_for_packet() const { return _has_field_[2]; }
+ bool last_slice_for_packet() const { return last_slice_for_packet_; }
+ void set_last_slice_for_packet(bool value) { last_slice_for_packet_ = value; _has_field_.set(2); }
+
+ private:
+ std::string data_{};
+ bool last_slice_for_packet_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<3> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT ReadBuffersRequest : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ };
+
+ ReadBuffersRequest();
+ ~ReadBuffersRequest() override;
+ ReadBuffersRequest(ReadBuffersRequest&&) noexcept;
+ ReadBuffersRequest& operator=(ReadBuffersRequest&&);
+ ReadBuffersRequest(const ReadBuffersRequest&);
+ ReadBuffersRequest& operator=(const ReadBuffersRequest&);
+ bool operator==(const ReadBuffersRequest&) const;
+ bool operator!=(const ReadBuffersRequest& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ private:
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT DisableTracingResponse : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ };
+
+ DisableTracingResponse();
+ ~DisableTracingResponse() override;
+ DisableTracingResponse(DisableTracingResponse&&) noexcept;
+ DisableTracingResponse& operator=(DisableTracingResponse&&);
+ DisableTracingResponse(const DisableTracingResponse&);
+ DisableTracingResponse& operator=(const DisableTracingResponse&);
+ bool operator==(const DisableTracingResponse&) const;
+ bool operator!=(const DisableTracingResponse& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ private:
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT DisableTracingRequest : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ };
+
+ DisableTracingRequest();
+ ~DisableTracingRequest() override;
+ DisableTracingRequest(DisableTracingRequest&&) noexcept;
+ DisableTracingRequest& operator=(DisableTracingRequest&&);
+ DisableTracingRequest(const DisableTracingRequest&);
+ DisableTracingRequest& operator=(const DisableTracingRequest&);
+ bool operator==(const DisableTracingRequest&) const;
+ bool operator!=(const DisableTracingRequest& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ private:
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT ChangeTraceConfigResponse : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ };
+
+ ChangeTraceConfigResponse();
+ ~ChangeTraceConfigResponse() override;
+ ChangeTraceConfigResponse(ChangeTraceConfigResponse&&) noexcept;
+ ChangeTraceConfigResponse& operator=(ChangeTraceConfigResponse&&);
+ ChangeTraceConfigResponse(const ChangeTraceConfigResponse&);
+ ChangeTraceConfigResponse& operator=(const ChangeTraceConfigResponse&);
+ bool operator==(const ChangeTraceConfigResponse&) const;
+ bool operator!=(const ChangeTraceConfigResponse& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ private:
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT ChangeTraceConfigRequest : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kTraceConfigFieldNumber = 1,
+ };
+
+ ChangeTraceConfigRequest();
+ ~ChangeTraceConfigRequest() override;
+ ChangeTraceConfigRequest(ChangeTraceConfigRequest&&) noexcept;
+ ChangeTraceConfigRequest& operator=(ChangeTraceConfigRequest&&);
+ ChangeTraceConfigRequest(const ChangeTraceConfigRequest&);
+ ChangeTraceConfigRequest& operator=(const ChangeTraceConfigRequest&);
+ bool operator==(const ChangeTraceConfigRequest&) const;
+ bool operator!=(const ChangeTraceConfigRequest& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_trace_config() const { return _has_field_[1]; }
+ const TraceConfig& trace_config() const { return *trace_config_; }
+ TraceConfig* mutable_trace_config() { _has_field_.set(1); return trace_config_.get(); }
+
+ private:
+ ::protozero::CopyablePtr<TraceConfig> trace_config_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT StartTracingResponse : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ };
+
+ StartTracingResponse();
+ ~StartTracingResponse() override;
+ StartTracingResponse(StartTracingResponse&&) noexcept;
+ StartTracingResponse& operator=(StartTracingResponse&&);
+ StartTracingResponse(const StartTracingResponse&);
+ StartTracingResponse& operator=(const StartTracingResponse&);
+ bool operator==(const StartTracingResponse&) const;
+ bool operator!=(const StartTracingResponse& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ private:
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT StartTracingRequest : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ };
+
+ StartTracingRequest();
+ ~StartTracingRequest() override;
+ StartTracingRequest(StartTracingRequest&&) noexcept;
+ StartTracingRequest& operator=(StartTracingRequest&&);
+ StartTracingRequest(const StartTracingRequest&);
+ StartTracingRequest& operator=(const StartTracingRequest&);
+ bool operator==(const StartTracingRequest&) const;
+ bool operator!=(const StartTracingRequest& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ private:
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT EnableTracingResponse : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kDisabledFieldNumber = 1,
+ kErrorFieldNumber = 3,
+ };
+
+ EnableTracingResponse();
+ ~EnableTracingResponse() override;
+ EnableTracingResponse(EnableTracingResponse&&) noexcept;
+ EnableTracingResponse& operator=(EnableTracingResponse&&);
+ EnableTracingResponse(const EnableTracingResponse&);
+ EnableTracingResponse& operator=(const EnableTracingResponse&);
+ bool operator==(const EnableTracingResponse&) const;
+ bool operator!=(const EnableTracingResponse& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_disabled() const { return _has_field_[1]; }
+ bool disabled() const { return disabled_; }
+ void set_disabled(bool value) { disabled_ = value; _has_field_.set(1); }
+
+ bool has_error() const { return _has_field_[3]; }
+ const std::string& error() const { return error_; }
+ void set_error(const std::string& value) { error_ = value; _has_field_.set(3); }
+
+ private:
+ bool disabled_{};
+ std::string error_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<4> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT EnableTracingRequest : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kTraceConfigFieldNumber = 1,
+ kAttachNotificationOnlyFieldNumber = 2,
+ };
+
+ EnableTracingRequest();
+ ~EnableTracingRequest() override;
+ EnableTracingRequest(EnableTracingRequest&&) noexcept;
+ EnableTracingRequest& operator=(EnableTracingRequest&&);
+ EnableTracingRequest(const EnableTracingRequest&);
+ EnableTracingRequest& operator=(const EnableTracingRequest&);
+ bool operator==(const EnableTracingRequest&) const;
+ bool operator!=(const EnableTracingRequest& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_trace_config() const { return _has_field_[1]; }
+ const TraceConfig& trace_config() const { return *trace_config_; }
+ TraceConfig* mutable_trace_config() { _has_field_.set(1); return trace_config_.get(); }
+
+ bool has_attach_notification_only() const { return _has_field_[2]; }
+ bool attach_notification_only() const { return attach_notification_only_; }
+ void set_attach_notification_only(bool value) { attach_notification_only_ = value; _has_field_.set(2); }
+
+ private:
+ ::protozero::CopyablePtr<TraceConfig> trace_config_;
+ bool attach_notification_only_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<3> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_IPC_CONSUMER_PORT_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/ipc/producer_port.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_IPC_PRODUCER_PORT_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_IPC_PRODUCER_PORT_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class SyncResponse;
+class SyncRequest;
+class GetAsyncCommandResponse;
+class GetAsyncCommandResponse_ClearIncrementalState;
+class GetAsyncCommandResponse_Flush;
+class GetAsyncCommandResponse_StopDataSource;
+class GetAsyncCommandResponse_StartDataSource;
+class DataSourceConfig;
+class TestConfig;
+class TestConfig_DummyFields;
+class InterceptorConfig;
+class ConsoleConfig;
+class ChromeConfig;
+class SystemInfoConfig;
+class GetAsyncCommandResponse_SetupDataSource;
+class GetAsyncCommandResponse_SetupTracing;
+class GetAsyncCommandRequest;
+class ActivateTriggersResponse;
+class ActivateTriggersRequest;
+class NotifyDataSourceStoppedResponse;
+class NotifyDataSourceStoppedRequest;
+class NotifyDataSourceStartedResponse;
+class NotifyDataSourceStartedRequest;
+class CommitDataResponse;
+class UnregisterTraceWriterResponse;
+class UnregisterTraceWriterRequest;
+class RegisterTraceWriterResponse;
+class RegisterTraceWriterRequest;
+class UnregisterDataSourceResponse;
+class UnregisterDataSourceRequest;
+class UpdateDataSourceResponse;
+class UpdateDataSourceRequest;
+class DataSourceDescriptor;
+class RegisterDataSourceResponse;
+class RegisterDataSourceRequest;
+class InitializeConnectionResponse;
+class InitializeConnectionRequest;
+enum DataSourceConfig_SessionInitiator : int;
+enum ConsoleConfig_Output : int;
+enum ChromeConfig_ClientPriority : int;
+enum InitializeConnectionRequest_ProducerSMBScrapingMode : int;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+enum InitializeConnectionRequest_ProducerSMBScrapingMode : int {
+ InitializeConnectionRequest_ProducerSMBScrapingMode_SMB_SCRAPING_UNSPECIFIED = 0,
+ InitializeConnectionRequest_ProducerSMBScrapingMode_SMB_SCRAPING_ENABLED = 1,
+ InitializeConnectionRequest_ProducerSMBScrapingMode_SMB_SCRAPING_DISABLED = 2,
+};
+
+class PERFETTO_EXPORT_COMPONENT SyncResponse : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ };
+
+ SyncResponse();
+ ~SyncResponse() override;
+ SyncResponse(SyncResponse&&) noexcept;
+ SyncResponse& operator=(SyncResponse&&);
+ SyncResponse(const SyncResponse&);
+ SyncResponse& operator=(const SyncResponse&);
+ bool operator==(const SyncResponse&) const;
+ bool operator!=(const SyncResponse& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ private:
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT SyncRequest : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ };
+
+ SyncRequest();
+ ~SyncRequest() override;
+ SyncRequest(SyncRequest&&) noexcept;
+ SyncRequest& operator=(SyncRequest&&);
+ SyncRequest(const SyncRequest&);
+ SyncRequest& operator=(const SyncRequest&);
+ bool operator==(const SyncRequest&) const;
+ bool operator!=(const SyncRequest& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ private:
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT GetAsyncCommandResponse : public ::protozero::CppMessageObj {
+ public:
+ using SetupDataSource = GetAsyncCommandResponse_SetupDataSource;
+ using StartDataSource = GetAsyncCommandResponse_StartDataSource;
+ using StopDataSource = GetAsyncCommandResponse_StopDataSource;
+ using SetupTracing = GetAsyncCommandResponse_SetupTracing;
+ using Flush = GetAsyncCommandResponse_Flush;
+ using ClearIncrementalState = GetAsyncCommandResponse_ClearIncrementalState;
+ enum FieldNumbers {
+ kSetupTracingFieldNumber = 3,
+ kSetupDataSourceFieldNumber = 6,
+ kStartDataSourceFieldNumber = 1,
+ kStopDataSourceFieldNumber = 2,
+ kFlushFieldNumber = 5,
+ kClearIncrementalStateFieldNumber = 7,
+ };
+
+ GetAsyncCommandResponse();
+ ~GetAsyncCommandResponse() override;
+ GetAsyncCommandResponse(GetAsyncCommandResponse&&) noexcept;
+ GetAsyncCommandResponse& operator=(GetAsyncCommandResponse&&);
+ GetAsyncCommandResponse(const GetAsyncCommandResponse&);
+ GetAsyncCommandResponse& operator=(const GetAsyncCommandResponse&);
+ bool operator==(const GetAsyncCommandResponse&) const;
+ bool operator!=(const GetAsyncCommandResponse& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_setup_tracing() const { return _has_field_[3]; }
+ const GetAsyncCommandResponse_SetupTracing& setup_tracing() const { return *setup_tracing_; }
+ GetAsyncCommandResponse_SetupTracing* mutable_setup_tracing() { _has_field_.set(3); return setup_tracing_.get(); }
+
+ bool has_setup_data_source() const { return _has_field_[6]; }
+ const GetAsyncCommandResponse_SetupDataSource& setup_data_source() const { return *setup_data_source_; }
+ GetAsyncCommandResponse_SetupDataSource* mutable_setup_data_source() { _has_field_.set(6); return setup_data_source_.get(); }
+
+ bool has_start_data_source() const { return _has_field_[1]; }
+ const GetAsyncCommandResponse_StartDataSource& start_data_source() const { return *start_data_source_; }
+ GetAsyncCommandResponse_StartDataSource* mutable_start_data_source() { _has_field_.set(1); return start_data_source_.get(); }
+
+ bool has_stop_data_source() const { return _has_field_[2]; }
+ const GetAsyncCommandResponse_StopDataSource& stop_data_source() const { return *stop_data_source_; }
+ GetAsyncCommandResponse_StopDataSource* mutable_stop_data_source() { _has_field_.set(2); return stop_data_source_.get(); }
+
+ bool has_flush() const { return _has_field_[5]; }
+ const GetAsyncCommandResponse_Flush& flush() const { return *flush_; }
+ GetAsyncCommandResponse_Flush* mutable_flush() { _has_field_.set(5); return flush_.get(); }
+
+ bool has_clear_incremental_state() const { return _has_field_[7]; }
+ const GetAsyncCommandResponse_ClearIncrementalState& clear_incremental_state() const { return *clear_incremental_state_; }
+ GetAsyncCommandResponse_ClearIncrementalState* mutable_clear_incremental_state() { _has_field_.set(7); return clear_incremental_state_.get(); }
+
+ private:
+ ::protozero::CopyablePtr<GetAsyncCommandResponse_SetupTracing> setup_tracing_;
+ ::protozero::CopyablePtr<GetAsyncCommandResponse_SetupDataSource> setup_data_source_;
+ ::protozero::CopyablePtr<GetAsyncCommandResponse_StartDataSource> start_data_source_;
+ ::protozero::CopyablePtr<GetAsyncCommandResponse_StopDataSource> stop_data_source_;
+ ::protozero::CopyablePtr<GetAsyncCommandResponse_Flush> flush_;
+ ::protozero::CopyablePtr<GetAsyncCommandResponse_ClearIncrementalState> clear_incremental_state_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<8> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT GetAsyncCommandResponse_ClearIncrementalState : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kDataSourceIdsFieldNumber = 1,
+ };
+
+ GetAsyncCommandResponse_ClearIncrementalState();
+ ~GetAsyncCommandResponse_ClearIncrementalState() override;
+ GetAsyncCommandResponse_ClearIncrementalState(GetAsyncCommandResponse_ClearIncrementalState&&) noexcept;
+ GetAsyncCommandResponse_ClearIncrementalState& operator=(GetAsyncCommandResponse_ClearIncrementalState&&);
+ GetAsyncCommandResponse_ClearIncrementalState(const GetAsyncCommandResponse_ClearIncrementalState&);
+ GetAsyncCommandResponse_ClearIncrementalState& operator=(const GetAsyncCommandResponse_ClearIncrementalState&);
+ bool operator==(const GetAsyncCommandResponse_ClearIncrementalState&) const;
+ bool operator!=(const GetAsyncCommandResponse_ClearIncrementalState& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ const std::vector<uint64_t>& data_source_ids() const { return data_source_ids_; }
+ std::vector<uint64_t>* mutable_data_source_ids() { return &data_source_ids_; }
+ int data_source_ids_size() const { return static_cast<int>(data_source_ids_.size()); }
+ void clear_data_source_ids() { data_source_ids_.clear(); }
+ void add_data_source_ids(uint64_t value) { data_source_ids_.emplace_back(value); }
+ uint64_t* add_data_source_ids() { data_source_ids_.emplace_back(); return &data_source_ids_.back(); }
+
+ private:
+ std::vector<uint64_t> data_source_ids_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT GetAsyncCommandResponse_Flush : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kDataSourceIdsFieldNumber = 1,
+ kRequestIdFieldNumber = 2,
+ kFlagsFieldNumber = 3,
+ };
+
+ GetAsyncCommandResponse_Flush();
+ ~GetAsyncCommandResponse_Flush() override;
+ GetAsyncCommandResponse_Flush(GetAsyncCommandResponse_Flush&&) noexcept;
+ GetAsyncCommandResponse_Flush& operator=(GetAsyncCommandResponse_Flush&&);
+ GetAsyncCommandResponse_Flush(const GetAsyncCommandResponse_Flush&);
+ GetAsyncCommandResponse_Flush& operator=(const GetAsyncCommandResponse_Flush&);
+ bool operator==(const GetAsyncCommandResponse_Flush&) const;
+ bool operator!=(const GetAsyncCommandResponse_Flush& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ const std::vector<uint64_t>& data_source_ids() const { return data_source_ids_; }
+ std::vector<uint64_t>* mutable_data_source_ids() { return &data_source_ids_; }
+ int data_source_ids_size() const { return static_cast<int>(data_source_ids_.size()); }
+ void clear_data_source_ids() { data_source_ids_.clear(); }
+ void add_data_source_ids(uint64_t value) { data_source_ids_.emplace_back(value); }
+ uint64_t* add_data_source_ids() { data_source_ids_.emplace_back(); return &data_source_ids_.back(); }
+
+ bool has_request_id() const { return _has_field_[2]; }
+ uint64_t request_id() const { return request_id_; }
+ void set_request_id(uint64_t value) { request_id_ = value; _has_field_.set(2); }
+
+ bool has_flags() const { return _has_field_[3]; }
+ uint64_t flags() const { return flags_; }
+ void set_flags(uint64_t value) { flags_ = value; _has_field_.set(3); }
+
+ private:
+ std::vector<uint64_t> data_source_ids_;
+ uint64_t request_id_{};
+ uint64_t flags_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<4> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT GetAsyncCommandResponse_StopDataSource : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kInstanceIdFieldNumber = 1,
+ };
+
+ GetAsyncCommandResponse_StopDataSource();
+ ~GetAsyncCommandResponse_StopDataSource() override;
+ GetAsyncCommandResponse_StopDataSource(GetAsyncCommandResponse_StopDataSource&&) noexcept;
+ GetAsyncCommandResponse_StopDataSource& operator=(GetAsyncCommandResponse_StopDataSource&&);
+ GetAsyncCommandResponse_StopDataSource(const GetAsyncCommandResponse_StopDataSource&);
+ GetAsyncCommandResponse_StopDataSource& operator=(const GetAsyncCommandResponse_StopDataSource&);
+ bool operator==(const GetAsyncCommandResponse_StopDataSource&) const;
+ bool operator!=(const GetAsyncCommandResponse_StopDataSource& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_instance_id() const { return _has_field_[1]; }
+ uint64_t instance_id() const { return instance_id_; }
+ void set_instance_id(uint64_t value) { instance_id_ = value; _has_field_.set(1); }
+
+ private:
+ uint64_t instance_id_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT GetAsyncCommandResponse_StartDataSource : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kNewInstanceIdFieldNumber = 1,
+ kConfigFieldNumber = 2,
+ };
+
+ GetAsyncCommandResponse_StartDataSource();
+ ~GetAsyncCommandResponse_StartDataSource() override;
+ GetAsyncCommandResponse_StartDataSource(GetAsyncCommandResponse_StartDataSource&&) noexcept;
+ GetAsyncCommandResponse_StartDataSource& operator=(GetAsyncCommandResponse_StartDataSource&&);
+ GetAsyncCommandResponse_StartDataSource(const GetAsyncCommandResponse_StartDataSource&);
+ GetAsyncCommandResponse_StartDataSource& operator=(const GetAsyncCommandResponse_StartDataSource&);
+ bool operator==(const GetAsyncCommandResponse_StartDataSource&) const;
+ bool operator!=(const GetAsyncCommandResponse_StartDataSource& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_new_instance_id() const { return _has_field_[1]; }
+ uint64_t new_instance_id() const { return new_instance_id_; }
+ void set_new_instance_id(uint64_t value) { new_instance_id_ = value; _has_field_.set(1); }
+
+ bool has_config() const { return _has_field_[2]; }
+ const DataSourceConfig& config() const { return *config_; }
+ DataSourceConfig* mutable_config() { _has_field_.set(2); return config_.get(); }
+
+ private:
+ uint64_t new_instance_id_{};
+ ::protozero::CopyablePtr<DataSourceConfig> config_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<3> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT GetAsyncCommandResponse_SetupDataSource : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kNewInstanceIdFieldNumber = 1,
+ kConfigFieldNumber = 2,
+ };
+
+ GetAsyncCommandResponse_SetupDataSource();
+ ~GetAsyncCommandResponse_SetupDataSource() override;
+ GetAsyncCommandResponse_SetupDataSource(GetAsyncCommandResponse_SetupDataSource&&) noexcept;
+ GetAsyncCommandResponse_SetupDataSource& operator=(GetAsyncCommandResponse_SetupDataSource&&);
+ GetAsyncCommandResponse_SetupDataSource(const GetAsyncCommandResponse_SetupDataSource&);
+ GetAsyncCommandResponse_SetupDataSource& operator=(const GetAsyncCommandResponse_SetupDataSource&);
+ bool operator==(const GetAsyncCommandResponse_SetupDataSource&) const;
+ bool operator!=(const GetAsyncCommandResponse_SetupDataSource& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_new_instance_id() const { return _has_field_[1]; }
+ uint64_t new_instance_id() const { return new_instance_id_; }
+ void set_new_instance_id(uint64_t value) { new_instance_id_ = value; _has_field_.set(1); }
+
+ bool has_config() const { return _has_field_[2]; }
+ const DataSourceConfig& config() const { return *config_; }
+ DataSourceConfig* mutable_config() { _has_field_.set(2); return config_.get(); }
+
+ private:
+ uint64_t new_instance_id_{};
+ ::protozero::CopyablePtr<DataSourceConfig> config_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<3> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT GetAsyncCommandResponse_SetupTracing : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kSharedBufferPageSizeKbFieldNumber = 1,
+ kShmKeyWindowsFieldNumber = 2,
+ };
+
+ GetAsyncCommandResponse_SetupTracing();
+ ~GetAsyncCommandResponse_SetupTracing() override;
+ GetAsyncCommandResponse_SetupTracing(GetAsyncCommandResponse_SetupTracing&&) noexcept;
+ GetAsyncCommandResponse_SetupTracing& operator=(GetAsyncCommandResponse_SetupTracing&&);
+ GetAsyncCommandResponse_SetupTracing(const GetAsyncCommandResponse_SetupTracing&);
+ GetAsyncCommandResponse_SetupTracing& operator=(const GetAsyncCommandResponse_SetupTracing&);
+ bool operator==(const GetAsyncCommandResponse_SetupTracing&) const;
+ bool operator!=(const GetAsyncCommandResponse_SetupTracing& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_shared_buffer_page_size_kb() const { return _has_field_[1]; }
+ uint32_t shared_buffer_page_size_kb() const { return shared_buffer_page_size_kb_; }
+ void set_shared_buffer_page_size_kb(uint32_t value) { shared_buffer_page_size_kb_ = value; _has_field_.set(1); }
+
+ bool has_shm_key_windows() const { return _has_field_[2]; }
+ const std::string& shm_key_windows() const { return shm_key_windows_; }
+ void set_shm_key_windows(const std::string& value) { shm_key_windows_ = value; _has_field_.set(2); }
+
+ private:
+ uint32_t shared_buffer_page_size_kb_{};
+ std::string shm_key_windows_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<3> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT GetAsyncCommandRequest : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ };
+
+ GetAsyncCommandRequest();
+ ~GetAsyncCommandRequest() override;
+ GetAsyncCommandRequest(GetAsyncCommandRequest&&) noexcept;
+ GetAsyncCommandRequest& operator=(GetAsyncCommandRequest&&);
+ GetAsyncCommandRequest(const GetAsyncCommandRequest&);
+ GetAsyncCommandRequest& operator=(const GetAsyncCommandRequest&);
+ bool operator==(const GetAsyncCommandRequest&) const;
+ bool operator!=(const GetAsyncCommandRequest& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ private:
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT ActivateTriggersResponse : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ };
+
+ ActivateTriggersResponse();
+ ~ActivateTriggersResponse() override;
+ ActivateTriggersResponse(ActivateTriggersResponse&&) noexcept;
+ ActivateTriggersResponse& operator=(ActivateTriggersResponse&&);
+ ActivateTriggersResponse(const ActivateTriggersResponse&);
+ ActivateTriggersResponse& operator=(const ActivateTriggersResponse&);
+ bool operator==(const ActivateTriggersResponse&) const;
+ bool operator!=(const ActivateTriggersResponse& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ private:
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT ActivateTriggersRequest : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kTriggerNamesFieldNumber = 1,
+ };
+
+ ActivateTriggersRequest();
+ ~ActivateTriggersRequest() override;
+ ActivateTriggersRequest(ActivateTriggersRequest&&) noexcept;
+ ActivateTriggersRequest& operator=(ActivateTriggersRequest&&);
+ ActivateTriggersRequest(const ActivateTriggersRequest&);
+ ActivateTriggersRequest& operator=(const ActivateTriggersRequest&);
+ bool operator==(const ActivateTriggersRequest&) const;
+ bool operator!=(const ActivateTriggersRequest& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ const std::vector<std::string>& trigger_names() const { return trigger_names_; }
+ std::vector<std::string>* mutable_trigger_names() { return &trigger_names_; }
+ int trigger_names_size() const { return static_cast<int>(trigger_names_.size()); }
+ void clear_trigger_names() { trigger_names_.clear(); }
+ void add_trigger_names(std::string value) { trigger_names_.emplace_back(value); }
+ std::string* add_trigger_names() { trigger_names_.emplace_back(); return &trigger_names_.back(); }
+
+ private:
+ std::vector<std::string> trigger_names_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT NotifyDataSourceStoppedResponse : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ };
+
+ NotifyDataSourceStoppedResponse();
+ ~NotifyDataSourceStoppedResponse() override;
+ NotifyDataSourceStoppedResponse(NotifyDataSourceStoppedResponse&&) noexcept;
+ NotifyDataSourceStoppedResponse& operator=(NotifyDataSourceStoppedResponse&&);
+ NotifyDataSourceStoppedResponse(const NotifyDataSourceStoppedResponse&);
+ NotifyDataSourceStoppedResponse& operator=(const NotifyDataSourceStoppedResponse&);
+ bool operator==(const NotifyDataSourceStoppedResponse&) const;
+ bool operator!=(const NotifyDataSourceStoppedResponse& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ private:
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT NotifyDataSourceStoppedRequest : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kDataSourceIdFieldNumber = 1,
+ };
+
+ NotifyDataSourceStoppedRequest();
+ ~NotifyDataSourceStoppedRequest() override;
+ NotifyDataSourceStoppedRequest(NotifyDataSourceStoppedRequest&&) noexcept;
+ NotifyDataSourceStoppedRequest& operator=(NotifyDataSourceStoppedRequest&&);
+ NotifyDataSourceStoppedRequest(const NotifyDataSourceStoppedRequest&);
+ NotifyDataSourceStoppedRequest& operator=(const NotifyDataSourceStoppedRequest&);
+ bool operator==(const NotifyDataSourceStoppedRequest&) const;
+ bool operator!=(const NotifyDataSourceStoppedRequest& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_data_source_id() const { return _has_field_[1]; }
+ uint64_t data_source_id() const { return data_source_id_; }
+ void set_data_source_id(uint64_t value) { data_source_id_ = value; _has_field_.set(1); }
+
+ private:
+ uint64_t data_source_id_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT NotifyDataSourceStartedResponse : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ };
+
+ NotifyDataSourceStartedResponse();
+ ~NotifyDataSourceStartedResponse() override;
+ NotifyDataSourceStartedResponse(NotifyDataSourceStartedResponse&&) noexcept;
+ NotifyDataSourceStartedResponse& operator=(NotifyDataSourceStartedResponse&&);
+ NotifyDataSourceStartedResponse(const NotifyDataSourceStartedResponse&);
+ NotifyDataSourceStartedResponse& operator=(const NotifyDataSourceStartedResponse&);
+ bool operator==(const NotifyDataSourceStartedResponse&) const;
+ bool operator!=(const NotifyDataSourceStartedResponse& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ private:
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT NotifyDataSourceStartedRequest : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kDataSourceIdFieldNumber = 1,
+ };
+
+ NotifyDataSourceStartedRequest();
+ ~NotifyDataSourceStartedRequest() override;
+ NotifyDataSourceStartedRequest(NotifyDataSourceStartedRequest&&) noexcept;
+ NotifyDataSourceStartedRequest& operator=(NotifyDataSourceStartedRequest&&);
+ NotifyDataSourceStartedRequest(const NotifyDataSourceStartedRequest&);
+ NotifyDataSourceStartedRequest& operator=(const NotifyDataSourceStartedRequest&);
+ bool operator==(const NotifyDataSourceStartedRequest&) const;
+ bool operator!=(const NotifyDataSourceStartedRequest& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_data_source_id() const { return _has_field_[1]; }
+ uint64_t data_source_id() const { return data_source_id_; }
+ void set_data_source_id(uint64_t value) { data_source_id_ = value; _has_field_.set(1); }
+
+ private:
+ uint64_t data_source_id_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT CommitDataResponse : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ };
+
+ CommitDataResponse();
+ ~CommitDataResponse() override;
+ CommitDataResponse(CommitDataResponse&&) noexcept;
+ CommitDataResponse& operator=(CommitDataResponse&&);
+ CommitDataResponse(const CommitDataResponse&);
+ CommitDataResponse& operator=(const CommitDataResponse&);
+ bool operator==(const CommitDataResponse&) const;
+ bool operator!=(const CommitDataResponse& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ private:
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT UnregisterTraceWriterResponse : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ };
+
+ UnregisterTraceWriterResponse();
+ ~UnregisterTraceWriterResponse() override;
+ UnregisterTraceWriterResponse(UnregisterTraceWriterResponse&&) noexcept;
+ UnregisterTraceWriterResponse& operator=(UnregisterTraceWriterResponse&&);
+ UnregisterTraceWriterResponse(const UnregisterTraceWriterResponse&);
+ UnregisterTraceWriterResponse& operator=(const UnregisterTraceWriterResponse&);
+ bool operator==(const UnregisterTraceWriterResponse&) const;
+ bool operator!=(const UnregisterTraceWriterResponse& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ private:
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT UnregisterTraceWriterRequest : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kTraceWriterIdFieldNumber = 1,
+ };
+
+ UnregisterTraceWriterRequest();
+ ~UnregisterTraceWriterRequest() override;
+ UnregisterTraceWriterRequest(UnregisterTraceWriterRequest&&) noexcept;
+ UnregisterTraceWriterRequest& operator=(UnregisterTraceWriterRequest&&);
+ UnregisterTraceWriterRequest(const UnregisterTraceWriterRequest&);
+ UnregisterTraceWriterRequest& operator=(const UnregisterTraceWriterRequest&);
+ bool operator==(const UnregisterTraceWriterRequest&) const;
+ bool operator!=(const UnregisterTraceWriterRequest& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_trace_writer_id() const { return _has_field_[1]; }
+ uint32_t trace_writer_id() const { return trace_writer_id_; }
+ void set_trace_writer_id(uint32_t value) { trace_writer_id_ = value; _has_field_.set(1); }
+
+ private:
+ uint32_t trace_writer_id_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT RegisterTraceWriterResponse : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ };
+
+ RegisterTraceWriterResponse();
+ ~RegisterTraceWriterResponse() override;
+ RegisterTraceWriterResponse(RegisterTraceWriterResponse&&) noexcept;
+ RegisterTraceWriterResponse& operator=(RegisterTraceWriterResponse&&);
+ RegisterTraceWriterResponse(const RegisterTraceWriterResponse&);
+ RegisterTraceWriterResponse& operator=(const RegisterTraceWriterResponse&);
+ bool operator==(const RegisterTraceWriterResponse&) const;
+ bool operator!=(const RegisterTraceWriterResponse& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ private:
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT RegisterTraceWriterRequest : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kTraceWriterIdFieldNumber = 1,
+ kTargetBufferFieldNumber = 2,
+ };
+
+ RegisterTraceWriterRequest();
+ ~RegisterTraceWriterRequest() override;
+ RegisterTraceWriterRequest(RegisterTraceWriterRequest&&) noexcept;
+ RegisterTraceWriterRequest& operator=(RegisterTraceWriterRequest&&);
+ RegisterTraceWriterRequest(const RegisterTraceWriterRequest&);
+ RegisterTraceWriterRequest& operator=(const RegisterTraceWriterRequest&);
+ bool operator==(const RegisterTraceWriterRequest&) const;
+ bool operator!=(const RegisterTraceWriterRequest& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_trace_writer_id() const { return _has_field_[1]; }
+ uint32_t trace_writer_id() const { return trace_writer_id_; }
+ void set_trace_writer_id(uint32_t value) { trace_writer_id_ = value; _has_field_.set(1); }
+
+ bool has_target_buffer() const { return _has_field_[2]; }
+ uint32_t target_buffer() const { return target_buffer_; }
+ void set_target_buffer(uint32_t value) { target_buffer_ = value; _has_field_.set(2); }
+
+ private:
+ uint32_t trace_writer_id_{};
+ uint32_t target_buffer_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<3> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT UnregisterDataSourceResponse : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ };
+
+ UnregisterDataSourceResponse();
+ ~UnregisterDataSourceResponse() override;
+ UnregisterDataSourceResponse(UnregisterDataSourceResponse&&) noexcept;
+ UnregisterDataSourceResponse& operator=(UnregisterDataSourceResponse&&);
+ UnregisterDataSourceResponse(const UnregisterDataSourceResponse&);
+ UnregisterDataSourceResponse& operator=(const UnregisterDataSourceResponse&);
+ bool operator==(const UnregisterDataSourceResponse&) const;
+ bool operator!=(const UnregisterDataSourceResponse& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ private:
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT UnregisterDataSourceRequest : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kDataSourceNameFieldNumber = 1,
+ };
+
+ UnregisterDataSourceRequest();
+ ~UnregisterDataSourceRequest() override;
+ UnregisterDataSourceRequest(UnregisterDataSourceRequest&&) noexcept;
+ UnregisterDataSourceRequest& operator=(UnregisterDataSourceRequest&&);
+ UnregisterDataSourceRequest(const UnregisterDataSourceRequest&);
+ UnregisterDataSourceRequest& operator=(const UnregisterDataSourceRequest&);
+ bool operator==(const UnregisterDataSourceRequest&) const;
+ bool operator!=(const UnregisterDataSourceRequest& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_data_source_name() const { return _has_field_[1]; }
+ const std::string& data_source_name() const { return data_source_name_; }
+ void set_data_source_name(const std::string& value) { data_source_name_ = value; _has_field_.set(1); }
+
+ private:
+ std::string data_source_name_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT UpdateDataSourceResponse : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ };
+
+ UpdateDataSourceResponse();
+ ~UpdateDataSourceResponse() override;
+ UpdateDataSourceResponse(UpdateDataSourceResponse&&) noexcept;
+ UpdateDataSourceResponse& operator=(UpdateDataSourceResponse&&);
+ UpdateDataSourceResponse(const UpdateDataSourceResponse&);
+ UpdateDataSourceResponse& operator=(const UpdateDataSourceResponse&);
+ bool operator==(const UpdateDataSourceResponse&) const;
+ bool operator!=(const UpdateDataSourceResponse& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ private:
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT UpdateDataSourceRequest : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kDataSourceDescriptorFieldNumber = 1,
+ };
+
+ UpdateDataSourceRequest();
+ ~UpdateDataSourceRequest() override;
+ UpdateDataSourceRequest(UpdateDataSourceRequest&&) noexcept;
+ UpdateDataSourceRequest& operator=(UpdateDataSourceRequest&&);
+ UpdateDataSourceRequest(const UpdateDataSourceRequest&);
+ UpdateDataSourceRequest& operator=(const UpdateDataSourceRequest&);
+ bool operator==(const UpdateDataSourceRequest&) const;
+ bool operator!=(const UpdateDataSourceRequest& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_data_source_descriptor() const { return _has_field_[1]; }
+ const DataSourceDescriptor& data_source_descriptor() const { return *data_source_descriptor_; }
+ DataSourceDescriptor* mutable_data_source_descriptor() { _has_field_.set(1); return data_source_descriptor_.get(); }
+
+ private:
+ ::protozero::CopyablePtr<DataSourceDescriptor> data_source_descriptor_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT RegisterDataSourceResponse : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kErrorFieldNumber = 1,
+ };
+
+ RegisterDataSourceResponse();
+ ~RegisterDataSourceResponse() override;
+ RegisterDataSourceResponse(RegisterDataSourceResponse&&) noexcept;
+ RegisterDataSourceResponse& operator=(RegisterDataSourceResponse&&);
+ RegisterDataSourceResponse(const RegisterDataSourceResponse&);
+ RegisterDataSourceResponse& operator=(const RegisterDataSourceResponse&);
+ bool operator==(const RegisterDataSourceResponse&) const;
+ bool operator!=(const RegisterDataSourceResponse& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_error() const { return _has_field_[1]; }
+ const std::string& error() const { return error_; }
+ void set_error(const std::string& value) { error_ = value; _has_field_.set(1); }
+
+ private:
+ std::string error_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT RegisterDataSourceRequest : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kDataSourceDescriptorFieldNumber = 1,
+ };
+
+ RegisterDataSourceRequest();
+ ~RegisterDataSourceRequest() override;
+ RegisterDataSourceRequest(RegisterDataSourceRequest&&) noexcept;
+ RegisterDataSourceRequest& operator=(RegisterDataSourceRequest&&);
+ RegisterDataSourceRequest(const RegisterDataSourceRequest&);
+ RegisterDataSourceRequest& operator=(const RegisterDataSourceRequest&);
+ bool operator==(const RegisterDataSourceRequest&) const;
+ bool operator!=(const RegisterDataSourceRequest& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_data_source_descriptor() const { return _has_field_[1]; }
+ const DataSourceDescriptor& data_source_descriptor() const { return *data_source_descriptor_; }
+ DataSourceDescriptor* mutable_data_source_descriptor() { _has_field_.set(1); return data_source_descriptor_.get(); }
+
+ private:
+ ::protozero::CopyablePtr<DataSourceDescriptor> data_source_descriptor_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT InitializeConnectionResponse : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kUsingShmemProvidedByProducerFieldNumber = 1,
+ kDirectSmbPatchingSupportedFieldNumber = 2,
+ kUseShmemEmulationFieldNumber = 3,
+ };
+
+ InitializeConnectionResponse();
+ ~InitializeConnectionResponse() override;
+ InitializeConnectionResponse(InitializeConnectionResponse&&) noexcept;
+ InitializeConnectionResponse& operator=(InitializeConnectionResponse&&);
+ InitializeConnectionResponse(const InitializeConnectionResponse&);
+ InitializeConnectionResponse& operator=(const InitializeConnectionResponse&);
+ bool operator==(const InitializeConnectionResponse&) const;
+ bool operator!=(const InitializeConnectionResponse& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_using_shmem_provided_by_producer() const { return _has_field_[1]; }
+ bool using_shmem_provided_by_producer() const { return using_shmem_provided_by_producer_; }
+ void set_using_shmem_provided_by_producer(bool value) { using_shmem_provided_by_producer_ = value; _has_field_.set(1); }
+
+ bool has_direct_smb_patching_supported() const { return _has_field_[2]; }
+ bool direct_smb_patching_supported() const { return direct_smb_patching_supported_; }
+ void set_direct_smb_patching_supported(bool value) { direct_smb_patching_supported_ = value; _has_field_.set(2); }
+
+ bool has_use_shmem_emulation() const { return _has_field_[3]; }
+ bool use_shmem_emulation() const { return use_shmem_emulation_; }
+ void set_use_shmem_emulation(bool value) { use_shmem_emulation_ = value; _has_field_.set(3); }
+
+ private:
+ bool using_shmem_provided_by_producer_{};
+ bool direct_smb_patching_supported_{};
+ bool use_shmem_emulation_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<4> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT InitializeConnectionRequest : public ::protozero::CppMessageObj {
+ public:
+ using ProducerSMBScrapingMode = InitializeConnectionRequest_ProducerSMBScrapingMode;
+ static constexpr auto SMB_SCRAPING_UNSPECIFIED = InitializeConnectionRequest_ProducerSMBScrapingMode_SMB_SCRAPING_UNSPECIFIED;
+ static constexpr auto SMB_SCRAPING_ENABLED = InitializeConnectionRequest_ProducerSMBScrapingMode_SMB_SCRAPING_ENABLED;
+ static constexpr auto SMB_SCRAPING_DISABLED = InitializeConnectionRequest_ProducerSMBScrapingMode_SMB_SCRAPING_DISABLED;
+ static constexpr auto ProducerSMBScrapingMode_MIN = InitializeConnectionRequest_ProducerSMBScrapingMode_SMB_SCRAPING_UNSPECIFIED;
+ static constexpr auto ProducerSMBScrapingMode_MAX = InitializeConnectionRequest_ProducerSMBScrapingMode_SMB_SCRAPING_DISABLED;
+ enum FieldNumbers {
+ kSharedMemoryPageSizeHintBytesFieldNumber = 1,
+ kSharedMemorySizeHintBytesFieldNumber = 2,
+ kProducerNameFieldNumber = 3,
+ kSmbScrapingModeFieldNumber = 4,
+ kProducerProvidedShmemFieldNumber = 6,
+ kSdkVersionFieldNumber = 8,
+ kShmKeyWindowsFieldNumber = 7,
+ };
+
+ InitializeConnectionRequest();
+ ~InitializeConnectionRequest() override;
+ InitializeConnectionRequest(InitializeConnectionRequest&&) noexcept;
+ InitializeConnectionRequest& operator=(InitializeConnectionRequest&&);
+ InitializeConnectionRequest(const InitializeConnectionRequest&);
+ InitializeConnectionRequest& operator=(const InitializeConnectionRequest&);
+ bool operator==(const InitializeConnectionRequest&) const;
+ bool operator!=(const InitializeConnectionRequest& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_shared_memory_page_size_hint_bytes() const { return _has_field_[1]; }
+ uint32_t shared_memory_page_size_hint_bytes() const { return shared_memory_page_size_hint_bytes_; }
+ void set_shared_memory_page_size_hint_bytes(uint32_t value) { shared_memory_page_size_hint_bytes_ = value; _has_field_.set(1); }
+
+ bool has_shared_memory_size_hint_bytes() const { return _has_field_[2]; }
+ uint32_t shared_memory_size_hint_bytes() const { return shared_memory_size_hint_bytes_; }
+ void set_shared_memory_size_hint_bytes(uint32_t value) { shared_memory_size_hint_bytes_ = value; _has_field_.set(2); }
+
+ bool has_producer_name() const { return _has_field_[3]; }
+ const std::string& producer_name() const { return producer_name_; }
+ void set_producer_name(const std::string& value) { producer_name_ = value; _has_field_.set(3); }
+
+ bool has_smb_scraping_mode() const { return _has_field_[4]; }
+ InitializeConnectionRequest_ProducerSMBScrapingMode smb_scraping_mode() const { return smb_scraping_mode_; }
+ void set_smb_scraping_mode(InitializeConnectionRequest_ProducerSMBScrapingMode value) { smb_scraping_mode_ = value; _has_field_.set(4); }
+
+ bool has_producer_provided_shmem() const { return _has_field_[6]; }
+ bool producer_provided_shmem() const { return producer_provided_shmem_; }
+ void set_producer_provided_shmem(bool value) { producer_provided_shmem_ = value; _has_field_.set(6); }
+
+ bool has_sdk_version() const { return _has_field_[8]; }
+ const std::string& sdk_version() const { return sdk_version_; }
+ void set_sdk_version(const std::string& value) { sdk_version_ = value; _has_field_.set(8); }
+
+ bool has_shm_key_windows() const { return _has_field_[7]; }
+ const std::string& shm_key_windows() const { return shm_key_windows_; }
+ void set_shm_key_windows(const std::string& value) { shm_key_windows_ = value; _has_field_.set(7); }
+
+ private:
+ uint32_t shared_memory_page_size_hint_bytes_{};
+ uint32_t shared_memory_size_hint_bytes_{};
+ std::string producer_name_{};
+ InitializeConnectionRequest_ProducerSMBScrapingMode smb_scraping_mode_{};
+ bool producer_provided_shmem_{};
+ std::string sdk_version_{};
+ std::string shm_key_windows_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<9> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_IPC_PRODUCER_PORT_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/ipc/relay_port.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_IPC_RELAY_PORT_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_IPC_RELAY_PORT_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class SyncClockResponse;
+class SyncClockRequest;
+class SyncClockRequest_Clock;
+enum SyncClockRequest_Phase : int;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+enum SyncClockRequest_Phase : int {
+ SyncClockRequest_Phase_PING = 1,
+ SyncClockRequest_Phase_UPDATE = 2,
+};
+
+class PERFETTO_EXPORT_COMPONENT SyncClockResponse : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ };
+
+ SyncClockResponse();
+ ~SyncClockResponse() override;
+ SyncClockResponse(SyncClockResponse&&) noexcept;
+ SyncClockResponse& operator=(SyncClockResponse&&);
+ SyncClockResponse(const SyncClockResponse&);
+ SyncClockResponse& operator=(const SyncClockResponse&);
+ bool operator==(const SyncClockResponse&) const;
+ bool operator!=(const SyncClockResponse& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ private:
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT SyncClockRequest : public ::protozero::CppMessageObj {
+ public:
+ using Clock = SyncClockRequest_Clock;
+ using Phase = SyncClockRequest_Phase;
+ static constexpr auto PING = SyncClockRequest_Phase_PING;
+ static constexpr auto UPDATE = SyncClockRequest_Phase_UPDATE;
+ static constexpr auto Phase_MIN = SyncClockRequest_Phase_PING;
+ static constexpr auto Phase_MAX = SyncClockRequest_Phase_UPDATE;
+ enum FieldNumbers {
+ kPhaseFieldNumber = 1,
+ kClocksFieldNumber = 2,
+ };
+
+ SyncClockRequest();
+ ~SyncClockRequest() override;
+ SyncClockRequest(SyncClockRequest&&) noexcept;
+ SyncClockRequest& operator=(SyncClockRequest&&);
+ SyncClockRequest(const SyncClockRequest&);
+ SyncClockRequest& operator=(const SyncClockRequest&);
+ bool operator==(const SyncClockRequest&) const;
+ bool operator!=(const SyncClockRequest& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_phase() const { return _has_field_[1]; }
+ SyncClockRequest_Phase phase() const { return phase_; }
+ void set_phase(SyncClockRequest_Phase value) { phase_ = value; _has_field_.set(1); }
+
+ const std::vector<SyncClockRequest_Clock>& clocks() const { return clocks_; }
+ std::vector<SyncClockRequest_Clock>* mutable_clocks() { return &clocks_; }
+ int clocks_size() const;
+ void clear_clocks();
+ SyncClockRequest_Clock* add_clocks();
+
+ private:
+ SyncClockRequest_Phase phase_{};
+ std::vector<SyncClockRequest_Clock> clocks_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<3> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT SyncClockRequest_Clock : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kClockIdFieldNumber = 1,
+ kTimestampFieldNumber = 2,
+ };
+
+ SyncClockRequest_Clock();
+ ~SyncClockRequest_Clock() override;
+ SyncClockRequest_Clock(SyncClockRequest_Clock&&) noexcept;
+ SyncClockRequest_Clock& operator=(SyncClockRequest_Clock&&);
+ SyncClockRequest_Clock(const SyncClockRequest_Clock&);
+ SyncClockRequest_Clock& operator=(const SyncClockRequest_Clock&);
+ bool operator==(const SyncClockRequest_Clock&) const;
+ bool operator!=(const SyncClockRequest_Clock& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_clock_id() const { return _has_field_[1]; }
+ uint32_t clock_id() const { return clock_id_; }
+ void set_clock_id(uint32_t value) { clock_id_ = value; _has_field_.set(1); }
+
+ bool has_timestamp() const { return _has_field_[2]; }
+ uint64_t timestamp() const { return timestamp_; }
+ void set_timestamp(uint64_t value) { timestamp_ = value; _has_field_.set(2); }
+
+ private:
+ uint32_t clock_id_{};
+ uint64_t timestamp_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<3> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_IPC_RELAY_PORT_PROTO_CPP_H_
+// gen_amalgamated begin header: gen/protos/perfetto/ipc/wire_protocol.gen.h
+// DO NOT EDIT. Autogenerated by Perfetto cppgen_plugin
+#ifndef PERFETTO_PROTOS_PROTOS_PERFETTO_IPC_WIRE_PROTOCOL_PROTO_CPP_H_
+#define PERFETTO_PROTOS_PROTOS_PERFETTO_IPC_WIRE_PROTOCOL_PROTO_CPP_H_
+
+#include <stdint.h>
+#include <bitset>
+#include <vector>
+#include <string>
+#include <type_traits>
+
+// gen_amalgamated expanded: #include "perfetto/protozero/cpp_message_obj.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/copyable_ptr.h"
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+class IPCFrame;
+class IPCFrame_SetPeerIdentity;
+class IPCFrame_RequestError;
+class IPCFrame_InvokeMethodReply;
+class IPCFrame_InvokeMethod;
+class IPCFrame_BindServiceReply;
+class IPCFrame_BindServiceReply_MethodInfo;
+class IPCFrame_BindService;
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+namespace protozero {
+class Message;
+} // namespace protozero
+
+namespace perfetto {
+namespace protos {
+namespace gen {
+
+class PERFETTO_EXPORT_COMPONENT IPCFrame : public ::protozero::CppMessageObj {
+ public:
+ using BindService = IPCFrame_BindService;
+ using BindServiceReply = IPCFrame_BindServiceReply;
+ using InvokeMethod = IPCFrame_InvokeMethod;
+ using InvokeMethodReply = IPCFrame_InvokeMethodReply;
+ using RequestError = IPCFrame_RequestError;
+ using SetPeerIdentity = IPCFrame_SetPeerIdentity;
+ enum FieldNumbers {
+ kRequestIdFieldNumber = 2,
+ kMsgBindServiceFieldNumber = 3,
+ kMsgBindServiceReplyFieldNumber = 4,
+ kMsgInvokeMethodFieldNumber = 5,
+ kMsgInvokeMethodReplyFieldNumber = 6,
+ kMsgRequestErrorFieldNumber = 7,
+ kSetPeerIdentityFieldNumber = 8,
+ kDataForTestingFieldNumber = 1,
+ };
+
+ IPCFrame();
+ ~IPCFrame() override;
+ IPCFrame(IPCFrame&&) noexcept;
+ IPCFrame& operator=(IPCFrame&&);
+ IPCFrame(const IPCFrame&);
+ IPCFrame& operator=(const IPCFrame&);
+ bool operator==(const IPCFrame&) const;
+ bool operator!=(const IPCFrame& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_request_id() const { return _has_field_[2]; }
+ uint64_t request_id() const { return request_id_; }
+ void set_request_id(uint64_t value) { request_id_ = value; _has_field_.set(2); }
+
+ bool has_msg_bind_service() const { return _has_field_[3]; }
+ const IPCFrame_BindService& msg_bind_service() const { return *msg_bind_service_; }
+ IPCFrame_BindService* mutable_msg_bind_service() { _has_field_.set(3); return msg_bind_service_.get(); }
+
+ bool has_msg_bind_service_reply() const { return _has_field_[4]; }
+ const IPCFrame_BindServiceReply& msg_bind_service_reply() const { return *msg_bind_service_reply_; }
+ IPCFrame_BindServiceReply* mutable_msg_bind_service_reply() { _has_field_.set(4); return msg_bind_service_reply_.get(); }
+
+ bool has_msg_invoke_method() const { return _has_field_[5]; }
+ const IPCFrame_InvokeMethod& msg_invoke_method() const { return *msg_invoke_method_; }
+ IPCFrame_InvokeMethod* mutable_msg_invoke_method() { _has_field_.set(5); return msg_invoke_method_.get(); }
+
+ bool has_msg_invoke_method_reply() const { return _has_field_[6]; }
+ const IPCFrame_InvokeMethodReply& msg_invoke_method_reply() const { return *msg_invoke_method_reply_; }
+ IPCFrame_InvokeMethodReply* mutable_msg_invoke_method_reply() { _has_field_.set(6); return msg_invoke_method_reply_.get(); }
+
+ bool has_msg_request_error() const { return _has_field_[7]; }
+ const IPCFrame_RequestError& msg_request_error() const { return *msg_request_error_; }
+ IPCFrame_RequestError* mutable_msg_request_error() { _has_field_.set(7); return msg_request_error_.get(); }
+
+ bool has_set_peer_identity() const { return _has_field_[8]; }
+ const IPCFrame_SetPeerIdentity& set_peer_identity() const { return *set_peer_identity_; }
+ IPCFrame_SetPeerIdentity* mutable_set_peer_identity() { _has_field_.set(8); return set_peer_identity_.get(); }
+
+ const std::vector<std::string>& data_for_testing() const { return data_for_testing_; }
+ std::vector<std::string>* mutable_data_for_testing() { return &data_for_testing_; }
+ int data_for_testing_size() const { return static_cast<int>(data_for_testing_.size()); }
+ void clear_data_for_testing() { data_for_testing_.clear(); }
+ void add_data_for_testing(std::string value) { data_for_testing_.emplace_back(value); }
+ std::string* add_data_for_testing() { data_for_testing_.emplace_back(); return &data_for_testing_.back(); }
+
+ private:
+ uint64_t request_id_{};
+ ::protozero::CopyablePtr<IPCFrame_BindService> msg_bind_service_;
+ ::protozero::CopyablePtr<IPCFrame_BindServiceReply> msg_bind_service_reply_;
+ ::protozero::CopyablePtr<IPCFrame_InvokeMethod> msg_invoke_method_;
+ ::protozero::CopyablePtr<IPCFrame_InvokeMethodReply> msg_invoke_method_reply_;
+ ::protozero::CopyablePtr<IPCFrame_RequestError> msg_request_error_;
+ ::protozero::CopyablePtr<IPCFrame_SetPeerIdentity> set_peer_identity_;
+ std::vector<std::string> data_for_testing_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<9> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT IPCFrame_SetPeerIdentity : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kPidFieldNumber = 1,
+ kUidFieldNumber = 2,
+ kMachineIdHintFieldNumber = 3,
+ };
+
+ IPCFrame_SetPeerIdentity();
+ ~IPCFrame_SetPeerIdentity() override;
+ IPCFrame_SetPeerIdentity(IPCFrame_SetPeerIdentity&&) noexcept;
+ IPCFrame_SetPeerIdentity& operator=(IPCFrame_SetPeerIdentity&&);
+ IPCFrame_SetPeerIdentity(const IPCFrame_SetPeerIdentity&);
+ IPCFrame_SetPeerIdentity& operator=(const IPCFrame_SetPeerIdentity&);
+ bool operator==(const IPCFrame_SetPeerIdentity&) const;
+ bool operator!=(const IPCFrame_SetPeerIdentity& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_pid() const { return _has_field_[1]; }
+ int32_t pid() const { return pid_; }
+ void set_pid(int32_t value) { pid_ = value; _has_field_.set(1); }
+
+ bool has_uid() const { return _has_field_[2]; }
+ int32_t uid() const { return uid_; }
+ void set_uid(int32_t value) { uid_ = value; _has_field_.set(2); }
+
+ bool has_machine_id_hint() const { return _has_field_[3]; }
+ const std::string& machine_id_hint() const { return machine_id_hint_; }
+ void set_machine_id_hint(const std::string& value) { machine_id_hint_ = value; _has_field_.set(3); }
+
+ private:
+ int32_t pid_{};
+ int32_t uid_{};
+ std::string machine_id_hint_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<4> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT IPCFrame_RequestError : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kErrorFieldNumber = 1,
+ };
+
+ IPCFrame_RequestError();
+ ~IPCFrame_RequestError() override;
+ IPCFrame_RequestError(IPCFrame_RequestError&&) noexcept;
+ IPCFrame_RequestError& operator=(IPCFrame_RequestError&&);
+ IPCFrame_RequestError(const IPCFrame_RequestError&);
+ IPCFrame_RequestError& operator=(const IPCFrame_RequestError&);
+ bool operator==(const IPCFrame_RequestError&) const;
+ bool operator!=(const IPCFrame_RequestError& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_error() const { return _has_field_[1]; }
+ const std::string& error() const { return error_; }
+ void set_error(const std::string& value) { error_ = value; _has_field_.set(1); }
+
+ private:
+ std::string error_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT IPCFrame_InvokeMethodReply : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kSuccessFieldNumber = 1,
+ kHasMoreFieldNumber = 2,
+ kReplyProtoFieldNumber = 3,
+ };
+
+ IPCFrame_InvokeMethodReply();
+ ~IPCFrame_InvokeMethodReply() override;
+ IPCFrame_InvokeMethodReply(IPCFrame_InvokeMethodReply&&) noexcept;
+ IPCFrame_InvokeMethodReply& operator=(IPCFrame_InvokeMethodReply&&);
+ IPCFrame_InvokeMethodReply(const IPCFrame_InvokeMethodReply&);
+ IPCFrame_InvokeMethodReply& operator=(const IPCFrame_InvokeMethodReply&);
+ bool operator==(const IPCFrame_InvokeMethodReply&) const;
+ bool operator!=(const IPCFrame_InvokeMethodReply& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_success() const { return _has_field_[1]; }
+ bool success() const { return success_; }
+ void set_success(bool value) { success_ = value; _has_field_.set(1); }
+
+ bool has_has_more() const { return _has_field_[2]; }
+ bool has_more() const { return has_more_; }
+ void set_has_more(bool value) { has_more_ = value; _has_field_.set(2); }
+
+ bool has_reply_proto() const { return _has_field_[3]; }
+ const std::string& reply_proto() const { return reply_proto_; }
+ void set_reply_proto(const std::string& value) { reply_proto_ = value; _has_field_.set(3); }
+ void set_reply_proto(const void* p, size_t s) { reply_proto_.assign(reinterpret_cast<const char*>(p), s); _has_field_.set(3); }
+
+ private:
+ bool success_{};
+ bool has_more_{};
+ std::string reply_proto_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<4> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT IPCFrame_InvokeMethod : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kServiceIdFieldNumber = 1,
+ kMethodIdFieldNumber = 2,
+ kArgsProtoFieldNumber = 3,
+ kDropReplyFieldNumber = 4,
+ };
+
+ IPCFrame_InvokeMethod();
+ ~IPCFrame_InvokeMethod() override;
+ IPCFrame_InvokeMethod(IPCFrame_InvokeMethod&&) noexcept;
+ IPCFrame_InvokeMethod& operator=(IPCFrame_InvokeMethod&&);
+ IPCFrame_InvokeMethod(const IPCFrame_InvokeMethod&);
+ IPCFrame_InvokeMethod& operator=(const IPCFrame_InvokeMethod&);
+ bool operator==(const IPCFrame_InvokeMethod&) const;
+ bool operator!=(const IPCFrame_InvokeMethod& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_service_id() const { return _has_field_[1]; }
+ uint32_t service_id() const { return service_id_; }
+ void set_service_id(uint32_t value) { service_id_ = value; _has_field_.set(1); }
+
+ bool has_method_id() const { return _has_field_[2]; }
+ uint32_t method_id() const { return method_id_; }
+ void set_method_id(uint32_t value) { method_id_ = value; _has_field_.set(2); }
+
+ bool has_args_proto() const { return _has_field_[3]; }
+ const std::string& args_proto() const { return args_proto_; }
+ void set_args_proto(const std::string& value) { args_proto_ = value; _has_field_.set(3); }
+ void set_args_proto(const void* p, size_t s) { args_proto_.assign(reinterpret_cast<const char*>(p), s); _has_field_.set(3); }
+
+ bool has_drop_reply() const { return _has_field_[4]; }
+ bool drop_reply() const { return drop_reply_; }
+ void set_drop_reply(bool value) { drop_reply_ = value; _has_field_.set(4); }
+
+ private:
+ uint32_t service_id_{};
+ uint32_t method_id_{};
+ std::string args_proto_{};
+ bool drop_reply_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<5> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT IPCFrame_BindServiceReply : public ::protozero::CppMessageObj {
+ public:
+ using MethodInfo = IPCFrame_BindServiceReply_MethodInfo;
+ enum FieldNumbers {
+ kSuccessFieldNumber = 1,
+ kServiceIdFieldNumber = 2,
+ kMethodsFieldNumber = 3,
+ };
+
+ IPCFrame_BindServiceReply();
+ ~IPCFrame_BindServiceReply() override;
+ IPCFrame_BindServiceReply(IPCFrame_BindServiceReply&&) noexcept;
+ IPCFrame_BindServiceReply& operator=(IPCFrame_BindServiceReply&&);
+ IPCFrame_BindServiceReply(const IPCFrame_BindServiceReply&);
+ IPCFrame_BindServiceReply& operator=(const IPCFrame_BindServiceReply&);
+ bool operator==(const IPCFrame_BindServiceReply&) const;
+ bool operator!=(const IPCFrame_BindServiceReply& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_success() const { return _has_field_[1]; }
+ bool success() const { return success_; }
+ void set_success(bool value) { success_ = value; _has_field_.set(1); }
+
+ bool has_service_id() const { return _has_field_[2]; }
+ uint32_t service_id() const { return service_id_; }
+ void set_service_id(uint32_t value) { service_id_ = value; _has_field_.set(2); }
+
+ const std::vector<IPCFrame_BindServiceReply_MethodInfo>& methods() const { return methods_; }
+ std::vector<IPCFrame_BindServiceReply_MethodInfo>* mutable_methods() { return &methods_; }
+ int methods_size() const;
+ void clear_methods();
+ IPCFrame_BindServiceReply_MethodInfo* add_methods();
+
+ private:
+ bool success_{};
+ uint32_t service_id_{};
+ std::vector<IPCFrame_BindServiceReply_MethodInfo> methods_;
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<4> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT IPCFrame_BindServiceReply_MethodInfo : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kIdFieldNumber = 1,
+ kNameFieldNumber = 2,
+ };
+
+ IPCFrame_BindServiceReply_MethodInfo();
+ ~IPCFrame_BindServiceReply_MethodInfo() override;
+ IPCFrame_BindServiceReply_MethodInfo(IPCFrame_BindServiceReply_MethodInfo&&) noexcept;
+ IPCFrame_BindServiceReply_MethodInfo& operator=(IPCFrame_BindServiceReply_MethodInfo&&);
+ IPCFrame_BindServiceReply_MethodInfo(const IPCFrame_BindServiceReply_MethodInfo&);
+ IPCFrame_BindServiceReply_MethodInfo& operator=(const IPCFrame_BindServiceReply_MethodInfo&);
+ bool operator==(const IPCFrame_BindServiceReply_MethodInfo&) const;
+ bool operator!=(const IPCFrame_BindServiceReply_MethodInfo& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_id() const { return _has_field_[1]; }
+ uint32_t id() const { return id_; }
+ void set_id(uint32_t value) { id_ = value; _has_field_.set(1); }
+
+ bool has_name() const { return _has_field_[2]; }
+ const std::string& name() const { return name_; }
+ void set_name(const std::string& value) { name_ = value; _has_field_.set(2); }
+
+ private:
+ uint32_t id_{};
+ std::string name_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<3> _has_field_{};
+};
+
+
+class PERFETTO_EXPORT_COMPONENT IPCFrame_BindService : public ::protozero::CppMessageObj {
+ public:
+ enum FieldNumbers {
+ kServiceNameFieldNumber = 1,
+ };
+
+ IPCFrame_BindService();
+ ~IPCFrame_BindService() override;
+ IPCFrame_BindService(IPCFrame_BindService&&) noexcept;
+ IPCFrame_BindService& operator=(IPCFrame_BindService&&);
+ IPCFrame_BindService(const IPCFrame_BindService&);
+ IPCFrame_BindService& operator=(const IPCFrame_BindService&);
+ bool operator==(const IPCFrame_BindService&) const;
+ bool operator!=(const IPCFrame_BindService& other) const { return !(*this == other); }
+
+ bool ParseFromArray(const void*, size_t) override;
+ std::string SerializeAsString() const override;
+ std::vector<uint8_t> SerializeAsArray() const override;
+ void Serialize(::protozero::Message*) const;
+
+ bool has_service_name() const { return _has_field_[1]; }
+ const std::string& service_name() const { return service_name_; }
+ void set_service_name(const std::string& value) { service_name_ = value; _has_field_.set(1); }
+
+ private:
+ std::string service_name_{};
+
+ // Allows to preserve unknown protobuf fields for compatibility
+ // with future versions of .proto files.
+ std::string unknown_fields_;
+
+ std::bitset<2> _has_field_{};
+};
+
+} // namespace perfetto
+} // namespace protos
+} // namespace gen
+
+#endif // PERFETTO_PROTOS_PROTOS_PERFETTO_IPC_WIRE_PROTOCOL_PROTO_CPP_H_
+// gen_amalgamated begin header: include/perfetto/protozero/gen_field_helpers.h
+/*
+ * Copyright (C) 2023 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_PROTOZERO_GEN_FIELD_HELPERS_H_
+#define INCLUDE_PERFETTO_PROTOZERO_GEN_FIELD_HELPERS_H_
+
+// gen_amalgamated expanded: #include "perfetto/protozero/message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_decoder.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/proto_utils.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_heap_buffer.h"
+
+namespace protozero {
+namespace internal {
+namespace gen_helpers {
+
+// This file implements some helpers used by the protobuf generated code in the
+// .gen.cc files.
+//
+// The .gen.cc generated protobuf implementation (as opposed to the .pbzero.h
+// implementation) is not zero-copy and is not supposed to be used in fast
+// paths, so most of these helpers are designed to reduce binary size.
+
+void DeserializeString(const protozero::Field& field, std::string* dst);
+
+// Read packed repeated elements (serialized as `wire_type`) from `field` into
+// the `*dst` vector. Returns false if some bytes of `field` could not be
+// interpreted correctly as `wire_type`.
+template <proto_utils::ProtoWireType wire_type, typename CppType>
+bool DeserializePackedRepeated(const protozero::Field& field,
+ std::vector<CppType>* dst) {
+ bool parse_error = false;
+ for (::protozero::PackedRepeatedFieldIterator<wire_type, CppType> rep(
+ field.data(), field.size(), &parse_error);
+ rep; ++rep) {
+ dst->emplace_back(*rep);
+ }
+ return !parse_error;
+}
+
+extern template bool
+DeserializePackedRepeated<proto_utils::ProtoWireType::kVarInt, uint64_t>(
+ const protozero::Field& field,
+ std::vector<uint64_t>* dst);
+
+extern template bool
+DeserializePackedRepeated<proto_utils::ProtoWireType::kVarInt, int64_t>(
+ const protozero::Field& field,
+ std::vector<int64_t>* dst);
+
+extern template bool
+DeserializePackedRepeated<proto_utils::ProtoWireType::kVarInt, uint32_t>(
+ const protozero::Field& field,
+ std::vector<uint32_t>* dst);
+
+extern template bool
+DeserializePackedRepeated<proto_utils::ProtoWireType::kVarInt, int32_t>(
+ const protozero::Field& field,
+ std::vector<int32_t>* dst);
+
+// Serializers for different type of fields
+
+void SerializeTinyVarInt(uint32_t field_id, bool value, Message* msg);
+
+template <typename T>
+void SerializeExtendedVarInt(uint32_t field_id, T value, Message* msg) {
+ msg->AppendVarInt(field_id, value);
+}
+
+extern template void SerializeExtendedVarInt<uint64_t>(uint32_t field_id,
+ uint64_t value,
+ Message* msg);
+
+extern template void SerializeExtendedVarInt<uint32_t>(uint32_t field_id,
+ uint32_t value,
+ Message* msg);
+
+template <typename T>
+void SerializeVarInt(uint32_t field_id, T value, Message* msg) {
+ SerializeExtendedVarInt(
+ field_id, proto_utils::ExtendValueForVarIntSerialization(value), msg);
+}
+
+template <typename T>
+void SerializeSignedVarInt(uint32_t field_id, T value, Message* msg) {
+ SerializeVarInt(field_id, proto_utils::ZigZagEncode(value), msg);
+}
+
+template <typename T>
+void SerializeFixed(uint32_t field_id, T value, Message* msg) {
+ msg->AppendFixed(field_id, value);
+}
+
+extern template void SerializeFixed<double>(uint32_t field_id,
+ double value,
+ Message* msg);
+
+extern template void SerializeFixed<float>(uint32_t field_id,
+ float value,
+ Message* msg);
+
+extern template void SerializeFixed<uint64_t>(uint32_t field_id,
+ uint64_t value,
+ Message* msg);
+
+extern template void SerializeFixed<int64_t>(uint32_t field_id,
+ int64_t value,
+ Message* msg);
+
+extern template void SerializeFixed<uint32_t>(uint32_t field_id,
+ uint32_t value,
+ Message* msg);
+
+extern template void SerializeFixed<int32_t>(uint32_t field_id,
+ int32_t value,
+ Message* msg);
+
+void SerializeString(uint32_t field_id, const std::string& value, Message* msg);
+
+void SerializeUnknownFields(const std::string& unknown_fields, Message* msg);
+
+// Wrapper around HeapBuffered that avoids inlining.
+class MessageSerializer {
+ public:
+ MessageSerializer();
+ ~MessageSerializer();
+
+ Message* get() { return msg_.get(); }
+ std::vector<uint8_t> SerializeAsArray();
+ std::string SerializeAsString();
+
+ private:
+ HeapBuffered<Message> msg_;
+};
+
+// Wrapper about operator==() which reduces the binary size of generated protos.
+// This is needed because std::string's operator== is inlined aggressively (even
+// when optimizing for size). Having this layer of indirection with removes the
+// overhead.
+template <typename T>
+bool EqualsField(const T& a, const T& b) {
+ return a == b;
+}
+extern template bool EqualsField<std::string>(const std::string&,
+ const std::string&);
+
+} // namespace gen_helpers
+} // namespace internal
+} // namespace protozero
+
+#endif // INCLUDE_PERFETTO_PROTOZERO_GEN_FIELD_HELPERS_H_
+// gen_amalgamated begin header: include/perfetto/protozero/scattered_stream_null_delegate.h
+/*
+ * Copyright (C) 2018 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_PROTOZERO_SCATTERED_STREAM_NULL_DELEGATE_H_
+#define INCLUDE_PERFETTO_PROTOZERO_SCATTERED_STREAM_NULL_DELEGATE_H_
+
+#include <memory>
+#include <vector>
+
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+// gen_amalgamated expanded: #include "perfetto/base/logging.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/contiguous_memory_range.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_stream_writer.h"
+
+namespace protozero {
+
+class PERFETTO_EXPORT_COMPONENT ScatteredStreamWriterNullDelegate
+ : public ScatteredStreamWriter::Delegate {
+ public:
+ explicit ScatteredStreamWriterNullDelegate(size_t chunk_size);
+ ~ScatteredStreamWriterNullDelegate() override;
+
+ // protozero::ScatteredStreamWriter::Delegate implementation.
+ ContiguousMemoryRange GetNewBuffer() override;
+
+ private:
+ const size_t chunk_size_;
+ std::unique_ptr<uint8_t[]> chunk_;
+};
+
+} // namespace protozero
+
+#endif // INCLUDE_PERFETTO_PROTOZERO_SCATTERED_STREAM_NULL_DELEGATE_H_
+// gen_amalgamated begin header: include/perfetto/protozero/static_buffer.h
+/*
+ * Copyright (C) 2019 The Android Open Source Project
+ *
+ * Licensed under the Apache License, Version 2.0 (the "License");
+ * you may not use this file except in compliance with the License.
+ * You may obtain a copy of the License at
+ *
+ * http://www.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+#ifndef INCLUDE_PERFETTO_PROTOZERO_STATIC_BUFFER_H_
+#define INCLUDE_PERFETTO_PROTOZERO_STATIC_BUFFER_H_
+
+#include <memory>
+#include <string>
+#include <vector>
+
+// gen_amalgamated expanded: #include "perfetto/base/export.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/root_message.h"
+// gen_amalgamated expanded: #include "perfetto/protozero/scattered_stream_writer.h"
+
+namespace protozero {
+
+class Message;
+
+// A simple implementation of ScatteredStreamWriter::Delegate backed by a
+// fixed-size buffer. It doesn't support expansion. The caller needs to ensure
+// to never write more than the size of the buffer. Will CHECK() otherwise.
+class PERFETTO_EXPORT_COMPONENT StaticBufferDelegate
+ : public ScatteredStreamWriter::Delegate {
+ public:
+ StaticBufferDelegate(uint8_t* buf, size_t len) : range_{buf, buf + len} {}
+ ~StaticBufferDelegate() override;
+
+ // ScatteredStreamWriter::Delegate implementation.
+ ContiguousMemoryRange GetNewBuffer() override;
+
+ ContiguousMemoryRange const range_;
+ bool get_new_buffer_called_once_ = false;
+};
+
+// Helper function to create protozero messages backed by a fixed-size buffer
+// in one line. You can write:
+// protozero::Static<protozero::MyMessage> msg(buf.data(), buf.size());
+// msg->set_stuff(...);
+// size_t bytes_encoded = msg.Finalize();
+template <typename T /* protozero::Message */>
+class StaticBuffered {
+ public:
+ StaticBuffered(void* buf, size_t len)
+ : delegate_(reinterpret_cast<uint8_t*>(buf), len), writer_(&delegate_) {
+ msg_.Reset(&writer_);
+ }
+
+ // This can't be neither copied nor moved because Message hands out pointers
+ // to itself when creating submessages.
+ StaticBuffered(const StaticBuffered&) = delete;
+ StaticBuffered& operator=(const StaticBuffered&) = delete;
+ StaticBuffered(StaticBuffered&&) = delete;
+ StaticBuffered& operator=(StaticBuffered&&) = delete;
+
+ T* get() { return &msg_; }
+ T* operator->() { return &msg_; }
+
+ // The lack of a size() method is deliberate. It's to prevent that one
+ // accidentally calls size() before Finalize().
+
+ // Returns the number of encoded bytes (<= the size passed in the ctor).
+ size_t Finalize() {
+ msg_.Finalize();
+ return static_cast<size_t>(writer_.write_ptr() - delegate_.range_.begin);
+ }
+
+ private:
+ StaticBufferDelegate delegate_;
+ ScatteredStreamWriter writer_;
+ RootMessage<T> msg_;
+};
+
+// Helper function to create stack-based protozero messages in one line.
+// You can write:
+// protozero::StackBuffered<protozero::MyMessage, 16> msg;
+// msg->set_stuff(...);
+// size_t bytes_encoded = msg.Finalize();
+template <typename T /* protozero::Message */, size_t N>
+class StackBuffered : public StaticBuffered<T> {
+ public:
+ StackBuffered() : StaticBuffered<T>(&buf_[0], N) {}
+
+ private:
+ uint8_t buf_[N]; // Deliberately not initialized.
+};
+
+} // namespace protozero
+
+#endif // INCLUDE_PERFETTO_PROTOZERO_STATIC_BUFFER_H_
+
generated by cgit v1.2.3 (git 2.25.1) at 2024-05-03 06:30:38 +0000